CN114877425B - Inside air current automatically regulated formula clean system - Google Patents

Abstract

The present invention provides an internal air flow self-regulating cleaning system. The internal air flow self-adjusting type cleaning system comprises a clean room, an air inlet and air storage tank, a first air flow processing platform, an air inlet driving assembly for driving air in the air inlet and air storage tank to enter the clean room, a gas diffusion assembly for driving gas entering the clean room to diffuse, a first purifying assembly for ionizing and cleaning air, a second purifying assembly for performing high-voltage electric treatment on the air, a constant-temperature processing assembly for performing constant-temperature treatment on the air passing through the clean room and an exhaust assembly for exhausting the cleaned air to the outside air.

Description

Inside air current automatically regulated formula clean system

Technical Field

The invention relates to the technical field of air flow cleaning systems, in particular to an internal air flow self-adjusting cleaning system.

Background

The clean room is a space with good tightness, which is used for controlling parameters such as air cleanliness, temperature, humidity, pressure, noise and the like as required. That is, the indoor environment can maintain the originally set performance of cleanliness, temperature, humidity, pressure and the like regardless of the change of the external air condition. The cleaning room has the main function of controlling the cleanliness and the temperature and the humidity of the atmosphere contacted with the product, so that the product can be produced and manufactured in a good environmental space. Clean rooms are also known as clean rooms, dust-free rooms or clean rooms.

However, in the prior art, a clean room cannot achieve efficient purification of an air flow and a constant temperature air flow is required in a special occasion, but the existing clean room cannot complete the constant temperature treatment of the air flow.

There is thus an urgent need to redesign a new internal air flow self-regulating cleaning system to solve the above-mentioned problems.

Disclosure of Invention

The present invention provides an internal air flow self-adjusting cleaning system to solve the technical problems set forth in the background art described above.

The invention provides an internal air flow self-adjusting type cleaning system which comprises a clean room, an air inlet and air storage tank, a first air flow processing platform, an air inlet driving component, a gas diffusion component, a first purifying component, a second purifying component, a constant temperature processing component and an exhaust component, wherein the air inlet driving component is used for driving air in the air inlet and air storage tank to enter the clean room, the gas diffusion component is used for driving the air entering the clean room to diffuse, the first purifying component is used for ionizing and cleaning the air, the second purifying component is used for performing high-voltage electric treatment on the air, the constant temperature processing component is used for performing constant temperature processing on the air passing through the clean room, the exhaust component is used for exhausting the cleaned air to the outside, the clean room is of a rectangular structure, an initial air inlet hole is formed in the lower side of the clean room, the air inlet and the air storage tank are communicated with the initial air inlet hole, the first air flow processing platform is arranged on one side of the air inlet and air storage tank, the air inlet driving component is arranged on the first air flow processing platform, the gas diffusion component is arranged on the first air flow processing platform, the first purifying component is arranged between the air inlet driving component and the constant temperature processing component, the first purifying component is arranged on the first air flow processing platform, the first purifying component is arranged on the bottom surface of the clean room, and the first air flow processing component is arranged on the bottom surface, and far from the clean room.

Optionally, the gas inlet driving assembly comprises a first gas inlet guide pipe, a gas diffusion part, a first gas exhaust fan and a controller, wherein the gas inlet diffusion part is installed on the first gas flow processing platform, the upper side of the gas diffusion part is in an open shape, one end of the first gas inlet guide pipe is communicated with the upper side of the gas inlet storage tank, the other end of the first gas inlet guide pipe is communicated with the bottom of the gas inlet diffusion part, the first gas exhaust fan is installed on the side wall of the gas diffusion part, the controller is installed on the first gas flow processing platform, and the controller is electrically connected with the first gas exhaust fan.

Optionally, the gas diffusion subassembly includes gas diffusion support, gas diffusion holding case, gas diffusion drive wheel, gas diffusion speed reducer and gas diffusion driving motor, the gas diffusion support is installed on the first gas flow machining platform, the gas diffusion holding case holding is in the gas diffusion support, the gas diffusion drive wheel rotates to be connected on the gas diffusion holding case, the gas diffusion driving motor with the equal fixed connection of gas diffusion speed reducer is in on the gas diffusion support lateral wall, just the output of gas diffusion driving motor with the gas diffusion speed reducer is connected, the output of gas diffusion speed reducer with the gas diffusion drive wheel is connected.

Optionally, the gas diffusion driving wheel is covered with an adsorption net for adsorbing impurities in the air.

