CN113433981A - Intelligent positive and negative pressure system, operation method thereof and intelligent positive and negative piezoelectric device - Google Patents

Abstract

The invention relates to an intelligent positive and negative pressure system, an operation method thereof and an intelligent positive and negative piezoelectric device, comprising: the positive and negative pressure intelligent fresh-keeping refrigerator, positive and negative pressure intelligent washing machine, positive and negative pressure intelligent dish washing fruit and vegetable cleaning machine, positive and negative pressure oil smoke machine, positive and negative pressure roasting and frying microwave oven, positive and negative pressure fresh-keeping carriage container and fresh-keeping warehouse, positive and negative pressure sterilizer, positive and negative pressure module cabinet; the positive and negative pressure system controls fluid and carried objects thereof to target and influence objects in a specific space by positive and negative pressure; the positive and negative pressure system has the carrier performance with super large capacity and the platform advantage of cross-boundary expansion, can regulate and integrate a plurality of technologies such as vacuum, high pressure, superoxide, catalyst, air conditioning, negative ions, disinfection and purification, humidity and temperature control, air water production, low-temperature storage, clothes washing and drying, food processing and the like, is applied to the positive and negative voltage electric appliance in a single or multiple combination way, intelligently regulates and accurately creates the optimal efficiency and the optimal environment for the operation of various electric appliances, innovations are made on the existing electric appliances and the traditional technology, and a new field of the positive and negative voltage electric appliance is developed.

Description

Intelligent positive and negative pressure system, operation method thereof and intelligent positive and negative piezoelectric device

Technical Field

The embodiment of the invention belongs to the field of electric appliances, and particularly relates to an intelligent positive and negative pressure system, an operation method thereof and an intelligent positive and negative voltage electric appliance.

Background

At present, electrical appliances such as refrigerators, washing machines and the like are increasingly popularized, however, in recent years, the updating and upgrading of household electrical appliance products cannot be satisfactory, for example, a refrigerator appears for over one hundred years, a basic storage method based on low-temperature bacteriostasis has not been technically broken through, technologies such as vacuum, high pressure, superoxide, gas regulation and the like have not been really applied to the electrical appliances such as the refrigerator, and the technologies of the household electrical appliances such as washing machines, dish washing and fruit and vegetable cleaning machines, smoke exhaust ventilators, microwave ovens and the like are also subjected to upgrading and upgrading.

Disclosure of Invention

The intelligent positive and negative pressure system is established according to a positive and negative pressure technology, and the positive and negative pressure technology is used for accurately influencing objects in a specific space by regulating and controlling fluid and carried objects thereof by positive and negative pressure; the technical principle and the basic operation method of the intelligent positive and negative pressure system are as follows: regulating fluid (such as air and water) intelligently by positive and negative pressure, or carrying effective load such as superoxide, catalyst, negative ion, air-conditioned gas, disinfectant, detergent, heat, water and the like, orderly entering or residing in a specific space (such as positive and negative ballast) and exerting required influence on objects in the space; the intelligent positive and negative pressure system uses the technical operation method, has the carrier performance with super large capacity and the platform advantage of cross-boundary expansion, can form a target influence method or a target treatment mode with various characteristics aiming at various influenced objects, can intelligently regulate and integrate a plurality of technologies such as vacuum, high pressure, super oxygen, catalyst, air conditioning and fresh keeping, negative ions, humidification, dehumidification, humidity and temperature control, sterilization, air purification, air water production, low-temperature storage, clothes cleaning and drying, food processing and the like, is applied to electrical equipment, transport compartment containers, warehouse warehouses and the like in a single or multiple combination way, intelligently and accurately regulates and creates the optimal environment and the optimal efficiency of the operation of various electrical appliances and equipment facilities, replaces the existing electrical appliances and the traditional technology, develops a new field of positive and negative piezoelectric devices, and uses the intelligent positive and negative pressure system and the operation method thereof due to the arrangement, are all referred to collectively as: an intelligent positive and negative piezoelectric device; the intelligent positive and negative piezoelectric device in the embodiment of the invention comprises: positive negative pressure fresh-keeping refrigerator of intelligence, positive negative pressure washing machine of intelligence, positive negative pressure fruit vegetables cleaning machine washes dishes, positive negative pressure oil cigarette machine of intelligence, positive negative pressure oven fryer microwave oven, the fresh-keeping carriage container of positive negative pressure of intelligence, the fresh-keeping warehouse of positive negative pressure of intelligence, positive negative pressure sterilizing machine of intelligence and the positive negative pressure module cabinet of intelligence.

The embodiment of the invention adopts the following technical scheme:

according to the first embodiment of the invention, an intelligent positive and negative pressure system is provided, which comprises a positive and negative pressure cabin (1), an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a water pump (16), a water inlet pump (17) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a water pump (16), a water inlet pump (17), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabins (1) are classified into a vacuum high pressure cabin (1-1), an atmospheric pressure circulation cabin (1-2) and an atmospheric pressure inlet and outlet cabin (1-3) according to the structure and pressure of the positive and negative pressure cabins; the positive and negative pressure cabin (1) is classified into a cabinet type positive and negative pressure cabin (1A), a positive and negative pressure refrigerating and fresh-keeping cabin (1B), a positive and negative pressure refrigerating and fresh-keeping cabin (1C), a common refrigerator cold room type positive and negative pressure fresh-keeping cabin (1D), a common refrigerator cold room type positive and negative pressure fresh-keeping cabin (1E), a washing machine type positive and negative pressure cabin (1F), a dishwasher type positive and negative pressure cabin (1G), a range hood type positive and negative pressure cabin (1H) and a microwave oven type positive and negative pressure cabin (1K) according to the shape and the characteristics, a carriage container type positive and negative pressure cabin (1M), a storage type positive and negative pressure cabin (1N), a modular positive and negative pressure cabin (1T), an open type positive and negative pressure cabin (1L), a ball type semi-ball type positive and negative pressure cabin (1Q), a cylinder type positive and negative pressure cabin (1U), a drawer type positive and negative pressure cabin (1Z), a non-airtight type positive and negative pressure cabin (1X) and a special-shaped positive and negative pressure cabin (1R); the internal structure of the positive and negative pressure cabin (1) comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin external sealed communicating device (1.4); an airtight mechanism (1.3) is arranged between the cabin body (1.1) and the cabin door (1.2); the cabin internal and external sealed communicating vessel (1.4) is arranged at the back or the side of the positive and negative pressure cabin (1), and pipelines and circuits for entering and exiting the positive and negative pressure cabin are connected to and enter and exit through the cabin internal and external sealed communicating vessel (1.4); the positive and negative pressure refrigerating and fresh-keeping cabin (1B) and the positive and negative pressure refrigerating and fresh-keeping cabin (1C) are provided with corresponding positive and negative pressure resisting structures, an air sealing mechanism (1.3) and an in-cabin external sealing communicating device (1.4) are arranged and installed, the vacuum high-pressure cabin (1-1) with air tightness belongs to the structure of the vacuum high-pressure cabin (1-1), the positive and negative pressure resisting standards of the vacuum high-pressure cabin (1-1) all adopt local instant atmospheric pressure as a zero standard, the positive pressure resisting standard is 0.01KPa higher than the zero standard and is up to a higher level, the negative pressure resisting standard is 0.01KPa lower than the zero standard and is up to a lower level, and the positive and negative pressure resisting strength is improved according to specific requirements and the configuration of the positive and negative pressure cabin; the refrigerating chamber type positive and negative pressure cabin (1C) and the freezing chamber type positive and negative pressure cabin (1D) of the common refrigerator are respectively provided with a positive and negative pressure system inside and outside the refrigerating chamber and the freezing chamber of the common refrigerator, but are not provided with an airtight mechanism (1.3) and an in-cabin external sealing communicating device (1.4), have no vacuum-resistant high-pressure structure and belong to a common sealed normal-pressure circulating cabin (1-2) or normal-pressure in-and-out cabin (1-3) structure; the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carried object generation processor (6) comprises an air conditioning device (6.1), an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), an ultrasonic generation water mixer (6.6), a disinfection and sterilization degradation device (6.9), a filtering and refreshing device (6.10), a stain and oil removing and cleaning device (6.11), a refrigerating and heating temperature control device (6.13), a carried object generator item-adding upgrading module (6.16), an airflow carried object generator (6.01), an airflow carried object generator assembly (6.02), a water flow carried object generator (6.03), a water flow carried object generator assembly (6.04) and an integrated pipeline type positive and negative pressure fluid carried object generator (6.05); the air conditioning device (6.1) is a membrane air separation air conditioning device; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the airflow load generator assembly (6.02), the water flow load generator assembly (6.04) and the integrated pipeline positive and negative pressure fluid load generator (6.05) each comprise any one or more of the unitary fluid load generators (6.1) to (6.16) as required; the integrated pipeline type positive and negative pressure fluid carried object generator (6.05) is a miniaturized, intelligent and integrated fluid carried object generator and sensor, and a connecting pipeline and a circuit thereof; the positive and negative pressure system comprises a positive and negative pressure airflow system and a positive and negative pressure water flow system according to fluid classification; the standard structure of the positive and negative pressure airflow system comprises a positive and negative pressure cabin (1), an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a touch screen and mobile phone monitoring and recognition system (12) and single fluid carried object generators (6.1) to (6.16) or a positive and negative pressure airflow carried object generator integration (6.02) or an integrated pipeline type positive and negative pressure fluid carried object generator (6.05); the intelligent positive and negative pressure air flow system also adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure air flow system comprises at least one or more of an air pump (2) or an air pump (3), a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), single fluid carried object generators (6.1-6.16), a positive and negative pressure air flow carried object generator assembly (6.02), an integrated pipeline type positive and negative pressure fluid carried object generator (6.05), a touch screen and a mobile phone monitoring and recognition system (12); an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), a touch screen and mobile phone monitoring and recognition system (12) and a positive and negative pressure airflow carried object generator assembly (6.02) are arranged outside the positive and negative pressure cabin; an air suction pipeline (A1) is installed at an air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), the other end of the air suction pipeline extends into the positive and negative pressure cabin 1 to form an air suction return port (c), an exhaust pipeline (A2) is installed at an air outlet (B) of the air suction pump (2), an electromagnetic valve (B2) is installed in the middle of the exhaust pipeline (A2), and an exhaust port is arranged at the other end of the exhaust pipeline; the electromagnetic valve (B1) is also connected with a carrying circulating pipeline (A5.1), the carrying circulating pipeline (A5.1) extends into the positive and negative pressure cabin (1) through the electromagnetic valve B1 and an air exhaust pipeline (A1) to form a carrying air inlet (j1), and the other end of the carrying circulating pipeline (A5.1) is connected with a carrying circulating air inlet (B2) of the air exhaust pump (2); the electromagnetic valve (B1) is also connected with a carried waste gas pumping and exhausting pipeline (A8), and the other end of the carried waste gas pumping and exhausting pipeline (A8) is connected with a carried waste gas pumping and exhausting port (s2) of an air conditioning device (6.1) integrated in a positive and negative pressure airflow carried product generator assembly (6.02); an air inflation pipeline (A3) is installed at an air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is installed in the middle of the air inflation pipeline (A3), the other end of the air inflation pipeline extends into the positive and negative pressure cabin (1) to form an air inflation inlet (f), an air inlet pipeline (A4) is installed at an air inlet (e) of the air inflation pump (3), an electromagnetic valve (B4) is installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is communicated with the atmosphere; the electromagnetic valve (B3) is also connected with a carrying circulating pipeline (A5), and the carrying circulating pipeline (A5) extends into the positive and negative pressure cabin 1 through the electromagnetic valve (B3) and an inflation pipeline (A3) to form a carrying return air port (j) thereof; the other end of the carrying circulation pipeline (A5) is connected with a carrying circulation air inlet (e2) of the inflator pump (3); a carrying air duct (A6) is installed at an air inlet (t) of the positive and negative pressure airflow carrying object generator assembly (6.02), an electromagnetic valve (B6) is installed at the other end of the carrying air duct (A6), a carrying air duct (A7) is installed at an air outlet(s) of the positive and negative pressure airflow carrying object generator assembly (6.02), an electromagnetic valve (B7) is installed in the middle of the carrying air duct (A7), and the other end of the carrying air duct extends into the positive and negative pressure cabin (1) to form a carrying inflation inlet (i); the electromagnetic valve (B6) is respectively connected with a carrying air extraction pipeline (A6.1) and a carrying air inlet pipeline (A6.2), the carrying air extraction pipeline (A6.1) is connected to the air extraction pipeline (A1) and then communicated with an air extraction opening (a) of the air extraction pump (2), and the carrying air inlet pipeline (A6.2) is connected to the air inflation pipeline (A3) and then communicated with an air outlet (d) of the air inflation pump (3); the middle part of the carrying air inlet pipeline (A6.2) is provided with an electromagnetic valve (B6.2), and the other end of the carrying air inlet pipeline extends into the positive and negative pressure cabin (1) to be connected to an integrated pipeline type positive and negative pressure fluid carrying object generator (6.05); when the carrying airflow entering the positive and negative pressure cabins (1) needs inflation circulation, the inflation inlet (f) is used as a carrying air return port (j) of the positive and negative pressure cabins (1), when the carrying airflow entering the positive and negative pressure cabins (1) needs air exhaust circulation, the air exhaust return port (c) is used as a carrying air inlet (j1) of the positive and negative pressure cabins (1), and the carrying inflation inlet (i) is used as a carrying air exhaust port (i1) of the positive and negative pressure cabins (1); the standard structure of the positive and negative pressure water flow system comprises a positive and negative pressure cabin (1), a water suction pump (16), a water inlet pump (17), a positive and negative pressure intelligent regulation and control device (5), a touch screen and mobile phone monitoring and identification system (12), a water flow carrying object generator (6.03) or a water flow carrying object generator assembly (6.04); the intelligent positive and negative pressure water flow system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure water flow system comprises a water suction pump (16) or a water inlet pump (17), and at least one or more of a positive and negative pressure cabin (1), the water suction pump (16), the water inlet pump (17), a positive and negative pressure intelligent regulation and control device (5), single fluid carried object generators (6.1-6.16), a water flow carried object generator assembly (6.04) and a touch screen and mobile phone monitoring and identification system (12); a water suction pump (16), a water inlet pump (17), a positive and negative pressure intelligent regulation and control device (5), a touch screen and mobile phone monitoring and recognition system (12) and a water flow carried object generator assembly (6.04) are arranged outside the positive and negative pressure cabin; a water pumping pipeline (A20) is installed at a water pumping port (w) of the water pumping pump (16), an electromagnetic valve (B20) is installed in the middle of the water pumping pipeline (A20), the other end of the water pumping pipeline extends into the positive and negative pressure cabin (1) to form a water pumping water outlet (L) of the positive and negative pressure cabin, a water discharging port (p) of the water pumping pump (16) is provided with a water discharging pipeline (A21), an electromagnetic valve (B21) is installed in the middle of the water discharging pipeline (A21), and the other; the electromagnetic valve (B20) is also connected with a carrying circulating pipeline (A19.1), the carrying circulating pipeline (A19.1) extends into the positive and negative pressure cabin (1) through the electromagnetic valve (B20) and a water pumping pipeline (A20) to form a carrying water inlet (L1), and the other end of the carrying circulating pipeline (A19.1) is connected with a carrying circulating water outlet (p2) of the water pumping pump (16); a water inlet pipeline (A15) is installed at a water outlet (u) of the water inlet pump (17), an electromagnetic valve (B15) is installed in the middle of the water inlet pipeline (A15), the other end of the water inlet pipeline extends into the positive and negative pressure cabin (1) to form a water source water inlet (T), a water inlet pipeline (A14) is installed at a water inlet (r) of the water inlet pump (17), an electromagnetic valve (B14) is installed in the middle of the water inlet pipeline (A14), and a water source is communicated with the other end of the water inlet pipeline; the electromagnetic valve (B15) is also connected with a carrying circulating pipeline (A19), the carrying circulating pipeline (A19) extends into the positive and negative pressure cabin (1) through the electromagnetic valve (B15) and a water inlet pipeline (A15) to form a carrying water return port (L2), and the other end of the carrying circulating pipeline (A19) is connected with a carrying circulating water inlet (r2) of the water inlet pump (17); a carrying water pipeline (A16) is installed at a water inlet v of the positive and negative pressure water flow carrying object generator assembly (6.03), an electromagnetic valve (B16) is installed at the other end of the carrying water pipeline (A16), a carrying water pipeline (A17) is installed at a water outlet (o) of the positive and negative pressure water flow carrying object generator assembly (6.03), an electromagnetic valve (B17) is installed in the middle of the carrying water pipeline (A17), and the other end of the carrying water pipeline extends into the positive and negative pressure cabin (1) to form a carrying water inlet (T1) of the positive and negative pressure water flow carrying object generator assembly; the electromagnetic valve (B16) is respectively connected with a carrying water pumping pipeline (A16.1) and a carrying water inlet pipeline (A16.2), the carrying water pumping pipeline (A16.1) is connected to a water pumping pipeline (A20) and then communicated with a water pumping port (w) of a water pumping pump (16), the carrying water inlet pipeline (A16.2) is connected to a water inlet pipeline (A15) and then communicated with a water outlet (u) of a water inlet pump (17), when carrying water flow entering the positive and negative ballast (1) needs water inlet circulation, a water source water inlet (T) is used as a carrying water return port (L2) of the positive and negative ballast (1), and when carrying water flow entering the positive and negative ballast (1) needs water pumping circulation, a water pumping water outlet (L) is used as a carrying water inlet (L1) of the positive and negative ballast (1); the touch screen and mobile phone monitoring and identifying system (12) comprises a box door touch screen (12.1), a mobile phone APP (12.2), a high-definition anti-fog camera shooting and identifying device (12.3) and a radar scanning and identifying device (12.5); the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the positive and negative pressure cabins; the inside of positive negative pressure cabin (1) is also installed positive negative pressure fluid and is carried thing generator (6), includes: an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying, dehumidifying and humidity controlling device (6.5), a sterilizing and degrading device (6.9), a filtering and refreshing device (6.10), a refrigerating, heating and temperature controlling device (6.13), a carried object generator item-adding upgrading module (6.16) or an integrated pipeline type positive and negative pressure fluid carried object generator (6.05); the inside of the positive and negative ballast (1) is also provided with a sensor (C) which comprises a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3), a negative ion sensor (C4), a chlorine dioxide sensor (C5), a humidity sensor (C6), an oxygen sensor (C7), a nitrogen sensor (C8), a disinfection degradation sensor (C9), an air particulate matter sensor (C10), a temperature sensor (C11), a carried substance sensor item-adding upgrading module (C12) and a sensor integration (CA); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; the sensor integration (CA) comprises at least one or more of monolithic sensors (C1) to (C12); all fluid carried objects generate the processor (6), the sensor (C), the electromagnetic valve (B), the air pump (2), the inflator pump (3), the water pump (16), the water inlet pump (17), the touch screen and the mobile phone monitoring and identifying system (12) are connected into the positive and negative pressure intelligent regulating and controlling device (5) through a line (D) or a cluster line (E).

According to a second embodiment of the present invention, an operation method of an intelligent positive and negative pressure system is provided, wherein the intelligent positive and negative pressure system is established according to a positive and negative pressure technology, and positive and negative pressure technology is used for regulating and controlling fluid and carried objects thereof to influence objects in a specific space by positive and negative pressure; the method principle and the basic operation method of the intelligent positive and negative pressure system are as follows: regulating fluid (such as air and water) intelligently by positive and negative pressure, or carrying various payloads such as superoxide, catalyst, negative ions, modified atmosphere gas, disinfectant, detergent, heat and water, orderly entering or staying in a specific space (such as positive and negative ballast) and exerting required influence on objects in the space; the specific operation method of the intelligent positive and negative pressure system is characterized in that the positive and negative pressure intelligent control device (5) calculates and processes real-time feedback information of the touch screen and the mobile phone monitoring and recognition system (12) and the sensors (C1) - (C12) according to a built-in program, prestored data and cloud data, and the touch screen and the mobile phone monitoring and recognition system (12), and the real-time feedback information of the sensors (C1) - (C12), and forms a target influence method or a target treatment mode with characteristics aiming at various affected objects, and the positive and negative pressure intelligent control device (5) sends specific instructions to the air pump (2), the air pump (3), the water pump (16), the water inlet pump (17), the related positive and negative pressure fluid carried object generator (6) and the related electromagnetic valve (C) in real time, accurately controls and timely adjusts the opening, closing and switching of the air pumping and circulating pipelines or the water pumping and water inlet and circulating pipelines, and intelligently controls the high and low pressure of the air flow and the carried objects or water flow and, The specific operation method comprises the following steps: the operation method (I) for regulating the inside of the positive and negative pressure cabin (1) to be negative pressure vacuum comprises the following steps: the positive and negative pressure intelligent control device (5) sends out a command to enable the electromagnetic valves (B1), (B2) to be opened (A1) and (A2) to exhaust air pipes, and the positive and negative pressure cabin air exhaust return air ports (c) → the air exhaust pipeline (A1) → the electromagnetic valves (B1) → (A1) → the air exhaust pump air inlets (a) → the air exhaust pump air outlets (B) → (A2) → (B2) → (A2) → the air is exhausted into the atmosphere (when any one of the pipelines is opened, all other irrelevant electromagnetic valves are closed, and the air exhaust pump (2) is started at the same time, so that the negative pressure vacuum is set in the positive and negative pressure cabin (1); the operation method (II) for regulating the inside of the positive and negative pressure cabin (1) to be positive air pressure and high pressure comprises the following steps: the positive and negative pressure intelligent control device (5) sends out a command, so that the electromagnetic valves (B3) and (B4) open (A3) and (A4) inflation pipelines, air enters from the atmosphere → (A4) → (B4) → (A4) → the inflator air inlet (e) → the inflator air outlet (d) → (A3) → (B3) → (A3) → the positive and negative ballast inflation air inlet (f), and simultaneously the inflator (3) is started, so that the positive and negative ballasts (1) are inflated to set positive pressure and high pressure; the specific operation methods (I) and (II) can only operate in a vacuum or high-pressure space, so the positive and negative pressure cabin (1) is classified into a vacuum high-pressure cabin (1-1), and the positive and negative pressure refrigerating and fresh-keeping cabin (1B), the positive and negative pressure refrigerating and fresh-keeping cabin (1C), the washing machine type positive and negative pressure cabin (1F), the dishwasher type positive and negative pressure cabin (1G) and the microwave oven type positive and negative pressure cabin (1K) belong to the vacuum high-pressure cabin; the operation method (III) for regulating and controlling the air flow and the inflow, outflow, circulation and retention of the carried objects of the air flow to the positive and negative ballast (1) comprises the following steps: firstly, flowing out: when the pressure in the cabin is negative or normal, the air flow and the carried objects flow out of the positive and negative pressure cabins, the air is pumped out of the air pumping pipeline by using an air pump (2) according to the specific operation method (I), and the relevant electromagnetic valve is opened when the pressure in the cabin is high, so that the air flows out of the air pumping pipeline; and secondly, flowing into: the air current and the carried objects thereof flow into the positive and negative pressure cabins, and are charged from an inflation pipeline or a carrying pipeline by using an inflation pump (3), and the specific method comprises the following steps: A. air current flows in: when the pressure in the cabin is high or normal, the airflow flows into the positive and negative pressure cabins, the inflation pump (3) is used for inflating from the inflation pipeline according to the specific operation method (II), and when the pressure in the cabin is negative, the relevant electromagnetic valve is opened, and the airflow automatically flows into the negative pressure cabin from the inflation pipeline; B. the carried airflow generated by the airflow carried generator assembly (6.02) flows into: the positive and negative pressure intelligent control device (5) sends out a command, so that the electromagnetic valves (B6) and (B7) are opened (A3), (A6.2), (A6) and (A7) are carried on an inflation pipeline, and relative air flow attachment generator → (A7) (B7) → (A7) → positive and negative ballast air inlet (i) in the air flow attachment generator integration (6.02) is opened simultaneously from atmospheric air intake → (A4) → (B4) → (A4) → inflator air inlet (e) → inflator outlet (d) → (A3) → (A6.2) → (A6) → (B6) → (A6) → air flow attachment generator → (I), and the air pump (3) and the relative air flow attachment generator are opened, so that air pressure and the attachment in the positive and negative (1) flow into a set standard; C. the carrier gas flow generated by the integrated pipeline type fluid carrier generator (6.05) flows into: the positive and negative pressure intelligent control device (5) sends out a command, so that the electromagnetic valve (B6.2) is opened (A3) and (A6.2) carries on an inflation pipeline, air enters from the atmosphere → (A4) → (B4) → (A4) → the inflator air inlet (e) → the inflator air outlet (d) → (A3) → (A6.2) → (B6.2) → (A6.2) → the relevant air flow carrying thing generator in the integrated pipeline type fluid carrying thing generator (6.05) → in the positive and negative pressure cabin, and simultaneously the air pump (3) and the relevant air flow carrying thing generator in the integrated pipeline type fluid carrying thing generator (6.05) are started, so that the air pressure and the air flow carrying thing in the positive and negative pressure cabin (1) flow into a set standard; thirdly, staying: when the airflow and the carried objects thereof need to be resided in the positive-negative pressure cabin, the positive-negative pressure intelligent regulation and control device (5) sends out an instruction, the airflow pressure and the carried objects in the cabin reach the standard firstly, and then the corresponding electromagnetic valve is closed; fourthly, circulation: A. and (3) inflation circulation: when the air flow and the goods to be carried in the air flow need to circulate flow through the positive and negative pressure fluid goods generator so that the pressure, concentration and components of the air flow and the goods to be carried in the positive and negative pressure cabins reach the standard, the positive and negative pressure intelligent control device (5) sends a command to open (A3), (A5), (A6), (A6.2) and (A7) goods circulation pipelines, the (B4) and the corresponding electromagnetic valves are closed, the air pump (3) and the related air flow goods generator are simultaneously opened, the goods to be carried are made to circulate, when the air conditioning device (6.1) operates, the partial pressure difference between two sides of the membranes is moderately increased, the air separation efficiency can be improved, meanwhile, the oxygen-rich waste gas or goods waste gas also needs to be pumped, at the moment, the electromagnetic valves (B637) (B2) are opened (A8), (A1) and (A2) are arranged on the waste gas pumping pipelines, and an exhaust gas pumping port (s2) → electromagnetic valve (B1) (A1) is arranged on the air inlet (A → 25) of the air pumping port (A) and discharging port) (A8536B 8236) is arranged on the air conditioning device (6.1) When the positive and negative pressure cabin enters the atmosphere, the air pump (2) is started at the same time, the circulation operation is carried out until the corresponding sensors in the positive and negative pressure cabin feed back air-conditioned air or the concentration, the composition or the pressure of the carried gas reach the standard, and the positive and negative pressure intelligent control device (5) sends a stop instruction; B. air extraction circulation: the positive and negative pressure intelligent regulation and control device (5) sends an instruction, an air suction pipeline is opened (A1), (A5.1), (A6.1), (A6) and (A7), a B2 and a related electromagnetic valve are closed, the air suction pump 2 and a related airflow carried object generator are simultaneously opened, carried object gas circularly flows until the concentration, the components or the pressure of the controlled atmosphere gas fed back by a corresponding sensor in the positive and negative pressure cabin reach the standard, and the positive and negative pressure intelligent regulation and control device (5) sends a stop instruction; the operation method of the positive and negative pressure cabin (1) comprises the steps of flowing out, flowing into the step of staying, circulating and operating in a normal pressure space, so that the positive and negative pressure cabin (1) is classified into a normal pressure circulating cabin (1-2) and a normal pressure in-out cabin (1-3), the cold storage chamber type positive and negative pressure fresh-keeping chamber (1D) and the freezing chamber type positive and negative pressure fresh-keeping chamber (1E) of the common refrigerator belong to a normal pressure circulation chamber or a normal pressure inlet and outlet chamber, and are respectively provided with and use a positive and negative pressure system inside and outside the cold storage chamber and the freezing chamber of the common refrigerator, but no air-tight mechanism (1.3) and no outer sealed communicating device (1.4) in the compartment are added, so that the common refrigerator can use a positive-negative pressure system and an operation method thereof under normal pressure, firstly flows out, secondly flows into any one or more of a resident, thirdly a circulating program, thereby obviously enhancing the fresh-keeping capacity of the refrigerator and increasing the functions and the effects of the refrigerator in many aspects; the operation method (IV) for regulating and controlling the water flow and the carried objects thereof to flow into, reside or flow out of the positive and negative ballast (1) comprises the following steps: firstly, flowing out: the water flow and the carried objects flow out of the positive and negative pressure cabins and are pumped out from a water pumping pipeline by using a water pumping pump (16), and the concrete method comprises the following steps: the positive and negative pressure intelligent control device (5) sends out a command, so that the electromagnetic valves (B20) and (B21) open (A20) and (A21) water pumping pipelines, the positive and negative ballast water pumping ports (L) → the water pumping pipeline (A20) → the electromagnetic valves (B20) → (A20) → the water pump water inlet (w) the water pump water outlet (p) → (A21) → (B21) → (A21) → discharging water into the sewage, and meanwhile, the water pumping pump (16) is started to discharge the water in the positive and negative ballast (1) to a set standard; and secondly, flowing into: water flow and carried objects thereof flow into the positive and negative pressure cabins, and are fed from water feeding or carried water feeding pipelines by using a water feeding pump (17), and the specific method is A: the positive and negative pressure intelligent control device (5) sends out a command, so that the electromagnetic valves (B14) and (B15) open (A14) and (A15) water supply pipelines, water enters from a water source → (A14) → (B14) → (A14) → a water inlet pump (r) → a water outlet pump (u) → (A15) → (B15) → (A15) → positive and negative ballast water supply inlet (T), and simultaneously the water inlet pump (17) is started, so that water in the positive and negative ballast (1) is supplied to a set standard; B. carrying water inflow: the positive and negative pressure intelligent control device (5) sends out a command, the electromagnetic valves (B14), (B16) and (B17) are enabled to be (A14), (A15), (A16), (A16.2) and (A17) to carry water inlet pipelines, water is fed from a water source → (A14) → (B14) → (A14) → water inlet of a water inlet pump (r) → water outlet of the water inlet pump (u) → (A15) → (A16.2) → (B16) → (A16) → corresponding water flow carrying object generator → (A17) → (B17) → (A17) → positive and negative ballast water inlet (T1), the water inlet pump (17) and the corresponding water flow carrying object generator are simultaneously started, and the water flow carrying objects in the positive and negative ballast (1) flow into a set standard; thirdly, staying: when water flow and carried objects thereof need to reside in the positive and negative pressure cabin, the positive and negative pressure intelligent regulation and control device (5) sends an instruction, the water pressure of the water flow and the carried objects in the cabin reach the standard firstly, then the corresponding electromagnetic valve is closed until the residence time reaches the standard, and the positive and negative pressure intelligent regulation and control device (5) sends a stop instruction; fourthly, circulation: A. water inlet circulation: when the water flow and the carried objects thereof need to circulate through the positive and negative pressure fluid carried object generator so that the pressure, the concentration and the components of the water flow and the carried objects in the positive and negative pressure cabins reach the standard, the positive and negative pressure intelligent regulation and control device (5) sends an instruction, a water inlet circulation pipeline for carrying the water flow and the carried objects in the positive and negative pressure cabins is opened (A15), (A16), (A16.2), (A17) and (A19), a water inlet circulation pipeline for carrying the water flow is closed (B14) and relevant electromagnetic valves are closed, a water inlet pump (17) and the relevant water flow carried object generator are simultaneously opened, the carried object water flow circularly flows until corresponding sensors in the positive and negative pressure cabins feed back the carried water flow concentration, the components or the pressure reach the standard, and the positive and negative pressure intelligent regulation and control device (5) sends a stop instruction; B. water pumping circulation: the positive and negative pressure intelligent regulation and control device (5) sends an instruction, an air suction pipeline is opened (A20), (A16), (A16.1), (A17) and (A19.1), a B21 and a related electromagnetic valve are closed, an air suction pump (16) and a related water flow carrying object generator are simultaneously opened, the carrying object water flow circularly flows until the concentration, the components or the pressure of the water flow fed back by a corresponding sensor in the positive and negative pressure cabin reach the standard, and the positive and negative pressure intelligent regulation and control device (5) sends a stop instruction; the operation method for regulating the water flow and the carried objects thereof to flow into, reside or flow out of the positive and negative pressure cabin (1) comprises one or more of flowing out, flowing into and residing in circulation, and running in a vacuum high-pressure cabin, such as a washing machine type positive and negative pressure cabin (1F) and a dish washing machine type positive and negative pressure cabin (1G), and running in a normal pressure circulation cabin (1-2) and a normal pressure inlet and outlet cabin (1-3), such as a range hood type positive and negative pressure cabin (1H), an open type positive and negative pressure cabin (1L) and a non-airtight type positive and negative pressure cabin (1X); the intelligent positive and negative pressure system adopts the technical operation method, so that the intelligent positive and negative pressure system has the carrier function of large capacity and renewable and platform property of upgradable expansion and increment, can intelligently regulate, control and integrate various technologies of vacuum, high pressure, superoxide, catalyst, controlled atmosphere preservation, negative ions, humidification, dehumidification, humidity control and temperature control, disinfection and sterilization, air purification, air water production, low-temperature storage, clothes cleaning and drying and food processing, is applied to electrical equipment, transport carriage containers and storage warehouses in single or multiple combination, and is uniformly called as: an intelligent positive and negative piezoelectric device; the intelligent positive and negative pressure electric appliance comprises an intelligent positive and negative pressure fresh-keeping refrigerator, an intelligent positive and negative pressure washing machine, an intelligent positive and negative pressure dish washing and fruit and vegetable cleaning machine, an intelligent positive and negative pressure oil smoke machine, an intelligent positive and negative pressure oven fryer microwave oven, an intelligent positive and negative pressure fresh-keeping carriage container, an intelligent positive and negative pressure fresh-keeping warehouse, an intelligent positive and negative pressure sterilizing machine and an intelligent positive and negative pressure module cabinet.

According to a third embodiment of the invention, an intelligent positive and negative pressure fresh-keeping refrigerator is provided, which comprises a refrigerator body (7), wherein an intelligent positive and negative pressure system, a refrigerating system (8) and an air water making device (11) are arranged in the refrigerator body (7); intelligent positive negative pressure system, its characterized in that includes: the device comprises a positive and negative pressure cabin (1), an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), an airflow carried object generator integration (6.021), (6.022), (6.023), (6.024) and (6.025), a touch screen and a mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), and at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a positive and negative pressure refrigerating and fresh-keeping cabin (1B), a positive and negative pressure refrigerating and fresh-keeping cabin (1C), a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) according to the refrigerating and freezing requirements of the fresh-keeping refrigerator; the positive and negative pressure refrigerating and refreshing cabin (1B) and the positive and negative pressure refrigerating and refreshing cabin (1C) are both vacuum hyperbaric cabins (1-1), the positive and negative pressure resistance standard of the vacuum hyperbaric cabins (1-1) is based on the local instant atmospheric pressure as the zero standard, the positive pressure resistance is 0.01KPa higher than the zero standard and is higher than the zero standard, the negative pressure resistance is 0.01KPa lower than the zero standard and is lower than the zero standard, and the positive and negative pressure resistance strength is improved according to specific requirements and refrigerator configuration; the positive and negative pressure refrigerating and refreshing cabin (1B) and the positive and negative pressure refrigerating and refreshing cabin (1C) are respectively provided with one or more than one in the box body (7) in an arrangement mode of up-down or left-right arrangement and asymmetric and non-standard arrangement; the positive and negative pressure refrigerating and refreshing cabin (1B) and the positive and negative pressure refrigerating and refreshing cabin (1C) comprise the following components in classification according to shape and characteristics: the refrigerator comprises a drawer type positive-negative pressure refrigerating and refreshing cabin (1B-1), a drawer type positive-negative pressure refrigerating and refreshing cabin (1C-1), a side-opening cabinet type positive-negative pressure refrigerating and refreshing cabin (1B-2) and a side-opening cabinet type positive-negative pressure refrigerating and refreshing cabin (1C-2); the drawer type positive and negative pressure refrigerating and fresh-keeping cabin (1B-1) and the drawer type positive and negative pressure refrigerating and fresh-keeping cabin (1C-1) comprise: the refrigerator comprises a cabin body (1.1), a positive and negative pressure refrigerating and refreshing drawer (1.81), a positive and negative pressure refrigerating and refreshing drawer (1.82) and an in-cabin outer sealing communicating device (1.4); drawer type airtight mechanisms (1.9) are arranged between the cabin body (1.1) of the drawer type positive and negative pressure refrigerating and refreshing cabin (1B-1) and the positive and negative pressure refrigerating and refreshing drawer (1.81), and between the cabin body of the drawer type positive and negative pressure refrigerating and refreshing cabin (1C-1) and the positive and negative pressure refrigerating and refreshing drawer (1.82); the drawer type airtight mechanism (1.9) comprises a lock ring (1.91), a lock tongue (1.92) and an airtight gasket (1.93); the lock ring (1.91) is movably matched with the bolt (1.92), when the preservation drawer is closed, the bolt (1.92) extends into the lock ring (1.91) to lock the compartment door, and the airtight gasket (1.93) keeps sealing; the side-opening cabinet type positive and negative pressure refrigerating and refreshing cabin (1B-2) and the side-opening cabinet type positive and negative pressure refrigerating and refreshing cabin (1C-2) comprise: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1); the airtight mechanism (1.3) comprises a lock ring (1.31), a lock tongue (1.32), an airtight gasket (1.33) and a door edge sealing gasket (1.34); the lock ring (1.31) is movably matched with the lock tongue (1.32), when the hatch door is closed, the lock tongue (1.32) extends into the lock ring (1.31) to lock the hatch door, and the airtight gasket (1.33) keeps sealing; the in-cabin external sealing communicating device (1.4) is arranged at the rear part or the side part of the drawer type positive-negative pressure refrigerating and refreshing cabin (1B-1), the drawer type positive-negative pressure refrigerating and refreshing cabin (1C-1), the side-door cabinet type positive-negative pressure refrigerating and refreshing cabin (1B-2) and the side-door cabinet type positive-negative pressure refrigerating and refreshing cabin (1C-2), and pipelines and circuits which enter and exit the cabin are connected to and enter and exit through the in-cabin external sealing communicating device (1.4) so as to keep the sealing performance of the positive and negative pressure cabin (1); the cold storage chamber type positive and negative pressure fresh-keeping chamber (1D) and the freezing chamber type positive and negative pressure fresh-keeping chamber (1E) of the common refrigerator are both normal pressure circulation chambers, and a positive and negative pressure system is arranged in the cold storage chamber and the freezing chamber of the common refrigerator, but an air-tight mechanism and an inner and outer seal communicating device in the chamber are not arranged; the cold storage chamber type positive and negative pressure intelligent fresh-keeping cabin (1D) of the common refrigerator comprises a cabin body (1.1) and a cabin door (1.2), an airtight mechanism and an in-cabin outer sealing communicating device are not required to be arranged between the cabin body (1.1) and the cabin door (1.2), and the cabin door (1.2) is a box door of the fresh-keeping refrigerator; the freezing chamber type positive and negative pressure intelligent fresh-keeping cabin (1E) of the common refrigerator comprises; the fresh-keeping device comprises a cabin body (1.1) and a non-airtight fresh-keeping drawer (1.83), wherein an airtight mechanism and a cabin-inside and outside sealed communicating device are not required to be arranged between the cabin body (1.1) and the non-airtight fresh-keeping drawer (1.83); the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carry generation processor (6) comprises: the device comprises an air conditioning device (6.1), an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), a carried substance decomposition processor (6.7), an air filter (6.8), a disinfection and sterilization degradation device (6.9), a carried substance generator item-adding upgrading module (6.16), an airflow carried substance generator integration (6.021), (6.022), (6.023), (6.024) and (6.025); the air conditioning device (6.1) is a membrane air separation air conditioning device; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the gas flow ballast generator assemblies (6.021), (6.022), (6.023), (6.024) and (6.025) each comprise any one or more of the monolithic fluid ballast generators (6.1) to (6.16) as required; an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure airflow carrying object generator assembly (6.021), a carrying object decomposition processor (6.7), an air filter (6.8), a refrigerating system (8), an air water making device (11) and a touch screen and mobile phone monitoring and recognition system (12) are arranged outside the positive and negative pressure refrigerating and refreshing cabin (1B), the positive and negative pressure refrigerating and refreshing cabin (1C), the common refrigerator refrigerating chamber type positive and negative pressure refreshing cabin (1D) and the common refrigerator refrigerating chamber type positive and negative pressure refreshing cabin (1E); an air suction pipeline (A1) is installed at an air inlet (a) of the air suction pump (2), the air suction pipeline (A1) is respectively connected with air suction branch pipelines (A1.1), (A1.2), (A1.3) and (A1.4), the middle parts of the air suction branch pipelines (A1.1), (A1.2), (A1.3) and (A1.4) are respectively provided with electromagnetic valves (B1.1), (B1.2), (B1.3) and (B1.4), and the other ends of the air suction branch pipelines respectively extend into the positive and negative pressure refrigerating and fresh-keeping cabin (1B), the positive and negative pressure refrigerating and fresh-keeping cabin (1C), the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) to form air suction return ports (C1), (C2), (C3) and (C4); the exhaust pipeline (A1) is also respectively connected with a carried exhaust gas pumping and exhausting pipeline (A8), (A8.1), (A8.2), (A8.3) and (A8.4), the middle parts of the carried exhaust gas pumping and exhausting pipeline (A8), (A8.1), (A8.2), (A8.3) and (A8.4) are respectively provided with an electromagnetic valve (B8), (B8.1), (B8.2), (B8.3) and (B8.4), and the other ends of the carried exhaust gas pumping and exhausting pipeline are respectively connected with carried exhaust gas pumping and exhausting ports (s3), (s4), (s5), (s6) and (s7) of the air-conditioning device (6.1) respectively integrated in the positive and negative pressure air flow carried gas flow carried generator integration (6.021), (6.022), (6.023), (6.024) and (6.025); an air outlet (B) of the air pump (2) is provided with an air exhaust pipeline (A2), the middle part of the air exhaust pipeline (A2) is provided with a superoxide decomposer (6.7) and an electromagnetic valve (B2), the other end of the air exhaust pipeline is communicated with an air inlet (h) of an air water making device (11), and the air exhaust pipeline is communicated with the atmosphere through an air outlet (n) of the air water making device (11); an air inflation pipeline (A3) is installed at an air outlet (D) of the air inflation pump (3), an electromagnetic valve (B3) is installed in the middle of the air inflation pipeline (A3), the other end of the air inflation pipeline (A3) is connected with an air inflation branch pipeline (A3.1), (A3.2), (A3.3) and (A3.4) respectively, electromagnetic valves (B3.1), (B3.2), (B3.3) and (B3.4) are installed in the middle of each of the air inflation branch pipeline (A3.1), (A3.2), (A3.3) and (A3.4), and the other end of the air inflation branch pipeline extends into the positive and negative pressure refrigerating and fresh-keeping cabin (1B), the positive and negative pressure refrigerating and fresh-keeping cabin (1C), the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) respectively to form an air inflation air inlet (f1), (f2), (f3) and (f 4); the air charging pipeline (A3) is further connected with a carrying air charging pipeline (A6), the middle of the carrying air charging pipeline (A6) is provided with an electromagnetic valve (B6), the other end of the carrying air charging pipeline is connected with an air inlet (t) of a positive-negative pressure airflow carrying object generator assembly (6.021), the air outlets (s1) and (s2) of the positive-negative pressure airflow carrying object generator assembly (6.021) are respectively provided with a carrying air charging branch pipeline (A7.2) and (A7.3), the middle of the carrying air charging branch pipeline (A7.2) and (A7.3) is respectively provided with an electromagnetic valve (B7.2) and (B7.3), the other end of the carrying air charging branch pipeline respectively extends into a positive-negative pressure refrigerating and refreshing cabin (1B) and a positive-negative pressure refrigerating and refreshing cabin (1C) to form respective carrying air inlets (i2) and (i3), the electromagnetic valves (B7.2) and (B7.3) are further connected with a carrying air charging branch pipeline (A7.1) and a carrying air charging branch pipeline (A7.4) and a magnetic valve (B7.4), the other end of the air charging pipeline (A3) is respectively extended into a refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and a refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) of the common refrigerator to form a carrying air inlet (i1) and a carrying air inlet (i4) of the air charging pipeline respectively, the air charging pipeline (A3) is also respectively connected with carrying branch pipelines (A6.1), (A6.2), (A6.3) and (A6.4), the middle parts of the carrying branch pipelines (A6.1), (A6.2), (A6.3) and (A6.4) are respectively provided with electromagnetic valves (B6.1), (B6.2), (B6.3) and (B6.4), and the other end of the air charging pipeline is respectively connected with air inlets (t1), (t2), (t3) and (t4) of positive and negative pressure airflow carrying generator integrations (6.022), (6.023), (6.024) and (6.025); an air inlet pipeline (A4) is installed at an air inlet (e) of the inflator pump (3), an air filter (6.8) and an electromagnetic valve (B4) are installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is communicated with the atmosphere; the electromagnetic valve (B4) is also connected with a circulating pipeline (A5), the circulating pipeline (A5) is respectively connected with a circulating branch pipeline (A5.1), (A5.2), (A5.3) and (A5.4), the middle parts of the circulating branch pipelines (A5.1), (A5.2), (A5.3) and (A5.4) are respectively provided with the electromagnetic valves (B5.1), (B5.2), (B5.3) and (B5.4), and the other ends of the circulating branch pipelines respectively extend into the positive and negative pressure intelligent refrigerating and fresh-keeping cabin (1B), the positive and negative pressure refrigerating and fresh-keeping cabin (1C), the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) to form circulating air return ports (j1), (j2), (j3) and (j 4); the circulating pipeline (A5) is also connected with an air water making inflation pipeline (A9) through an electromagnetic valve (B9), the air water making inflation pipeline (A9) is connected to the electromagnetic valve (B2) and is communicated with an air inlet (h) of the air water making device (11) through an exhaust pipeline (A2), the air water making inflation pipeline (A9) is connected with the circulating pipeline (A5) and is communicated with the electromagnetic valve (B3), and then is communicated with an air outlet (d) of the inflator pump (3) through an inflation pipeline (A3); the touch screen and mobile phone monitoring and identifying system (12) comprises a box door touch screen (12.1), a mobile phone APP (12.2), a high-definition anti-fog camera shooting and identifying device (12.3) and a radar scanning and identifying device (12.5); the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the box body (7); the positive and negative pressure refrigerating and refreshing cabin (1B), the positive and negative pressure refrigerating and refreshing cabin (1C), the common refrigerator refrigerating chamber type positive and negative pressure refreshing cabin (1D) and the common refrigerator refrigerating chamber type positive and negative pressure refreshing cabin (1E) are respectively internally provided with an airflow carrying object generator assembly (6.022), (6.023), (6.024), (6.025) and a sensor assembly (CA); the sensor assembly (CA) comprises, as required, one or more of the following individual sensors (C1) to (12): the device comprises an air conditioning device (6.1), an ultrasonic generator (6.2), an anion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), a disinfecting and sterilizing degradation device (6.9) and a carried object generator item-adding upgrading module (6.16), wherein the sensor comprises a sensor integration (CA) which comprises one or more of the following sensors (C1) - (12) according to requirements: the device comprises a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3), a negative ion sensor (C4), a catalyst sensor (C5), a humidity sensor (C6), an oxygen sensor (C7), a nitrogen sensor (C8), a disinfection degradation sensor (C9), an air particulate matter sensor (C10), a temperature sensor (C11) and a carried matter sensor item-adding upgrading module C (12); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; all airflow carried object generation processors (6), sensors (C), electromagnetic valves (B), air pumps (2), air pumps (3), refrigeration systems (8), air water making devices (11), touch screens and mobile phone monitoring and recognition systems (12) are connected into the positive and negative pressure intelligent regulation and control device (5) through circuits (D) or bundling circuits (E).

According to a fourth embodiment of the invention, an operation method of an intelligent positive and negative pressure fresh-keeping refrigerator is provided, wherein the intelligent positive and negative pressure fresh-keeping refrigerator is provided with an intelligent positive and negative pressure system; the intelligent positive and negative pressure system precisely regulates and organically integrates various technologies of vacuum, high pressure, superoxide, catalyst, controlled atmosphere preservation, negative ion, humidification, dehumidification, humidity control and temperature control, sterilization, degradation treatment, air purification, air water production and low-temperature storage, a plurality of technologies are combined or applied to the positive and negative pressure preservation refrigerator, a personalized targeted treatment comprehensive preservation method is designed on the level of cell molecules aiming at the site of the freshness loss of the stored substances, preservation elements are precisely maintained, and freshness loss factors are removed at fixed points without involving or with less involving normal tissue cells of the stored substances, so that the purposes of preserving and guaranteeing the quality of the stored substances are achieved; the specific operation method of the intelligent positive and negative pressure fresh-keeping refrigerator is characterized in that a positive and negative pressure system carries various effective loads such as superoxide, catalyst, negative ions, modified atmosphere gas, disinfection degradation substances, heat and water by using the intelligently-controlled airflow pressure of an air pump or using airflow to orderly pass in and out or stay in a positive and negative pressure refrigerating and fresh-keeping cabin (1B), a positive and negative pressure refrigerating and fresh-keeping cabin (1C), a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E), and various acting forces which are beneficial to long-term fresh-keeping and quality keeping are applied to fresh fruits and vegetables stored in the positive and negative pressure system by the following methods: the positive air pressure and high pressure action method comprises the following steps: proper positive air pressure and high pressure are timely formed in the chambers of the positive and negative pressure refrigerating and fresh-keeping chamber (1B) and the positive and negative pressure refrigerating and fresh-keeping chamber (1C), a breathing channel water evaporation channel on the surface layer of the fruit and vegetable in the chamber is contracted or closed after being pressed, the anaerobic breathing, growth aging and water loss of the fruit and vegetable are inhibited, and the mode, the path, the degree and the development duration of the damage of various exogenous factors of bacteria virus, food disease sources and pollution particles to food under normal pressure are changed from the influence of a microscopic level; (II) a negative pressure vacuum action method: moderate negative-pressure vacuum is timely formed in the chambers of the positive-negative pressure refrigerating and fresh-keeping chamber (1B) and the positive-negative pressure refrigerating and fresh-keeping chamber (1C), anaerobic respiration, growth and aging of fruits and vegetables can be inhibited, bacterial microorganisms cannot survive in the vacuum, and the fresh-keeping effect of the stored fruits, vegetables and meat fish is enhanced; (III) an airflow carrying matter action method: carrying various effective loads such as superoxide, catalyst, negative ions, modified atmosphere gas, disinfection degradation fresh-keeping substances and water by positive and negative pressure airflow, and sequentially passing in and out or staying in a positive and negative pressure refrigeration fresh-keeping cabin (1B), a positive and negative pressure refrigeration fresh-keeping cabin (1C), a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) by single or multiple combinations, and integrating multiple fresh-keeping technologies to apply accurate and effective various acting forces on long-term fresh keeping and quality keeping of fresh fruit and vegetable articles stored in the fresh-keeping cabins; based on the three acting force methods, the positive and negative pressure intelligent control device (5) analyzes class by class according to a built-in program, prestored data, internet cloud data, camera identification of a touch screen and a mobile phone monitoring and identifying system (12), radar scanning identification and real-time feedback information of sensors (C1) to (C12), and aims at the delicacy factors and treatment targets of different storage objects, after calculation processing, different targeting preservation technologies are correspondingly used, so as to form a characteristic targeting treatment comprehensive preservation method, and the positive and negative pressure intelligent control device (5) sends specific instructions to the air pump (2), the air pump (3), the related positive and negative pressure fluid carrying object generator (6) and the related electromagnetic valve (C) in real time, accurately controls and adjusts the opening, closing and conversion of each air pumping and circulating carrying pipeline, intelligently controls the pressure of positive and negative carrying objects in the positive and negative pressure cabin (1), and the inflow of the fluid and the carried object pressure thereof, The preservation elements of the stored materials are maintained accurately and the freshness loss factors of the stored materials are removed at fixed points, so that the long-term effect of preservation and quality guarantee is achieved; the intelligent positive and negative pressure system targeted treatment comprehensive preservation method and the specific use method and operation program of the positive and negative pressure preservation refrigerator comprise the following steps: firstly, an exhaust or vacuum harm and heat removal cleaning procedure: the cabin door (1.2) is closed, and the positive and negative pressure intelligent regulation and control device (5) sends out an instruction: the electromagnetic valves (B2) and (B1.1), (B1.2), (B1.3) or (B1.4) are enabled to open corresponding positive and negative pressure cabin air extraction pipelines (A2) and (A1) and (A1.1), (A1.2), (A1.3) or (A1.4), and an air extraction pump (2) is started to exhaust or extract air from the corresponding positive and negative pressure cabins to vacuum negative pressure between-0.001 KPa and-0.1 MPa (the local instant air pressure is taken as zero standard, the vacuum degree can be further improved according to specific requirements and refrigerator configuration), the self-heat, partial bacterial microorganisms and dirty air in the cabins of the fruit and vegetable are extracted, the harmful gas of volatile metabolites ethylene-acetaldehyde-ethanol in the fruit and vegetable tissues is enabled to escape and be extracted in vacuum, meanwhile, the propagation of residual bacteria is inhibited by the vacuum negative pressure, and the hidden danger of the aging of the fruit and vegetable diseases is reduced; a storage procedure of pressure reduction and pressure control or humidification and humidity control: the positive and negative pressure intelligent regulation and control device (5) maintains a proper negative pressure low-oxygen low-temperature environment in the positive and negative pressure cabins by opening or closing the air pump (2) according to the pressure standard of a preset program and the real-time feedback of the negative pressure sensor (C2), reduces the respiration intensity of fruits and vegetables, inhibits the biosynthesis of ethylene, delays the decomposition of chlorophyll, inhibits the synthesis of carotenoid and lycopene, and slows down the hydrolysis of starch, the increase of sugar and the consumption process of acid, thereby delaying the maturity and aging of the fruits and vegetables, and simultaneously can also open the humidifying and humidity control device (6.5) to improve and control the humidity in the cabins, prevent the moisture of the fruits and vegetables from escaping, and control the dry and the humidity by targeting pressure control with positive and negative pressure according to the optimal pressure and optimal humidity point required by the fresh keeping of the fruits and vegetables, accurately regulate and control classified storage, and maintain the fresh state for a longer time; and step three, carrying out normal-pressure or pressurized sterilization, degradation and odor removal procedures on the superoxide anion or catalyst negative and positive pressure carried matter: the positive and negative pressure intelligent control device (5) timely sends out instructions to open an ultrasonic generator (6.2) or a negative ion generator (6.3) or a catalyst controlled release device (6.4) or a humidity control device (6.5) or a disinfection degradation device (6.9) in each relevant airflow carrying object generator integration or a carrying object generator arranged in a carrying object generator item-adding upgrading module (6.16) according to program setting and feedback of a relevant sensor (C), so that the superoxide, catalyst, negative ions, moisture and relevant carrying objects in a positive and negative pressure cabin reach required standards, simultaneously electromagnetic valves (B3) and (B4) or (B3.1) or (B3.2) or (B3.3) or (B3.4) can open corresponding ballast (A4) and (A3) and (A3.1) or (A3.2) or (A3.3) or (A3.4) and open a relevant ballast pipeline of a charging pump (3) to instantly increase the pressure between the pressure of the relevant air pressure (3) and the pressure of the relevant air pressure of 0.001-10 MPa, according to specific requirements and refrigerator configuration, the pressure value can be increased again), the superoxide, negative ions and catalyst with proper positive pressure can sterilize, disinfect, resist mildew and degrade the pesticide residues and ethylene gas sucked out by metabolism of fruits and vegetables for preventing browning and softening of fruits and vegetables, delaying senescence of fruits and vegetables, and the proper high pressure can prevent water in the fruits and vegetables and meat fish from escaping, and the moisture can permeate and supplement water lost due to refrigeration and negative pressure to the fruits and vegetables and meat fish under the positive pressure, the negative ions can reduce the size of water molecular groups of the moisture and facilitate absorption of the fruits and vegetables and meat fish, and the super oxide can better play a role in sterilization and disinfection when permeating into the deeper interior of the fruits and vegetables and meat fish under the positive pressure; fourthly, the storage procedure of atmosphere-controlled gas or other carried objects under normal pressure or pressurization or humidification is as follows: the positive and negative pressure intelligent control device (5) timely opens a relevant air suction pipeline and opens an air suction pump (2) and a carried object decomposition processor (6.7) according to program setting or camera shooting recognition, radar scanning recognition and sensor feedback, dirty air after decomposition, sterilization and degradation is pumped out of the cabin, then electromagnetic valves (B3), B6, B7.1, B7.2, B7.3, B7.4) open (A3), A6, A7.1, A7.2, A7.3, A7.4) relevant carrying inflation pipelines and an inflation pump (3) are started, air flow is driven to enter the relevant positive and negative pressure ballast tanks through the air conditioning device (6.1) or other relevant positive and negative pressure fluid carried object generators (6), and electromagnetic valves (B3, B4, B9, B5.1, B5.2, B5.3) or B5.4) are simultaneously opened for circulating operation; when the air conditioning device (6.1) operates, the air separation efficiency can be improved by moderately increasing the partial pressure difference between two sides of the air conditioning membrane, and simultaneously the oxygen-rich waste gas or the ballast waste gas also needs to be pumped and discharged, at this time, the electromagnetic valve (B8), the electromagnetic valve (B8.1), the electromagnetic valve (B8.2), the electromagnetic valve (B8.3), the electromagnetic valve (B8.4), the electromagnetic valve (A8), the electromagnetic valve (A8.1), the electromagnetic valve (A8.35), the electromagnetic valve (S5), the electromagnetic valve (S6), the electromagnetic valve (S7), the electromagnetic valve (A8), the electromagnetic valve (A8.1), the electromagnetic valve (B8.2), the electromagnetic valve (A8658.3), the electromagnetic valve (A8.4), the electromagnetic valve (B8), the electromagnetic valve (B8.1), the electromagnetic valve (B8.2), the electromagnetic valve (A8), the electromagnetic valve (A8.8.3), the electromagnetic valve (A8.4), the air suction device (A8.4), the electromagnetic valve (B8), the atmospheric air suction device (A638.2), the atmospheric air suction device (A8.8.8.8) or the atmospheric water preparation device (A8.8.8.8) or the atmospheric air suction device (A8.8.8.8) or the atmospheric water jet (A8.8B 8) or the atmospheric water jet 19B 8 # 19, the atmospheric water jet water, simultaneously, starting the air extracting pump (2) to pump and exhaust decomposed waste gas; according to the method and the optimal standard and the point of freshness loss of the modified atmosphere gas or the carried gas for freshness preservation and storage, the positive and negative pressure system is used for targeted control, accurate regulation and circulation operation, so that various freshness preservation factors of gas components, gas concentration, gas pressure, air humidity and cleanliness in the positive and negative pressure cabin are kept in the optimal range required by freshness preservation of fruits and vegetables, the respiration rate of the stored fruits and vegetables is effectively controlled, anaerobic respiration and carbon dioxide poisoning are prevented, the aging process is delayed, the quality reduction and flavor loss of the stored fruits and vegetables are prevented, the moisture of the fruits and vegetables is kept and supplemented by positive pressure moisture, and the freshness of the fruits and vegetables is maintained to the maximum extent; fifth, the procedure of normal pressure or pressurization or sterilization preservation of the leftovers: the method comprises the steps that leftovers are placed in a positive and negative pressure cabin, an air suction pump (2) and related air suction pipelines are started by a regulating and controlling device (5), smells emitted by the leftovers and foul air in the cabin are sucked out of the cabin and then are closed, then an inflator pump 3 and related air inflation pipelines can be started to be properly pressurized and stored, so that excessive loss of smells and moisture is prevented, deterioration and corrosion are inhibited, meanwhile, a humidity control device (6.5) can be timely started to supplement moisture in the air according to feedback information of a humidity sensor, or related carried object generating processors can be timely started to kill bacteria and viruses in the air in the cabin, and further stored food is prevented from being deteriorated; sixthly, a low-temperature auxiliary preservation program: after the positive and negative pressure fresh-keeping refrigerator is started, the positive and negative pressure intelligent control device (5) starts the refrigerating system (8), provides corresponding low temperature for each positive and negative pressure chamber through the feedback control of the temperature sensing controller (C9) and the intelligent control of the positive and negative pressure intelligent control device (5), and assists the positive and negative pressure system to keep the stored articles fresh; and seventhly, the protection function is realized when the door is opened: if the refrigerator door is opened during the superoxide sterilization or the air-conditioned storage, the door switch immediately feeds back, the positive and negative pressure intelligent control device (5) immediately operates and stops the superoxide or the air-conditioned or related programs, simultaneously opens the air extraction pipeline and starts the air extraction pump (2), the gas in the refrigerator is quickly extracted to the ballast decomposition processor (6.7) at the rear side of the refrigerator for decomposition and then discharged into the atmosphere, and the air is supplemented with air extraction negative pressure from the outside of the refrigerator door to the positive and negative pressure cabin, so the superoxide or high-nitrogen and low-oxygen ballast gas cannot flow out of the door; the air water making program comprises the steps that humid waste gas pumped out of a vacuum high-pressure cabin by an air pump (2) enters a superoxide decomposer (6.7) to decompose superoxide and then enters an air water making device (11), water vapor is condensed and filtered to form drinking standard purified water, ice can be made by drinking or an uninterrupted water source is provided for a humidifying and humidity controlling device (6.5), when an air pump (3) is idle, the intelligent control device (5) starts the air pump (3) and enables electromagnetic valves (B3), (B9) and (B2) to be communicated with an air water making inflation pipeline, and indoor air is driven to enter the air water making device (11) to make water; ninthly, controlling, monitoring and identifying functions in a far and near range: the touch screen and mobile phone monitoring and identifying system (12) controls and monitors the fresh-keeping refrigerator, other positive and negative piezoelectric devices and the positive and negative pressure module cabinet in real time through WIFI and mobile phone APP far and near distance, so that the refrigerator, all other positive and negative piezoelectric devices and the module cabinet can intelligently realize various functions with high efficiency and low consumption according to set programs and instant instructions; the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the box body (7); the method comprises the steps of shooting and scanning the conditions of articles in a refrigerator in real time, automatically scanning and identifying various preservation factors of the variety, the category, the component, the color, the water content and the disease degree of the stored articles, calculating a real-time numerical value or a maximum common divisor by combining the quantity proportion fuzzy data of different articles in the same compartment and cloud data, accurately regulating and controlling various preservation environment factors of air flow pressure, gas component, air cleanliness, ambient temperature and dry humidity in a positive-negative pressure refrigeration and freezing compartment in real time through manual or automatic setting, automatically performing harmless sterilization and disinfection, and rapidly degrading residual pesticide, fertilizer, hormone and harmful additives to form an adjustable and controllable artificial microclimate in the positive-negative pressure refrigeration and freezing compartment, creating a favorable preservation microenvironment, and enabling various fresh foods stored in the positive-negative pressure refrigeration and freezing compartment to be in an optimal air pressure range, optimal gas component and optimal humidity temperature, the fresh water is kept tender and original taste is kept in the best storage environment; the refrigerator door touch screen (12.1) or the mobile phone APP (12.2) can display and remind production time, price, shelf life, commodity information of manufacturers and information of purchasers and online stores, automatically record, analyze and arrange the frequent favorite big data of the time and the quantity of storing and taking out articles of the refrigerator and combine cloud data to carry out intelligent analysis, and then remind in time on the mobile phone APP (12.2) or directly push recommended commodities to be purchased onto the mobile phone APP (12.2) and the refrigerator door touch screen (12.1); the camera shooting and identifying device is used for monitoring and identifying the fixed position in real time, and is also used for automatically continuously shooting a plurality of panoramic photos of articles in the refrigerator along with the closing movement of the refrigerator door (1.2) and automatically recording small videos along with the closing movement of the refrigerator door (1.2) in the closing process of the refrigerator door, so that a user can check the videos of the panoramic photos of the articles in the refrigerator with good light and large visual field in the last closing process and the closing process of the door at any time in a touch screen of the refrigerator door without opening the refrigerator door, releasing vacuum and reducing the temperature in the short range in the mobile phone APP, and dynamically identifying and uploading data; the method comprises the following steps of (1) enabling the R part and the positive and negative pressure modules to be combined into an intelligent home mode: the intelligent positive and negative pressure fresh-keeping refrigerator can be manufactured according to module function design, not only is used as an independent invention right for independent production and use, but also can be organically combined with other positive and negative voltage devices and module cabinets under the control of a touch screen and a mobile phone APP monitoring and identifying system (12) to form an intelligent positive and negative pressure module combined home with complete functions, not only can share a common positive and negative pressure system, a refrigeration system and an air water making device, but also has basically uniform appearance and color, and is orderly matched to accord with a popular trend; the specific operation method of the intelligent positive-negative pressure fresh-keeping refrigerator integrates multiple methods of vacuum, high pressure, superoxide, catalyst, modified atmosphere fresh-keeping, negative ions, humidification, dehumidification, humidity control and temperature control, disinfection and sterilization, air purification, air water production and low-temperature storage by using positive pressure or negative pressure intelligent regulation, is organically applied to the positive-negative pressure intelligent fresh-keeping refrigerator, organically integrates optimal collocation, uses single or multiple different combinations or single or alternative or cyclic application, is provided with a plurality of positive-negative pressure cabins, common cold boxes and common freezing boxes with different types and different functions in one positive-negative pressure fresh-keeping refrigerator, is uniformly distributed with positions and distribution spaces according to different requirements and convenient use, and can be randomly combined, regulated and controlled in a classified mode and flexibly applied according to the programs, the functions and the modes; the positive and negative pressure intelligent fresh-keeping refrigerator updates the existing method that the traditional refrigerator only depends on controlling the temperature low-temperature storage of the refrigerator, the positive and negative pressure system accurately regulates and controls various fresh-keeping environmental factors such as airflow pressure, gas components, air cleanliness, environmental temperature and humidity in the positive and negative pressure refrigerating and freezing chamber in real time, the space in the refrigerator is subjected to harmless disinfection and sterilization, residual pesticide, chemical fertilizer hormone and harmful additives are quickly degraded, and the freshness loss factors are accurately positioned and removed in a targeted manner, so that various fresh foods stored in the positive and negative pressure refrigerating and freezing chamber can keep fresh water-wet quality and flavor for a long time; the positive and negative pressure system endows the fresh-keeping refrigerator with a breathing function and a circulation characteristic, so that the ice-cold fresh-keeping refrigerator becomes a life electrical appliance, and the existing refrigerator and the traditional method are upgraded and updated once; the positive and negative pressure system has a large-capacity renewable carrier function and a platform property capable of upgrading, expanding and increasing items, so that the positive and negative pressure fresh-keeping refrigerator is endowed with an upgrading and expanding function, along with the gradual development of science and technology, various fresh-keeping and storage new methods which are newly and successfully researched and developed can be absorbed and integrated into the positive and negative pressure fresh-keeping refrigerator, the positive and negative pressure fresh-keeping refrigerator is continuously developed in a renovation way like a mobile phone and a computer, a chip processor and various software of the positive and negative pressure intelligent control device can be gradually upgraded and updated, and the positive and negative pressure fresh-keeping refrigerator is more multifunctional, efficient, environment-friendly, low in consumption, diversified and suitable for use.

