CN111041742A

CN111041742A - Purification method and system of breathing type air washing purifier

Info

Publication number: CN111041742A
Application number: CN201910522675.5A
Authority: CN
Inventors: 殷俊国
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-10-14
Filing date: 2019-06-17
Publication date: 2020-04-21
Also published as: CN109082801A; WO2020078240A1

Abstract

The invention discloses a breathing type air washing purifier which comprises a breathing chamber, wherein a sealed space for accommodating clothes is formed in an inner cavity of the breathing chamber; the main equipment bin is internally provided with a power device; the air inlet guide pipe is communicated with an air outlet of the power device and the breathing bin, and an air inlet guide pipe electromagnetic valve is arranged on the air inlet guide pipe; the exhaust guide pipe is communicated with the air inlet of the power device and the breathing bin, and an exhaust guide pipe electromagnetic valve is arranged on the exhaust guide pipe; the exhaust gas pipe is communicated with the air outlet of the power device and the outside, and an exhaust gas pipe electromagnetic valve is connected to the exhaust gas pipe in series; and the air inlet pipe is connected to an air inlet of the power device and is connected with an air inlet pipe electromagnetic valve in series. The invention has the beneficial effects that: the purifying system utilizes the power device to drive the outside fresh air to replace the dirty air in the breathing bin, so that the clothes deodorization speed is high, and the effect is good; the sterilization structure can effectively sterilize and disinfect the clothes; the fragrance of the clothes can be selected according to the needs of the user.

Description

Purification method and system of breathing type air washing purifier

Technical Field

The invention relates to a clothes purifier, in particular to a purifying method and a purifying system of a breathing type air washing purifier.

Background

In daily life, the clothes are frequently polluted by different smells without being washed by water, and the clothes are usually aired or hung at a ventilating place, so that the time is wasted, the weather is required, and especially when the clothes are in emergency, the method cannot meet the requirements of users.

Patent document with application number 201720131846.8 discloses a clothing degerming purifier and washing machine, and clothing degerming purifier is including the staving that is used for splendid attire clothing and the degerming purification module that is linked together with the staving, and degerming purification module includes the DBD ion generator, and the DBD ion generator includes positive negative ion generator and dielectric barrier discharge module.

Although above-mentioned technical scheme can degerming to a certain extent and go flavor, the staving, the clothing degerming purifier and the connecting line that hold the clothing constitute an airtight space, and the air circulates in airtight space, only purifies dirty air through clothing degerming purifier, and purification efficiency is lower.

To solve the above problems, the present invention has been made.

Disclosure of Invention

The invention aims to provide a breathing type air washing purifier, which solves the problem of low purification efficiency in the prior art.

Another object of the present invention is to provide a method for purifying a breathing air laundry purifier.

The basic concept of the technical scheme adopted by the invention is as follows: a respiratory air laundry purifier, comprising:

the inner cavity of the breathing chamber forms a sealed space for accommodating clothes;

the main equipment bin is internally provided with a power device;

the air inlet guide pipe is communicated with an air outlet of the power device and the breathing bin, and an air inlet guide pipe electromagnetic valve is arranged on the air inlet guide pipe;

the exhaust guide pipe is communicated with the air inlet of the power device and the breathing chamber, and an exhaust guide pipe electromagnetic valve is arranged on the exhaust guide pipe;

the exhaust gas pipe is communicated with the air outlet of the power device and the outside, and an exhaust gas pipe electromagnetic valve is connected to the exhaust gas pipe in series;

and the air inlet pipe is connected with an air inlet of the power device, and an air inlet pipe electromagnetic valve is connected on the air inlet pipe in series.

Furthermore, the breathing type air washing purifier also comprises an air filtering bin, wherein at least one side wall of the air filtering bin is provided with an air inlet window, and an air filter is arranged in the air filtering bin;

the air filtering bin is communicated with an air inlet of the power device through the air inlet pipe.

According to some embodiments of the present invention, the respiratory air laundry purifier further comprises a sterilization chamber, the sterilization chamber having a sterilization device installed therein;

the degerming room is equipped with the intercommunication at least degerming room outlet duct of power device's air inlet, set up degerming room outlet duct solenoid valve on the degerming room outlet duct.

Preferably, the sterilization device is an oxygen anion generator;

or the sterilizing equipment is an ozone generator.

Further, the degerming chamber is also provided with a degerming chamber air inlet pipe communicated with the exhaust conduit, and a degerming chamber air inlet pipe electromagnetic valve is arranged on the degerming chamber air inlet pipe.