Optionally, the first purification subassembly includes purifying support, first purification insulating part, second purification insulating part, purifies limit baffle, purifies drive shaft, a plurality of purification conducting strips, purifies drive fan and purifies drive motor, purifying support installs on the first air current processing platform, first purification insulating part is installed purifying support one end, the second purification insulating part is installed purifying support other end, a plurality of purification conducting strips equidistant are installed purifying on the support, purify limit baffle installs first purification insulating part with purify between the conducting strips, purify drive shaft one end with purify limit baffle and rotate and be connected, purify the drive shaft other end and pass first purification insulating part, just purify the drive shaft and stretch out first purification insulating part's one end with it is connected to purify drive fan, purify drive motor installs first purification insulating part upside, just purify drive motor's output with it is connected to purify the drive shaft, it is towards to purify drive fan inlet air drive subassembly.

Optionally, the second purifying component includes purifying box, first connection pivot, second connection pivot, a plurality of first connecting gear, a plurality of second connecting gear, initiative chain, a plurality of first driven chain, a plurality of second driven chain, a plurality of high-voltage discharge portion, chain driving motor and a plurality of air outlet valve, purifying box installs on the toilet bottom surface, just purifying box orientation gas diffusion component, first connection pivot with the second connection pivot is all rotated and is connected in the purifying box, a plurality of first connecting wheel is installed in the first connection pivot, a plurality of second connecting gear is installed in the second connection pivot, chain driving motor installs on the purifying box lateral wall, just initiative chain one end with chain driving motor's output is connected, the initiative chain other end with first connecting gear is connected, first driven chain with the second driven chain is all connected between first connecting gear and the second connecting gear, a plurality of first driven chains with a plurality of high-voltage discharge portion are installed with a plurality of air outlet valves keep away from between the processing platform in the purifying box.

Optionally, a gas accelerating component for improving the flowing speed of the air in the purifying box body is arranged on the side wall of the purifying box body; the gas accelerating assembly comprises an accelerating air outlet valve, a high-pressure air storage tank, a first accelerating connecting pipeline, an accelerating air pump, an air extracting base and a second accelerating connecting pipeline, wherein the high-pressure air storage pipe is arranged on the side wall of the purifying box body, the accelerating air outlet valve is arranged on the side wall of the purifying box body, the other end of the accelerating air outlet valve is communicated with the high-pressure air storage tank, the air extracting base is arranged on the bottom surface of the cleaning room, the accelerating air pump is arranged on the air extracting base, one end of the first accelerating connecting pipeline is connected with the high-pressure air storage tank, the other end of the first accelerating connecting pipeline is connected with the second accelerating connecting pipeline, one end of the second accelerating connecting pipeline is far away from the first accelerating connecting pipeline and is communicated with the purifying box body, and the output end of the accelerating air pump extends into the junction of the first accelerating connecting pipe and the second accelerating connecting pipe.

Optionally, the constant temperature processing subassembly includes first heating tower, second heating tower, third heating tower and first supplementary air-blower and second supplementary air-blower, first heating tower is installed second purification subassembly one side, first supplementary air-blower with second supplementary air-blower sets gradually first heating tower is kept away from second purification subassembly's one side, the second heating tower is installed one side of first supplementary air-blower, the third heating tower is installed one side of second supplementary air-blower, just the diameter of first heating tower is less than the diameter of second heating tower, the diameter of second heating tower with the diameter of third heating tower is the same.

Optionally, the exhaust assembly includes exhaust chamber, a plurality of exhaust driving motor, a plurality of exhaust fan and gas detection subassembly, the exhaust chamber is installed in the toilet, a plurality of exhaust driving motor equidistant are installed in the exhaust chamber, exhaust driving motor's output with exhaust fan connects, just set up terminal exhaust hole on the exhaust chamber bottom surface, terminal exhaust hole with the toilet bottom surface keeps the intercommunication, gas detection subassembly installs in the exhaust chamber.

Optionally, the gas detection subassembly is including detecting admission line, first detection gas holder, second detection gas holder, gas separation pipeline and gas index detector, first detection gas holder with the second detection gas holder is all installed in the exhaust chamber, the admission line respectively with first detection gas holder with the second detects the gas holder intercommunication, gas separation pipeline with first detection gas holder with second detects the gas holder upper end intercommunication, just the gas separation pipeline other end with gas index detector connects, gas index detector installs first detection gas holder or second detects gas holder one side.