According to a fifth embodiment of the invention, there is provided an intelligent positive and negative pressure washing machine comprising a machine body (7); an intelligent positive and negative pressure system and an elution drying system (15) are arranged in the machine body (7); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure water flow carried object generator assembly (6.04), a carried object decomposition processor (6.7), a water pump (16), a water inlet pump (17) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a water pump (16), a water inlet pump (17), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a washing machine type positive and negative pressure cabin (1F) according to the specific requirements of washing and drying clothes; the washing machine type positive and negative pressure cabin (1F) is of a vacuum high pressure cabin (1-1) structure, the positive and negative pressure resistance standards of the vacuum high pressure cabin (1-1) are all based on the local instant atmospheric pressure as a zero standard, the positive pressure resistance is higher than the zero standard by 0.01KPa until higher, the negative pressure resistance is lower than the zero standard by 0.01KPa until lower, and the positive and negative pressure resistance intensity is improved according to specific requirements and washing machine configuration; the washing machine type positive and negative pressure cabin (1F) comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1); the airtight mechanism (1.3) comprises a lock ring (1.31), a lock tongue (1.32), an airtight gasket (1.33) and a door edge sealing gasket (1.34); the lock ring (1.31) is movably matched with the bolt (1.32), the bolt (1.32) extends into the lock ring (1.31) to lock the cabin door when the cabin door is closed, and the sealing is kept by the airtight gasket (1.33) when positive and negative air pressure is formed in the washing machine type positive and negative pressure cabin (1F); the communication device (1.4) for sealing and communicating the inside and outside of the cabin is arranged at the rear part or the side part of the washing machine type positive and negative pressure cabin (1F), and pipelines and circuits for entering and exiting the inside and outside of the cabin are connected to the communication device (1.4) for sealing and entering and exiting through the communication device so as to keep the sealing performance of the washing machine type positive and negative pressure cabin (1F); the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure water flow carried object generator assembly (6.04) comprises a superoxide generation water mixer (6.6), a disinfection and sterilization degradation device (6.9), a stain and oil removing and cleaning device (6.11) and a carried object generator item-adding upgrading module (6.16); the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the water flow ballast generator assembly (6.04) may comprise at least one or more of the unitary fluid ballast generators (6.1) to (6.16) as required; the washing and drying system (15) comprises a washing machine drum mechanism (15.1), a washing and drying control mechanism (15.2), a drum sealing bearing seat (15.3), a drum large belt pulley (15.4) and a motor assembly (15.5); a washing machine drum mechanism (15.1), a drench-proof air exhaust port (2.1), a drum sealing bearing seat (15.3), a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3) and a carried object sensor item-adding upgrading module (C12) are arranged in the washing machine type positive and negative pressure cabin (1F); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure water flow carried object generator assembly (6.04), a carried object decomposition processor (6.7), an elution drying control mechanism (15.2), a large roller belt pulley (15.4), a motor assembly (15.5), a water pump (16), a water inlet pump (17), a detergent pull box (18) and a touch screen and mobile phone monitoring and identification system (12) are arranged outside the washing machine type positive and negative pressure cabin (1F); an air suction pipeline (A1) is installed at an air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), the other end of the air suction pipeline extends into the washing machine type positive and negative pressure cabin (1F) and then is connected with a drenching prevention air suction opening (2.1) to form an air suction return opening (c) or a circulation return opening (i), an air outlet (B) of the air suction pump (2) is communicated with the atmosphere, the electromagnetic valve (B1) is further connected with a circulation pipeline (A5), an electromagnetic valve (B5) is installed in the middle of the air suction circulation pipeline (A5), and the other end of the air suction pipeline is a circulation exhaust opening (i2) or a circulation air inlet (j 2); an air inflation pipeline (A3) is installed at the air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is installed in the middle of the air inflation pipeline (A3), and the other end of the air inflation pipeline extends into the washing machine type positive and negative pressure cabin (1F) to form an air inflation inlet (F) or a circulating inlet (j); the air inlet (e) of the inflator pump (3) is communicated with the atmosphere, the electromagnetic valve (B3) is further connected with a circulating pipeline (A6), the middle of the pumping and circulating pipeline (A6) is provided with the electromagnetic valve (B6), the other end of the pumping and circulating pipeline (A6) is connected to the circulating air inlet (e2) of the inflator pump (2), the electromagnetic valve (B6) is further connected with a circulating pipeline (A7), and the other end of the circulating pipeline (A7) is connected with the electromagnetic valve (B5); the utility model discloses a washing machine, including water intake pump (17), water inlet (r) department of intake pump (17) installs inlet channel (A14), the mid-mounting of inlet channel (A14) has solenoid valve (B14), and the other end switch-on is from water source, the delivery port (u) department of intake pump (17) installs washing machine inlet channel (A15), the mid-mounting of inlet channel (A15) has solenoid valve (B15), and the other end switch-on rivers carry the water inlet (v) of thing generator integration (6.04), washing machine inlet channel (A16) is installed to the delivery port (o) of rivers carry thing generator integration (6.04), the mid-mounting of inlet channel (A16) has solenoid valve (B16), and the other end switch-on detergent draws water inlet (z) of box (18), washing machine inlet channel (A17) is installed to delivery port (l) of detergent drawing box (18), the mid-mounting of inlet channel (A17) has solenoid valve (B17), the other end extends into the washing machine type positive and negative pressure cabin (1F) to form a water inlet (T) thereof; the electromagnetic valve (B14) is also provided with a water inlet pipeline (A18) and is connected with an electromagnetic valve (B16), and water can be directly fed when the pressure of tap water reaches the standard without carrying water; the electromagnetic valve (B15) is also provided with a water inlet pipeline (A19) and is connected to a water inlet pipeline (A18) and then communicated with the electromagnetic valve (B16), and water is directly fed by the water inlet pump (17) when water carrying is not needed; a drainage pipeline (A20) is installed at a water inlet (w) of the drainage pump (16), an electromagnetic valve (B20) is installed in the middle of the drainage pipeline (A20), the other end of the drainage pipeline extends into a washing machine type positive and negative pressure cabin (1F) to form a water outlet (L) of the drainage pump, a drainage pipeline (A21) is installed at a water outlet (p) of the drainage pump (16), an electromagnetic valve (B21) is installed in the middle of the drainage pipeline (A21), the other end of the drainage pipeline is communicated with a water inlet (g) of a ballast decomposition processor (6.7), a drainage pipeline (A22) is installed at a water outlet (m) of the ballast decomposition processor (6.7), an electromagnetic valve (B22) is installed in the middle of the drainage pipeline (A22), and the other end of the drainage pipeline is communicated with a sewer; the electromagnetic valve (B20) is also provided with a drainage pipeline (A23) and is connected with the electromagnetic valve (B22) in parallel, and the water can be drained directly when the carried objects do not need to be decomposed and the water can be drained automatically; the electromagnetic valve (B21) is also provided with a drainage pipeline (A24) and is connected to a drainage pipeline (A23) to be communicated with the electromagnetic valve (B22), and drainage is directly carried out by the drainage pump (16) when the ballast does not need to be decomposed; the motor assembly (15.5) drives a large belt pulley (15.4), and the large belt pulley (15.4) drives a roller mechanism (15.1) connected with the large belt pulley to operate; all fluid carried objects generate the processor (6), the sensor (C), the electromagnetic valve (B), the air pump (2), the inflator pump (3), the washing and drying control mechanism (15.2), the water suction pump (16), the water inlet pump (17), the touch screen and the mobile phone monitoring and identifying system (12) are all connected into the positive and negative pressure intelligent regulation and control device (5).

According to a sixth embodiment of the present invention, there is provided a method of operating an intelligent positive and negative pressure washing machine, the intelligent positive and negative pressure washing machine being configured to use an intelligent positive and negative pressure system; the intelligent positive and negative pressure system regulates and integrates various methods of vacuum, high pressure, super oxygen, disinfection and sterilization, degradation treatment and clothes cleaning and drying, a plurality of methods are combined or applied to the positive and negative pressure washing machine singly, and a personalized targeted decontamination comprehensive washing and drying method is designed on a molecular level and a microscopic level aiming at the contamination sites of both the cleaned objects and the pollutants, so that the contamination factors are removed at fixed points, and meanwhile, the damage to the structure and color of the cleaned objects is avoided or reduced, thereby achieving the purpose of quick, efficient, sanitary and environment-friendly cleaning; the specific operation method of the intelligent positive and negative pressure washing machine is characterized in that the positive and negative pressure system intelligently regulates and controls airflow pressure by an air pump or an air pump, carries effective loads of superoxide, disinfectant, cleaning builder, softening and fluffing agent and decomposition treatment agent by airflow or water flow, and orderly goes in and out or stays in the positive and negative pressure cabin (1F), and applies various acting forces which are helpful for fast and efficient washing and drying to washed clothes by the following methods: the positive air pressure and high pressure action method comprises the following steps: A. the air pump (3) is started at the right time to inflate the positive and negative pressure cabins (1F) through the air inflation pipeline (A3) in the washing process, so that strong air bubbles and rapid water flow are formed to participate in washing of the clothes, the washing process is accelerated, the washing efficiency is improved, and meanwhile, the high air pressure formed in the cabins is favorable for the detergent to permeate into the clothes to be cleaned conveniently; B. during drainage, the positive and negative pressure cabins (1F) are inflated and pressurized to accelerate the drainage speed; C. during dehydration, the air inflation and pressurization can force the moisture to be quickly separated from the clothes, so that the dehydration efficiency is improved, and the drainage and dehydration time is shortened; D. when the drying program starts, the washing machine type positive and negative pressure cabin (1F) is inflated and pressurized, so that hot air enters clothes fibers to vaporize water, and then the pressure is quickly released to discharge water vapor, so that the clothes drying process is accelerated, and the clothes drying time is effectively shortened; (II) a negative pressure vacuum action method: A. when water enters, the air pump (2) is started to pump negative pressure from the positive and negative pressure cabins (1F) through the air pumping pipeline (A1), so that water inlet is accelerated, and the water inlet time is shortened; B. when the washing is started, the positive and negative pressure cabins (1F) are pumped to proper vacuum, clothes fibers and dirt expand in vacuum, the adhesion force of the dirt is weakened or the dirt falls off, the washing efficiency is improved, and the washing time is shortened; C. in washing, air suction and inflation are repeated circularly, and fiber expansion and torrent kneading and oscillating are performed alternately, so that the cleanliness and the washing efficiency are improved, and the washing and rinsing processes are accelerated; D. during dehydration, negative pressure is pumped out from the positive and negative pressure cabins to expand clothes fibers, moisture in the clothes escapes to the negative pressure space and is pumped out of the cabins, and simultaneously, the dehydrated and hardened clothes are fluffy, air pumping and air inflation are circulated repeatedly to force moisture out and pump out of the cabins alternately, so that the clothes dehydration efficiency is greatly improved, and the drainage and dehydration time is shortened; E. during drying, air is timely exhausted, water vapor is exhausted, meanwhile negative pressure enables clothes fibers to expand, water vapor is conveniently emitted and quickly dried, the air inflation cycle is matched for repetition, heating gasification and water vapor extraction are alternately carried out, the clothes drying process is greatly accelerated, the negative pressure enables the clothes to be fluffy, the clothes washing and drying quality is improved, and meanwhile, the clothes drying time is effectively shortened; and (III) an action method of the carried substances of the air flow and the water flow: carrying effective loads of superoxide, disinfectant, cleaning builder, softening and fluffing agent and decomposition treatment agent by positive and negative pressure airflow and water flow, and sequentially entering or residing in the washing machine type positive and negative pressure cabin (1F) to apply various acting forces which are helpful for fast and efficient cleaning and drying of washed clothes; the intelligent positive and negative pressure system is characterized in that a positive and negative pressure intelligent control device (5) analyzes class by class according to a built-in program, prestored data, internet cloud data, real-time feedback information of a touch screen, a mobile phone monitoring and identifying system (12) and sensors (C1) - (C12), and pollutant-causing factors and pollutant-removing targets of different cleaning scenes and cleaning clothes are calculated and processed to correspondingly use different accurate pollutant removing technologies to form a characteristic targeted pollutant removal comprehensive cleaning method, and the positive and negative pressure intelligent control device (5) sends specific instructions to an air suction pump (2), an air suction pump (3), a related positive and negative pressure fluid carried object generator (6) and a related electromagnetic valve (C) in real time to accurately control and adjust the opening, closing and conversion of air suction and air inflation and circulation pipelines, intelligently controls the positive and negative pressure in a positive and negative pressure cabin (1) and the inflow of fluid and carried objects thereof, Staying or flowing out, removing the pollution-causing factors of the cleaning matters at fixed points, and precisely maintaining the vulnerable elements of the cleaning matters, thereby achieving the cleaning effect with high efficiency and low consumption; the specific operation method of the intelligent positive and negative pressure system targeted decontamination comprehensive washing and drying and positive and negative pressure washing machine comprises the following steps: (I) water inlet procedure: clothes are put into the drum (15.1), after the door (1.2) is closed and the washing machine is started, the washing machine type positive and negative pressure cabin (1F) is sealed and locked, the positive and negative pressure intelligent control device (5) sends out an instruction, so that the electromagnetic valves (B14), (B15), (B16) and (B17) open corresponding water inlet pipelines: the direct water inlet pipeline of tap water is (A14) → (B14) → (A18) → (B16) → (A16) → the detergent box pulling water inlet (z) → the water outlet (l) → (A17) → (B17) → (A17) → the positive and negative ballast water inlet (T); the water inlet pipeline is (A14) → (B14) → (A14) → the intake pump water inlet (r) → the water outlet (u) → (A15) → (B15) → (A15) → the water flow cargo generator integrated water inlet (v) → the water outlet (o) → (A16) → (B16) → (A16) → the detergent box pulling (z) → the water outlet (l) → (A17) → (B17) → (A17) → the positive and negative ballast water inlet (T) when the washing aid cargo is needed to be washed; thirdly, when the washing aid ballast is not needed to be cleaned, the water inlet pipeline is (A14) → (B14) → (A14) → the water inlet (r) → the water outlet (u) → (A15) → (B15) → (A19) → (A18) → (B16) → (A16) → the water inlet (z) → the water outlet (l) → (A17) → (B17) → (A17) → the positive and negative and positive and negative water inlets (T) during the program, the water inlet pump (17) is started, tap water directly enters the washing machine or enters the washing aid ballast mixed water produced by the water flow ballast generator assembly (6.04) into the positive and negative ballast (1F) of the washing machine, and the superoxide or ballast mixed water is accelerated to decompose organic dirt on the clothes to facilitate quick cleaning; after water inflow begins, the positive and negative pressure intelligent control device (5) enables the electromagnetic valve (B1) to open the air suction pipeline (A1), the air suction pump air inlet (a) → (A1) → (B1) → (A1) → the positive and negative pressure cabin air suction return air inlet (c), and the air suction pump (2) is started to enable the washing machine type positive and negative pressure cabin (1F) to be in negative pressure, so that water inflow is accelerated, and water inflow time is shortened; (II) vacuum washing program: after water is fed, the positive and negative pressure intelligent control device (5) starts the motor assembly (15.5) to drive the roller mechanism (15.1) to rotate to start washing, simultaneously, the electromagnetic valve (B1) is opened (A1) to form an air suction pipeline, and an air suction pump air inlet (a) → (A1) → (B1) → (A1) → the positive and negative ballast air suction return air inlet (c), and the air pump (2) is started to pump the washing machine type positive and negative pressure cabin (1F) to proper vacuum, the clothes fiber and dirt expand in vacuum, wherein the air escapes to weaken or drop the adhesion force of dirt, improve the cleaning efficiency and shorten the washing time, the superoxide or carried mixed water directly kills bacteria and virus microorganisms on the clothes in the washing process, decomposes organic matters in dust and dirt on the clothes to dissolve the organic matters in the water, the decontamination capability of the detergent is enhanced, the cleanliness is improved, the cleaning process is accelerated, and the sterilization and deodorization effects are achieved; (III) high-pressure washing program: after the vacuum washing is carried out for a proper time, the positive and negative pressure intelligent control device (5) closes the electromagnetic valve (B1) and the air pump (2), so that the electromagnetic valve (B3) is opened (A3) and an air charging pipeline is formed: the air pump air outlet (d) → (A3) → (B3) → (A3) → the positive and negative ballast inflation air inlet (f), and simultaneously opening the (a1) (a5) (a6) circulation pipeline: the air circulation, the positive and negative ballast circulation return air ports (i) → (a1) → (B1) → (a5) → (B5) → (a5) → circulation exhaust port (i2) are discharged into the air circulation; or the inside of the washing machine is circulated, positive and negative pressure cabin circulation air return ports (i) → (A1) → (B1) → (A5) → (B5) → (A7) → (B6) → (A6) → inflator pump circulation air return ports (e2), the inflator pump (3) is started, high-pressure air flow enters the washing machine type positive and negative pressure cabin (1F) through the (A3) inflation pipeline, strong air bubble rapid water flow is formed in the cabin to participate in washing, and meanwhile positive air pressure formed in the washing machine type positive and negative pressure cabin (1F) is favorable for detergent to permeate into clothes for washing; the air suction and the air inflation are alternately carried out, the vacuum and the high pressure are circulated repeatedly, the fibers are expanded sometimes, and the fibers are stirred sometimes, so that the cleaning degree and the washing efficiency are greatly improved, and the washing and rinsing processes are accelerated; (IV) draining and dewatering: when water needs to be drained, the positive and negative pressure intelligent control device (5) sends out an instruction to enable the electromagnetic valves (B20), (B21) and (B22) to open corresponding drainage pipelines: firstly, when the super oxygen or the carried objects are not needed to be decomposed by a drainage pump, a direct drainage pipeline is a washing machine type positive and negative ballast drainage port (L) → (A20) → (B20) → (A23) → (B22) → (A22) → a sewer; the water discharge pipeline is divided into a positive ballast water discharge port and a negative ballast water discharge port (L) → (A20) → (B20) → (A20) → a water discharge pump water inlet (w) → a water outlet (p) → (A21) → (B21) → (A21) → a ballast water inlet (g) → a water outlet (m) → (A22) → (B22) → (A22) → a sewer; the drainage pipeline is characterized in that when the super oxide ballast is not needed to be decomposed during drainage of the drainage pump, the drainage pipeline is formed by a drainage port (L) → (A20) → (B20) → (A20) → a drainage pump water inlet (w) → a water outlet (p) → (A21) → (B21) → (A24) → (A23) → (B22) → (A22) → a sewer), during drainage, the drainage pump (16) is started to drain water, during drainage, the air pump (3) is started to inflate and pressurize the washing machine type positive and negative pressure cabin (1F), the drainage speed is increased, and after drainage, the positive and negative pressure intelligent control device (5) sends an instruction to start dewatering; during dehydration, air is inflated and pressurized to force moisture to be quickly separated from clothes, then an air pump (2) is alternately started to pump negative pressure, so that clothes fibers in the washing machine type positive and negative pressure cabin (1F) are expanded, the moisture in the clothes escapes to a negative pressure space and is pumped out of the cabin, meanwhile, the clothes hardened on the inner wall of the roller during dehydration and high pressure are fluffy to prevent the clothes from wrinkling, the air pumping and inflating cycle is repeated, the moisture is forced out and the clothes are pumped out of the cabin alternately, the efficiency of clothes dehydration is greatly improved, and the drainage and dehydration time is shortened; (V) vacuum high-pressure drying program: when the drying program starts, the positive and negative pressure intelligent control device (5) instructs to start the air pump (3) and open (A3) the air charging pipeline to charge air to the washing machine type positive and negative pressure cabin (1F) to pressurize the air so that the hot air enters the clothes fibers to vaporize the moisture, then the air pump (3) and the air charging pipeline (A3) are closed, the air pump (2) is started and the air suction pipeline (A1) is opened to pump the moisture, and simultaneously the circulation pipeline (A5) (A7) (A6) (A3) is opened: the clothes drying device comprises a positive and negative ballast circulating air inlet (j), a circulating air inlet (j2) → (A5) → (B5) → (A7) → (B6) → (A6) → (B3) → (A3) → and a negative ballast circulating air inlet (j), wherein when water vapor is extracted, negative pressure enables clothes fibers to expand, the water vapor is favorably diffused to prompt the clothes to be quickly dried, so that the air extraction and inflation cycle is repeated, heating gasification and water vapor extraction are alternately carried out, the clothes drying process is greatly accelerated, clothes are fluffy, the clothes drying quality is improved, and the clothes drying time is effectively shortened; (VI) vacuum self-cleaning sterile placing procedure: after the washing is finished, the cabin door (1.2) is closed, the positive and negative pressure intelligent regulation and control device (5) operates the elution and drying control mechanism to open drying hot air, the interior of the washing machine, particularly a roller mechanism (15.1), is dried, then an air suction pump (2) is opened and an air suction pipeline is opened for air suction, superoxide or carried object residual gas in the washing machine type positive and negative pressure cabin (1F) is sucked out, the roller mechanism (15.1) and equipment in the cabin are in proper vacuum, the washing machine is sterile, dust-free and pollution-free and kept clean, the washing machine is free of oxidation, rust and damage, the service life of the washing machine is prolonged, the positive and negative pressure washing machine greatly accelerates each process of washing, dewatering and drying, shortens the working time of each program, improves the washing cleanliness and the drying quality, thoroughly sterilizes and removes peculiar smell of the washed clothes by the superoxide, and intelligently controls the concentration of the carried object and the working time to be in proper areas of sterilization, degradation and washing assistance, the critical point of oxidation fading of the clothes is not reached or is reached as little as possible; (VII) a positive and negative pressure module combined intelligent home mode: the intelligent positive and negative pressure washing machine is manufactured according to module function design, not only is used as an independent invention right for independent production and use, but also is organically combined with other positive and negative piezoelectric devices and a module cabinet under the control of a touch screen and a mobile phone monitoring and identifying system (12) to form an intelligent positive and negative pressure module combined home with complete functions, not only shares an intelligent positive and negative pressure system, but also has basically uniform appearance and color and is orderly matched to accord with the popular trend; in a word, the intelligent positive and negative pressure system is an effective method for targeted decontamination comprehensive washing and drying, so that the clothes washing and dehydrating drying is faster, more efficient and lower in consumption, and the clothes washed are less in loss, cleaner, more fluffy and more sanitary.

According to a seventh embodiment of the invention, an intelligent positive and negative pressure dish washing, fruit and vegetable cleaning machine is provided, which comprises a machine body (7); an intelligent positive-negative pressure system, a dish washing and drying system (19) and a fruit and vegetable cleaning system (20) are arranged in the machine body (7); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air suction pump (2), a positive and negative pressure intelligent regulation and control device (5), a water flow carried object generator assembly (6.04), a carried object decomposition processor (6.7), a drainage pump (16), a water inlet pump (17) and a touch screen and mobile phone monitoring and recognition system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a water pump (16), a water inlet pump (17), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a dishwasher type positive and negative pressure cabin (1G) according to the specific requirements of intelligent dish washing, drying and fruit and vegetable cleaning; the dishwasher type positive and negative pressure cabin (1G) is of a vacuum high pressure cabin (1-1) structure, the negative pressure resistance standard of the vacuum high pressure cabin (1-1) is 0.01KPa lower than the zero standard until lower by taking local instant atmospheric pressure as the zero standard, and the positive and negative pressure resistance intensity is improved according to specific requirements and the configuration of the dishwasher fruit and vegetable washing machine; the dishwasher-type positive and negative pressure cabin (1G) comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1) of the dishwasher type positive and negative pressure cabin (1G); the airtight mechanism (1.3) comprises a lock ring (1.31), a lock tongue (1.32) and an airtight gasket (1.33); the lock ring (1.31) is movably matched with the bolt (1.32), the bolt (1.32) extends into the lock ring (1.31) to lock the cabin door when the cabin door is closed, and the air-tight gasket (1.33) keeps sealing when positive and negative air pressure is formed in the dishwasher type positive and negative pressure cabin (1G); the device comprises an intelligent regulation and control device (5) for positive and negative pressure, a communication device (1.4) for external sealing in the cabin, a control system and a control system, wherein the communication device (1.4) for external sealing in the cabin is arranged at the rear part or the side part of the dishwasher type positive and negative pressure cabin (1G), pipelines and circuits for the internal and external sealing in and out of the cabin are connected to the communication device (1.4) for external sealing in and out of the cabin through the communication device so as to keep the sealing performance of the dishwasher type positive and negative pressure cabin (1G), and the intelligent regulation and control device for positive and negative pressure (5) comprises an integrated circuit, a chip, fluid and a carried object regulation and control system thereof and is connected to the Internet in a wired and wireless mode; positive and negative pressurized water flow carried object generator integration (6.04) includes: the device comprises a superoxide generation water mixer (6.6), a disinfection and sterilization degradation device (6.9), a stain and oil removing cleaning device (6.11) and a carried substance generator item-adding upgrading module (6.16); the load generator augmented upgrading module (6.16) is a combined module which can install any single fluid load generator augmented arrangement into the load generator assembly and upgrade and update the load generator assembly; a dish washing and drying system (19), a fruit and vegetable cleaning system (20), a water spraying prevention air exhaust port (2.1), a negative pressure sensor (C2), a superoxide sensor (C3), a temperature sensor (C9) and a carried object sensor item-adding upgrading module (C12) are arranged in the dish washing machine type positive and negative pressure cabin (1G); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; an air pump (2), a positive and negative pressure intelligent regulation and control device (5), a water flow carried object generator assembly (6.04), a carried object decomposition processor (6.7), a drainage pump (16), a water inlet pump (17), a touch screen and a mobile phone monitoring and identification system (12) are arranged outside the dish-washing machine type positive and negative pressure cabin (1G); an air suction pipeline (A1) is installed at an air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), and the other end of the air suction pipeline extends into the dishwasher type positive and negative pressure cabin (1G) and then is connected with a water spraying prevention air suction opening (2.1) to form an air suction return opening (c); an air outlet (b) of the air pump (2) is communicated with the atmosphere; a water inlet pipeline (A14) is arranged at the water inlet (r) of the water inlet pump (17), the middle part of the water inlet pipeline (A14) is provided with an electromagnetic valve (B14), the other end is communicated with a tap water source, a water inlet pipeline (A15) is arranged at the water outlet (u) of the water inlet pump (17), the middle part of the water inlet pipeline (A15) is provided with an electromagnetic valve (B15), the other end of the water inlet pipeline is communicated with a water inlet (k) of a water flow carrying object generator assembly (6.04), a water inlet pipeline (A16) is arranged at a water outlet (q) of the water flow carried object generator assembly (6.04), the middle part of the water inlet pipeline A (16) is provided with an electromagnetic valve (B16), the other end of the water inlet pipeline A extends into a dishwasher type positive and negative pressure cabin (1G) and is connected to an electromagnetic valve (B25), the electromagnetic valve (B25) is respectively connected with a fruit and vegetable cleaning water inlet pipeline (A25) and a dish washing and drying water inlet pipeline (A27), the water inlet pipeline (A25) is connected to a water inlet (E) of the fruit and vegetable cleaning system (20); the water inlet pipeline (A27) is connected to a water inlet (G) of the dish washing and drying system (19); the electromagnetic valve (B15) is also provided with a water inlet pipeline (A19) and is connected to the electromagnetic valve (B16), and water is directly fed by a water inlet pump (17) when the super oxygen water is not needed; a water discharge pipeline (A20) is installed at a water inlet (w) of the drainage pump (16), an electromagnetic valve (B20) is installed in the middle of the water discharge pipeline (A20), the other end of the water discharge pipeline extends into a dishwasher type positive and negative pressure cabin (1G) and is respectively connected to a fruit and vegetable cleaning water discharge pipeline (A26) and a dish washing and drying water discharge pipeline (A28), and the water discharge pipeline (A26) is connected to a water outlet (F) of the fruit and vegetable cleaning system (20); the drainage pipeline (A28) is connected to a drainage outlet (H) of the dish washing and drying system (21); a drainage pipeline (A21) is installed at a water outlet (p) of the drainage pump (16), an electromagnetic valve (B21) is installed in the middle of the drainage pipeline (A21), the other end of the drainage pipeline is communicated with a water inlet (g) of a carried object decomposition processor (6.7), a drainage pipeline (A22) is installed at a water outlet (m) of the carried object decomposition processor (6.7), an electromagnetic valve (B22) is installed in the middle of the drainage pipeline (A22), and the other end of the drainage pipeline is communicated with a sewer; the electromagnetic valve (B21) is also provided with a drainage pipeline (A24) and is connected to (A23) to be communicated with the electromagnetic valve (B22), and the water is directly drained by a drainage pump when the super oxygen and the carried objects do not need to be decomposed; all fluid carried objects generate processor (6), sensor (C), solenoid valve (B) and air pump (2), inflator pump (3), water suction pump (16), water intake pump (17), dish washing and drying system (19), fruit and vegetable cleaning system (20), touch screen and mobile phone monitoring and identification system (12) all access positive and negative pressure intelligent regulation and control device (5).

According to an eighth embodiment of the invention, an operation method of an intelligent positive-negative pressure dish washing and fruit and vegetable cleaning machine is provided, wherein the intelligent positive-negative pressure dish washing and fruit and vegetable cleaning machine is provided with an intelligent positive-negative pressure system; the intelligent positive and negative pressure system regulates and integrates various methods of vacuum, superoxide, disinfection and sterilization, degradation treatment, dish washing and fruit and vegetable cleaning, a plurality of methods are combined or applied to the positive and negative pressure dish washing and fruit and vegetable cleaning machine singly, the pollution-causing sites of both cleaning objects and pollutants are analyzed class by class on a molecular level and microscopic level, different cleaning scenes and pollution-causing factors and pollution-removing targets of the cleaning objects are correspondingly used after calculation treatment, different accurate pollution-removing technologies are correspondingly used, a characteristic targeted pollution-removing comprehensive cleaning method is formed, and the pollution-causing factors are removed at fixed points, so that the aims of quickly, efficiently, sanitarily, environmentally friendly and cleaning fruits and vegetables are achieved; the specific operation method of the intelligent positive-negative pressure dish washing and fruit and vegetable cleaning machine comprises the following steps: firstly, dish washing, water inlet and washing procedures: after the machine door is closed, the positive and negative pressure intelligent regulation and control device (5) sends out an instruction to enable the electromagnetic valves (B14), (B15), (B16) and (B25) to open corresponding water inlet pipelines: firstly, when people need to eat superoxide or carry water for washing dishes, a water inlet pipeline of a water inlet pump is (A14) → (B14) → (A14) → a water inlet opening (r) → a water outlet opening (u) → (A15) → (B15) → (A15) → a water flow carry object generator integrated water inlet opening (k) → a water outlet opening (q) → (A16) → (B16) → (A16) → (B25) → (A27) → a water inlet opening (G) of a dish washing and drying system; the water inlet pipeline of the water inlet pump is (A14) → (B14) → (A14) → the water inlet of the water inlet pump (r) → the water outlet (u) → (A15) → (B15) → (A19) → (B16) → (A16) → (B25) → (A27) → the water inlet (G) of the dish washing and drying system when the water is not needed to be used or carried for washing dishes; and open water intake pump (17), the running water gets into positive negative pressure cabin (1G) of dish washer formula through the super oxygen of rivers carry thing generator integration rather than production or carry thing mixing water thereupon, and super oxygen or carry thing mixing water accelerate to decompose the organic dirt on the tableware and do benefit to quick washing, and the positive negative pressure regulation and control device (5) that finishes of intaking opens the drying system (19) that washes the dishes and begin to spray and wash the dishes to make solenoid valve (B1) open (A1) exhaust line: the air suction pump air inlet (a) → (A1) → (B1) → (A1) → positive and negative pressure cabin air suction and return air inlet (c), and the air suction pump (2) is started to vacuumize simultaneously, dirt stained on the bowl and chopstick tableware can expand in vacuum negative pressure, air in the dirt escapes, the adhesion force of the dirt is weakened or the dirt falls off from the bowl and chopstick tableware, the cleaning efficiency is improved, the washing process is shortened, the superoxide or carried mixed water can directly kill bacteria and viruses on the bowl and chopstick tableware in the dish washing process, organic matters in the dirt on the bowl and chopstick tableware are decomposed to be dissolved into water, the dirt removing capacity of a detergent can be enhanced, the cleanliness is improved, the cleaning process is accelerated, and the sterilization and deodorization effects are achieved; (II) dish washing, draining, drying and disinfecting procedures: when the water needs to be drained after the proper time is cleaned, the positive and negative pressure intelligent control device (5) sends out an instruction to enable the electromagnetic valves (B20), (B21) and (B22) to open corresponding drainage pipelines: firstly, when the superoxide or the carried substances are not needed to be decomposed by a drainage pump, a direct drainage pipeline is formed, namely a water outlet (H) → (A28) → (A20) → (B20) → (A23) → (B22) → (A22) → a sewer; the drainage pipeline is water outlet (H) → (A28) → (A20) → (B20) → (A20) → drainage pump water inlet (w) → water outlet (p) → (A21) → (B21) → (A21) → drainage pump water inlet (g) → water outlet (m) → (A22) → (B22) → (A22) → sewer; a water discharge pipeline is used when water to be discharged by a water discharge pump does not need to decompose superoxide, a water outlet (H) → (A28) → (A20) → (B20) → (A23) → (B22) → (A22) → a sewer of the dish washing and drying system is directly drained, or a water discharge pump (16) is started, or a ballast decomposition processor (6.7) is started again, the waste water is decomposed and then discharged into the sewer, and meanwhile, the tableware is sprayed and cleaned by clean water again; during the drying procedure, the positive and negative pressure regulating and controlling device (5) opens the air extracting pump (2) again to quickly extract water vapor, so that the drying process is accelerated, the dish washing time is accelerated, and the super oxygen or carried objects can thoroughly sterilize, disinfect and remove peculiar smell from the dish-washing chopsticks and tableware; (III) washing, water feeding and washing procedures of fruits and vegetables: after the machine door is closed, the positive and negative pressure intelligent regulation and control device (5) sends out an instruction to enable the electromagnetic valves (B14), (B15), (B16) and (B25) to open corresponding water inlet pipelines: firstly, when fruits and vegetables need to be cleaned by using the super-oxygen water, a water inlet pipe of a water inlet pump is (A14) → (B14) → (A14) → a water inlet pipe of the water inlet pump (r) → a water outlet (u) → (A15) → (B15) → (A15) → a water inlet of the super-oxygen generation water mixer (k) → a water outlet (q) → (A16) → (B16) → (A16) → (B25) → (A25) → a water inlet of a fruit and vegetable cleaning system (E); when the fruits and vegetables are cleaned without the super oxygen water, a water inlet pipeline of a water inlet pump is (A14) → (B14) → (A14) → a water inlet (r) → a water outlet (u) → (A15) → (B15) → (A19) → (B16) → (A16) → (B25) → (A25) → a fruit and vegetable cleaning system water inlet (E), the water inlet pump (17) is started, tap water enters a water flow carrying object generator assembly (6.04) and a dishwasher or carrying object mixed water produced by the water flow carrying object generator assembly (6.04) into a positive and negative pressure cabin (1G), a fruit and vegetable cleaning system (20) is started to spray the fruits and vegetables after water inlet is finished, an electromagnetic valve (B1) is opened (A1) an air suction pipeline, an air inlet (a) → (A1) → (B1) → (A1) → (c) of the fruit and vegetable cleaning system water enters a negative pressure regulating device (5) and the air inlet (2) of the air suction pump and the air inlet (2) and the air is inflated to suck the negative pressure and suck the dirt in the negative pressure chamber, air in the dirt escapes, so that the adhesion force of the dirt is weakened or the dirt falls off from the fruits and vegetables, the cleaning efficiency is improved, the cleaning process is shortened, bacterial virus microorganisms on the surfaces of the fruits and vegetables are directly killed by the super-oxygen or carried substance mixed water in the cleaning process, organic matters in the dirt on the surfaces are decomposed and dissolved in water, the cleaning degree is improved, the cleaning process is accelerated, meanwhile, the pesticide heavy metal residues and volatile metabolite ethylene acetaldehyde ethanol harmful gas in tissues of the fruits and vegetables are promoted to escape under negative pressure, a favorable environment is created for quick cleaning of the super-oxygen or carried substance water, deep degradation of pesticide residues and decomposition of ethylene harmful gas, the positive-negative pressure intelligent regulation and control device (5) sends an instruction after the super-oxygen or carried substance mixed water is cleaned, and the fruits and vegetables are cleaned by spraying of clear water; (IV) draining after fruit and vegetable cleaning: when the water needs to be drained after the proper time is cleaned, the positive and negative pressure intelligent control device (5) sends out an instruction to enable the electromagnetic valves (B20), (B21) and (B22) to open corresponding drainage pipelines: firstly, when the super oxygen or the ballast is not needed to be decomposed by a drainage pump, a direct drainage pipeline is formed, namely, a water outlet (F) → (A26) → (A20) → (B20) → (A23) → (B22) → (A22) → a sewer; the drainage pipeline is divided into two parts, namely a water outlet (F) → (A26) → (A20) → (B20) → (A20) → a water inlet (w) → a water outlet (p) → (A21) → (B21) → (A21) → a water inlet (g) → a water outlet (m) → (A22) → (B22) → (A22) → a sewer; the drainage pipeline is that water outlet (F) → (A26) → (A20) → (B20) → (A23) → (B22) → (A22) → sewer when superoxide or carried objects do not need to be decomposed in drainage of the drainage pump, the drainage pump directly drains water, or the drainage pump (16) is started or the carried object decomposition processor (6.7) is started again, and the wastewater is decomposed and then drained into the sewer; (V) vacuum self-cleaning sterile placing procedure: after the use, the machine door (1.2) is closed, the positive and negative pressure intelligent regulation and control device (5) opens drying hot air to blow dry the inside of the dish-washing machine type positive and negative pressure cabin (1G), particularly a dish-washing and drying system (19) and a fruit and vegetable cleaning system (20), then an air suction pump (2) is opened and an air suction pipeline is opened to suck air, superoxide or carried residual gas in the dish-washing machine type positive and negative pressure cabin (1G) is sucked out, and the dish-washing and drying system (19), the fruit and vegetable cleaning system (20) and equipment in the cabin are all in proper vacuum, so that the machine is sterile, dustless, pollution-free, clean, beneficial to health, free of oxidation, rust and free of damage, and the service life of an electric appliance is prolonged; (VI) combining the positive and negative pressure modules into an intelligent home mode: the intelligent positive and negative pressure dish washing and fruit and vegetable cleaning machine is manufactured according to module function design, not only is used as an independent invention right for independent production and use, but also is organically combined with other positive and negative piezoelectric devices and module cabinets under the control of a touch screen and a mobile phone monitoring and identifying system (12) to form an intelligent positive and negative pressure module combined home with complete functions, and not only shares a common water inlet pump (17), a water discharge pump (16), a water flow carried object generator assembly (6.04) and a carried object decomposition processor (6.7) with a positive and negative pressure oil smoke machine, but also has basically uniform appearance and color, and is neatly matched to accord with a popular trend; in a word, the intelligent positive and negative pressure system is an effective method for comprehensive cleaning by targeted decontamination, so that the dish washing and fruit and vegetable cleaning machine is higher in energy, high in efficiency, low in consumption and suitable for use.

According to a ninth embodiment of the invention, an intelligent positive and negative pressure range hood is provided, comprising a hood body (7); the lower half part of the machine body (7) is a range hood type positive and negative pressure cabin (1H), and the upper half part is an equipment smoke pipe cabin (21); a positive and negative pressure system, a fume exhaust control mechanism (26) and a water heating device (27) are arranged in the equipment smoke tube cabin (21); the positive and negative pressure system comprises: the device comprises a positive and negative pressure intelligent regulation and control device (5), a water inlet pump (17), a water discharge pump (16), a water flow carried object generator assembly (6.04) and a carried object decomposition processor (6.7); the range hood type positive and negative pressure cabin (1H) is of a normal pressure circulating cabin (1-2) structure and comprises a triangular cabin body (1.1) and a cabin door (1.2); the cabin door (1.2) is a machine door of a positive and negative pressure oil smoke machine, and a watertight mechanism (1.7) is arranged between the cabin door (1.2) and the cabin body (1.1); the watertight mechanism (1.7) comprises a lock ring (1.71), a lock tongue (1.72), a watertight gasket (1.73) and a cabin door hinge (1.74); the lock ring (1.71) is movably matched with the lock bolt (1.72), when the cabin door is closed, the lock bolt (1.72) extends into the lock ring (1.71) to lock the cabin door (1.2), and when the inside of the range hood type positive and negative pressure cabin (1H) is sprayed and cleaned, the inside is kept sealed by a watertight gasket (1.73); the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; positive and negative pressurized water flow carried object generator integration (6.04) includes: a super-oxygen generating water mixer (6.6), a disinfection and sterilization degradation device (6.9), a stain and oil removing and cleaning device (6.11) and an item increasing and upgrading module (6.16) of a carried object generator; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the range hood type positive and negative pressure cabin (1H) is internally provided with a motor and wind wheel combination (22), an automatic rotating spray ball (23), an oil and water collecting and draining groove (24), a super oxygen sensor (C3), a carried object sensor item-adding upgrading module (C12) and a touch screen and mobile phone monitoring and identifying system (12) which are arranged on the front surface; the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; a water inlet pipeline (A14) is installed at a water inlet (r) of the water inlet pump (17) and is connected with a tap water source, a pipeline (A15) is installed at a water outlet (u) of the water inlet pump (17), an electromagnetic valve (B15) is installed in the middle of the pipeline (A15), the other end of the pipeline is connected with a water inlet (z) of the water heating device (27), a pipeline (A16) is installed at a water outlet (q) of the water heating device (27), an electromagnetic valve (B16) is installed in the middle of the pipeline (A16), the other end of the pipeline is connected with a water inlet (v) of the water flow carrying object generator assembly (6.04), a pipeline (A18) is installed at a water outlet (o) of the water flow carrying object generator assembly (6.04), an electromagnetic valve (B18) is installed in the middle of the pipeline (A18), the other end of the pipeline extends into a range hood type positive and negative pressure cabin (1H) and is connected to the spraying pipeline (A30), a pipeline (A17) is installed at a water outlet (k) of the water heating device (27), the automatic rotating spraying device is characterized in that an electromagnetic valve (B17) is installed in the middle of the pipeline (A17), the other end of the pipeline is communicated with an electromagnetic valve (B18), the electromagnetic valve (B18) extends into the range hood type positive and negative pressure cabin (1H) through the pipeline (A18) and is connected to the spraying pipeline (A30), a plurality of automatic rotating spraying balls (23) are installed on the spraying pipeline (A30) according to specific requirements, the axes of the spraying balls and the axis of a middle circle of spraying holes form an angle of 45 degrees, and the spraying balls (23) automatically rotate when water flow is sprayed out; a drainage pipeline (A20) is installed at a water inlet (w) of the drainage pump (16), an electromagnetic valve (B20) is installed in the middle of the drainage pipeline (A20), and the other end of the drainage pipeline extends into an oil and water collecting and draining groove (24) at the bottom of the range hood type positive and negative pressure cabin (1H) to form a water outlet (L); a drainage pipeline (A21) is installed at a water outlet (p) of the drainage pump (16), an electromagnetic valve (B21) is installed in the middle of the drainage pipeline (A21), the other end of the drainage pipeline is communicated with a water inlet (g) of a carried object decomposition processor (6.7), a drainage pipeline (A22) is installed at a water outlet (m) of the carried object decomposition processor (6.7), an electromagnetic valve (B22) is installed in the middle of the drainage pipeline (A22), and the other end of the drainage pipeline is communicated with a sewer; the solenoid valve (B21) is also provided with a drainage pipeline (A24) and is connected to a solenoid valve (B22); all fluid carried objects generate the processor (6), the sensor (C), the electromagnetic valve (B), the water pump (16), the water inlet pump (17), the oil fume pumping control mechanism (26), the water heating device (27), the touch screen and the mobile phone monitoring and identifying system (12) to be connected into the positive and negative pressure intelligent regulation and control device (5).

According to a tenth embodiment of the invention, an operating method of an intelligent positive and negative pressure oil cigarette machine is provided, wherein the intelligent positive and negative pressure oil cigarette machine is provided with an intelligent positive and negative pressure system; the intelligent positive and negative pressure system regulates and integrates various methods of superoxide, disinfection and sterilization, degradation treatment and high-pressure cleaning, multiple combinations or a single method is applied to the positive and negative pressure oil smoke ventilator, the positive and negative pressure system analyzes the pollution-causing sites of both the cleaned objects and pollutants in the smoke ventilator on a molecular level and a microscopic level one by one, analyzes the pollution-causing factors and the pollution-removing targets of various cleaning scenes and the cleaned objects correspondingly on a molecular level, and forms a characteristic targeted decontamination comprehensive cleaning method by using different accurate decontamination technologies after calculation treatment, so that the pollution-causing factors are removed at fixed points, and the aim of cleaning the smoke ventilator quickly, efficiently, sanitarily and environmentally friendly is fulfilled; the method comprises the following steps: (I) a smoke exhaust program: when the range hood is started, the sealing waterproof cabin door (1.2) is opened to supply air and smoke, and when the range hood stops working, the sealing cabin door (1.2) is closed; (II) self-cleaning program: the positive and negative pressure regulating device (5) sends out a command to enable the electromagnetic valves (B15), (B18), (B16) or (B17) to open the corresponding water inlet pipelines: firstly, when people need to clean the water with the water or the related carried water, a water inlet pipeline is (A14) → a water inlet pump water inlet (r) → a water outlet (u) → (A15) → (B15) → (A15) → a water heating device water inlet (z) → a water outlet (q) → (A16) → (B16) → (A16) → a water flow carried object generator integrated related carried object generator water inlet (v) → a water outlet (o) → (A18) → (B18) → (A18) → (A30) → automatic rotation spraying ball (23); when the water is cleaned by hot water without carrying superoxide and hydrolyzing, a water inlet pipeline is (A14) → a water inlet pump water inlet (r) → a water outlet (u) → (A15) → (B15) → (A15) → a water heating device water inlet (z) → a water outlet (k) → (A17) → (B17) → (A17) → (B18) → (A18) → (A30) → automatic rotation spraying balls (23), the water inlet pump (17) is started, tap water passes through the water heating device (27) and the water flow carrying object generator assembly (6.04) to form superoxide or carrying water to enter the range hood type positive and negative pressure cabin (1H), the water passes through the automatic rotation spraying balls (23), all parts in the machine case including the motor and wind wheel assembly (22) are fully sprayed and cleaned, the superoxide or carrying object hot water is firstly sprayed and removed efficiently, and then clean hot water is sprayed until all cleaned, and the cleaned sewage flows down to the oil collecting and water draining tank (24) at the lowest part of the machine case, when water needs to be drained, the positive and negative pressure intelligent control device (5) sends out an instruction to enable the electromagnetic valves (B20), (B21) and (B22) to open corresponding drainage pipelines: firstly, when superoxide or ballast needs to be decomposed, a drainage pipeline is composed of an oil collecting and drainage tank drainage port (L) → (A20) → (B20) → (A20) → a drainage pump water inlet (w) → a water outlet (p) → (A21) → (B21) → (A21) → a ballast decomposition processor water inlet (g) → a water outlet (m) → (A22) → (B22) → (A22) → a sewer; the drainage pipeline is divided into an oil collecting drainage tank drainage port (L) → (A20) → (B20) → (A20) → a drainage pump water inlet (w) → a water outlet (p) → (A21) → (B21) → (A24) → (B22) → (A22) → a sewer, and the drainage pump (16) is started to discharge water to the sewer; thirdly, a drying and placing program is carried out, the cleaned positive and negative pressure intelligent regulation and control device (5) instructs to open the range hood to completely dry the interior of the case, and then the case is turned off and placed to prevent rusting; (IV) starting up protection function: when the range hood is started, air immediately flows from the outside of the range hood cabin to the inside of the positive and negative pressurized water washing range hood type positive and negative pressure cabin (1H) and is discharged from the smoke discharge pipe (29), so that no superoxide carry is contacted at all; (V) module combination intelligent home mode: the intelligent positive and negative pressure oil smoke machine is manufactured according to module function design, not only is used as an independent invention right for independent production and use, but also is organically combined with other electric appliances and a module cabinet under the control of a touch screen and a mobile phone monitoring and identifying system (12) to form an intelligent module combined home with complete functions, and not only shares a common water inlet pump (17), a drainage pump (16), a water flow carried object generator integration (6.04) and a carried object decomposition processor (6.7) with a dish washing fruit and vegetable cleaning machine, but also has basically uniform appearance shape and color, is orderly matched to accord with a popular trend, and the intelligent smoke exhaust ventilator is more efficient, low in energy consumption and suitable for use.

According to an eleventh embodiment of the present invention, there is provided an intelligent positive and negative pressure oven air fryer microwave oven, comprising a body (7), wherein: an intelligent positive and negative pressure system, a barbecue system (30), an air fryer system (31) and a microwave system (32); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system also adopts a non-standard structure except the above standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises: the device comprises an air pump (2) or an air pump (3), and at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a microwave oven type positive and negative pressure cabin (1K) according to the specific requirements of an oven air fryer and a microwave oven; the microwave oven type positive and negative pressure cabin (1K) is of a vacuum high pressure cabin (1-1) structure, the positive and negative pressure resistance standards of the vacuum high pressure cabin (1-1) all adopt local instant atmospheric pressure as a zero standard, the positive pressure resistance is higher than the zero standard by 0.01KPa until higher, the negative pressure resistance is lower than the zero standard by 0.01KPa until lower, and the positive and negative pressure resistance strength is improved according to specific requirements and the configuration of an oven air fryer and a microwave oven; the microwave oven type positive and negative pressure cabin (1K) comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); the hatch door (1.2) is a door of the positive and negative pressure oven air fryer microwave oven; an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1) of the microwave oven type positive and negative pressure cabin (1K); the airtight mechanism (1.3) comprises a lock ring (1.31), a lock tongue (1.32) and an airtight gasket (1.33); the lock ring (1.31) is movably matched with the bolt (1.32), the bolt (1.32) extends into the lock ring (1.31) to lock the hatch door when the hatch door is closed, and the sealing is kept by the airtight gasket (1.33) when positive and negative air pressure is formed in the microwave oven type positive and negative pressure cabin (1K); the communication device (1.4) is fixedly arranged at the rear side part of the microwave oven type positive and negative pressure cabin (1K), and all pipelines and circuits which enter and exit the cabin are connected to the communication device (1.4) and enter and exit through the communication device to keep the sealing performance of the microwave oven type positive and negative pressure cabin (1K). The positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; a barbecue system (30), an air fryer system (31), a microwave system (32), a positive and negative pressure sensor (C15) and a sensor item-adding upgrading module (C12) are arranged in the microwave oven type positive and negative pressure cabin (1K); inside positive negative pressure cabin of microwave oven formula (1K) sets up the non-standard structure outside still adopting above standard architecture, the non-standard structure of inside setting includes: at least one or more of a microwave system (32), a grilling system (30), an air fryer system (31); an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a touch screen and a mobile phone APP monitoring system (12) are arranged outside the microwave oven type positive and negative pressure cabin (1K); an air exhaust pipeline (A1) is installed at an air inlet (a) of the air pump (2), an electromagnetic valve (B1) is installed in the middle of the air exhaust pipeline (A1), the other end of the air exhaust pipeline extends into the microwave oven type positive and negative pressure cabin (1K) to form an air exhaust return port (c) of the microwave oven type positive and negative pressure cabin (1K), and an air outlet pipeline (A2) is installed at an air outlet (B) of the air pump (2) and is communicated with the atmosphere; an air inflation pipeline (A3) is arranged at an air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is arranged in the middle of the air inflation pipeline (A3), and the other end of the air inflation pipeline extends into the microwave oven type positive and negative pressure cabin (1K) to form an air inflation inlet (f); an air inlet pipeline (A4) is arranged at an air inlet (e) of the inflator pump (3) and is communicated with the atmosphere; all the sensors (C), the electromagnetic valve (B), the air pump (2), the inflator pump (3), the barbecue system (30), the air fryer system (31), the microwave system (32), the touch screen and the mobile phone monitoring and identifying system (12) are connected to the positive and negative pressure intelligent regulating and controlling device (5).

According to the twelfth embodiment of the invention, an intelligent positive and negative pressure fresh-keeping transportation carriage container is provided, which comprises a carriage body (7); an intelligent positive and negative pressure system and a refrigerating system (8) are arranged in the carriage body (7); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), and at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a cabin container type positive and negative pressure cabin (1M) or an atmospheric pressure cabin container type positive and negative pressure cabin (1M-2) according to the specific requirements of intelligent positive and negative pressure fresh-keeping transportation of the cabin container; the internal structure of the carriage container type positive and negative pressure cabin (1M) comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); the cabin door (1.2) is a carriage door of the positive and negative pressure fresh-keeping transportation carriage container; an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1) of the carriage container type positive and negative pressure cabin 1M; the airtight mechanism (1.3) comprises a lock ring (1.31), a bolt (1.3)2 and an airtight gasket (1.33); the lock ring (1.31) is movably matched with the bolt (1.32), the bolt (1.32) extends into the lock ring (1.31) to lock the cabin door when the cabin door is closed, and the air-tight gasket (1.33) keeps sealing when positive and negative air pressure is formed in the carriage container type positive and negative pressure cabin 1M; the communication device (1.4) for sealing and communicating the inside and outside of the cabin is fixedly arranged at the rear part of the container type positive and negative pressure cabin 1M of the carriage container, and all pipelines and circuits for entering and exiting the inside and outside of the cabin are connected to the communication device (1.4) for sealing and communicating the inside and outside of the cabin; the positive and negative pressure cabin (1M) of the carriage container type is provided with an airtight mechanism (1.3) and an in-cabin external sealing communicating device (1.4), and is provided with a corresponding vacuum-resistant high-pressure structure, and belongs to the vacuum high-pressure cabin (1-1) structure with airtightness, the positive and negative pressure resistance standard of the vacuum high-pressure cabin (1-1) structure takes local instant atmospheric pressure as a zero standard, the positive pressure resistance is 0.01KPa higher than the zero standard and is up to higher than the zero standard, the negative pressure resistance is 0.01KPa lower than the zero standard and is up to lower than the zero standard, and the positive and negative pressure resistance strength is improved according to specific requirements and the configuration of the carriage container; the normal pressure carriage container type positive and negative pressure cabin (1M-2) is formed by additionally arranging a positive and negative pressure system on a common carriage container, but an airtight mechanism (1.3) and an in-cabin external sealing communicating device (1.4) are not arranged, and the space of the common carriage container is a normal pressure positive and negative pressure cabin structure without vacuum and high pressure, and belongs to a common sealed normal pressure circulating cabin (1-2) or normal pressure in and out cabin (1-3) structure; the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carry generation processor (6) comprises: the device comprises an air conditioning device (6.1), an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), a carried object decomposition processor (6.7), an air filter (6.8), a disinfection and sterilization degradation device (6.9), a carried object generator item-adding upgrading module (6.16), an airflow carried object generator integration (6.02) or an integrated pipeline type fluid carried object generator (6.05); the air conditioning device (6.1) is a membrane air separation air conditioning device; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the airflow load generator ensemble (6.02) and the integrated piping fluid load generator (6.05) each comprise at least one or more of unitary fluid load generators (6.1) to (6.16) as required; an air pump (2), an air pump (3), a positive and negative pressure intelligent control device (5), an airflow carrying object generator assembly (6.02), a carrying object decomposition processor (6.7), an air filter (6.8), a refrigerating system (8), an air water making device (11) and a touch screen and mobile phone monitoring and identifying system (12) are arranged outside the carriage container type positive and negative pressure cabin (1M) or the normal pressure carriage container type positive and negative pressure cabin (1M-2); an air suction pipeline (A1) is installed at the air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), and the other end of the air suction pipeline extends into the carriage container type positive and negative pressure cabin (1M) or the normal pressure carriage container type positive and negative pressure cabin (1M-2) to form an air suction return port (c) of the air suction pipeline; the electromagnetic valve (B1) is also respectively connected with a carried waste gas pumping and exhausting pipeline (A8) and a carried waste gas pumping and exhausting pipeline (A8.1), and the other end of the carried waste gas pumping and exhausting pipeline (A8) is connected with a carried waste gas pumping and exhausting port (s1) of an air conditioning device (6.1) integrated in the positive and negative pressure airflow carried object generator assembly (6.02); the other end of the carried waste gas pumping and exhausting pipeline (A8.1) is connected with a carried waste gas pumping and exhausting port (s2) of an air conditioning device (6.1) integrated in a positive and negative pressure airflow carried object generator assembly (6.021); an air exhaust pipeline (A2) is installed at an air outlet (B) of the air suction pump (2), a carried substance decomposition processor (6.7) and an electromagnetic valve (B2) are installed in the middle of the air exhaust pipeline (A2), the other end of the air exhaust pipeline is communicated with an air inlet (h) of the air water making device (11), and air is introduced from an air outlet (n) of the air water making device (11); an air inflation pipeline (A3) is arranged at an air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is arranged in the middle of the air inflation pipeline (A3), and the other end of the air inflation pipeline extends into a carriage container type positive and negative pressure cabin (1M) or an atmospheric pressure carriage container type positive and negative pressure cabin (1M-2) to form an air inflation inlet (f) of the air inflation pipeline; an air inlet pipeline (A4) is installed at an air inlet (e) of the inflator pump (3), an electromagnetic valve (B4) and an air filter (6.8) are installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is communicated with the atmosphere; a carrying circulating pipeline (A5) is installed at the air inlet (e2) of the inflator pump (3), the other end of the carrying circulating pipeline (A5) is communicated with an electromagnetic valve (B3), and then the carrying circulating pipeline (A3) extends into the carriage container type positive and negative pressure cabin (1M) or the normal pressure carriage container type positive and negative pressure cabin (1M-2) to form a circulating air return port (j); the air charging pipeline (A3) is further connected with a carrying air pipe (A6), (A6.1) and (A6.2), the middle of the carrying air pipe (A6) is provided with an electromagnetic valve (B6), the other end of the carrying air pipe is connected with an air inlet (t) of an air flow carrying object generator assembly (6.02), the air outlet(s) of the air flow carrying object generator assembly (6.02) is provided with the carrying air pipe (A7), the middle of the carrying air pipe (A7) is provided with an electromagnetic valve (B7), the other end of the carrying air pipe extends into the compartment container type positive and negative pressure cabin (1M) or the normal pressure compartment container type positive and negative pressure cabin (1M-2) to form a carrying air inlet (i), the middle of the air pipe (A6.1) and the air pipe (A6.2) is respectively provided with the electromagnetic valves (B6.1) and the electromagnetic valves (B6.2), and the other end of the carrying air pipe extends into the compartment container type positive and negative pressure cabin (1M) or the normal pressure container type positive and negative pressure cabin (1M-2) to be respectively connected with the air flow carrying object generator assembly (6.021) in the air flow carrying container type positive and negative cabin (6.021) An air inlet of a fluid ballast generator (6.05); the aeration pipeline (A3) is also connected with an air-to-water aeration pipeline (A9), the air-to-water aeration pipeline (A9) is connected with an electromagnetic valve (B2) and then connected with an exhaust pipeline (A2), the middle part of the exhaust pipeline (A2) is communicated with an air-to-water device (11), and the other end of the exhaust pipeline is communicated with the atmosphere; the touch screen and mobile phone monitoring and identifying system (12) comprises a box door touch screen (12.1), a mobile phone APP (12.2), a wireless anti-fog camera shooting identifying device (12.4) and a radar scanning identifying device (12.5); the wireless anti-fog camera shooting recognition device (12.4) and the radar scanning recognition device (12.5) are arranged at positions needing to be monitored and recognized inside and outside the carriage body (7); the interior of the carriage container type positive and negative ballast (1M) or the normal pressure carriage container type positive and negative ballast (1M-2) is provided with an airflow carrying object generator assembly (6.021) or an integrated pipeline type fluid carrying object generator (6.05) and corresponding sensors thereof; the sensor comprises a sensor ensemble (CA) comprising, as required, at least one or more of the following elementary sensors (C1) to (C12): the device comprises a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3), a negative ion sensor (C4), a catalyst sensor (C5), a humidity sensor (C6), an oxygen sensor (C7), a nitrogen sensor (C8), a disinfection degradation sensor (C9), an air particulate matter sensor (C10), a temperature sensor (C11) and a carried matter sensor item-adding upgrading module (C12); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; all fluid carried objects generate a processor (6), a sensor (C), an electromagnetic valve (B), an air pump (2), an inflator pump (3), a refrigerating system (8), an air water making device (11), a touch screen and a mobile phone monitoring and identifying system (12) which are connected into a positive and negative pressure intelligent regulation and control device (5) through a line (D) or a cluster line (E).

According to a thirteenth embodiment of the present invention, there is provided an operating method of an intelligent positive and negative pressure freshness protection carriage container, wherein the intelligent positive and negative pressure freshness protection carriage container is provided with an intelligent positive and negative pressure system; the intelligent positive and negative pressure system regulates and integrates various technologies of superoxide, catalyst, controlled atmosphere preservation, negative ion, humidification, dehumidification, disinfection and degradation, air purification, air water production and low-temperature storage, a plurality of technologies are combined or applied to the positive and negative pressure preservation carriage container, a personalized targeted treatment comprehensive preservation method is designed on the cellular molecule level aiming at the site of the transported substance losing freshness, the preservation elements are precisely maintained, the factor of losing freshness is eliminated at fixed points, and the normal tissue cells of the transported substance are not affected or less affected, so that the purpose of preserving the quality of the transported substance is achieved; the specific operation method of intelligent positive and negative pressure fresh-keeping carriage container is characterized by that the positive and negative pressure system uses air pump or air pump to intelligently regulate and control air flow pressure or uses air flow to carry various effective loads of superoxide, catalyst, negative ion, air-conditioned gas, disinfectant, cleaning agent, heat quantity and water, and can be used for making the fresh-keeping fresh food of fresh fruit and fresh-keeping fresh: the positive air pressure and high pressure action method comprises the following steps: proper positive air pressure is timely formed in the cabin of a carriage container type positive and negative ballast (1M), a breathing channel water evaporation channel on the surface layer is contracted or closed after fruits and vegetables in the cabin are pressed, anaerobic respiration, growth aging and water loss of the fruits and vegetables are inhibited, and the mode, path, degree and development duration of damage to food caused by bacteria, viruses, food disease sources and various external factors of pollution particles under normal pressure are changed under the influence of a microscopic level; (II) a negative pressure vacuum action method: proper negative air pressure is formed in the cabin of the positive and negative pressure cabin (1M) of the container type carriage at proper time, anaerobic respiration, growth and aging of fruits and vegetables are inhibited, and bacterial microorganisms in vacuum can not survive, so that the fresh-keeping effect of the stored fruits, vegetables and meat fish is enhanced; (III) an airflow carrying matter action method: carrying various effective loads such as superoxide, catalyst, negative ions, modified atmosphere gas, disinfection degradation fresh-keeping substances and water by positive and negative pressure airflow, and orderly passing in and out or staying in a carriage container type positive and negative pressure cabin (1M) or an atmospheric carriage container type positive and negative pressure cabin (1M-2) by single or multiple combinations, and integrating multiple fresh-keeping technologies to apply accurate and effective various acting forces to the long-term fresh-keeping and quality-keeping of fresh fruit and vegetable articles stored and transported in the fresh-keeping and fresh-keeping technologies; based on the three acting force methods, the positive and negative pressure intelligent control device (5) analyzes class by class according to a built-in program, prestored data, internet cloud data, camera identification of a touch screen and a mobile phone monitoring and identifying system (12), radar scanning identification and real-time feedback information of sensors (C1) to (C12) and aims at the delicacy factors and treatment targets of different stored objects, different targeting preservation technologies are correspondingly used after calculation processing, and a characteristic targeting treatment comprehensive preservation method is formed, and the positive and negative pressure intelligent control device (5) sends specific instructions to the air pump (2), the air pump (3), the related positive and negative pressure fluid carrying object generator (6) and the related electromagnetic valve (C) in real time, accurately controls and adjusts the opening, closing and conversion of air pumping and inflating and circulating carrying pipelines, intelligently controls the level of positive and negative pressure in the positive and negative pressure cabin (1) and the inflow of fluid and carrying objects, and the flowing of the fluid carrying objects in the positive and negative pressure cabin (1), The preservation elements of the stored materials are maintained accurately and the freshness loss factors of the stored materials are removed at fixed points, so that the long-term effect of preservation and quality guarantee is achieved; the intelligent positive and negative pressure system targeted treatment comprehensive preservation method and the specific use method and operation program of the positive and negative pressure preservation carriage container comprise the following steps: firstly, an exhaust or vacuum harm and heat removal cleaning procedure: the cabin door (1.2) is closed, and the positive and negative pressure intelligent regulation and control device (5) sends out an instruction: enabling electromagnetic valves (B2) and (B1) to open (A2) and (A1) air extraction pipelines, and starting an air extraction pump (2) to extract air and exhaust air from a normal-pressure carriage container type positive and negative pressure cabin (1M-2), or extracting air from the carriage container type positive and negative pressure cabin (1M) to be vacuum or negative pressure of-0.001 KPa to-0.1 MPa (local instant air pressure is zero standard), so that heat of fruits, vegetables and flesh fish, partial bacterial microorganisms and foul air in the cabin are extracted, volatile metabolite ethylene-acetaldehyde-ethanol harmful gas in fruit and vegetable tissues is enabled to escape and be extracted by vacuum, meanwhile, the propagation of residual bacteria is inhibited by negative pressure, and the hidden danger of fruit and vegetable disease aging is reduced; a storage and transportation procedure of pressure reduction and control or humidification and humidity control: the positive and negative pressure intelligent regulation and control device (5) maintains a proper negative pressure low-oxygen low-temperature environment in a carriage container type positive and negative pressure cabin (1M) by opening or closing the air pump 2 according to the pressure standard of a preset program and the real-time feedback of the negative pressure sensor (C2), reduces the respiration intensity of fruits and vegetables, inhibits the biosynthesis of ethylene, delays the decomposition of chlorophyll, inhibits the synthesis of carotenoid and lycopene, and slows down the hydrolysis of starch, the increase of sugar and the consumption process of acid, thereby delaying the maturation and aging of the fruits and vegetables, and simultaneously can also open the humidifying and humidity control device (6.5) to improve and control the humidity in the cabin and prevent the moisture of the fruits and vegetables from escaping, and according to the optimal pressure and optimal humidity point required by the fresh-keeping of the fruits and vegetables, the positive and negative pressure is used for targeted pressure control and humidity control, the classified storage is accurately regulated and controlled, and the fresh state of the fruits and vegetables is maintained for a longer time; ③ the procedures of pressurization of the negative and positive pressure ballast of superoxide, negative ions or catalyst or normal pressure circulation sterilization, degradation and odor removal: the positive and negative pressure intelligent control device (5) sends out instructions to open an ultrasonic generator (6.2) or a negative ion generator (6.3) or a catalyst controlled release device (6.4) or a humidity control device (6.5) or a disinfection degradation device (6.9) in an airflow carried object generator assembly (6.02) or (6.021) or an integrated pipeline type fluid carried object generator (6.05) or a carried object generator installed in a carried object generator module (6.16) according to program setting and feedback of a sensor (C), so that superoxide, catalyst, negative ions, moisture and related carried objects in a positive and negative pressure cabin reach required standards, simultaneously, electromagnetic valves (B3) and (B4) and (B3.1) or (B3.2) or (B3.3) or (B3.4) can open corresponding (A4) and (A3) and (A3.1) or (A3.2) or (A3.3) or (A3.4) and open corresponding air charging pipelines (A4) and (A3.1) or a 3.3.3) to start a positive and negative and positive and negative air charging pipelines (10 MPa) appropriately, according to specific requirements and refrigerator configuration, the pressure value can be increased again), the superoxide, negative ions and catalyst with proper positive pressure can sterilize, disinfect, resist mildew and degrade the pesticide residues and ethylene gas sucked out by metabolism of fruits and vegetables for preventing browning and softening of fruits and vegetables, delaying senescence of fruits and vegetables, and the proper high pressure can prevent water in the fruits and vegetables and meat fish from escaping, and the moisture can permeate and supplement water lost due to refrigeration and negative pressure to the fruits and vegetables and meat fish under the positive pressure, the negative ions can reduce the size of water molecular groups of the moisture and facilitate absorption of the fruits and vegetables and meat fish, and the super oxide can better play a role in sterilization and disinfection when permeating into the deeper interior of the fruits and vegetables and meat fish under the positive pressure; fourthly, the storage procedure of atmosphere-controlled gas or other carried objects under normal pressure or pressurization or humidification is as follows: the positive and negative pressure intelligent control device (5) timely opens relevant air extraction pipelines and opens an air extraction pump (2) and a loading decomposition processor (6.7) according to program setting or camera recognition, radar scanning recognition and sensor feedback, dirty air after decomposition, sterilization and degradation is extracted out of the cabin, then electromagnetic valves (B3) and (B4) or (B6) or (B6.1) or (B6.2) open corresponding A4 and A3 or A6 or (A6.1) or (A6.2) relevant loading inflation pipelines, or electromagnetic valves (B3), (B4), (B6) and (B7) open corresponding (A3) and (A5), (A6) and (A7) relevant loading circulation pipelines, and an inflation pump (3) is opened to enable a container type positive and negative pressure (1M) or normal pressure container type positive and negative (1M-2) or normal pressure container type positive and negative pressure container type (6.1) inflation or normal pressure type inflation device to operate under atmospheric pressure, the air separation efficiency can be improved by moderately increasing the partial pressure difference between two sides of the membrane, and simultaneously the oxygen-rich waste gas or the waste gas of the carried object also needs to be pumped and discharged, at this time, an electromagnetic valve (B1) (B2) or (B8.1) is opened (A8) or (A8.1), (A1) or (A2) is provided with an exhaust gas pumping and discharging pipeline, and the exhaust gas is discharged into the atmosphere from an exhaust gas pumping and discharging port (s1) or (s2) → (A8) or (A8.1) → electromagnetic valve (B1) → A1 → air suction pump air inlet (a) → air suction pump air outlet (B) → (A2) → carried object decomposition processor (6.7) → (A2) → (B2) → (A2) → air water making device (11) → (A2), and the exhaust gas suction pump (2) is opened to exhaust and discharge the decomposed exhaust gas; according to the method and the standard point of the atmosphere-controlled gas or the carried gas for preservation and storage, the positive and negative pressure system is used for targeted control, accurate regulation and circulation operation, so that the gas components, the gas concentration, the gas pressure, the air dryness and humidity and each preservation factor of cleanliness in the positive and negative pressure cabin are kept in the optimal range required by preservation of fruits and vegetables, the respiration rate of the stored fruits and vegetables is effectively controlled, anaerobic respiration and carbon dioxide poisoning are prevented, the aging process is delayed, the quality reduction and flavor loss of the stored fruits and vegetables are prevented, the positive pressure moisture is kept and the water content of the fruits and vegetables is supplemented, and the freshness of the fruits and vegetables is maintained to the maximum extent; fifthly, a low-temperature auxiliary preservation program: after the door is closed and the machine is started, the positive and negative pressure intelligent control device (5) starts the refrigerating system (8), provides corresponding low temperature for each positive and negative pressure cabin through the feedback control of the temperature sensing controller (C9) and the intelligent control of the positive and negative pressure intelligent control device (5), and assists the positive and negative pressure system to keep the stored articles fresh; sixthly, the protection function is realized by opening the door and discharging the door immediately: if the compartment door is opened during the superoxide sterilization or the controlled atmosphere storage, the compartment door switch immediately feeds back, the positive and negative pressure intelligent control device (5) immediately operates to stop the superoxide or the controlled atmosphere or related programs, simultaneously opens the air suction pipeline and starts the air suction pump (2), the gas in the compartment is quickly sucked to the carried substance decomposition processor (6.7) for decomposition treatment and then discharged to the atmosphere, and the air is supplemented with air suction negative pressure from the outside of the refrigerator door to the positive and negative pressure compartment, so the superoxide or high-nitrogen and low-oxygen carried substance gas cannot flow out of the door; seventhly, an air water making program, wherein humid waste gas pumped out of a vacuum high-pressure cabin by an air pump (2) enters a carried substance decomposer (6.7) to decompose superoxide and then enters an air water making device (11), water vapor is condensed and filtered to form drinking standard purified water, uninterrupted water source is provided for a humidification and humidity control device (6.5), and when an inflator pump (3) is idle, an intelligent control device (5) starts the inflator pump (3) and enables electromagnetic valves (B3) and (B2) to open an air water making and inflating pipeline to drive indoor air to enter the air water making device (11) to make water; and eighthly, remote and near distance operation monitoring and identification functions: the wireless anti-fog camera shooting recognition device (12.4) and the wireless radar scanning recognition device (12.6) are arranged at positions to be monitored and recognized inside and outside the box body (7); the method comprises the steps of shooting and scanning the conditions of articles in a refrigerator in real time, automatically scanning and identifying various preservation factors of varieties, types, components, colors, water contents and disease degrees of stored articles, and even fuzzy data of quantity proportions of different articles in the same compartment, calculating a real-time numerical value or a maximum common divisor by combining cloud data, then accurately regulating and controlling various preservation environment factors of airflow pressure, gas components, air cleanliness, environmental temperature and humidity in a positive pressure compartment and a negative pressure compartment in real time by a positive pressure system and a negative pressure system through manual or automatic setting, accurately positioning and targeting to remove the preservation factors, and automatically performing harmless sterilization and rapid degradation on residual pesticide, fertilizer hormone and harmful additives; in summary, the above-mentioned specific operation method of the intelligent positive and negative pressure fresh-keeping car container integrates multiple technologies of vacuum, high pressure, super oxygen, catalyst, controlled atmosphere fresh-keeping, negative ion, humidification, dehumidification, humidity control and temperature control, disinfection and sterilization, air purification, air water production and low temperature storage by using positive pressure or negative pressure intelligent regulation and control, is organically applied to the positive and negative pressure intelligent fresh-keeping car container, organically integrates optimal collocation, uses single or multiple different combinations or single or alternative or cyclic application, and sets a plurality of positive and negative pressure cabins of different types and different functions in one positive and negative pressure fresh-keeping car container, uniformly arranges positions and distributes spaces according to different requirements and convenient use, and randomly combines, and applies strategies, classified regulation and control and flexible application according to the above-mentioned programs, functions and modes; the positive and negative pressure intelligent fresh-keeping carriage container updates the prior method that the traditional refrigerated carriage container is stored at low temperature only by controlling the temperature, so that an adjustable and controllable artificial microclimate is formed in the positive and negative pressure chambers, an accurate fresh-keeping microenvironment is created, and various fresh foods stored in the positive and negative pressure chambers can maintain the quality and flavor of fresh water and original branches to the greatest extent for a long time.