According to some embodiments of the present invention, the respiratory air laundry purifier further comprises a perfuming device comprising a perfume volatilization cartridge and a volatilization cartridge cover, the perfume volatilization cartridge having a perfume access opening, the volatilization cartridge cover being snapped onto the perfume access opening;

the perfume volatilization box is provided with a volatilization box air outlet pipe communicated with an air inlet of the power device, and the volatilization box air outlet pipe is provided with a volatilization box air outlet pipe electromagnetic valve;

the perfume volatilization box is also provided with a volatilization box air inlet pipe communicated with the exhaust duct, and the volatilization box air inlet pipe is provided with a perfuming electromagnetic valve.

According to some embodiments of the invention, the purifying method of the breathing type air washing purifier comprises a PLC integrated control circuit, and the PLC integrated control circuit controls the power device to drive external clean air to exchange with dirty air in the breathing chamber to realize clothes purification.

Further, the PLC integrated control circuit controls and opens the air inlet pipe electromagnetic valve, the power device, the air inlet conduit electromagnetic valve and the breathing chamber air inlet;

the PLC integrated control circuit controls the opening of the electromagnetic valve of the exhaust guide pipe, the power device and the electromagnetic valve of the exhaust gas pipe, and the exhaust of the breathing cabin is carried out;

the PLC integrated control circuit controls to open an air outlet pipe electromagnetic valve of the sterilization chamber, an air inlet pipe electromagnetic valve of the sterilization chamber, a power device and an air inlet guide pipe electromagnetic valve, and air in the sterilization chamber and air in the breathing chamber are communicated for sterilization of clothes;

the PLC integrated control circuit controls the opening of the air outlet pipe electromagnetic valve, the perfuming electromagnetic valve, the power device and the air inlet guide pipe electromagnetic valve of the volatilization box, and the air in the perfume volatilization box and the air in the breathing chamber are communicated to perfume the clothes.

Further, the purifying method of the breathing type air washing purifier comprises the following steps:

s1, hanging clothes into the breathing chamber;

s2, the purifier injects clean air into the breathing chamber by controlling the power device, and extracts dirty air in the breathing chamber to purify clothes;

s3, sterilizing the clothes by controlling air circulation in the sterilization room and the breathing chamber;

s4, perfuming the clothes by controlling the circulation of the air in the perfume volatilization box and the breathing chamber.

According to some embodiments of the present invention, the method for purifying a respiratory air washing and purifying device further comprises step S11, detecting the air tightness of the respiratory chamber, detecting the air tightness of the perfuming device, and detecting the air tightness of the sterilizing chamber.

Further, the step S2 includes a step S21 in which the purifier controls to open the exhaust conduit solenoid valve, the power device, and the exhaust gas conduit solenoid valve, to exhaust the air in the breathing chamber to the outside, and after the air pressure value of the breathing chamber reaches the negative air pressure limit value, the exhaust conduit solenoid valve, the power device, and the exhaust gas conduit solenoid valve are controlled to close;

s22, after the exhaust guide pipe electromagnetic valve, the power device and the exhaust gas pipe electromagnetic valve are closed, the breathing chamber is controlled to keep negative air pressure for a period of time;

s23, after the negative air pressure is kept, the purifier controls to open the air inlet pipe electromagnetic valve, the power device and the air inlet guide pipe electromagnetic valve, the filtered fresh air is injected into the breathing bin, and the air inlet pipe electromagnetic valve, the power device and the air inlet guide pipe electromagnetic valve are controlled to be closed after the air pressure value of the breathing bin reaches the positive air pressure limit value;

and S24, after the air inlet pipe electromagnetic valve, the power device and the air inlet conduit electromagnetic valve are closed, controlling the breathing chamber to keep positive air pressure for a period of time.

The invention has the beneficial effects that:

1. the purification system of the invention utilizes the power device to drive the outside fresh air to replace the dirty air in the breathing cabin, and the clothes deodorization speed is high and the effect is good.

2. The sterilization structure can effectively sterilize and disinfect clothes.

3. The perfuming device of the invention not only can keep clothes fresh, but also can select the fragrance of the clothes according to personal preference.

4. The deodorizing structure, the sterilizing structure and the perfuming device can be used independently or in combination, so that more choices are provided for users.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention, are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without limiting the invention to the right. It is obvious that the drawings in the following description are only some embodiments, and that for a person skilled in the art, other drawings can be derived from them without inventive effort. In the drawings:

fig. 1 is a schematic structural view of a breathing type air laundry purifier according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a sub-bin according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a sub-bin according to an embodiment of the present invention.