The beneficial effects of the invention are as follows:

the internal air flow self-adjusting type cleaning system comprises a clean room, an air inlet and air storage tank, a first air flow processing platform, an air inlet driving assembly used for driving air in the air inlet and air storage tank to enter the clean room, a gas diffusion assembly used for driving the air entering the clean room to diffuse, a first purifying assembly used for ionizing and cleaning the air, a second purifying assembly used for conducting high-voltage electric treatment on the air, a constant-temperature processing assembly used for conducting constant-temperature treatment on the air passing through the clean room and an exhaust assembly used for exhausting the cleaned air to the outside air, wherein the clean room is of a rectangular structure, an initial air inlet hole is formed in the lower side of the clean room, the air inlet and air storage tank are installed in the clean room, the air inlet and the initial air inlet hole are kept communicated, the first air flow processing platform is installed on one side of the air inlet and the first air flow processing platform, and the gas diffusion assembly is installed on the first air flow processing platform.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a first view of an internal air flow self-regulating cleaning system according to the present invention;

FIG. 2 is a schematic diagram of a second view of the internal air flow self-regulating cleaning system provided by the present invention;

FIG. 3 is a schematic view of a third view of an internal air flow self-regulating cleaning system according to the present invention;

FIG. 4 is an enlarged partial view of area A of FIG. 3;

FIG. 5 is a schematic diagram of a fourth view of an internal air flow self-regulating cleaning system according to the present invention;

FIG. 6 is an enlarged partial view of region B of FIG. 5;

FIG. 7 is an enlarged partial view of region C of FIG. 5;

FIG. 8 is a schematic diagram of a fifth view of an internal air flow self-regulating cleaning system according to the present invention;

FIG. 9 is an enlarged partial view of region D of FIG. 8;

fig. 10 is a partial enlarged view of the area E in fig. 9.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present invention are shown in the drawings. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the invention. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

Referring to fig. 1 to 10, the internal air flow self-adjusting type cleaning system of the present invention includes a clean room 100, an air inlet and air storage tank 110, a first air flow processing platform 120, an air inlet driving assembly 200 for driving air in the air inlet and air storage tank 110 into the clean room 100, a gas diffusion assembly 300 for driving gas into the clean room 100 to diffuse, a first cleaning assembly 400 for ionizing and cleaning air, a second cleaning assembly 500 for high-voltage electric treatment of air, a constant temperature processing assembly for constant temperature processing of air passing through the clean room 100, and an exhaust assembly 800 for exhausting cleaned air to the outside air;

the clean room 100 is in a rectangular structure, an initial air inlet hole 101 is formed in the lower side of the clean room 100, the air inlet and air storage tank 110 is installed in the clean room 100, the air inlet and air storage tank 110 is communicated with the initial air inlet hole 101, the first air flow processing platform 120 is installed on one side of the air inlet and air storage tank 110, the air inlet driving assembly 200 is installed on the first air flow processing platform 120, the air diffusion assembly 300 is installed on the first air flow processing platform 120, the first purifying assembly 400 is arranged between the air inlet driving assembly 200 and the air diffusion assembly 300, the second purifying assembly 500 is installed on the bottom surface of the clean room 100, the constant temperature processing assembly is installed on one side, far away from the first air flow processing platform 120, of the second purifying assembly 500, and the exhaust assembly 800 is arranged on the bottom surface of the clean room 100;

when a user needs to use the internal air flow self-adjusting cleaning system of the present invention to clean air, firstly, the air to be cleaned passes through the initial air inlet hole 101 and enters the air inlet storage tank 110, then, the air inlet driving component 200 drives the air in the air inlet storage tank 110 to flow to the first cleaning component 400, then, the first cleaning component 400 performs a first cleaning action on the air, the air cleaned by the first cleaning component 400 enters one side of the air diffusing component 300, the air diffusing component 300 sends the air cleaned by the first cleaning component 400 to the second cleaning component 500, the second cleaning component 500 performs a second cleaning action on the air, then, the cleaning chamber 100 is internally provided with a constant temperature processing component, the temperature in the cleaning chamber 100 is kept at a preset temperature, so that the cleaned air is kept at a constant temperature, then, the cleaned air with the constant temperature enters the air exhausting component 800, and the air exhausting component sends the cleaned air with the constant temperature to the environment or equipment requiring the constant temperature;

and, the first gas flow processing stage 120 plays a role of fixedly supporting the gas inlet driving assembly 200, the gas diffusion assembly 300, and the first purifying assembly 400.

In this embodiment, the air intake driving assembly 200 includes a first air intake duct 210, a gas diffusion portion 220, a first gas exhaust fan 230 and a controller 240, the air intake diffusion portion is mounted on the first air flow processing platform 120, and the upper side of the gas diffusion portion 220 is in an open shape, one end of the first air intake duct 210 is communicated with the upper side of the air intake air storage tank 110, the other end of the first air intake duct 210 is communicated with the bottom of the air intake diffusion portion, the first gas exhaust fan 230 is mounted on the sidewall of the gas diffusion portion 220, the controller 240 is mounted on the first air flow processing platform 120, and the controller 240 is electrically connected with the first gas exhaust fan 230.