According to a fourteenth embodiment of the present invention, there is provided an intelligent positive and negative pressure freshness keeping warehouse, comprising a warehouse body (7); an intelligent positive and negative pressure system and a refrigerating system (8) are arranged in the storehouse body (7); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), and at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a storage type positive and negative pressure cabin (1N) or an atmospheric storage type positive and negative pressure cabin (1N-2) according to the specific requirements of the intelligent positive and negative pressure fresh-keeping warehouse; the internal structure of the positive and negative ballast (1N) of the storage type comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); the hatch door (1.2) is a warehouse door of the positive and negative pressure fresh-keeping warehouse; an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1) of the storage type positive and negative pressure cabin (1N); the airtight mechanism (1.3) comprises a lock ring (1.31), a bolt (1.3)2 and an airtight gasket (1.33); the lock ring (1.31) is movably matched with the lock bolt (1.32), the lock bolt (1.32) extends into the lock ring (1.31) to lock the cabin door when the cabin door is closed, and the cabin door is sealed by an airtight gasket (1.33) when positive and negative air pressure is formed in the storage type positive and negative pressure cabin (1N); the communication device (1.4) for sealing and communicating the inside and the outside of the cabin is fixedly arranged at the rear part of the storage type positive and negative pressure cabin (1N), and all pipelines and circuits for entering and exiting the inside and the outside of the cabin are connected to the communication device (1.4) for sealing and communicating the inside and the outside of the cabin; the warehouse type positive and negative pressure cabin (1N) is provided with an airtight mechanism (1.3) and an in-cabin external sealing communicating device (1.4), and is provided with a corresponding vacuum-resistant high-pressure structure, and belongs to the vacuum high-pressure cabin (1-1) structure with airtightness, the positive and negative pressure resistance standard of the vacuum high-pressure cabin (1-1) structure takes local instant atmospheric pressure as a zero standard, the positive pressure resistance is 0.01KPa higher than the zero standard and is up to higher than the zero standard, the negative pressure resistance is 0.01KPa lower than the zero standard and is up to lower than the zero standard, and the positive and negative pressure resistance strength is improved according to specific requirements and fresh-keeping warehouse configuration; the normal pressure warehouse type positive and negative pressure cabin (1N-2) is formed by additionally arranging a positive and negative pressure system in a common warehouse, but an airtight mechanism (1.3) and an in-cabin external sealing communicating device (1.4) are not arranged, and the common warehouse space is a normal pressure positive and negative pressure cabin structure without vacuum and high pressure resistance, and belongs to a common sealed normal pressure circulating cabin (1-2) or normal pressure in and out cabin (1-3) structure; the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carry generation processor (6) comprises: the device comprises an air conditioning device (6.1), an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), a carried object decomposition processor (6.7), an air filter (6.8), a disinfection and sterilization degradation device (6.9), a carried object generator item-adding upgrading module (6.16), an airflow carried object generator integration (6.02) or an integrated pipeline type fluid carried object generator (6.05); the air conditioning device (6.1) is a membrane air separation air conditioning device; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the airflow load generator ensemble (6.02) and the integrated piping fluid load generator (6.05) each comprise at least one or more of unitary fluid load generators (6.1) to (6.16) as required; an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), an airflow carried object generator assembly (6.02), a carried object decomposition processor (6.7), an air filter (6.8), a refrigeration system (8), an air water making device (11) and a touch screen and mobile phone monitoring and recognition system (12) are arranged outside the storage type positive and negative pressure cabin (1N) or the normal pressure storage type positive and negative pressure cabin (1N-2); an air suction pipeline (A1) is installed at the air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), and the other end of the air suction pipeline extends into the storage type positive and negative pressure cabin (1N) or the normal pressure storage type positive and negative pressure cabin (1N-2) to form an air suction return port (c) of the air suction pipeline; the electromagnetic valve (B1) is also respectively connected with a carried waste gas pumping and exhausting pipeline (A8) and a carried waste gas pumping and exhausting pipeline (A8.1), and the other end of the carried waste gas pumping and exhausting pipeline (A8) is connected with a carried waste gas pumping and exhausting port (s1) of an air conditioning device (6.1) integrated in the positive and negative pressure airflow carried object generator assembly (6.02); the other end of the carried waste gas pumping and exhausting pipeline (A8.1) is connected with a carried waste gas pumping and exhausting port (s2) of an air conditioning device (6.1) integrated in a positive and negative pressure airflow carried object generator assembly (6.021); an air exhaust pipeline (A2) is installed at an air outlet (B) of the air suction pump (2), a carried substance decomposition processor (6.7) and an electromagnetic valve (B2) are installed in the middle of the air exhaust pipeline (A2), the other end of the air exhaust pipeline is communicated with an air inlet (h) of the air water making device (11), and air is introduced from an air outlet (n) of the air water making device (11); an air inflation pipeline (A3) is arranged at an air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is arranged in the middle of the air inflation pipeline (A3), and the other end of the air inflation pipeline extends into a storage type positive and negative pressure cabin (1N) or an atmospheric storage type positive and negative pressure cabin (1N-2) to form an air inflation inlet (f) of the air inflation pipeline; an air inlet pipeline (A4) is installed at an air inlet (e) of the inflator pump (3), an electromagnetic valve (B4) and an air filter (6.8) are installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is communicated with the atmosphere; a carrying circulating pipeline (A5) is installed at the air inlet (e2) of the inflator pump (3), the other end of the carrying circulating pipeline (A5) is communicated with an electromagnetic valve (B3), and then the carrying circulating pipeline (A3) extends into the storage type positive and negative pressure cabin (1N) or the normal pressure storage type positive and negative pressure cabin (1N-2) to form a circulating air return port (j); the pneumatic pipeline (A3) is further connected with a carrying ventilating pipeline (A6), (A6.1) and (A6.2), the middle of the carrying ventilating pipeline (A6) is provided with an electromagnetic valve (B6), the other end of the carrying ventilating pipeline is connected with an air inlet (t) of an air flow carrying object generator assembly (6.02), the air outlet(s) of the air flow carrying object generator assembly (6.02) is provided with a carrying ventilating pipeline (A7), the middle of the carrying ventilating pipeline (A7) is provided with an electromagnetic valve (B7), the other end of the carrying ventilating pipeline extends into a storage type positive and negative ballast (1N) or an atmospheric storage type positive and negative ballast (1N-2) to form a carrying air inlet (i), the middle of the ventilating pipeline (A6.1) and the air outlet (A6.2) is provided with an electromagnetic valve (B6.1) and a ballast (B6.2), and the other end of the carrying pipeline (A6.021) is connected into the air flow carrying object generator assembly (366.05) The air inlet of (a); the aeration pipeline (A3) is also connected with an air-to-water aeration pipeline (A9), the air-to-water aeration pipeline (A9) is connected with an electromagnetic valve (B2) and then connected with an exhaust pipeline (A2), the middle part of the exhaust pipeline (A2) is communicated with an air-to-water device (11), and the other end of the exhaust pipeline is communicated with the atmosphere; the touch screen and mobile phone monitoring and identifying system (12) comprises a touch screen (12.1), a mobile phone APP (12.2), a high-definition anti-fog camera shooting and identifying device (12.3) and a radar scanning and identifying device (12.5); the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the warehouse body (7); the air flow carried object generator assembly (6.021) or the integrated pipeline type fluid carried object generator (6.05) and corresponding sensors are arranged in the storage type positive and negative pressure cabin (1N) or the normal pressure storage type positive and negative pressure cabin (1N-2); the sensor comprises a sensor ensemble (CA) comprising, as required, at least one or more of the following elementary sensors (C1) to (C12): the device comprises a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3), a negative ion sensor (C4), a catalyst sensor (C5), a humidity sensor (C6), an oxygen sensor (C7), a nitrogen sensor (C8), a disinfection degradation sensor (C9), an air particulate matter sensor (C10), a temperature sensor (C11) and a carried matter sensor item-adding upgrading module (C12); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; all fluid carried objects generate a processor (6), a sensor (C), an electromagnetic valve (B), an air pump (2), an inflator pump (3), a refrigerating system (8), an air water making device (11), a touch screen and a mobile phone monitoring and identifying system (12) which are connected into a positive and negative pressure intelligent regulation and control device (5) through a line (D) or a cluster line (E).

According to a fifteenth embodiment of the present invention, an operation method of an intelligent positive and negative pressure preservation warehouse is provided, wherein the intelligent positive and negative pressure preservation warehouse is provided with an intelligent positive and negative pressure system; the intelligent positive and negative pressure system regulates and integrates various technologies of superoxide, catalyst, controlled atmosphere preservation, negative ion, humidification, dehumidification, disinfection and degradation, air purification, air water production and low-temperature storage, a plurality of technologies are combined or applied to the positive and negative pressure preservation warehouse, a personalized targeted treatment comprehensive preservation method is designed on the cellular molecule level aiming at the site of the transported substance losing freshness, the preservation elements are precisely maintained, the factor of losing freshness is eliminated at fixed points, and the normal tissue cells of the transported substance are not affected or less affected, so that the purposes of preservation and quality guarantee of the transported substance are achieved; the specific operation method of the intelligent positive and negative pressure fresh-keeping warehouse is characterized in that a positive and negative pressure system carries various effective loads of superoxide, catalyst, negative ions, air-conditioned gas, disinfectant, detergent, heat and water by using the intelligently-regulated airflow pressure of an air pump or airflow, the effective loads are orderly put in or put out of a warehouse type positive and negative pressure cabin (1N) or a normal pressure warehouse type positive and negative pressure cabin (1N-2), and various acting forces which are beneficial to long-term fresh keeping and quality keeping are applied to fresh fruits and vegetables stored in the warehouse by the following modes: the positive air pressure and high pressure action method comprises the following steps: proper positive air pressure is timely formed in a cabin of the storage type positive and negative pressure cabin (1N), a breathing channel water evaporation channel on the surface layer of the fruit and vegetable in the cabin is contracted or closed after being pressed, anaerobic respiration, growth aging and water loss of the fruit and vegetable are inhibited, and the mode, path, degree and development duration of damage to food caused by bacteria, virus, food disease sources and various external causes of pollution particles under normal pressure are changed under the influence of a micro level; (II) a negative pressure vacuum action method: proper negative air pressure is formed in the cabin of the storage type positive and negative pressure cabin (1N) at proper time, anaerobic respiration, growth and aging of fruits and vegetables are inhibited, and bacterial microorganisms cannot survive in vacuum, so that the fresh-keeping effect of the stored fruits, vegetables and meat fish is enhanced; (III) an airflow carrying matter action method: carrying various effective loads such as superoxide, catalyst, negative ions, modified atmosphere gas, disinfection degradation fresh-keeping substances and water by positive and negative pressure airflow, and sequentially entering or residing in a warehouse type positive and negative pressure cabin (1N) or a normal pressure warehouse type positive and negative pressure cabin (1N-2) in a single or multiple combination manner, and integrating multiple fresh-keeping technologies to apply accurate and effective various acting forces to the long-term fresh-keeping and quality-keeping of fresh fruit and vegetable articles stored and transported in the warehouse type positive and negative pressure cabin; based on the three acting force methods, the positive and negative pressure intelligent control device (5) analyzes class by class according to a built-in program, prestored data, internet cloud data, camera identification of a touch screen and a mobile phone monitoring and identifying system (12), radar scanning identification and real-time feedback information of sensors (C1) to (C12) and aims at the delicacy factors and treatment targets of different stored objects, different targeting preservation technologies are correspondingly used after calculation processing, and a characteristic targeting treatment comprehensive preservation method is formed, and the positive and negative pressure intelligent control device (5) sends specific instructions to the air pump (2), the air pump (3), the related positive and negative pressure fluid carrying object generator (6) and the related electromagnetic valve (C) in real time, accurately controls and adjusts the opening, closing and conversion of air pumping and inflating and circulating carrying pipelines, intelligently controls the level of positive and negative pressure in the positive and negative pressure cabin (1) and the inflow of fluid and carrying objects, and the flowing of the fluid carrying objects in the positive and negative pressure cabin (1), The preservation elements of the stored materials are maintained accurately and the freshness loss factors of the stored materials are removed at fixed points, so that the long-term effect of preservation and quality guarantee is achieved; the intelligent positive and negative pressure system targeted treatment comprehensive preservation method and the specific use method and operation program of the positive and negative pressure preservation warehouse comprise the following steps: firstly, an exhaust or vacuum harm and heat removal cleaning procedure: the cabin door (1.2) is closed, and the positive and negative pressure intelligent regulation and control device (5) sends out an instruction: enabling electromagnetic valves (B2) and (B1) to open (A2) and (A1) air extraction pipelines, and opening an air extraction pump (2) to extract air and exhaust air from a normal-pressure storage type positive and negative pressure cabin (1N-2), or extracting air from the storage type positive and negative pressure cabin (1N) to be vacuum or negative pressure of-0.001 KPa to-0.1 MPa (local instant air pressure is zero standard), and extracting heat of fruits, vegetables and fleshfish, partial bacteria and foul air in the cabin, wherein the vacuum promotes volatile metabolite ethylene-acetaldehyde-ethanol harmful gas in fruit and vegetable tissues to escape and be extracted, and meanwhile, the negative pressure is used for inhibiting the propagation of residual bacteria, so that the hidden danger of disease and aging of the fruits and vegetables is reduced; a storage and transportation procedure of pressure reduction and control or humidification and humidity control: the positive and negative pressure intelligent regulation and control device (5) maintains a proper negative pressure low-oxygen low-temperature environment in a storage type positive and negative pressure cabin (1N) by opening or closing the air pump 2 according to the pressure standard of a preset program and the real-time feedback of the negative pressure sensor (C2), reduces the respiration intensity of fruits and vegetables, inhibits the biosynthesis of ethylene, delays the decomposition of chlorophyll, inhibits the synthesis of carotenoid and lycopene, and slows down the hydrolysis of starch, the increase of sugar and the consumption process of acid, thereby delaying the maturation and aging of the fruits and vegetables, and simultaneously can also open the humidifying and humidity control device (6.5) to improve and control the humidity in the cabin and prevent the moisture of the fruits and vegetables from escaping, and according to the optimal pressure and optimal humidity point required by the fresh-keeping of the fruits and vegetables, the positive and negative pressure is used for targeted pressure control and humidity control, the classified storage is accurately; ③ the procedures of pressurization of the negative and positive pressure ballast of superoxide, negative ions or catalyst or normal pressure circulation sterilization, degradation and odor removal: the positive and negative pressure intelligent control device (5) sends out instructions to open an ultrasonic generator (6.2) or a negative ion generator (6.3) or a catalyst controlled release device (6.4) or a humidity control device (6.5) or a disinfection degradation device (6.9) in an airflow carried object generator assembly (6.02) or (6.021) or an integrated pipeline type fluid carried object generator (6.05) or a carried object generator installed in a carried object generator module (6.16) according to program setting and feedback of a sensor (C), so that superoxide, catalyst, negative ions, moisture and related carried objects in a positive and negative pressure cabin reach required standards, simultaneously, electromagnetic valves (B3) and (B4) and (B3.1) or (B3.2) or (B3.3) or (B3.4) can open corresponding (A4) and (A3) and (A3.1) or (A3.2) or (A3.3) or (A3.4) and open corresponding air charging pipelines (A4) and (A3.1) or a 3.3.3) to start a positive and negative and positive and negative air charging pipelines (10 MPa) appropriately, according to specific requirements and warehouse configuration, the pressure value can be increased again), superoxide, negative ions and catalysts with proper positive pressure can sterilize, disinfect, resist mildew and degrade ethylene gas sucked out by pesticide residues and fruit and vegetable metabolism for preventing fruit and vegetable browning and softening, and aging of fruits and vegetables are delayed, the water in fruit and vegetable flesh fish is prevented from escaping under proper high pressure, moisture is easier to permeate and supplement water lost due to refrigeration and negative pressure to fruit and vegetable flesh fish under positive pressure, the negative ions enable the water molecular group size of the moisture to be smaller and more convenient for fruit and vegetable flesh fish to absorb, and the superoxide can inhibit biological tissue metabolism, reduce respiratory intensity, slow down enzyme activity and have certain sterilization and purification effects, and the superoxide can better play a sterilization and disinfection effect when permeating deeper inside the fruit and vegetable flesh fish under positive pressure; fourthly, the storage procedure of atmosphere-controlled gas or other carried objects under normal pressure or pressurization or humidification is as follows: the positive and negative pressure intelligent control device (5) timely opens relevant air extraction pipelines and opens an air extraction pump (2) and a carried object decomposition processor (6.7) according to program setting or camera shooting identification, radar scanning identification and sensor feedback, dirty air after decomposition, sterilization and degradation is extracted out of the cabin, then electromagnetic valves (B3) and (B4) or (B6) or (B6.1) or (B6.2) open corresponding A4 and A3 or A6 or (A6.1) or (A6.2) relevant carried object inflation pipelines, or electromagnetic valves (B3), (B4), (B6) and (B7) open corresponding (A3) and (A5), (A6) and (A7) relevant carried object circulation pipelines, and an inflation pump (3) is opened to increase the pressure difference of two sides of a storage type positive and negative pressure (1N) or a storage type positive and negative pressure (1N-2) inflation or an atmospheric pressure circulation inflation device (6.1) when the atmospheric pressure separation device (6.1) operates, the air separation efficiency can be properly improved, meanwhile, the oxygen-rich waste gas or the waste gas of the loaded objects is pumped and discharged, at the moment, an electromagnetic valve (B1) (B2) or (B8.1) is opened (A8) or (A8.1), (A1) or (A2) is provided with an exhaust pumping and discharging pipeline, and an exhaust pumping and discharging port (s1) or (s2) → (A8) or (A8.1) → electromagnetic valve (B1) → A1 → an air suction pump air inlet (a) → air suction pump air outlet (B) → (A2) → loaded object decomposition processor (6.7) → (A2) → (B2) → (A2) → air water making device (11) → (A2) → is discharged into the atmosphere, and the air suction pump (2) is started to pump and discharge the decomposed exhaust; according to the method and the standard point of the atmosphere-controlled gas or the carried gas for preservation and storage, the positive and negative pressure system is used for targeted control, accurate regulation and circulation operation, so that the gas components, the gas concentration, the gas pressure, the air dryness and humidity and each preservation factor of cleanliness in the positive and negative pressure cabin are kept in the optimal range required by preservation of fruits and vegetables, the respiration rate of the stored fruits and vegetables is effectively controlled, anaerobic respiration and carbon dioxide poisoning are prevented, the aging process is delayed, the quality reduction and flavor loss of the stored fruits and vegetables are prevented, the positive pressure moisture is kept and the water content of the fruits and vegetables is supplemented, and the freshness of the fruits and vegetables is maintained to the maximum extent; fifthly, a low-temperature auxiliary preservation program: after the door is closed and the machine is started, the positive and negative pressure intelligent control device (5) starts the refrigerating system (8), provides corresponding low temperature for each positive and negative pressure cabin through the feedback control of the temperature sensing controller (C9) and the intelligent control of the positive and negative pressure intelligent control device (5), and assists the positive and negative pressure system to keep the stored articles fresh; sixthly, the protection function is realized by opening the door and discharging the door immediately: if the compartment door is opened during the superoxide sterilization or the controlled atmosphere storage, the compartment door switch immediately feeds back, the positive and negative pressure intelligent control device (5) immediately operates to stop the superoxide or the controlled atmosphere or related programs, simultaneously opens the air suction pipeline and starts the air suction pump (2), the gas in the compartment is quickly sucked to the carried substance decomposition processor (6.7) for decomposition treatment and then discharged to the atmosphere, and the air is supplemented with air suction negative pressure from the outside of the refrigerator door to the positive and negative pressure compartment, so the superoxide or high-nitrogen and low-oxygen carried substance gas cannot flow out of the door; seventhly, an air water making program, wherein humid waste gas pumped out of a vacuum high-pressure cabin by an air pump (2) enters a carried substance decomposer (6.7) to decompose superoxide and then enters an air water making device (11), water vapor is condensed and filtered to form drinking standard purified water, uninterrupted water source is provided for a humidification and humidity control device (6.5), and when an inflator pump (3) is idle, an intelligent control device (5) starts the inflator pump (3) and enables electromagnetic valves (B3) and (B2) to open an air water making and inflating pipeline to drive indoor air to enter the air water making device (11) to make water; and eighthly, remote and near distance operation monitoring and identification functions: the touch screen and mobile phone monitoring and identifying system (12) controls, monitors and dynamically identifies the remote and near real-time operation through WIFI and a mobile phone APP, so that the freshness-keeping warehouse can intelligently realize various functions with high efficiency and low consumption according to a set program and an instant instruction; the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the box body (7); the method comprises the steps of shooting and scanning the conditions of articles in a refrigerator in real time, automatically scanning and identifying various preservation factors of varieties, types, components, colors, water contents and disease degrees of stored articles, and even fuzzy data of quantity proportions of different articles in the same compartment, calculating a real-time numerical value or a maximum common divisor by combining cloud data, then accurately regulating and controlling various preservation environment factors of airflow pressure, gas components, air cleanliness, environmental temperature and humidity in a positive pressure compartment and a negative pressure compartment in real time by a positive pressure system and a negative pressure system through manual or automatic setting, accurately positioning and targeting to remove the preservation factors, and automatically performing harmless sterilization and rapid degradation on residual pesticide, fertilizer hormone and harmful additives; in summary, the specific operation method of the intelligent positive and negative pressure freshness keeping warehouse integrates multiple technologies of vacuum, high pressure, superoxide, catalyst, air conditioning freshness keeping, negative ion, humidification, dehumidification, humidity control and temperature control, disinfection and sterilization, air purification, air water production and low temperature storage by using positive pressure or negative pressure intelligent regulation, is organically applied to the positive and negative pressure intelligent freshness keeping warehouse, organically integrates optimal collocation, uses single or multiple different combinations or single or alternative or cyclic application, is provided with a plurality of positive and negative pressure cabins with different types and different functions in one positive and negative pressure freshness keeping warehouse, uniformly arranges positions and distribution spaces according to different requirements and convenient use, and randomly combines, regulates and controls according to the cabin application strategy, classifies and flexibly applies according to the programs, functions and modes; the positive and negative pressure intelligent fresh-keeping warehouse updates the prior method that the traditional cold storage warehouse only depends on the control of temperature and low-temperature storage, so that an adjustable and controllable artificial microclimate is formed in the positive and negative pressure cabin, a precise fresh-keeping microenvironment is created, and various fresh foods stored in the positive and negative pressure cabin can be kept fresh, moist and original quality and flavor of branches to the maximum extent.

According to a sixteenth embodiment of the present invention, there is provided an intelligent positive and negative pressure sterilizer, comprising a positive and negative pressure full-function sterilizer, a positive and negative pressure multifunctional sterilizer, a positive and negative pressure automatic humidification sterilizer, a positive and negative pressure humidification sterilizer and a positive and negative pressure sterilizer; the positive-negative pressure full-function sterilizing machine is characterized by comprising a cabinet body (7); an intelligent positive-negative pressure system, an air water making device (11), a power supply and a rechargeable battery (33) are arranged in the cabinet body (7); the intelligent positive and negative pressure system comprises an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure airflow carried object generation processor (6), a touch screen and mobile phone monitoring system (12) and a sensor (C); the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carry generation processor (6) comprises: an air sterilizing device (6.2) of an ultrasonic generator, an air improving device (6.3) of an anion generator, an air conditioning device (6.5) of a humidifying and humidity controlling device and a filtering and sterilizing device (6.11) of an instant sterilizer; the touch screen and mobile phone monitoring system (12) comprises a touch screen (12.1), a mobile phone monitoring system (12.2) and a position positioning system (12.5); the sensors comprise a superoxide sensor (C3), a negative ion sensor (C4), a humidity sensor (C6), a disinfection degradation sensor (C9) and a water level sensor (13); an inflation pipeline (A3) is installed at the air outlet (d) of the inflator pump (3), and the inflation pipeline (A3) is respectively connected with inflation branch pipelines (A3.1), (A3.2), (A3.3), (A3.4) and (A3.5); the middle part of the inflation branch pipeline (A3.1) is provided with an electromagnetic valve (B3.1), and the other end of the inflation branch pipeline is connected with an inflation air outlet on the machine body (7); the middle part of the inflation branch pipeline (A3.2) is provided with an electromagnetic valve (B3.2) and an anion generator air improving device (6.3), and the other end of the inflation branch pipeline is connected with an anion air outlet on the machine body (7); the middle part of the inflation branch pipeline (A3.3) is provided with an electromagnetic valve (B3.3) and an oxygen generator air disinfection device (6.2), and the other end is connected with an oxygen-enriched air outlet on the machine body (7); the middle part of the inflation branch pipeline (A3.4) is provided with an electromagnetic valve (B3.4) and an air conditioning device (6.5) of a humidification and humidity control device, and the other end of the inflation branch pipeline is connected with a humidification air outlet on the machine body (7); the middle part of the inflation branch pipeline (A3.5) is provided with an electromagnetic valve (B3.5) and an air water making device (11), and the other end of the inflation branch pipeline is connected with a water making exhaust port on the machine body (7); an air inlet pipeline (A4) is installed at an air inlet (e) of the inflator pump (3), an electromagnetic valve (B4) is installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is connected with a direct air inlet on the engine body (7); the electromagnetic valve (B4) is also connected with a filtering air inlet pipeline (A4.1), the middle part of the filtering air inlet pipeline (A4.1) is provided with an air filter (6.8) and an electromagnetic valve (B4.1), and the other end of the filtering air inlet pipeline is connected with a filtering air inlet on the machine body (7); the electromagnetic valve (B4.1) is also connected with a circulating air return pipeline (A5), and the other end of the circulating air return pipeline (A5) is connected with a circulating air return port on the machine body (7); an air water making pipeline (A10) is installed at a water outlet (x) of the air water making device (11), and the air water making pipeline (A10) is communicated with a water inlet y of the filtering water tank (11.1); a water filtering pipeline (A12) is installed at a water outlet (v) of the water filtering tank (11.1), and the water filtering pipeline (A12) is communicated with a water inlet of the humidification and humidity control device air conditioning device (6.5); a water passing pipeline (A11) is installed at a standby water filling port (u) of the filter water tank (11.1), an electromagnetic valve (B11) is installed in the middle of the water passing pipeline (A11), and the other end of the water passing pipeline is connected with the standby water filling port on the machine body (7); an air suction pipeline (A1) is installed at the air inlet (a) of the air suction pump (5), an instantaneous sterilizer filtering and disinfecting device (6.11) is installed in the middle of the air suction pipeline (A1), and the other end of the air suction pipeline is connected with an air suction return port on the machine body (7); an exhaust pipeline (A2) is installed at the air outlet (B) of the air pump (2), an electromagnetic valve (B2) is installed in the middle of the exhaust pipeline (A2), and the other end of the exhaust pipeline is communicated with the atmosphere; the electromagnetic valve (B2) is also communicated with the electromagnetic valve (A3.5) through a pipeline (A2.1), then communicated with the air water making pipeline (A3.5), and then communicated with the air inlet (h) of the air water making device (11), and communicated with the water making exhaust port through the air outlet (n) of the air water making device (11); the structure of the positive-negative pressure multifunctional sterilizing machine is the same as that of a positive-negative pressure full-function sterilizing machine, but the positive-negative pressure multifunctional sterilizing machine does not comprise an air improving device (6.3) of an anion generator; the positive and negative pressure automatic humidifying sterilizer has the same structure as the positive and negative pressure full-function sterilizer, but does not comprise an instantaneous sterilizer filtering and sterilizing device (6.11); the positive and negative pressure humidifying and sterilizing machine has the same structure as the positive and negative pressure humidifying and sterilizing machine, but does not comprise an air water making device (11); the structure of the positive and negative pressure sterilizer is the same as that of the positive and negative pressure humidifying sterilizer, but the air conditioning device (6.5) of the humidifying and humidity controlling device is not included; the fluid carried object generation processor (6), the sensor (C), the electromagnetic valve (B), the air pump (2), the inflator pump (3), the air water making device (11), the touch screen and the mobile phone monitoring and identifying system (12) in the machine types are all connected to the positive and negative pressure intelligent regulation and control device (5).

According to a seventeenth embodiment of the present invention, there is provided an operating method of an intelligent positive and negative pressure sterilizer, wherein the intelligent positive and negative pressure sterilizer is provided with an intelligent positive and negative pressure system; the intelligent positive and negative pressure system regulates and integrates various technologies of a superoxide and air disinfection method, a negative ion and air regulation method, a humidification humidity control and humidity regulation method, instantaneous disinfection and filtration disinfection, a plurality of technologies are combined or singly applied to the positive and negative pressure disinfection machine, air flow is intelligently regulated and controlled by an air pump or an inflator pump, and the air flow carries various effective loads of superoxide or air disinfectants, moisture and negative ions, virus and bacteria in the human environment are killed by the following method, the air and the surface of an object are disinfected, and the air humidity regulation and the air component regulation can be effectively carried out: according to the research of Japan Tengtian medical university, the super oxygen with low concentration of about 0.05-0.10 ppm which can be accepted by human bodies is used for removing various viruses including the new crown virus in human environment, and the primary standard of the concentration limit value of ozone specified in the national environmental air quality standard (GB3095-1996) is 0.12mg/m3, so that the positive and negative pressure sterilizer is harmless to human bodies when used for sterilizing the environment to remove the virus bacteria including the new crown virus; (II) on the basis of the positive and negative pressure humidifying and disinfecting machine, a humidifying and humidity-controlling device air conditioning device is added, when the super-oxygen is used for inactivating the new corona virus, the air humidity is improved, the inactivation efficiency can be enhanced, according to the research of Japan Tengtianfield medical university, when the humidity is 80%, the super-oxygen of about 0.10ppm is used for environmental disinfection, and the virus infectivity after 10 hours is reduced to 5.7%; the positive and negative pressure automatic humidification and sterilization machine is additionally provided with an air water making device on the basis of the positive and negative pressure humidification and sterilization machine, so that an uninterrupted self-made water source is provided for the sterilization machine, and the defect that water is frequently added to a humidifier manually is overcome; the positive and negative pressure multifunctional sterilizer is additionally provided with an instantaneous sterilizer or a filtering sterilizer on the basis of the positive and negative pressure automatic humidifying sterilizer, provides an instantaneous sterilizing function except for superoxide sterilization for the sterilizer and makes up the defect that superoxide cannot be instantaneously sterilized; and (V) on the basis of the positive and negative pressure multifunctional sterilizer, an anion generator air improvement device is additionally arranged, and an air improvement function is additionally arranged for the sterilizer.

According to the eighteenth embodiment of the invention, an intelligent positive and negative pressure module cabinet is provided, which comprises a cabinet body (7); an intelligent positive and negative pressure system and a refrigerating and heating system (8.3) are arranged in the cabinet body (7); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure airflow carried object generation processor (6) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system can adopt a non-standard structure except the above standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises: the device comprises an air pump (2) or an air pump (3), at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a touch screen and a mobile phone monitoring and recognition system (12); the positive and negative pressure cabin (1) is designed into a modular positive and negative pressure cabin (1T) according to the specific requirements of the intelligent positive and negative pressure module cabinet; the modular positive and negative pressure cabin (1T) is a vacuum high pressure cabin (1-1) structure, the positive and negative pressure resistance standards of the vacuum high pressure cabin (1-1) structure all adopt local instant atmospheric pressure as a zero standard, the positive pressure resistance is 0.01KPa higher than the zero standard and is higher than the zero standard, the negative pressure resistance is 0.01KPa lower than the zero standard and is lower than the zero standard, and the positive and negative pressure resistance intensity is improved according to specific requirements and module cabinet configuration; the modular positive and negative ballast (1T) comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), a mechanical airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); the cabin door (1.2) is a cabinet door of the positive and negative pressure module cabinet; an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1) of the modular positive and negative ballast (1T); the cabin internal and external sealing communicating vessel (1.4) is fixedly arranged at the rear part of the modular positive and negative pressure cabin (1T), and all pipelines and circuits which enter and exit the cabin are connected to the cabin internal and external sealing communicating vessel (1.4) and pass through the same to keep the sealing performance of the modular positive and negative pressure cabin (1T); the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carry generation processor (6) comprises: the device comprises an air conditioning device (6.1), an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), a carried object decomposition processor (6.7), an air filter (6.8), a disinfection and sterilization degradation device (6.9), a carried object generator item-adding upgrading module (6.16), an airflow carried object generator integration (6.02) or (6.021) or an integrated pipeline type fluid carried object generator (6.05); the air conditioning device (6.1) is a membrane air separation air conditioning device; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; an airflow ballast generator integrated (6.02) or (6.021) or an integrated pipeline type fluid ballast generator (6.05); the airflow load generator assemblies (6.02) or (6.021) or integrated pipe-line fluid load generators (6.05) each comprise one or more of the monolithic fluid load generators (6.1) to (6.16) as required; an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), an airflow carried object generator assembly (6.02), a carried object decomposition processor (6.7), an air filter (6.8), a refrigeration and heating system (8.3), an air water making device (11) and a touch screen and mobile phone monitoring and identification system (12) are arranged outside the modular positive and negative pressure cabin (1T); an air suction pipeline (A1) is installed at an air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), and the other end of the air suction pipeline extends into the modular positive and negative pressure cabin (1T) to form an air suction return port (c) of the modular positive and negative pressure cabin; the electromagnetic valve (B1) is also respectively connected with a carried waste gas pumping and exhausting pipeline (A8) and a carried waste gas pumping and exhausting pipeline (A8.1), and the other end of the carried waste gas pumping and exhausting pipeline (A8) is connected with a carried waste gas pumping and exhausting port (s1) of an air conditioning device (6.1) integrated in the positive and negative pressure airflow carried object generator assembly (6.02); the other end of the carried waste gas pumping and exhausting pipeline (A8.1) is connected with a carried waste gas pumping and exhausting port (s2) of an air conditioning device (6.1) integrated in a positive and negative pressure airflow carried object generator assembly (6.021); an air exhaust pipeline (A2) is installed at an air outlet (B) of the air suction pump (2), a carried substance decomposition processor (6.7) and an electromagnetic valve (B2) are installed in the middle of the air exhaust pipeline (A2), the other end of the air exhaust pipeline is communicated with an air inlet (h) of the air water making device (11), and air is introduced from an air outlet (n) of the air water making device (11); an air inflation pipeline (A3) is arranged at an air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is arranged in the middle of the air inflation pipeline (A3), and the other end of the air inflation pipeline extends into the modular positive and negative pressure cabin (1T) to form an air inflation inlet (f); an air inlet pipeline (A4) is installed at an air inlet (e) of the inflator pump (3), an electromagnetic valve (B4) and an air filter (6.8) are installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is communicated with the atmosphere; the electromagnetic valve (B4) is also connected with a circulating pipeline (A5), the other end of the circulating pipeline (A5) is communicated with the electromagnetic valve (B3), and then the circulating pipeline (A3) extends into the modular positive and negative pressure cabin (1T) to form a circulating return air port (j) of the modular positive and negative pressure cabin; the air charging pipeline (A3) is further connected with carrying air pipes (A6), (A6.1) and (A6.2), the middle part of the carrying air pipe (A6) is provided with an electromagnetic valve (B6), the other end of the carrying air pipe is connected to an air inlet (T) of an airflow carrying object generator assembly (6.02), the air outlet(s) of the airflow carrying object generator assembly (6.02) is provided with the carrying air pipe (A7), the middle part of the carrying air pipe (A7) is provided with an electromagnetic valve (B7), the other end of the carrying air pipe extends into a positive and negative pressure cabin (1T) to form a carrying air inlet (i), the middle parts of the air pipes (A6.1) and (A6.2) are respectively provided with electromagnetic valves (B6.1) and (B6.2), and the other end of the carrying air pipe type fluid carrying object generator assembly (6.021) and the air inlet (6.05) of the integrated pipe type fluid carrying object generator are respectively connected into the positive and negative pressure cabin (1T); the aeration pipeline (A3) is also connected with an air-to-water aeration pipeline (A9), the air-to-water aeration pipeline (A9) is connected with an electromagnetic valve (B2) and then connected with an exhaust pipeline (A2), the middle part of the exhaust pipeline (A2) is communicated with an air-to-water device (11), and the other end of the exhaust pipeline is communicated with the atmosphere; the touch screen and mobile phone monitoring and identifying system (12) comprises a box door touch screen (12.1), a mobile phone APP (12.2), a high-definition anti-fog camera shooting and identifying device (12.3) and a radar scanning and identifying device (12.5); the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the box body (7); the modular positive and negative ballast (1T) is internally provided with an airflow carried object generator assembly (6.021) or an integrated pipeline type fluid carried object generator (6.05) and a sensor (C); the sensor (C) comprises a sensor ensemble (CA) comprising one or more of the following monolithic sensors (C1) to (C12) as required: the device comprises a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3), a negative ion sensor (C4), a catalyst sensor (C5), a humidity sensor (C6), an oxygen sensor (C7), a nitrogen sensor (C8), a disinfection degradation sensor (C9), an air particulate matter sensor (C10), a temperature sensor (C11) and a carried matter sensor item-adding upgrading module (C12); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; all fluid carried objects generate a processor (6), a sensor (C), an electromagnetic valve (B), an air pump (2), an inflator pump (3), a refrigerating system (8), an air water making device (11), a touch screen and a mobile phone monitoring and identifying system (12) which are connected into a positive and negative pressure intelligent regulation and control device (5) through a line (D) or a cluster line (E).

It must be emphasized that: the above-mentioned intelligent positive and negative pressure system, its operation method and the intelligent positive and negative pressure electric devices using the same are merely preferred embodiments of the present invention, and are not intended to limit the embodiments of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the embodiments of the present invention should be included in the protection scope of the embodiments of the present invention.

Compared with the prior art, the intelligent positive and negative pressure system, the operation method thereof and the positive and negative piezoelectric device using the system have the advantages that:

firstly, an intelligent positive and negative pressure system is established according to a positive and negative pressure technology, and the positive and negative pressure technology is used for accurately influencing objects in a specific space by regulating and controlling fluid and carried objects thereof by positive and negative pressure; the technical principle and the basic operation method of the intelligent positive and negative pressure system are as follows: regulating fluid (such as air and water) intelligently by positive and negative pressure, or carrying effective load such as superoxide, catalyst, negative ion, air-conditioned gas, disinfectant, detergent, heat, water and the like, orderly entering or residing in a specific space (such as positive and negative ballast) and exerting required influence on objects in the space; the intelligent positive and negative pressure system and the operation method of the technology are used, so that the system has the advantages of carrier performance with super large capacity and a platform with cross-boundary expansion, can form a targeted influence method or a targeted treatment mode with various characteristics aiming at various influenced objects, can intelligently regulate and integrate multiple technologies such as vacuum, high pressure, super oxygen, catalyst, controlled atmosphere preservation, negative ions, humidification, dehumidification, humidity and temperature control, sterilization, air purification, air water production, low-temperature storage, clothes cleaning and drying, food processing and the like, is applied to electrical equipment, transport carriage containers, storage warehouses and the like in a single or multiple combination way, intelligently and accurately regulates and creates the optimal environment and the optimal efficiency of the operation of various electrical appliances and equipment facilities, innovations are made on the existing electrical appliances and the traditional technology, and a new field of positive and negative piezoelectric devices is developed.

Secondly, the existing refrigerator and the container of the refrigerator carriage basically have no technical breakthrough only by a low-temperature bacteriostasis storage method, the intelligent positive and negative pressure system and the operation method thereof in the embodiment of the invention are applied to the electric appliances such as the refrigerator and the container of the refrigerator carriage by intelligently regulating and integrating a plurality of technologies such as vacuum, high pressure, superoxide, catalyst, controlled atmosphere fresh-keeping, negative ion, humidification, dehumidification, disinfection, air purification, air water production, low-temperature storage and the like by utilizing the intelligent positive and negative pressure technology and the operation method thereof, intelligently regulating and controlling air flow or carrying a plurality of effective loads such as superoxide, gas catalyst, negative ion, controlled atmosphere gas, water and the like, and the air flow is orderly fed in and out of the positive and negative pressure cabins just like human breathing, exhaling waste and turbid gas, sucking fresh air, and maintaining vitality of the life of the intelligent positive and negative pressure system through accurate regulation and control, so that the fresh goods stored in the positive and negative pressure cabins are in the optimum air pressure range, The intelligent positive and negative pressure system can design a personalized targeted treatment and preservation method aiming at the site of the freshness loss of the stored substances in the cellular molecular level, precisely maintain the freshness-retaining elements and remove the freshness-retaining factors at fixed points without affecting or less affecting normal tissue cells of the stored substances, thereby achieving the purpose of keeping the freshness and quality of the stored substances and keeping the stored substances such as fruits, vegetables, fish meat and the like fresh as long as possible. With the rapid development of science and technology, the positive pressure and the negative pressure used in the embodiment of the invention can be gradually expanded to deeper vacuum and ultrahigh pressure, hardware devices including a positive pressure cabin, a negative pressure cabin, an air pumping inflator and the like can be more economical and more suitable for use, software and hardware including a chip processor of a positive pressure and negative pressure intelligent control device and the like can be gradually upgraded and updated, the positive pressure and negative pressure technology can be perfected day by day, and the positive pressure and negative pressure electric appliance can bring better life for people.

Thirdly, the existing washing machine only depends on the mechanical motion of a wave wheel or a rotary drum and is assisted by detergent to wash clothes, so that the washing efficiency is low due to large abrasion. The intelligent positive and negative pressure washing machine provided by the embodiment of the invention is organically combined with technologies such as intelligent regulation and control and integration of high pressure, vacuum and superoxide for use in the washing, dewatering and drying processes, so that the wear of clothes is reduced, the cleanliness and bulkiness of the clothes are improved, the superoxide disinfection program is increased, and the washing time is effectively reduced.

Fourth, the problem of cleaning the oil dirt of the existing range hood is not an ideal solution all the time. The positive and negative pressure oil smoke machine provided by the embodiment of the invention integrally designs a machine body into an open positive and negative pressure circulating cabin which is fully sealed except an upper oil smoke exhaust port, a cover plate of the oil smoke exhaust port is simultaneously designed into a sealed cabin door, the cabin door is locked and sealed when automatic cleaning is started, a plurality of automatic rotating spray headers are arranged at the uppermost part of a machine case, the positions with heavy points such as a volute impeller and the like, firstly, super-oxygen water is sprayed to efficiently decompose and remove oil stains, then, an oil stain removing agent and clean hot water are used for comprehensively spraying all the positions in the machine case until all the parts are cleaned, and finally, the interior of the machine case is automatically blown dry by hot air and the waste gas is discharged to a flue. When the user starts the range hood, negative pressure is formed in the range hood, and air flows into the range hood from the side of the range hood, so that the range hood does not contact any superoxide at all. The sewage after washing the whole case flows down and is collected in the oil collecting long groove at the lowest part of the triangular case and is discharged to a sewer through an oil discharge outlet, so that the problem of automatic cleaning is thoroughly solved.

Fifth, the intelligent positive and negative pressure oven air fryer microwave oven according to the embodiment of the invention mainly arranges the oven air fryer and the microwave system in the vacuum high-pressure chamber, thus really realizing vacuum cooking and high-pressure cooking, wherein the food cooked in the vacuum has unique flavor due to the expansion of the food material, especially the air fryer cooks the chips, cakes and the like in proper vacuum to be softer and more delicious, and the food cooked in the high-pressure chamber has unique flavor due to the easy permeation of the seasoning into the food material. When the electric oven is not used, the positive and negative pressure cabins can be pumped into proper vacuum, the barbecue microwave system and the circuit system are in a vacuum state, and the electric oven is sterile, dust-free, pollution-free, clean, beneficial to health, free of oxidation, rusty and loss, and can be stored for prolonging the service life of an electric appliance.

Sixth, the new crown etc. virus in the house space kills, at present basically lean on spraying the disinfectant, harmful to human body, the invention positive and negative pressure sterilizing machine, carry on the superoxide to sterilize the air and object surface in the house space with people's activity with the positive and negative pressure, harmless to human body, find a powerful weapon for the killing of new crown etc. virus, and can improve the air quality effectively.

The intelligent positive and negative pressure module cabinet provided by the embodiment of the invention is provided with a positive and negative pressure system, has vacuum, high pressure, constant temperature, constant humidity, constant pressure, sterile and dust-free environment, can design and arrange functional systems of various electrical appliances and equipment in the positive and negative pressure module cabinet or directly install and place the functional systems in the positive and negative pressure module cabinet, and comprises the following steps: the positive and negative pressure disinfection cabinet, the positive and negative pressure kitchen ware and tableware cabinet, the positive and negative pressure wine and fruit product display and refrigeration cabinet, the positive and negative pressure air conditioner indoor unit, the positive and negative pressure humidifier, the positive and negative pressure dehumidifier, the positive and negative pressure air purifier, the positive and negative pressure coffee and fruit juice small household electrical cabinet, the positive and negative pressure clothing bookcase, the positive and negative pressure painting and calligraphy and ancient and playing literature and material cabinet, the positive and negative pressure safe box and the positive and negative pressure material display cabinet with various functions; in addition, the intelligent positive and negative pressure system and the operation method thereof can be applied to the functional use, the disinfection storage and the placement of various electrical equipment and articles and tools and the nondestructive storage during the pause of the work.

Seventh, the existing household appliances are basically designed, used and placed independently, the positive and negative voltage intelligent appliances and the positive and negative voltage module cabinets in the embodiment of the invention are designed according to modules, the appearance shape and color are basically unified, and the positive and negative voltage intelligent appliances and the positive and negative voltage module cabinets are orderly, harmoniously and simultaneously accord with the fashion trend, and the intelligent household appliance can be used independently and organically combined with other positive and negative voltage intelligent appliances and the positive and negative voltage module cabinets through a touch screen and a mobile phone APP control and identification monitoring system to form an intelligent integral combined household with complete functions. Various kinds of positive and negative pressure module cabinets organically combine various kinds of related electrical equipment and article appliances in different categories, are placed in a concentrated mode, are tidy and attractive, share resources such as an air pump and an air pump of a smart positive and negative pressure system, save energy consumption, reduce noise and very conveniently and naturally integrate various kinds of related electrical equipment and article appliances into the same smart home system.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic technical principle diagram of a standard structure of an intelligent positive and negative pressure system provided by an embodiment of the invention;

fig. 2 is an enlarged view of the technical principle of the positive and negative pressure air flow ballast generator assembly 6.02 provided by the embodiment of the invention;

FIG. 3 is an enlarged view of the technical principle of the positive and negative pressurized water flow carried object generator assembly 6.04 provided by the embodiment of the invention;

FIG. 4 is a schematic diagram of the technical principles of the intelligent positive and negative pressure fresh-keeping refrigerator and the drawer-type positive and negative pressure fresh-keeping compartment according to the embodiment of the present invention;

FIG. 5 is a schematic diagram of the technical principles of the intelligent positive and negative pressure fresh-keeping refrigerator and the side-door cabinet type and drawer type positive and negative pressure fresh-keeping compartment according to the embodiment of the present invention;

FIG. 6 is an enlarged view of the positive and negative pressure air flow ballast generator assembly 6.021 according to an embodiment of the present invention;

FIG. 7 is an enlarged view of the positive and negative pressure draft ballast generator integration 6.022 technology provided by an embodiment of the present invention;

FIG. 8 is an enlarged view of the positive and negative pressure air flow ballast generator assembly 6.025 according to an embodiment of the present invention;

FIG. 9 is a schematic diagram of the technical principle and an enlarged view of an air-tight mechanism of the intelligent positive and negative pressure washing machine provided by the embodiment of the invention;

FIG. 10 is a schematic diagram of the technical principle and an enlarged view of an air-tight mechanism of the intelligent positive-negative pressure dish and fruit and vegetable washing machine provided by the embodiment of the invention;

FIG. 11 is a schematic diagram of the technical principle of an intelligent positive and negative pressure oil cigarette machine and an enlarged view of a side view, a bottom view cross section and a watertight mechanism of an automatic rotating spray ball;

FIG. 12 is a schematic diagram of a technical principle and an enlarged view of an air-tight mechanism of an intelligent positive and negative pressure oven air fryer microwave oven according to an embodiment of the present invention;

FIG. 13 is a schematic diagram of the technical principle of an intelligent positive and negative pressure freshness protection car container provided by the embodiment of the invention;

fig. 14 is a schematic diagram of a technical principle of an intelligent positive and negative pressure fresh-keeping warehouse provided by an embodiment of the invention;

FIG. 15 is a schematic diagram of the technical principle of the intelligent positive and negative pressure sterilizer provided by the embodiment of the invention;

FIG. 16 is a schematic diagram of the technical principle of the intelligent positive and negative pressure humidifying and sterilizing machine provided by the embodiment of the invention;

FIG. 17 is a schematic view of the intelligent positive and negative pressure automatic humidifying and sterilizing machine according to the embodiment of the present invention;

FIG. 18 is a schematic view of the technical principle of the intelligent positive-negative pressure multifunctional sterilizer provided by the embodiment of the invention;

FIG. 19 is a schematic view of the intelligent positive and negative pressure full-function sterilizer according to the embodiment of the present invention;

fig. 20 is a schematic technical principle diagram of an intelligent positive-negative pressure module cabinet according to an embodiment of the present invention.

In the figure: positive and negative pressure cabin 1 (cabin 1.1, cabin door 1.2, airtight mechanism 1.3, lock ring 1.31, lock tongue 1.32, airtight gasket 1.33, door gasket 1.34, outside sealed connector 1.4, watertight mechanism 1.7, lock ring 1.71, lock tongue 1.72, watertight gasket 1.73, cabin door hinge 1.74, positive and negative pressure refrigeration fresh-keeping drawer 1.81, positive and negative pressure refrigeration fresh-keeping drawer 1.82, non-airtight positive and negative pressure fresh-keeping drawer 1.83, drawer airtight mechanism 1.9, lock ring 1.91, lock tongue 1.92, airtight gasket 1.93) (vacuum hyperbaric chamber 1-1, atmospheric pressure circulation chamber 1-2, atmospheric pressure cabinet type in-out cabin 1-3) (cabinet type positive and negative pressure refrigeration cabin 1A, positive and negative pressure fresh-keeping cabin 1B, drawer type positive and negative pressure refrigeration fresh-keeping cabin 1B-2, positive and negative pressure refrigeration cabin 1C-1, and positive and negative pressure door, A refrigerating chamber type positive and negative pressure fresh-keeping chamber 1D of a common refrigerator, a refrigerating chamber type positive and negative pressure fresh-keeping chamber 1E of a common refrigerator, a washing machine type positive and negative pressure cabin 1F, a dish washer type positive and negative pressure cabin 1G, a range hood type positive and negative pressure cabin 1H, a microwave oven type positive and negative pressure cabin 1K, a carriage container type positive and negative pressure cabin 1M, a storage type positive and negative pressure cabin 1N, a modular positive and negative pressure cabin 1T, an air pump 2 (an anti-drenching air pumping port 2.1), an air pump 3, a positive and negative pressure intelligent control device 5, a positive and negative pressure fluid carried object generator 6 (an air conditioning device 6.1, an ultrasonic generator 6.2, an anion generator 6.3, a catalyst controlled release device 6.4, a humidification and humidity control device 6.5, an ultrasonic generation and water mixer 6.6, a carried object decomposition processor 6.7, an air filter 6.8, a disinfection and sterilization degradation device 6.9, a filtration and fresh device 6.10, an oil removal and cleaning device 6.11, an instantaneous sterilizer filtering and disinfection device 6.12, A refrigeration heating temperature control device 6.13, a carried object generator item-adding upgrading module 6.16) (airflow carried object generator integration 6.02 < 6.021, 6.022, 6.023, 6.024, 6.025), a water flow carried object generator integration 6.04, an integrated pipeline type fluid carried object generator 6.05), a machine body 7, a refrigeration system 8, a refrigeration heating system 9, an air water making device 11, a touch screen and mobile phone monitoring and identifying system 12 (a box door touch screen 12.1, a high-definition anti-fog camera identifying device 12.3, a wireless anti-fog camera identifying device 12.4, a radar scanning identifying device 12.5, a wireless radar scanning identifying device 12.6), an elution drying system 15 (a roller mechanism 15.1, an elution drying control mechanism 15.2, a roller sealing bearing seat 15.3, a big belt pulley 15.4, a motor combination 15.5), a water suction pump 16, a water inlet pump 17, a detergent drawing box 18, a dish washing system 19, a fruit and vegetable cleaning system 20, a smoke tube 21, a motor combination 22, and a wind wheel combination 15.5, The automatic rotary spraying ball 23, the oil collecting and draining tank 24, the oil smoke pumping control mechanism 26, the water heating device 27, the smoke exhaust pipe 29, the barbecue system 30, the air fryer system 31, the microwave system 32, the pipelines A1-A30, the electromagnetic valves B1-B25, and the sensors C1-12 (a pressure sensor C1, a negative pressure sensor C2, a superoxide sensor C3, a negative ion sensor C4, a catalyst sensor C5, a humidity sensor C6, an oxygen sensor C7, a nitrogen sensor C8, a disinfection degradation sensor C9, an air particulate matter sensor C10, a temperature transmission controller C11, an carried object sensor upgrading module C12 and a positive and negative pressure sensor C15), a sensor integration CA, a common line D and a bundling line E.

Detailed Description

The following are specific embodiments of the present invention, and further description is made of the technical solutions of the embodiments of the present invention, but the embodiments of the present invention are not limited to these embodiments and implementations.

In a first specific embodiment, the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a water pump (16), a water inlet pump (17) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a water pump (16), a water inlet pump (17), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabins (1) are classified into a vacuum high pressure cabin (1-1), an atmospheric pressure circulation cabin (1-2) and an atmospheric pressure inlet and outlet cabin (1-3) according to the structure and pressure of the positive and negative pressure cabins; the positive and negative pressure cabin (1) is classified into a cabinet type positive and negative pressure cabin (1A), a positive and negative pressure refrigerating and fresh-keeping cabin (1B), a positive and negative pressure refrigerating and fresh-keeping cabin (1C), a common refrigerator cold room type positive and negative pressure fresh-keeping cabin (1D), a common refrigerator cold room type positive and negative pressure fresh-keeping cabin (1E), a washing machine type positive and negative pressure cabin (1F), a dishwasher type positive and negative pressure cabin (1G), a range hood type positive and negative pressure cabin (1H) and a microwave oven type positive and negative pressure cabin (1K) according to the shape and the characteristics, a carriage container type positive and negative pressure cabin (1M), a storage type positive and negative pressure cabin (1N), a modular positive and negative pressure cabin (1T), an open type positive and negative pressure cabin (1L), a ball type semi-ball type positive and negative pressure cabin (1Q), a cylinder type positive and negative pressure cabin (1U), a drawer type positive and negative pressure cabin (1Z), a non-airtight type positive and negative pressure cabin (1X) and a special-shaped positive and negative pressure cabin (1R); the internal structure of the positive and negative pressure cabin (1) comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin external sealed communicating device (1.4); an airtight mechanism (1.3) is arranged between the cabin body (1.1) and the cabin door (1.2); the cabin internal and external sealed communicating vessel (1.4) is arranged at the back or the side of the positive and negative pressure cabin (1), and pipelines and circuits for entering and exiting the positive and negative pressure cabin are connected to and enter and exit through the cabin internal and external sealed communicating vessel (1.4); the positive and negative pressure refrigerating and fresh-keeping cabin (1B) and the positive and negative pressure refrigerating and fresh-keeping cabin (1C) are provided with corresponding positive and negative pressure resisting structures, an air sealing mechanism (1.3) and an in-cabin external sealing communicating device (1.4) are arranged and installed, the vacuum high-pressure cabin (1-1) with air tightness belongs to the structure of the vacuum high-pressure cabin (1-1), the positive and negative pressure resisting standards of the vacuum high-pressure cabin (1-1) all adopt local instant atmospheric pressure as a zero standard, the positive pressure resisting standard is 0.01KPa higher than the zero standard and is up to a higher level, the negative pressure resisting standard is 0.01KPa lower than the zero standard and is up to a lower level, and the positive and negative pressure resisting strength is improved according to specific requirements and the configuration of the positive and negative pressure cabin; the refrigerating chamber type positive and negative pressure cabin (1C) and the freezing chamber type positive and negative pressure cabin (1D) of the common refrigerator are respectively provided with a positive and negative pressure system inside and outside the refrigerating chamber and the freezing chamber of the common refrigerator, but are not provided with an airtight mechanism (1.3) and an in-cabin external sealing communicating device (1.4), have no vacuum-resistant high-pressure structure and belong to a common sealed normal-pressure circulating cabin (1-2) or normal-pressure in-and-out cabin (1-3) structure; the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carried object generation processor (6) comprises an air conditioning device (6.1), an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), an ultrasonic generation water mixer (6.6), a disinfection and sterilization degradation device (6.9), a filtering and refreshing device (6.10), a stain and oil removing and cleaning device (6.11), a refrigerating and heating temperature control device (6.13), a carried object generator item-adding upgrading module (6.16), an airflow carried object generator (6.01), an airflow carried object generator assembly (6.02), a water flow carried object generator (6.03), a water flow carried object generator assembly (6.04) and an integrated pipeline type positive and negative pressure fluid carried object generator (6.05); the air conditioning device (6.1) is a membrane air separation air conditioning device; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the airflow load generator assembly (6.02), the water flow load generator assembly (6.04) and the integrated pipeline positive and negative pressure fluid load generator (6.05) each comprise any one or more of the unitary fluid load generators (6.1) to (6.16) as required; the integrated pipeline type positive and negative pressure fluid carried object generator (6.05) is a miniaturized, intelligent and integrated fluid carried object generator and sensor, and a connecting pipeline and a circuit thereof; the positive and negative pressure system comprises a positive and negative pressure airflow system and a positive and negative pressure water flow system according to fluid classification; the standard structure of the positive and negative pressure airflow system comprises a positive and negative pressure cabin (1), an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a touch screen and mobile phone monitoring and recognition system (12) and single fluid carried object generators (6.1) to (6.16) or a positive and negative pressure airflow carried object generator integration (6.02) or an integrated pipeline type positive and negative pressure fluid carried object generator (6.05); the intelligent positive and negative pressure air flow system also adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure air flow system comprises at least one or more of an air pump (2) or an air pump (3), a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), single fluid carried object generators (6.1-6.16), a positive and negative pressure air flow carried object generator assembly (6.02), an integrated pipeline type positive and negative pressure fluid carried object generator (6.05), a touch screen and a mobile phone monitoring and recognition system (12); an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), a touch screen and mobile phone monitoring and recognition system (12) and a positive and negative pressure airflow carried object generator assembly (6.02) are arranged outside the positive and negative pressure cabin; an air suction pipeline (A1) is installed at an air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), the other end of the air suction pipeline extends into the positive and negative pressure cabin 1 to form an air suction return port (c), an exhaust pipeline (A2) is installed at an air outlet (B) of the air suction pump (2), an electromagnetic valve (B2) is installed in the middle of the exhaust pipeline (A2), and an exhaust port is arranged at the other end of the exhaust pipeline; the electromagnetic valve (B1) is also connected with a carrying circulating pipeline (A5.1), the carrying circulating pipeline (A5.1) extends into the positive and negative pressure cabin (1) through the electromagnetic valve B1 and an air exhaust pipeline (A1) to form a carrying air inlet (j1), and the other end of the carrying circulating pipeline (A5.1) is connected with a carrying circulating air inlet (B2) of the air exhaust pump (2); the electromagnetic valve (B1) is also connected with a carried waste gas pumping and exhausting pipeline (A8), and the other end of the carried waste gas pumping and exhausting pipeline (A8) is connected with a carried waste gas pumping and exhausting port (s2) of an air conditioning device (6.1) integrated in a positive and negative pressure airflow carried product generator assembly (6.02); an air inflation pipeline (A3) is installed at an air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is installed in the middle of the air inflation pipeline (A3), the other end of the air inflation pipeline extends into the positive and negative pressure cabin (1) to form an air inflation inlet (f), an air inlet pipeline (A4) is installed at an air inlet (e) of the air inflation pump (3), an electromagnetic valve (B4) is installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is communicated with the atmosphere; the electromagnetic valve (B3) is also connected with a carrying circulating pipeline (A5), and the carrying circulating pipeline (A5) extends into the positive and negative pressure cabin 1 through the electromagnetic valve (B3) and an inflation pipeline (A3) to form a carrying return air port (j) thereof; the other end of the carrying circulation pipeline (A5) is connected with a carrying circulation air inlet (e2) of the inflator pump (3); a carrying air duct (A6) is installed at an air inlet (t) of the positive and negative pressure airflow carrying object generator assembly (6.02), an electromagnetic valve (B6) is installed at the other end of the carrying air duct (A6), a carrying air duct (A7) is installed at an air outlet(s) of the positive and negative pressure airflow carrying object generator assembly (6.02), an electromagnetic valve (B7) is installed in the middle of the carrying air duct (A7), and the other end of the carrying air duct extends into the positive and negative pressure cabin (1) to form a carrying inflation inlet (i); the electromagnetic valve (B6) is respectively connected with a carrying air extraction pipeline (A6.1) and a carrying air inlet pipeline (A6.2), the carrying air extraction pipeline (A6.1) is connected to the air extraction pipeline (A1) and then communicated with an air extraction opening (a) of the air extraction pump (2), and the carrying air inlet pipeline (A6.2) is connected to the air inflation pipeline (A3) and then communicated with an air outlet (d) of the air inflation pump (3); the middle part of the carrying air inlet pipeline (A6.2) is provided with an electromagnetic valve (B6.2), and the other end of the carrying air inlet pipeline extends into the positive and negative pressure cabin (1) to be connected to an integrated pipeline type positive and negative pressure fluid carrying object generator (6.05); when the carrying airflow entering the positive and negative pressure cabins (1) needs inflation circulation, the inflation inlet (f) is used as a carrying air return port (j) of the positive and negative pressure cabins (1), when the carrying airflow entering the positive and negative pressure cabins (1) needs air exhaust circulation, the air exhaust return port (c) is used as a carrying air inlet (j1) of the positive and negative pressure cabins (1), and the carrying inflation inlet (i) is used as a carrying air exhaust port (i1) of the positive and negative pressure cabins (1); the standard structure of the positive and negative pressure water flow system comprises a positive and negative pressure cabin (1), a water suction pump (16), a water inlet pump (17), a positive and negative pressure intelligent regulation and control device (5), a touch screen and mobile phone monitoring and identification system (12), a water flow carrying object generator (6.03) or a water flow carrying object generator assembly (6.04); the intelligent positive and negative pressure water flow system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure water flow system comprises a water suction pump (16) or a water inlet pump (17), and at least one or more of a positive and negative pressure cabin (1), the water suction pump (16), the water inlet pump (17), a positive and negative pressure intelligent regulation and control device (5), single fluid carried object generators (6.1-6.16), a water flow carried object generator assembly (6.04) and a touch screen and mobile phone monitoring and identification system (12); a water suction pump (16), a water inlet pump (17), a positive and negative pressure intelligent regulation and control device (5), a touch screen and mobile phone monitoring and recognition system (12) and a water flow carried object generator assembly (6.04) are arranged outside the positive and negative pressure cabin; a water pumping pipeline (A20) is installed at a water pumping port (w) of the water pumping pump (16), an electromagnetic valve (B20) is installed in the middle of the water pumping pipeline (A20), the other end of the water pumping pipeline extends into the positive and negative pressure cabin (1) to form a water pumping water outlet (L) of the positive and negative pressure cabin, a water discharging port (p) of the water pumping pump (16) is provided with a water discharging pipeline (A21), an electromagnetic valve (B21) is installed in the middle of the water discharging pipeline (A21), and the other; the electromagnetic valve (B20) is also connected with a carrying circulating pipeline (A19.1), the carrying circulating pipeline (A19.1) extends into the positive and negative pressure cabin (1) through the electromagnetic valve (B20) and a water pumping pipeline (A20) to form a carrying water inlet (L1), and the other end of the carrying circulating pipeline (A19.1) is connected with a carrying circulating water outlet (p2) of the water pumping pump (16); a water inlet pipeline (A15) is installed at a water outlet (u) of the water inlet pump (17), an electromagnetic valve (B15) is installed in the middle of the water inlet pipeline (A15), the other end of the water inlet pipeline extends into the positive and negative pressure cabin (1) to form a water source water inlet (T), a water inlet pipeline (A14) is installed at a water inlet (r) of the water inlet pump (17), an electromagnetic valve (B14) is installed in the middle of the water inlet pipeline (A14), and a water source is communicated with the other end of the water; the electromagnetic valve (B15) is also connected with a carrying circulating pipeline (A19), the carrying circulating pipeline (A19) extends into the positive and negative pressure cabin (1) through the electromagnetic valve (B15) and a water inlet pipeline (A15) to form a carrying water return port (L2), and the other end of the carrying circulating pipeline (A19) is connected with a carrying circulating water inlet (r2) of the water inlet pump (17); a carrying water pipeline (A16) is installed at a water inlet v of the positive and negative pressure water flow carrying object generator assembly (6.03), an electromagnetic valve (B16) is installed at the other end of the carrying water pipeline (A16), a carrying water pipeline (A17) is installed at a water outlet (o) of the positive and negative pressure water flow carrying object generator assembly (6.03), an electromagnetic valve (B17) is installed in the middle of the carrying water pipeline (A17), and the other end of the carrying water pipeline extends into the positive and negative pressure cabin (1) to form a carrying water inlet (T1) of the positive and negative pressure water flow carrying object generator assembly; the electromagnetic valve (B16) is respectively connected with a carrying water pumping pipeline (A16.1) and a carrying water inlet pipeline (A16.2), the carrying water pumping pipeline (A16.1) is connected to a water pumping pipeline (A20) and then communicated with a water pumping port (w) of a water pumping pump (16), the carrying water inlet pipeline (A16.2) is connected to a water inlet pipeline (A15) and then communicated with a water outlet (u) of a water inlet pump (17), when carrying water flow entering the positive and negative ballast (1) needs water inlet circulation, a water source water inlet (T) is used as a carrying water return port (L2) of the positive and negative ballast (1), and when carrying water flow entering the positive and negative ballast (1) needs water pumping circulation, a water pumping water outlet (L) is used as a carrying water inlet (L1) of the positive and negative ballast (1); the touch screen and mobile phone monitoring and identifying system (12) comprises a box door touch screen (12.1), a mobile phone APP (12.2), a high-definition anti-fog camera shooting and identifying device (12.3) and a radar scanning and identifying device (12.5); the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the positive and negative pressure cabins; the inside of positive negative pressure cabin (1) is also installed positive negative pressure fluid and is carried thing generator (6), includes: an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying, dehumidifying and humidity controlling device (6.5), a sterilizing and degrading device (6.9), a filtering and refreshing device (6.10), a refrigerating, heating and temperature controlling device (6.13), a carried object generator item-adding upgrading module (6.16) or an integrated pipeline type positive and negative pressure fluid carried object generator (6.05); the inside of the positive and negative ballast (1) is also provided with a sensor (C) which comprises a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3), a negative ion sensor (C4), a chlorine dioxide sensor (C5), a humidity sensor (C6), an oxygen sensor (C7), a nitrogen sensor (C8), a disinfection degradation sensor (C9), an air particulate matter sensor (C10), a temperature sensor (C11), a carried substance sensor item-adding upgrading module (C12) and a sensor integration (CA); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; the sensor integration (CA) comprises at least one or more of monolithic sensors (C1) to (C12); all fluid carried objects generate the processor (6), the sensor (C), the electromagnetic valve (B), the air pump (2), the inflator pump (3), the water pump (16), the water inlet pump (17), the touch screen and the mobile phone monitoring and identifying system (12) are connected into the positive and negative pressure intelligent regulating and controlling device (5) through a line (D) or a cluster line (E).