In the figure: 1. purifier hook, 2, auxiliary bin, 3, auxiliary bin cover, 4, air filtering bin, 5, air inlet window, 6, air filter, 61, air filter element, 7, air filtering bin cover, 8, air inlet pipe, 81, air filtering air pipe, 9, sterilization chamber, 91, negative oxygen ion bin, 92, ozone chamber, 10, sterilization equipment, 101, negative oxygen ion generator, 102, ozone generator, 11, sterilization chamber air outlet pipe, 111, negative oxygen ion air pipe, 112, ozone chamber air outlet pipe, 12, perfuming device, 121, perfume volatilization box, 13, volatilization box cover, 14, volatilization box air inlet pipe, 15, perfuming electromagnetic valve, 16, volatilization box air outlet pipe, 17, volatilization box air outlet pipe electromagnetic valve, 18, main equipment bin, 19, exhaust conduit, 20, exhaust conduit electromagnetic valve, 21, exhaust conduit electromagnetic valve, 22, exhaust conduit, 23, air inlet conduit, 24, sterilization chamber electromagnetic valve, 21, exhaust conduit electromagnetic valve, 22, exhaust conduit, 23, exhaust conduit, electromagnetic valve, and air outlet, 241. The air purifier comprises an ozone chamber air inlet pipe electromagnetic valve, 25 air inlet guide pipe electromagnetic valves, 26 power devices, 261 vacuum pressure pumps, 27 breathing chamber air pressure sensors, 28 PLC comprehensive control circuits, 29 main brackets, 30 breathing chambers, 31 sealing zippers, 32 breathing chamber sealing clamps, 33 clothes supporting hanging rings, 34 direct-current power supply input jacks, 35 power switches, 36 working state indicator lamps, 37 degerming chamber air inlet pipes, 371 ozone chamber air inlet pipes, 38 degerming chamber air outlet pipe electromagnetic valves, 381 negative oxygen ion air delivery pipe electromagnetic valves, 382 ozone chamber air outlet pipe electromagnetic valves, 39 air inlet pipe electromagnetic valves, 391 air filtering air delivery pipe electromagnetic valves.

It should be noted that the drawings and the description are not intended to limit the scope of the inventive concept in any way, but to illustrate it by a person skilled in the art with reference to specific embodiments.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and the following embodiments are used for illustrating the present invention and are not intended to limit the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 3, in an embodiment of the present invention, a respiratory air washing and purifying device is described, including: a breathing chamber 30, wherein the inner cavity of the breathing chamber 30 forms a sealed space for accommodating clothes; a main equipment bin 18, wherein a power device is arranged in the main equipment bin 18; the air inlet duct 19 is communicated with the air outlet of the power device 26 and the breathing chamber 30, and an air inlet duct electromagnetic valve 25 is arranged on the air inlet duct 19; the exhaust duct 19 is communicated with the air inlet of the power device 26 and the breathing chamber 30, and an exhaust duct electromagnetic valve 20 is arranged on the exhaust duct 19; the exhaust gas pipe 22 is communicated with an air outlet of the power device 26 and the outside, and the exhaust gas pipe 22 is connected with an exhaust gas pipe electromagnetic valve 21 in series; and the air inlet pipe 8 is connected to an air inlet of the power device 26, and an air inlet pipe electromagnetic valve 39 is connected to the air inlet pipe 8 in series.

Preferably, the breath chamber 30 is in the shape of a long bag, and has an upper opening that encloses the shoulders of the main support 29 and is sealed and fixed, and a lower opening that is formed in a line shape and is clamped by the breath chamber sealing clamp 32 to maintain a sealed state. The main support 29 is a strip-shaped planar support made of stainless steel plates with the thickness of 1.5mm and the length of 70CM and the width of 20CM, and arc-shaped shoulders are arranged at two ends of the support. A sealing zipper 31 is arranged above the breathing chamber sealing clamp 32 and used for auxiliary sealing of the linear opening, so that the linear opening is prevented from being transversely expanded by high air pressure. The top of the inner side of the breathing chamber 30 is welded with a clothes support hanging ring 33 made of stainless steel material for hanging clothes to be purified. The breathing chamber 30 is made of a tough, pressure resistant material, such as a nylon plus polyethylene (PA + PE) composite. The volume of the breathing chamber 30 is at least the volume required for the clothes to hang naturally. The breathing chamber sealing clamp 32 is a slender cuboid made of hard plastic, the cuboid is embedded into a U-shaped groove, one end of the cuboid and one end of the U-shaped groove are fixedly connected through a movable shaft, and the other end of the U-shaped groove is made into a movable lock catch.