When the air intake driving assembly 200 needs to drive the external air in the air intake storage tank 110 to one side of the first purifying assembly 400, firstly, the controller 240 controls the working power of the first air blower 230 to control the air suction rate of the first air blower 230, and when the controller 240 controls the first air blower 230 to enter the working state, the first air blower 230 performs the air suction action on the first air intake conduit 210, so that the air in the air intake storage tank 110 enters the air diffusion portion 220 through the first air intake pipeline, and because the upper side of the air diffusion portion 220 is open, the air entering the air diffusion portion 220 quickly overflows the air diffusion portion 220, so that the air enters the first purifying assembly 400, and the rate of the air entering the first purifying assembly 400 is increased.

In this embodiment, the gas diffusion assembly 300 includes a gas diffusion support 310, a gas diffusion accommodating box 320, a gas diffusion driving wheel 330, a gas diffusion speed reducer 340 and a gas diffusion driving motor 350, the gas diffusion support 310 is mounted on the first gas flow processing platform 120, the gas diffusion accommodating box 320 is accommodated in the gas diffusion support 310, the gas diffusion driving wheel 330 is rotatably connected to the gas diffusion accommodating box 320, the gas diffusion driving motor 350 and the gas diffusion speed reducer 340 are fixedly connected to the side wall of the gas diffusion support 310, and an output end of the gas diffusion driving motor 350 is connected to the gas diffusion speed reducer 340, and an output end of the gas diffusion speed reducer 340 is connected to the gas diffusion driving wheel 330.

Wherein, the gas diffusion bracket 310 plays a role of fixedly supporting each structure in the whole gas diffusion assembly 300, and the gas accommodating box is used for accommodating tiny impurities in the air;

after the first purifying component 400 performs the first purifying action on the air, the air enters into one side of the gas diffusion component 300, at this time, the gas diffusion driving motor 350 enters into a working state, and the gas diffusion driving motor 350 drives the gas diffusion speed reducer 340 to enter into a working state, so that the gas diffusion speed reducer 340 drives the gas diffusion driving wheel 330 to rotate on the gas diffusion accommodating box 320, and the gas diffusion driving wheel 330 blows the air processed by the first purifying component 400 to the second purifying component 500 when rotating.

In this embodiment, the gas diffusion driving wheel 330 is covered with an adsorption net 331 for adsorbing impurities in the air.

Wherein, a plurality of apertures have been seted up on the adsorption net 331 to make gas diffusion drive wheel 330 when high-speed rotation, adsorption net 331 adsorb the tiny particle impurity in the air, and, along with adsorption net 331 when rotating, adsorption net 331 gets rid of the tiny particle in the air to gas diffusion holding case 320 in, thereby also can realize the auxiliary purification effect to the air to a certain extent.

In this embodiment, the first purifying assembly 400 includes a purifying bracket 410, a first purifying insulating part 420, a second purifying insulating part 430, a purifying limit baffle 440, a purifying driving shaft 450, a plurality of purifying conductive sheets 460, a purifying driving fan 470 and a purifying driving motor 480, the purifying bracket 410 is mounted on the first air flow processing platform 120, the first purifying insulating part 420 is mounted at one end of the purifying bracket 410, the second purifying insulating part 430 is mounted at the other end of the purifying bracket 410, a plurality of purifying conductive sheets 460 are mounted on the purifying bracket 410 at equal intervals, the purifying limit baffle 440 is mounted between the first purifying insulating part 420 and the purifying conductive sheets 460, one end of the purifying driving shaft 450 is rotatably connected with the purifying limit baffle 440, the other end of the purifying driving shaft 450 passes through the first purifying insulating part 420, and one end of the purifying driving shaft 450 extends out of the first purifying insulating part 420 to be connected with the purifying driving fan 470, the purifying driving motor 480 is mounted at the upper side of the first purifying insulating part 420, and the output end of the purifying driving motor 480 is connected with the purifying driving fan 470 toward the air intake assembly 200.