In a second embodiment, the operation method of the intelligent positive and negative pressure system is based on a positive and negative pressure technology, wherein the positive and negative pressure technology is to regulate and control fluid and its carried objects to affect objects in a specific space by positive and negative pressure; the method principle and the basic operation method of the intelligent positive and negative pressure system are as follows: regulating fluid (such as air and water) intelligently by positive and negative pressure, or carrying various payloads such as superoxide, catalyst, negative ions, modified atmosphere gas, disinfectant, detergent, heat and water, orderly entering or staying in a specific space (such as positive and negative ballast) and exerting required influence on objects in the space; the specific operation method of the intelligent positive and negative pressure system is characterized in that the positive and negative pressure intelligent control device (5) calculates and processes real-time feedback information of the touch screen and the mobile phone monitoring and recognition system (12) and the sensors (C1) - (C12) according to a built-in program, prestored data and cloud data, and the touch screen and the mobile phone monitoring and recognition system (12), and the real-time feedback information of the sensors (C1) - (C12), and forms a target influence method or a target treatment mode with characteristics aiming at various affected objects, and the positive and negative pressure intelligent control device (5) sends specific instructions to the air pump (2), the air pump (3), the water pump (16), the water inlet pump (17), the related positive and negative pressure fluid carried object generator (6) and the related electromagnetic valve (C) in real time, accurately controls and timely adjusts the opening, closing and switching of the air pumping and circulating pipelines or the water pumping and water inlet and circulating pipelines, and intelligently controls the high and low pressure of the air flow and the carried objects or water flow and the carried objects thereof in the positive and negative pressure cabin (1), and the inflow of the intelligent positive and negative pressure regulation, The specific operation method comprises the following steps: the operation method (I) for regulating the inside of the positive and negative pressure cabin (1) to be negative pressure vacuum comprises the following steps: the positive and negative pressure intelligent control device (5) sends out a command to enable the electromagnetic valves (B1), (B2) to be opened (A1) and (A2) to exhaust air pipes, and the positive and negative pressure cabin air exhaust return air ports (c) → the air exhaust pipeline (A1) → the electromagnetic valves (B1) → (A1) → the air exhaust pump air inlets (a) → the air exhaust pump air outlets (B) → (A2) → (B2) → (A2) → the air is exhausted into the atmosphere (when any one of the pipelines is opened, all other irrelevant electromagnetic valves are closed, and the air exhaust pump (2) is started at the same time, so that the negative pressure vacuum is set in the positive and negative pressure cabin (1); the operation method (II) for regulating the inside of the positive and negative pressure cabin (1) to be positive air pressure and high pressure comprises the following steps: the positive and negative pressure intelligent control device (5) sends out a command, so that the electromagnetic valves (B3) and (B4) open (A3) and (A4) inflation pipelines, air enters from the atmosphere → (A4) → (B4) → (A4) → the inflator air inlet (e) → the inflator air outlet (d) → (A3) → (B3) → (A3) → the positive and negative ballast inflation air inlet (f), and simultaneously the inflator (3) is started, so that the positive and negative ballasts (1) are inflated to set positive pressure and high pressure; the specific operation methods (I) and (II) can only operate in a vacuum or high-pressure space, so the positive and negative pressure cabin (1) is classified into a vacuum high-pressure cabin (1-1), and the positive and negative pressure refrigerating and fresh-keeping cabin (1B), the positive and negative pressure refrigerating and fresh-keeping cabin (1C), the washing machine type positive and negative pressure cabin (1F), the dishwasher type positive and negative pressure cabin (1G) and the microwave oven type positive and negative pressure cabin (1K) belong to the vacuum high-pressure cabin; the operation method (III) for regulating and controlling the air flow and the inflow, outflow, circulation and retention of the carried objects of the air flow to the positive and negative ballast (1) comprises the following steps: firstly, flowing out: when the pressure in the cabin is negative or normal, the air flow and the carried objects flow out of the positive and negative pressure cabins, the air is pumped out of the air pumping pipeline by using an air pump (2) according to the specific operation method (I), and the relevant electromagnetic valve is opened when the pressure in the cabin is high, so that the air flows out of the air pumping pipeline; and secondly, flowing into: the air current and the carried objects thereof flow into the positive and negative pressure cabins, and are charged from an inflation pipeline or a carrying pipeline by using an inflation pump (3), and the specific method comprises the following steps: A. air current flows in: when the pressure in the cabin is high or normal, the airflow flows into the positive and negative pressure cabins, the inflation pump (3) is used for inflating from the inflation pipeline according to the specific operation method (II), and when the pressure in the cabin is negative, the relevant electromagnetic valve is opened, and the airflow automatically flows into the negative pressure cabin from the inflation pipeline; B. the carried airflow generated by the airflow carried generator assembly (6.02) flows into: the positive and negative pressure intelligent control device (5) sends out a command, so that the electromagnetic valves (B6) and (B7) are opened (A3), (A6.2), (A6) and (A7) are carried on an inflation pipeline, and relative air flow attachment generator → (A7) (B7) → (A7) → positive and negative ballast air inlet (i) in the air flow attachment generator integration (6.02) is opened simultaneously from atmospheric air intake → (A4) → (B4) → (A4) → inflator air inlet (e) → inflator outlet (d) → (A3) → (A6.2) → (A6) → (B6) → (A6) → air flow attachment generator → (I), and the air pump (3) and the relative air flow attachment generator are opened, so that air pressure and the attachment in the positive and negative (1) flow into a set standard; C. the carrier gas flow generated by the integrated pipeline type fluid carrier generator (6.05) flows into: the positive and negative pressure intelligent control device (5) sends out a command, so that the electromagnetic valve (B6.2) is opened (A3) and (A6.2) carries on an inflation pipeline, air enters from the atmosphere → (A4) → (B4) → (A4) → the inflator air inlet (e) → the inflator air outlet (d) → (A3) → (A6.2) → (B6.2) → (A6.2) → the relevant air flow carrying thing generator in the integrated pipeline type fluid carrying thing generator (6.05) → in the positive and negative pressure cabin, and simultaneously the air pump (3) and the relevant air flow carrying thing generator in the integrated pipeline type fluid carrying thing generator (6.05) are started, so that the air pressure and the air flow carrying thing in the positive and negative pressure cabin (1) flow into a set standard; thirdly, staying: when the airflow and the carried objects thereof need to be resided in the positive-negative pressure cabin, the positive-negative pressure intelligent regulation and control device (5) sends out an instruction, the airflow pressure and the carried objects in the cabin reach the standard firstly, and then the corresponding electromagnetic valve is closed; fourthly, circulation: A. and (3) inflation circulation: when the air flow and the goods to be carried in the air flow need to circulate flow through the positive and negative pressure fluid goods generator so that the pressure, concentration and components of the air flow and the goods to be carried in the positive and negative pressure cabins reach the standard, the positive and negative pressure intelligent control device (5) sends a command to open (A3), (A5), (A6), (A6.2) and (A7) goods circulation pipelines, the (B4) and the corresponding electromagnetic valves are closed, the air pump (3) and the related air flow goods generator are simultaneously opened, the goods to be carried are made to circulate, when the air conditioning device (6.1) operates, the partial pressure difference between two sides of the membranes is moderately increased, the air separation efficiency can be improved, meanwhile, the oxygen-rich waste gas or goods waste gas also needs to be pumped, at the moment, the electromagnetic valves (B637) (B2) are opened (A8), (A1) and (A2) are arranged on the waste gas pumping pipelines, and an exhaust gas pumping port (s2) → electromagnetic valve (B1) (A1) is arranged on the air inlet (A → 25) of the air pumping port (A) and discharging port) (A8536B 8236) is arranged on the air conditioning device (6.1) When the positive and negative pressure cabin enters the atmosphere, the air pump (2) is started at the same time, the circulation operation is carried out until the corresponding sensors in the positive and negative pressure cabin feed back air-conditioned air or the concentration, the composition or the pressure of the carried gas reach the standard, and the positive and negative pressure intelligent control device (5) sends a stop instruction; B. air extraction circulation: the positive and negative pressure intelligent regulation and control device (5) sends an instruction, an air suction pipeline is opened (A1), (A5.1), (A6.1), (A6) and (A7), a B2 and a related electromagnetic valve are closed, the air suction pump 2 and a related airflow carried object generator are simultaneously opened, carried object gas circularly flows until the concentration, the components or the pressure of the controlled atmosphere gas fed back by a corresponding sensor in the positive and negative pressure cabin reach the standard, and the positive and negative pressure intelligent regulation and control device (5) sends a stop instruction; the operation method of the positive and negative pressure cabin (1) comprises the steps of flowing out, flowing into the step of staying, circulating and operating in a normal pressure space, so that the positive and negative pressure cabin (1) is classified into a normal pressure circulating cabin (1-2) and a normal pressure in-out cabin (1-3), the cold storage chamber type positive and negative pressure fresh-keeping chamber (1D) and the freezing chamber type positive and negative pressure fresh-keeping chamber (1E) of the common refrigerator belong to a normal pressure circulation chamber or a normal pressure inlet and outlet chamber, and are respectively provided with and use a positive and negative pressure system inside and outside the cold storage chamber and the freezing chamber of the common refrigerator, but no air-tight mechanism (1.3) and no outer sealed communicating device (1.4) in the compartment are added, so that the common refrigerator can use a positive-negative pressure system and an operation method thereof under normal pressure, firstly flows out, secondly flows into any one or more of a resident, thirdly a circulating program, thereby obviously enhancing the fresh-keeping capacity of the refrigerator and increasing the functions and the effects of the refrigerator in many aspects; the operation method (IV) for regulating and controlling the water flow and the carried objects thereof to flow into, reside or flow out of the positive and negative ballast (1) comprises the following steps: firstly, flowing out: the water flow and the carried objects flow out of the positive and negative pressure cabins and are pumped out from a water pumping pipeline by using a water pumping pump (16), and the concrete method comprises the following steps: the positive and negative pressure intelligent control device (5) sends out a command, so that the electromagnetic valves (B20) and (B21) open (A20) and (A21) water pumping pipelines, the positive and negative ballast water pumping ports (L) → the water pumping pipeline (A20) → the electromagnetic valves (B20) → (A20) → the water pump water inlet (w) the water pump water outlet (p) → (A21) → (B21) → (A21) → discharging water into the sewage, and meanwhile, the water pumping pump (16) is started to discharge the water in the positive and negative ballast (1) to a set standard; and secondly, flowing into: water flow and carried objects thereof flow into the positive and negative pressure cabins, and are fed from water feeding or carried water feeding pipelines by using a water feeding pump (17), and the specific method is A: the positive and negative pressure intelligent control device (5) sends out a command, so that the electromagnetic valves (B14) and (B15) open (A14) and (A15) water supply pipelines, water enters from a water source → (A14) → (B14) → (A14) → a water inlet pump (r) → a water outlet pump (u) → (A15) → (B15) → (A15) → positive and negative ballast water supply inlet (T), and simultaneously the water inlet pump (17) is started, so that water in the positive and negative ballast (1) is supplied to a set standard; B. carrying water inflow: the positive and negative pressure intelligent control device (5) sends out a command, the electromagnetic valves (B14), (B16) and (B17) are enabled to be (A14), (A15), (A16), (A16.2) and (A17) to carry water inlet pipelines, water is fed from a water source → (A14) → (B14) → (A14) → water inlet of a water inlet pump (r) → water outlet of the water inlet pump (u) → (A15) → (A16.2) → (B16) → (A16) → corresponding water flow carrying object generator → (A17) → (B17) → (A17) → positive and negative ballast water inlet (T1), the water inlet pump (17) and the corresponding water flow carrying object generator are simultaneously started, and the water flow carrying objects in the positive and negative ballast (1) flow into a set standard; thirdly, staying: when water flow and carried objects thereof need to reside in the positive and negative pressure cabin, the positive and negative pressure intelligent regulation and control device (5) sends an instruction, the water pressure of the water flow and the carried objects in the cabin reach the standard firstly, then the corresponding electromagnetic valve is closed until the residence time reaches the standard, and the positive and negative pressure intelligent regulation and control device (5) sends a stop instruction; fourthly, circulation: A. water inlet circulation: when the water flow and the carried objects thereof need to circulate through the positive and negative pressure fluid carried object generator so that the pressure, the concentration and the components of the water flow and the carried objects in the positive and negative pressure cabins reach the standard, the positive and negative pressure intelligent regulation and control device (5) sends an instruction, a water inlet circulation pipeline for carrying the water flow and the carried objects in the positive and negative pressure cabins is opened (A15), (A16), (A16.2), (A17) and (A19), a water inlet circulation pipeline for carrying the water flow is closed (B14) and relevant electromagnetic valves are closed, a water inlet pump (17) and the relevant water flow carried object generator are simultaneously opened, the carried object water flow circularly flows until corresponding sensors in the positive and negative pressure cabins feed back the carried water flow concentration, the components or the pressure reach the standard, and the positive and negative pressure intelligent regulation and control device (5) sends a stop instruction; B. water pumping circulation: the positive and negative pressure intelligent regulation and control device (5) sends an instruction, an air suction pipeline is opened (A20), (A16), (A16.1), (A17) and (A19.1), a B21 and a related electromagnetic valve are closed, an air suction pump (16) and a related water flow carrying object generator are simultaneously opened, the carrying object water flow circularly flows until the concentration, the components or the pressure of the water flow fed back by a corresponding sensor in the positive and negative pressure cabin reach the standard, and the positive and negative pressure intelligent regulation and control device (5) sends a stop instruction; the operation method for regulating the water flow and the carried objects thereof to flow into, reside or flow out of the positive and negative pressure cabin (1) comprises one or more of flowing out, flowing into and residing in circulation, and running in a vacuum high-pressure cabin, such as a washing machine type positive and negative pressure cabin (1F) and a dish washing machine type positive and negative pressure cabin (1G), and running in a normal pressure circulation cabin (1-2) and a normal pressure inlet and outlet cabin (1-3), such as a range hood type positive and negative pressure cabin (1H), an open type positive and negative pressure cabin (1L) and a non-airtight type positive and negative pressure cabin (1X); the intelligent positive and negative pressure system adopts the technical operation method, so that the intelligent positive and negative pressure system has the carrier function of large capacity and renewable and platform property of upgradable expansion and increment, can intelligently regulate, control and integrate various technologies of vacuum, high pressure, superoxide, catalyst, controlled atmosphere preservation, negative ions, humidification, dehumidification, humidity control and temperature control, disinfection and sterilization, air purification, air water production, low-temperature storage, clothes cleaning and drying and food processing, is applied to electrical equipment, transport carriage containers and storage warehouses in single or multiple combination, and is uniformly called as: an intelligent positive and negative piezoelectric device; the intelligent positive and negative pressure electric appliance comprises an intelligent positive and negative pressure fresh-keeping refrigerator, an intelligent positive and negative pressure washing machine, an intelligent positive and negative pressure dish washing and fruit and vegetable cleaning machine, an intelligent positive and negative pressure oil smoke machine, an intelligent positive and negative pressure oven fryer microwave oven, an intelligent positive and negative pressure fresh-keeping carriage container, an intelligent positive and negative pressure fresh-keeping warehouse, an intelligent positive and negative pressure sterilizing machine and an intelligent positive and negative pressure module cabinet.

In a third specific embodiment, the intelligent positive and negative pressure fresh-keeping refrigerator comprises a refrigerator body (7), wherein an intelligent positive and negative pressure system, a refrigerating system (8) and an air water making device (11) are arranged in the refrigerator body (7); intelligent positive negative pressure system, its characterized in that includes: the device comprises a positive and negative pressure cabin (1), an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), an airflow carried object generator integration (6.021), (6.022), (6.023), (6.024) and (6.025), a touch screen and a mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), and at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a positive and negative pressure refrigerating and fresh-keeping cabin (1B), a positive and negative pressure refrigerating and fresh-keeping cabin (1C), a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) according to the refrigerating and freezing requirements of the fresh-keeping refrigerator; the positive and negative pressure refrigerating and refreshing cabin (1B) and the positive and negative pressure refrigerating and refreshing cabin (1C) are both vacuum hyperbaric cabins (1-1), the positive and negative pressure resistance standard of the vacuum hyperbaric cabins (1-1) is based on the local instant atmospheric pressure as the zero standard, the positive pressure resistance is 0.01KPa higher than the zero standard and is higher than the zero standard, the negative pressure resistance is 0.01KPa lower than the zero standard and is lower than the zero standard, and the positive and negative pressure resistance strength is improved according to specific requirements and refrigerator configuration; the positive and negative pressure refrigerating and refreshing cabin (1B) and the positive and negative pressure refrigerating and refreshing cabin (1C) are respectively provided with one or more than one in the box body (7) in an arrangement mode of up-down or left-right arrangement and asymmetric and non-standard arrangement; the positive and negative pressure refrigerating and refreshing cabin (1B) and the positive and negative pressure refrigerating and refreshing cabin (1C) comprise the following components in classification according to shape and characteristics: the refrigerator comprises a drawer type positive-negative pressure refrigerating and refreshing cabin (1B-1), a drawer type positive-negative pressure refrigerating and refreshing cabin (1C-1), a side-opening cabinet type positive-negative pressure refrigerating and refreshing cabin (1B-2) and a side-opening cabinet type positive-negative pressure refrigerating and refreshing cabin (1C-2); the drawer type positive and negative pressure refrigerating and fresh-keeping cabin (1B-1) and the drawer type positive and negative pressure refrigerating and fresh-keeping cabin (1C-1) comprise: the refrigerator comprises a cabin body (1.1), a positive and negative pressure refrigerating and refreshing drawer (1.81), a positive and negative pressure refrigerating and refreshing drawer (1.82) and an in-cabin outer sealing communicating device (1.4); drawer type airtight mechanisms (1.9) are arranged between the cabin body (1.1) of the drawer type positive and negative pressure refrigerating and refreshing cabin (1B-1) and the positive and negative pressure refrigerating and refreshing drawer (1.81), and between the cabin body of the drawer type positive and negative pressure refrigerating and refreshing cabin (1C-1) and the positive and negative pressure refrigerating and refreshing drawer (1.82); the drawer type airtight mechanism (1.9) comprises a lock ring (1.91), a lock tongue (1.92) and an airtight gasket (1.93); the lock ring (1.91) is movably matched with the bolt (1.92), when the preservation drawer is closed, the bolt (1.92) extends into the lock ring (1.91) to lock the compartment door, and the airtight gasket (1.93) keeps sealing; the side-opening cabinet type positive and negative pressure refrigerating and refreshing cabin (1B-2) and the side-opening cabinet type positive and negative pressure refrigerating and refreshing cabin (1C-2) comprise: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1); the airtight mechanism (1.3) comprises a lock ring (1.31), a lock tongue (1.32), an airtight gasket (1.33) and a door edge sealing gasket (1.34); the lock ring (1.31) is movably matched with the lock tongue (1.32), when the hatch door is closed, the lock tongue (1.32) extends into the lock ring (1.31) to lock the hatch door, and the airtight gasket (1.33) keeps sealing; the in-cabin external sealing communicating device (1.4) is arranged at the rear part or the side part of the drawer type positive-negative pressure refrigerating and refreshing cabin (1B-1), the drawer type positive-negative pressure refrigerating and refreshing cabin (1C-1), the side-door cabinet type positive-negative pressure refrigerating and refreshing cabin (1B-2) and the side-door cabinet type positive-negative pressure refrigerating and refreshing cabin (1C-2), and pipelines and circuits which enter and exit the cabin are connected to and enter and exit through the in-cabin external sealing communicating device (1.4) so as to keep the sealing performance of the positive and negative pressure cabin (1); the cold storage chamber type positive and negative pressure fresh-keeping chamber (1D) and the freezing chamber type positive and negative pressure fresh-keeping chamber (1E) of the common refrigerator are both normal pressure circulation chambers, and a positive and negative pressure system is arranged in the cold storage chamber and the freezing chamber of the common refrigerator, but an air-tight mechanism and an inner and outer seal communicating device in the chamber are not arranged; the cold storage chamber type positive and negative pressure intelligent preservation cabin (1D) of the common refrigerator comprises a cabin body (1.1) and a cabin door (1.2), an airtight mechanism and an in-cabin outer sealing communicating device are not required to be arranged between the cabin body (1.1) and the cabin door (1.2), and the cabin door (1.2) is a box door of the preservation refrigerator; the freezing chamber type positive and negative pressure intelligent fresh-keeping cabin (1E) of the common refrigerator comprises; the fresh-keeping device comprises a cabin body (1.1) and a non-airtight fresh-keeping drawer (1.83), wherein an airtight mechanism and a cabin-inside and outside sealed communicating device are not required to be arranged between the cabin body (1.1) and the non-airtight fresh-keeping drawer (1.83); the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carry generation processor (6) comprises: the device comprises an air conditioning device (6.1), an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), a carried substance decomposition processor (6.7), an air filter (6.8), a disinfection and sterilization degradation device (6.9), a carried substance generator item-adding upgrading module (6.16), an airflow carried substance generator integration (6.021), (6.022), (6.023), (6.024) and (6.025); the air conditioning device (6.1) is a membrane air separation air conditioning device; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the gas flow ballast generator assemblies (6.021), (6.022), (6.023), (6.024) and (6.025) each comprise any one or more of the monolithic fluid ballast generators (6.1) to (6.16) as required; an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure airflow carrying object generator assembly (6.021), a carrying object decomposition processor (6.7), an air filter (6.8), a refrigerating system (8), an air water making device (11) and a touch screen and mobile phone monitoring and recognition system (12) are arranged outside the positive and negative pressure refrigerating and refreshing cabin (1B), the positive and negative pressure refrigerating and refreshing cabin (1C), the common refrigerator refrigerating chamber type positive and negative pressure refreshing cabin (1D) and the common refrigerator refrigerating chamber type positive and negative pressure refreshing cabin (1E); an air suction pipeline (A1) is installed at an air inlet (a) of the air suction pump (2), the air suction pipeline (A1) is respectively connected with air suction branch pipelines (A1.1), (A1.2), (A1.3) and (A1.4), the middle parts of the air suction branch pipelines (A1.1), (A1.2), (A1.3) and (A1.4) are respectively provided with electromagnetic valves (B1.1), (B1.2), (B1.3) and (B1.4), and the other ends of the air suction branch pipelines respectively extend into the positive and negative pressure refrigerating and fresh-keeping cabin (1B), the positive and negative pressure refrigerating and fresh-keeping cabin (1C), the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) to form air suction return ports (C1), (C2), (C3) and (C4); the exhaust pipeline (A1) is also respectively connected with a carried exhaust gas pumping and exhausting pipeline (A8), (A8.1), (A8.2), (A8.3) and (A8.4), the middle parts of the carried exhaust gas pumping and exhausting pipeline (A8), (A8.1), (A8.2), (A8.3) and (A8.4) are respectively provided with an electromagnetic valve (B8), (B8.1), (B8.2), (B8.3) and (B8.4), and the other ends of the carried exhaust gas pumping and exhausting pipeline are respectively connected with carried exhaust gas pumping and exhausting ports (s3), (s4), (s5), (s6) and (s7) of the air-conditioning device (6.1) respectively integrated in the positive and negative pressure air flow carried gas flow carried generator integration (6.021), (6.022), (6.023), (6.024) and (6.025); an air outlet (B) of the air pump (2) is provided with an air exhaust pipeline (A2), the middle part of the air exhaust pipeline (A2) is provided with a superoxide decomposer (6.7) and an electromagnetic valve (B2), the other end of the air exhaust pipeline is communicated with an air inlet (h) of an air water making device (11), and the air exhaust pipeline is communicated with the atmosphere through an air outlet (n) of the air water making device (11); an air inflation pipeline (A3) is installed at an air outlet (D) of the air inflation pump (3), an electromagnetic valve (B3) is installed in the middle of the air inflation pipeline (A3), the other end of the air inflation pipeline (A3) is connected with an air inflation branch pipeline (A3.1), (A3.2), (A3.3) and (A3.4) respectively, electromagnetic valves (B3.1), (B3.2), (B3.3) and (B3.4) are installed in the middle of each of the air inflation branch pipeline (A3.1), (A3.2), (A3.3) and (A3.4), and the other end of the air inflation branch pipeline extends into the positive and negative pressure refrigerating and fresh-keeping cabin (1B), the positive and negative pressure refrigerating and fresh-keeping cabin (1C), the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) respectively to form an air inflation air inlet (f1), (f2), (f3) and (f 4); the air charging pipeline (A3) is further connected with a carrying air charging pipeline (A6), the middle of the carrying air charging pipeline (A6) is provided with an electromagnetic valve (B6), the other end of the carrying air charging pipeline is connected with an air inlet (t) of a positive-negative pressure airflow carrying object generator assembly (6.021), the air outlets (s1) and (s2) of the positive-negative pressure airflow carrying object generator assembly (6.021) are respectively provided with a carrying air charging branch pipeline (A7.2) and (A7.3), the middle of the carrying air charging branch pipeline (A7.2) and (A7.3) is respectively provided with an electromagnetic valve (B7.2) and (B7.3), the other end of the carrying air charging branch pipeline respectively extends into a positive-negative pressure refrigerating and refreshing cabin (1B) and a positive-negative pressure refrigerating and refreshing cabin (1C) to form respective carrying air inlets (i2) and (i3), the electromagnetic valves (B7.2) and (B7.3) are further connected with a carrying air charging branch pipeline (A7.1) and a carrying air charging branch pipeline (A7.4) and a magnetic valve (B7.4), the other end of the air charging pipeline (A3) is respectively extended into a refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and a refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) of the common refrigerator to form a carrying air inlet (i1) and a carrying air inlet (i4) of the air charging pipeline respectively, the air charging pipeline (A3) is also respectively connected with carrying branch pipelines (A6.1), (A6.2), (A6.3) and (A6.4), the middle parts of the carrying branch pipelines (A6.1), (A6.2), (A6.3) and (A6.4) are respectively provided with electromagnetic valves (B6.1), (B6.2), (B6.3) and (B6.4), and the other end of the air charging pipeline is respectively connected with air inlets (t1), (t2), (t3) and (t4) of positive and negative pressure airflow carrying generator integrations (6.022), (6.023), (6.024) and (6.025); an air inlet pipeline (A4) is installed at an air inlet (e) of the inflator pump (3), an air filter (6.8) and an electromagnetic valve (B4) are installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is communicated with the atmosphere; the electromagnetic valve (B4) is also connected with a circulating pipeline (A5), the circulating pipeline (A5) is respectively connected with a circulating branch pipeline (A5.1), (A5.2), (A5.3) and (A5.4), the middle parts of the circulating branch pipelines (A5.1), (A5.2), (A5.3) and (A5.4) are respectively provided with the electromagnetic valves (B5.1), (B5.2), (B5.3) and (B5.4), and the other ends of the circulating branch pipelines respectively extend into the positive and negative pressure intelligent refrigerating and fresh-keeping cabin (1B), the positive and negative pressure refrigerating and fresh-keeping cabin (1C), the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) to form circulating air return ports (j1), (j2), (j3) and (j 4); the circulating pipeline (A5) is also connected with an air water making inflation pipeline (A9) through an electromagnetic valve (B9), the air water making inflation pipeline (A9) is connected to the electromagnetic valve (B2) and is communicated with an air inlet (h) of the air water making device (11) through an exhaust pipeline (A2), the air water making inflation pipeline (A9) is connected with the circulating pipeline (A5) and is communicated with the electromagnetic valve (B3), and then is communicated with an air outlet (d) of the inflator pump (3) through an inflation pipeline (A3); the touch screen and mobile phone monitoring and identifying system (12) comprises a box door touch screen (12.1), a mobile phone APP (12.2), a high-definition anti-fog camera shooting and identifying device (12.3) and a radar scanning and identifying device (12.5); the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the box body (7); the positive and negative pressure refrigerating and refreshing cabin (1B), the positive and negative pressure refrigerating and refreshing cabin (1C), the common refrigerator refrigerating chamber type positive and negative pressure refreshing cabin (1D) and the common refrigerator refrigerating chamber type positive and negative pressure refreshing cabin (1E) are respectively internally provided with an airflow carrying object generator assembly (6.022), (6.023), (6.024), (6.025) and a sensor assembly (CA); the sensor assembly (CA) comprises, as required, one or more of the following individual sensors (C1) to (12): the device comprises an air conditioning device (6.1), an ultrasonic generator (6.2), an anion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), a disinfecting and sterilizing degradation device (6.9) and a carried object generator item-adding upgrading module (6.16), wherein the sensor comprises a sensor integration (CA) which comprises one or more of the following sensors (C1) - (12) according to requirements: the device comprises a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3), a negative ion sensor (C4), a catalyst sensor (C5), a humidity sensor (C6), an oxygen sensor (C7), a nitrogen sensor (C8), a disinfection degradation sensor (C9), an air particulate matter sensor (C10), a temperature sensor (C11) and a carried matter sensor item-adding upgrading module C (12); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; all airflow carried object generation processors (6), sensors (C), electromagnetic valves (B), air pumps (2), air pumps (3), refrigeration systems (8), air water making devices (11), touch screens and mobile phone monitoring and recognition systems (12) are connected into the positive and negative pressure intelligent regulation and control device (5) through circuits (D) or bundling circuits (E).

In a fourth specific embodiment, in the operation method of the intelligent positive and negative pressure fresh-keeping refrigerator, an intelligent positive and negative pressure system is used in the intelligent positive and negative pressure fresh-keeping refrigerator; the intelligent positive and negative pressure system precisely regulates and organically integrates various technologies of vacuum, high pressure, superoxide, catalyst, controlled atmosphere preservation, negative ion, humidification, dehumidification, humidity control and temperature control, sterilization, degradation treatment, air purification, air water production and low-temperature storage, a plurality of technologies are combined or applied to the positive and negative pressure preservation refrigerator, a personalized targeted treatment comprehensive preservation method is designed on the level of cell molecules aiming at the site of the freshness loss of the stored substances, preservation elements are precisely maintained, and freshness loss factors are removed at fixed points without involving or with less involving normal tissue cells of the stored substances, so that the purposes of preserving and guaranteeing the quality of the stored substances are achieved; the specific operation method of the intelligent positive and negative pressure fresh-keeping refrigerator is characterized in that a positive and negative pressure system carries various effective loads such as superoxide, catalyst, negative ions, modified atmosphere gas, disinfection degradation substances, heat and water by using the intelligently-controlled airflow pressure of an air pump or using airflow to orderly pass in and out or stay in a positive and negative pressure refrigerating and fresh-keeping cabin (1B), a positive and negative pressure refrigerating and fresh-keeping cabin (1C), a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E), and various acting forces which are beneficial to long-term fresh-keeping and quality keeping are applied to fresh fruits and vegetables stored in the positive and negative pressure system by the following methods: the positive air pressure and high pressure action method comprises the following steps: proper positive air pressure and high pressure are timely formed in the chambers of the positive and negative pressure refrigerating and fresh-keeping chamber (1B) and the positive and negative pressure refrigerating and fresh-keeping chamber (1C), a breathing channel water evaporation channel on the surface layer of the fruit and vegetable in the chamber is contracted or closed after being pressed, the anaerobic breathing, growth aging and water loss of the fruit and vegetable are inhibited, and the mode, the path, the degree and the development duration of the damage of various exogenous factors of bacteria virus, food disease sources and pollution particles to food under normal pressure are changed from the influence of a microscopic level; (II) a negative pressure vacuum action method: moderate negative-pressure vacuum is timely formed in the chambers of the positive-negative pressure refrigerating and fresh-keeping chamber (1B) and the positive-negative pressure refrigerating and fresh-keeping chamber (1C), anaerobic respiration, growth and aging of fruits and vegetables can be inhibited, bacterial microorganisms cannot survive in the vacuum, and the fresh-keeping effect of the stored fruits, vegetables and meat fish is enhanced; (III) an airflow carrying matter action method: carrying various effective loads such as superoxide, catalyst, negative ions, modified atmosphere gas, disinfection degradation fresh-keeping substances and water by positive and negative pressure airflow, and sequentially passing in and out or staying in a positive and negative pressure refrigeration fresh-keeping cabin (1B), a positive and negative pressure refrigeration fresh-keeping cabin (1C), a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) by single or multiple combinations, and integrating multiple fresh-keeping technologies to apply accurate and effective various acting forces on long-term fresh keeping and quality keeping of fresh fruit and vegetable articles stored in the fresh-keeping cabins; based on the three acting force methods, the positive and negative pressure intelligent control device (5) analyzes class by class according to a built-in program, prestored data and internet cloud data as well as real-time feedback information of the touch screen and the mobile phone monitoring and identifying system (12) and the sensors (C1) - (C12), and aims at the delicacy factors and treatment targets of various different stored objects, after calculation and processing, different targeting preservation technologies are correspondingly used to form a characteristic targeting treatment comprehensive preservation method, and the positive and negative pressure intelligent control device (5) sends specific instructions to the air suction pump (2), the air inflation pump (3), the related positive and negative pressure fluid carried object generator (6) and the related electromagnetic valve (C) in real time, accurately controls and adjusts the opening, closing and conversion of each air suction and circulation carried pipeline, intelligently controls the level of the positive and negative pressure in the positive and negative pressure cabin (1) and the inflow of the fluid and carried objects thereof, The preservation elements of the stored materials are maintained accurately and the freshness loss factors of the stored materials are removed at fixed points, so that the long-term effect of preservation and quality guarantee is achieved; the intelligent positive and negative pressure system targeted treatment comprehensive preservation method and the specific use method and operation program of the positive and negative pressure preservation refrigerator comprise the following steps: firstly, an exhaust or vacuum harm and heat removal cleaning procedure: the cabin door (1.2) is closed, and the positive and negative pressure intelligent regulation and control device (5) sends out an instruction: the electromagnetic valves (B2) and (B1.1), (B1.2), (B1.3) or (B1.4) are enabled to open corresponding positive and negative pressure cabin air extraction pipelines (A2) and (A1) and (A1.1), (A1.2), (A1.3) or (A1.4), and an air extraction pump (2) is started to exhaust or extract air from the corresponding positive and negative pressure cabins to vacuum negative pressure between-0.001 KPa and-0.1 MPa (the local instant air pressure is taken as zero standard, the vacuum degree can be further improved according to specific requirements and refrigerator configuration), the self-heat, partial bacterial microorganisms and dirty air in the cabins of the fruit and vegetable are extracted, the harmful gas of volatile metabolites ethylene-acetaldehyde-ethanol in the fruit and vegetable tissues is enabled to escape and be extracted in vacuum, meanwhile, the propagation of residual bacteria is inhibited by the vacuum negative pressure, and the hidden danger of the aging of the fruit and vegetable diseases is reduced; a storage procedure of pressure reduction and pressure control or humidification and humidity control: the positive and negative pressure intelligent regulation and control device (5) maintains a proper negative pressure low-oxygen low-temperature environment in the positive and negative pressure cabins by opening or closing the air pump (2) according to the pressure standard of a preset program and the real-time feedback of the negative pressure sensor (C2), reduces the respiration intensity of fruits and vegetables, inhibits the biosynthesis of ethylene, delays the decomposition of chlorophyll, inhibits the synthesis of carotenoid and lycopene, and slows down the hydrolysis of starch, the increase of sugar and the consumption process of acid, thereby delaying the maturity and aging of the fruits and vegetables, and simultaneously can also open the humidifying and humidity control device (6.5) to improve and control the humidity in the cabins, prevent the moisture of the fruits and vegetables from escaping, and control the dry and the humidity by targeting pressure control with positive and negative pressure according to the optimal pressure and optimal humidity point required by the fresh keeping of the fruits and vegetables, accurately regulate and control classified storage, and maintain the fresh state for a longer time; and step three, carrying out normal-pressure or pressurized sterilization, degradation and odor removal procedures on the superoxide anion or catalyst negative and positive pressure carried matter: the positive and negative pressure intelligent control device (5) timely sends out instructions to open an ultrasonic generator (6.2) or a negative ion generator (6.3) or a catalyst controlled release device (6.4) or a humidity control device (6.5) or a disinfection degradation device (6.9) in each relevant airflow carrying object generator integration or a carrying object generator arranged in a carrying object generator item-adding upgrading module (6.16) according to program setting and feedback of a relevant sensor (C), so that the superoxide, catalyst, negative ions, moisture and relevant carrying objects in a positive and negative pressure cabin reach required standards, simultaneously electromagnetic valves (B3) and (B4) or (B3.1) or (B3.2) or (B3.3) or (B3.4) can open corresponding ballast (A4) and (A3) and (A3.1) or (A3.2) or (A3.3) or (A3.4) and open a relevant ballast pipeline of a charging pump (3) to instantly increase the pressure between the pressure of the relevant air pressure (3) and the pressure of the relevant air pressure of 0.001-10 MPa, according to specific requirements and refrigerator configuration, the pressure value can be increased again), the superoxide, negative ions and catalyst with proper positive pressure can sterilize, disinfect, resist mildew and degrade the pesticide residues and ethylene gas sucked out by metabolism of fruits and vegetables for preventing browning and softening of fruits and vegetables, delaying senescence of fruits and vegetables, and the proper high pressure can prevent water in the fruits and vegetables and meat fish from escaping, and the moisture can permeate and supplement water lost due to refrigeration and negative pressure to the fruits and vegetables and meat fish under the positive pressure, the negative ions can reduce the size of water molecular groups of the moisture and facilitate absorption of the fruits and vegetables and meat fish, and the super oxide can better play a role in sterilization and disinfection when permeating into the deeper interior of the fruits and vegetables and meat fish under the positive pressure; fourthly, the storage procedure of atmosphere-controlled gas or other carried objects under normal pressure or pressurization or humidification is as follows: the positive and negative pressure intelligent control device (5) timely opens a relevant air suction pipeline and opens an air suction pump (2) and a carried object decomposition processor (6.7) according to program setting or camera shooting recognition, radar scanning recognition and sensor feedback, dirty air after decomposition, sterilization and degradation is pumped out of the cabin, then electromagnetic valves (B3), B6, B7.1, B7.2, B7.3, B7.4) open (A3), A6, A7.1, A7.2, A7.3, A7.4) relevant carrying inflation pipelines and an inflation pump (3) are started, air flow is driven to enter the relevant positive and negative pressure ballast tanks through the air conditioning device (6.1) or other relevant positive and negative pressure fluid carried object generators (6), and electromagnetic valves (B3, B4, B9, B5.1, B5.2, B5.3) or B5.4) are simultaneously opened for circulating operation; when the air conditioning device (6.1) operates, the air separation efficiency can be improved by moderately increasing the partial pressure difference between two sides of the air conditioning membrane, and simultaneously the oxygen-rich waste gas or the ballast waste gas also needs to be pumped and discharged, at this time, the electromagnetic valve (B8), the electromagnetic valve (B8.1), the electromagnetic valve (B8.2), the electromagnetic valve (B8.3), the electromagnetic valve (B8.4), the electromagnetic valve (A8), the electromagnetic valve (A8.1), the electromagnetic valve (A8.35), the electromagnetic valve (S5), the electromagnetic valve (S6), the electromagnetic valve (S7), the electromagnetic valve (A8), the electromagnetic valve (A8.1), the electromagnetic valve (B8.2), the electromagnetic valve (A8658.3), the electromagnetic valve (A8.4), the electromagnetic valve (B8), the electromagnetic valve (B8.1), the electromagnetic valve (B8.2), the electromagnetic valve (A8), the electromagnetic valve (A8.8.3), the electromagnetic valve (A8.4), the air suction device (A8.4), the electromagnetic valve (B8), the atmospheric air suction device (A638.2), the atmospheric air suction device (A8.8.8.8) or the atmospheric water preparation device (A8.8.8.8) or the atmospheric air suction device (A8.8.8.8) or the atmospheric water jet (A8.8B 8) or the atmospheric water jet 19B 8 # 19, the atmospheric water jet water, simultaneously, starting the air extracting pump (2) to pump and exhaust decomposed waste gas; according to the method and the optimal standard and the point of freshness loss of the modified atmosphere gas or the carried gas for freshness preservation and storage, the positive and negative pressure system is used for targeted control, accurate regulation and circulation operation, so that various freshness preservation factors of gas components, gas concentration, gas pressure, air humidity and cleanliness in the positive and negative pressure cabin are kept in the optimal range required by freshness preservation of fruits and vegetables, the respiration rate of the stored fruits and vegetables is effectively controlled, anaerobic respiration and carbon dioxide poisoning are prevented, the aging process is delayed, the quality reduction and flavor loss of the stored fruits and vegetables are prevented, the moisture of the fruits and vegetables is kept and supplemented by positive pressure moisture, and the freshness of the fruits and vegetables is maintained to the maximum extent; fifth, the procedure of normal pressure or pressurization or sterilization preservation of the leftovers: the method comprises the steps that leftovers are placed in a positive and negative pressure cabin, an air suction pump (2) and related air suction pipelines are started by a regulating and controlling device (5), smells emitted by the leftovers and foul air in the cabin are sucked out of the cabin and then are closed, then an inflator pump 3 and related air inflation pipelines can be started to be properly pressurized and stored, so that excessive loss of smells and moisture is prevented, deterioration and corrosion are inhibited, meanwhile, a humidity control device (6.5) can be timely started to supplement moisture in the air according to feedback information of a humidity sensor, or related carried object generating processors can be timely started to kill bacteria and viruses in the air in the cabin, and further stored food is prevented from being deteriorated; sixthly, a low-temperature auxiliary preservation program: after the positive and negative pressure fresh-keeping refrigerator is started, the positive and negative pressure intelligent control device (5) starts the refrigerating system (8), provides corresponding low temperature for each positive and negative pressure chamber through the feedback control of the temperature sensing controller (C9) and the intelligent control of the positive and negative pressure intelligent control device (5), and assists the positive and negative pressure system to keep the stored articles fresh; and seventhly, the protection function is realized when the door is opened: if the refrigerator door is opened during the superoxide sterilization or the air-conditioned storage, the door switch immediately feeds back, the positive and negative pressure intelligent control device (5) immediately operates and stops the superoxide or the air-conditioned or related programs, simultaneously opens the air extraction pipeline and starts the air extraction pump (2), the gas in the refrigerator is quickly extracted to the ballast decomposition processor (6.7) at the rear side of the refrigerator for decomposition and then discharged into the atmosphere, and the air is supplemented with air extraction negative pressure from the outside of the refrigerator door to the positive and negative pressure cabin, so the superoxide or high-nitrogen and low-oxygen ballast gas cannot flow out of the door; the air water making program comprises the steps that humid waste gas pumped out of a vacuum high-pressure cabin by an air pump (2) enters a superoxide decomposer (6.7) to decompose superoxide and then enters an air water making device (11), water vapor is condensed and filtered to form drinking standard purified water, ice can be made by drinking or an uninterrupted water source is provided for a humidifying and humidity controlling device (6.5), when an air pump (3) is idle, the intelligent control device (5) starts the air pump (3) and enables electromagnetic valves (B3), (B9) and (B2) to be communicated with an air water making inflation pipeline, and indoor air is driven to enter the air water making device (11) to make water; ninthly, controlling, monitoring and identifying functions in a far and near range: the touch screen and mobile phone monitoring and identifying system (12) controls and monitors the fresh-keeping refrigerator, other positive and negative piezoelectric devices and the positive and negative pressure module cabinet in real time through WIFI and mobile phone APP far and near distance, so that the refrigerator, all other positive and negative piezoelectric devices and the module cabinet can intelligently realize various functions with high efficiency and low consumption according to set programs and instant instructions; the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the box body (7); the method comprises the steps of shooting and scanning the conditions of articles in a refrigerator in real time, automatically scanning and identifying various preservation factors of the variety, the category, the component, the color, the water content and the disease degree of the stored articles, calculating a real-time numerical value or a maximum common divisor by combining the quantity proportion fuzzy data of different articles in the same compartment and cloud data, accurately regulating and controlling various preservation environment factors of air flow pressure, gas component, air cleanliness, ambient temperature and dry humidity in a positive-negative pressure refrigeration and freezing compartment in real time through manual or automatic setting, automatically performing harmless sterilization and disinfection, and rapidly degrading residual pesticide, fertilizer, hormone and harmful additives to form an adjustable and controllable artificial microclimate in the positive-negative pressure refrigeration and freezing compartment, creating a favorable preservation microenvironment, and enabling various fresh foods stored in the positive-negative pressure refrigeration and freezing compartment to be in an optimal air pressure range, optimal gas component and optimal humidity temperature, the fresh water is kept tender and original taste is kept in the best storage environment; the refrigerator door touch screen (12.1) or the mobile phone APP (12.2) can display and remind production time, price, shelf life, commodity information of manufacturers and information of purchasers and online stores, automatically record, analyze and arrange the frequent favorite big data of the time and the quantity of storing and taking out articles of the refrigerator and combine cloud data to carry out intelligent analysis, and then remind in time on the mobile phone APP (12.2) or directly push recommended commodities to be purchased onto the mobile phone APP (12.2) and the refrigerator door touch screen (12.1); the camera shooting and identifying device is used for monitoring and identifying the fixed position in real time, and is also used for automatically continuously shooting a plurality of panoramic photos of articles in the refrigerator along with the closing movement of the refrigerator door (1.2) and automatically recording small videos along with the closing movement of the refrigerator door (1.2) in the closing process of the refrigerator door, so that a user can check the videos of the panoramic photos of the articles in the refrigerator with good light and large visual field in the last closing process and the closing process of the door at any time in a touch screen of the refrigerator door without opening the refrigerator door, releasing vacuum and reducing the temperature in the short range in the mobile phone APP, and dynamically identifying and uploading data; the method comprises the following steps of (1) enabling the R part and the positive and negative pressure modules to be combined into an intelligent home mode: the intelligent positive and negative pressure fresh-keeping refrigerator can be manufactured according to module function design, not only is used as an independent invention right for independent production and use, but also can be organically combined with other positive and negative voltage devices and module cabinets under the control of a touch screen and a mobile phone APP monitoring and identifying system (12) to form an intelligent positive and negative pressure module combined home with complete functions, not only can share a common positive and negative pressure system, a refrigeration system and an air water making device, but also has basically uniform appearance and color, and is orderly matched to accord with a popular trend; the specific operation method of the intelligent positive-negative pressure fresh-keeping refrigerator integrates multiple methods of vacuum, high pressure, superoxide, catalyst, modified atmosphere fresh-keeping, negative ions, humidification, dehumidification, humidity control and temperature control, disinfection and sterilization, air purification, air water production and low-temperature storage by using positive pressure or negative pressure intelligent regulation, is organically applied to the positive-negative pressure intelligent fresh-keeping refrigerator, organically integrates optimal collocation, uses single or multiple different combinations or single or alternative or cyclic application, is provided with a plurality of positive-negative pressure cabins, common cold boxes and common freezing boxes with different types and different functions in one positive-negative pressure fresh-keeping refrigerator, is uniformly distributed with positions and distribution spaces according to different requirements and convenient use, and can be randomly combined, regulated and controlled in a classified mode and flexibly applied according to the programs, the functions and the modes; the positive and negative pressure intelligent fresh-keeping refrigerator updates the existing method that the traditional refrigerator only depends on controlling the temperature low-temperature storage of the refrigerator, the positive and negative pressure system accurately regulates and controls various fresh-keeping environmental factors such as airflow pressure, gas components, air cleanliness, environmental temperature and humidity in the positive and negative pressure refrigerating and freezing chamber in real time, the space in the refrigerator is subjected to harmless disinfection and sterilization, residual pesticide, chemical fertilizer hormone and harmful additives are quickly degraded, and the freshness loss factors are accurately positioned and removed in a targeted manner, so that various fresh foods stored in the positive and negative pressure refrigerating and freezing chamber can keep fresh water-wet quality and flavor for a long time; the positive and negative pressure system endows the fresh-keeping refrigerator with a breathing function and a circulation characteristic, so that the ice-cold fresh-keeping refrigerator becomes a life electrical appliance, and the existing refrigerator and the traditional method are upgraded and updated once; the positive and negative pressure system has a large-capacity renewable carrier function and a platform property capable of upgrading, expanding and increasing items, so that the positive and negative pressure fresh-keeping refrigerator is endowed with an upgrading and expanding function, along with the gradual development of science and technology, various fresh-keeping and storage new methods which are newly and successfully researched and developed can be absorbed and integrated into the positive and negative pressure fresh-keeping refrigerator, the positive and negative pressure fresh-keeping refrigerator is continuously developed in a renovation way like a mobile phone and a computer, a chip processor and various software of the positive and negative pressure intelligent control device can be gradually upgraded and updated, and the positive and negative pressure fresh-keeping refrigerator is more multifunctional, efficient, environment-friendly, low in consumption, diversified and suitable for use.

In a fifth specific embodiment, the intelligent positive and negative pressure washing machine comprises a machine body (7); an intelligent positive and negative pressure system and an elution drying system (15) are arranged in the machine body (7); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure water flow carried object generator assembly (6.04), a carried object decomposition processor (6.7), a water pump (16), a water inlet pump (17) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a water pump (16), a water inlet pump (17), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a washing machine type positive and negative pressure cabin (1F) according to the specific requirements of washing and drying clothes; the washing machine type positive and negative pressure cabin (1F) is of a vacuum high pressure cabin (1-1) structure, the positive and negative pressure resistance standards of the vacuum high pressure cabin (1-1) are all based on the local instant atmospheric pressure as a zero standard, the positive pressure resistance is higher than the zero standard by 0.01KPa until higher, the negative pressure resistance is lower than the zero standard by 0.01KPa until lower, and the positive and negative pressure resistance intensity is improved according to specific requirements and washing machine configuration; the washing machine type positive and negative pressure cabin (1F) comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1); the airtight mechanism (1.3) comprises a lock ring (1.31), a lock tongue (1.32), an airtight gasket (1.33) and a door edge sealing gasket (1.34); the lock ring (1.31) is movably matched with the bolt (1.32), the bolt (1.32) extends into the lock ring (1.31) to lock the cabin door when the cabin door is closed, and the sealing is kept by the airtight gasket (1.33) when positive and negative air pressure is formed in the washing machine type positive and negative pressure cabin (1F); the communication device (1.4) for sealing and communicating the inside and outside of the cabin is arranged at the rear part or the side part of the washing machine type positive and negative pressure cabin (1F), and pipelines and circuits for entering and exiting the inside and outside of the cabin are connected to the communication device (1.4) for sealing and entering and exiting through the communication device so as to keep the sealing performance of the washing machine type positive and negative pressure cabin (1F); the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure water flow carried object generator assembly (6.04) comprises a superoxide generation water mixer (6.6), a disinfection and sterilization degradation device (6.9), a stain and oil removing and cleaning device (6.11) and a carried object generator item-adding upgrading module (6.16); the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the water flow ballast generator assembly (6.04) may comprise at least one or more of the unitary fluid ballast generators (6.1) to (6.16) as required; the washing and drying system (15) comprises a washing machine drum mechanism (15.1), a washing and drying control mechanism (15.2), a drum sealing bearing seat (15.3), a drum large belt pulley (15.4) and a motor assembly (15.5); a washing machine drum mechanism (15.1), a drench-proof air exhaust port (2.1), a drum sealing bearing seat (15.3), a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3) and a carried object sensor item-adding upgrading module (C12) are arranged in the washing machine type positive and negative pressure cabin (1F); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure water flow carried object generator assembly (6.04), a carried object decomposition processor (6.7), an elution drying control mechanism (15.2), a large roller belt pulley (15.4), a motor assembly (15.5), a water pump (16), a water inlet pump (17), a detergent pull box (18) and a touch screen and mobile phone monitoring and identification system (12) are arranged outside the washing machine type positive and negative pressure cabin (1F); an air suction pipeline (A1) is installed at an air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), the other end of the air suction pipeline extends into the washing machine type positive and negative pressure cabin (1F) and then is connected with a drenching prevention air suction opening (2.1) to form an air suction return opening (c) or a circulation return opening (i), an air outlet (B) of the air suction pump (2) is communicated with the atmosphere, the electromagnetic valve (B1) is further connected with a circulation pipeline (A5), an electromagnetic valve (B5) is installed in the middle of the air suction circulation pipeline (A5), and the other end of the air suction pipeline is a circulation exhaust opening (i2) or a circulation air inlet (j 2); an air inflation pipeline (A3) is installed at the air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is installed in the middle of the air inflation pipeline (A3), and the other end of the air inflation pipeline extends into the washing machine type positive and negative pressure cabin (1F) to form an air inflation inlet (F) or a circulating inlet (j); the air inlet (e) of the inflator pump (3) is communicated with the atmosphere, the electromagnetic valve (B3) is further connected with a circulating pipeline (A6), the middle of the pumping and circulating pipeline (A6) is provided with the electromagnetic valve (B6), the other end of the pumping and circulating pipeline (A6) is connected to the circulating air inlet (e2) of the inflator pump (2), the electromagnetic valve (B6) is further connected with a circulating pipeline (A7), and the other end of the circulating pipeline (A7) is connected with the electromagnetic valve (B5); the utility model discloses a washing machine, including water intake pump (17), water inlet (r) department of intake pump (17) installs inlet channel (A14), the mid-mounting of inlet channel (A14) has solenoid valve (B14), and the other end switch-on is from water source, the delivery port (u) department of intake pump (17) installs washing machine inlet channel (A15), the mid-mounting of inlet channel (A15) has solenoid valve (B15), and the other end switch-on rivers carry the water inlet (v) of thing generator integration (6.04), washing machine inlet channel (A16) is installed to the delivery port (o) of rivers carry thing generator integration (6.04), the mid-mounting of inlet channel (A16) has solenoid valve (B16), and the other end switch-on detergent draws water inlet (z) of box (18), washing machine inlet channel (A17) is installed to delivery port (l) of detergent drawing box (18), the mid-mounting of inlet channel (A17) has solenoid valve (B17), the other end extends into the washing machine type positive and negative pressure cabin (1F) to form a water inlet (T) thereof; the electromagnetic valve (B14) is also provided with a water inlet pipeline (A18) and is connected with an electromagnetic valve (B16), and water can be directly fed when the pressure of tap water reaches the standard without carrying water; the electromagnetic valve (B15) is also provided with a water inlet pipeline (A19) and is connected to a water inlet pipeline (A18) and then communicated with the electromagnetic valve (B16), and water is directly fed by the water inlet pump (17) when water carrying is not needed; a drainage pipeline (A20) is installed at a water inlet (w) of the drainage pump (16), an electromagnetic valve (B20) is installed in the middle of the drainage pipeline (A20), the other end of the drainage pipeline extends into a washing machine type positive and negative pressure cabin (1F) to form a water outlet (L) of the drainage pump, a drainage pipeline (A21) is installed at a water outlet (p) of the drainage pump (16), an electromagnetic valve (B21) is installed in the middle of the drainage pipeline (A21), the other end of the drainage pipeline is communicated with a water inlet (g) of a ballast decomposition processor (6.7), a drainage pipeline (A22) is installed at a water outlet (m) of the ballast decomposition processor (6.7), an electromagnetic valve (B22) is installed in the middle of the drainage pipeline (A22), and the other end of the drainage pipeline is communicated with a sewer; the electromagnetic valve (B20) is also provided with a drainage pipeline (A23) and is connected with the electromagnetic valve (B22) in parallel, and the water can be drained directly when the carried objects do not need to be decomposed and the water can be drained automatically; the electromagnetic valve (B21) is also provided with a drainage pipeline (A24) and is connected to a drainage pipeline (A23) to be communicated with the electromagnetic valve (B22), and drainage is directly carried out by the drainage pump (16) when the ballast does not need to be decomposed; the motor assembly (15.5) drives a large belt pulley (15.4), and the large belt pulley (15.4) drives a roller mechanism (15.1) connected with the large belt pulley to operate; all fluid carried objects generate the processor (6), the sensor (C), the electromagnetic valve (B), the air pump (2), the inflator pump (3), the washing and drying control mechanism (15.2), the water suction pump (16), the water inlet pump (17), the touch screen and the mobile phone monitoring and identifying system (12) are all connected into the positive and negative pressure intelligent regulation and control device (5).

In a sixth specific embodiment, in the operation method of the intelligent positive and negative pressure washing machine, an intelligent positive and negative pressure system is used in the intelligent positive and negative pressure washing machine; the intelligent positive and negative pressure system regulates and integrates various methods of vacuum, high pressure, super oxygen, disinfection and sterilization, degradation treatment and clothes cleaning and drying, a plurality of methods are combined or applied to the positive and negative pressure washing machine singly, and a personalized targeted decontamination comprehensive washing and drying method is designed on a molecular level and a microscopic level aiming at the contamination sites of both the cleaned objects and the pollutants, so that the contamination factors are removed at fixed points, and meanwhile, the damage to the structure and color of the cleaned objects is avoided or reduced, thereby achieving the purpose of quick, efficient, sanitary and environment-friendly cleaning; the specific operation method of the intelligent positive and negative pressure washing machine is characterized in that the positive and negative pressure system intelligently regulates and controls airflow pressure by an air pump or an air pump, carries effective loads of superoxide, disinfectant, cleaning builder, softening and fluffing agent and decomposition treatment agent by airflow or water flow, and orderly goes in and out or stays in the positive and negative pressure cabin (1F), and applies various acting forces which are helpful for fast and efficient washing and drying to washed clothes by the following methods: the positive air pressure and high pressure action method comprises the following steps: A. the air pump (3) is started at the right time to inflate the positive and negative pressure cabins (1F) through the air inflation pipeline (A3) in the washing process, so that strong air bubbles and rapid water flow are formed to participate in washing of the clothes, the washing process is accelerated, the washing efficiency is improved, and meanwhile, the high air pressure formed in the cabins is favorable for the detergent to permeate into the clothes to be cleaned conveniently; B. during drainage, the positive and negative pressure cabins (1F) are inflated and pressurized to accelerate the drainage speed; C. during dehydration, the air inflation and pressurization can force the moisture to be quickly separated from the clothes, so that the dehydration efficiency is improved, and the drainage and dehydration time is shortened; D. when the drying program starts, the washing machine type positive and negative pressure cabin (1F) is inflated and pressurized, so that hot air enters clothes fibers to vaporize water, and then the pressure is quickly released to discharge water vapor, so that the clothes drying process is accelerated, and the clothes drying time is effectively shortened; (II) a negative pressure vacuum action method: A. when water enters, the air pump (2) is started to pump negative pressure from the positive and negative pressure cabins (1F) through the air pumping pipeline (A1), so that water inlet is accelerated, and the water inlet time is shortened; B. when the washing is started, the positive and negative pressure cabins (1F) are pumped to proper vacuum, clothes fibers and dirt expand in vacuum, the adhesion force of the dirt is weakened or the dirt falls off, the washing efficiency is improved, and the washing time is shortened; C. in washing, air suction and inflation are repeated circularly, and fiber expansion and torrent kneading and oscillating are performed alternately, so that the cleanliness and the washing efficiency are improved, and the washing and rinsing processes are accelerated; D. during dehydration, negative pressure is pumped out from the positive and negative pressure cabins to expand clothes fibers, moisture in the clothes escapes to the negative pressure space and is pumped out of the cabins, and simultaneously, the dehydrated and hardened clothes are fluffy, air pumping and air inflation are circulated repeatedly to force moisture out and pump out of the cabins alternately, so that the clothes dehydration efficiency is greatly improved, and the drainage and dehydration time is shortened; E. during drying, air is timely exhausted, water vapor is exhausted, meanwhile negative pressure enables clothes fibers to expand, water vapor is conveniently emitted and quickly dried, the air inflation cycle is matched for repetition, heating gasification and water vapor extraction are alternately carried out, the clothes drying process is greatly accelerated, the negative pressure enables the clothes to be fluffy, the clothes washing and drying quality is improved, and meanwhile, the clothes drying time is effectively shortened; and (III) an action method of the carried substances of the air flow and the water flow: carrying effective loads of superoxide, disinfectant, cleaning builder, softening and fluffing agent and decomposition treatment agent by positive and negative pressure airflow and water flow, and sequentially entering or residing in the washing machine type positive and negative pressure cabin (1F) to apply various acting forces which are helpful for fast and efficient cleaning and drying of washed clothes; the intelligent positive and negative pressure system is characterized in that a positive and negative pressure intelligent control device (5) analyzes class by class according to a built-in program, prestored data, internet cloud data, real-time feedback information of a touch screen, a mobile phone monitoring and identifying system (12) and sensors (C1) - (C12), and pollutant-causing factors and pollutant-removing targets of different cleaning scenes and cleaning clothes are calculated and processed to correspondingly use different accurate pollutant removing technologies to form a characteristic targeted pollutant removal comprehensive cleaning method, and the positive and negative pressure intelligent control device (5) sends specific instructions to an air suction pump (2), an air suction pump (3), a related positive and negative pressure fluid carried object generator (6) and a related electromagnetic valve (C) in real time to accurately control and adjust the opening, closing and conversion of air suction and air inflation and circulation pipelines, intelligently controls the positive and negative pressure in a positive and negative pressure cabin (1) and the inflow of fluid and carried objects thereof, Staying or flowing out, removing the pollution-causing factors of the cleaning matters at fixed points, and precisely maintaining the vulnerable elements of the cleaning matters, thereby achieving the cleaning effect with high efficiency and low consumption; the specific operation method of the intelligent positive and negative pressure system targeted decontamination comprehensive washing and drying and positive and negative pressure washing machine comprises the following steps: (I) water inlet procedure: clothes are put into the drum (15.1), after the door (1.2) is closed and the washing machine is started, the washing machine type positive and negative pressure cabin (1F) is sealed and locked, the positive and negative pressure intelligent control device (5) sends out an instruction, so that the electromagnetic valves (B14), (B15), (B16) and (B17) open corresponding water inlet pipelines: the direct water inlet pipeline of tap water is (A14) → (B14) → (A18) → (B16) → (A16) → the detergent box pulling water inlet (z) → the water outlet (l) → (A17) → (B17) → (A17) → the positive and negative ballast water inlet (T); the water inlet pipeline is (A14) → (B14) → (A14) → the intake pump water inlet (r) → the water outlet (u) → (A15) → (B15) → (A15) → the water flow cargo generator integrated water inlet (v) → the water outlet (o) → (A16) → (B16) → (A16) → the detergent box pulling (z) → the water outlet (l) → (A17) → (B17) → (A17) → the positive and negative ballast water inlet (T) when the washing aid cargo is needed to be washed; thirdly, when the washing aid ballast is not needed to be cleaned, the water inlet pipeline is (A14) → (B14) → (A14) → the water inlet (r) → the water outlet (u) → (A15) → (B15) → (A19) → (A18) → (B16) → (A16) → the water inlet (z) → the water outlet (l) → (A17) → (B17) → (A17) → the positive and negative and positive and negative water inlets (T) during the program, the water inlet pump (17) is started, tap water directly enters the washing machine or enters the washing aid ballast mixed water produced by the water flow ballast generator assembly (6.04) into the positive and negative ballast (1F) of the washing machine, and the superoxide or ballast mixed water is accelerated to decompose organic dirt on the clothes to facilitate quick cleaning; after water inflow begins, the positive and negative pressure intelligent control device (5) enables the electromagnetic valve (B1) to open the air suction pipeline (A1), the air suction pump air inlet (a) → (A1) → (B1) → (A1) → the positive and negative pressure cabin air suction return air inlet (c), and the air suction pump (2) is started to enable the washing machine type positive and negative pressure cabin (1F) to be in negative pressure, so that water inflow is accelerated, and water inflow time is shortened; (II) vacuum washing program: after water is fed, the positive and negative pressure intelligent control device (5) starts the motor assembly (15.5) to drive the roller mechanism (15.1) to rotate to start washing, simultaneously, the electromagnetic valve (B1) is opened (A1) to form an air suction pipeline, and an air suction pump air inlet (a) → (A1) → (B1) → (A1) → the positive and negative ballast air suction return air inlet (c), and the air pump (2) is started to pump the washing machine type positive and negative pressure cabin (1F) to proper vacuum, the clothes fiber and dirt expand in vacuum, wherein the air escapes to weaken or drop the adhesion force of dirt, improve the cleaning efficiency and shorten the washing time, the superoxide or carried mixed water directly kills bacteria and virus microorganisms on the clothes in the washing process, decomposes organic matters in dust and dirt on the clothes to dissolve the organic matters in the water, the decontamination capability of the detergent is enhanced, the cleanliness is improved, the cleaning process is accelerated, and the sterilization and deodorization effects are achieved; (III) high-pressure washing program: after the vacuum washing is carried out for a proper time, the positive and negative pressure intelligent control device (5) closes the electromagnetic valve (B1) and the air pump (2), so that the electromagnetic valve (B3) is opened (A3) and an air charging pipeline is formed: the air pump air outlet (d) → (A3) → (B3) → (A3) → the positive and negative ballast inflation air inlet (f), and simultaneously opening the (a1) (a5) (a6) circulation pipeline: the air circulation, the positive and negative ballast circulation return air ports (i) → (a1) → (B1) → (a5) → (B5) → (a5) → circulation exhaust port (i2) are discharged into the air circulation; or the inside of the washing machine is circulated, positive and negative pressure cabin circulation air return ports (i) → (A1) → (B1) → (A5) → (B5) → (A7) → (B6) → (A6) → inflator pump circulation air return ports (e2), the inflator pump (3) is started, high-pressure air flow enters the washing machine type positive and negative pressure cabin (1F) through the (A3) inflation pipeline, strong air bubble rapid water flow is formed in the cabin to participate in washing, and meanwhile positive air pressure formed in the washing machine type positive and negative pressure cabin (1F) is favorable for detergent to permeate into clothes for washing; the air suction and the air inflation are alternately carried out, the vacuum and the high pressure are circulated repeatedly, the fibers are expanded sometimes, and the fibers are stirred sometimes, so that the cleaning degree and the washing efficiency are greatly improved, and the washing and rinsing processes are accelerated; (IV) draining and dewatering: when water needs to be drained, the positive and negative pressure intelligent control device (5) sends out an instruction to enable the electromagnetic valves (B20), (B21) and (B22) to open corresponding drainage pipelines: firstly, when the super oxygen or the carried objects are not needed to be decomposed by a drainage pump, a direct drainage pipeline is a washing machine type positive and negative ballast drainage port (L) → (A20) → (B20) → (A23) → (B22) → (A22) → a sewer; the water discharge pipeline is divided into a positive ballast water discharge port and a negative ballast water discharge port (L) → (A20) → (B20) → (A20) → a water discharge pump water inlet (w) → a water outlet (p) → (A21) → (B21) → (A21) → a ballast water inlet (g) → a water outlet (m) → (A22) → (B22) → (A22) → a sewer; the drainage pipeline is characterized in that when the super oxide ballast is not needed to be decomposed during drainage of the drainage pump, the drainage pipeline is formed by a drainage port (L) → (A20) → (B20) → (A20) → a drainage pump water inlet (w) → a water outlet (p) → (A21) → (B21) → (A24) → (A23) → (B22) → (A22) → a sewer), during drainage, the drainage pump (16) is started to drain water, during drainage, the air pump (3) is started to inflate and pressurize the washing machine type positive and negative pressure cabin (1F), the drainage speed is increased, and after drainage, the positive and negative pressure intelligent control device (5) sends an instruction to start dewatering; during dehydration, air is inflated and pressurized to force moisture to be quickly separated from clothes, then an air pump (2) is alternately started to pump negative pressure, so that clothes fibers in the washing machine type positive and negative pressure cabin (1F) are expanded, the moisture in the clothes escapes to a negative pressure space and is pumped out of the cabin, meanwhile, the clothes hardened on the inner wall of the roller during dehydration and high pressure are fluffy to prevent the clothes from wrinkling, the air pumping and inflating cycle is repeated, the moisture is forced out and the clothes are pumped out of the cabin alternately, the efficiency of clothes dehydration is greatly improved, and the drainage and dehydration time is shortened; (V) vacuum high-pressure drying program: when the drying program starts, the positive and negative pressure intelligent control device (5) instructs to start the air pump (3) and open (A3) the air charging pipeline to charge air to the washing machine type positive and negative pressure cabin (1F) to pressurize the air so that the hot air enters the clothes fibers to vaporize the moisture, then the air pump (3) and the air charging pipeline (A3) are closed, the air pump (2) is started and the air suction pipeline (A1) is opened to pump the moisture, and simultaneously the circulation pipeline (A5) (A7) (A6) (A3) is opened: the clothes drying device comprises a positive and negative ballast circulating air inlet (j), a circulating air inlet (j2) → (A5) → (B5) → (A7) → (B6) → (A6) → (B3) → (A3) → and a negative ballast circulating air inlet (j), wherein when water vapor is extracted, negative pressure enables clothes fibers to expand, the water vapor is favorably diffused to prompt the clothes to be quickly dried, so that the air extraction and inflation cycle is repeated, heating gasification and water vapor extraction are alternately carried out, the clothes drying process is greatly accelerated, clothes are fluffy, the clothes drying quality is improved, and the clothes drying time is effectively shortened; (VI) vacuum self-cleaning sterile placing procedure: after the washing is finished, the cabin door (1.2) is closed, the positive and negative pressure intelligent regulation and control device (5) operates the elution and drying control mechanism to open drying hot air, the interior of the washing machine, particularly a roller mechanism (15.1), is dried, then an air suction pump (2) is opened and an air suction pipeline is opened for air suction, superoxide or carried object residual gas in the washing machine type positive and negative pressure cabin (1F) is sucked out, the roller mechanism (15.1) and equipment in the cabin are in proper vacuum, the washing machine is sterile, dust-free and pollution-free and kept clean, the washing machine is free of oxidation, rust and damage, the service life of the washing machine is prolonged, the positive and negative pressure washing machine greatly accelerates each process of washing, dewatering and drying, shortens the working time of each program, improves the washing cleanliness and the drying quality, thoroughly sterilizes and removes peculiar smell of the washed clothes by the superoxide, and intelligently controls the concentration of the carried object and the working time to be in proper areas of sterilization, degradation and washing assistance, the critical point of oxidation fading of the clothes is not reached or is reached as little as possible; (VII) a positive and negative pressure module combined intelligent home mode: the intelligent positive and negative pressure washing machine is manufactured according to module function design, not only is used as an independent invention right for independent production and use, but also is organically combined with other positive and negative piezoelectric devices and a module cabinet under the control of a touch screen and a mobile phone monitoring and identifying system (12) to form an intelligent positive and negative pressure module combined home with complete functions, not only shares an intelligent positive and negative pressure system, but also has basically uniform appearance and color and is orderly matched to accord with the popular trend; in a word, the intelligent positive and negative pressure system is an effective method for targeted decontamination comprehensive washing and drying, so that the clothes washing and dehydrating drying is faster, more efficient and lower in consumption, and the clothes washed are less in loss, cleaner, more fluffy and more sanitary.