It is further preferred that the main equipment compartment is connected above the main support 29, and the main equipment compartment 18 is a box-shaped structure with a length of 20cm, a width of 15cm and a height of 15 cm. A power unit 26 is fixedly installed in the main equipment room 18, and the power unit 26 is a vacuum pressure pump 261. The pressure parameter of the vacuum pressure pump 261 is required to be-65-50 Kpa, the power is about 10W, and an SC5003PM micro vacuum pump can be selected. The purifier hook 1 is connected to the outer side of the top of the main equipment bin, and the whole purifier can be mounted in a hanging mode through the purifier hook 1.

Further, an air inlet conduit 23 and an exhaust conduit 19 are vertically fixed on the bottom surface inside the main equipment bin 18 and penetrate through the main equipment bin, the air inlet conduit 23 is communicated with the breathing bin 30 and an air outlet of the vacuum pressure pump 261, and the air inlet conduit 23 is connected with an air inlet conduit electromagnetic valve 25 for controlling air inlet of the breathing bin; the exhaust conduit 19 is communicated with the breathing chamber 30 and an air inlet of the vacuum pressure pump 261, and the exhaust conduit 19 is connected with an exhaust conduit electromagnetic valve 20 for controlling the breathing chamber to exhaust; one side wall of the main equipment bin 18 is fixedly provided with an exhaust gas pipe 22 in a penetrating way, the exhaust gas pipe 22 is communicated with the air outlet of the vacuum pressure pump 261 and the outside of the purifier, and the exhaust gas pipe 22 is connected with an exhaust gas pipe electromagnetic valve 21 which is positioned in the main equipment bin 18 and used for controlling exhaust gas to be discharged out of the purifier; one side wall of the main equipment bin 18 penetrates through the fixedly installed air inlet pipe 8, the air inlet pipe 8 is communicated with an air inlet of the vacuum pressure pump 261 and the outside of the purifier, and the air inlet pipe 8 is connected with an air inlet pipe electromagnetic valve 39 for controlling external clean air to enter the purifier.

According to the embodiment of the invention, the breathing type air washing and purifying device further comprises an air filtering bin 4, at least one side wall of the air filtering bin 4 is provided with an air inlet window 5, and an air filter 5 is arranged in the air filtering bin 4; the air filtering bin 4 is communicated with an air inlet of the power device 36 through the air inlet pipe 8.

Preferably, the air filtering bin 4 is a box-shaped structure connected to the upper side of the main bracket 29, an opening is formed on the air filtering bin 4, the air filter 6 is convenient to replace, and an air filtering bin cover 7 is hermetically mounted on the opening. The air filter 6 arranged in the air filtering bin 4 is an air filter element 61, the air filter element 61 is a cuboid box which is made of paint mist filter paper and has the same size with the inner cavity of the air filtering bin 4, the box is filled with activated carbon particles, and the number of layers of the filter paper is more than or equal to 3. An air inlet window 5 is arranged on the side wall of the air filtering bin 4, and a plurality of small air holes are formed in the air inlet window 5. The air inlet pipe 8 is an air filtering air conveying pipe 81 which is communicated with the air filtering bin 4 and an air inlet of the power device 36, and an air filtering air conveying pipe electromagnetic valve 391 is arranged on the air filtering air conveying pipe 81.

According to some embodiments of the present invention, the respiratory air laundry purifier further comprises a sterilization chamber 9, the sterilization chamber 9 having a sterilization device 10 mounted therein; the degerming chamber 9 is at least provided with a degerming chamber air outlet pipe 11 communicated with an air inlet of the power device 36, and the degerming chamber air outlet pipe electromagnetic valve 38 is arranged on the degerming chamber air outlet pipe 11.

Preferably, the sterilization device 10 is an oxygen anion generator 101;

alternatively, the sterilization apparatus is an ozone generator 102.