Wherein, the purification bracket 410 plays a role of fixing and supporting each structure in the first purification assembly 400, and when the gas driving assembly brings the air in the air inlet and outlet tank to one side of the first purification assembly 400, at this time, the purification driving motor 480 enters a working state, so that the purification driving motor 480 drives the purification driving shaft 450 to rotate, and the purification driving shaft 450 drives the purification driving fan 470 to rotate, so that the purification driving fan 470 drives the air to approach the purification conducting plate 460, and the purification conducting plate 460 is connected with external power supply equipment, so that when the air contacts with the purification conducting plate 460, the purification conducting plate 460 performs ionization action on the air, and the air passing through the purification conducting plate 460 is ionized and purified;

furthermore, it should be noted that the materials of the first purifying insulating portion 420 and the second purifying insulating portion 430 may be rubber, the first purifying insulating portion 420 and the second purifying insulating portion 430 are respectively disposed at two ends of the purifying bracket 410, and the first purifying insulating portion 420 and the second purifying insulating portion 430 can improve the safety of the first purifying assembly 400 during operation.

In this embodiment, the second purifying assembly 500 includes a purifying box 510, a first connecting rotating shaft 520, a second connecting rotating shaft 530, a plurality of first connecting gears 540, a plurality of second connecting gears 541, a driving chain 550, a plurality of first driven chains 560, a plurality of second driven chains 561, a plurality of high-voltage discharging portions 570, a chain driving motor 580, and a plurality of air outlet valves 590, the purifying box 510 is mounted on the bottom surface of the purifying room 100, the purifying box 510 faces the gas diffusion assembly 300, the first connecting rotating shaft 520 and the second connecting rotating shaft 530 are all rotatably connected in the purifying box 510, a plurality of first connecting gears are mounted on the first connecting rotating shaft 520, a plurality of second connecting gears 541 are mounted on the second connecting rotating shaft 530, the chain driving motor 580 is mounted on the side wall of the purifying box 510, one end of the driving chain 550 is connected with the output end of the chain driving motor 580, the other end of the driving motor 550 is connected with the first connecting gears 540, the first driven chains 560 and the second driven chains 550 are connected with the air outlet valves 590, and the first driven chains are mounted on the side of the side wall of the purifying box 510, and the first driven chains are connected with the first driven chains 541 and the second driven chains 590, and the driven chains are kept away from the first side of the purifying box 510.

When the gas diffusion assembly 300 sends the air purified by the first purification assembly 400 to the second purification assembly 500, the second purification assembly 500 performs a second high-voltage ionization action on the air, thereby improving the cleanliness of the air;

specifically, when the air purified by the first purifying assembly 400 is sent to the second purifying assembly 500 by the gas diffusing assembly 300, first, the chain driving motor 580 enters into a working state, so that the chain driving motor 580 drives the driving chain 550 to rotate, and further, the first connecting gear 540 rotates, and the first connecting gear 540 drives the second connecting gear 541 to rotate through the first driven chain 560, and in the process of rotating the first connecting gear 540, the first connecting rotating shaft 520 is driven to rotate, and in the process of rotating the second connecting gear 541, the second connecting rotating shaft 530 is driven to rotate, so that the second driven chain 561 and the first driven chain 560 synchronously move, and further, the first driven chain 560 and the second driven chain 561 mutually cooperate to drive the plurality of high-voltage discharging parts 570 to rotate between the first driven chain 560 and the second driven chain 561, and the high-voltage discharging parts 570 are connected with external power supply equipment, so that the air entering into the purifying box 510 performs a high-voltage purifying action under the action of the high-voltage discharging parts 570, and further, the second purifying action of the air is completed.

In this embodiment, a gas acceleration component 600 for increasing the flow rate of air in the purifying box 510 is disposed on the side wall of the purifying box 510; the gas accelerating assembly 600 comprises an accelerating air outlet valve 610590, a high-pressure air storage tank 620, a first accelerating connecting pipeline 630, an accelerating air pump 640, an air exhaust base 650 and a second accelerating connecting pipeline 660, wherein the high-pressure air storage pipe is arranged on the side wall of the purifying box body 510, the accelerating air outlet valve 610590 is arranged on the side wall of the purifying box body 510, the other end of the accelerating air outlet valve 610590 is communicated with the high-pressure air storage tank 620, the air exhaust base 650 is arranged on the bottom surface of the clean room 100, the accelerating air pump 640 is arranged on the air exhaust base 650, one end of the first accelerating connecting pipeline 630 is connected with the high-pressure air storage tank 620, the other end of the first accelerating connecting pipeline 630 is connected with the second accelerating connecting pipeline 660, the second accelerating connecting pipeline 660 is far away from one end of the first accelerating connecting pipeline 630 and is communicated with the purifying box body 510, and the output end of the accelerating air pump 640 extends into the connecting pipe junction of the first accelerating air pump 640.