The intelligent positive-negative pressure dish washing fruit and vegetable cleaning machine comprises a machine body (7); an intelligent positive-negative pressure system, a dish washing and drying system (19) and a fruit and vegetable cleaning system (20) are arranged in the machine body (7); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air suction pump (2), a positive and negative pressure intelligent regulation and control device (5), a water flow carried object generator assembly (6.04), a carried object decomposition processor (6.7), a drainage pump (16), a water inlet pump (17) and a touch screen and mobile phone monitoring and recognition system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a water pump (16), a water inlet pump (17), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a dishwasher type positive and negative pressure cabin (1G) according to the specific requirements of intelligent dish washing, drying and fruit and vegetable cleaning; the dishwasher type positive and negative pressure cabin (1G) is of a vacuum high pressure cabin (1-1) structure, the negative pressure resistance standard of the vacuum high pressure cabin (1-1) is 0.01KPa lower than the zero standard until lower by taking local instant atmospheric pressure as the zero standard, and the positive and negative pressure resistance intensity is improved according to specific requirements and the configuration of the dishwasher fruit and vegetable washing machine; the dishwasher-type positive and negative pressure cabin (1G) comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1) of the dishwasher type positive and negative pressure cabin (1G); the airtight mechanism (1.3) comprises a lock ring (1.31), a lock tongue (1.32) and an airtight gasket (1.33); the lock ring (1.31) is movably matched with the bolt (1.32), the bolt (1.32) extends into the lock ring (1.31) to lock the cabin door when the cabin door is closed, and the air-tight gasket (1.33) keeps sealing when positive and negative air pressure is formed in the dishwasher type positive and negative pressure cabin (1G); the device comprises an intelligent regulation and control device (5) for positive and negative pressure, a communication device (1.4) for external sealing in the cabin, a control system and a control system, wherein the communication device (1.4) for external sealing in the cabin is arranged at the rear part or the side part of the dishwasher type positive and negative pressure cabin (1G), pipelines and circuits for the internal and external sealing in and out of the cabin are connected to the communication device (1.4) for external sealing in and out of the cabin through the communication device so as to keep the sealing performance of the dishwasher type positive and negative pressure cabin (1G), and the intelligent regulation and control device for positive and negative pressure (5) comprises an integrated circuit, a chip, fluid and a carried object regulation and control system thereof and is connected to the Internet in a wired and wireless mode; positive and negative pressurized water flow carried object generator integration (6.04) includes: the device comprises a superoxide generation water mixer (6.6), a disinfection and sterilization degradation device (6.9), a stain and oil removing cleaning device (6.11) and a carried substance generator item-adding upgrading module (6.16); the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; a dish washing and drying system (19), a fruit and vegetable cleaning system (20), a water spraying prevention air exhaust port (2.1), a negative pressure sensor (C2), a superoxide sensor (C3), a temperature sensor (C9) and a carried object sensor item-adding upgrading module (C12) are arranged in the dish washing machine type positive and negative pressure cabin (1G); the carried object sensor item-adding upgrading module (C12) is a combined module which can install any single sensor item-adding setting into the sensor integration and upgrade the sensor integration; an air pump (2), a positive and negative pressure intelligent regulation and control device (5), a water flow carried object generator assembly (6.04), a carried object decomposition processor (6.7), a drainage pump (16), a water inlet pump (17), a touch screen and a mobile phone monitoring and identification system (12) are arranged outside the dish-washing machine type positive and negative pressure cabin (1G); an air suction pipeline (A1) is installed at an air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), and the other end of the air suction pipeline extends into the dishwasher type positive and negative pressure cabin (1G) and then is connected with a water spraying prevention air suction opening (2.1) to form an air suction return opening (c); an air outlet (b) of the air pump (2) is communicated with the atmosphere; a water inlet pipeline (A14) is arranged at the water inlet (r) of the water inlet pump (17), the middle part of the water inlet pipeline (A14) is provided with an electromagnetic valve (B14), the other end is communicated with a tap water source, a water inlet pipeline (A15) is arranged at the water outlet (u) of the water inlet pump (17), the middle part of the water inlet pipeline (A15) is provided with an electromagnetic valve (B15), the other end of the water inlet pipeline is communicated with a water inlet (k) of a water flow carrying object generator assembly (6.04), a water inlet pipeline (A16) is arranged at a water outlet (q) of the water flow carried object generator assembly (6.04), the middle part of the water inlet pipeline A (16) is provided with an electromagnetic valve (B16), the other end of the water inlet pipeline A extends into a dishwasher type positive and negative pressure cabin (1G) and is connected to an electromagnetic valve (B25), the electromagnetic valve (B25) is respectively connected with a fruit and vegetable cleaning water inlet pipeline (A25) and a dish washing and drying water inlet pipeline (A27), the water inlet pipeline (A25) is connected to a water inlet (E) of the fruit and vegetable cleaning system (20); the water inlet pipeline (A27) is connected to a water inlet (G) of the dish washing and drying system (19); the electromagnetic valve (B15) is also provided with a water inlet pipeline (A19) and is connected to the electromagnetic valve (B16), and water is directly fed by a water inlet pump (17) when the super oxygen water is not needed; a water discharge pipeline (A20) is installed at a water inlet (w) of the drainage pump (16), an electromagnetic valve (B20) is installed in the middle of the water discharge pipeline (A20), the other end of the water discharge pipeline extends into a dishwasher type positive and negative pressure cabin (1G) and is respectively connected to a fruit and vegetable cleaning water discharge pipeline (A26) and a dish washing and drying water discharge pipeline (A28), and the water discharge pipeline (A26) is connected to a water outlet (F) of the fruit and vegetable cleaning system (20); the drainage pipeline (A28) is connected to a drainage outlet (H) of the dish washing and drying system (21); a drainage pipeline (A21) is installed at a water outlet (p) of the drainage pump (16), an electromagnetic valve (B21) is installed in the middle of the drainage pipeline (A21), the other end of the drainage pipeline is communicated with a water inlet (g) of a carried object decomposition processor (6.7), a drainage pipeline (A22) is installed at a water outlet (m) of the carried object decomposition processor (6.7), an electromagnetic valve (B22) is installed in the middle of the drainage pipeline (A22), and the other end of the drainage pipeline is communicated with a sewer; the electromagnetic valve (B21) is also provided with a drainage pipeline (A24) and is connected to (A23) to be communicated with the electromagnetic valve (B22), and the water is directly drained by a drainage pump when the super oxygen and the carried objects do not need to be decomposed; all fluid carried objects generate processor (6), sensor (C), solenoid valve (B) and air pump (2), inflator pump (3), water suction pump (16), water intake pump (17), dish washing and drying system (19), fruit and vegetable cleaning system (20), touch screen and mobile phone monitoring and identification system (12) all access positive and negative pressure intelligent regulation and control device (5).

In a specific embodiment eight, in the operation method of the intelligent positive and negative pressure bowl washing fruit and vegetable washing machine, the intelligent positive and negative pressure bowl washing fruit and vegetable washing machine is provided with an intelligent positive and negative pressure system; the intelligent positive and negative pressure system regulates and integrates various methods of vacuum, superoxide, disinfection and sterilization, degradation treatment, dish washing and fruit and vegetable cleaning, a plurality of methods are combined or applied to the positive and negative pressure dish washing and fruit and vegetable cleaning machine singly, the pollution-causing sites of both cleaning objects and pollutants are analyzed class by class on a molecular level and microscopic level, different cleaning scenes and pollution-causing factors and pollution-removing targets of the cleaning objects are correspondingly used after calculation treatment, different accurate pollution-removing technologies are correspondingly used, a characteristic targeted pollution-removing comprehensive cleaning method is formed, and the pollution-causing factors are removed at fixed points, so that the aims of quickly, efficiently, sanitarily, environmentally friendly and cleaning fruits and vegetables are achieved; the specific operation method of the intelligent positive-negative pressure dish washing and fruit and vegetable cleaning machine comprises the following steps: firstly, dish washing, water inlet and washing procedures: after the machine door is closed, the positive and negative pressure intelligent regulation and control device (5) sends out an instruction to enable the electromagnetic valves (B14), (B15), (B16) and (B25) to open corresponding water inlet pipelines: firstly, when people need to eat superoxide or carry water for washing dishes, a water inlet pipeline of a water inlet pump is (A14) → (B14) → (A14) → a water inlet opening (r) → a water outlet opening (u) → (A15) → (B15) → (A15) → a water flow carry object generator integrated water inlet opening (k) → a water outlet opening (q) → (A16) → (B16) → (A16) → (B25) → (A27) → a water inlet opening (G) of a dish washing and drying system; the water inlet pipeline of the water inlet pump is (A14) → (B14) → (A14) → the water inlet of the water inlet pump (r) → the water outlet (u) → (A15) → (B15) → (A19) → (B16) → (A16) → (B25) → (A27) → the water inlet (G) of the dish washing and drying system when the water is not needed to be used or carried for washing dishes; and open water intake pump (17), the running water gets into positive negative pressure cabin (1G) of dish washer formula through the super oxygen of rivers carry thing generator integration rather than production or carry thing mixing water thereupon, and super oxygen or carry thing mixing water accelerate to decompose the organic dirt on the tableware and do benefit to quick washing, and the positive negative pressure regulation and control device (5) that finishes of intaking opens the drying system (19) that washes the dishes and begin to spray and wash the dishes to make solenoid valve (B1) open (A1) exhaust line: the air suction pump air inlet (a) → (A1) → (B1) → (A1) → positive and negative pressure cabin air suction and return air inlet (c), and the air suction pump (2) is started to vacuumize simultaneously, dirt stained on the bowl and chopstick tableware can expand in vacuum negative pressure, air in the dirt escapes, the adhesion force of the dirt is weakened or the dirt falls off from the bowl and chopstick tableware, the cleaning efficiency is improved, the washing process is shortened, the superoxide or carried mixed water can directly kill bacteria and viruses on the bowl and chopstick tableware in the dish washing process, organic matters in the dirt on the bowl and chopstick tableware are decomposed to be dissolved into water, the dirt removing capacity of a detergent can be enhanced, the cleanliness is improved, the cleaning process is accelerated, and the sterilization and deodorization effects are achieved; (II) dish washing, draining, drying and disinfecting procedures: when the water needs to be drained after the proper time is cleaned, the positive and negative pressure intelligent control device (5) sends out an instruction to enable the electromagnetic valves (B20), (B21) and (B22) to open corresponding drainage pipelines: firstly, when the superoxide or the carried substances are not needed to be decomposed by a drainage pump, a direct drainage pipeline is formed, namely a water outlet (H) → (A28) → (A20) → (B20) → (A23) → (B22) → (A22) → a sewer; the drainage pipeline is water outlet (H) → (A28) → (A20) → (B20) → (A20) → drainage pump water inlet (w) → water outlet (p) → (A21) → (B21) → (A21) → drainage pump water inlet (g) → water outlet (m) → (A22) → (B22) → (A22) → sewer; a water discharge pipeline is used when water to be discharged by a water discharge pump does not need to decompose superoxide, a water outlet (H) → (A28) → (A20) → (B20) → (A23) → (B22) → (A22) → a sewer of the dish washing and drying system is directly drained, or a water discharge pump (16) is started, or a ballast decomposition processor (6.7) is started again, the waste water is decomposed and then discharged into the sewer, and meanwhile, the tableware is sprayed and cleaned by clean water again; during the drying procedure, the positive and negative pressure regulating and controlling device (5) opens the air extracting pump (2) again to quickly extract water vapor, so that the drying process is accelerated, the dish washing time is accelerated, and the super oxygen or carried objects can thoroughly sterilize, disinfect and remove peculiar smell from the dish-washing chopsticks and tableware; (III) washing, water feeding and washing procedures of fruits and vegetables: after the machine door is closed, the positive and negative pressure intelligent regulation and control device (5) sends out an instruction to enable the electromagnetic valves (B14), (B15), (B16) and (B25) to open corresponding water inlet pipelines: firstly, when fruits and vegetables need to be cleaned by using the super-oxygen water, a water inlet pipe of a water inlet pump is (A14) → (B14) → (A14) → a water inlet pipe of the water inlet pump (r) → a water outlet (u) → (A15) → (B15) → (A15) → a water inlet of the super-oxygen generation water mixer (k) → a water outlet (q) → (A16) → (B16) → (A16) → (B25) → (A25) → a water inlet of a fruit and vegetable cleaning system (E); when the fruits and vegetables are cleaned without the super oxygen water, a water inlet pipeline of a water inlet pump is (A14) → (B14) → (A14) → a water inlet (r) → a water outlet (u) → (A15) → (B15) → (A19) → (B16) → (A16) → (B25) → (A25) → a fruit and vegetable cleaning system water inlet (E), the water inlet pump (17) is started, tap water enters a water flow carrying object generator assembly (6.04) and a dishwasher or carrying object mixed water produced by the water flow carrying object generator assembly (6.04) into a positive and negative pressure cabin (1G), a fruit and vegetable cleaning system (20) is started to spray the fruits and vegetables after water inlet is finished, an electromagnetic valve (B1) is opened (A1) an air suction pipeline, an air inlet (a) → (A1) → (B1) → (A1) → (c) of the fruit and vegetable cleaning system water enters a negative pressure regulating device (5) and the air inlet (2) of the air suction pump and the air inlet (2) and the air is inflated to suck the negative pressure and suck the dirt in the negative pressure chamber, air in the dirt escapes, so that the adhesion force of the dirt is weakened or the dirt falls off from the fruits and vegetables, the cleaning efficiency is improved, the cleaning process is shortened, bacterial virus microorganisms on the surfaces of the fruits and vegetables are directly killed by the super-oxygen or carried substance mixed water in the cleaning process, organic matters in the dirt on the surfaces are decomposed and dissolved in water, the cleaning degree is improved, the cleaning process is accelerated, meanwhile, the pesticide heavy metal residues and volatile metabolite ethylene acetaldehyde ethanol harmful gas in tissues of the fruits and vegetables are promoted to escape under negative pressure, a favorable environment is created for quick cleaning of the super-oxygen or carried substance water, deep degradation of pesticide residues and decomposition of ethylene harmful gas, the positive-negative pressure intelligent regulation and control device (5) sends an instruction after the super-oxygen or carried substance mixed water is cleaned, and the fruits and vegetables are cleaned by spraying of clear water; (IV) draining after fruit and vegetable cleaning: when the water needs to be drained after the proper time is cleaned, the positive and negative pressure intelligent control device (5) sends out an instruction to enable the electromagnetic valves (B20), (B21) and (B22) to open corresponding drainage pipelines: firstly, when the super oxygen or the ballast is not needed to be decomposed by a drainage pump, a direct drainage pipeline is formed, namely, a water outlet (F) → (A26) → (A20) → (B20) → (A23) → (B22) → (A22) → a sewer; the drainage pipeline is divided into two parts, namely a water outlet (F) → (A26) → (A20) → (B20) → (A20) → a water inlet (w) → a water outlet (p) → (A21) → (B21) → (A21) → a water inlet (g) → a water outlet (m) → (A22) → (B22) → (A22) → a sewer; the drainage pipeline is that water outlet (F) → (A26) → (A20) → (B20) → (A23) → (B22) → (A22) → sewer when superoxide or carried objects do not need to be decomposed in drainage of the drainage pump, the drainage pump directly drains water, or the drainage pump (16) is started or the carried object decomposition processor (6.7) is started again, and the wastewater is decomposed and then drained into the sewer; (V) vacuum self-cleaning sterile placing procedure: after the use, the machine door (1.2) is closed, the positive and negative pressure intelligent regulation and control device (5) opens drying hot air to blow dry the inside of the dish-washing machine type positive and negative pressure cabin (1G), particularly a dish-washing and drying system (19) and a fruit and vegetable cleaning system (20), then an air suction pump (2) is opened and an air suction pipeline is opened to suck air, superoxide or carried residual gas in the dish-washing machine type positive and negative pressure cabin (1G) is sucked out, and the dish-washing and drying system (19), the fruit and vegetable cleaning system (20) and equipment in the cabin are all in proper vacuum, so that the machine is sterile, dustless, pollution-free, clean, beneficial to health, free of oxidation, rust and free of damage, and the service life of an electric appliance is prolonged; (VI) combining the positive and negative pressure modules into an intelligent home mode: the intelligent positive and negative pressure dish washing and fruit and vegetable cleaning machine is manufactured according to module function design, not only is used as an independent invention right for independent production and use, but also is organically combined with other positive and negative piezoelectric devices and module cabinets under the control of a touch screen and a mobile phone monitoring and identifying system (12) to form an intelligent positive and negative pressure module combined home with complete functions, and not only shares a common water inlet pump (17), a water discharge pump (16), a water flow carried object generator assembly (6.04) and a carried object decomposition processor (6.7) with a positive and negative pressure oil smoke machine, but also has basically uniform appearance and color, and is neatly matched to accord with a popular trend; in a word, the intelligent positive and negative pressure system is an effective method for comprehensive cleaning by targeted decontamination, so that the dish washing and fruit and vegetable cleaning machine is higher in energy, high in efficiency, low in consumption and suitable for use.

The intelligent positive and negative pressure range hood comprises a hood body (7); the lower half part of the machine body (7) is a range hood type positive and negative pressure cabin (1H), and the upper half part is an equipment smoke pipe cabin (21); a positive and negative pressure system, a fume exhaust control mechanism (26) and a water heating device (27) are arranged in the equipment smoke tube cabin (21); the positive and negative pressure system comprises: the device comprises a positive and negative pressure intelligent regulation and control device (5), a water inlet pump (17), a water discharge pump (16), a water flow carried object generator assembly (6.04) and a carried object decomposition processor (6.7); the range hood type positive and negative pressure cabin (1H) is of a normal pressure circulating cabin (1-2) structure and comprises a triangular cabin body (1.1) and a cabin door (1.2); the cabin door (1.2) is a machine door of a positive and negative pressure oil smoke machine, and a watertight mechanism (1.7) is arranged between the cabin door (1.2) and the cabin body (1.1); the watertight mechanism (1.7) comprises a lock ring (1.71), a lock tongue (1.72), a watertight gasket (1.73) and a cabin door hinge (1.74); the lock ring (1.71) is movably matched with the lock bolt (1.72), when the cabin door is closed, the lock bolt (1.72) extends into the lock ring (1.71) to lock the cabin door (1.2), and when the inside of the range hood type positive and negative pressure cabin (1H) is sprayed and cleaned, the inside is kept sealed by a watertight gasket (1.73); the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; positive and negative pressurized water flow carried object generator integration (6.04) includes: a super-oxygen generating water mixer (6.6), a disinfection and sterilization degradation device (6.9), a stain and oil removing and cleaning device (6.11) and an item increasing and upgrading module (6.16) of a carried object generator; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the range hood type positive and negative pressure cabin (1H) is internally provided with a motor and wind wheel combination (22), an automatic rotating spray ball (23), an oil and water collecting and draining groove (24), a super oxygen sensor (C3), a carried object sensor item-adding upgrading module (C12) and a touch screen and mobile phone monitoring and identifying system (12) which are arranged on the front surface; the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; a water inlet pipeline (A14) is installed at a water inlet (r) of the water inlet pump (17) and is connected with a tap water source, a pipeline (A15) is installed at a water outlet (u) of the water inlet pump (17), an electromagnetic valve (B15) is installed in the middle of the pipeline (A15), the other end of the pipeline is connected with a water inlet (z) of the water heating device (27), a pipeline (A16) is installed at a water outlet (q) of the water heating device (27), an electromagnetic valve (B16) is installed in the middle of the pipeline (A16), the other end of the pipeline is connected with a water inlet (v) of the water flow carrying object generator assembly (6.04), a pipeline (A18) is installed at a water outlet (o) of the water flow carrying object generator assembly (6.04), an electromagnetic valve (B18) is installed in the middle of the pipeline (A18), the other end of the pipeline extends into a range hood type positive and negative pressure cabin (1H) and is connected to the spraying pipeline (A30), a pipeline (A17) is installed at a water outlet (k) of the water heating device (27), the automatic rotating spraying device is characterized in that an electromagnetic valve (B17) is installed in the middle of the pipeline (A17), the other end of the pipeline is communicated with an electromagnetic valve (B18), the electromagnetic valve (B18) extends into the range hood type positive and negative pressure cabin (1H) through the pipeline (A18) and is connected to the spraying pipeline (A30), a plurality of automatic rotating spraying balls (23) are installed on the spraying pipeline (A30) according to specific requirements, the axes of the spraying balls and the axis of a middle circle of spraying holes form an angle of 45 degrees, and the spraying balls (23) automatically rotate when water flow is sprayed out; a drainage pipeline (A20) is installed at a water inlet (w) of the drainage pump (16), an electromagnetic valve (B20) is installed in the middle of the drainage pipeline (A20), and the other end of the drainage pipeline extends into an oil and water collecting and draining groove (24) at the bottom of the range hood type positive and negative pressure cabin (1H) to form a water outlet (L); a drainage pipeline (A21) is installed at a water outlet (p) of the drainage pump (16), an electromagnetic valve (B21) is installed in the middle of the drainage pipeline (A21), the other end of the drainage pipeline is communicated with a water inlet (g) of a carried object decomposition processor (6.7), a drainage pipeline (A22) is installed at a water outlet (m) of the carried object decomposition processor (6.7), an electromagnetic valve (B22) is installed in the middle of the drainage pipeline (A22), and the other end of the drainage pipeline is communicated with a sewer; the solenoid valve (B21) is also provided with a drainage pipeline (A24) and is connected to a solenoid valve (B22); all fluid carried objects generate the processor (6), the sensor (C), the electromagnetic valve (B), the water pump (16), the water inlet pump (17), the oil fume pumping control mechanism (26), the water heating device (27), the touch screen and the mobile phone monitoring and identifying system (12) to be connected into the positive and negative pressure intelligent regulation and control device (5).

In the operation method of the intelligent positive and negative pressure oil smoke machine, an intelligent positive and negative pressure system is used in the intelligent positive and negative pressure oil smoke machine; the intelligent positive and negative pressure system regulates and integrates various methods of superoxide, disinfection and sterilization, degradation treatment and high-pressure cleaning, multiple combinations or a single method is applied to the positive and negative pressure oil smoke ventilator, the positive and negative pressure system analyzes the pollution-causing sites of both the cleaned objects and pollutants in the smoke ventilator on a molecular level and a microscopic level one by one, analyzes the pollution-causing factors and the pollution-removing targets of various cleaning scenes and the cleaned objects correspondingly on a molecular level, and forms a characteristic targeted decontamination comprehensive cleaning method by using different accurate decontamination technologies after calculation treatment, so that the pollution-causing factors are removed at fixed points, and the aim of cleaning the smoke ventilator quickly, efficiently, sanitarily and environmentally friendly is fulfilled; the method comprises the following steps: (I) a smoke exhaust program: when the range hood is started, the sealing waterproof cabin door (1.2) is opened to supply air and smoke, and when the range hood stops working, the sealing cabin door (1.2) is closed; (II) self-cleaning program: the positive and negative pressure regulating device (5) sends out a command to enable the electromagnetic valves (B15), (B18), (B16) or (B17) to open the corresponding water inlet pipelines: firstly, when people need to clean the water with the water or the related carried water, a water inlet pipeline is (A14) → a water inlet pump water inlet (r) → a water outlet (u) → (A15) → (B15) → (A15) → a water heating device water inlet (z) → a water outlet (q) → (A16) → (B16) → (A16) → a water flow carried object generator integrated related carried object generator water inlet (v) → a water outlet (o) → (A18) → (B18) → (A18) → (A30) → automatic rotation spraying ball (23); when the water is cleaned by hot water without carrying superoxide and hydrolyzing, a water inlet pipeline is (A14) → a water inlet pump water inlet (r) → a water outlet (u) → (A15) → (B15) → (A15) → a water heating device water inlet (z) → a water outlet (k) → (A17) → (B17) → (A17) → (B18) → (A18) → (A30) → automatic rotation spraying balls (23), the water inlet pump (17) is started, tap water passes through the water heating device (27) and the water flow carrying object generator assembly (6.04) to form superoxide or carrying water to enter the range hood type positive and negative pressure cabin (1H), the water passes through the automatic rotation spraying balls (23), all parts in the machine case including the motor and wind wheel assembly (22) are fully sprayed and cleaned, the superoxide or carrying object hot water is firstly sprayed and removed efficiently, and then clean hot water is sprayed until all cleaned, and the cleaned sewage flows down to the oil collecting and water draining tank (24) at the lowest part of the machine case, when water needs to be drained, the positive and negative pressure intelligent control device (5) sends out an instruction to enable the electromagnetic valves (B20), (B21) and (B22) to open corresponding drainage pipelines: firstly, when superoxide or ballast needs to be decomposed, a drainage pipeline is composed of an oil collecting and drainage tank drainage port (L) → (A20) → (B20) → (A20) → a drainage pump water inlet (w) → a water outlet (p) → (A21) → (B21) → (A21) → a ballast decomposition processor water inlet (g) → a water outlet (m) → (A22) → (B22) → (A22) → a sewer; the drainage pipeline is divided into an oil collecting drainage tank drainage port (L) → (A20) → (B20) → (A20) → a drainage pump water inlet (w) → a water outlet (p) → (A21) → (B21) → (A24) → (B22) → (A22) → a sewer, and the drainage pump (16) is started to discharge water to the sewer; thirdly, a drying and placing program is carried out, the cleaned positive and negative pressure intelligent regulation and control device (5) instructs to open the range hood to completely dry the interior of the case, and then the case is turned off and placed to prevent rusting; (IV) starting up protection function: when the range hood is started, air immediately flows from the outside of the range hood cabin to the inside of the positive and negative pressurized water washing range hood type positive and negative pressure cabin (1H) and is discharged from the smoke discharge pipe (29), so that no superoxide carry is contacted at all; (V) module combination intelligent home mode: the intelligent positive and negative pressure oil smoke machine is manufactured according to module function design, not only is used as an independent invention right for independent production and use, but also is organically combined with other electric appliances and a module cabinet under the control of a touch screen and a mobile phone monitoring and identifying system (12) to form an intelligent module combined home with complete functions, and not only shares a common water inlet pump (17), a drainage pump (16), a water flow carried object generator integration (6.04) and a carried object decomposition processor (6.7) with a dish washing fruit and vegetable cleaning machine, but also has basically uniform appearance shape and color, is orderly matched to accord with a popular trend, and the intelligent smoke exhaust ventilator is more efficient, low in energy consumption and suitable for use.

The eleventh embodiment, the intelligent microwave oven with the positive and negative pressure oven and the air fryer comprises an oven body (7), wherein: an intelligent positive and negative pressure system, a barbecue system (30), an air fryer system (31) and a microwave system (32); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system also adopts a non-standard structure except the above standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises: the device comprises an air pump (2) or an air pump (3), and at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a microwave oven type positive and negative pressure cabin (1K) according to the specific requirements of an oven air fryer and a microwave oven; the microwave oven type positive and negative pressure cabin (1K) is of a vacuum high pressure cabin (1-1) structure, the positive and negative pressure resistance standards of the vacuum high pressure cabin (1-1) all adopt local instant atmospheric pressure as a zero standard, the positive pressure resistance is higher than the zero standard by 0.01KPa until higher, the negative pressure resistance is lower than the zero standard by 0.01KPa until lower, and the positive and negative pressure resistance strength is improved according to specific requirements and the configuration of an oven air fryer and a microwave oven; the microwave oven type positive and negative pressure cabin (1K) comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); the hatch door (1.2) is a door of the positive and negative pressure oven air fryer microwave oven; an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1) of the microwave oven type positive and negative pressure cabin (1K); the airtight mechanism (1.3) comprises a lock ring (1.31), a lock tongue (1.32) and an airtight gasket (1.33); the lock ring (1.31) is movably matched with the bolt (1.32), the bolt (1.32) extends into the lock ring (1.31) to lock the hatch door when the hatch door is closed, and the sealing is kept by the airtight gasket (1.33) when positive and negative air pressure is formed in the microwave oven type positive and negative pressure cabin (1K); the communication device (1.4) is fixedly arranged at the rear side part of the microwave oven type positive and negative pressure cabin (1K), and all pipelines and circuits which enter and exit the cabin are connected to the communication device (1.4) and enter and exit through the communication device to keep the sealing performance of the microwave oven type positive and negative pressure cabin (1K). The positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; a barbecue system (30), an air fryer system (31), a microwave system (32), a positive and negative pressure sensor (C15) and a sensor item-adding upgrading module (C12) are arranged in the microwave oven type positive and negative pressure cabin (1K); inside positive negative pressure cabin of microwave oven formula (1K) sets up the non-standard structure outside still adopting above standard architecture, the non-standard structure of inside setting includes: at least one or more of a microwave system (32), a grilling system (30), an air fryer system (31); an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a touch screen and a mobile phone APP monitoring system (12) are arranged outside the microwave oven type positive and negative pressure cabin (1K); an air exhaust pipeline (A1) is installed at an air inlet (a) of the air pump (2), an electromagnetic valve (B1) is installed in the middle of the air exhaust pipeline (A1), the other end of the air exhaust pipeline extends into the microwave oven type positive and negative pressure cabin (1K) to form an air exhaust return port (c) of the microwave oven type positive and negative pressure cabin (1K), and an air outlet pipeline (A2) is installed at an air outlet (B) of the air pump (2) and is communicated with the atmosphere; an air inflation pipeline (A3) is arranged at an air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is arranged in the middle of the air inflation pipeline (A3), and the other end of the air inflation pipeline extends into the microwave oven type positive and negative pressure cabin (1K) to form an air inflation inlet (f); an air inlet pipeline (A4) is arranged at an air inlet (e) of the inflator pump (3) and is communicated with the atmosphere; all the sensors (C), the electromagnetic valve (B), the air pump (2), the inflator pump (3), the barbecue system (30), the air fryer system (31), the microwave system (32), the touch screen and the mobile phone monitoring and identifying system (12) are connected to the positive and negative pressure intelligent regulating and controlling device (5).

The specific embodiment twelfth, the intelligent positive and negative pressure fresh-keeping transportation carriage container comprises a carriage body (7); an intelligent positive and negative pressure system and a refrigerating system (8) are arranged in the carriage body (7); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), and at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a cabin container type positive and negative pressure cabin (1M) or an atmospheric pressure cabin container type positive and negative pressure cabin (1M-2) according to the specific requirements of intelligent positive and negative pressure fresh-keeping transportation of the cabin container; the internal structure of the carriage container type positive and negative pressure cabin (1M) comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); the cabin door (1.2) is a carriage door of the positive and negative pressure fresh-keeping transportation carriage container; an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1) of the carriage container type positive and negative pressure cabin 1M; the airtight mechanism (1.3) comprises a lock ring (1.31), a bolt (1.3)2 and an airtight gasket (1.33); the lock ring (1.31) is movably matched with the bolt (1.32), the bolt (1.32) extends into the lock ring (1.31) to lock the cabin door when the cabin door is closed, and the air-tight gasket (1.33) keeps sealing when positive and negative air pressure is formed in the carriage container type positive and negative pressure cabin 1M; the communication device (1.4) for sealing and communicating the inside and outside of the cabin is fixedly arranged at the rear part of the container type positive and negative pressure cabin 1M of the carriage container, and all pipelines and circuits for entering and exiting the inside and outside of the cabin are connected to the communication device (1.4) for sealing and communicating the inside and outside of the cabin; the positive and negative pressure cabin (1M) of the carriage container type is provided with an airtight mechanism (1.3) and an in-cabin external sealing communicating device (1.4), and is provided with a corresponding vacuum-resistant high-pressure structure, and belongs to the vacuum high-pressure cabin (1-1) structure with airtightness, the positive and negative pressure resistance standard of the vacuum high-pressure cabin (1-1) structure takes local instant atmospheric pressure as a zero standard, the positive pressure resistance is 0.01KPa higher than the zero standard and is up to higher than the zero standard, the negative pressure resistance is 0.01KPa lower than the zero standard and is up to lower than the zero standard, and the positive and negative pressure resistance strength is improved according to specific requirements and the configuration of the carriage container; the normal pressure carriage container type positive and negative pressure cabin (1M-2) is formed by additionally arranging a positive and negative pressure system on a common carriage container, but an airtight mechanism (1.3) and an in-cabin external sealing communicating device (1.4) are not arranged, and the space of the common carriage container is a normal pressure positive and negative pressure cabin structure without vacuum and high pressure, and belongs to a common sealed normal pressure circulating cabin (1-2) or normal pressure in and out cabin (1-3) structure; the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carry generation processor (6) comprises: the device comprises an air conditioning device (6.1), an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), a carried object decomposition processor (6.7), an air filter (6.8), a disinfection and sterilization degradation device (6.9), a carried object generator item-adding upgrading module (6.16), an airflow carried object generator integration (6.02) or an integrated pipeline type fluid carried object generator (6.05); the air conditioning device (6.1) is a membrane air separation air conditioning device; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the airflow load generator ensemble (6.02) and the integrated piping fluid load generator (6.05) each comprise at least one or more of unitary fluid load generators (6.1) to (6.16) as required; an air pump (2), an air pump (3), a positive and negative pressure intelligent control device (5), an airflow carrying object generator assembly (6.02), a carrying object decomposition processor (6.7), an air filter (6.8), a refrigerating system (8), an air water making device (11) and a touch screen and mobile phone monitoring and identifying system (12) are arranged outside the carriage container type positive and negative pressure cabin (1M) or the normal pressure carriage container type positive and negative pressure cabin (1M-2); an air suction pipeline (A1) is installed at the air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), and the other end of the air suction pipeline extends into the carriage container type positive and negative pressure cabin (1M) or the normal pressure carriage container type positive and negative pressure cabin (1M-2) to form an air suction return port (c) of the air suction pipeline; the electromagnetic valve (B1) is also respectively connected with a carried waste gas pumping and exhausting pipeline (A8) and a carried waste gas pumping and exhausting pipeline (A8.1), and the other end of the carried waste gas pumping and exhausting pipeline (A8) is connected with a carried waste gas pumping and exhausting port (s1) of an air conditioning device (6.1) integrated in the positive and negative pressure airflow carried object generator assembly (6.02); the other end of the carried waste gas pumping and exhausting pipeline (A8.1) is connected with a carried waste gas pumping and exhausting port (s2) of an air conditioning device (6.1) integrated in a positive and negative pressure airflow carried object generator assembly (6.021); an air exhaust pipeline (A2) is installed at an air outlet (B) of the air suction pump (2), a carried substance decomposition processor (6.7) and an electromagnetic valve (B2) are installed in the middle of the air exhaust pipeline (A2), the other end of the air exhaust pipeline is communicated with an air inlet (h) of the air water making device (11), and air is introduced from an air outlet (n) of the air water making device (11); an air inflation pipeline (A3) is arranged at an air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is arranged in the middle of the air inflation pipeline (A3), and the other end of the air inflation pipeline extends into a carriage container type positive and negative pressure cabin (1M) or an atmospheric pressure carriage container type positive and negative pressure cabin (1M-2) to form an air inflation inlet (f) of the air inflation pipeline; an air inlet pipeline (A4) is installed at an air inlet (e) of the inflator pump (3), an electromagnetic valve (B4) and an air filter (6.8) are installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is communicated with the atmosphere; a carrying circulating pipeline (A5) is installed at the air inlet (e2) of the inflator pump (3), the other end of the carrying circulating pipeline (A5) is communicated with an electromagnetic valve (B3), and then the carrying circulating pipeline (A3) extends into the carriage container type positive and negative pressure cabin (1M) or the normal pressure carriage container type positive and negative pressure cabin (1M-2) to form a circulating air return port (j); the air charging pipeline (A3) is further connected with a carrying air pipe (A6), (A6.1) and (A6.2), the middle of the carrying air pipe (A6) is provided with an electromagnetic valve (B6), the other end of the carrying air pipe is connected with an air inlet (t) of an air flow carrying object generator assembly (6.02), the air outlet(s) of the air flow carrying object generator assembly (6.02) is provided with the carrying air pipe (A7), the middle of the carrying air pipe (A7) is provided with an electromagnetic valve (B7), the other end of the carrying air pipe extends into the compartment container type positive and negative pressure cabin (1M) or the normal pressure compartment container type positive and negative pressure cabin (1M-2) to form a carrying air inlet (i), the middle of the air pipe (A6.1) and the air pipe (A6.2) is respectively provided with the electromagnetic valves (B6.1) and the electromagnetic valves (B6.2), and the other end of the carrying air pipe extends into the compartment container type positive and negative pressure cabin (1M) or the normal pressure container type positive and negative pressure cabin (1M-2) to be respectively connected with the air flow carrying object generator assembly (6.021) in the air flow carrying container type positive and negative cabin (6.021) An air inlet of a fluid ballast generator (6.05); the aeration pipeline (A3) is also connected with an air-to-water aeration pipeline (A9), the air-to-water aeration pipeline (A9) is connected with an electromagnetic valve (B2) and then connected with an exhaust pipeline (A2), the middle part of the exhaust pipeline (A2) is communicated with an air-to-water device (11), and the other end of the exhaust pipeline is communicated with the atmosphere; the touch screen and mobile phone monitoring and identifying system (12) comprises a box door touch screen (12.1), a mobile phone APP (12.2), a wireless anti-fog camera shooting identifying device (12.4) and a radar scanning identifying device (12.5); the wireless anti-fog camera shooting recognition device (12.4) and the radar scanning recognition device (12.5) are arranged at positions needing to be monitored and recognized inside and outside the carriage body (7); the interior of the carriage container type positive and negative ballast (1M) or the normal pressure carriage container type positive and negative ballast (1M-2) is provided with an airflow carrying object generator assembly (6.021) or an integrated pipeline type fluid carrying object generator (6.05) and corresponding sensors thereof; the sensor comprises a sensor ensemble (CA) comprising, as required, at least one or more of the following elementary sensors (C1) to (C12): the device comprises a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3), a negative ion sensor (C4), a catalyst sensor (C5), a humidity sensor (C6), an oxygen sensor (C7), a nitrogen sensor (C8), a disinfection degradation sensor (C9), an air particulate matter sensor (C10), a temperature sensor (C11) and a carried matter sensor item-adding upgrading module (C12); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; all fluid carried objects generate a processor (6), a sensor (C), an electromagnetic valve (B), an air pump (2), an inflator pump (3), a refrigerating system (8), an air water making device (11), a touch screen and a mobile phone monitoring and identifying system (12) which are connected into a positive and negative pressure intelligent regulation and control device (5) through a line (D) or a cluster line (E).

In a thirteenth specific embodiment, in the operation method of the intelligent positive and negative pressure freshness retaining carriage container, an intelligent positive and negative pressure system is used in the intelligent positive and negative pressure freshness retaining carriage container; the intelligent positive and negative pressure system regulates and integrates various technologies of superoxide, catalyst, controlled atmosphere preservation, negative ion, humidification, dehumidification, disinfection and degradation, air purification, air water production and low-temperature storage, a plurality of technologies are combined or applied to the positive and negative pressure preservation carriage container, a personalized targeted treatment comprehensive preservation method is designed on the cellular molecule level aiming at the site of the transported substance losing freshness, the preservation elements are precisely maintained, the factor of losing freshness is eliminated at fixed points, and the normal tissue cells of the transported substance are not affected or less affected, so that the purpose of preserving the quality of the transported substance is achieved; the specific operation method of intelligent positive and negative pressure fresh-keeping carriage container is characterized by that the positive and negative pressure system uses air pump or air pump to intelligently regulate and control air flow pressure or uses air flow to carry various effective loads of superoxide, catalyst, negative ion, air-conditioned gas, disinfectant, cleaning agent, heat quantity and water, and can be used for making the fresh-keeping fresh food of fresh fruit and fresh-keeping fresh: the positive air pressure and high pressure action method comprises the following steps: proper positive air pressure is timely formed in the cabin of a carriage container type positive and negative ballast (1M), a breathing channel water evaporation channel on the surface layer is contracted or closed after fruits and vegetables in the cabin are pressed, anaerobic respiration, growth aging and water loss of the fruits and vegetables are inhibited, and the mode, path, degree and development duration of damage to food caused by bacteria, viruses, food disease sources and various external factors of pollution particles under normal pressure are changed under the influence of a microscopic level; (II) a negative pressure vacuum action method: proper negative air pressure is formed in the cabin of the positive and negative pressure cabin (1M) of the container type carriage at proper time, anaerobic respiration, growth and aging of fruits and vegetables are inhibited, and bacterial microorganisms in vacuum can not survive, so that the fresh-keeping effect of the stored fruits, vegetables and meat fish is enhanced; (III) an airflow carrying matter action method: carrying various effective loads such as superoxide, catalyst, negative ions, modified atmosphere gas, disinfection degradation fresh-keeping substances and water by positive and negative pressure airflow, and orderly passing in and out or staying in a carriage container type positive and negative pressure cabin (1M) or an atmospheric carriage container type positive and negative pressure cabin (1M-2) by single or multiple combinations, and integrating multiple fresh-keeping technologies to apply accurate and effective various acting forces to the long-term fresh-keeping and quality-keeping of fresh fruit and vegetable articles stored and transported in the fresh-keeping and fresh-keeping technologies; based on the three acting force methods, the positive and negative pressure intelligent control device (5) analyzes class by class according to a built-in program, prestored data, internet cloud data, camera identification of a touch screen and a mobile phone monitoring and identifying system (12), radar scanning identification and real-time feedback information of sensors (C1) to (C12) and aims at the delicacy factors and treatment targets of different stored objects, different targeting preservation technologies are correspondingly used after calculation processing, and a characteristic targeting treatment comprehensive preservation method is formed, and the positive and negative pressure intelligent control device (5) sends specific instructions to the air pump (2), the air pump (3), the related positive and negative pressure fluid carrying object generator (6) and the related electromagnetic valve (C) in real time, accurately controls and adjusts the opening, closing and conversion of air pumping and inflating and circulating carrying pipelines, intelligently controls the level of positive and negative pressure in the positive and negative pressure cabin (1) and the inflow of fluid and carrying objects, and the flowing of the fluid carrying objects in the positive and negative pressure cabin (1), The preservation elements of the stored materials are maintained accurately and the freshness loss factors of the stored materials are removed at fixed points, so that the long-term effect of preservation and quality guarantee is achieved; the intelligent positive and negative pressure system targeted treatment comprehensive preservation method and the specific use method and operation program of the positive and negative pressure preservation carriage container comprise the following steps: firstly, an exhaust or vacuum harm and heat removal cleaning procedure: the cabin door (1.2) is closed, and the positive and negative pressure intelligent regulation and control device (5) sends out an instruction: enabling electromagnetic valves (B2) and (B1) to open (A2) and (A1) air extraction pipelines, and starting an air extraction pump (2) to extract air and exhaust air from a normal-pressure carriage container type positive and negative pressure cabin (1M-2), or extracting air from the carriage container type positive and negative pressure cabin (1M) to be vacuum or negative pressure of-0.001 KPa to-0.1 MPa (local instant air pressure is zero standard), so that heat of fruits, vegetables and flesh fish, partial bacterial microorganisms and foul air in the cabin are extracted, volatile metabolite ethylene-acetaldehyde-ethanol harmful gas in fruit and vegetable tissues is enabled to escape and be extracted by vacuum, meanwhile, the propagation of residual bacteria is inhibited by negative pressure, and the hidden danger of fruit and vegetable disease aging is reduced; a storage and transportation procedure of pressure reduction and control or humidification and humidity control: the positive and negative pressure intelligent regulation and control device (5) maintains a proper negative pressure low-oxygen low-temperature environment in a carriage container type positive and negative pressure cabin (1M) by opening or closing the air pump 2 according to the pressure standard of a preset program and the real-time feedback of the negative pressure sensor (C2), reduces the respiration intensity of fruits and vegetables, inhibits the biosynthesis of ethylene, delays the decomposition of chlorophyll, inhibits the synthesis of carotenoid and lycopene, and slows down the hydrolysis of starch, the increase of sugar and the consumption process of acid, thereby delaying the maturation and aging of the fruits and vegetables, and simultaneously can also open the humidifying and humidity control device (6.5) to improve and control the humidity in the cabin and prevent the moisture of the fruits and vegetables from escaping, and according to the optimal pressure and optimal humidity point required by the fresh-keeping of the fruits and vegetables, the positive and negative pressure is used for targeted pressure control and humidity control, the classified storage is accurately regulated and controlled, and the fresh state of the fruits and vegetables is maintained for a longer time; ③ the procedures of pressurization of the negative and positive pressure ballast of superoxide, negative ions or catalyst or normal pressure circulation sterilization, degradation and odor removal: the positive and negative pressure intelligent control device (5) sends out instructions to open an ultrasonic generator (6.2) or a negative ion generator (6.3) or a catalyst controlled release device (6.4) or a humidity control device (6.5) or a disinfection degradation device (6.9) in an airflow carried object generator assembly (6.02) or (6.021) or an integrated pipeline type fluid carried object generator (6.05) or a carried object generator installed in a carried object generator module (6.16) according to program setting and feedback of a sensor (C), so that superoxide, catalyst, negative ions, moisture and related carried objects in a positive and negative pressure cabin reach required standards, simultaneously, electromagnetic valves (B3) and (B4) and (B3.1) or (B3.2) or (B3.3) or (B3.4) can open corresponding (A4) and (A3) and (A3.1) or (A3.2) or (A3.3) or (A3.4) and open corresponding air charging pipelines (A4) and (A3.1) or a 3.3.3) to start a positive and negative and positive and negative air charging pipelines (10 MPa) appropriately, according to specific requirements and refrigerator configuration, the pressure value can be increased again), the superoxide, negative ions and catalyst with proper positive pressure can sterilize, disinfect, resist mildew and degrade the pesticide residues and ethylene gas sucked out by metabolism of fruits and vegetables for preventing browning and softening of fruits and vegetables, delaying senescence of fruits and vegetables, and the proper high pressure can prevent water in the fruits and vegetables and meat fish from escaping, and the moisture can permeate and supplement water lost due to refrigeration and negative pressure to the fruits and vegetables and meat fish under the positive pressure, the negative ions can reduce the size of water molecular groups of the moisture and facilitate absorption of the fruits and vegetables and meat fish, and the super oxide can better play a role in sterilization and disinfection when permeating into the deeper interior of the fruits and vegetables and meat fish under the positive pressure; fourthly, the storage procedure of atmosphere-controlled gas or other carried objects under normal pressure or pressurization or humidification is as follows: the positive and negative pressure intelligent control device (5) timely opens relevant air extraction pipelines and opens an air extraction pump (2) and a loading decomposition processor (6.7) according to program setting or camera recognition, radar scanning recognition and sensor feedback, dirty air after decomposition, sterilization and degradation is extracted out of the cabin, then electromagnetic valves (B3) and (B4) or (B6) or (B6.1) or (B6.2) open corresponding A4 and A3 or A6 or (A6.1) or (A6.2) relevant loading inflation pipelines, or electromagnetic valves (B3), (B4), (B6) and (B7) open corresponding (A3) and (A5), (A6) and (A7) relevant loading circulation pipelines, and an inflation pump (3) is opened to enable a container type positive and negative pressure (1M) or normal pressure container type positive and negative (1M-2) or normal pressure container type positive and negative pressure container type (6.1) inflation or normal pressure type inflation device to operate under atmospheric pressure, the air separation efficiency can be improved by moderately increasing the partial pressure difference between two sides of the membrane, and simultaneously the oxygen-rich waste gas or the waste gas of the carried object also needs to be pumped and discharged, at this time, an electromagnetic valve (B1) (B2) or (B8.1) is opened (A8) or (A8.1), (A1) or (A2) is provided with an exhaust gas pumping and discharging pipeline, and the exhaust gas is discharged into the atmosphere from an exhaust gas pumping and discharging port (s1) or (s2) → (A8) or (A8.1) → electromagnetic valve (B1) → A1 → air suction pump air inlet (a) → air suction pump air outlet (B) → (A2) → carried object decomposition processor (6.7) → (A2) → (B2) → (A2) → air water making device (11) → (A2), and the exhaust gas suction pump (2) is opened to exhaust and discharge the decomposed exhaust gas; according to the method and the standard point of the atmosphere-controlled gas or the carried gas for preservation and storage, the positive and negative pressure system is used for targeted control, accurate regulation and circulation operation, so that the gas components, the gas concentration, the gas pressure, the air dryness and humidity and each preservation factor of cleanliness in the positive and negative pressure cabin are kept in the optimal range required by preservation of fruits and vegetables, the respiration rate of the stored fruits and vegetables is effectively controlled, anaerobic respiration and carbon dioxide poisoning are prevented, the aging process is delayed, the quality reduction and flavor loss of the stored fruits and vegetables are prevented, the positive pressure moisture is kept and the water content of the fruits and vegetables is supplemented, and the freshness of the fruits and vegetables is maintained to the maximum extent; fifthly, a low-temperature auxiliary preservation program: after the door is closed and the machine is started, the positive and negative pressure intelligent control device (5) starts the refrigerating system (8), provides corresponding low temperature for each positive and negative pressure cabin through the feedback control of the temperature sensing controller (C9) and the intelligent control of the positive and negative pressure intelligent control device (5), and assists the positive and negative pressure system to keep the stored articles fresh; sixthly, the protection function is realized by opening the door and discharging the door immediately: if the compartment door is opened during the superoxide sterilization or the controlled atmosphere storage, the compartment door switch immediately feeds back, the positive and negative pressure intelligent control device (5) immediately operates to stop the superoxide or the controlled atmosphere or related programs, simultaneously opens the air suction pipeline and starts the air suction pump (2), the gas in the compartment is quickly sucked to the carried substance decomposition processor (6.7) for decomposition treatment and then discharged to the atmosphere, and the air is supplemented with air suction negative pressure from the outside of the refrigerator door to the positive and negative pressure compartment, so the superoxide or high-nitrogen and low-oxygen carried substance gas cannot flow out of the door; seventhly, an air water making program, wherein humid waste gas pumped out of a vacuum high-pressure cabin by an air pump (2) enters a carried substance decomposer (6.7) to decompose superoxide and then enters an air water making device (11), water vapor is condensed and filtered to form drinking standard purified water, uninterrupted water source is provided for a humidification and humidity control device (6.5), and when an inflator pump (3) is idle, an intelligent control device (5) starts the inflator pump (3) and enables electromagnetic valves (B3) and (B2) to open an air water making and inflating pipeline to drive indoor air to enter the air water making device (11) to make water; and eighthly, remote and near distance operation monitoring and identification functions: the wireless anti-fog camera shooting recognition device (12.4) and the wireless radar scanning recognition device (12.6) are arranged at positions to be monitored and recognized inside and outside the box body (7); the method comprises the steps of shooting and scanning the conditions of articles in a refrigerator in real time, automatically scanning and identifying various preservation factors of varieties, types, components, colors, water contents and disease degrees of stored articles, and even fuzzy data of quantity proportions of different articles in the same compartment, calculating a real-time numerical value or a maximum common divisor by combining cloud data, then accurately regulating and controlling various preservation environment factors of airflow pressure, gas components, air cleanliness, environmental temperature and humidity in a positive pressure compartment and a negative pressure compartment in real time by a positive pressure system and a negative pressure system through manual or automatic setting, accurately positioning and targeting to remove the preservation factors, and automatically performing harmless sterilization and rapid degradation on residual pesticide, fertilizer hormone and harmful additives; in summary, the above-mentioned specific operation method of the intelligent positive and negative pressure fresh-keeping car container integrates multiple technologies of vacuum, high pressure, super oxygen, catalyst, controlled atmosphere fresh-keeping, negative ion, humidification, dehumidification, humidity control and temperature control, disinfection and sterilization, air purification, air water production and low temperature storage by using positive pressure or negative pressure intelligent regulation and control, is organically applied to the positive and negative pressure intelligent fresh-keeping car container, organically integrates optimal collocation, uses single or multiple different combinations or single or alternative or cyclic application, and sets a plurality of positive and negative pressure cabins of different types and different functions in one positive and negative pressure fresh-keeping car container, uniformly arranges positions and distributes spaces according to different requirements and convenient use, and randomly combines, and applies strategies, classified regulation and control and flexible application according to the above-mentioned programs, functions and modes; the positive and negative pressure intelligent fresh-keeping carriage container updates the prior method that the traditional refrigerated carriage container is stored at low temperature only by controlling the temperature, so that an adjustable and controllable artificial microclimate is formed in the positive and negative pressure chambers, an accurate fresh-keeping microenvironment is created, and various fresh foods stored in the positive and negative pressure chambers can maintain the quality and flavor of fresh water and original branches to the greatest extent for a long time.

A fourteenth specific embodiment is that the intelligent positive and negative pressure fresh-keeping warehouse comprises a warehouse body (7); an intelligent positive and negative pressure system and a refrigerating system (8) are arranged in the storehouse body (7); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), and at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a storage type positive and negative pressure cabin (1N) or an atmospheric storage type positive and negative pressure cabin (1N-2) according to the specific requirements of the intelligent positive and negative pressure fresh-keeping warehouse; the internal structure of the positive and negative ballast (1N) of the storage type comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); the hatch door (1.2) is a warehouse door of the positive and negative pressure fresh-keeping warehouse; an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1) of the storage type positive and negative pressure cabin (1N); the airtight mechanism (1.3) comprises a lock ring (1.31), a bolt (1.3)2 and an airtight gasket (1.33); the lock ring (1.31) is movably matched with the lock bolt (1.32), the lock bolt (1.32) extends into the lock ring (1.31) to lock the cabin door when the cabin door is closed, and the cabin door is sealed by an airtight gasket (1.33) when positive and negative air pressure is formed in the storage type positive and negative pressure cabin (1N); the communication device (1.4) for sealing and communicating the inside and the outside of the cabin is fixedly arranged at the rear part of the storage type positive and negative pressure cabin (1N), and all pipelines and circuits for entering and exiting the inside and the outside of the cabin are connected to the communication device (1.4) for sealing and communicating the inside and the outside of the cabin; the warehouse type positive and negative pressure cabin (1N) is provided with an airtight mechanism (1.3) and an in-cabin external sealing communicating device (1.4), and is provided with a corresponding vacuum-resistant high-pressure structure, and belongs to the vacuum high-pressure cabin (1-1) structure with airtightness, the positive and negative pressure resistance standard of the vacuum high-pressure cabin (1-1) structure takes local instant atmospheric pressure as a zero standard, the positive pressure resistance is 0.01KPa higher than the zero standard and is up to higher than the zero standard, the negative pressure resistance is 0.01KPa lower than the zero standard and is up to lower than the zero standard, and the positive and negative pressure resistance strength is improved according to specific requirements and fresh-keeping warehouse configuration; the normal pressure warehouse type positive and negative pressure cabin (1N-2) is formed by additionally arranging a positive and negative pressure system in a common warehouse, but an airtight mechanism (1.3) and an in-cabin external sealing communicating device (1.4) are not arranged, and the common warehouse space is a normal pressure positive and negative pressure cabin structure without vacuum and high pressure resistance, and belongs to a common sealed normal pressure circulating cabin (1-2) or normal pressure in and out cabin (1-3) structure; the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carry generation processor (6) comprises: the device comprises an air conditioning device (6.1), an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), a carried object decomposition processor (6.7), an air filter (6.8), a disinfection and sterilization degradation device (6.9), a carried object generator item-adding upgrading module (6.16), an airflow carried object generator integration (6.02) or an integrated pipeline type fluid carried object generator (6.05); the air conditioning device (6.1) is a membrane air separation air conditioning device; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the airflow load generator ensemble (6.02) and the integrated piping fluid load generator (6.05) each comprise at least one or more of unitary fluid load generators (6.1) to (6.16) as required; an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), an airflow carried object generator assembly (6.02), a carried object decomposition processor (6.7), an air filter (6.8), a refrigeration system (8), an air water making device (11) and a touch screen and mobile phone monitoring and recognition system (12) are arranged outside the storage type positive and negative pressure cabin (1N) or the normal pressure storage type positive and negative pressure cabin (1N-2); an air suction pipeline (A1) is installed at the air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), and the other end of the air suction pipeline extends into the storage type positive and negative pressure cabin (1N) or the normal pressure storage type positive and negative pressure cabin (1N-2) to form an air suction return port (c) of the air suction pipeline; the electromagnetic valve (B1) is also respectively connected with a carried waste gas pumping and exhausting pipeline (A8) and a carried waste gas pumping and exhausting pipeline (A8.1), and the other end of the carried waste gas pumping and exhausting pipeline (A8) is connected with a carried waste gas pumping and exhausting port (s1) of an air conditioning device (6.1) integrated in the positive and negative pressure airflow carried object generator assembly (6.02); the other end of the carried waste gas pumping and exhausting pipeline (A8.1) is connected with a carried waste gas pumping and exhausting port (s2) of an air conditioning device (6.1) integrated in a positive and negative pressure airflow carried object generator assembly (6.021); an air exhaust pipeline (A2) is installed at an air outlet (B) of the air suction pump (2), a carried substance decomposition processor (6.7) and an electromagnetic valve (B2) are installed in the middle of the air exhaust pipeline (A2), the other end of the air exhaust pipeline is communicated with an air inlet (h) of the air water making device (11), and air is introduced from an air outlet (n) of the air water making device (11); an air inflation pipeline (A3) is arranged at an air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is arranged in the middle of the air inflation pipeline (A3), and the other end of the air inflation pipeline extends into a storage type positive and negative pressure cabin (1N) or an atmospheric storage type positive and negative pressure cabin (1N-2) to form an air inflation inlet (f) of the air inflation pipeline; an air inlet pipeline (A4) is installed at an air inlet (e) of the inflator pump (3), an electromagnetic valve (B4) and an air filter (6.8) are installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is communicated with the atmosphere; a carrying circulating pipeline (A5) is installed at the air inlet (e2) of the inflator pump (3), the other end of the carrying circulating pipeline (A5) is communicated with an electromagnetic valve (B3), and then the carrying circulating pipeline (A3) extends into the storage type positive and negative pressure cabin (1N) or the normal pressure storage type positive and negative pressure cabin (1N-2) to form a circulating air return port (j); the pneumatic pipeline (A3) is further connected with a carrying ventilating pipeline (A6), (A6.1) and (A6.2), the middle of the carrying ventilating pipeline (A6) is provided with an electromagnetic valve (B6), the other end of the carrying ventilating pipeline is connected with an air inlet (t) of an air flow carrying object generator assembly (6.02), the air outlet(s) of the air flow carrying object generator assembly (6.02) is provided with a carrying ventilating pipeline (A7), the middle of the carrying ventilating pipeline (A7) is provided with an electromagnetic valve (B7), the other end of the carrying ventilating pipeline extends into a storage type positive and negative ballast (1N) or an atmospheric storage type positive and negative ballast (1N-2) to form a carrying air inlet (i), the middle of the ventilating pipeline (A6.1) and the air outlet (A6.2) is provided with an electromagnetic valve (B6.1) and a ballast (B6.2), and the other end of the carrying pipeline (A6.021) is connected into the air flow carrying object generator assembly (366.05) The air inlet of (a); the aeration pipeline (A3) is also connected with an air-to-water aeration pipeline (A9), the air-to-water aeration pipeline (A9) is connected with an electromagnetic valve (B2) and then connected with an exhaust pipeline (A2), the middle part of the exhaust pipeline (A2) is communicated with an air-to-water device (11), and the other end of the exhaust pipeline is communicated with the atmosphere; the touch screen and mobile phone monitoring and identifying system (12) comprises a touch screen (12.1), a mobile phone APP (12.2), a high-definition anti-fog camera shooting and identifying device (12.3) and a radar scanning and identifying device (12.5); the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the warehouse body (7); the air flow carried object generator assembly (6.021) or the integrated pipeline type fluid carried object generator (6.05) and corresponding sensors are arranged in the storage type positive and negative pressure cabin (1N) or the normal pressure storage type positive and negative pressure cabin (1N-2); the sensor comprises a sensor ensemble (CA) comprising, as required, at least one or more of the following elementary sensors (C1) to (C12): the device comprises a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3), a negative ion sensor (C4), a catalyst sensor (C5), a humidity sensor (C6), an oxygen sensor (C7), a nitrogen sensor (C8), a disinfection degradation sensor (C9), an air particulate matter sensor (C10), a temperature sensor (C11) and a carried matter sensor item-adding upgrading module (C12); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; all fluid carried objects generate a processor (6), a sensor (C), an electromagnetic valve (B), an air pump (2), an inflator pump (3), a refrigerating system (8), an air water making device (11), a touch screen and a mobile phone monitoring and identifying system (12) which are connected into a positive and negative pressure intelligent regulation and control device (5) through a line (D) or a cluster line (E).