As an embodiment of the invention, the sterilization chamber 9 is a negative oxygen ion chamber 91, the negative oxygen ion chamber 91 is connected above the main bracket 29 and is arranged between the main equipment chamber 18 and the air filtration chamber 4, the outside air firstly enters the air filtration chamber 4 through the air inlet window 5, after being filtered, enters the negative oxygen ion chamber 91 through the air filtration air pipe 81, the negative oxygen ion generator 101 generates negative oxygen ions to be mixed with the air in the chamber, the air outlet pipe 11 of the sterilization chamber is a negative oxygen ion air pipe 111, the mixed air enters the breathing chamber through the negative oxygen ion air pipe 111 driven by a vacuum pressure pump, the negative oxygen ion air pipe 111 penetrates through the negative oxygen ion chamber 91 to be separated from the equipment chamber 18, and the negative oxygen ion air pipe 111 is provided with a negative oxygen ion electromagnetic valve 381. The negative oxygen ion generator 101 is integrally installed in the negative oxygen ion chamber 91. The negative oxygen ion generator 101 converts the low-voltage direct current into high-voltage alternating current of 7-30kv through high-voltage rectification to form direct current negative high voltage, the high-voltage positive electrode is grounded, the tip of the high-voltage negative electrode is subjected to corona discharge, so that oxygen in the air is negatively charged to be negative oxygen ions, a large amount of dust in the air is negatively charged to accelerate landing, and the air purification effect is achieved. The negative oxygen ion generator 101 of the device can directly use a finished product with power of 5-10w, or is formed by combining a plurality of negative oxygen ion generators with power of 2w, the price is low, the volume is small, the device is convenient to mount, and the high-voltage discharge electrode needs to be fixedly mounted and well insulated and protected.

As another embodiment of the present invention, the degerming chamber 9 is an ozone chamber 92 connected to the upper side of the main support 29 and disposed adjacent to the main equipment chamber 18, and the degerming chamber outlet pipe 11 is an ozone chamber outlet pipe 112 communicated with the inlet of the vacuum pressure pump 261. The degerming chamber 9 is also provided with a degerming chamber air inlet pipe 37 communicated with the exhaust conduit 19, the degerming chamber air inlet pipe is an ozone chamber air inlet pipe 371, and an ozone chamber air inlet pipe electromagnetic valve 241 is installed on the ozone chamber air inlet pipe. The ozone generator 102 is installed in the ozone chamber 92, the principle is that low-voltage direct current high-frequency inversion is converted into high-voltage alternating current of 7-30kv, corona discharge is carried out at the tips of two electrodes, oxygen in the air is ionized and decomposed and is polymerized into ozone again, and the high-voltage discharge electrodes need to be fixedly installed and well insulated and protected. The ozone has strong oxidability and easy decomposition, is a broad-spectrum bactericide, and is 40-50m/m³Has extremely strong sterilization capability under the concentration of (2). The ozone generator adopts an FQM-P1000 split ceramic chip type ozone module, the power is 8-10w, and the adopted ceramic chip discharging body comprises an ozone generating chip and an ozone driving circuit. The FQM-P1000 split ceramic chip type ozone module has the advantages of low price, small volume (63 x 52 x 45mm), convenient installation and use and ozone generation amount500-1000mg/hr, when the voltage is 12v, the ozone generation amount is 8-16mg/min, the strong disinfection concentration can be reached within 3min, and more than 90% of bacteria can be eliminated by 10min closed cycle disinfection. The air in the breathing chamber enters the ozone chamber 92 through the ozone chamber inlet tube 371, and then the air carrying ozone enters the air inlet of the vacuum pressure pump through the ozone chamber outlet tube 112 and is injected into the breathing chamber again for sterilization and purification under the drive of the vacuum pressure pump.

According to some embodiments of the present invention, the respiratory air washing purifier further comprises a perfuming device 12, the perfuming device 12 comprises a perfume volatilization box 121 and a volatilization box cover 13, the perfume volatilization box has a perfume taking and placing opening, and the volatilization box cover 13 is buckled on the perfume taking and placing opening; the perfume volatilization box 121 is provided with a volatilization box air outlet pipe 16 communicated with the air inlet of the power device 26, and the volatilization box air outlet pipe is provided with a volatilization box air outlet pipe electromagnetic valve 17; the perfume volatilization box is also provided with a volatilization box air inlet pipe 14 communicated with the exhaust duct 19, and the volatilization box air inlet pipe is provided with a perfuming electromagnetic valve 15.