Wherein, the gas acceleration assembly 600 can improve the flow of air in the purifying box 510, thereby improving the purifying effect of the high-voltage discharge portion 570 on the air;

specifically, a part of the air entering the purifying box 510 enters the accelerating air outlet valve 610590, then enters the high-pressure air storage tank 620 through the accelerating air outlet valve 610590, and the high-pressure air storage tank 620 can accommodate relatively more air, so that the balance of the air pressures in the accelerating air storage valve, the first accelerating connecting pipeline 630 and the second accelerating connecting pipeline 660 is ensured, and the accelerating air pump 640 generates suction force, so that the air in the high-pressure air storage tank 620 returns to the purifying box 510 through the first accelerating connecting pipeline 630 and the second accelerating connecting pipeline 660, the flow rate of the air is improved, the purifying efficiency of the high-pressure discharging part 570 to the air is indirectly improved, and the air pumping base 650 plays a role of fixed support to the accelerating air pump 640, so that the stability of the accelerating air pump 640 in air pumping work is improved.

In this embodiment, the constant temperature processing assembly includes a first heating tower 710, a second heating tower 720, a third heating tower 730, and a first auxiliary blower 740 and a second auxiliary blower 750, the first heating tower 710 is installed at one side of the second purifying assembly 500, the first auxiliary blower 740 and the second auxiliary blower 750 are sequentially disposed at one side of the first heating tower 710 away from the second purifying assembly 500, the second heating tower 720 is installed at one side of the first auxiliary blower 740, the third heating tower 730 is installed at one side of the second auxiliary blower 750, and the diameter of the first heating tower 710 is smaller than the diameter of the second heating tower 720, and the diameter of the second heating tower 720 is the same as the diameter of the third heating tower 730.

Wherein, the heating mechanism is disposed in the first heating tower 710, the second heating tower 720 and the third heating tower 730, so that the first heating tower 710, the second heating tower 720 and the third heating tower 730 can emit constant temperature, so as to perform heat preservation heating action on air according to preset temperature, and then the first auxiliary blower 740 and the second auxiliary blower 750 can improve the flow of air among the first heating tower 710, the second heating tower 720 and the third heating tower 730, and further achieve higher efficiency of preheating action on air.

In this embodiment, the exhaust assembly 800 includes an exhaust chamber 810, a plurality of exhaust driving motors 820, a plurality of exhaust fans 830, and a gas detection assembly 900, the exhaust chamber 810 is installed in the clean room 100, a plurality of exhaust driving motors 820 are installed in the exhaust chamber 810 at equal intervals, an output end of the exhaust driving motor 820 is connected with the exhaust fans 830, and a terminal exhaust hole 811 is formed in a bottom surface of the exhaust chamber 810, the terminal exhaust hole 811 is in communication with a bottom surface of the clean room 100, and the gas detection assembly 900 is installed in the exhaust chamber 810.

Wherein, the air after the constant temperature treatment of the constant temperature processing assembly enters the exhaust assembly 800;

specifically, firstly, the air after being subjected to the constant temperature treatment by the constant temperature processing assembly enters the exhaust chamber 810, and then, the exhaust driving motor 820 drives the exhaust fan 830 to rotate, so that the flow rate of the air in the exhaust chamber 810 is accelerated, and the air detection assembly 900 detects the air to ensure that the air purification and the temperature index are qualified, and then, the air is discharged into the external device or the external environment through the terminal exhaust hole 811.

In this embodiment, the gas detection assembly 900 includes a detection gas inlet pipe 910, a first detection gas storage tank 920, a second detection gas storage tank 930, a gas separation pipe 940, and a gas index detector 950, where the first detection gas storage tank 920 and the second detection gas storage tank 930 are both installed in the exhaust chamber 810, the gas inlet pipe is respectively communicated with the first detection gas storage pipe and the second detection gas storage pipe, the gas separation pipe 940 is communicated with the first detection gas storage pipe and the upper end of the second detection gas storage pipe, and the other end of the gas separation pipe 940 is connected with the gas index detector 950, and the gas index detector 950 is installed on one side of the first detection gas storage tank 920 or the second detection gas storage tank 930.

When the gas detection assembly 900 needs to detect the air in the exhaust chamber 810, firstly, the air entering the exhaust chamber 810 enters the first detection air tank and the second detection air tank 930 through the detection air inlet pipe 910 for temporary placement, then, the air in the first detection air tank 920 and the second detection air tank 930 enters the gas index detector 950 through the gas separation pipe 940, and the lower side plate of the gas index detector 950 is provided with an air guide hole, so that the detected gas continues to enter the exhaust chamber 810, and a plurality of detection sensors are arranged in the gas index detector 950, so as to detect whether the impurity in the air exceeds the preset index and whether the temperature of the air accords with the expected temperature.