A fifteenth specific embodiment provides an operating method of the intelligent positive and negative pressure refreshing warehouse, wherein the intelligent positive and negative pressure refreshing warehouse is provided with an intelligent positive and negative pressure system; the intelligent positive and negative pressure system regulates and integrates various technologies of superoxide, catalyst, controlled atmosphere preservation, negative ion, humidification, dehumidification, disinfection and degradation, air purification, air water production and low-temperature storage, a plurality of technologies are combined or applied to the positive and negative pressure preservation warehouse, a personalized targeted treatment comprehensive preservation method is designed on the cellular molecule level aiming at the site of the transported substance losing freshness, the preservation elements are precisely maintained, the factor of losing freshness is eliminated at fixed points, and the normal tissue cells of the transported substance are not affected or less affected, so that the purposes of preservation and quality guarantee of the transported substance are achieved; the specific operation method of the intelligent positive and negative pressure fresh-keeping warehouse is characterized in that a positive and negative pressure system carries various effective loads of superoxide, catalyst, negative ions, air-conditioned gas, disinfectant, detergent, heat and water by using the intelligently-regulated airflow pressure of an air pump or airflow, the effective loads are orderly put in or put out of a warehouse type positive and negative pressure cabin (1N) or a normal pressure warehouse type positive and negative pressure cabin (1N-2), and various acting forces which are beneficial to long-term fresh keeping and quality keeping are applied to fresh fruits and vegetables stored in the warehouse by the following modes: the positive air pressure and high pressure action method comprises the following steps: proper positive air pressure is timely formed in a cabin of the storage type positive and negative pressure cabin (1N), a breathing channel water evaporation channel on the surface layer of the fruit and vegetable in the cabin is contracted or closed after being pressed, anaerobic respiration, growth aging and water loss of the fruit and vegetable are inhibited, and the mode, path, degree and development duration of damage to food caused by bacteria, virus, food disease sources and various external causes of pollution particles under normal pressure are changed under the influence of a micro level; (II) a negative pressure vacuum action method: proper negative air pressure is formed in the cabin of the storage type positive and negative pressure cabin (1N) at proper time, anaerobic respiration, growth and aging of fruits and vegetables are inhibited, and bacterial microorganisms cannot survive in vacuum, so that the fresh-keeping effect of the stored fruits, vegetables and meat fish is enhanced; (III) an airflow carrying matter action method: carrying various effective loads such as superoxide, catalyst, negative ions, modified atmosphere gas, disinfection degradation fresh-keeping substances and water by positive and negative pressure airflow, and sequentially entering or residing in a warehouse type positive and negative pressure cabin (1N) or a normal pressure warehouse type positive and negative pressure cabin (1N-2) in a single or multiple combination manner, and integrating multiple fresh-keeping technologies to apply accurate and effective various acting forces to the long-term fresh-keeping and quality-keeping of fresh fruit and vegetable articles stored and transported in the warehouse type positive and negative pressure cabin; based on the three acting force methods, the positive and negative pressure intelligent control device (5) analyzes class by class according to a built-in program, prestored data, internet cloud data, camera identification of a touch screen and a mobile phone monitoring and identifying system (12), radar scanning identification and real-time feedback information of sensors (C1) to (C12) and aims at the delicacy factors and treatment targets of different stored objects, different targeting preservation technologies are correspondingly used after calculation processing, and a characteristic targeting treatment comprehensive preservation method is formed, and the positive and negative pressure intelligent control device (5) sends specific instructions to the air pump (2), the air pump (3), the related positive and negative pressure fluid carrying object generator (6) and the related electromagnetic valve (C) in real time, accurately controls and adjusts the opening, closing and conversion of air pumping and inflating and circulating carrying pipelines, intelligently controls the level of positive and negative pressure in the positive and negative pressure cabin (1) and the inflow of fluid and carrying objects, and the flowing of the fluid carrying objects in the positive and negative pressure cabin (1), The preservation elements of the stored materials are maintained accurately and the freshness loss factors of the stored materials are removed at fixed points, so that the long-term effect of preservation and quality guarantee is achieved; the intelligent positive and negative pressure system targeted treatment comprehensive preservation method and the specific use method and operation program of the positive and negative pressure preservation warehouse comprise the following steps: firstly, an exhaust or vacuum harm and heat removal cleaning procedure: the cabin door (1.2) is closed, and the positive and negative pressure intelligent regulation and control device (5) sends out an instruction: enabling electromagnetic valves (B2) and (B1) to open (A2) and (A1) air extraction pipelines, and opening an air extraction pump (2) to extract air and exhaust air from a normal-pressure storage type positive and negative pressure cabin (1N-2), or extracting air from the storage type positive and negative pressure cabin (1N) to be vacuum or negative pressure of-0.001 KPa to-0.1 MPa (local instant air pressure is zero standard), and extracting heat of fruits, vegetables and fleshfish, partial bacteria and foul air in the cabin, wherein the vacuum promotes volatile metabolite ethylene-acetaldehyde-ethanol harmful gas in fruit and vegetable tissues to escape and be extracted, and meanwhile, the negative pressure is used for inhibiting the propagation of residual bacteria, so that the hidden danger of disease and aging of the fruits and vegetables is reduced; a storage and transportation procedure of pressure reduction and control or humidification and humidity control: the positive and negative pressure intelligent regulation and control device (5) maintains a proper negative pressure low-oxygen low-temperature environment in a storage type positive and negative pressure cabin (1N) by opening or closing the air pump 2 according to the pressure standard of a preset program and the real-time feedback of the negative pressure sensor (C2), reduces the respiration intensity of fruits and vegetables, inhibits the biosynthesis of ethylene, delays the decomposition of chlorophyll, inhibits the synthesis of carotenoid and lycopene, and slows down the hydrolysis of starch, the increase of sugar and the consumption process of acid, thereby delaying the maturation and aging of the fruits and vegetables, and simultaneously can also open the humidifying and humidity control device (6.5) to improve and control the humidity in the cabin and prevent the moisture of the fruits and vegetables from escaping, and according to the optimal pressure and optimal humidity point required by the fresh-keeping of the fruits and vegetables, the positive and negative pressure is used for targeted pressure control and humidity control, the classified storage is accurately regulated and controlled, and the fresh state of the fruits and vegetables is maintained for a longer time; ③ the procedures of pressurization of the negative and positive pressure ballast of superoxide, negative ions or catalyst or normal pressure circulation sterilization, degradation and odor removal: the positive and negative pressure intelligent control device (5) sends out instructions to open an ultrasonic generator (6.2) or a negative ion generator (6.3) or a catalyst controlled release device (6.4) or a humidity control device (6.5) or a disinfection degradation device (6.9) in an airflow carried object generator assembly (6.02) or (6.021) or an integrated pipeline type fluid carried object generator (6.05) or a carried object generator installed in a carried object generator module (6.16) according to program setting and feedback of a sensor (C), so that superoxide, catalyst, negative ions, moisture and related carried objects in a positive and negative pressure cabin reach required standards, simultaneously, electromagnetic valves (B3) and (B4) and (B3.1) or (B3.2) or (B3.3) or (B3.4) can open corresponding (A4) and (A3) and (A3.1) or (A3.2) or (A3.3) or (A3.4) and open corresponding air charging pipelines (A4) and (A3.1) or a 3.3.3) to start a positive and negative and positive and negative air charging pipelines (10 MPa) appropriately, according to specific requirements and warehouse configuration, the pressure value can be increased again), superoxide, negative ions and catalysts with proper positive pressure can sterilize, disinfect, resist mildew and degrade ethylene gas sucked out by pesticide residues and fruit and vegetable metabolism for preventing fruit and vegetable browning and softening, and aging of fruits and vegetables are delayed, the water in fruit and vegetable flesh fish is prevented from escaping under proper high pressure, moisture is easier to permeate and supplement water lost due to refrigeration and negative pressure to fruit and vegetable flesh fish under positive pressure, the negative ions enable the water molecular group size of the moisture to be smaller and more convenient for fruit and vegetable flesh fish to absorb, and the superoxide can inhibit biological tissue metabolism, reduce respiratory intensity, slow down enzyme activity and have certain sterilization and purification effects, and the superoxide can better play a sterilization and disinfection effect when permeating deeper inside the fruit and vegetable flesh fish under positive pressure; fourthly, the storage procedure of atmosphere-controlled gas or other carried objects under normal pressure or pressurization or humidification is as follows: the positive and negative pressure intelligent control device (5) timely opens relevant air extraction pipelines and opens an air extraction pump (2) and a carried object decomposition processor (6.7) according to program setting or camera shooting identification, radar scanning identification and sensor feedback, dirty air after decomposition, sterilization and degradation is extracted out of the cabin, then electromagnetic valves (B3) and (B4) or (B6) or (B6.1) or (B6.2) open corresponding A4 and A3 or A6 or (A6.1) or (A6.2) relevant carried object inflation pipelines, or electromagnetic valves (B3), (B4), (B6) and (B7) open corresponding (A3) and (A5), (A6) and (A7) relevant carried object circulation pipelines, and an inflation pump (3) is opened to increase the pressure difference of two sides of a storage type positive and negative pressure (1N) or a storage type positive and negative pressure (1N-2) inflation or an atmospheric pressure circulation inflation device (6.1) when the atmospheric pressure separation device (6.1) operates, the air separation efficiency can be properly improved, meanwhile, the oxygen-rich waste gas or the waste gas of the loaded objects is pumped and discharged, at the moment, an electromagnetic valve (B1) (B2) or (B8.1) is opened (A8) or (A8.1), (A1) or (A2) is provided with an exhaust pumping and discharging pipeline, and an exhaust pumping and discharging port (s1) or (s2) → (A8) or (A8.1) → electromagnetic valve (B1) → A1 → an air suction pump air inlet (a) → air suction pump air outlet (B) → (A2) → loaded object decomposition processor (6.7) → (A2) → (B2) → (A2) → air water making device (11) → (A2) → is discharged into the atmosphere, and the air suction pump (2) is started to pump and discharge the decomposed exhaust; according to the method and the standard point of the atmosphere-controlled gas or the carried gas for preservation and storage, the positive and negative pressure system is used for targeted control, accurate regulation and circulation operation, so that the gas components, the gas concentration, the gas pressure, the air dryness and humidity and each preservation factor of cleanliness in the positive and negative pressure cabin are kept in the optimal range required by preservation of fruits and vegetables, the respiration rate of the stored fruits and vegetables is effectively controlled, anaerobic respiration and carbon dioxide poisoning are prevented, the aging process is delayed, the quality reduction and flavor loss of the stored fruits and vegetables are prevented, the positive pressure moisture is kept and the water content of the fruits and vegetables is supplemented, and the freshness of the fruits and vegetables is maintained to the maximum extent; fifthly, a low-temperature auxiliary preservation program: after the door is closed and the machine is started, the positive and negative pressure intelligent control device (5) starts the refrigerating system (8), provides corresponding low temperature for each positive and negative pressure cabin through the feedback control of the temperature sensing controller (C9) and the intelligent control of the positive and negative pressure intelligent control device (5), and assists the positive and negative pressure system to keep the stored articles fresh; sixthly, the protection function is realized by opening the door and discharging the door immediately: if the compartment door is opened during the superoxide sterilization or the controlled atmosphere storage, the compartment door switch immediately feeds back, the positive and negative pressure intelligent control device (5) immediately operates to stop the superoxide or the controlled atmosphere or related programs, simultaneously opens the air suction pipeline and starts the air suction pump (2), the gas in the compartment is quickly sucked to the carried substance decomposition processor (6.7) for decomposition treatment and then discharged to the atmosphere, and the air is supplemented with air suction negative pressure from the outside of the refrigerator door to the positive and negative pressure compartment, so the superoxide or high-nitrogen and low-oxygen carried substance gas cannot flow out of the door; seventhly, an air water making program, wherein humid waste gas pumped out of a vacuum high-pressure cabin by an air pump (2) enters a carried substance decomposer (6.7) to decompose superoxide and then enters an air water making device (11), water vapor is condensed and filtered to form drinking standard purified water, uninterrupted water source is provided for a humidification and humidity control device (6.5), and when an inflator pump (3) is idle, an intelligent control device (5) starts the inflator pump (3) and enables electromagnetic valves (B3) and (B2) to open an air water making and inflating pipeline to drive indoor air to enter the air water making device (11) to make water; and eighthly, remote and near distance operation monitoring and identification functions: the touch screen and mobile phone monitoring and identifying system (12) controls, monitors and dynamically identifies the remote and near real-time operation through WIFI and a mobile phone APP, so that the freshness-keeping warehouse can intelligently realize various functions with high efficiency and low consumption according to a set program and an instant instruction; the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the box body (7); the method comprises the steps of shooting and scanning the conditions of articles in a refrigerator in real time, automatically scanning and identifying various preservation factors of varieties, types, components, colors, water contents and disease degrees of stored articles, and even fuzzy data of quantity proportions of different articles in the same compartment, calculating a real-time numerical value or a maximum common divisor by combining cloud data, then accurately regulating and controlling various preservation environment factors of airflow pressure, gas components, air cleanliness, environmental temperature and humidity in a positive pressure compartment and a negative pressure compartment in real time by a positive pressure system and a negative pressure system through manual or automatic setting, accurately positioning and targeting to remove the preservation factors, and automatically performing harmless sterilization and rapid degradation on residual pesticide, fertilizer hormone and harmful additives; in summary, the specific operation method of the intelligent positive and negative pressure freshness keeping warehouse integrates multiple technologies of vacuum, high pressure, superoxide, catalyst, air conditioning freshness keeping, negative ion, humidification, dehumidification, humidity control and temperature control, disinfection and sterilization, air purification, air water production and low temperature storage by using positive pressure or negative pressure intelligent regulation, is organically applied to the positive and negative pressure intelligent freshness keeping warehouse, organically integrates optimal collocation, uses single or multiple different combinations or single or alternative or cyclic application, is provided with a plurality of positive and negative pressure cabins with different types and different functions in one positive and negative pressure freshness keeping warehouse, uniformly arranges positions and distribution spaces according to different requirements and convenient use, and randomly combines, regulates and controls according to the cabin application strategy, classifies and flexibly applies according to the programs, functions and modes; the positive and negative pressure intelligent fresh-keeping warehouse updates the prior method that the traditional cold storage warehouse only depends on the control of temperature and low-temperature storage, so that an adjustable and controllable artificial microclimate is formed in the positive and negative pressure cabin, a precise fresh-keeping microenvironment is created, and various fresh foods stored in the positive and negative pressure cabin can be kept fresh, moist and original quality and flavor of branches to the maximum extent.

In a sixteenth embodiment, the intelligent positive and negative pressure sterilizer comprises a positive and negative pressure full-function sterilizer, a positive and negative pressure multifunctional sterilizer, a positive and negative pressure automatic humidifying sterilizer, a positive and negative pressure humidifying sterilizer and a positive and negative pressure sterilizer; the positive-negative pressure full-function sterilizing machine is characterized by comprising a cabinet body (7); an intelligent positive-negative pressure system, an air water making device (11), a power supply and a rechargeable battery (33) are arranged in the cabinet body (7); the intelligent positive and negative pressure system comprises an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure airflow carried object generation processor (6), a touch screen and mobile phone monitoring system (12) and a sensor (C); the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carry generation processor (6) comprises: an air sterilizing device (6.2) of an ultrasonic generator, an air improving device (6.3) of an anion generator, an air conditioning device (6.5) of a humidifying and humidity controlling device and a filtering and sterilizing device (6.11) of an instant sterilizer; the touch screen and mobile phone monitoring system (12) comprises a touch screen (12.1), a mobile phone monitoring system (12.2) and a position positioning system (12.5); the sensors comprise a superoxide sensor (C3), a negative ion sensor (C4), a humidity sensor (C6), a disinfection degradation sensor (C9) and a water level sensor (13); an inflation pipeline (A3) is installed at the air outlet (d) of the inflator pump (3), and the inflation pipeline (A3) is respectively connected with inflation branch pipelines (A3.1), (A3.2), (A3.3), (A3.4) and (A3.5); the middle part of the inflation branch pipeline (A3.1) is provided with an electromagnetic valve (B3.1), and the other end of the inflation branch pipeline is connected with an inflation air outlet on the machine body (7); the middle part of the inflation branch pipeline (A3.2) is provided with an electromagnetic valve (B3.2) and an anion generator air improving device (6.3), and the other end of the inflation branch pipeline is connected with an anion air outlet on the machine body (7); the middle part of the inflation branch pipeline (A3.3) is provided with an electromagnetic valve (B3.3) and an oxygen generator air disinfection device (6.2), and the other end is connected with an oxygen-enriched air outlet on the machine body (7); the middle part of the inflation branch pipeline (A3.4) is provided with an electromagnetic valve (B3.4) and an air conditioning device (6.5) of a humidification and humidity control device, and the other end of the inflation branch pipeline is connected with a humidification air outlet on the machine body (7); the middle part of the inflation branch pipeline (A3.5) is provided with an electromagnetic valve (B3.5) and an air water making device (11), and the other end of the inflation branch pipeline is connected with a water making exhaust port on the machine body (7); an air inlet pipeline (A4) is installed at an air inlet (e) of the inflator pump (3), an electromagnetic valve (B4) is installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is connected with a direct air inlet on the engine body (7); the electromagnetic valve (B4) is also connected with a filtering air inlet pipeline (A4.1), the middle part of the filtering air inlet pipeline (A4.1) is provided with an air filter (6.8) and an electromagnetic valve (B4.1), and the other end of the filtering air inlet pipeline is connected with a filtering air inlet on the machine body (7); the electromagnetic valve (B4.1) is also connected with a circulating air return pipeline (A5), and the other end of the circulating air return pipeline (A5) is connected with a circulating air return port on the machine body (7); an air water making pipeline (A10) is installed at a water outlet (x) of the air water making device (11), and the air water making pipeline (A10) is communicated with a water inlet y of the filtering water tank (11.1); a water filtering pipeline (A12) is installed at a water outlet (v) of the water filtering tank (11.1), and the water filtering pipeline (A12) is communicated with a water inlet of the humidification and humidity control device air conditioning device (6.5); a water passing pipeline (A11) is installed at a standby water filling port (u) of the filter water tank (11.1), an electromagnetic valve (B11) is installed in the middle of the water passing pipeline (A11), and the other end of the water passing pipeline is connected with the standby water filling port on the machine body (7); an air suction pipeline (A1) is installed at the air inlet (a) of the air suction pump (5), an instantaneous sterilizer filtering and disinfecting device (6.11) is installed in the middle of the air suction pipeline (A1), and the other end of the air suction pipeline is connected with an air suction return port on the machine body (7); an exhaust pipeline (A2) is installed at the air outlet (B) of the air pump (2), an electromagnetic valve (B2) is installed in the middle of the exhaust pipeline (A2), and the other end of the exhaust pipeline is communicated with the atmosphere; the electromagnetic valve (B2) is also communicated with the electromagnetic valve (A3.5) through a pipeline (A2.1), then communicated with the air water making pipeline (A3.5), and then communicated with the air inlet (h) of the air water making device (11), and communicated with the water making exhaust port through the air outlet (n) of the air water making device (11); the structure of the positive-negative pressure multifunctional sterilizing machine is the same as that of a positive-negative pressure full-function sterilizing machine, but the positive-negative pressure multifunctional sterilizing machine does not comprise an air improving device (6.3) of an anion generator; the positive and negative pressure automatic humidifying sterilizer has the same structure as the positive and negative pressure full-function sterilizer, but does not comprise an instantaneous sterilizer filtering and sterilizing device (6.11); the positive and negative pressure humidifying and sterilizing machine has the same structure as the positive and negative pressure humidifying and sterilizing machine, but does not comprise an air water making device (11); the structure of the positive and negative pressure sterilizer is the same as that of the positive and negative pressure humidifying sterilizer, but the air conditioning device (6.5) of the humidifying and humidity controlling device is not included; the fluid carried object generation processor (6), the sensor (C), the electromagnetic valve (B), the air pump (2), the inflator pump (3), the air water making device (11), the touch screen and the mobile phone monitoring and identifying system (12) in the machine types are all connected to the positive and negative pressure intelligent regulation and control device (5).

Seventhly, in the operation method of the intelligent positive and negative pressure sterilizer, an intelligent positive and negative pressure system is used in the intelligent positive and negative pressure sterilizer; the intelligent positive and negative pressure system regulates and integrates various technologies of a superoxide and air disinfection method, a negative ion and air regulation method, a humidification humidity control and humidity regulation method, instantaneous disinfection and filtration disinfection, a plurality of technologies are combined or singly applied to the positive and negative pressure disinfection machine, air flow is intelligently regulated and controlled by an air pump or an inflator pump, and the air flow carries various effective loads of superoxide or air disinfectants, moisture and negative ions, virus and bacteria in the human environment are killed by the following method, the air and the surface of an object are disinfected, and the air humidity regulation and the air component regulation can be effectively carried out: according to the research of Japan Tengtian medical university, the super oxygen with low concentration of about 0.05-0.10 ppm which can be accepted by human bodies is used for removing various viruses including the new crown virus in human environment, and the primary standard of the concentration limit value of ozone specified in the national environmental air quality standard (GB3095-1996) is 0.12mg/m3, so that the positive and negative pressure sterilizer is harmless to human bodies when used for sterilizing the environment to remove the virus bacteria including the new crown virus; (II) on the basis of the positive and negative pressure humidifying and disinfecting machine, a humidifying and humidity-controlling device air conditioning device is added, when the super-oxygen is used for inactivating the new corona virus, the air humidity is improved, the inactivation efficiency can be enhanced, according to the research of Japan Tengtianfield medical university, when the humidity is 80%, the super-oxygen of about 0.10ppm is used for environmental disinfection, and the virus infectivity after 10 hours is reduced to 5.7%; the positive and negative pressure automatic humidification and sterilization machine is additionally provided with an air water making device on the basis of the positive and negative pressure humidification and sterilization machine, so that an uninterrupted self-made water source is provided for the sterilization machine, and the defect that water is frequently added to a humidifier manually is overcome; the positive and negative pressure multifunctional sterilizer is additionally provided with an instantaneous sterilizer or a filtering sterilizer on the basis of the positive and negative pressure automatic humidifying sterilizer, provides an instantaneous sterilizing function except for superoxide sterilization for the sterilizer and makes up the defect that superoxide cannot be instantaneously sterilized; and (V) on the basis of the positive and negative pressure multifunctional sterilizer, an anion generator air improvement device is additionally arranged, and an air improvement function is additionally arranged for the sterilizer.

Eighteen, the intelligent positive and negative pressure module cabinet comprises a cabinet body (7); an intelligent positive and negative pressure system and a refrigerating and heating system (8.3) are arranged in the cabinet body (7); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure airflow carried object generation processor (6) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system can adopt a non-standard structure except the above standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises: the device comprises an air pump (2) or an air pump (3), at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a touch screen and a mobile phone monitoring and recognition system (12); the positive and negative pressure cabin (1) is designed into a modular positive and negative pressure cabin (1T) according to the specific requirements of the intelligent positive and negative pressure module cabinet; the modular positive and negative pressure cabin (1T) is a vacuum high pressure cabin (1-1) structure, the positive and negative pressure resistance standards of the vacuum high pressure cabin (1-1) structure all adopt local instant atmospheric pressure as a zero standard, the positive pressure resistance is 0.01KPa higher than the zero standard and is higher than the zero standard, the negative pressure resistance is 0.01KPa lower than the zero standard and is lower than the zero standard, and the positive and negative pressure resistance intensity is improved according to specific requirements and module cabinet configuration; the modular positive and negative ballast (1T) comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), a mechanical airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); the cabin door (1.2) is a cabinet door of the positive and negative pressure module cabinet; an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1) of the modular positive and negative ballast (1T); the cabin internal and external sealing communicating vessel (1.4) is fixedly arranged at the rear part of the modular positive and negative pressure cabin (1T), and all pipelines and circuits which enter and exit the cabin are connected to the cabin internal and external sealing communicating vessel (1.4) and pass through the same to keep the sealing performance of the modular positive and negative pressure cabin (1T); the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carry generation processor (6) comprises: the device comprises an air conditioning device (6.1), an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), a carried object decomposition processor (6.7), an air filter (6.8), a disinfection and sterilization degradation device (6.9), a carried object generator item-adding upgrading module (6.16), an airflow carried object generator integration (6.02) or (6.021) or an integrated pipeline type fluid carried object generator (6.05); the air conditioning device (6.1) is a membrane air separation air conditioning device; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; an airflow ballast generator integrated (6.02) or (6.021) or an integrated pipeline type fluid ballast generator (6.05); the airflow load generator assemblies (6.02) or (6.021) or integrated pipe-line fluid load generators (6.05) each comprise one or more of the monolithic fluid load generators (6.1) to (6.16) as required; an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), an airflow carried object generator assembly (6.02), a carried object decomposition processor (6.7), an air filter (6.8), a refrigeration and heating system (8.3), an air water making device (11) and a touch screen and mobile phone monitoring and identification system (12) are arranged outside the modular positive and negative pressure cabin (1T); an air suction pipeline (A1) is installed at an air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), and the other end of the air suction pipeline extends into the modular positive and negative pressure cabin (1T) to form an air suction return port (c) of the modular positive and negative pressure cabin; the electromagnetic valve (B1) is also respectively connected with a carried waste gas pumping and exhausting pipeline (A8) and a carried waste gas pumping and exhausting pipeline (A8.1), and the other end of the carried waste gas pumping and exhausting pipeline (A8) is connected with a carried waste gas pumping and exhausting port (s1) of an air conditioning device (6.1) integrated in the positive and negative pressure airflow carried object generator assembly (6.02); the other end of the carried waste gas pumping and exhausting pipeline (A8.1) is connected with a carried waste gas pumping and exhausting port (s2) of an air conditioning device (6.1) integrated in a positive and negative pressure airflow carried object generator assembly (6.021); an air exhaust pipeline (A2) is installed at an air outlet (B) of the air suction pump (2), a carried substance decomposition processor (6.7) and an electromagnetic valve (B2) are installed in the middle of the air exhaust pipeline (A2), the other end of the air exhaust pipeline is communicated with an air inlet (h) of the air water making device (11), and air is introduced from an air outlet (n) of the air water making device (11); an air inflation pipeline (A3) is arranged at an air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is arranged in the middle of the air inflation pipeline (A3), and the other end of the air inflation pipeline extends into the modular positive and negative pressure cabin (1T) to form an air inflation inlet (f); an air inlet pipeline (A4) is installed at an air inlet (e) of the inflator pump (3), an electromagnetic valve (B4) and an air filter (6.8) are installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is communicated with the atmosphere; the electromagnetic valve (B4) is also connected with a circulating pipeline (A5), the other end of the circulating pipeline (A5) is communicated with the electromagnetic valve (B3), and then the circulating pipeline (A3) extends into the modular positive and negative pressure cabin (1T) to form a circulating return air port (j) of the modular positive and negative pressure cabin; the air charging pipeline (A3) is further connected with carrying air pipes (A6), (A6.1) and (A6.2), the middle part of the carrying air pipe (A6) is provided with an electromagnetic valve (B6), the other end of the carrying air pipe is connected to an air inlet (T) of an airflow carrying object generator assembly (6.02), the air outlet(s) of the airflow carrying object generator assembly (6.02) is provided with the carrying air pipe (A7), the middle part of the carrying air pipe (A7) is provided with an electromagnetic valve (B7), the other end of the carrying air pipe extends into a positive and negative pressure cabin (1T) to form a carrying air inlet (i), the middle parts of the air pipes (A6.1) and (A6.2) are respectively provided with electromagnetic valves (B6.1) and (B6.2), and the other end of the carrying air pipe type fluid carrying object generator assembly (6.021) and the air inlet (6.05) of the integrated pipe type fluid carrying object generator are respectively connected into the positive and negative pressure cabin (1T); the aeration pipeline (A3) is also connected with an air-to-water aeration pipeline (A9), the air-to-water aeration pipeline (A9) is connected with an electromagnetic valve (B2) and then connected with an exhaust pipeline (A2), the middle part of the exhaust pipeline (A2) is communicated with an air-to-water device (11), and the other end of the exhaust pipeline is communicated with the atmosphere; the touch screen and mobile phone monitoring and identifying system (12) comprises a box door touch screen (12.1), a mobile phone APP (12.2), a high-definition anti-fog camera shooting and identifying device (12.3) and a radar scanning and identifying device (12.5); the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the box body (7); the modular positive and negative ballast (1T) is internally provided with an airflow carried object generator assembly (6.021) or an integrated pipeline type fluid carried object generator (6.05) and a sensor (C); the sensor (C) comprises a sensor ensemble (CA) comprising one or more of the following monolithic sensors (C1) to (C12) as required: the device comprises a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3), a negative ion sensor (C4), a catalyst sensor (C5), a humidity sensor (C6), an oxygen sensor (C7), a nitrogen sensor (C8), a disinfection degradation sensor (C9), an air particulate matter sensor (C10), a temperature sensor (C11) and a carried matter sensor item-adding upgrading module (C12); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; all fluid carried objects generate a processor (6), a sensor (C), an electromagnetic valve (B), an air pump (2), an inflator pump (3), a refrigerating system (8), an air water making device (11), a touch screen and a mobile phone monitoring and identifying system (12) which are connected into a positive and negative pressure intelligent regulation and control device (5) through a line (D) or a cluster line (E). The operation method of the intelligent positive and negative pressure module cabinet is characterized in that the intelligent positive and negative pressure module cabinet is provided with an intelligent positive and negative pressure system, so that the intelligent positive and negative pressure module cabinet has a vacuum, high-pressure, constant-temperature, constant-humidity, constant-pressure, sterile and dust-free environment, and is used for storing, placing and installing various articles and equipment, such as paintings and calligraphy, files, antiques, cultural relics, high-grade clothes, household appliances, tableware and kitchenware, and the operation method comprises the following steps: (I) vacuum pest-removing cleaning procedure: after articles are put into the modular positive and negative pressure cabin (1T), the cabin door (1.2) is closed, and the positive and negative pressure intelligent control device (5) sends out an instruction: opening electromagnetic valves (B1) and (B2) to (A1) and (A2) an air suction pipeline, discharging part of the bacterial microorganisms and the dirty air in the cabin into the atmosphere by opening a vacuum high-pressure cabin air suction return air inlet (c) → (A1) → (B1) → (A1) → air suction pump air inlet (a) → air outlet (B) → (A2) → superoxide decomposer air inlet (g) → air outlet (m) → (A2) → (B2) → (A2) → air water making device air inlet (h) → air outlet (n) → and opening an air suction pump (2) to suck the air in the modular vacuum high-pressure cabin (1T) to vacuum or negative pressure of 0.001KPa to 0.1MPa (with local instant atmospheric pressure as zero standard), and cleaning the air and the space in the cabin; (II) carrying object disinfection and sterilization program: the positive and negative pressure intelligent regulation and control device (5) sends an instruction to start the corresponding carried object generation processor (6), and the carried object generation processor is selected according to different disinfection requirements to disinfect and sterilize the environment and the objects in the cabin; and (III) specific condition sterile nondestructive storage procedure: the module cabinets with different types and different configurations provide specific storage environments with vacuum, high pressure, constant temperature, constant humidity, constant pressure, sterility and no dust, and meet different storage requirements, such as the small articles of tableware, kitchenware and household appliances can be stored in vacuum after being sterilized by superoxide, the high-grade clothes of calligraphy and painting documents and antiques can be stored in vacuum, low oxygen and no dust, or stored by specific modified atmosphere gas, or stored at constant temperature, constant humidity and constant pressure; (IV) multipurpose exhibition refrigeration of the drinks and bars: packaging various food articles such as food, beverage and wine, dried fruits, candies, cakes and the like, and performing demonstrated cold storage by adopting a transparent cabinet door; and (V) remote and near control monitoring and identification functions: the touch screen and mobile phone monitoring and identifying system (12) can be used for controlling, monitoring and identifying the real-time state of the positive and negative pressure module cabinet in real time through the WIFI and the mobile phone APP in a long-and-short distance mode, so that the module cabinet can realize functions of high efficiency and low consumption intelligently according to a set program and an instant instruction; the high-definition anti-fog camera shooting and identifying device (12.3) shoots the conditions of articles in the refrigerator in real time and carries out dynamic identification, data are uploaded, a cabinet door touch screen (12.1) or a mobile phone APP (12.2) can display and remind production time, price, quality guarantee period, commodity information of manufacturers and information of shopping malls and online stores, the refrigerator is automatically recorded, analyzed and sorted, the time for storing and taking out the articles in the refrigerator is frequent, favorite big data are intelligently analyzed, and then the refrigerator is timely reminded on the mobile phone APP (12.2); the high-definition anti-fog camera shooting and recognizing device (12.3) is used for monitoring and recording in real time, and particularly, in the closing process of a cabinet door, starting from a position far away from the cabinet body, automatically and continuously shooting a plurality of panoramic photos of objects in the cabinet along with the closing movement of the cabinet door (1.2), or automatically recording small videos at the same time, so that a user can check the panoramic photos or videos of the objects in the cabinet with good light and large visual field in the last closing process and closing process in a touch screen of the cabinet door at any time without opening the cabinet door and reducing the temperature without leaking vacuum in a short range, and dynamically recognizing and uploading data; (VI) combining the positive and negative pressure modules into an intelligent home mode: the intelligent positive and negative pressure module cabinet is manufactured according to module function design, is independently produced and used, is organically combined with other positive and negative voltage electric devices and the module cabinet under the control of a touch screen and a mobile phone APP monitoring and identification system (12) to form an intelligent positive and negative pressure module combined home with complete functions, not only is the module cabinet high-energy efficient and low-consumption suitable for use, but also can share the intelligent positive and negative pressure system, a refrigerating system and an air water making device which share other positive and negative voltage electric devices and the module cabinet, and the appearance shape and the color are basically uniform and are neatly matched to accord with the popular trend.

Claims (18)

1. An intelligent positive and negative pressure system is characterized by comprising a positive and negative pressure cabin (1), an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a water pump (16), a water inlet pump (17) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a water pump (16), a water inlet pump (17), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabins (1) are classified into a vacuum high pressure cabin (1-1), an atmospheric pressure circulation cabin (1-2) and an atmospheric pressure inlet and outlet cabin (1-3) according to the structure and pressure of the positive and negative pressure cabins; the positive and negative pressure cabin (1) is classified into a cabinet type positive and negative pressure cabin (1A), a positive and negative pressure refrigerating and fresh-keeping cabin (1B), a positive and negative pressure refrigerating and fresh-keeping cabin (1C), a common refrigerator cold room type positive and negative pressure fresh-keeping cabin (1D), a common refrigerator cold room type positive and negative pressure fresh-keeping cabin (1E), a washing machine type positive and negative pressure cabin (1F), a dishwasher type positive and negative pressure cabin (1G), a range hood type positive and negative pressure cabin (1H) and a microwave oven type positive and negative pressure cabin (1K) according to the shape and the characteristics, a carriage container type positive and negative pressure cabin (1M), a storage type positive and negative pressure cabin (1N), a modular positive and negative pressure cabin (1T), an open type positive and negative pressure cabin (1L), a ball type semi-ball type positive and negative pressure cabin (1Q), a cylinder type positive and negative pressure cabin (1U), a drawer type positive and negative pressure cabin (1Z), a non-airtight type positive and negative pressure cabin (1X) and a special-shaped positive and negative pressure cabin (1R); the internal structure of the positive and negative pressure cabin (1) comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin external sealed communicating device (1.4); an airtight mechanism (1.3) is arranged between the cabin body (1.1) and the cabin door (1.2); the cabin internal and external sealed communicating vessel (1.4) is arranged at the back or the side of the positive and negative pressure cabin (1), and pipelines and circuits for entering and exiting the positive and negative pressure cabin are connected to and enter and exit through the cabin internal and external sealed communicating vessel (1.4); the positive and negative pressure refrigerating and fresh-keeping cabin (1B) and the positive and negative pressure refrigerating and fresh-keeping cabin (1C) are provided with corresponding positive and negative pressure resisting structures, an air sealing mechanism (1.3) and an in-cabin external sealing communicating device (1.4) are arranged and installed, the vacuum high-pressure cabin (1-1) with air tightness belongs to the structure of the vacuum high-pressure cabin (1-1), the positive and negative pressure resisting standards of the vacuum high-pressure cabin (1-1) all adopt local instant atmospheric pressure as a zero standard, the positive pressure resisting standard is 0.01KPa higher than the zero standard and is up to a higher level, the negative pressure resisting standard is 0.01KPa lower than the zero standard and is up to a lower level, and the positive and negative pressure resisting strength is improved according to specific requirements and the configuration of the positive and negative pressure cabin; the refrigerating chamber type positive and negative pressure cabin (1C) and the freezing chamber type positive and negative pressure cabin (1D) of the common refrigerator are respectively provided with a positive and negative pressure system inside and outside the refrigerating chamber and the freezing chamber of the common refrigerator, but are not provided with an airtight mechanism (1.3) and an in-cabin external sealing communicating device (1.4), have no vacuum-resistant high-pressure structure and belong to a common sealed normal-pressure circulating cabin (1-2) or normal-pressure in-and-out cabin (1-3) structure; the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carried object generation processor (6) comprises an air conditioning device (6.1), an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), an ultrasonic generation water mixer (6.6), a disinfection and sterilization degradation device (6.9), a filtering and refreshing device (6.10), a stain and oil removing and cleaning device (6.11), a refrigerating and heating temperature control device (6.13), a carried object generator item-adding upgrading module (6.16), an airflow carried object generator (6.01), an airflow carried object generator assembly (6.02), a water flow carried object generator (6.03), a water flow carried object generator assembly (6.04) and an integrated pipeline type positive and negative pressure fluid carried object generator (6.05); the air conditioning device (6.1) is a membrane air separation air conditioning device; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the airflow load generator assembly (6.02), the water flow load generator assembly (6.04) and the integrated pipeline positive and negative pressure fluid load generator (6.05) each comprise any one or more of the unitary fluid load generators (6.1) to (6.16) as required; the integrated pipeline type positive and negative pressure fluid carried object generator (6.05) is a miniaturized, intelligent and integrated fluid carried object generator and sensor, and a connecting pipeline and a circuit thereof; the positive and negative pressure system comprises a positive and negative pressure airflow system and a positive and negative pressure water flow system according to fluid classification; the standard structure of the positive and negative pressure airflow system comprises a positive and negative pressure cabin (1), an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a touch screen and mobile phone monitoring and recognition system (12) and single fluid carried object generators (6.1) to (6.16) or a positive and negative pressure airflow carried object generator integration (6.02) or an integrated pipeline type positive and negative pressure fluid carried object generator (6.05); the intelligent positive and negative pressure air flow system also adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure air flow system comprises at least one or more of an air pump (2) or an air pump (3), a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), single fluid carried object generators (6.1-6.16), a positive and negative pressure air flow carried object generator assembly (6.02), an integrated pipeline type positive and negative pressure fluid carried object generator (6.05), a touch screen and a mobile phone monitoring and recognition system (12); an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), a touch screen and mobile phone monitoring and recognition system (12) and a positive and negative pressure airflow carried object generator assembly (6.02) are arranged outside the positive and negative pressure cabin; an air suction pipeline (A1) is installed at an air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), the other end of the air suction pipeline extends into the positive and negative pressure cabin 1 to form an air suction return port (c), an exhaust pipeline (A2) is installed at an air outlet (B) of the air suction pump (2), an electromagnetic valve (B2) is installed in the middle of the exhaust pipeline (A2), and an exhaust port is arranged at the other end of the exhaust pipeline; the electromagnetic valve (B1) is also connected with a carrying circulating pipeline (A5.1), the carrying circulating pipeline (A5.1) extends into the positive and negative pressure cabin (1) through the electromagnetic valve B1 and an air exhaust pipeline (A1) to form a carrying air inlet (j1), and the other end of the carrying circulating pipeline (A5.1) is connected with a carrying circulating air inlet (B2) of the air exhaust pump (2); the electromagnetic valve (B1) is also connected with a carried waste gas pumping and exhausting pipeline (A8), and the other end of the carried waste gas pumping and exhausting pipeline (A8) is connected with a carried waste gas pumping and exhausting port (s2) of an air conditioning device (6.1) integrated in a positive and negative pressure airflow carried product generator assembly (6.02); an air inflation pipeline (A3) is installed at an air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is installed in the middle of the air inflation pipeline (A3), the other end of the air inflation pipeline extends into the positive and negative pressure cabin (1) to form an air inflation inlet (f), an air inlet pipeline (A4) is installed at an air inlet (e) of the air inflation pump (3), an electromagnetic valve (B4) is installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is communicated with the atmosphere; the electromagnetic valve (B3) is also connected with a carrying circulating pipeline (A5), and the carrying circulating pipeline (A5) extends into the positive and negative pressure cabin 1 through the electromagnetic valve (B3) and an inflation pipeline (A3) to form a carrying return air port (j) thereof; the other end of the carrying circulation pipeline (A5) is connected with a carrying circulation air inlet (e2) of the inflator pump (3); a carrying air duct (A6) is installed at an air inlet (t) of the positive and negative pressure airflow carrying object generator assembly (6.02), an electromagnetic valve (B6) is installed at the other end of the carrying air duct (A6), a carrying air duct (A7) is installed at an air outlet(s) of the positive and negative pressure airflow carrying object generator assembly (6.02), an electromagnetic valve (B7) is installed in the middle of the carrying air duct (A7), and the other end of the carrying air duct extends into the positive and negative pressure cabin (1) to form a carrying inflation inlet (i); the electromagnetic valve (B6) is respectively connected with a carrying air extraction pipeline (A6.1) and a carrying air inlet pipeline (A6.2), the carrying air extraction pipeline (A6.1) is connected to the air extraction pipeline (A1) and then communicated with an air extraction opening (a) of the air extraction pump (2), and the carrying air inlet pipeline (A6.2) is connected to the air inflation pipeline (A3) and then communicated with an air outlet (d) of the air inflation pump (3); the middle part of the carrying air inlet pipeline (A6.2) is provided with an electromagnetic valve (B6.2), and the other end of the carrying air inlet pipeline extends into the positive and negative pressure cabin (1) to be connected to an integrated pipeline type positive and negative pressure fluid carrying object generator (6.05); when the carrying airflow entering the positive and negative pressure cabins (1) needs inflation circulation, the inflation inlet (f) is used as a carrying air return port (j) of the positive and negative pressure cabins (1), when the carrying airflow entering the positive and negative pressure cabins (1) needs air exhaust circulation, the air exhaust return port (c) is used as a carrying air inlet (j1) of the positive and negative pressure cabins (1), and the carrying inflation inlet (i) is used as a carrying air exhaust port (i1) of the positive and negative pressure cabins (1); the standard structure of the positive and negative pressure water flow system comprises a positive and negative pressure cabin (1), a water suction pump (16), a water inlet pump (17), a positive and negative pressure intelligent regulation and control device (5), a touch screen and mobile phone monitoring and identification system (12), a water flow carrying object generator (6.03) or a water flow carrying object generator assembly (6.04); the intelligent positive and negative pressure water flow system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure water flow system comprises a water suction pump (16) or a water inlet pump (17), and at least one or more of a positive and negative pressure cabin (1), the water suction pump (16), the water inlet pump (17), a positive and negative pressure intelligent regulation and control device (5), single fluid carried object generators (6.1-6.16), a water flow carried object generator assembly (6.04) and a touch screen and mobile phone monitoring and identification system (12); a water suction pump (16), a water inlet pump (17), a positive and negative pressure intelligent regulation and control device (5), a touch screen and mobile phone monitoring and recognition system (12) and a water flow carried object generator assembly (6.04) are arranged outside the positive and negative pressure cabin; a water pumping pipeline (A20) is installed at a water pumping port (w) of the water pumping pump (16), an electromagnetic valve (B20) is installed in the middle of the water pumping pipeline (A20), the other end of the water pumping pipeline extends into the positive and negative pressure cabin (1) to form a water pumping water outlet (L) of the positive and negative pressure cabin, a water discharging port (p) of the water pumping pump (16) is provided with a water discharging pipeline (A21), an electromagnetic valve (B21) is installed in the middle of the water discharging pipeline (A21), and the other end of the water discharging port is a water discharging port; the electromagnetic valve (B20) is also connected with a carrying circulating pipeline (A19.1), the carrying circulating pipeline (A19.1) extends into the positive and negative pressure cabin (1) through the electromagnetic valve (B20) and a water pumping pipeline (A20) to form a carrying water inlet (L1), and the other end of the carrying circulating pipeline (A19.1) is connected with a carrying circulating water outlet (p2) of the water pumping pump (16); a water inlet pipeline (A15) is installed at a water outlet (u) of the water inlet pump (17), an electromagnetic valve (B15) is installed in the middle of the water inlet pipeline (A15), the other end of the water inlet pipeline extends into the positive and negative pressure cabin (1) to form a water source water inlet (T), a water inlet pipeline (A14) is installed at a water inlet (r) of the water inlet pump (17), an electromagnetic valve (B14) is installed in the middle of the water inlet pipeline (A14), and a water source is communicated with the other end of the water inlet pipeline; the electromagnetic valve (B15) is also connected with a carrying circulating pipeline (A19), the carrying circulating pipeline (A19) extends into the positive and negative pressure cabin (1) through the electromagnetic valve (B15) and a water inlet pipeline (A15) to form a carrying water return port (L2), and the other end of the carrying circulating pipeline (A19) is connected with a carrying circulating water inlet (r2) of the water inlet pump (17); a carrying water pipeline (A16) is installed at a water inlet v of the positive and negative pressure water flow carrying object generator assembly (6.03), an electromagnetic valve (B16) is installed at the other end of the carrying water pipeline (A16), a carrying water pipeline (A17) is installed at a water outlet (o) of the positive and negative pressure water flow carrying object generator assembly (6.03), an electromagnetic valve (B17) is installed in the middle of the carrying water pipeline (A17), and the other end of the carrying water pipeline extends into the positive and negative pressure cabin (1) to form a carrying water inlet (T1) of the positive and negative pressure water flow carrying object generator assembly; the electromagnetic valve (B16) is respectively connected with a carrying water pumping pipeline (A16.1) and a carrying water inlet pipeline (A16.2), the carrying water pumping pipeline (A16.1) is connected to a water pumping pipeline (A20) and then communicated with a water pumping port (w) of a water pumping pump (16), the carrying water inlet pipeline (A16.2) is connected to a water inlet pipeline (A15) and then communicated with a water outlet (u) of a water inlet pump (17), when carrying water flow entering the positive and negative ballast (1) needs water inlet circulation, a water source water inlet (T) is used as a carrying water return port (L2) of the positive and negative ballast (1), and when carrying water flow entering the positive and negative ballast (1) needs water pumping circulation, a water pumping water outlet (L) is used as a carrying water inlet (L1) of the positive and negative ballast (1); the touch screen and mobile phone monitoring and identifying system (12) comprises a box door touch screen (12.1), a mobile phone APP (12.2), a high-definition anti-fog camera shooting and identifying device (12.3) and a radar scanning and identifying device (12.5); the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the positive and negative pressure cabins; the inside of positive negative pressure cabin (1) is also installed positive negative pressure fluid and is carried thing generator (6), includes: an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying, dehumidifying and humidity controlling device (6.5), a sterilizing and degrading device (6.9), a filtering and refreshing device (6.10), a refrigerating, heating and temperature controlling device (6.13), a carried object generator item-adding upgrading module (6.16) or an integrated pipeline type positive and negative pressure fluid carried object generator (6.05); the inside of the positive and negative ballast (1) is also provided with a sensor (C) which comprises a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3), a negative ion sensor (C4), a chlorine dioxide sensor (C5), a humidity sensor (C6), an oxygen sensor (C7), a nitrogen sensor (C8), a disinfection degradation sensor (C9), an air particulate matter sensor (C10), a temperature sensor (C11), a carried substance sensor item-adding upgrading module (C12) and a sensor integration (CA); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; the sensor integration (CA) comprises at least one or more of monolithic sensors (C1) to (C12); all fluid carried objects generate the processor (6), the sensor (C), the electromagnetic valve (B), the air pump (2), the inflator pump (3), the water pump (16), the water inlet pump (17), the touch screen and the mobile phone monitoring and identifying system (12) are connected into the positive and negative pressure intelligent regulating and controlling device (5) through a line (D) or a cluster line (E).

2. The operation method of the intelligent positive and negative pressure system is characterized in that the intelligent positive and negative pressure system is established according to a positive and negative pressure technology, and positive and negative pressure technology is used for regulating and controlling fluid and carried objects thereof to influence objects in a specific space; the method principle and the basic operation method of the intelligent positive and negative pressure system are as follows: regulating fluid (such as air and water) intelligently by positive and negative pressure, or carrying various payloads such as superoxide, catalyst, negative ions, modified atmosphere gas, disinfectant, detergent, heat and water, orderly entering or staying in a specific space (such as positive and negative ballast) and exerting required influence on objects in the space; the specific operation method of the intelligent positive and negative pressure system is characterized in that the positive and negative pressure intelligent control device (5) calculates and processes real-time feedback information of the touch screen and the mobile phone monitoring and recognition system (12) and the sensors (C1) - (C12) according to a built-in program, prestored data and cloud data, and the touch screen and the mobile phone monitoring and recognition system (12), and the real-time feedback information of the sensors (C1) - (C12), and forms a target influence method or a target treatment mode with characteristics aiming at various affected objects, and the positive and negative pressure intelligent control device (5) sends specific instructions to the air pump (2), the air pump (3), the water pump (16), the water inlet pump (17), the related positive and negative pressure fluid carried object generator (6) and the related electromagnetic valve (C) in real time, accurately controls and timely adjusts the opening, closing and switching of the air pumping and circulating pipelines or the water pumping and water inlet and circulating pipelines, and intelligently controls the high and low pressure of the air flow and the carried objects or water flow and the carried objects thereof in the positive and negative pressure cabin (1), and the inflow of the intelligent positive and negative pressure regulation, The specific operation method comprises the following steps: the operation method (I) for regulating the inside of the positive and negative pressure cabin (1) to be negative pressure vacuum comprises the following steps: the positive and negative pressure intelligent control device (5) sends out a command to enable the electromagnetic valves (B1), (B2) to be opened (A1) and (A2) to exhaust air pipes, and the positive and negative pressure cabin air exhaust return air ports (c) → the air exhaust pipeline (A1) → the electromagnetic valves (B1) → (A1) → the air exhaust pump air inlets (a) → the air exhaust pump air outlets (B) → (A2) → (B2) → (A2) → the air is exhausted into the atmosphere (when any one of the pipelines is opened, all other irrelevant electromagnetic valves are closed, and the air exhaust pump (2) is started at the same time, so that the negative pressure vacuum is set in the positive and negative pressure cabin (1); the operation method (II) for regulating the inside of the positive and negative pressure cabin (1) to be positive air pressure and high pressure comprises the following steps: the positive and negative pressure intelligent control device (5) sends out a command, so that the electromagnetic valves (B3) and (B4) open (A3) and (A4) inflation pipelines, air enters from the atmosphere → (A4) → (B4) → (A4) → the inflator air inlet (e) → the inflator air outlet (d) → (A3) → (B3) → (A3) → the positive and negative ballast inflation air inlet (f), and simultaneously the inflator (3) is started, so that the positive and negative ballasts (1) are inflated to set positive pressure and high pressure; the specific operation methods (I) and (II) can only operate in a vacuum or high-pressure space, so the positive and negative pressure cabin (1) is classified into a vacuum high-pressure cabin (1-1), and the positive and negative pressure refrigerating and fresh-keeping cabin (1B), the positive and negative pressure refrigerating and fresh-keeping cabin (1C), the washing machine type positive and negative pressure cabin (1F), the dishwasher type positive and negative pressure cabin (1G) and the microwave oven type positive and negative pressure cabin (1K) belong to the vacuum high-pressure cabin; the operation method (III) for regulating and controlling the air flow and the inflow, outflow, circulation and retention of the carried objects of the air flow to the positive and negative ballast (1) comprises the following steps: firstly, flowing out: when the pressure in the cabin is negative or normal, the air flow and the carried objects flow out of the positive and negative pressure cabins, the air is pumped out of the air pumping pipeline by using an air pump (2) according to the specific operation method (I), and the relevant electromagnetic valve is opened when the pressure in the cabin is high, so that the air flows out of the air pumping pipeline; and secondly, flowing into: the air current and the carried objects thereof flow into the positive and negative pressure cabins, and are charged from an inflation pipeline or a carrying pipeline by using an inflation pump (3), and the specific method comprises the following steps: A. air current flows in: when the pressure in the cabin is high or normal, the airflow flows into the positive and negative pressure cabins, the inflation pump (3) is used for inflating from the inflation pipeline according to the specific operation method (II), and when the pressure in the cabin is negative, the relevant electromagnetic valve is opened, and the airflow automatically flows into the negative pressure cabin from the inflation pipeline; B. the carried airflow generated by the airflow carried generator assembly (6.02) flows into: the positive and negative pressure intelligent control device (5) sends out a command, so that the electromagnetic valves (B6) and (B7) are opened (A3), (A6.2), (A6) and (A7) are carried on an inflation pipeline, and relative air flow attachment generator → (A7) (B7) → (A7) → positive and negative ballast air inlet (i) in the air flow attachment generator integration (6.02) is opened simultaneously from atmospheric air intake → (A4) → (B4) → (A4) → inflator air inlet (e) → inflator outlet (d) → (A3) → (A6.2) → (A6) → (B6) → (A6) → air flow attachment generator → (I), and the air pump (3) and the relative air flow attachment generator are opened, so that air pressure and the attachment in the positive and negative (1) flow into a set standard; C. the carrier gas flow generated by the integrated pipeline type fluid carrier generator (6.05) flows into: the positive and negative pressure intelligent control device (5) sends out a command, so that the electromagnetic valve (B6.2) is opened (A3) and (A6.2) carries on an inflation pipeline, air enters from the atmosphere → (A4) → (B4) → (A4) → the inflator air inlet (e) → the inflator air outlet (d) → (A3) → (A6.2) → (B6.2) → (A6.2) → the relevant air flow carrying thing generator in the integrated pipeline type fluid carrying thing generator (6.05) → in the positive and negative pressure cabin, and simultaneously the air pump (3) and the relevant air flow carrying thing generator in the integrated pipeline type fluid carrying thing generator (6.05) are started, so that the air pressure and the air flow carrying thing in the positive and negative pressure cabin (1) flow into a set standard; thirdly, staying: when the airflow and the carried objects thereof need to be resided in the positive-negative pressure cabin, the positive-negative pressure intelligent regulation and control device (5) sends out an instruction, the airflow pressure and the carried objects in the cabin reach the standard firstly, and then the corresponding electromagnetic valve is closed; fourthly, circulation: A. and (3) inflation circulation: when the air flow and the goods to be carried in the air flow need to circulate flow through the positive and negative pressure fluid goods generator so that the pressure, concentration and components of the air flow and the goods to be carried in the positive and negative pressure cabins reach the standard, the positive and negative pressure intelligent control device (5) sends a command to open (A3), (A5), (A6), (A6.2) and (A7) goods circulation pipelines, the (B4) and the corresponding electromagnetic valves are closed, the air pump (3) and the related air flow goods generator are simultaneously opened, the goods to be carried are made to circulate, when the air conditioning device (6.1) operates, the partial pressure difference between two sides of the membranes is moderately increased, the air separation efficiency can be improved, meanwhile, the oxygen-rich waste gas or goods waste gas also needs to be pumped, at the moment, the electromagnetic valves (B637) (B2) are opened (A8), (A1) and (A2) are arranged on the waste gas pumping pipelines, and an exhaust gas pumping port (s2) → electromagnetic valve (B1) (A1) is arranged on the air inlet (A → 25) of the air pumping port (A) and discharging port) (A8536B 8236) is arranged on the air conditioning device (6.1) When the positive and negative pressure cabin enters the atmosphere, the air pump (2) is started at the same time, the circulation operation is carried out until the corresponding sensors in the positive and negative pressure cabin feed back air-conditioned air or the concentration, the composition or the pressure of the carried gas reach the standard, and the positive and negative pressure intelligent control device (5) sends a stop instruction; B. air extraction circulation: the positive and negative pressure intelligent regulation and control device (5) sends an instruction, an air suction pipeline is opened (A1), (A5.1), (A6.1), (A6) and (A7), a B2 and a related electromagnetic valve are closed, the air suction pump 2 and a related airflow carried object generator are simultaneously opened, carried object gas circularly flows until the concentration, the components or the pressure of the controlled atmosphere gas fed back by a corresponding sensor in the positive and negative pressure cabin reach the standard, and the positive and negative pressure intelligent regulation and control device (5) sends a stop instruction; the operation method of the positive and negative pressure cabin (1) comprises the steps of flowing out, flowing into the step of staying, circulating and operating in a normal pressure space, so that the positive and negative pressure cabin (1) is classified into a normal pressure circulating cabin (1-2) and a normal pressure in-out cabin (1-3), the cold storage chamber type positive and negative pressure fresh-keeping chamber (1D) and the freezing chamber type positive and negative pressure fresh-keeping chamber (1E) of the common refrigerator belong to a normal pressure circulation chamber or a normal pressure inlet and outlet chamber, and are respectively provided with and use a positive and negative pressure system inside and outside the cold storage chamber and the freezing chamber of the common refrigerator, but no air-tight mechanism (1.3) and no outer sealed communicating device (1.4) in the compartment are added, so that the common refrigerator can use a positive-negative pressure system and an operation method thereof under normal pressure, firstly flows out, secondly flows into any one or more of a resident, thirdly a circulating program, thereby obviously enhancing the fresh-keeping capacity of the refrigerator and increasing the functions and the effects of the refrigerator in many aspects; the operation method (IV) for regulating and controlling the water flow and the carried objects thereof to flow into, reside or flow out of the positive and negative ballast (1) comprises the following steps: firstly, flowing out: the water flow and the carried objects flow out of the positive and negative pressure cabins and are pumped out from a water pumping pipeline by using a water pumping pump (16), and the concrete method comprises the following steps: the positive and negative pressure intelligent control device (5) sends out a command, so that the electromagnetic valves (B20) and (B21) open (A20) and (A21) water pumping pipelines, the positive and negative ballast water pumping ports (L) → the water pumping pipeline (A20) → the electromagnetic valves (B20) → (A20) → the water pump water inlet (w) the water pump water outlet (p) → (A21) → (B21) → (A21) → discharging water into the sewage, and meanwhile, the water pumping pump (16) is started to discharge the water in the positive and negative ballast (1) to a set standard; and secondly, flowing into: water flow and carried objects thereof flow into the positive and negative pressure cabins, and are fed from water feeding or carried water feeding pipelines by using a water feeding pump (17), and the specific method is A: the positive and negative pressure intelligent control device (5) sends out a command, so that the electromagnetic valves (B14) and (B15) open (A14) and (A15) water supply pipelines, water enters from a water source → (A14) → (B14) → (A14) → a water inlet pump (r) → a water outlet pump (u) → (A15) → (B15) → (A15) → positive and negative ballast water supply inlet (T), and simultaneously the water inlet pump (17) is started, so that water in the positive and negative ballast (1) is supplied to a set standard; B. carrying water inflow: the positive and negative pressure intelligent control device (5) sends out a command, the electromagnetic valves (B14), (B16) and (B17) are enabled to be (A14), (A15), (A16), (A16.2) and (A17) to carry water inlet pipelines, water is fed from a water source → (A14) → (B14) → (A14) → water inlet of a water inlet pump (r) → water outlet of the water inlet pump (u) → (A15) → (A16.2) → (B16) → (A16) → corresponding water flow carrying object generator → (A17) → (B17) → (A17) → positive and negative ballast water inlet (T1), the water inlet pump (17) and the corresponding water flow carrying object generator are simultaneously started, and the water flow carrying objects in the positive and negative ballast (1) flow into a set standard; thirdly, staying: when water flow and carried objects thereof need to reside in the positive and negative pressure cabin, the positive and negative pressure intelligent regulation and control device (5) sends an instruction, the water pressure of the water flow and the carried objects in the cabin reach the standard firstly, then the corresponding electromagnetic valve is closed until the residence time reaches the standard, and the positive and negative pressure intelligent regulation and control device (5) sends a stop instruction; fourthly, circulation: A. water inlet circulation: when the water flow and the carried objects thereof need to circulate through the positive and negative pressure fluid carried object generator so that the pressure, the concentration and the components of the water flow and the carried objects in the positive and negative pressure cabins reach the standard, the positive and negative pressure intelligent regulation and control device (5) sends an instruction, a water inlet circulation pipeline for carrying the water flow and the carried objects in the positive and negative pressure cabins is opened (A15), (A16), (A16.2), (A17) and (A19), a water inlet circulation pipeline for carrying the water flow is closed (B14) and relevant electromagnetic valves are closed, a water inlet pump (17) and the relevant water flow carried object generator are simultaneously opened, the carried object water flow circularly flows until corresponding sensors in the positive and negative pressure cabins feed back the carried water flow concentration, the components or the pressure reach the standard, and the positive and negative pressure intelligent regulation and control device (5) sends a stop instruction; B. water pumping circulation: the positive and negative pressure intelligent regulation and control device (5) sends an instruction, an air suction pipeline is opened (A20), (A16), (A16.1), (A17) and (A19.1), a B21 and a related electromagnetic valve are closed, an air suction pump (16) and a related water flow carrying object generator are simultaneously opened, the carrying object water flow circularly flows until the concentration, the components or the pressure of the water flow fed back by a corresponding sensor in the positive and negative pressure cabin reach the standard, and the positive and negative pressure intelligent regulation and control device (5) sends a stop instruction; the operation method for regulating the water flow and the carried objects thereof to flow into, reside or flow out of the positive and negative pressure cabin (1) comprises one or more of flowing out, flowing into and residing in circulation, and running in a vacuum high-pressure cabin, such as a washing machine type positive and negative pressure cabin (1F) and a dish washing machine type positive and negative pressure cabin (1G), and running in a normal pressure circulation cabin (1-2) and a normal pressure inlet and outlet cabin (1-3), such as a range hood type positive and negative pressure cabin (1H), an open type positive and negative pressure cabin (1L) and a non-airtight type positive and negative pressure cabin (1X); the intelligent positive and negative pressure system adopts the technical operation method, so that the intelligent positive and negative pressure system has the carrier function of large capacity and renewable and platform property of upgradable expansion and increment, can intelligently regulate, control and integrate various technologies of vacuum, high pressure, superoxide, catalyst, controlled atmosphere preservation, negative ions, humidification, dehumidification, humidity control and temperature control, disinfection and sterilization, air purification, air water production, low-temperature storage, clothes cleaning and drying and food processing, is applied to electrical equipment, transport carriage containers and storage warehouses in single or multiple combination, and is uniformly called as: an intelligent positive and negative piezoelectric device; the intelligent positive and negative pressure electric appliance comprises an intelligent positive and negative pressure fresh-keeping refrigerator, an intelligent positive and negative pressure washing machine, an intelligent positive and negative pressure dish washing and fruit and vegetable cleaning machine, an intelligent positive and negative pressure oil smoke machine, an intelligent positive and negative pressure oven fryer microwave oven, an intelligent positive and negative pressure fresh-keeping carriage container, an intelligent positive and negative pressure fresh-keeping warehouse, an intelligent positive and negative pressure sterilizing machine and an intelligent positive and negative pressure module cabinet.

3. An intelligent positive-negative pressure fresh-keeping refrigerator is characterized by comprising a refrigerator body (7), wherein an intelligent positive-negative pressure system, a refrigerating system (8) and an air water making device (11) are arranged in the refrigerator body (7); intelligent positive negative pressure system, its characterized in that includes: the device comprises a positive and negative pressure cabin (1), an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), an airflow carried object generator integration (6.021), (6.022), (6.023), (6.024) and (6.025), a touch screen and a mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), and at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a positive and negative pressure refrigerating and fresh-keeping cabin (1B), a positive and negative pressure refrigerating and fresh-keeping cabin (1C), a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) according to the refrigerating and freezing requirements of the fresh-keeping refrigerator; the positive and negative pressure refrigerating and refreshing cabin (1B) and the positive and negative pressure refrigerating and refreshing cabin (1C) are both vacuum hyperbaric cabins (1-1), the positive and negative pressure resistance standard of the vacuum hyperbaric cabins (1-1) is based on the local instant atmospheric pressure as the zero standard, the positive pressure resistance is 0.01KPa higher than the zero standard and is higher than the zero standard, the negative pressure resistance is 0.01KPa lower than the zero standard and is lower than the zero standard, and the positive and negative pressure resistance strength is improved according to specific requirements and refrigerator configuration; the positive and negative pressure refrigerating and refreshing cabin (1B) and the positive and negative pressure refrigerating and refreshing cabin (1C) are respectively provided with one or more than one in the box body (7) in an arrangement mode of up-down or left-right arrangement and asymmetric and non-standard arrangement; the positive and negative pressure refrigerating and refreshing cabin (1B) and the positive and negative pressure refrigerating and refreshing cabin (1C) comprise the following components in classification according to shape and characteristics: the refrigerator comprises a drawer type positive-negative pressure refrigerating and refreshing cabin (1B-1), a drawer type positive-negative pressure refrigerating and refreshing cabin (1C-1), a side-opening cabinet type positive-negative pressure refrigerating and refreshing cabin (1B-2) and a side-opening cabinet type positive-negative pressure refrigerating and refreshing cabin (1C-2); the drawer type positive and negative pressure refrigerating and fresh-keeping cabin (1B-1) and the drawer type positive and negative pressure refrigerating and fresh-keeping cabin (1C-1) comprise: the refrigerator comprises a cabin body (1.1), a positive and negative pressure refrigerating and refreshing drawer (1.81), a positive and negative pressure refrigerating and refreshing drawer (1.82) and an in-cabin outer sealing communicating device (1.4); drawer type airtight mechanisms (1.9) are arranged between the cabin body (1.1) of the drawer type positive and negative pressure refrigerating and refreshing cabin (1B-1) and the positive and negative pressure refrigerating and refreshing drawer (1.81), and between the cabin body of the drawer type positive and negative pressure refrigerating and refreshing cabin (1C-1) and the positive and negative pressure refrigerating and refreshing drawer (1.82); the drawer type airtight mechanism (1.9) comprises a lock ring (1.91), a lock tongue (1.92) and an airtight gasket (1.93); the lock ring (1.91) is movably matched with the bolt (1.92), when the preservation drawer is closed, the bolt (1.92) extends into the lock ring (1.91) to lock the compartment door, and the airtight gasket (1.93) keeps sealing; the side-opening cabinet type positive and negative pressure refrigerating and refreshing cabin (1B-2) and the side-opening cabinet type positive and negative pressure refrigerating and refreshing cabin (1C-2) comprise: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1); the airtight mechanism (1.3) comprises a lock ring (1.31), a lock tongue (1.32), an airtight gasket (1.33) and a door edge sealing gasket (1.34); the lock ring (1.31) is movably matched with the lock tongue (1.32), when the hatch door is closed, the lock tongue (1.32) extends into the lock ring (1.31) to lock the hatch door, and the airtight gasket (1.33) keeps sealing; the in-cabin external sealing communicating device (1.4) is arranged at the rear part or the side part of the drawer type positive-negative pressure refrigerating and refreshing cabin (1B-1), the drawer type positive-negative pressure refrigerating and refreshing cabin (1C-1), the side-door cabinet type positive-negative pressure refrigerating and refreshing cabin (1B-2) and the side-door cabinet type positive-negative pressure refrigerating and refreshing cabin (1C-2), and pipelines and circuits which enter and exit the cabin are connected to and enter and exit through the in-cabin external sealing communicating device (1.4) so as to keep the sealing performance of the positive and negative pressure cabin (1); the cold storage chamber type positive and negative pressure fresh-keeping chamber (1D) and the freezing chamber type positive and negative pressure fresh-keeping chamber (1E) of the common refrigerator are both normal pressure circulation chambers, and a positive and negative pressure system is arranged in the cold storage chamber and the freezing chamber of the common refrigerator, but an air-tight mechanism and an inner and outer seal communicating device in the chamber are not arranged; the cold storage chamber type positive and negative pressure intelligent preservation cabin (1D) of the common refrigerator comprises a cabin body (1.1) and a cabin door (1.2), an airtight mechanism and an in-cabin outer sealing communicating device are not required to be arranged between the cabin body (1.1) and the cabin door (1.2), and the cabin door (1.2) is a box door of the preservation refrigerator; the freezing chamber type positive and negative pressure intelligent fresh-keeping cabin (1E) of the common refrigerator comprises; the fresh-keeping device comprises a cabin body (1.1) and a non-airtight fresh-keeping drawer (1.83), wherein an airtight mechanism and a cabin-inside and outside sealed communicating device are not required to be arranged between the cabin body (1.1) and the non-airtight fresh-keeping drawer (1.83); the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carry generation processor (6) comprises: the device comprises an air conditioning device (6.1), an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), a carried substance decomposition processor (6.7), an air filter (6.8), a disinfection and sterilization degradation device (6.9), a carried substance generator item-adding upgrading module (6.16), an airflow carried substance generator integration (6.021), (6.022), (6.023), (6.024) and (6.025); the air conditioning device (6.1) is a membrane air separation air conditioning device; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the gas flow ballast generator assemblies (6.021), (6.022), (6.023), (6.024) and (6.025) each comprise any one or more of the monolithic fluid ballast generators (6.1) to (6.16) as required; an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure airflow carrying object generator assembly (6.021), a carrying object decomposition processor (6.7), an air filter (6.8), a refrigerating system (8), an air water making device (11) and a touch screen and mobile phone monitoring and recognition system (12) are arranged outside the positive and negative pressure refrigerating and refreshing cabin (1B), the positive and negative pressure refrigerating and refreshing cabin (1C), the common refrigerator refrigerating chamber type positive and negative pressure refreshing cabin (1D) and the common refrigerator refrigerating chamber type positive and negative pressure refreshing cabin (1E); an air suction pipeline (A1) is installed at an air inlet (a) of the air suction pump (2), the air suction pipeline (A1) is respectively connected with air suction branch pipelines (A1.1), (A1.2), (A1.3) and (A1.4), the middle parts of the air suction branch pipelines (A1.1), (A1.2), (A1.3) and (A1.4) are respectively provided with electromagnetic valves (B1.1), (B1.2), (B1.3) and (B1.4), and the other ends of the air suction branch pipelines respectively extend into the positive and negative pressure refrigerating and fresh-keeping cabin (1B), the positive and negative pressure refrigerating and fresh-keeping cabin (1C), the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) to form air suction return ports (C1), (C2), (C3) and (C4); the exhaust pipeline (A1) is also respectively connected with a carried exhaust gas pumping and exhausting pipeline (A8), (A8.1), (A8.2), (A8.3) and (A8.4), the middle parts of the carried exhaust gas pumping and exhausting pipeline (A8), (A8.1), (A8.2), (A8.3) and (A8.4) are respectively provided with an electromagnetic valve (B8), (B8.1), (B8.2), (B8.3) and (B8.4), and the other ends of the carried exhaust gas pumping and exhausting pipeline are respectively connected with carried exhaust gas pumping and exhausting ports (s3), (s4), (s5), (s6) and (s7) of the air-conditioning device (6.1) respectively integrated in the positive and negative pressure air flow carried gas flow carried generator integration (6.021), (6.022), (6.023), (6.024) and (6.025); an air outlet (B) of the air pump (2) is provided with an air exhaust pipeline (A2), the middle part of the air exhaust pipeline (A2) is provided with a superoxide decomposer (6.7) and an electromagnetic valve (B2), the other end of the air exhaust pipeline is communicated with an air inlet (h) of an air water making device (11), and the air exhaust pipeline is communicated with the atmosphere through an air outlet (n) of the air water making device (11); an air inflation pipeline (A3) is installed at an air outlet (D) of the air inflation pump (3), an electromagnetic valve (B3) is installed in the middle of the air inflation pipeline (A3), the other end of the air inflation pipeline (A3) is connected with an air inflation branch pipeline (A3.1), (A3.2), (A3.3) and (A3.4) respectively, electromagnetic valves (B3.1), (B3.2), (B3.3) and (B3.4) are installed in the middle of each of the air inflation branch pipeline (A3.1), (A3.2), (A3.3) and (A3.4), and the other end of the air inflation branch pipeline extends into the positive and negative pressure refrigerating and fresh-keeping cabin (1B), the positive and negative pressure refrigerating and fresh-keeping cabin (1C), the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) respectively to form an air inflation air inlet (f1), (f2), (f3) and (f 4); the air charging pipeline (A3) is further connected with a carrying air charging pipeline (A6), the middle of the carrying air charging pipeline (A6) is provided with an electromagnetic valve (B6), the other end of the carrying air charging pipeline is connected with an air inlet (t) of a positive-negative pressure airflow carrying object generator assembly (6.021), the air outlets (s1) and (s2) of the positive-negative pressure airflow carrying object generator assembly (6.021) are respectively provided with a carrying air charging branch pipeline (A7.2) and (A7.3), the middle of the carrying air charging branch pipeline (A7.2) and (A7.3) is respectively provided with an electromagnetic valve (B7.2) and (B7.3), the other end of the carrying air charging branch pipeline respectively extends into a positive-negative pressure refrigerating and refreshing cabin (1B) and a positive-negative pressure refrigerating and refreshing cabin (1C) to form respective carrying air inlets (i2) and (i3), the electromagnetic valves (B7.2) and (B7.3) are further connected with a carrying air charging branch pipeline (A7.1) and a carrying air charging branch pipeline (A7.4) and a magnetic valve (B7.4), the other end of the air charging pipeline (A3) is respectively extended into a refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and a refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) of the common refrigerator to form a carrying air inlet (i1) and a carrying air inlet (i4) of the air charging pipeline respectively, the air charging pipeline (A3) is also respectively connected with carrying branch pipelines (A6.1), (A6.2), (A6.3) and (A6.4), the middle parts of the carrying branch pipelines (A6.1), (A6.2), (A6.3) and (A6.4) are respectively provided with electromagnetic valves (B6.1), (B6.2), (B6.3) and (B6.4), and the other end of the air charging pipeline is respectively connected with air inlets (t1), (t2), (t3) and (t4) of positive and negative pressure airflow carrying generator integrations (6.022), (6.023), (6.024) and (6.025); an air inlet pipeline (A4) is installed at an air inlet (e) of the inflator pump (3), an air filter (6.8) and an electromagnetic valve (B4) are installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is communicated with the atmosphere; the electromagnetic valve (B4) is also connected with a circulating pipeline (A5), the circulating pipeline (A5) is respectively connected with a circulating branch pipeline (A5.1), (A5.2), (A5.3) and (A5.4), the middle parts of the circulating branch pipelines (A5.1), (A5.2), (A5.3) and (A5.4) are respectively provided with the electromagnetic valves (B5.1), (B5.2), (B5.3) and (B5.4), and the other ends of the circulating branch pipelines respectively extend into the positive and negative pressure intelligent refrigerating and fresh-keeping cabin (1B), the positive and negative pressure refrigerating and fresh-keeping cabin (1C), the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and the normal refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) to form circulating air return ports (j1), (j2), (j3) and (j 4); the circulating pipeline (A5) is also connected with an air water making inflation pipeline (A9) through an electromagnetic valve (B9), the air water making inflation pipeline (A9) is connected to the electromagnetic valve (B2) and is communicated with an air inlet (h) of the air water making device (11) through an exhaust pipeline (A2), the air water making inflation pipeline (A9) is connected with the circulating pipeline (A5) and is communicated with the electromagnetic valve (B3), and then is communicated with an air outlet (d) of the inflator pump (3) through an inflation pipeline (A3); the touch screen and mobile phone monitoring and identifying system (12) comprises a box door touch screen (12.1), a mobile phone APP (12.2), a high-definition anti-fog camera shooting and identifying device (12.3) and a radar scanning and identifying device (12.5); the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the box body (7); the positive and negative pressure refrigerating and refreshing cabin (1B), the positive and negative pressure refrigerating and refreshing cabin (1C), the common refrigerator refrigerating chamber type positive and negative pressure refreshing cabin (1D) and the common refrigerator refrigerating chamber type positive and negative pressure refreshing cabin (1E) are respectively internally provided with an airflow carrying object generator assembly (6.022), (6.023), (6.024), (6.025) and a sensor assembly (CA); the sensor assembly (CA) comprises, as required, one or more of the following individual sensors (C1) to (12): the device comprises an air conditioning device (6.1), an ultrasonic generator (6.2), an anion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), a disinfecting and sterilizing degradation device (6.9) and a carried object generator item-adding upgrading module (6.16), wherein the sensor comprises a sensor integration (CA) which comprises one or more of the following sensors (C1) - (12) according to requirements: the device comprises a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3), a negative ion sensor (C4), a catalyst sensor (C5), a humidity sensor (C6), an oxygen sensor (C7), a nitrogen sensor (C8), a disinfection degradation sensor (C9), an air particulate matter sensor (C10), a temperature sensor (C11) and a carried matter sensor item-adding upgrading module C (12); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; all airflow carried object generation processors (6), sensors (C), electromagnetic valves (B), air pumps (2), air pumps (3), refrigeration systems (8), air water making devices (11), touch screens and mobile phone monitoring and recognition systems (12) are connected into the positive and negative pressure intelligent regulation and control device (5) through circuits (D) or bundling circuits (E).