Further, the perfume volatilization box 121 is fixedly connected above the main support 29, a circular hole sleeve spiral screw opening with the diameter of 8cm is formed in the top of the perfume volatilization box and used for hermetically mounting the volatilization box cover 13, the volatilization box cover is a circular stainless steel column sleeve screw, and a sealing gasket is mounted in the volatilization box cover. The sidewall of the perfume volatilization box 121 is provided with a volatilization box air inlet pipe 14 and a volatilization box air outlet pipe 16 in a penetrating way, the volatilization box air inlet pipe 14 is communicated with the exhaust conduit 19, and the volatilization box air outlet pipe 16 is communicated with the air inlet of the vacuum pressure pump 261. When clothes are perfumed, gas in the breathing chamber 30 is discharged out of the breathing chamber through the exhaust duct 19, enters the perfume volatilization box 121 through the volatilization box air inlet pipe 14 and is mixed with the gas in the perfume volatilization box, the mixed gas is discharged through the volatilization box air outlet pipe 16 and enters the vacuum pressure pump, the mixed gas is driven by the vacuum pressure pump and is injected into the breathing chamber through the air inlet duct 23 for perfuming, and the gas in and out of the perfume volatilization box 121 is controlled through the perfuming electromagnetic valve 15 and the volatilization box air outlet pipe electromagnetic valve 17.

As an embodiment of the invention, the perfuming device 12 is connected with the degerming chamber 9, and the volatilization box air inlet pipe 14 and the volatilization box air outlet pipe 16 penetrate through the degerming chamber 9 and enter the main equipment bin 18.

Further, a stainless steel cuboid is welded in the middle of the main purifier support 29 in a sealing mode, the length, the width and the height of the cuboid are respectively 50cm, 15cm and 15cm, and the cuboid forms the auxiliary bin 2. The edge of width 1cm is reserved around the cuboid top, and this edge is equipped with the screw hole, and vice storehouse lid 3 is 1.5mm in thickness, long 52cm, wide 17 cm's corrosion resistant plate, and it passes through screw hole and vice storehouse top sealing connection.

Further, the sub-chamber 2 is divided into four spaces, the spaces at two ends are provided with an air filtering chamber 4 and a spice volatilization box 121, the two spaces in the middle are a main device chamber 18 and a sterilization chamber 9, the main device chamber is adjacent to the air filtering chamber, and the sterilization chamber is adjacent to the spice volatilization box. The internal space of the air filtering bin 4, the spice volatilizing box 121 and the sterilizing chamber 9 has the size of 10cm in length, 15cm in width and 15cm in height, and a threaded hole is formed in the area which is 1cm close to the top. The top parts of the air filtering bin 4, the spice volatilizing box 121 and the sterilizing chamber 9 are additionally provided with sealing gaskets which are respectively fixedly and hermetically connected with the auxiliary bin cover 3 through screws.

Preferably, all of the solenoid valves are fixedly mounted within the main equipment compartment 18. Still fixed mounting breathes storehouse baroceptor 27 and PLC integrated control circuit 28 in the main equipment storehouse, breathes storehouse baroceptor 27 and passes the atmospheric pressure inspection hole intercommunication breathing storehouse of vice storehouse 2 bottom. The respiratory chamber air pressure sensor 27 requires negative air pressure limit of-60 Kpa and positive air pressure limit of 35Kpa, adopts an air pressure sensor with model number of AS131-45, and adopts 4-20MA analog output with measuring range of-100 Kpa-200 Kpa. The outer side wall of the main equipment bin is provided with a display panel, and the display panel is provided with a disinfection time adjusting knob, a flavoring time adjusting knob, a purification cycle adjusting knob, a start key, a pause key, an end reset key, a direct-current power supply input jack and a working state indicator lamp and is used for various man-machine conversation operations. Wherein the DC power input jack is a DC power socket with 5.5 mm.

Further preferably, all the electromagnetic valves are miniature two-way electromagnetic valves of the type CYM2014-08s, can bear the reverse pressure of 2.5kg and the forward pressure of 5kg, are 5.5cm high, 2cm wide, 3.5cm long and G1/4 inch internal thread, and are small in size and convenient to install. All lines require a pressure of + -80 Kpa. The working voltage of each electronic device of the purifier is unified to 12V, the power supply voltage of the external direct-current power adapter is also 12V, and the power supply power is more than or equal to 5W.

According to some embodiments of the invention, in a purification method of a breathing type air washing purifier, a PLC comprehensive control circuit drives external clean air and dirty air in a breathing chamber to circulate by controlling a power device so as to realize clothes purification.