The internal air flow self-adjusting type cleaning system comprises a cleaning room 100, an air inlet and air storage tank 110, a first air flow processing platform 120, an air inlet and air driving assembly 200 for driving air in the air inlet and air storage tank 110 to enter the cleaning room 100, a gas diffusion assembly 300 for driving gas entering the cleaning room 100 to diffuse, a first purifying assembly 400 for ionizing and cleaning the air, a second purifying assembly 500 for performing high-voltage electric treatment on the air, a constant-temperature processing assembly for performing constant-temperature treatment on the air passing through the cleaning room 100 and an exhaust assembly 800 for exhausting the cleaned air to the outside air, wherein the cleaning room 100 is of a rectangular structure, an initial air inlet hole 101 is formed in the lower side of the cleaning room 100, the air inlet and air storage tank 110 is arranged in the cleaning room 100, the air inlet and air storage tank 110 is communicated with the initial air inlet hole 101, the first air flow processing platform 120 is arranged on one side of the air inlet and air storage tank 110, the air inlet and air diffusion assembly 300 is arranged on the first air flow processing platform 120, wherein the constant-temperature processing assembly is used for performing constant-temperature treatment on the air flow processing assembly, the cleaning room 100 is matched with the air flow processing assembly, and the internal air flow self-adjusting efficiency of the cleaning system is controlled by the self-adjusting system, and the internal air flow system is realized, and the internal temperature of the cleaning system is controlled by the self-adjusting the air flow processing assembly.

The foregoing description is only of embodiments of the present invention, and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the present invention.

Claims (7)

1. An internal air flow self-regulating cleaning system comprising

The clean room is of a rectangular structure, and an initial air inlet hole is formed in the lower side of the clean room;

the air inlet and air storage tank is arranged in the clean room and is communicated with the initial air inlet hole;

the first airflow processing platform is arranged on one side of the air inlet and air storage tank;

an air inlet driving assembly for driving the air in the air inlet storage tank to enter the clean room,

the air inlet driving assembly is arranged on the first air flow processing platform;

a gas diffusion assembly for driving gas entering the clean room to diffuse, the gas diffusion assembly being mounted on the first gas flow processing platform;

a first purifying assembly for ionizing and cleaning air, the first purifying assembly being disposed between the intake driving assembly and the gas diffusion assembly; the first purification assembly comprises a purification support, a first purification insulating part, a second purification insulating part, a purification limiting baffle, a purification driving shaft, a plurality of purification conducting strips, a purification driving fan and a purification driving motor, wherein the purification support is installed on the first airflow processing platform, the first purification insulating part is installed at one end of the purification support, the second purification insulating part is installed at the other end of the purification support, the plurality of purification conducting strips are installed on the purification support at equal intervals, the purification limiting baffle is installed between the first purification insulating part and the purification conducting strips, one end of the purification driving shaft is rotatably connected with the purification limiting baffle, the other end of the purification driving shaft penetrates through the first purification insulating part, one end of the purification driving shaft extending out of the first purification insulating part is connected with the purification driving fan, the purification driving motor is installed at the upper side of the first purification insulating part, the output end of the purification driving motor is connected with the purification driving shaft, and the purification driving fan faces the air inlet driving assembly;

a second purifying assembly for performing high-voltage electric treatment on air, the second purifying assembly being installed on the bottom surface of the clean room; the second purifying component comprises a purifying box body, a first connecting rotating shaft, a second connecting rotating shaft, a plurality of first connecting gears, a plurality of second connecting gears, a driving chain, a plurality of first driven chains, a plurality of second driven chains, a plurality of high-voltage discharging parts, a chain driving motor and a plurality of air outlet valves, wherein the purifying box body is installed on the bottom surface of the clean room, the purifying box body faces to the air diffusion component, the first connecting rotating shaft and the second connecting rotating shaft are all rotationally connected in the purifying box body, a plurality of first connecting wheels are installed on the first connecting rotating shaft, a plurality of second connecting gears are installed on the second connecting rotating shaft, the chain driving motor is installed on the side wall of the purifying box body, one end of the driving chain is connected with the output end of the chain driving motor, the other end of the driving chain is connected with the first connecting gears, the first driven chain and the second driven chain are all connected between the first connecting gears and the second connecting gears, a plurality of high-voltage driving chains are installed on the first air outlet shafts and the second driven chains are far away from the processing platform, and the air outlet valves are arranged on one side of the purifying box body;

a constant temperature processing assembly for performing constant temperature treatment on air passing through the clean room, the constant temperature processing assembly being installed at a side of the second purifying assembly away from the first air flow processing platform;