4. An operation method of an intelligent positive and negative pressure fresh-keeping refrigerator is characterized in that the intelligent positive and negative pressure fresh-keeping refrigerator is provided with an intelligent positive and negative pressure system; the intelligent positive and negative pressure system precisely regulates and organically integrates various technologies of vacuum, high pressure, superoxide, catalyst, controlled atmosphere preservation, negative ion, humidification, dehumidification, humidity control and temperature control, sterilization, degradation treatment, air purification, air water production and low-temperature storage, a plurality of technologies are combined or applied to the positive and negative pressure preservation refrigerator, a personalized targeted treatment comprehensive preservation method is designed on the level of cell molecules aiming at the site of the freshness loss of the stored substances, preservation elements are precisely maintained, and freshness loss factors are removed at fixed points without involving or with less involving normal tissue cells of the stored substances, so that the purposes of preserving and guaranteeing the quality of the stored substances are achieved; the specific operation method of the intelligent positive and negative pressure fresh-keeping refrigerator is characterized in that a positive and negative pressure system carries various effective loads such as superoxide, catalyst, negative ions, modified atmosphere gas, disinfection degradation substances, heat and water by using the intelligently-controlled airflow pressure of an air pump or using airflow to orderly pass in and out or stay in a positive and negative pressure refrigerating and fresh-keeping cabin (1B), a positive and negative pressure refrigerating and fresh-keeping cabin (1C), a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E), and various acting forces which are beneficial to long-term fresh-keeping and quality keeping are applied to fresh fruits and vegetables stored in the positive and negative pressure system by the following methods: the positive air pressure and high pressure action method comprises the following steps: proper positive air pressure and high pressure are timely formed in the chambers of the positive and negative pressure refrigerating and fresh-keeping chamber (1B) and the positive and negative pressure refrigerating and fresh-keeping chamber (1C), a breathing channel water evaporation channel on the surface layer of the fruit and vegetable in the chamber is contracted or closed after being pressed, the anaerobic breathing, growth aging and water loss of the fruit and vegetable are inhibited, and the mode, the path, the degree and the development duration of the damage of various exogenous factors of bacteria virus, food disease sources and pollution particles to food under normal pressure are changed from the influence of a microscopic level; (II) a negative pressure vacuum action method: moderate negative-pressure vacuum is timely formed in the chambers of the positive-negative pressure refrigerating and fresh-keeping chamber (1B) and the positive-negative pressure refrigerating and fresh-keeping chamber (1C), anaerobic respiration, growth and aging of fruits and vegetables can be inhibited, bacterial microorganisms cannot survive in the vacuum, and the fresh-keeping effect of the stored fruits, vegetables and meat fish is enhanced; (III) an airflow carrying matter action method: carrying various effective loads such as superoxide, catalyst, negative ions, modified atmosphere gas, disinfection degradation fresh-keeping substances and water by positive and negative pressure airflow, and sequentially passing in and out or staying in a positive and negative pressure refrigeration fresh-keeping cabin (1B), a positive and negative pressure refrigeration fresh-keeping cabin (1C), a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1D) and a common refrigerator refrigerating chamber type positive and negative pressure fresh-keeping cabin (1E) by single or multiple combinations, and integrating multiple fresh-keeping technologies to apply accurate and effective various acting forces on long-term fresh keeping and quality keeping of fresh fruit and vegetable articles stored in the fresh-keeping cabins; based on the three acting force methods, the positive and negative pressure intelligent control device (5) analyzes class by class according to a built-in program, prestored data, internet cloud data, camera identification of a touch screen and a mobile phone monitoring and identifying system (12), radar scanning identification and real-time feedback information of sensors (C1) to (C12), and aims at the delicacy factors and treatment targets of different storage objects, after calculation processing, different targeting preservation technologies are correspondingly used, so as to form a characteristic targeting treatment comprehensive preservation method, and the positive and negative pressure intelligent control device (5) sends specific instructions to the air pump (2), the air pump (3), the related positive and negative pressure fluid carrying object generator (6) and the related electromagnetic valve (C) in real time, accurately controls and adjusts the opening, closing and conversion of each air pumping and circulating carrying pipeline, intelligently controls the pressure of positive and negative carrying objects in the positive and negative pressure cabin (1), and the inflow of the fluid and the carried object pressure thereof, The preservation elements of the stored materials are maintained accurately and the freshness loss factors of the stored materials are removed at fixed points, so that the long-term effect of preservation and quality guarantee is achieved; the intelligent positive and negative pressure system targeted treatment comprehensive preservation method and the specific use method and operation program of the positive and negative pressure preservation refrigerator comprise the following steps: firstly, an exhaust or vacuum harm and heat removal cleaning procedure: the cabin door (1.2) is closed, and the positive and negative pressure intelligent regulation and control device (5) sends out an instruction: the electromagnetic valves (B2) and (B1.1), (B1.2), (B1.3) or (B1.4) are enabled to open corresponding positive and negative pressure cabin air extraction pipelines (A2) and (A1) and (A1.1), (A1.2), (A1.3) or (A1.4), and an air extraction pump (2) is started to exhaust or extract air from the corresponding positive and negative pressure cabins to vacuum negative pressure between-0.001 KPa and-0.1 MPa (the local instant air pressure is taken as zero standard, the vacuum degree can be further improved according to specific requirements and refrigerator configuration), the self-heat, partial bacterial microorganisms and dirty air in the cabins of the fruit and vegetable are extracted, the harmful gas of volatile metabolites ethylene-acetaldehyde-ethanol in the fruit and vegetable tissues is enabled to escape and be extracted in vacuum, meanwhile, the propagation of residual bacteria is inhibited by the vacuum negative pressure, and the hidden danger of the aging of the fruit and vegetable diseases is reduced; a storage procedure of pressure reduction and pressure control or humidification and humidity control: the positive and negative pressure intelligent control device (5) maintains a proper negative pressure low-oxygen low-temperature environment in the positive and negative pressure cabin by opening or closing the air pump (2) according to the pressure standard of a preset program and the real-time feedback of the negative pressure sensor (C2), reduces the respiration intensity of fruits and vegetables, inhibits the biosynthesis of ethylene, delays the decomposition of chlorophyll, inhibits the synthesis of carotenoid and lycopene, and slows down the hydrolysis of starch, the increase of sugar and the consumption process of acid, so that the ripening and aging of the fruits and vegetables are delayed, meanwhile, the humidifying and humidity control device (6.5) can be opened to improve and control the humidity in the cabin, so that the moisture of the fruits and vegetables is prevented from escaping, and according to the optimal pressure and optimal humidity point required by the fresh keeping of the fruits and vegetables, the positive and negative pressure is used for targeted pressure control and humidity control, the fruits and vegetables are accurately controlled and stored in a classified manner, and the fresh state is maintained for a longer time; and step three, carrying out normal-pressure or pressurized sterilization, degradation and odor removal procedures on the superoxide anion or catalyst negative and positive pressure carried matter: the positive and negative pressure intelligent control device (5) timely sends out instructions to open an ultrasonic generator (6.2) or a negative ion generator (6.3) or a catalyst controlled release device (6.4) or a humidity control device (6.5) or a disinfection degradation device (6.9) in each relevant airflow carrying object generator integration or a carrying object generator arranged in a carrying object generator item-adding upgrading module (6.16) according to program setting and feedback of a relevant sensor (C), so that the superoxide, catalyst, negative ions, moisture and relevant carrying objects in a positive and negative pressure cabin reach required standards, simultaneously electromagnetic valves (B3) and (B4) or (B3.1) or (B3.2) or (B3.3) or (B3.4) can open corresponding ballast (A4) and (A3) and (A3.1) or (A3.2) or (A3.3) or (A3.4) and open a relevant ballast pipeline of a charging pump (3) to instantly increase the pressure between the pressure of the relevant air pressure (3) and the pressure of the relevant air pressure of 0.001-10 MPa, according to specific requirements and refrigerator configuration, the pressure value can be increased again), the superoxide, negative ions and catalyst with proper positive pressure can sterilize, disinfect, resist mildew and degrade the pesticide residues and ethylene gas sucked out by metabolism of fruits and vegetables for preventing browning and softening of fruits and vegetables, delaying senescence of fruits and vegetables, and the proper high pressure can prevent water in the fruits and vegetables and meat fish from escaping, and the moisture can permeate and supplement water lost due to refrigeration and negative pressure to the fruits and vegetables and meat fish under the positive pressure, the negative ions can reduce the size of water molecular groups of the moisture and facilitate absorption of the fruits and vegetables and meat fish, and the super oxide can better play a role in sterilization and disinfection when permeating into the deeper interior of the fruits and vegetables and meat fish under the positive pressure; fourthly, the storage procedure of atmosphere-controlled gas or other carried objects under normal pressure or pressurization or humidification is as follows: the positive and negative pressure intelligent control device (5) timely opens a relevant air suction pipeline and opens an air suction pump (2) and a carried object decomposition processor (6.7) according to program setting or camera shooting recognition, radar scanning recognition and sensor feedback, dirty air after decomposition, sterilization and degradation is pumped out of the cabin, then electromagnetic valves (B3), B6, B7.1, B7.2, B7.3, B7.4) open (A3), A6, A7.1, A7.2, A7.3, A7.4) relevant carrying inflation pipelines and an inflation pump (3) are started, air flow is driven to enter the relevant positive and negative pressure ballast tanks through the air conditioning device (6.1) or other relevant positive and negative pressure fluid carried object generators (6), and electromagnetic valves (B3, B4, B9, B5.1, B5.2, B5.3) or B5.4) are simultaneously opened for circulating operation; when the air conditioning device (6.1) operates, the air separation efficiency can be improved by moderately increasing the partial pressure difference between two sides of the air conditioning membrane, and simultaneously the oxygen-rich waste gas or the ballast waste gas also needs to be pumped and discharged, at this time, the electromagnetic valve (B8), the electromagnetic valve (B8.1), the electromagnetic valve (B8.2), the electromagnetic valve (B8.3), the electromagnetic valve (B8.4), the electromagnetic valve (A8), the electromagnetic valve (A8.1), the electromagnetic valve (A8.35), the electromagnetic valve (S5), the electromagnetic valve (S6), the electromagnetic valve (S7), the electromagnetic valve (A8), the electromagnetic valve (A8.1), the electromagnetic valve (B8.2), the electromagnetic valve (A8658.3), the electromagnetic valve (A8.4), the electromagnetic valve (B8), the electromagnetic valve (B8.1), the electromagnetic valve (B8.2), the electromagnetic valve (A8), the electromagnetic valve (A8.8.3), the electromagnetic valve (A8.4), the air suction device (A8.4), the electromagnetic valve (B8), the atmospheric air suction device (A638.2), the atmospheric air suction device (A8.8.8.8) or the atmospheric water preparation device (A8.8.8.8) or the atmospheric air suction device (A8.8.8.8) or the atmospheric water jet (A8.8B 8) or the atmospheric water jet 19B 8 # 19, the atmospheric water jet water, simultaneously, starting the air extracting pump (2) to pump and exhaust decomposed waste gas; according to the method and the optimal standard and the point of freshness loss of the modified atmosphere gas or the carried gas for freshness preservation and storage, the positive and negative pressure system is used for targeted control, accurate regulation and circulation operation, so that various freshness preservation factors of gas components, gas concentration, gas pressure, air humidity and cleanliness in the positive and negative pressure cabin are kept in the optimal range required by freshness preservation of fruits and vegetables, the respiration rate of the stored fruits and vegetables is effectively controlled, anaerobic respiration and carbon dioxide poisoning are prevented, the aging process is delayed, the quality reduction and flavor loss of the stored fruits and vegetables are prevented, the moisture of the fruits and vegetables is kept and supplemented by positive pressure moisture, and the freshness of the fruits and vegetables is maintained to the maximum extent; fifth, the procedure of normal pressure or pressurization or sterilization preservation of the leftovers: the method comprises the steps that leftovers are placed in a positive and negative pressure cabin, an air suction pump (2) and related air suction pipelines are started by a regulating and controlling device (5), smells emitted by the leftovers and foul air in the cabin are sucked out of the cabin and then are closed, then an inflator pump 3 and related air inflation pipelines can be started to be properly pressurized and stored, so that excessive loss of smells and moisture is prevented, deterioration and corrosion are inhibited, meanwhile, a humidity control device (6.5) can be timely started to supplement moisture in the air according to feedback information of a humidity sensor, or related carried object generating processors can be timely started to kill bacteria and viruses in the air in the cabin, and further stored food is prevented from being deteriorated; sixthly, a low-temperature auxiliary preservation program: after the positive and negative pressure fresh-keeping refrigerator is started, the positive and negative pressure intelligent control device (5) starts the refrigerating system (8), provides corresponding low temperature for each positive and negative pressure chamber through the feedback control of the temperature sensing controller (C9) and the intelligent control of the positive and negative pressure intelligent control device (5), and assists the positive and negative pressure system to keep the stored articles fresh; and seventhly, the protection function is realized when the door is opened: if the refrigerator door is opened during the superoxide sterilization or the air-conditioned storage, the door switch immediately feeds back, the positive and negative pressure intelligent control device (5) immediately operates and stops the superoxide or the air-conditioned or related programs, simultaneously opens the air extraction pipeline and starts the air extraction pump (2), the gas in the refrigerator is quickly extracted to the ballast decomposition processor (6.7) at the rear side of the refrigerator for decomposition and then discharged into the atmosphere, and the air is supplemented with air extraction negative pressure from the outside of the refrigerator door to the positive and negative pressure cabin, so the superoxide or high-nitrogen and low-oxygen ballast gas cannot flow out of the door; the air water making program comprises the steps that humid waste gas pumped out of a vacuum high-pressure cabin by an air pump (2) enters a superoxide decomposer (6.7) to decompose superoxide and then enters an air water making device (11), water vapor is condensed and filtered to form drinking standard purified water, ice can be made by drinking or an uninterrupted water source is provided for a humidifying and humidity controlling device (6.5), when an air pump (3) is idle, the intelligent control device (5) starts the air pump (3) and enables electromagnetic valves (B3), (B9) and (B2) to be communicated with an air water making inflation pipeline, and indoor air is driven to enter the air water making device (11) to make water; ninthly, controlling, monitoring and identifying functions in a far and near range: the touch screen and mobile phone monitoring and identifying system (12) controls and monitors the fresh-keeping refrigerator, other positive and negative piezoelectric devices and the positive and negative pressure module cabinet in real time through WIFI and mobile phone APP far and near distance, so that the refrigerator, all other positive and negative piezoelectric devices and the module cabinet can intelligently realize various functions with high efficiency and low consumption according to set programs and instant instructions; the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the box body (7); the method comprises the steps of shooting and scanning the conditions of articles in a refrigerator in real time, automatically scanning and identifying various preservation factors of the variety, the category, the component, the color, the water content and the disease degree of the stored articles, calculating a real-time numerical value or a maximum common divisor by combining the quantity proportion fuzzy data of different articles in the same compartment and cloud data, accurately regulating and controlling various preservation environment factors of air flow pressure, gas component, air cleanliness, ambient temperature and dry humidity in a positive-negative pressure refrigeration and freezing compartment in real time through manual or automatic setting, automatically performing harmless sterilization and disinfection, and rapidly degrading residual pesticide, fertilizer, hormone and harmful additives to form an adjustable and controllable artificial microclimate in the positive-negative pressure refrigeration and freezing compartment, creating a favorable preservation microenvironment, and enabling various fresh foods stored in the positive-negative pressure refrigeration and freezing compartment to be in an optimal air pressure range, optimal gas component and optimal humidity temperature, the fresh water is kept tender and original taste is kept in the best storage environment; the refrigerator door touch screen (12.1) or the mobile phone APP (12.2) can display and remind production time, price, shelf life, commodity information of manufacturers and information of purchasers and online stores, automatically record, analyze and arrange the frequent favorite big data of the time and the quantity of storing and taking out articles of the refrigerator and combine cloud data to carry out intelligent analysis, and then remind in time on the mobile phone APP (12.2) or directly push recommended commodities to be purchased onto the mobile phone APP (12.2) and the refrigerator door touch screen (12.1); the camera shooting and identifying device is used for monitoring and identifying the fixed position in real time, and is also used for automatically continuously shooting a plurality of panoramic photos of articles in the refrigerator along with the closing movement of the refrigerator door (1.2) and automatically recording small videos along with the closing movement of the refrigerator door (1.2) in the closing process of the refrigerator door, so that a user can check the videos of the panoramic photos of the articles in the refrigerator with good light and large visual field in the last closing process and the closing process of the door at any time in a touch screen of the refrigerator door without opening the refrigerator door, releasing vacuum and reducing the temperature in the short range in the mobile phone APP, and dynamically identifying and uploading data; the method comprises the following steps of (1) enabling the R part and the positive and negative pressure modules to be combined into an intelligent home mode: the intelligent positive and negative pressure fresh-keeping refrigerator can be manufactured according to module function design, not only is used as an independent invention right for independent production and use, but also can be organically combined with other positive and negative voltage devices and module cabinets under the control of a touch screen and a mobile phone APP monitoring and identifying system (12) to form an intelligent positive and negative pressure module combined home with complete functions, not only can share a common positive and negative pressure system, a refrigeration system and an air water making device, but also has basically uniform appearance and color, and is orderly matched to accord with a popular trend; the specific operation method of the intelligent positive-negative pressure fresh-keeping refrigerator integrates multiple methods of vacuum, high pressure, superoxide, catalyst, modified atmosphere fresh-keeping, negative ions, humidification, dehumidification, humidity control and temperature control, disinfection and sterilization, air purification, air water production and low-temperature storage by using positive pressure or negative pressure intelligent regulation, is organically applied to the positive-negative pressure intelligent fresh-keeping refrigerator, organically integrates optimal collocation, uses single or multiple different combinations or single or alternative or cyclic application, is provided with a plurality of positive-negative pressure cabins, common cold boxes and common freezing boxes with different types and different functions in one positive-negative pressure fresh-keeping refrigerator, is uniformly distributed with positions and distribution spaces according to different requirements and convenient use, and can be randomly combined, regulated and controlled in a classified mode and flexibly applied according to the programs, the functions and the modes; the positive and negative pressure intelligent fresh-keeping refrigerator updates the existing method that the traditional refrigerator only depends on controlling the temperature low-temperature storage of the refrigerator, the positive and negative pressure system accurately regulates and controls various fresh-keeping environmental factors such as airflow pressure, gas components, air cleanliness, environmental temperature and humidity in the positive and negative pressure refrigerating and freezing chamber in real time, the space in the refrigerator is subjected to harmless disinfection and sterilization, residual pesticide, chemical fertilizer hormone and harmful additives are quickly degraded, and the freshness loss factors are accurately positioned and removed in a targeted manner, so that various fresh foods stored in the positive and negative pressure refrigerating and freezing chamber can keep fresh water-wet quality and flavor for a long time; the positive and negative pressure system endows the fresh-keeping refrigerator with a breathing function and a circulation characteristic, so that the ice-cold fresh-keeping refrigerator becomes a life electrical appliance, and the existing refrigerator and the traditional method are upgraded and updated once; the positive and negative pressure system has a large-capacity renewable carrier function and a platform property capable of upgrading, expanding and increasing items, so that the positive and negative pressure fresh-keeping refrigerator is endowed with an upgrading and expanding function, along with the gradual development of science and technology, various fresh-keeping and storage new methods which are newly and successfully researched and developed can be absorbed and integrated into the positive and negative pressure fresh-keeping refrigerator, the positive and negative pressure fresh-keeping refrigerator is continuously developed in a renovation way like a mobile phone and a computer, a chip processor and various software of the positive and negative pressure intelligent control device can be gradually upgraded and updated, and the positive and negative pressure fresh-keeping refrigerator is more multifunctional, efficient, environment-friendly, low in consumption, diversified and suitable for use.

5. An intelligent positive and negative pressure washing machine is characterized by comprising a machine body (7); an intelligent positive and negative pressure system and an elution drying system (15) are arranged in the machine body (7); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure water flow carried object generator assembly (6.04), a carried object decomposition processor (6.7), a water pump (16), a water inlet pump (17) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a water pump (16), a water inlet pump (17), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a washing machine type positive and negative pressure cabin (1F) according to the specific requirements of washing and drying clothes; the washing machine type positive and negative pressure cabin (1F) is of a vacuum high pressure cabin (1-1) structure, the positive and negative pressure resistance standards of the vacuum high pressure cabin (1-1) are all based on the local instant atmospheric pressure as a zero standard, the positive pressure resistance is higher than the zero standard by 0.01KPa until higher, the negative pressure resistance is lower than the zero standard by 0.01KPa until lower, and the positive and negative pressure resistance intensity is improved according to specific requirements and washing machine configuration; the washing machine type positive and negative pressure cabin (1F) comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1); the airtight mechanism (1.3) comprises a lock ring (1.31), a lock tongue (1.32), an airtight gasket (1.33) and a door edge sealing gasket (1.34); the lock ring (1.31) is movably matched with the bolt (1.32), the bolt (1.32) extends into the lock ring (1.31) to lock the cabin door when the cabin door is closed, and the sealing is kept by the airtight gasket (1.33) when positive and negative air pressure is formed in the washing machine type positive and negative pressure cabin (1F); the communication device (1.4) for sealing and communicating the inside and outside of the cabin is arranged at the rear part or the side part of the washing machine type positive and negative pressure cabin (1F), and pipelines and circuits for entering and exiting the inside and outside of the cabin are connected to the communication device (1.4) for sealing and entering and exiting through the communication device so as to keep the sealing performance of the washing machine type positive and negative pressure cabin (1F); the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure water flow carried object generator assembly (6.04) comprises a superoxide generation water mixer (6.6), a disinfection and sterilization degradation device (6.9), a stain and oil removing and cleaning device (6.11) and a carried object generator item-adding upgrading module (6.16); the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the water flow ballast generator assembly (6.04) may comprise at least one or more of the unitary fluid ballast generators (6.1) to (6.16) as required; the washing and drying system (15) comprises a washing machine drum mechanism (15.1), a washing and drying control mechanism (15.2), a drum sealing bearing seat (15.3), a drum large belt pulley (15.4) and a motor assembly (15.5); a washing machine drum mechanism (15.1), a drench-proof air exhaust port (2.1), a drum sealing bearing seat (15.3), a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3) and a carried object sensor item-adding upgrading module (C12) are arranged in the washing machine type positive and negative pressure cabin (1F); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure water flow carried object generator assembly (6.04), a carried object decomposition processor (6.7), an elution drying control mechanism (15.2), a large roller belt pulley (15.4), a motor assembly (15.5), a water pump (16), a water inlet pump (17), a detergent pull box (18) and a touch screen and mobile phone monitoring and identification system (12) are arranged outside the washing machine type positive and negative pressure cabin (1F); an air suction pipeline (A1) is installed at an air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), the other end of the air suction pipeline extends into the washing machine type positive and negative pressure cabin (1F) and then is connected with a drenching prevention air suction opening (2.1) to form an air suction return opening (c) or a circulation return opening (i), an air outlet (B) of the air suction pump (2) is communicated with the atmosphere, the electromagnetic valve (B1) is further connected with a circulation pipeline (A5), an electromagnetic valve (B5) is installed in the middle of the air suction circulation pipeline (A5), and the other end of the air suction pipeline is a circulation exhaust opening (i2) or a circulation air inlet (j 2); an air inflation pipeline (A3) is installed at the air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is installed in the middle of the air inflation pipeline (A3), and the other end of the air inflation pipeline extends into the washing machine type positive and negative pressure cabin (1F) to form an air inflation inlet (F) or a circulating inlet (j); the air inlet (e) of the inflator pump (3) is communicated with the atmosphere, the electromagnetic valve (B3) is further connected with a circulating pipeline (A6), the middle of the pumping and circulating pipeline (A6) is provided with the electromagnetic valve (B6), the other end of the pumping and circulating pipeline (A6) is connected to the circulating air inlet (e2) of the inflator pump (2), the electromagnetic valve (B6) is further connected with a circulating pipeline (A7), and the other end of the circulating pipeline (A7) is connected with the electromagnetic valve (B5); the utility model discloses a washing machine, including water intake pump (17), water inlet (r) department of intake pump (17) installs inlet channel (A14), the mid-mounting of inlet channel (A14) has solenoid valve (B14), and the other end switch-on is from water source, the delivery port (u) department of intake pump (17) installs washing machine inlet channel (A15), the mid-mounting of inlet channel (A15) has solenoid valve (B15), and the other end switch-on rivers carry the water inlet (v) of thing generator integration (6.04), washing machine inlet channel (A16) is installed to the delivery port (o) of rivers carry thing generator integration (6.04), the mid-mounting of inlet channel (A16) has solenoid valve (B16), and the other end switch-on detergent draws water inlet (z) of box (18), washing machine inlet channel (A17) is installed to delivery port (l) of detergent drawing box (18), the mid-mounting of inlet channel (A17) has solenoid valve (B17), the other end extends into the washing machine type positive and negative pressure cabin (1F) to form a water inlet (T) thereof; the electromagnetic valve (B14) is also provided with a water inlet pipeline (A18) and is connected with an electromagnetic valve (B16), and water can be directly fed when the pressure of tap water reaches the standard without carrying water; the electromagnetic valve (B15) is also provided with a water inlet pipeline (A19) and is connected to a water inlet pipeline (A18) and then communicated with the electromagnetic valve (B16), and water is directly fed by the water inlet pump (17) when water carrying is not needed; a drainage pipeline (A20) is installed at a water inlet (w) of the drainage pump (16), an electromagnetic valve (B20) is installed in the middle of the drainage pipeline (A20), the other end of the drainage pipeline extends into a washing machine type positive and negative pressure cabin (1F) to form a water outlet (L) of the drainage pump, a drainage pipeline (A21) is installed at a water outlet (p) of the drainage pump (16), an electromagnetic valve (B21) is installed in the middle of the drainage pipeline (A21), the other end of the drainage pipeline is communicated with a water inlet (g) of a ballast decomposition processor (6.7), a drainage pipeline (A22) is installed at a water outlet (m) of the ballast decomposition processor (6.7), an electromagnetic valve (B22) is installed in the middle of the drainage pipeline (A22), and the other end of the drainage pipeline is communicated with a sewer; the electromagnetic valve (B20) is also provided with a drainage pipeline (A23) and is connected with the electromagnetic valve (B22) in parallel, and the water can be drained directly when the carried objects do not need to be decomposed and the water can be drained automatically; the electromagnetic valve (B21) is also provided with a drainage pipeline (A24) and is connected to a drainage pipeline (A23) to be communicated with the electromagnetic valve (B22), and drainage is directly carried out by the drainage pump (16) when the ballast does not need to be decomposed; the motor assembly (15.5) drives a large belt pulley (15.4), and the large belt pulley (15.4) drives a roller mechanism (15.1) connected with the large belt pulley to operate; all fluid carried objects generate the processor (6), the sensor (C), the electromagnetic valve (B), the air pump (2), the inflator pump (3), the washing and drying control mechanism (15.2), the water suction pump (16), the water inlet pump (17), the touch screen and the mobile phone monitoring and identifying system (12) are all connected into the positive and negative pressure intelligent regulation and control device (5).

6. An operation method of an intelligent positive and negative pressure washing machine is characterized in that the intelligent positive and negative pressure washing machine is provided with an intelligent positive and negative pressure system; the intelligent positive and negative pressure system regulates and integrates various methods of vacuum, high pressure, super oxygen, disinfection and sterilization, degradation treatment and clothes cleaning and drying, a plurality of methods are combined or applied to the positive and negative pressure washing machine singly, and a personalized targeted decontamination comprehensive washing and drying method is designed on a molecular level and a microscopic level aiming at the contamination sites of both the cleaned objects and the pollutants, so that the contamination factors are removed at fixed points, and meanwhile, the damage to the structure and color of the cleaned objects is avoided or reduced, thereby achieving the purpose of quick, efficient, sanitary and environment-friendly cleaning; the specific operation method of the intelligent positive and negative pressure washing machine is characterized in that the positive and negative pressure system intelligently regulates and controls airflow pressure by an air pump or an air pump, carries effective loads of superoxide, disinfectant, cleaning builder, softening and fluffing agent and decomposition treatment agent by airflow or water flow, and orderly goes in and out or stays in the positive and negative pressure cabin (1F), and applies various acting forces which are helpful for fast and efficient washing and drying to washed clothes by the following methods: the positive air pressure and high pressure action method comprises the following steps: A. the air pump (3) is started at the right time to inflate the positive and negative pressure cabins (1F) through the air inflation pipeline (A3) in the washing process, so that strong air bubbles and rapid water flow are formed to participate in washing of the clothes, the washing process is accelerated, the washing efficiency is improved, and meanwhile, the high air pressure formed in the cabins is favorable for the detergent to permeate into the clothes to be cleaned conveniently; B. during drainage, the positive and negative pressure cabins (1F) are inflated and pressurized to accelerate the drainage speed; C. during dehydration, the air inflation and pressurization can force the moisture to be quickly separated from the clothes, so that the dehydration efficiency is improved, and the drainage and dehydration time is shortened; D. when the drying program starts, the washing machine type positive and negative pressure cabin (1F) is inflated and pressurized, so that hot air enters clothes fibers to vaporize water, and then the pressure is quickly released to discharge water vapor, so that the clothes drying process is accelerated, and the clothes drying time is effectively shortened; (II) a negative pressure vacuum action method: A. when water enters, the air pump (2) is started to pump negative pressure from the positive and negative pressure cabins (1F) through the air pumping pipeline (A1), so that water inlet is accelerated, and the water inlet time is shortened; B. when the washing is started, the positive and negative pressure cabins (1F) are pumped to proper vacuum, clothes fibers and dirt expand in vacuum, the adhesion force of the dirt is weakened or the dirt falls off, the washing efficiency is improved, and the washing time is shortened; C. in washing, air suction and inflation are repeated circularly, and fiber expansion and torrent kneading and oscillating are performed alternately, so that the cleanliness and the washing efficiency are improved, and the washing and rinsing processes are accelerated; D. during dehydration, negative pressure is pumped out from the positive and negative pressure cabins to expand clothes fibers, moisture in the clothes escapes to the negative pressure space and is pumped out of the cabins, and simultaneously, the dehydrated and hardened clothes are fluffy, air pumping and air inflation are circulated repeatedly to force moisture out and pump out of the cabins alternately, so that the clothes dehydration efficiency is greatly improved, and the drainage and dehydration time is shortened; E. during drying, air is timely exhausted, water vapor is exhausted, meanwhile negative pressure enables clothes fibers to expand, water vapor is conveniently emitted and quickly dried, the air inflation cycle is matched for repetition, heating gasification and water vapor extraction are alternately carried out, the clothes drying process is greatly accelerated, the negative pressure enables the clothes to be fluffy, the clothes washing and drying quality is improved, and meanwhile, the clothes drying time is effectively shortened; and (III) an action method of the carried substances of the air flow and the water flow: carrying effective loads of superoxide, disinfectant, cleaning builder, softening and fluffing agent and decomposition treatment agent by positive and negative pressure airflow and water flow, and sequentially entering or residing in the washing machine type positive and negative pressure cabin (1F) to apply various acting forces which are helpful for fast and efficient cleaning and drying of washed clothes; the intelligent positive and negative pressure system is characterized in that a positive and negative pressure intelligent control device (5) analyzes class by class according to a built-in program, prestored data, internet cloud data, real-time feedback information of a touch screen, a mobile phone monitoring and identifying system (12) and sensors (C1) - (C12), and pollutant-causing factors and pollutant-removing targets of different cleaning scenes and cleaning clothes are calculated and processed to correspondingly use different accurate pollutant removing technologies to form a characteristic targeted pollutant removal comprehensive cleaning method, and the positive and negative pressure intelligent control device (5) sends specific instructions to an air suction pump (2), an air suction pump (3), a related positive and negative pressure fluid carried object generator (6) and a related electromagnetic valve (C) in real time to accurately control and adjust the opening, closing and conversion of air suction and air inflation and circulation pipelines, intelligently controls the positive and negative pressure in a positive and negative pressure cabin (1) and the inflow of fluid and carried objects thereof, Staying or flowing out, removing the pollution-causing factors of the cleaning matters at fixed points, and precisely maintaining the vulnerable elements of the cleaning matters, thereby achieving the cleaning effect with high efficiency and low consumption; the specific operation method of the intelligent positive and negative pressure system targeted decontamination comprehensive washing and drying and positive and negative pressure washing machine comprises the following steps: (I) water inlet procedure: clothes are put into the drum (15.1), after the door (1.2) is closed and the washing machine is started, the washing machine type positive and negative pressure cabin (1F) is sealed and locked, the positive and negative pressure intelligent control device (5) sends out an instruction, so that the electromagnetic valves (B14), (B15), (B16) and (B17) open corresponding water inlet pipelines: the direct water inlet pipeline of tap water is (A14) → (B14) → (A18) → (B16) → (A16) → the detergent box pulling water inlet (z) → the water outlet (l) → (A17) → (B17) → (A17) → the positive and negative ballast water inlet (T); the water inlet pipeline is (A14) → (B14) → (A14) → the intake pump water inlet (r) → the water outlet (u) → (A15) → (B15) → (A15) → the water flow cargo generator integrated water inlet (v) → the water outlet (o) → (A16) → (B16) → (A16) → the detergent box pulling (z) → the water outlet (l) → (A17) → (B17) → (A17) → the positive and negative ballast water inlet (T) when the washing aid cargo is needed to be washed; thirdly, when the washing aid ballast is not needed to be cleaned, the water inlet pipeline is (A14) → (B14) → (A14) → the water inlet (r) → the water outlet (u) → (A15) → (B15) → (A19) → (A18) → (B16) → (A16) → the water inlet (z) → the water outlet (l) → (A17) → (B17) → (A17) → the positive and negative and positive and negative water inlets (T) during the program, the water inlet pump (17) is started, tap water directly enters the washing machine or enters the washing aid ballast mixed water produced by the water flow ballast generator assembly (6.04) into the positive and negative ballast (1F) of the washing machine, and the superoxide or ballast mixed water is accelerated to decompose organic dirt on the clothes to facilitate quick cleaning; after water inflow begins, the positive and negative pressure intelligent control device (5) enables the electromagnetic valve (B1) to open the air suction pipeline (A1), the air suction pump air inlet (a) → (A1) → (B1) → (A1) → the positive and negative pressure cabin air suction return air inlet (c), and the air suction pump (2) is started to enable the washing machine type positive and negative pressure cabin (1F) to be in negative pressure, so that water inflow is accelerated, and water inflow time is shortened; (II) vacuum washing program: after water is fed, the positive and negative pressure intelligent control device (5) starts the motor assembly (15.5) to drive the roller mechanism (15.1) to rotate to start washing, simultaneously, the electromagnetic valve (B1) is opened (A1) to form an air suction pipeline, and an air suction pump air inlet (a) → (A1) → (B1) → (A1) → the positive and negative ballast air suction return air inlet (c), and the air pump (2) is started to pump the washing machine type positive and negative pressure cabin (1F) to proper vacuum, the clothes fiber and dirt expand in vacuum, wherein the air escapes to weaken or drop the adhesion force of dirt, improve the cleaning efficiency and shorten the washing time, the superoxide or carried mixed water directly kills bacteria and virus microorganisms on the clothes in the washing process, decomposes organic matters in dust and dirt on the clothes to dissolve the organic matters in the water, the decontamination capability of the detergent is enhanced, the cleanliness is improved, the cleaning process is accelerated, and the sterilization and deodorization effects are achieved; (III) high-pressure washing program: after the vacuum washing is carried out for a proper time, the positive and negative pressure intelligent control device (5) closes the electromagnetic valve (B1) and the air pump (2), so that the electromagnetic valve (B3) is opened (A3) and an air charging pipeline is formed: the air pump air outlet (d) → (A3) → (B3) → (A3) → the positive and negative ballast inflation air inlet (f), and simultaneously opening the (a1) (a5) (a6) circulation pipeline: the air circulation, the positive and negative ballast circulation return air ports (i) → (a1) → (B1) → (a5) → (B5) → (a5) → circulation exhaust port (i2) are discharged into the air circulation; or the inside of the washing machine is circulated, positive and negative pressure cabin circulation air return ports (i) → (A1) → (B1) → (A5) → (B5) → (A7) → (B6) → (A6) → inflator pump circulation air return ports (e2), the inflator pump (3) is started, high-pressure air flow enters the washing machine type positive and negative pressure cabin (1F) through the (A3) inflation pipeline, strong air bubble rapid water flow is formed in the cabin to participate in washing, and meanwhile positive air pressure formed in the washing machine type positive and negative pressure cabin (1F) is favorable for detergent to permeate into clothes for washing; the air suction and the air inflation are alternately carried out, the vacuum and the high pressure are circulated repeatedly, the fibers are expanded sometimes, and the fibers are stirred sometimes, so that the cleaning degree and the washing efficiency are greatly improved, and the washing and rinsing processes are accelerated; (IV) draining and dewatering: when water needs to be drained, the positive and negative pressure intelligent control device (5) sends out an instruction to enable the electromagnetic valves (B20), (B21) and (B22) to open corresponding drainage pipelines: firstly, when the super oxygen or the carried objects are not needed to be decomposed by a drainage pump, a direct drainage pipeline is a washing machine type positive and negative ballast drainage port (L) → (A20) → (B20) → (A23) → (B22) → (A22) → a sewer; the water discharge pipeline is divided into a positive ballast water discharge port and a negative ballast water discharge port (L) → (A20) → (B20) → (A20) → a water discharge pump water inlet (w) → a water outlet (p) → (A21) → (B21) → (A21) → a ballast water inlet (g) → a water outlet (m) → (A22) → (B22) → (A22) → a sewer; the drainage pipeline is characterized in that when the super oxide ballast is not needed to be decomposed during drainage of the drainage pump, the drainage pipeline is formed by a drainage port (L) → (A20) → (B20) → (A20) → a drainage pump water inlet (w) → a water outlet (p) → (A21) → (B21) → (A24) → (A23) → (B22) → (A22) → a sewer), during drainage, the drainage pump (16) is started to drain water, during drainage, the air pump (3) is started to inflate and pressurize the washing machine type positive and negative pressure cabin (1F), the drainage speed is increased, and after drainage, the positive and negative pressure intelligent control device (5) sends an instruction to start dewatering; during dehydration, air is inflated and pressurized to force moisture to be quickly separated from clothes, then an air pump (2) is alternately started to pump negative pressure, so that clothes fibers in the washing machine type positive and negative pressure cabin (1F) are expanded, the moisture in the clothes escapes to a negative pressure space and is pumped out of the cabin, meanwhile, the clothes hardened on the inner wall of the roller during dehydration and high pressure are fluffy to prevent the clothes from wrinkling, the air pumping and inflating cycle is repeated, the moisture is forced out and the clothes are pumped out of the cabin alternately, the efficiency of clothes dehydration is greatly improved, and the drainage and dehydration time is shortened; (V) vacuum high-pressure drying program: when the drying program starts, the positive and negative pressure intelligent control device (5) instructs to start the air pump (3) and open (A3) the air charging pipeline to charge air to the washing machine type positive and negative pressure cabin (1F) to pressurize the air so that the hot air enters the clothes fibers to vaporize the moisture, then the air pump (3) and the air charging pipeline (A3) are closed, the air pump (2) is started and the air suction pipeline (A1) is opened to pump the moisture, and simultaneously the circulation pipeline (A5) (A7) (A6) (A3) is opened: the clothes drying device comprises a positive and negative ballast circulating air inlet (j), a circulating air inlet (j2) → (A5) → (B5) → (A7) → (B6) → (A6) → (B3) → (A3) → and a negative ballast circulating air inlet (j), wherein when water vapor is extracted, negative pressure enables clothes fibers to expand, the water vapor is favorably diffused to prompt the clothes to be quickly dried, so that the air extraction and inflation cycle is repeated, heating gasification and water vapor extraction are alternately carried out, the clothes drying process is greatly accelerated, clothes are fluffy, the clothes drying quality is improved, and the clothes drying time is effectively shortened; (VI) vacuum self-cleaning sterile placing procedure: after the washing is finished, the cabin door (1.2) is closed, the positive and negative pressure intelligent regulation and control device (5) operates the elution and drying control mechanism to open drying hot air, the interior of the washing machine, particularly a roller mechanism (15.1), is dried, then an air suction pump (2) is opened and an air suction pipeline is opened for air suction, superoxide or carried object residual gas in the washing machine type positive and negative pressure cabin (1F) is sucked out, the roller mechanism (15.1) and equipment in the cabin are in proper vacuum, the washing machine is sterile, dust-free and pollution-free and kept clean, the washing machine is free of oxidation, rust and damage, the service life of the washing machine is prolonged, the positive and negative pressure washing machine greatly accelerates each process of washing, dewatering and drying, shortens the working time of each program, improves the washing cleanliness and the drying quality, thoroughly sterilizes and removes peculiar smell of the washed clothes by the superoxide, and intelligently controls the concentration of the carried object and the working time to be in proper areas of sterilization, degradation and washing assistance, the critical point of oxidation fading of the clothes is not reached or is reached as little as possible; (VII) a positive and negative pressure module combined intelligent home mode: the intelligent positive and negative pressure washing machine is manufactured according to module function design, not only is used as an independent invention right for independent production and use, but also is organically combined with other positive and negative piezoelectric devices and a module cabinet under the control of a touch screen and a mobile phone monitoring and identifying system (12) to form an intelligent positive and negative pressure module combined home with complete functions, not only shares an intelligent positive and negative pressure system, but also has basically uniform appearance and color and is orderly matched to accord with the popular trend; in a word, the intelligent positive and negative pressure system is an effective method for targeted decontamination comprehensive washing and drying, so that the clothes washing and dehydrating drying is faster, more efficient and lower in consumption, and the clothes washed are less in loss, cleaner, more fluffy and more sanitary.

7. An intelligent positive and negative pressure bowl-washing fruit and vegetable cleaning machine is characterized by comprising a machine body (7); an intelligent positive-negative pressure system, a dish washing and drying system (19) and a fruit and vegetable cleaning system (20) are arranged in the machine body (7); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air suction pump (2), a positive and negative pressure intelligent regulation and control device (5), a water flow carried object generator assembly (6.04), a carried object decomposition processor (6.7), a drainage pump (16), a water inlet pump (17) and a touch screen and mobile phone monitoring and recognition system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a water pump (16), a water inlet pump (17), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a dishwasher type positive and negative pressure cabin (1G) according to the specific requirements of intelligent dish washing, drying and fruit and vegetable cleaning; the dishwasher type positive and negative pressure cabin (1G) is of a vacuum high pressure cabin (1-1) structure, the negative pressure resistance standard of the vacuum high pressure cabin (1-1) is 0.01KPa lower than the zero standard until lower by taking local instant atmospheric pressure as the zero standard, and the positive and negative pressure resistance intensity is improved according to specific requirements and the configuration of the dishwasher fruit and vegetable washing machine; the dishwasher-type positive and negative pressure cabin (1G) comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1) of the dishwasher type positive and negative pressure cabin (1G); the airtight mechanism (1.3) comprises a lock ring (1.31), a lock tongue (1.32) and an airtight gasket (1.33); the lock ring (1.31) is movably matched with the bolt (1.32), the bolt (1.32) extends into the lock ring (1.31) to lock the cabin door when the cabin door is closed, and the air-tight gasket (1.33) keeps sealing when positive and negative air pressure is formed in the dishwasher type positive and negative pressure cabin (1G); the device comprises an intelligent regulation and control device (5) for positive and negative pressure, a communication device (1.4) for external sealing in the cabin, a control system and a control system, wherein the communication device (1.4) for external sealing in the cabin is arranged at the rear part or the side part of the dishwasher type positive and negative pressure cabin (1G), pipelines and circuits for the internal and external sealing in and out of the cabin are connected to the communication device (1.4) for external sealing in and out of the cabin through the communication device so as to keep the sealing performance of the dishwasher type positive and negative pressure cabin (1G), and the intelligent regulation and control device for positive and negative pressure (5) comprises an integrated circuit, a chip, fluid and a carried object regulation and control system thereof and is connected to the Internet in a wired and wireless mode; positive and negative pressurized water flow carried object generator integration (6.04) includes: the device comprises a superoxide generation water mixer (6.6), a disinfection and sterilization degradation device (6.9), a stain and oil removing cleaning device (6.11) and a carried substance generator item-adding upgrading module (6.16); the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; a dish washing and drying system (19), a fruit and vegetable cleaning system (20), a water spraying prevention air exhaust port (2.1), a negative pressure sensor (C2), a superoxide sensor (C3), a temperature sensor (C9) and a carried object sensor item-adding upgrading module (C12) are arranged in the dish washing machine type positive and negative pressure cabin (1G); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; an air pump (2), a positive and negative pressure intelligent regulation and control device (5), a water flow carried object generator assembly (6.04), a carried object decomposition processor (6.7), a drainage pump (16), a water inlet pump (17), a touch screen and a mobile phone monitoring and identification system (12) are arranged outside the dish-washing machine type positive and negative pressure cabin (1G); an air suction pipeline (A1) is installed at an air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), and the other end of the air suction pipeline extends into the dishwasher type positive and negative pressure cabin (1G) and then is connected with a water spraying prevention air suction opening (2.1) to form an air suction return opening (c); an air outlet (b) of the air pump (2) is communicated with the atmosphere; a water inlet pipeline (A14) is arranged at the water inlet (r) of the water inlet pump (17), the middle part of the water inlet pipeline (A14) is provided with an electromagnetic valve (B14), the other end is communicated with a tap water source, a water inlet pipeline (A15) is arranged at the water outlet (u) of the water inlet pump (17), the middle part of the water inlet pipeline (A15) is provided with an electromagnetic valve (B15), the other end of the water inlet pipeline is communicated with a water inlet (k) of a water flow carrying object generator assembly (6.04), a water inlet pipeline (A16) is arranged at a water outlet (q) of the water flow carried object generator assembly (6.04), the middle part of the water inlet pipeline A (16) is provided with an electromagnetic valve (B16), the other end of the water inlet pipeline A extends into a dishwasher type positive and negative pressure cabin (1G) and is connected to an electromagnetic valve (B25), the electromagnetic valve (B25) is respectively connected with a fruit and vegetable cleaning water inlet pipeline (A25) and a dish washing and drying water inlet pipeline (A27), the water inlet pipeline (A25) is connected to a water inlet (E) of the fruit and vegetable cleaning system (20); the water inlet pipeline (A27) is connected to a water inlet (G) of the dish washing and drying system (19); the electromagnetic valve (B15) is also provided with a water inlet pipeline (A19) and is connected to the electromagnetic valve (B16), and water is directly fed by a water inlet pump (17) when the super oxygen water is not needed; a water discharge pipeline (A20) is installed at a water inlet (w) of the drainage pump (16), an electromagnetic valve (B20) is installed in the middle of the water discharge pipeline (A20), the other end of the water discharge pipeline extends into a dishwasher type positive and negative pressure cabin (1G) and is respectively connected to a fruit and vegetable cleaning water discharge pipeline (A26) and a dish washing and drying water discharge pipeline (A28), and the water discharge pipeline (A26) is connected to a water outlet (F) of the fruit and vegetable cleaning system (20); the drainage pipeline (A28) is connected to a drainage outlet (H) of the dish washing and drying system (21); a drainage pipeline (A21) is installed at a water outlet (p) of the drainage pump (16), an electromagnetic valve (B21) is installed in the middle of the drainage pipeline (A21), the other end of the drainage pipeline is communicated with a water inlet (g) of a carried object decomposition processor (6.7), a drainage pipeline (A22) is installed at a water outlet (m) of the carried object decomposition processor (6.7), an electromagnetic valve (B22) is installed in the middle of the drainage pipeline (A22), and the other end of the drainage pipeline is communicated with a sewer; the electromagnetic valve (B21) is also provided with a drainage pipeline (A24) and is connected to (A23) to be communicated with the electromagnetic valve (B22), and the water is directly drained by a drainage pump when the super oxygen and the carried objects do not need to be decomposed; all fluid carried objects generate processor (6), sensor (C), solenoid valve (B) and air pump (2), inflator pump (3), water suction pump (16), water intake pump (17), dish washing and drying system (19), fruit and vegetable cleaning system (20), touch screen and mobile phone monitoring and identification system (12) all access positive and negative pressure intelligent regulation and control device (5).

8. An operation method of an intelligent positive and negative pressure bowl washing fruit and vegetable cleaning machine is characterized in that the intelligent positive and negative pressure bowl washing fruit and vegetable cleaning machine is provided with an intelligent positive and negative pressure system; the intelligent positive and negative pressure system regulates and integrates various methods of vacuum, superoxide, disinfection and sterilization, degradation treatment, dish washing and fruit and vegetable cleaning, a plurality of methods are combined or applied to the positive and negative pressure dish washing and fruit and vegetable cleaning machine singly, the pollution-causing sites of both cleaning objects and pollutants are analyzed class by class on a molecular level and microscopic level, different cleaning scenes and pollution-causing factors and pollution-removing targets of the cleaning objects are correspondingly used after calculation treatment, different accurate pollution-removing technologies are correspondingly used, a characteristic targeted pollution-removing comprehensive cleaning method is formed, and the pollution-causing factors are removed at fixed points, so that the aims of quickly, efficiently, sanitarily, environmentally friendly and cleaning fruits and vegetables are achieved; the specific operation method of the intelligent positive-negative pressure dish washing and fruit and vegetable cleaning machine comprises the following steps: firstly, dish washing, water inlet and washing procedures: after the machine door is closed, the positive and negative pressure intelligent regulation and control device (5) sends out an instruction to enable the electromagnetic valves (B14), (B15), (B16) and (B25) to open corresponding water inlet pipelines: firstly, when people need to eat superoxide or carry water for washing dishes, a water inlet pipeline of a water inlet pump is (A14) → (B14) → (A14) → a water inlet opening (r) → a water outlet opening (u) → (A15) → (B15) → (A15) → a water flow carry object generator integrated water inlet opening (k) → a water outlet opening (q) → (A16) → (B16) → (A16) → (B25) → (A27) → a water inlet opening (G) of a dish washing and drying system; the water inlet pipeline of the water inlet pump is (A14) → (B14) → (A14) → the water inlet of the water inlet pump (r) → the water outlet (u) → (A15) → (B15) → (A19) → (B16) → (A16) → (B25) → (A27) → the water inlet (G) of the dish washing and drying system when the water is not needed to be used or carried for washing dishes; and open water intake pump (17), the running water gets into positive negative pressure cabin (1G) of dish washer formula through the super oxygen of rivers carry thing generator integration rather than production or carry thing mixing water thereupon, and super oxygen or carry thing mixing water accelerate to decompose the organic dirt on the tableware and do benefit to quick washing, and the positive negative pressure regulation and control device (5) that finishes of intaking opens the drying system (19) that washes the dishes and begin to spray and wash the dishes to make solenoid valve (B1) open (A1) exhaust line: the air suction pump air inlet (a) → (A1) → (B1) → (A1) → positive and negative pressure cabin air suction and return air inlet (c), and the air suction pump (2) is started to vacuumize simultaneously, dirt stained on the bowl and chopstick tableware can expand in vacuum negative pressure, air in the dirt escapes, the adhesion force of the dirt is weakened or the dirt falls off from the bowl and chopstick tableware, the cleaning efficiency is improved, the washing process is shortened, the superoxide or carried mixed water can directly kill bacteria and viruses on the bowl and chopstick tableware in the dish washing process, organic matters in the dirt on the bowl and chopstick tableware are decomposed to be dissolved into water, the dirt removing capacity of a detergent can be enhanced, the cleanliness is improved, the cleaning process is accelerated, and the sterilization and deodorization effects are achieved; (II) dish washing, draining, drying and disinfecting procedures: when the water needs to be drained after the proper time is cleaned, the positive and negative pressure intelligent control device (5) sends out an instruction to enable the electromagnetic valves (B20), (B21) and (B22) to open corresponding drainage pipelines: firstly, when the superoxide or the carried substances are not needed to be decomposed by a drainage pump, a direct drainage pipeline is formed, namely a water outlet (H) → (A28) → (A20) → (B20) → (A23) → (B22) → (A22) → a sewer; the drainage pipeline is water outlet (H) → (A28) → (A20) → (B20) → (A20) → drainage pump water inlet (w) → water outlet (p) → (A21) → (B21) → (A21) → drainage pump water inlet (g) → water outlet (m) → (A22) → (B22) → (A22) → sewer; a water discharge pipeline is used when water to be discharged by a water discharge pump does not need to decompose superoxide, a water outlet (H) → (A28) → (A20) → (B20) → (A23) → (B22) → (A22) → a sewer of the dish washing and drying system is directly drained, or a water discharge pump (16) is started, or a ballast decomposition processor (6.7) is started again, the waste water is decomposed and then discharged into the sewer, and meanwhile, the tableware is sprayed and cleaned by clean water again; during the drying procedure, the positive and negative pressure regulating and controlling device (5) opens the air extracting pump (2) again to quickly extract water vapor, so that the drying process is accelerated, the dish washing time is accelerated, and the super oxygen or carried objects can thoroughly sterilize, disinfect and remove peculiar smell from the dish-washing chopsticks and tableware; (III) washing, water feeding and washing procedures of fruits and vegetables: after the machine door is closed, the positive and negative pressure intelligent regulation and control device (5) sends out an instruction to enable the electromagnetic valves (B14), (B15), (B16) and (B25) to open corresponding water inlet pipelines: firstly, when fruits and vegetables need to be cleaned by using the super-oxygen water, a water inlet pipe of a water inlet pump is (A14) → (B14) → (A14) → a water inlet pipe of the water inlet pump (r) → a water outlet (u) → (A15) → (B15) → (A15) → a water inlet of the super-oxygen generation water mixer (k) → a water outlet (q) → (A16) → (B16) → (A16) → (B25) → (A25) → a water inlet of a fruit and vegetable cleaning system (E); when the fruits and vegetables are cleaned without the super oxygen water, a water inlet pipeline of a water inlet pump is (A14) → (B14) → (A14) → a water inlet (r) → a water outlet (u) → (A15) → (B15) → (A19) → (B16) → (A16) → (B25) → (A25) → a fruit and vegetable cleaning system water inlet (E), the water inlet pump (17) is started, tap water enters a water flow carrying object generator assembly (6.04) and a dishwasher or carrying object mixed water produced by the water flow carrying object generator assembly (6.04) into a positive and negative pressure cabin (1G), a fruit and vegetable cleaning system (20) is started to spray the fruits and vegetables after water inlet is finished, an electromagnetic valve (B1) is opened (A1) an air suction pipeline, an air inlet (a) → (A1) → (B1) → (A1) → (c) of the fruit and vegetable cleaning system water enters a negative pressure regulating device (5) and the air inlet (2) of the air suction pump and the air inlet (2) and the air is inflated to suck the negative pressure and suck the dirt in the negative pressure chamber, air in the dirt escapes, so that the adhesion force of the dirt is weakened or the dirt falls off from the fruits and vegetables, the cleaning efficiency is improved, the cleaning process is shortened, bacterial virus microorganisms on the surfaces of the fruits and vegetables are directly killed by the super-oxygen or carried substance mixed water in the cleaning process, organic matters in the dirt on the surfaces are decomposed and dissolved in water, the cleaning degree is improved, the cleaning process is accelerated, meanwhile, the pesticide heavy metal residues and volatile metabolite ethylene acetaldehyde ethanol harmful gas in tissues of the fruits and vegetables are promoted to escape under negative pressure, a favorable environment is created for quick cleaning of the super-oxygen or carried substance water, deep degradation of pesticide residues and decomposition of ethylene harmful gas, the positive-negative pressure intelligent regulation and control device (5) sends an instruction after the super-oxygen or carried substance mixed water is cleaned, and the fruits and vegetables are cleaned by spraying of clear water; (IV) draining after fruit and vegetable cleaning: when the water needs to be drained after the proper time is cleaned, the positive and negative pressure intelligent control device (5) sends out an instruction to enable the electromagnetic valves (B20), (B21) and (B22) to open corresponding drainage pipelines: firstly, when the super oxygen or the ballast is not needed to be decomposed by a drainage pump, a direct drainage pipeline is formed, namely, a water outlet (F) → (A26) → (A20) → (B20) → (A23) → (B22) → (A22) → a sewer; the drainage pipeline is divided into two parts, namely a water outlet (F) → (A26) → (A20) → (B20) → (A20) → a water inlet (w) → a water outlet (p) → (A21) → (B21) → (A21) → a water inlet (g) → a water outlet (m) → (A22) → (B22) → (A22) → a sewer; the drainage pipeline is that water outlet (F) → (A26) → (A20) → (B20) → (A23) → (B22) → (A22) → sewer when superoxide or carried objects do not need to be decomposed in drainage of the drainage pump, the drainage pump directly drains water, or the drainage pump (16) is started or the carried object decomposition processor (6.7) is started again, and the wastewater is decomposed and then drained into the sewer; (V) vacuum self-cleaning sterile placing procedure: after the use, the machine door (1.2) is closed, the positive and negative pressure intelligent regulation and control device (5) opens drying hot air to blow dry the inside of the dish-washing machine type positive and negative pressure cabin (1G), particularly a dish-washing and drying system (19) and a fruit and vegetable cleaning system (20), then an air suction pump (2) is opened and an air suction pipeline is opened to suck air, superoxide or carried residual gas in the dish-washing machine type positive and negative pressure cabin (1G) is sucked out, and the dish-washing and drying system (19), the fruit and vegetable cleaning system (20) and equipment in the cabin are all in proper vacuum, so that the machine is sterile, dustless, pollution-free, clean, beneficial to health, free of oxidation, rust and free of damage, and the service life of an electric appliance is prolonged; (VI) combining the positive and negative pressure modules into an intelligent home mode: the intelligent positive and negative pressure dish washing and fruit and vegetable cleaning machine is manufactured according to module function design, not only is used as an independent invention right for independent production and use, but also is organically combined with other positive and negative piezoelectric devices and module cabinets under the control of a touch screen and a mobile phone monitoring and identifying system (12) to form an intelligent positive and negative pressure module combined home with complete functions, and not only shares a common water inlet pump (17), a water discharge pump (16), a water flow carried object generator assembly (6.04) and a carried object decomposition processor (6.7) with a positive and negative pressure oil smoke machine, but also has basically uniform appearance and color, and is neatly matched to accord with a popular trend; in a word, the intelligent positive and negative pressure system is an effective method for comprehensive cleaning by targeted decontamination, so that the dish washing and fruit and vegetable cleaning machine is higher in energy, high in efficiency, low in consumption and suitable for use.

9. An intelligent positive and negative pressure oil smoke machine is characterized by comprising a machine body (7); the lower half part of the machine body (7) is a range hood type positive and negative pressure cabin (1H), and the upper half part is an equipment smoke pipe cabin (21); a positive and negative pressure system, a fume exhaust control mechanism (26) and a water heating device (27) are arranged in the equipment smoke tube cabin (21); the positive and negative pressure system comprises: the device comprises a positive and negative pressure intelligent regulation and control device (5), a water inlet pump (17), a water discharge pump (16), a water flow carried object generator assembly (6.04) and a carried object decomposition processor (6.7); the range hood type positive and negative pressure cabin (1H) is of a normal pressure circulating cabin (1-2) structure and comprises a triangular cabin body (1.1) and a cabin door (1.2); the cabin door (1.2) is a machine door of a positive and negative pressure oil smoke machine, and a watertight mechanism (1.7) is arranged between the cabin door (1.2) and the cabin body (1.1); the watertight mechanism (1.7) comprises a lock ring (1.71), a lock tongue (1.72), a watertight gasket (1.73) and a cabin door hinge (1.74); the lock ring (1.71) is movably matched with the lock bolt (1.72), when the cabin door is closed, the lock bolt (1.72) extends into the lock ring (1.71) to lock the cabin door (1.2), and when the inside of the range hood type positive and negative pressure cabin (1H) is sprayed and cleaned, the inside is kept sealed by a watertight gasket (1.73); the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; positive and negative pressurized water flow carried object generator integration (6.04) includes: a super-oxygen generating water mixer (6.6), a disinfection and sterilization degradation device (6.9), a stain and oil removing and cleaning device (6.11) and an item increasing and upgrading module (6.16) of a carried object generator; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the range hood type positive and negative pressure cabin (1H) is internally provided with a motor and wind wheel combination (22), an automatic rotating spray ball (23), an oil and water collecting and draining groove (24), a super oxygen sensor (C3), a carried object sensor item-adding upgrading module (C12) and a touch screen and mobile phone monitoring and identifying system (12) which are arranged on the front surface; the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; a water inlet pipeline (A14) is installed at a water inlet (r) of the water inlet pump (17) and is connected with a tap water source, a pipeline (A15) is installed at a water outlet (u) of the water inlet pump (17), an electromagnetic valve (B15) is installed in the middle of the pipeline (A15), the other end of the pipeline is connected with a water inlet (z) of the water heating device (27), a pipeline (A16) is installed at a water outlet (q) of the water heating device (27), an electromagnetic valve (B16) is installed in the middle of the pipeline (A16), the other end of the pipeline is connected with a water inlet (v) of the water flow carrying object generator assembly (6.04), a pipeline (A18) is installed at a water outlet (o) of the water flow carrying object generator assembly (6.04), an electromagnetic valve (B18) is installed in the middle of the pipeline (A18), the other end of the pipeline extends into a range hood type positive and negative pressure cabin (1H) and is connected to the spraying pipeline (A30), a pipeline (A17) is installed at a water outlet (k) of the water heating device (27), the automatic rotating spraying device is characterized in that an electromagnetic valve (B17) is installed in the middle of the pipeline (A17), the other end of the pipeline is communicated with an electromagnetic valve (B18), the electromagnetic valve (B18) extends into the range hood type positive and negative pressure cabin (1H) through the pipeline (A18) and is connected to the spraying pipeline (A30), a plurality of automatic rotating spraying balls (23) are installed on the spraying pipeline (A30) according to specific requirements, the axes of the spraying balls and the axis of a middle circle of spraying holes form an angle of 45 degrees, and the spraying balls (23) automatically rotate when water flow is sprayed out; a drainage pipeline (A20) is installed at a water inlet (w) of the drainage pump (16), an electromagnetic valve (B20) is installed in the middle of the drainage pipeline (A20), and the other end of the drainage pipeline extends into an oil and water collecting and draining groove (24) at the bottom of the range hood type positive and negative pressure cabin (1H) to form a water outlet (L); a drainage pipeline (A21) is installed at a water outlet (p) of the drainage pump (16), an electromagnetic valve (B21) is installed in the middle of the drainage pipeline (A21), the other end of the drainage pipeline is communicated with a water inlet (g) of a carried object decomposition processor (6.7), a drainage pipeline (A22) is installed at a water outlet (m) of the carried object decomposition processor (6.7), an electromagnetic valve (B22) is installed in the middle of the drainage pipeline (A22), and the other end of the drainage pipeline is communicated with a sewer; the solenoid valve (B21) is also provided with a drainage pipeline (A24) and is connected to a solenoid valve (B22); all fluid carried objects generate the processor (6), the sensor (C), the electromagnetic valve (B), the water pump (16), the water inlet pump (17), the oil fume pumping control mechanism (26), the water heating device (27), the touch screen and the mobile phone monitoring and identifying system (12) to be connected into the positive and negative pressure intelligent regulation and control device (5).