Preferably, the breathing type air washing purifier controls to start the vacuum pressure pump 261, the air filtering air conveying pipe electromagnetic valve 391 and the air inlet guide pipe electromagnetic valve 25, air enters the air filtering bin 4 through the air inlet window 5, the air is purified by the air filter element 61, the vacuum pressure pump sucks the purified air and injects the purified air into the breathing bin, the pressure of the breathing bin is increased, and fresh air enters gaps of clothes to rapidly leach out dust and peculiar smell in the gaps. Then the air filtering air delivery pipe electromagnetic valve 391 and the air inlet conduit electromagnetic valve 25 are closed, the exhaust conduit electromagnetic valve 20 and the exhaust gas pipe electromagnetic valve 21 are opened, and the vacuum pressure pump 261 pumps out the gas with peculiar smell in the breathing chamber 30 and discharges the gas out of the purifier through the exhaust gas pipe 22. The fresh air continuously replaces the dirty air to realize the clothes purification.

Further, the PLC integrated control circuit controls 28 to open the air inlet pipe electromagnetic valve 39, the power device 26, the air inlet conduit electromagnetic valve 25 and the breathing chamber 30 to supply air; the PLC integrated control circuit 28 controls the opening of the exhaust guide pipe electromagnetic valve 20, the power device 26 and the exhaust gas pipe electromagnetic valve 21, and the breathing chamber 30 exhausts; the PLC integrated control circuit 28 controls to open the degerming chamber air outlet pipe electromagnetic valve 38, the degerming chamber air inlet pipe electromagnetic valve 24, the power device 26 and the air inlet guide pipe electromagnetic valve 25, and the air in the degerming chamber 9 and the air in the breathing chamber 30 are communicated for degerming clothes; the PLC integrated control circuit 28 controls the opening of the air outlet pipe electromagnetic valve 17 of the volatilization box, the perfuming electromagnetic valve 15, the power device 26 and the air inlet guide pipe electromagnetic valve 25, and the air in the perfume volatilization box 121 and the air in the breathing chamber 30 are communicated to perfume the clothes.

According to an embodiment of the present invention, a purification method of a breathing type air laundry purifier includes the steps of:

s1, hanging clothes into the breathing chamber 30;

s2, the purifier injects clean air into the breathing chamber by controlling the power device 26, and extracts dirty air in the breathing chamber to purify clothes;

s3, sterilizing the clothes by controlling air circulation in the sterilization chamber 9 and the breathing chamber 30;

s4, perfuming the clothes by controlling the circulation of the air in the perfume volatilization box 121 and the breathing chamber 30.

Preferably, the purifying method of the breathing type air washing purifier further comprises the steps of S11, detecting the air tightness of the breathing chamber, detecting the air tightness of the perfuming device and detecting the air tightness of the sterilizing chamber.

Further, the step S2 includes a step S21, in which the purifier controls to open the exhaust conduit solenoid valve 20, the power device 26, and the exhaust gas conduit solenoid valve 21, to discharge the air in the breathing chamber 30 to the outside, and after the air pressure value in the breathing chamber reaches the negative air pressure limit value, controls to close the exhaust conduit solenoid valve 20, the power device 26, and the exhaust gas conduit solenoid valve 21; s22, after the exhaust guide pipe electromagnetic valve 20, the power device 26 and the exhaust pipe electromagnetic valve 21 are closed, the breathing chamber 30 is controlled to keep negative air pressure for a period of time; s23, after the negative air pressure is kept, the purifier controls to open the air inlet pipe electromagnetic valve 391, the power device 26 and the air inlet conduit electromagnetic valve 25, the filtered fresh air is injected into the breathing chamber, and after the air pressure value of the breathing chamber reaches the positive air pressure limit value, the air inlet pipe electromagnetic valve 39, the power device 26 and the air inlet conduit electromagnetic valve 25 are controlled to be closed; and S24, after the air inlet pipe electromagnetic valve 39, the power device 26 and the air inlet guide pipe electromagnetic valve 25 are closed, controlling the breathing chamber 30 to keep positive air pressure for a period of time.

According to one embodiment of the present invention, S1 opens the breath compartment sealing clip 32 and the sealing zipper 31, hangs the clothes on the clothes hanging ring 33 in the breath compartment, then pulls the zipper, installs the breath compartment sealing clip, and hangs the whole purifier to the ventilation place where the air is fresh. Switching on a power supply, opening all electromagnetic valves, detecting whether the value of the air pressure sensor 27 of the breathing chamber is within plus or minus 100pa after 3min, and otherwise, alarming the air channel to be in fault; if so, all the solenoid valves are closed and the next routine is executed.