an exhaust assembly for exhausting the cleaned air to the outside air, the exhaust assembly being disposed on the bottom surface of the clean room;

the side wall of the purifying box body is provided with a gas accelerating component for improving the flowing speed of air in the purifying box body; the gas accelerating assembly comprises an accelerating air outlet valve, a high-pressure air storage tank, a first accelerating connecting pipeline, an accelerating air pump, an air extracting base and a second accelerating connecting pipeline, wherein the high-pressure air storage pipe is arranged on the side wall of the purifying box body, the accelerating air outlet valve is arranged on the side wall of the purifying box body, the other end of the accelerating air outlet valve is communicated with the high-pressure air storage tank, the air extracting base is arranged on the bottom surface of the cleaning room, the accelerating air pump is arranged on the air extracting base, one end of the first accelerating connecting pipeline is connected with the high-pressure air storage tank, the other end of the first accelerating connecting pipeline is connected with the second accelerating connecting pipeline, one end of the second accelerating connecting pipeline is far away from the first accelerating connecting pipeline and is communicated with the purifying box body, and the output end of the accelerating air pump extends into the junction of the first accelerating connecting pipe and the second accelerating connecting pipe.

2. The internal air flow self-regulating cleaning system of claim 1, wherein the air intake drive assembly comprises a first air intake conduit, a gas diffusion portion, a first gas exhauster, and a controller, the gas diffusion portion is mounted on the first air flow processing platform, and the upper side of the gas diffusion portion is open, one end of the first air intake conduit is in communication with the upper side of the air intake reservoir, the other end of the first air intake conduit is in communication with the bottom of the air diffusion portion, the first gas exhauster is mounted on the sidewall of the gas diffusion portion, the controller is mounted on the first air flow processing platform, and the controller is electrically connected with the first gas exhauster.

3. The internal air flow self-adjusting cleaning system of claim 1, wherein the air diffusion assembly comprises an air diffusion support, an air diffusion accommodating box, an air diffusion driving wheel, an air diffusion speed reducer and an air diffusion driving motor, the air diffusion support is mounted on the first air flow processing platform, the air diffusion accommodating box is accommodated in the air diffusion support, the air diffusion driving wheel is rotationally connected to the air diffusion accommodating box, the air diffusion driving motor and the air diffusion speed reducer are fixedly connected to the side wall of the air diffusion support, an output end of the air diffusion driving motor is connected with the air diffusion speed reducer, and an output end of the air diffusion speed reducer is connected with the air diffusion driving wheel.

4. The internal air flow self-regulating cleaning system according to claim 3, wherein the gas diffusion driving wheel is covered with an adsorption net for adsorbing impurities in the air.

5. The internal air flow self-regulating cleaning system of claim 1, wherein the constant temperature processing assembly comprises a first heating tower, a second heating tower, a third heating tower, and first and second auxiliary blowers, the first heating tower mounted on one side of the second cleaning assembly, the first and second auxiliary blowers sequentially disposed on a side of the first heating tower remote from the second cleaning assembly, the second heating tower mounted on a side of the first auxiliary blower, the third heating tower mounted on a side of the second auxiliary blower, and the first heating tower having a diameter less than a diameter of the second heating tower, the second heating tower having a diameter the same as a diameter of the third heating tower.

6. The internal air flow self-regulating cleaning system of claim 1, wherein the exhaust assembly comprises an exhaust chamber, a plurality of exhaust drive motors, a plurality of exhaust fans and a gas detection assembly, the exhaust chamber is installed in the cleaning chamber, the plurality of exhaust drive motors are installed in the exhaust chamber at equal intervals, the output ends of the exhaust drive motors are connected with the exhaust fans, terminal exhaust holes are formed in the bottom surface of the exhaust chamber, the terminal exhaust holes are communicated with the bottom surface of the cleaning chamber, and the gas detection assembly is installed in the exhaust chamber.

7. The internal air flow self-regulating cleaning system of claim 6, wherein the gas detection assembly comprises a detection air inlet pipe, a first detection air storage tank, a second detection air storage tank, a gas separation pipe and a gas index detector, wherein the first detection air storage tank and the second detection air storage tank are all installed in the exhaust chamber, the air inlet pipe is respectively communicated with the first detection air storage pipe and the second detection air storage pipe, the gas separation pipe is communicated with the upper ends of the first detection air storage pipe and the second detection air storage pipe, the other end of the gas separation pipe is connected with the gas index detector, and the gas index detector is installed on one side of the first detection air storage tank or the second detection air storage tank.

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