10. An operation method of an intelligent positive and negative pressure oil smoke machine is characterized in that the intelligent positive and negative pressure oil smoke machine is provided with an intelligent positive and negative pressure system; the intelligent positive and negative pressure system regulates and integrates various methods of super oxygen, disinfection and sterilization, degradation treatment and high-pressure cleaning, a plurality of methods are combined or applied to a positive and negative pressure oil smoke machine singly, the positive and negative pressure system analyzes the pollution-causing sites of both the cleaned objects and pollutants in the oil smoke machine one by one on a molecular level and analyzes the pollution-causing factors and the pollution-removing targets of various cleaning scenes and the cleaned objects one by one on a molecular level, after calculation treatment, different accurate pollution-removing technologies are correspondingly used, a targeted pollution-removing comprehensive cleaning method with various characteristics is formed, and the pollution-causing factors are removed at fixed points, so that the aim of cleaning the oil smoke machine quickly, efficiently, sanitarily and environmentally is achieved; the method comprises the following steps: (I) a smoke exhaust program: when the range hood is started, the sealing waterproof cabin door (1.2) is opened to supply air and smoke, and when the range hood stops working, the sealing cabin door (1.2) is closed; (II) self-cleaning program: the positive and negative pressure regulating device (5) sends out a command to enable the electromagnetic valves (B15), (B18), (B16) or (B17) to open the corresponding water inlet pipelines: firstly, when people need to clean the water with the water or the related carried water, a water inlet pipeline is (A14) → a water inlet pump water inlet (r) → a water outlet (u) → (A15) → (B15) → (A15) → a water heating device water inlet (z) → a water outlet (q) → (A16) → (B16) → (A16) → a water flow carried object generator integrated related carried object generator water inlet (v) → a water outlet (o) → (A18) → (B18) → (A18) → (A30) → automatic rotation spraying ball (23); when the water is cleaned by hot water without carrying superoxide and hydrolyzing, a water inlet pipeline is (A14) → a water inlet pump water inlet (r) → a water outlet (u) → (A15) → (B15) → (A15) → a water heating device water inlet (z) → a water outlet (k) → (A17) → (B17) → (A17) → (B18) → (A18) → (A30) → automatic rotation spraying balls (23), the water inlet pump (17) is started, tap water passes through the water heating device (27) and the water flow carrying object generator assembly (6.04) to form superoxide or carrying water to enter the range hood type positive and negative pressure cabin (1H), the water passes through the automatic rotation spraying balls (23), all parts in the machine case including the motor and wind wheel assembly (22) are fully sprayed and cleaned, the superoxide or carrying object hot water is firstly sprayed and removed efficiently, and then clean hot water is sprayed until all cleaned, and the cleaned sewage flows down to the oil collecting and water draining tank (24) at the lowest part of the machine case, when water needs to be drained, the positive and negative pressure intelligent control device (5) sends out an instruction to enable the electromagnetic valves (B20), (B21) and (B22) to open corresponding drainage pipelines: firstly, when superoxide or ballast needs to be decomposed, a drainage pipeline is composed of an oil collecting and drainage tank drainage port (L) → (A20) → (B20) → (A20) → a drainage pump water inlet (w) → a water outlet (p) → (A21) → (B21) → (A21) → a ballast decomposition processor water inlet (g) → a water outlet (m) → (A22) → (B22) → (A22) → a sewer; the drainage pipeline is divided into an oil collecting drainage tank drainage port (L) → (A20) → (B20) → (A20) → a drainage pump water inlet (w) → a water outlet (p) → (A21) → (B21) → (A24) → (B22) → (A22) → a sewer, and the drainage pump (16) is started to discharge water to the sewer; thirdly, a drying and placing program is carried out, the cleaned positive and negative pressure intelligent regulation and control device (5) instructs to open the range hood to completely dry the interior of the case, and then the case is turned off and placed to prevent rusting; (IV) starting up protection function: when the range hood is started, air immediately flows from the outside of the range hood cabin to the inside of the positive and negative pressurized water washing range hood type positive and negative pressure cabin (1H) and is discharged from the smoke discharge pipe (29), so that no superoxide carry is contacted at all; (V) module combination intelligent home mode: the intelligent positive and negative pressure oil smoke machine is manufactured according to module function design, not only is used as an independent invention right for independent production and use, but also is organically combined with other electric appliances and a module cabinet under the control of a touch screen and a mobile phone monitoring and identifying system (12) to form an intelligent module combined home with complete functions, and not only shares a common water inlet pump (17), a drainage pump (16), a water flow carried object generator integration (6.04) and a carried object decomposition processor (6.7) with a dish washing fruit and vegetable cleaning machine, but also has basically uniform appearance shape and color, is orderly matched to accord with a popular trend, and the intelligent smoke exhaust ventilator is more efficient, low in energy consumption and suitable for use.

11. The utility model provides an intelligence positive negative pressure oven air fryer microwave oven, its characterized in that, includes organism (7), be equipped with in organism (7): an intelligent positive and negative pressure system, a barbecue system (30), an air fryer system (31) and a microwave system (32); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system also adopts a non-standard structure except the above standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises: the device comprises an air pump (2) or an air pump (3), and at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a microwave oven type positive and negative pressure cabin (1K) according to the specific requirements of an oven air fryer and a microwave oven; the microwave oven type positive and negative pressure cabin (1K) is of a vacuum high pressure cabin (1-1) structure, the positive and negative pressure resistance standards of the vacuum high pressure cabin (1-1) all adopt local instant atmospheric pressure as a zero standard, the positive pressure resistance is higher than the zero standard by 0.01KPa until higher, the negative pressure resistance is lower than the zero standard by 0.01KPa until lower, and the positive and negative pressure resistance strength is improved according to specific requirements and the configuration of an oven air fryer and a microwave oven; the microwave oven type positive and negative pressure cabin (1K) comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); the hatch door (1.2) is a door of the positive and negative pressure oven air fryer microwave oven; an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1) of the microwave oven type positive and negative pressure cabin (1K); the airtight mechanism (1.3) comprises a lock ring (1.31), a lock tongue (1.32) and an airtight gasket (1.33); the lock ring (1.31) is movably matched with the bolt (1.32), the bolt (1.32) extends into the lock ring (1.31) to lock the hatch door when the hatch door is closed, and the sealing is kept by the airtight gasket (1.33) when positive and negative air pressure is formed in the microwave oven type positive and negative pressure cabin (1K); the communication device (1.4) is fixedly arranged at the rear side part of the microwave oven type positive and negative pressure cabin (1K), and all pipelines and circuits which enter and exit the cabin are connected to the communication device (1.4) and enter and exit through the communication device to keep the sealing performance of the microwave oven type positive and negative pressure cabin (1K). The positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; a barbecue system (30), an air fryer system (31), a microwave system (32), a positive and negative pressure sensor (C15) and a sensor item-adding upgrading module (C12) are arranged in the microwave oven type positive and negative pressure cabin (1K); inside positive negative pressure cabin of microwave oven formula (1K) sets up the non-standard structure outside still adopting above standard architecture, the non-standard structure of inside setting includes: at least one or more of a microwave system (32), a grilling system (30), an air fryer system (31); an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a touch screen and a mobile phone APP monitoring system (12) are arranged outside the microwave oven type positive and negative pressure cabin (1K); an air exhaust pipeline (A1) is installed at an air inlet (a) of the air pump (2), an electromagnetic valve (B1) is installed in the middle of the air exhaust pipeline (A1), the other end of the air exhaust pipeline extends into the microwave oven type positive and negative pressure cabin (1K) to form an air exhaust return port (c) of the microwave oven type positive and negative pressure cabin (1K), and an air outlet pipeline (A2) is installed at an air outlet (B) of the air pump (2) and is communicated with the atmosphere; an air inflation pipeline (A3) is arranged at an air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is arranged in the middle of the air inflation pipeline (A3), and the other end of the air inflation pipeline extends into the microwave oven type positive and negative pressure cabin (1K) to form an air inflation inlet (f); an air inlet pipeline (A4) is arranged at an air inlet (e) of the inflator pump (3) and is communicated with the atmosphere; all the sensors (C), the electromagnetic valve (B), the air pump (2), the inflator pump (3), the barbecue system (30), the air fryer system (31), the microwave system (32), the touch screen and the mobile phone monitoring and identifying system (12) are connected to the positive and negative pressure intelligent regulating and controlling device (5).

12. An intelligent positive-negative pressure fresh-keeping transport carriage container is characterized by comprising a carriage body (7); an intelligent positive and negative pressure system and a refrigerating system (8) are arranged in the carriage body (7); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), and at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a cabin container type positive and negative pressure cabin (1M) or an atmospheric pressure cabin container type positive and negative pressure cabin (1M-2) according to the specific requirements of intelligent positive and negative pressure fresh-keeping transportation of the cabin container; the internal structure of the carriage container type positive and negative pressure cabin (1M) comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); the cabin door (1.2) is a carriage door of the positive and negative pressure fresh-keeping transportation carriage container; an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1) of the carriage container type positive and negative pressure cabin 1M; the airtight mechanism (1.3) comprises a lock ring (1.31), a bolt (1.3)2 and an airtight gasket (1.33); the lock ring (1.31) is movably matched with the bolt (1.32), the bolt (1.32) extends into the lock ring (1.31) to lock the cabin door when the cabin door is closed, and the air-tight gasket (1.33) keeps sealing when positive and negative air pressure is formed in the carriage container type positive and negative pressure cabin 1M; the communication device (1.4) for sealing and communicating the inside and outside of the cabin is fixedly arranged at the rear part of the container type positive and negative pressure cabin 1M of the carriage container, and all pipelines and circuits for entering and exiting the inside and outside of the cabin are connected to the communication device (1.4) for sealing and communicating the inside and outside of the cabin; the positive and negative pressure cabin (1M) of the carriage container type is provided with an airtight mechanism (1.3) and an in-cabin external sealing communicating device (1.4), and is provided with a corresponding vacuum-resistant high-pressure structure, and belongs to the vacuum high-pressure cabin (1-1) structure with airtightness, the positive and negative pressure resistance standard of the vacuum high-pressure cabin (1-1) structure takes local instant atmospheric pressure as a zero standard, the positive pressure resistance is 0.01KPa higher than the zero standard and is up to higher than the zero standard, the negative pressure resistance is 0.01KPa lower than the zero standard and is up to lower than the zero standard, and the positive and negative pressure resistance strength is improved according to specific requirements and the configuration of the carriage container; the normal pressure carriage container type positive and negative pressure cabin (1M-2) is formed by additionally arranging a positive and negative pressure system on a common carriage container, but an airtight mechanism (1.3) and an in-cabin external sealing communicating device (1.4) are not arranged, and the space of the common carriage container is a normal pressure positive and negative pressure cabin structure without vacuum and high pressure, and belongs to a common sealed normal pressure circulating cabin (1-2) or normal pressure in and out cabin (1-3) structure; the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carry generation processor (6) comprises: the device comprises an air conditioning device (6.1), an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), a carried object decomposition processor (6.7), an air filter (6.8), a disinfection and sterilization degradation device (6.9), a carried object generator item-adding upgrading module (6.16), an airflow carried object generator integration (6.02) or an integrated pipeline type fluid carried object generator (6.05); the air conditioning device (6.1) is a membrane air separation air conditioning device; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the airflow load generator ensemble (6.02) and the integrated piping fluid load generator (6.05) each comprise at least one or more of unitary fluid load generators (6.1) to (6.16) as required; an air pump (2), an air pump (3), a positive and negative pressure intelligent control device (5), an airflow carrying object generator assembly (6.02), a carrying object decomposition processor (6.7), an air filter (6.8), a refrigerating system (8), an air water making device (11) and a touch screen and mobile phone monitoring and identifying system (12) are arranged outside the carriage container type positive and negative pressure cabin (1M) or the normal pressure carriage container type positive and negative pressure cabin (1M-2); an air suction pipeline (A1) is installed at the air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), and the other end of the air suction pipeline extends into the carriage container type positive and negative pressure cabin (1M) or the normal pressure carriage container type positive and negative pressure cabin (1M-2) to form an air suction return port (c) of the air suction pipeline; the electromagnetic valve (B1) is also respectively connected with a carried waste gas pumping and exhausting pipeline (A8) and a carried waste gas pumping and exhausting pipeline (A8.1), and the other end of the carried waste gas pumping and exhausting pipeline (A8) is connected with a carried waste gas pumping and exhausting port (s1) of an air conditioning device (6.1) integrated in the positive and negative pressure airflow carried object generator assembly (6.02); the other end of the carried waste gas pumping and exhausting pipeline (A8.1) is connected with a carried waste gas pumping and exhausting port (s2) of an air conditioning device (6.1) integrated in a positive and negative pressure airflow carried object generator assembly (6.021); an air exhaust pipeline (A2) is installed at an air outlet (B) of the air suction pump (2), a carried substance decomposition processor (6.7) and an electromagnetic valve (B2) are installed in the middle of the air exhaust pipeline (A2), the other end of the air exhaust pipeline is communicated with an air inlet (h) of the air water making device (11), and air is introduced from an air outlet (n) of the air water making device (11); an air inflation pipeline (A3) is arranged at an air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is arranged in the middle of the air inflation pipeline (A3), and the other end of the air inflation pipeline extends into a carriage container type positive and negative pressure cabin (1M) or an atmospheric pressure carriage container type positive and negative pressure cabin (1M-2) to form an air inflation inlet (f) of the air inflation pipeline; an air inlet pipeline (A4) is installed at an air inlet (e) of the inflator pump (3), an electromagnetic valve (B4) and an air filter (6.8) are installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is communicated with the atmosphere; a carrying circulating pipeline (A5) is installed at the air inlet (e2) of the inflator pump (3), the other end of the carrying circulating pipeline (A5) is communicated with an electromagnetic valve (B3), and then the carrying circulating pipeline (A3) extends into the carriage container type positive and negative pressure cabin (1M) or the normal pressure carriage container type positive and negative pressure cabin (1M-2) to form a circulating air return port (j); the air charging pipeline (A3) is further connected with a carrying air pipe (A6), (A6.1) and (A6.2), the middle of the carrying air pipe (A6) is provided with an electromagnetic valve (B6), the other end of the carrying air pipe is connected with an air inlet (t) of an air flow carrying object generator assembly (6.02), the air outlet(s) of the air flow carrying object generator assembly (6.02) is provided with the carrying air pipe (A7), the middle of the carrying air pipe (A7) is provided with an electromagnetic valve (B7), the other end of the carrying air pipe extends into the compartment container type positive and negative pressure cabin (1M) or the normal pressure compartment container type positive and negative pressure cabin (1M-2) to form a carrying air inlet (i), the middle of the air pipe (A6.1) and the air pipe (A6.2) is respectively provided with the electromagnetic valves (B6.1) and the electromagnetic valves (B6.2), and the other end of the carrying air pipe extends into the compartment container type positive and negative pressure cabin (1M) or the normal pressure container type positive and negative pressure cabin (1M-2) to be respectively connected with the air flow carrying object generator assembly (6.021) in the air flow carrying container type positive and negative cabin (6.021) An air inlet of a fluid ballast generator (6.05); the aeration pipeline (A3) is also connected with an air-to-water aeration pipeline (A9), the air-to-water aeration pipeline (A9) is connected with an electromagnetic valve (B2) and then connected with an exhaust pipeline (A2), the middle part of the exhaust pipeline (A2) is communicated with an air-to-water device (11), and the other end of the exhaust pipeline is communicated with the atmosphere; the touch screen and mobile phone monitoring and identifying system (12) comprises a box door touch screen (12.1), a mobile phone APP (12.2), a wireless anti-fog camera shooting identifying device (12.4) and a wireless radar scanning identifying device (12.6); the wireless anti-fog camera shooting recognition device (12.4) and the radar scanning recognition device (12.5) are arranged at positions needing to be monitored and recognized inside and outside the carriage body (7); the interior of the carriage container type positive and negative ballast (1M) or the normal pressure carriage container type positive and negative ballast (1M-2) is provided with an airflow carrying object generator assembly (6.021) or an integrated pipeline type fluid carrying object generator (6.05) and corresponding sensors thereof; the sensor comprises a sensor ensemble (CA) comprising, as required, at least one or more of the following elementary sensors (C1) to (C12): the device comprises a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3), a negative ion sensor (C4), a catalyst sensor (C5), a humidity sensor (C6), an oxygen sensor (C7), a nitrogen sensor (C8), a disinfection degradation sensor (C9), an air particulate matter sensor (C10), a temperature sensor (C11) and a carried matter sensor item-adding upgrading module (C12); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; all fluid carried objects generate a processor (6), a sensor (C), an electromagnetic valve (B), an air pump (2), an inflator pump (3), a refrigerating system (8), an air water making device (11), a touch screen and a mobile phone monitoring and identifying system (12) which are connected into a positive and negative pressure intelligent regulation and control device (5) through a line (D) or a cluster line (E).

13. An operation method of an intelligent positive and negative pressure fresh-keeping carriage container is characterized in that the intelligent positive and negative pressure fresh-keeping carriage container is provided with an intelligent positive and negative pressure system; the intelligent positive and negative pressure system regulates and integrates various technologies of superoxide, catalyst, controlled atmosphere preservation, negative ion, humidification, dehumidification, disinfection and degradation, air purification, air water production and low-temperature storage, a plurality of technologies are combined or applied to the positive and negative pressure preservation carriage container, a personalized targeted treatment comprehensive preservation method is designed on the cellular molecule level aiming at the site of the transported substance losing freshness, the preservation elements are precisely maintained, the factor of losing freshness is eliminated at fixed points, and the normal tissue cells of the transported substance are not affected or less affected, so that the purpose of preserving the quality of the transported substance is achieved; the specific operation method of intelligent positive and negative pressure fresh-keeping carriage container is characterized by that the positive and negative pressure system uses air pump or air pump to intelligently regulate and control air flow pressure or uses air flow to carry various effective loads of superoxide, catalyst, negative ion, air-conditioned gas, disinfectant, cleaning agent, heat quantity and water, and can be used for making the fresh-keeping fresh food of fresh fruit and fresh-keeping fresh: the positive air pressure and high pressure action method comprises the following steps: proper positive air pressure is timely formed in the cabin of a carriage container type positive and negative ballast (1M), a breathing channel water evaporation channel on the surface layer is contracted or closed after fruits and vegetables in the cabin are pressed, anaerobic respiration, growth aging and water loss of the fruits and vegetables are inhibited, and the mode, path, degree and development duration of damage to food caused by bacteria, viruses, food disease sources and various external factors of pollution particles under normal pressure are changed under the influence of a microscopic level; (II) a negative pressure vacuum action method: proper negative air pressure is formed in the cabin of the positive and negative pressure cabin (1M) of the container type carriage at proper time, anaerobic respiration, growth and aging of fruits and vegetables are inhibited, and bacterial microorganisms in vacuum can not survive, so that the fresh-keeping effect of the stored fruits, vegetables and meat fish is enhanced; (III) an airflow carrying matter action method: carrying various effective loads such as superoxide, catalyst, negative ions, modified atmosphere gas, disinfection degradation fresh-keeping substances and water by positive and negative pressure airflow, and orderly passing in and out or staying in a carriage container type positive and negative pressure cabin (1M) or an atmospheric carriage container type positive and negative pressure cabin (1M-2) by single or multiple combinations, and integrating multiple fresh-keeping technologies to apply accurate and effective various acting forces to the long-term fresh-keeping and quality-keeping of fresh fruit and vegetable articles stored and transported in the fresh-keeping and fresh-keeping technologies; based on the three acting force methods, the positive and negative pressure intelligent control device (5) analyzes class by class according to a built-in program, prestored data, internet cloud data, camera identification of a touch screen and a mobile phone monitoring and identifying system (12), radar scanning identification and real-time feedback information of sensors (C1) to (C12) and aims at the delicacy factors and treatment targets of different stored objects, different targeting preservation technologies are correspondingly used after calculation processing, and a characteristic targeting treatment comprehensive preservation method is formed, and the positive and negative pressure intelligent control device (5) sends specific instructions to the air pump (2), the air pump (3), the related positive and negative pressure fluid carrying object generator (6) and the related electromagnetic valve (C) in real time, accurately controls and adjusts the opening, closing and conversion of air pumping and inflating and circulating carrying pipelines, intelligently controls the level of positive and negative pressure in the positive and negative pressure cabin (1) and the inflow of fluid and carrying objects, and the flowing of the fluid carrying objects in the positive and negative pressure cabin (1), The preservation elements of the stored materials are maintained accurately and the freshness loss factors of the stored materials are removed at fixed points, so that the long-term effect of preservation and quality guarantee is achieved; the intelligent positive and negative pressure system targeted treatment comprehensive preservation method and the specific use method and operation program of the positive and negative pressure preservation carriage container comprise the following steps: firstly, an exhaust or vacuum harm and heat removal cleaning procedure: the cabin door (1.2) is closed, and the positive and negative pressure intelligent regulation and control device (5) sends out an instruction: enabling electromagnetic valves (B2) and (B1) to open (A2) and (A1) air extraction pipelines, and starting an air extraction pump (2) to extract air and exhaust air from a normal-pressure carriage container type positive and negative pressure cabin (1M-2), or extracting air from the carriage container type positive and negative pressure cabin (1M) to be vacuum or negative pressure of-0.001 KPa to-0.1 MPa (local instant air pressure is zero standard), so that heat of fruits, vegetables and flesh fish, partial bacterial microorganisms and foul air in the cabin are extracted, volatile metabolite ethylene-acetaldehyde-ethanol harmful gas in fruit and vegetable tissues is enabled to escape and be extracted by vacuum, meanwhile, the propagation of residual bacteria is inhibited by negative pressure, and the hidden danger of fruit and vegetable disease aging is reduced; a storage and transportation procedure of pressure reduction and control or humidification and humidity control: the positive and negative pressure intelligent regulation and control device (5) maintains a proper negative pressure low-oxygen low-temperature environment in a carriage container type positive and negative pressure cabin (1M) by opening or closing the air pump 2 according to the pressure standard of a preset program and the real-time feedback of the negative pressure sensor (C2), reduces the respiration intensity of fruits and vegetables, inhibits the biosynthesis of ethylene, delays the decomposition of chlorophyll, inhibits the synthesis of carotenoid and lycopene, and slows down the hydrolysis of starch, the increase of sugar and the consumption process of acid, thereby delaying the maturation and aging of the fruits and vegetables, and simultaneously can also open the humidifying and humidity control device (6.5) to improve and control the humidity in the cabin and prevent the moisture of the fruits and vegetables from escaping, and according to the optimal pressure and optimal humidity point required by the fresh-keeping of the fruits and vegetables, the positive and negative pressure is used for targeted pressure control and humidity control, the classified storage is accurately regulated and controlled, and the fresh state of the fruits and vegetables is maintained for a longer time; ③ the procedures of pressurization of the negative and positive pressure ballast of superoxide, negative ions or catalyst or normal pressure circulation sterilization, degradation and odor removal: the positive and negative pressure intelligent control device (5) sends out instructions to open an ultrasonic generator (6.2) or a negative ion generator (6.3) or a catalyst controlled release device (6.4) or a humidity control device (6.5) or a disinfection degradation device (6.9) in an airflow carried object generator assembly (6.02) or (6.021) or an integrated pipeline type fluid carried object generator (6.05) or a carried object generator installed in a carried object generator module (6.16) according to program setting and feedback of a sensor (C), so that superoxide, catalyst, negative ions, moisture and related carried objects in a positive and negative pressure cabin reach required standards, simultaneously, electromagnetic valves (B3) and (B4) and (B3.1) or (B3.2) or (B3.3) or (B3.4) can open corresponding (A4) and (A3) and (A3.1) or (A3.2) or (A3.3) or (A3.4) and open corresponding air charging pipelines (A4) and (A3.1) or a 3.3.3) to start a positive and negative and positive and negative air charging pipelines (10 MPa) appropriately, according to specific requirements and refrigerator configuration, the pressure value can be increased again), the superoxide, negative ions and catalyst with proper positive pressure can sterilize, disinfect, resist mildew and degrade the pesticide residues and ethylene gas sucked out by metabolism of fruits and vegetables for preventing browning and softening of fruits and vegetables, delaying senescence of fruits and vegetables, and the proper high pressure can prevent water in the fruits and vegetables and meat fish from escaping, and the moisture can permeate and supplement water lost due to refrigeration and negative pressure to the fruits and vegetables and meat fish under the positive pressure, the negative ions can reduce the size of water molecular groups of the moisture and facilitate absorption of the fruits and vegetables and meat fish, and the super oxide can better play a role in sterilization and disinfection when permeating into the deeper interior of the fruits and vegetables and meat fish under the positive pressure; fourthly, the storage procedure of atmosphere-controlled gas or other carried objects under normal pressure or pressurization or humidification is as follows: the positive and negative pressure intelligent control device (5) timely opens relevant air extraction pipelines and opens an air extraction pump (2) and a loading decomposition processor (6.7) according to program setting or camera recognition, radar scanning recognition and sensor feedback, dirty air after decomposition, sterilization and degradation is extracted out of the cabin, then electromagnetic valves (B3) and (B4) or (B6) or (B6.1) or (B6.2) open corresponding A4 and A3 or A6 or (A6.1) or (A6.2) relevant loading inflation pipelines, or electromagnetic valves (B3), (B4), (B6) and (B7) open corresponding (A3) and (A5), (A6) and (A7) relevant loading circulation pipelines, and an inflation pump (3) is opened to enable a container type positive and negative pressure (1M) or normal pressure container type positive and negative (1M-2) or normal pressure container type positive and negative pressure container type (6.1) inflation or normal pressure type inflation device to operate under atmospheric pressure, the air separation efficiency can be improved by moderately increasing the partial pressure difference between two sides of the membrane, and simultaneously the oxygen-rich waste gas or the waste gas of the carried object also needs to be pumped and discharged, at this time, an electromagnetic valve (B1) (B2) or (B8.1) is opened (A8) or (A8.1), (A1) or (A2) is provided with an exhaust gas pumping and discharging pipeline, and the exhaust gas is discharged into the atmosphere from an exhaust gas pumping and discharging port (s1) or (s2) → (A8) or (A8.1) → electromagnetic valve (B1) → A1 → air suction pump air inlet (a) → air suction pump air outlet (B) → (A2) → carried object decomposition processor (6.7) → (A2) → (B2) → (A2) → air water making device (11) → (A2), and the exhaust gas suction pump (2) is opened to exhaust and discharge the decomposed exhaust gas; according to the method and the standard point of the atmosphere-controlled gas or the carried gas for preservation and storage, the positive and negative pressure system is used for targeted control, accurate regulation and circulation operation, so that the gas components, the gas concentration, the gas pressure, the air dryness and humidity and each preservation factor of cleanliness in the positive and negative pressure cabin are kept in the optimal range required by preservation of fruits and vegetables, the respiration rate of the stored fruits and vegetables is effectively controlled, anaerobic respiration and carbon dioxide poisoning are prevented, the aging process is delayed, the quality reduction and flavor loss of the stored fruits and vegetables are prevented, the positive pressure moisture is kept and the water content of the fruits and vegetables is supplemented, and the freshness of the fruits and vegetables is maintained to the maximum extent; fifthly, a low-temperature auxiliary preservation program: after the door is closed and the machine is started, the positive and negative pressure intelligent control device (5) starts the refrigerating system (8), provides corresponding low temperature for each positive and negative pressure cabin through the feedback control of the temperature sensing controller (C9) and the intelligent control of the positive and negative pressure intelligent control device (5), and assists the positive and negative pressure system to keep the stored articles fresh; sixthly, the protection function is realized by opening the door and discharging the door immediately: if the compartment door is opened during the superoxide sterilization or the controlled atmosphere storage, the compartment door switch immediately feeds back, the positive and negative pressure intelligent control device (5) immediately operates to stop the superoxide or the controlled atmosphere or related programs, simultaneously opens the air suction pipeline and starts the air suction pump (2), the gas in the compartment is quickly sucked to the carried substance decomposition processor (6.7) for decomposition treatment and then discharged to the atmosphere, and the air is supplemented with air suction negative pressure from the outside of the refrigerator door to the positive and negative pressure compartment, so the superoxide or high-nitrogen and low-oxygen carried substance gas cannot flow out of the door; seventhly, an air water making program, wherein humid waste gas pumped out of a vacuum high-pressure cabin by an air pump (2) enters a carried substance decomposer (6.7) to decompose superoxide and then enters an air water making device (11), water vapor is condensed and filtered to form drinking standard purified water, uninterrupted water source is provided for a humidification and humidity control device (6.5), and when an inflator pump (3) is idle, an intelligent control device (5) starts the inflator pump (3) and enables electromagnetic valves (B3) and (B2) to open an air water making and inflating pipeline to drive indoor air to enter the air water making device (11) to make water; and eighthly, remote and near distance operation monitoring and identification functions: the wireless anti-fog camera shooting recognition device (12.4) and the wireless radar scanning recognition device (12.6) are arranged at positions to be monitored and recognized inside and outside the box body (7); the method comprises the steps of shooting and scanning the conditions of articles in a refrigerator in real time, automatically scanning and identifying various preservation factors of varieties, types, components, colors, water contents and disease degrees of stored articles, and even fuzzy data of quantity proportions of different articles in the same compartment, calculating a real-time numerical value or a maximum common divisor by combining cloud data, then accurately regulating and controlling various preservation environment factors of airflow pressure, gas components, air cleanliness, environmental temperature and humidity in a positive pressure compartment and a negative pressure compartment in real time by a positive pressure system and a negative pressure system through manual or automatic setting, accurately positioning and targeting to remove the preservation factors, and automatically performing harmless sterilization and rapid degradation on residual pesticide, fertilizer hormone and harmful additives; in summary, the above-mentioned specific operation method of the intelligent positive and negative pressure fresh-keeping car container integrates multiple technologies of vacuum, high pressure, super oxygen, catalyst, controlled atmosphere fresh-keeping, negative ion, humidification, dehumidification, humidity control and temperature control, disinfection and sterilization, air purification, air water production and low temperature storage by using positive pressure or negative pressure intelligent regulation and control, is organically applied to the positive and negative pressure intelligent fresh-keeping car container, organically integrates optimal collocation, uses single or multiple different combinations or single or alternative or cyclic application, and sets a plurality of positive and negative pressure cabins of different types and different functions in one positive and negative pressure fresh-keeping car container, uniformly arranges positions and distributes spaces according to different requirements and convenient use, and randomly combines, and applies strategies, classified regulation and control and flexible application according to the above-mentioned programs, functions and modes; the positive and negative pressure intelligent fresh-keeping carriage container updates the prior method that the traditional refrigerated carriage container is stored at low temperature only by controlling the temperature, so that an adjustable and controllable artificial microclimate is formed in the positive and negative pressure chambers, an accurate fresh-keeping microenvironment is created, and various fresh foods stored in the positive and negative pressure chambers can maintain the quality and flavor of fresh water and original branches to the greatest extent for a long time.

14. An intelligent positive and negative pressure fresh-keeping warehouse is characterized by comprising a warehouse body (7); an intelligent positive and negative pressure system and a refrigerating system (8) are arranged in the storehouse body (7); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system adopts a non-standard structure except the standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises an air pump (2) or an air pump (3), and at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a touch screen and a mobile phone monitoring and identification system (12); the positive and negative pressure cabin (1) is designed into a storage type positive and negative pressure cabin (1N) or an atmospheric storage type positive and negative pressure cabin (1N-2) according to the specific requirements of the intelligent positive and negative pressure fresh-keeping warehouse; the internal structure of the positive and negative ballast (1N) of the storage type comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), an airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); the hatch door (1.2) is a warehouse door of the positive and negative pressure fresh-keeping warehouse; an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1) of the storage type positive and negative pressure cabin (1N); the airtight mechanism (1.3) comprises a lock ring (1.31), a bolt (1.3)2 and an airtight gasket (1.33); the lock ring (1.31) is movably matched with the lock bolt (1.32), the lock bolt (1.32) extends into the lock ring (1.31) to lock the cabin door when the cabin door is closed, and the cabin door is sealed by an airtight gasket (1.33) when positive and negative air pressure is formed in the storage type positive and negative pressure cabin (1N); the communication device (1.4) for sealing and communicating the inside and the outside of the cabin is fixedly arranged at the rear part of the storage type positive and negative pressure cabin (1N), and all pipelines and circuits for entering and exiting the inside and the outside of the cabin are connected to the communication device (1.4) for sealing and communicating the inside and the outside of the cabin; the warehouse type positive and negative pressure cabin (1N) is provided with an airtight mechanism (1.3) and an in-cabin external sealing communicating device (1.4), and is provided with a corresponding vacuum-resistant high-pressure structure, and belongs to the vacuum high-pressure cabin (1-1) structure with airtightness, the positive and negative pressure resistance standard of the vacuum high-pressure cabin (1-1) structure takes local instant atmospheric pressure as a zero standard, the positive pressure resistance is 0.01KPa higher than the zero standard and is up to higher than the zero standard, the negative pressure resistance is 0.01KPa lower than the zero standard and is up to lower than the zero standard, and the positive and negative pressure resistance strength is improved according to specific requirements and fresh-keeping warehouse configuration; the normal pressure warehouse type positive and negative pressure cabin (1N-2) is formed by additionally arranging a positive and negative pressure system in a common warehouse, but an airtight mechanism (1.3) and an in-cabin external sealing communicating device (1.4) are not arranged, and the common warehouse space is a normal pressure positive and negative pressure cabin structure without vacuum and high pressure resistance, and belongs to a common sealed normal pressure circulating cabin (1-2) or normal pressure in and out cabin (1-3) structure; the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carry generation processor (6) comprises: the device comprises an air conditioning device (6.1), an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), a carried object decomposition processor (6.7), an air filter (6.8), a disinfection and sterilization degradation device (6.9), a carried object generator item-adding upgrading module (6.16), an airflow carried object generator integration (6.02) or an integrated pipeline type fluid carried object generator (6.05); the air conditioning device (6.1) is a membrane air separation air conditioning device; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; the airflow load generator ensemble (6.02) and the integrated piping fluid load generator (6.05) each comprise at least one or more of unitary fluid load generators (6.1) to (6.16) as required; an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), an airflow carried object generator assembly (6.02), a carried object decomposition processor (6.7), an air filter (6.8), a refrigeration system (8), an air water making device (11) and a touch screen and mobile phone monitoring and recognition system (12) are arranged outside the storage type positive and negative pressure cabin (1N) or the normal pressure storage type positive and negative pressure cabin (1N-2); an air suction pipeline (A1) is installed at the air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), and the other end of the air suction pipeline extends into the storage type positive and negative pressure cabin (1N) or the normal pressure storage type positive and negative pressure cabin (1N-2) to form an air suction return port (c) of the air suction pipeline; the electromagnetic valve (B1) is also respectively connected with a carried waste gas pumping and exhausting pipeline (A8) and a carried waste gas pumping and exhausting pipeline (A8.1), and the other end of the carried waste gas pumping and exhausting pipeline (A8) is connected with a carried waste gas pumping and exhausting port (s1) of an air conditioning device (6.1) integrated in the positive and negative pressure airflow carried object generator assembly (6.02); the other end of the carried waste gas pumping and exhausting pipeline (A8.1) is connected with a carried waste gas pumping and exhausting port (s2) of an air conditioning device (6.1) integrated in a positive and negative pressure airflow carried object generator assembly (6.021); an air exhaust pipeline (A2) is installed at an air outlet (B) of the air suction pump (2), a carried substance decomposition processor (6.7) and an electromagnetic valve (B2) are installed in the middle of the air exhaust pipeline (A2), the other end of the air exhaust pipeline is communicated with an air inlet (h) of the air water making device (11), and air is introduced from an air outlet (n) of the air water making device (11); an air inflation pipeline (A3) is arranged at an air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is arranged in the middle of the air inflation pipeline (A3), and the other end of the air inflation pipeline extends into a storage type positive and negative pressure cabin (1N) or an atmospheric storage type positive and negative pressure cabin (1N-2) to form an air inflation inlet (f) of the air inflation pipeline; an air inlet pipeline (A4) is installed at an air inlet (e) of the inflator pump (3), an electromagnetic valve (B4) and an air filter (6.8) are installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is communicated with the atmosphere; a carrying circulating pipeline (A5) is installed at the air inlet (e2) of the inflator pump (3), the other end of the carrying circulating pipeline (A5) is communicated with an electromagnetic valve (B3), and then the carrying circulating pipeline (A3) extends into the storage type positive and negative pressure cabin (1N) or the normal pressure storage type positive and negative pressure cabin (1N-2) to form a circulating air return port (j); the pneumatic pipeline (A3) is further connected with a carrying ventilating pipeline (A6), (A6.1) and (A6.2), the middle of the carrying ventilating pipeline (A6) is provided with an electromagnetic valve (B6), the other end of the carrying ventilating pipeline is connected with an air inlet (t) of an air flow carrying object generator assembly (6.02), the air outlet(s) of the air flow carrying object generator assembly (6.02) is provided with a carrying ventilating pipeline (A7), the middle of the carrying ventilating pipeline (A7) is provided with an electromagnetic valve (B7), the other end of the carrying ventilating pipeline extends into a storage type positive and negative ballast (1N) or an atmospheric storage type positive and negative ballast (1N-2) to form a carrying air inlet (i), the middle of the ventilating pipeline (A6.1) and the air outlet (A6.2) is provided with an electromagnetic valve (B6.1) and a ballast (B6.2), and the other end of the carrying pipeline (A6.021) is connected into the air flow carrying object generator assembly (366.05) The air inlet of (a); the aeration pipeline (A3) is also connected with an air-to-water aeration pipeline (A9), the air-to-water aeration pipeline (A9) is connected with an electromagnetic valve (B2) and then connected with an exhaust pipeline (A2), the middle part of the exhaust pipeline (A2) is communicated with an air-to-water device (11), and the other end of the exhaust pipeline is communicated with the atmosphere; the touch screen and mobile phone monitoring and identifying system (12) comprises a touch screen (12.1), a mobile phone APP (12.2), a high-definition anti-fog camera shooting and identifying device (12.3) and a radar scanning and identifying device (12.5); the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the warehouse body (7); the air flow carried object generator assembly (6.021) or the integrated pipeline type fluid carried object generator (6.05) and corresponding sensors are arranged in the storage type positive and negative pressure cabin (1N) or the normal pressure storage type positive and negative pressure cabin (1N-2); the sensor comprises a sensor ensemble (CA) comprising, as required, at least one or more of the following elementary sensors (C1) to (C12): the device comprises a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3), a negative ion sensor (C4), a catalyst sensor (C5), a humidity sensor (C6), an oxygen sensor (C7), a nitrogen sensor (C8), a disinfection degradation sensor (C9), an air particulate matter sensor (C10), a temperature sensor (C11) and a carried matter sensor item-adding upgrading module (C12); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; all fluid carried objects generate a processor (6), a sensor (C), an electromagnetic valve (B), an air pump (2), an inflator pump (3), a refrigerating system (8), an air water making device (11), a touch screen and a mobile phone monitoring and identifying system (12) which are connected into a positive and negative pressure intelligent regulation and control device (5) through a line (D) or a cluster line (E).

15. An operation method of an intelligent positive and negative pressure fresh-keeping warehouse is characterized in that the intelligent positive and negative pressure fresh-keeping warehouse is provided with an intelligent positive and negative pressure system; the intelligent positive and negative pressure system regulates and integrates various technologies of superoxide, catalyst, controlled atmosphere preservation, negative ion, humidification, dehumidification, disinfection and degradation, air purification, air water production and low-temperature storage, a plurality of technologies are combined or applied to the positive and negative pressure preservation warehouse, a personalized targeted treatment comprehensive preservation method is designed on the cellular molecule level aiming at the site of the transported substance losing freshness, the preservation elements are precisely maintained, the factor of losing freshness is eliminated at fixed points, and the normal tissue cells of the transported substance are not affected or less affected, so that the purposes of preservation and quality guarantee of the transported substance are achieved; the specific operation method of the intelligent positive and negative pressure fresh-keeping warehouse is characterized in that a positive and negative pressure system carries various effective loads of superoxide, catalyst, negative ions, air-conditioned gas, disinfectant, detergent, heat and water by using the intelligently-regulated airflow pressure of an air pump or airflow, the effective loads are orderly put in or put out of a warehouse type positive and negative pressure cabin (1N) or a normal pressure warehouse type positive and negative pressure cabin (1N-2), and various acting forces which are beneficial to long-term fresh keeping and quality keeping are applied to fresh fruits and vegetables stored in the warehouse by the following modes: the positive air pressure and high pressure action method comprises the following steps: proper positive air pressure is timely formed in a cabin of the storage type positive and negative pressure cabin (1N), a breathing channel water evaporation channel on the surface layer of the fruit and vegetable in the cabin is contracted or closed after being pressed, anaerobic respiration, growth aging and water loss of the fruit and vegetable are inhibited, and the mode, path, degree and development duration of damage to food caused by bacteria, virus, food disease sources and various external causes of pollution particles under normal pressure are changed under the influence of a micro level; (II) a negative pressure vacuum action method: proper negative air pressure is formed in the cabin of the storage type positive and negative pressure cabin (1N) at proper time, anaerobic respiration, growth and aging of fruits and vegetables are inhibited, and bacterial microorganisms cannot survive in vacuum, so that the fresh-keeping effect of the stored fruits, vegetables and meat fish is enhanced; (III) an airflow carrying matter action method: carrying various effective loads such as superoxide, catalyst, negative ions, modified atmosphere gas, disinfection degradation fresh-keeping substances and water by positive and negative pressure airflow, and sequentially entering or residing in a warehouse type positive and negative pressure cabin (1N) or a normal pressure warehouse type positive and negative pressure cabin (1N-2) in a single or multiple combination manner, and integrating multiple fresh-keeping technologies to apply accurate and effective various acting forces to the long-term fresh-keeping and quality-keeping of fresh fruit and vegetable articles stored and transported in the warehouse type positive and negative pressure cabin; based on the three acting force methods, the positive and negative pressure intelligent control device (5) analyzes class by class according to a built-in program, prestored data, internet cloud data, camera identification of a touch screen and a mobile phone monitoring and identifying system (12), radar scanning identification and real-time feedback information of sensors (C1) to (C12) and aims at the delicacy factors and treatment targets of different stored objects, different targeting preservation technologies are correspondingly used after calculation processing, and a characteristic targeting treatment comprehensive preservation method is formed, and the positive and negative pressure intelligent control device (5) sends specific instructions to the air pump (2), the air pump (3), the related positive and negative pressure fluid carrying object generator (6) and the related electromagnetic valve (C) in real time, accurately controls and adjusts the opening, closing and conversion of air pumping and inflating and circulating carrying pipelines, intelligently controls the level of positive and negative pressure in the positive and negative pressure cabin (1) and the inflow of fluid and carrying objects, and the flowing of the fluid carrying objects in the positive and negative pressure cabin (1), The preservation elements of the stored materials are maintained accurately and the freshness loss factors of the stored materials are removed at fixed points, so that the long-term effect of preservation and quality guarantee is achieved; the intelligent positive and negative pressure system targeted treatment comprehensive preservation method and the specific use method and operation program of the positive and negative pressure preservation warehouse comprise the following steps: firstly, an exhaust or vacuum harm and heat removal cleaning procedure: the cabin door (1.2) is closed, and the positive and negative pressure intelligent regulation and control device (5) sends out an instruction: enabling electromagnetic valves (B2) and (B1) to open (A2) and (A1) air extraction pipelines, and opening an air extraction pump (2) to extract air and exhaust air from a normal-pressure storage type positive and negative pressure cabin (1N-2), or extracting air from the storage type positive and negative pressure cabin (1N) to be vacuum or negative pressure of-0.001 KPa to-0.1 MPa (local instant air pressure is zero standard), and extracting heat of fruits, vegetables and fleshfish, partial bacteria and foul air in the cabin, wherein the vacuum promotes volatile metabolite ethylene-acetaldehyde-ethanol harmful gas in fruit and vegetable tissues to escape and be extracted, and meanwhile, the negative pressure is used for inhibiting the propagation of residual bacteria, so that the hidden danger of disease and aging of the fruits and vegetables is reduced; a storage and transportation procedure of pressure reduction and control or humidification and humidity control: the positive and negative pressure intelligent regulation and control device (5) maintains a proper negative pressure low-oxygen low-temperature environment in a storage type positive and negative pressure cabin (1N) by opening or closing the air pump 2 according to the pressure standard of a preset program and the real-time feedback of the negative pressure sensor (C2), reduces the respiration intensity of fruits and vegetables, inhibits the biosynthesis of ethylene, delays the decomposition of chlorophyll, inhibits the synthesis of carotenoid and lycopene, and slows down the hydrolysis of starch, the increase of sugar and the consumption process of acid, thereby delaying the maturation and aging of the fruits and vegetables, and simultaneously can also open the humidifying and humidity control device (6.5) to improve and control the humidity in the cabin and prevent the moisture of the fruits and vegetables from escaping, and according to the optimal pressure and optimal humidity point required by the fresh-keeping of the fruits and vegetables, the positive and negative pressure is used for targeted pressure control and humidity control, the classified storage is accurately regulated and controlled, and the fresh state of the fruits and vegetables is maintained for a longer time; ③ the procedures of pressurization of the negative and positive pressure ballast of superoxide, negative ions or catalyst or normal pressure circulation sterilization, degradation and odor removal: the positive and negative pressure intelligent control device (5) sends out instructions to open an ultrasonic generator (6.2) or a negative ion generator (6.3) or a catalyst controlled release device (6.4) or a humidity control device (6.5) or a disinfection degradation device (6.9) in an airflow carried object generator assembly (6.02) or (6.021) or an integrated pipeline type fluid carried object generator (6.05) or a carried object generator installed in a carried object generator module (6.16) according to program setting and feedback of a sensor (C), so that superoxide, catalyst, negative ions, moisture and related carried objects in a positive and negative pressure cabin reach required standards, simultaneously, electromagnetic valves (B3) and (B4) and (B3.1) or (B3.2) or (B3.3) or (B3.4) can open corresponding (A4) and (A3) and (A3.1) or (A3.2) or (A3.3) or (A3.4) and open corresponding air charging pipelines (A4) and (A3.1) or a 3.3.3) to start a positive and negative and positive and negative air charging pipelines (10 MPa) appropriately, according to specific requirements and warehouse configuration, the pressure value can be increased again), superoxide, negative ions and catalysts with proper positive pressure can sterilize, disinfect, resist mildew and degrade ethylene gas sucked out by pesticide residues and fruit and vegetable metabolism for preventing fruit and vegetable browning and softening, and aging of fruits and vegetables are delayed, the water in fruit and vegetable flesh fish is prevented from escaping under proper high pressure, moisture is easier to permeate and supplement water lost due to refrigeration and negative pressure to fruit and vegetable flesh fish under positive pressure, the negative ions enable the water molecular group size of the moisture to be smaller and more convenient for fruit and vegetable flesh fish to absorb, and the superoxide can inhibit biological tissue metabolism, reduce respiratory intensity, slow down enzyme activity and have certain sterilization and purification effects, and the superoxide can better play a sterilization and disinfection effect when permeating deeper inside the fruit and vegetable flesh fish under positive pressure; fourthly, the storage procedure of atmosphere-controlled gas or other carried objects under normal pressure or pressurization or humidification is as follows: the positive and negative pressure intelligent control device (5) timely opens relevant air extraction pipelines and opens an air extraction pump (2) and a carried object decomposition processor (6.7) according to program setting or camera shooting identification, radar scanning identification and sensor feedback, dirty air after decomposition, sterilization and degradation is extracted out of the cabin, then electromagnetic valves (B3) and (B4) or (B6) or (B6.1) or (B6.2) open corresponding A4 and A3 or A6 or (A6.1) or (A6.2) relevant carried object inflation pipelines, or electromagnetic valves (B3), (B4), (B6) and (B7) open corresponding (A3) and (A5), (A6) and (A7) relevant carried object circulation pipelines, and an inflation pump (3) is opened to increase the pressure difference of two sides of a storage type positive and negative pressure (1N) or a storage type positive and negative pressure (1N-2) inflation or an atmospheric pressure circulation inflation device (6.1) when the atmospheric pressure separation device (6.1) operates, the air separation efficiency can be properly improved, meanwhile, the oxygen-rich waste gas or the waste gas of the loaded objects is pumped and discharged, at the moment, an electromagnetic valve (B1) (B2) or (B8.1) is opened (A8) or (A8.1), (A1) or (A2) is provided with an exhaust pumping and discharging pipeline, and an exhaust pumping and discharging port (s1) or (s2) → (A8) or (A8.1) → electromagnetic valve (B1) → A1 → an air suction pump air inlet (a) → air suction pump air outlet (B) → (A2) → loaded object decomposition processor (6.7) → (A2) → (B2) → (A2) → air water making device (11) → (A2) → is discharged into the atmosphere, and the air suction pump (2) is started to pump and discharge the decomposed exhaust; according to the method and the standard point of the atmosphere-controlled gas or the carried gas for preservation and storage, the positive and negative pressure system is used for targeted control, accurate regulation and circulation operation, so that the gas components, the gas concentration, the gas pressure, the air dryness and humidity and each preservation factor of cleanliness in the positive and negative pressure cabin are kept in the optimal range required by preservation of fruits and vegetables, the respiration rate of the stored fruits and vegetables is effectively controlled, anaerobic respiration and carbon dioxide poisoning are prevented, the aging process is delayed, the quality reduction and flavor loss of the stored fruits and vegetables are prevented, the positive pressure moisture is kept and the water content of the fruits and vegetables is supplemented, and the freshness of the fruits and vegetables is maintained to the maximum extent; fifthly, a low-temperature auxiliary preservation program: after the door is closed and the machine is started, the positive and negative pressure intelligent control device (5) starts the refrigerating system (8), provides corresponding low temperature for each positive and negative pressure cabin through the feedback control of the temperature sensing controller (C9) and the intelligent control of the positive and negative pressure intelligent control device (5), and assists the positive and negative pressure system to keep the stored articles fresh; sixthly, the protection function is realized by opening the door and discharging the door immediately: if the compartment door is opened during the superoxide sterilization or the controlled atmosphere storage, the compartment door switch immediately feeds back, the positive and negative pressure intelligent control device (5) immediately operates to stop the superoxide or the controlled atmosphere or related programs, simultaneously opens the air suction pipeline and starts the air suction pump (2), the gas in the compartment is quickly sucked to the carried substance decomposition processor (6.7) for decomposition treatment and then discharged to the atmosphere, and the air is supplemented with air suction negative pressure from the outside of the refrigerator door to the positive and negative pressure compartment, so the superoxide or high-nitrogen and low-oxygen carried substance gas cannot flow out of the door; seventhly, an air water making program, wherein humid waste gas pumped out of a vacuum high-pressure cabin by an air pump (2) enters a carried substance decomposer (6.7) to decompose superoxide and then enters an air water making device (11), water vapor is condensed and filtered to form drinking standard purified water, uninterrupted water source is provided for a humidification and humidity control device (6.5), and when an inflator pump (3) is idle, an intelligent control device (5) starts the inflator pump (3) and enables electromagnetic valves (B3) and (B2) to open an air water making and inflating pipeline to drive indoor air to enter the air water making device (11) to make water; and eighthly, remote and near distance operation monitoring and identification functions: the touch screen and mobile phone monitoring and identifying system (12) controls, monitors and dynamically identifies the remote and near real-time operation through WIFI and a mobile phone APP, so that the freshness-keeping warehouse can intelligently realize various functions with high efficiency and low consumption according to a set program and an instant instruction; the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the box body (7); the method comprises the steps of shooting and scanning the conditions of articles in a refrigerator in real time, automatically scanning and identifying various preservation factors of varieties, types, components, colors, water contents and disease degrees of stored articles, and even fuzzy data of quantity proportions of different articles in the same compartment, calculating a real-time numerical value or a maximum common divisor by combining cloud data, then accurately regulating and controlling various preservation environment factors of airflow pressure, gas components, air cleanliness, environmental temperature and humidity in a positive pressure compartment and a negative pressure compartment in real time by a positive pressure system and a negative pressure system through manual or automatic setting, accurately positioning and targeting to remove the preservation factors, and automatically performing harmless sterilization and rapid degradation on residual pesticide, fertilizer hormone and harmful additives; in summary, the specific operation method of the intelligent positive and negative pressure freshness keeping warehouse integrates multiple technologies of vacuum, high pressure, superoxide, catalyst, air conditioning freshness keeping, negative ion, humidification, dehumidification, humidity control and temperature control, disinfection and sterilization, air purification, air water production and low temperature storage by using positive pressure or negative pressure intelligent regulation, is organically applied to the positive and negative pressure intelligent freshness keeping warehouse, organically integrates optimal collocation, uses single or multiple different combinations or single or alternative or cyclic application, is provided with a plurality of positive and negative pressure cabins with different types and different functions in one positive and negative pressure freshness keeping warehouse, uniformly arranges positions and distribution spaces according to different requirements and convenient use, and randomly combines, regulates and controls according to the cabin application strategy, classifies and flexibly applies according to the programs, functions and modes; the positive and negative pressure intelligent fresh-keeping warehouse updates the prior method that the traditional cold storage warehouse only depends on the control of temperature and low-temperature storage, so that an adjustable and controllable artificial microclimate is formed in the positive and negative pressure cabin, a precise fresh-keeping microenvironment is created, and various fresh foods stored in the positive and negative pressure cabin can be kept fresh, moist and original quality and flavor of branches to the maximum extent.

16. An intelligent positive and negative pressure sterilizer is characterized by comprising a positive and negative pressure full-function sterilizer, a positive and negative pressure multifunctional sterilizer, a positive and negative pressure automatic humidifying sterilizer, a positive and negative pressure humidifying sterilizer and a positive and negative pressure sterilizer; the positive-negative pressure full-function sterilizing machine is characterized by comprising a cabinet body (7); an intelligent positive-negative pressure system, an air water making device (11), a power supply and a rechargeable battery (33) are arranged in the cabinet body (7); the intelligent positive and negative pressure system comprises an air pump (2), an air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure airflow carried object generation processor (6), a touch screen and mobile phone monitoring system (12) and a sensor (C); the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carry generation processor (6) comprises: an air sterilizing device (6.2) of an ultrasonic generator, an air improving device (6.3) of an anion generator, an air conditioning device (6.5) of a humidifying and humidity controlling device and a filtering and sterilizing device (6.11) of an instant sterilizer; the touch screen and mobile phone monitoring system (12) comprises a touch screen (12.1), a mobile phone monitoring system (12.2) and a position positioning system (12.5); the sensors comprise a superoxide sensor (C3), a negative ion sensor (C4), a humidity sensor (C6), a disinfection degradation sensor (C9) and a water level sensor (13); an inflation pipeline (A3) is installed at the air outlet (d) of the inflator pump (3), and the inflation pipeline (A3) is respectively connected with inflation branch pipelines (A3.1), (A3.2), (A3.3), (A3.4) and (A3.5); the middle part of the inflation branch pipeline (A3.1) is provided with an electromagnetic valve (B3.1), and the other end of the inflation branch pipeline is connected with an inflation air outlet on the machine body (7); the middle part of the inflation branch pipeline (A3.2) is provided with an electromagnetic valve (B3.2) and an anion generator air improving device (6.3), and the other end of the inflation branch pipeline is connected with an anion air outlet on the machine body (7); the middle part of the inflation branch pipeline (A3.3) is provided with an electromagnetic valve (B3.3) and an oxygen generator air disinfection device (6.2), and the other end is connected with an oxygen-enriched air outlet on the machine body (7); the middle part of the inflation branch pipeline (A3.4) is provided with an electromagnetic valve (B3.4) and an air conditioning device (6.5) of a humidification and humidity control device, and the other end of the inflation branch pipeline is connected with a humidification air outlet on the machine body (7); the middle part of the inflation branch pipeline (A3.5) is provided with an electromagnetic valve (B3.5) and an air water making device (11), and the other end of the inflation branch pipeline is connected with a water making exhaust port on the machine body (7); an air inlet pipeline (A4) is installed at an air inlet (e) of the inflator pump (3), an electromagnetic valve (B4) is installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is connected with a direct air inlet on the engine body (7); the electromagnetic valve (B4) is also connected with a filtering air inlet pipeline (A4.1), the middle part of the filtering air inlet pipeline (A4.1) is provided with an air filter (6.8) and an electromagnetic valve (B4.1), and the other end of the filtering air inlet pipeline is connected with a filtering air inlet on the machine body (7); the electromagnetic valve (B4.1) is also connected with a circulating air return pipeline (A5), and the other end of the circulating air return pipeline (A5) is connected with a circulating air return port on the machine body (7); an air water making pipeline (A10) is installed at a water outlet (x) of the air water making device (11), and the air water making pipeline (A10) is communicated with a water inlet y of the filtering water tank (11.1); a water filtering pipeline (A12) is installed at a water outlet (v) of the water filtering tank (11.1), and the water filtering pipeline (A12) is communicated with a water inlet of the humidification and humidity control device air conditioning device (6.5); a water passing pipeline (A11) is installed at a standby water filling port (u) of the filter water tank (11.1), an electromagnetic valve (B11) is installed in the middle of the water passing pipeline (A11), and the other end of the water passing pipeline is connected with the standby water filling port on the machine body (7); an air suction pipeline (A1) is installed at the air inlet (a) of the air suction pump (5), an instantaneous sterilizer filtering and disinfecting device (6.11) is installed in the middle of the air suction pipeline (A1), and the other end of the air suction pipeline is connected with an air suction return port on the machine body (7); an exhaust pipeline (A2) is installed at the air outlet (B) of the air pump (2), an electromagnetic valve (B2) is installed in the middle of the exhaust pipeline (A2), and the other end of the exhaust pipeline is communicated with the atmosphere; the electromagnetic valve (B2) is also communicated with the electromagnetic valve (A3.5) through a pipeline (A2.1), then communicated with the air water making pipeline (A3.5), and then communicated with the air inlet (h) of the air water making device (11), and communicated with the water making exhaust port through the air outlet (n) of the air water making device (11); the structure of the positive-negative pressure multifunctional sterilizing machine is the same as that of a positive-negative pressure full-function sterilizing machine, but the positive-negative pressure multifunctional sterilizing machine does not comprise an air improving device (6.3) of an anion generator; the positive and negative pressure automatic humidifying sterilizer has the same structure as the positive and negative pressure full-function sterilizer, but does not comprise an instantaneous sterilizer filtering and sterilizing device (6.11); the positive and negative pressure humidifying and sterilizing machine has the same structure as the positive and negative pressure humidifying and sterilizing machine, but does not comprise an air water making device (11); the structure of the positive and negative pressure sterilizer is the same as that of the positive and negative pressure humidifying sterilizer, but the air conditioning device (6.5) of the humidifying and humidity controlling device is not included; the fluid carried object generation processor (6), the sensor (C), the electromagnetic valve (B), the air pump (2), the inflator pump (3), the air water making device (11), the touch screen and the mobile phone monitoring and identifying system (12) in the machine types are all connected to the positive and negative pressure intelligent regulation and control device (5).

17. An operation method of an intelligent positive and negative pressure sterilizer is characterized in that an intelligent positive and negative pressure system is used in the intelligent positive and negative pressure sterilizer; the intelligent positive and negative pressure system regulates and integrates various technologies of a superoxide and air disinfection method, a negative ion and air regulation method, a humidification humidity control and humidity regulation method, instantaneous disinfection and filtration disinfection, a plurality of technologies are combined or singly applied to the positive and negative pressure disinfection machine, air flow is intelligently regulated and controlled by an air pump or an inflator pump, and the air flow carries various effective loads of superoxide or air disinfectants, moisture and negative ions, virus and bacteria in the human environment are killed by the following method, the air and the surface of an object are disinfected, and the air humidity regulation and the air component regulation can be effectively carried out: according to the research of Japan Tengtian medical university, the super oxygen with low concentration of about 0.05-0.10 ppm which can be accepted by human bodies is used for removing various viruses including the new crown virus in human environment, and the primary standard of the concentration limit value of ozone specified in the national environmental air quality standard (GB3095-1996) is 0.12mg/m3, so that the positive and negative pressure sterilizer is harmless to human bodies when used for sterilizing the environment to remove the virus bacteria including the new crown virus; (II) on the basis of the positive and negative pressure humidifying and disinfecting machine, a humidifying and humidity-controlling device air conditioning device is added, when the super-oxygen is used for inactivating the new corona virus, the air humidity is improved, the inactivation efficiency can be enhanced, according to the research of Japan Tengtianfield medical university, when the humidity is 80%, the super-oxygen of about 0.10ppm is used for environmental disinfection, and the virus infectivity after 10 hours is reduced to 5.7%; the positive and negative pressure automatic humidification and sterilization machine is additionally provided with an air water making device on the basis of the positive and negative pressure humidification and sterilization machine, so that an uninterrupted self-made water source is provided for the sterilization machine, and the defect that water is frequently added to a humidifier manually is overcome; the positive and negative pressure multifunctional sterilizer is additionally provided with an instantaneous sterilizer or a filtering sterilizer on the basis of the positive and negative pressure automatic humidifying sterilizer, provides an instantaneous sterilizing function except for superoxide sterilization for the sterilizer and makes up the defect that superoxide cannot be instantaneously sterilized; and (V) on the basis of the positive and negative pressure multifunctional sterilizer, an anion generator air improvement device is additionally arranged, and an air improvement function is additionally arranged for the sterilizer.

18. An intelligent positive-negative pressure module cabinet is characterized by comprising a cabinet body (7); an intelligent positive and negative pressure system and a refrigerating and heating system (8.3) are arranged in the cabinet body (7); the intelligent positive and negative pressure system comprises a positive and negative pressure cabin (1), an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure airflow carried object generation processor (6) and a touch screen and mobile phone monitoring and identification system (12); the intelligent positive and negative pressure system can adopt a non-standard structure except the above standard structure in specific application, and the non-standard structure of the intelligent positive and negative pressure system comprises: the device comprises an air pump (2) or an air pump (3), at least one or more of a positive and negative pressure cabin (1), the air pump (2), the air pump (3), a positive and negative pressure intelligent regulation and control device (5), a positive and negative pressure fluid carried object generation processor (6), a touch screen and a mobile phone monitoring and recognition system (12); the positive and negative pressure cabin (1) is designed into a modular positive and negative pressure cabin (1T) according to the specific requirements of the intelligent positive and negative pressure module cabinet; the modular positive and negative pressure cabin (1T) is a vacuum high pressure cabin (1-1) structure, the positive and negative pressure resistance standards of the vacuum high pressure cabin (1-1) structure all adopt local instant atmospheric pressure as a zero standard, the positive pressure resistance is 0.01KPa higher than the zero standard and is higher than the zero standard, the negative pressure resistance is 0.01KPa lower than the zero standard and is lower than the zero standard, and the positive and negative pressure resistance intensity is improved according to specific requirements and module cabinet configuration; the modular positive and negative ballast (1T) comprises: the cabin comprises a cabin body (1.1), a cabin door (1.2), a mechanical airtight mechanism (1.3) and an in-cabin outer sealing communicating device (1.4); the cabin door (1.2) is a cabinet door of the positive and negative pressure module cabinet; an airtight mechanism (1.3) is arranged between the cabin door (1.2) and the cabin body (1.1) of the modular positive and negative ballast (1T); the cabin internal and external sealing communicating vessel (1.4) is fixedly arranged at the rear part of the modular positive and negative pressure cabin (1T), and all pipelines and circuits which enter and exit the cabin are connected to the cabin internal and external sealing communicating vessel (1.4) and pass through the same to keep the sealing performance of the modular positive and negative pressure cabin (1T); the positive and negative pressure intelligent regulation and control device (5) comprises an integrated circuit, a chip, a fluid and a carried object regulation and control system thereof, and is connected to the Internet in a wired and wireless mode; the positive and negative pressure fluid carry generation processor (6) comprises: the device comprises an air conditioning device (6.1), an ultrasonic generator (6.2), a negative ion generator (6.3), a catalyst controlled release device (6.4), a humidifying and dehumidifying device (6.5), a carried object decomposition processor (6.7), an air filter (6.8), a disinfection and sterilization degradation device (6.9), a carried object generator item-adding upgrading module (6.16), an airflow carried object generator integration (6.02) or (6.021) or an integrated pipeline type fluid carried object generator (6.05); the air conditioning device (6.1) is a membrane air separation air conditioning device; the load generator add-on upgrading module (6.16) is a combined module which can be used for adding or installing any single fluid load generator into the load generator to be integrated, upgraded and updated; an airflow ballast generator integrated (6.02) or (6.021) or an integrated pipeline type fluid ballast generator (6.05); the airflow load generator assemblies (6.02) or (6.021) or integrated pipe-line fluid load generators (6.05) each comprise one or more of the monolithic fluid load generators (6.1) to (6.16) as required; an air pump (2), an inflator pump (3), a positive and negative pressure intelligent regulation and control device (5), an airflow carried object generator assembly (6.02), a carried object decomposition processor (6.7), an air filter (6.8), a refrigeration and heating system (8.3), an air water making device (11) and a touch screen and mobile phone monitoring and identification system (12) are arranged outside the modular positive and negative pressure cabin (1T); an air suction pipeline (A1) is installed at an air inlet (a) of the air suction pump (2), an electromagnetic valve (B1) is installed in the middle of the air suction pipeline (A1), and the other end of the air suction pipeline extends into the modular positive and negative pressure cabin (1T) to form an air suction return port (c) of the modular positive and negative pressure cabin; the electromagnetic valve (B1) is also respectively connected with a carried waste gas pumping and exhausting pipeline (A8) and a carried waste gas pumping and exhausting pipeline (A8.1), and the other end of the carried waste gas pumping and exhausting pipeline (A8) is connected with a carried waste gas pumping and exhausting port (s1) of an air conditioning device (6.1) integrated in the positive and negative pressure airflow carried object generator assembly (6.02); the other end of the carried waste gas pumping and exhausting pipeline (A8.1) is connected with a carried waste gas pumping and exhausting port (s2) of an air conditioning device (6.1) integrated in a positive and negative pressure airflow carried object generator assembly (6.021); an air exhaust pipeline (A2) is installed at an air outlet (B) of the air suction pump (2), a carried substance decomposition processor (6.7) and an electromagnetic valve (B2) are installed in the middle of the air exhaust pipeline (A2), the other end of the air exhaust pipeline is communicated with an air inlet (h) of the air water making device (11), and air is introduced from an air outlet (n) of the air water making device (11); an air inflation pipeline (A3) is arranged at an air outlet (d) of the air inflation pump (3), an electromagnetic valve (B3) is arranged in the middle of the air inflation pipeline (A3), and the other end of the air inflation pipeline extends into the modular positive and negative pressure cabin (1T) to form an air inflation inlet (f); an air inlet pipeline (A4) is installed at an air inlet (e) of the inflator pump (3), an electromagnetic valve (B4) and an air filter (6.8) are installed in the middle of the air inlet pipeline (A4), and the other end of the air inlet pipeline is communicated with the atmosphere; the electromagnetic valve (B4) is also connected with a circulating pipeline (A5), the other end of the circulating pipeline (A5) is communicated with the electromagnetic valve (B3), and then the circulating pipeline (A3) extends into the modular positive and negative pressure cabin (1T) to form a circulating return air port (j) of the modular positive and negative pressure cabin; the air charging pipeline (A3) is further connected with carrying air pipes (A6), (A6.1) and (A6.2), the middle part of the carrying air pipe (A6) is provided with an electromagnetic valve (B6), the other end of the carrying air pipe is connected to an air inlet (T) of an airflow carrying object generator assembly (6.02), the air outlet(s) of the airflow carrying object generator assembly (6.02) is provided with the carrying air pipe (A7), the middle part of the carrying air pipe (A7) is provided with an electromagnetic valve (B7), the other end of the carrying air pipe extends into a positive and negative pressure cabin (1T) to form a carrying air inlet (i), the middle parts of the air pipes (A6.1) and (A6.2) are respectively provided with electromagnetic valves (B6.1) and (B6.2), and the other end of the carrying air pipe type fluid carrying object generator assembly (6.021) and the air inlet (6.05) of the integrated pipe type fluid carrying object generator are respectively connected into the positive and negative pressure cabin (1T); the aeration pipeline (A3) is also connected with an air-to-water aeration pipeline (A9), the air-to-water aeration pipeline (A9) is connected with an electromagnetic valve (B2) and then connected with an exhaust pipeline (A2), the middle part of the exhaust pipeline (A2) is communicated with an air-to-water device (11), and the other end of the exhaust pipeline is communicated with the atmosphere; the touch screen and mobile phone monitoring and identifying system (12) comprises a box door touch screen (12.1), a mobile phone APP (12.2), a high-definition anti-fog camera shooting and identifying device (12.3) and a radar scanning and identifying device (12.5); the high-definition anti-fog camera shooting and identifying device (12.3) and the radar scanning and identifying device (12.5) are arranged at positions to be monitored and identified inside and outside the box body (7); the modular positive and negative ballast (1T) is internally provided with an airflow carried object generator assembly (6.021) or an integrated pipeline type fluid carried object generator (6.05) and a sensor (C); the sensor (C) comprises a sensor ensemble (CA) comprising one or more of the following monolithic sensors (C1) to (C12) as required: the device comprises a pressure sensor (C1), a negative pressure sensor (C2), a superoxide sensor (C3), a negative ion sensor (C4), a catalyst sensor (C5), a humidity sensor (C6), an oxygen sensor (C7), a nitrogen sensor (C8), a disinfection degradation sensor (C9), an air particulate matter sensor (C10), a temperature sensor (C11) and a carried matter sensor item-adding upgrading module (C12); the carried object sensor item-adding upgrading module (C12) is a combined module which can arrange or install any single sensor item-adding into the sensor integration and upgrade the sensor; all fluid carried objects generate a processor (6), a sensor (C), an electromagnetic valve (B), an air pump (2), an inflator pump (3), a refrigerating system (8), an air water making device (11), a touch screen and a mobile phone monitoring and identifying system (12) which are connected into a positive and negative pressure intelligent regulation and control device (5) through a line (D) or a cluster line (E).

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