Preferably, S11 detects the airtightness of the breath chamber 30, the perfume volatilization box 121, and the sterilization chamber 9. Opening an air filtering air conveying pipe electromagnetic valve 391 and an air inlet guide pipe electromagnetic valve 25, starting a vacuum pressure pump 261, starting the vacuum pressure pump to work, enabling external air to enter an air filtering bin 4 through an air inlet window 5, enabling the external air to enter a breathing bin through an air filtering air conveying pipe 81, the vacuum pressure pump 261 and an air inlet guide pipe 19 after being filtered by an air filter element 61, enabling the air pressure of the breathing bin to rise, closing the air filtering air conveying pipe electromagnetic valve 391 when a pressure detection value of a breathing bin air pressure sensor 27 reaches an air tightness detection set value 35Kpa, detecting and recording the air pressure value of the breathing bin before and after 1min, if the absolute value of the air pressure difference of two times is within 1Kpa, enabling the air tightness detection of the breathing bin to pass, closing the vacuum pressure pump and all; after the air tightness detection of the breathing chamber 30 passes, the perfuming electromagnetic valve 15, the air filtering air delivery pipe electromagnetic valve 391 and the air inlet conduit electromagnetic valve 25 are opened, the vacuum pressure pump 261 is started and starts to work, wherein a part of air enters the perfume volatilization box 121 from the breathing chamber exhaust conduit 19 through the volatilization box air inlet pipe 14, the air pressures of the breathing chamber 30 and the perfume volatilization box 121 are continuously increased, when the detected air pressure value of the breathing chamber reaches the air tightness detection set value of 35Kpa, the air filtering air delivery pipe electromagnetic valve 391 is closed, the air pressure value of the breathing chamber before and after 1min is detected and recorded, if the absolute value of the air pressure difference of two times is within 1Kpa, the air tightness detection of the perfume volatilization box 121 passes, the vacuum pressure pump 261 and all the electromagnetic valves are closed, otherwise, the air tightness fault of the; after the air tightness detection of the perfume volatilization box is passed, opening an ozone chamber air inlet pipe electromagnetic valve 241, an air filtering air conveying pipe electromagnetic valve 391 and an air inlet conduit electromagnetic valve 25, starting a vacuum pressure pump, starting the vacuum pressure pump to work, wherein part of air enters an ozone chamber from a breathing chamber exhaust conduit 19 through an ozone chamber air inlet pipe 371, the air pressure of a breathing chamber 30 and an ozone chamber 92 is continuously increased, when the detected air pressure value of the breathing chamber reaches an air tightness detection set value 35Kpa, closing the air filtering air conveying pipe electromagnetic valve 391, detecting and recording the air pressure value of the breathing chamber before and after 1min, and if the absolute value of the air pressure difference of two times is within 1Kpa, passing the air tightness detection of the perfume volatilization box; otherwise, the air tightness failure of the perfume volatilization box 121 is warned. All the electromagnetic valves are closed, and the next program is executed.

Further, in step S21, the purifier starts to operate by opening the exhaust conduit solenoid valve 20, the exhaust conduit solenoid valve 21 and the vacuum pressure pump 261, and the air containing the odor is rapidly discharged from the breathing chamber through the exhaust conduit 19, the vacuum pressure pump 261 and the exhaust conduit 22. The vacuum pressure pump 261 continues to operate, the pressure of the breathing chamber is continuously decreased and enters a negative pressure state, and when the pressure of the breathing chamber 30 reaches a negative pressure limit value (-60Kpa), the vacuum pressure pump stops operating, and the exhaust conduit solenoid valve 20 and the exhaust conduit solenoid valve 21 are closed, and the next procedure is executed.

Further, after the exhaust duct solenoid valve 20 and the exhaust pipe solenoid valve 21 are closed in S22, the timer starts to operate, if the pressure value of the breathing chamber rises above the negative pressure set value (-50Kpa) within 1min of the negative pressure value holding time, the exhaust duct solenoid valve 20 and the exhaust pipe solenoid valve 21 are opened, the vacuum pressure pump 261 operates to continue to exhaust the breathing chamber 30, until the pressure value of the breathing chamber reaches the negative pressure limit value (-60Kpa), the vacuum pump stops operating, and the exhaust duct solenoid valve 20 and the exhaust pipe solenoid valve 21 are closed to keep the pressure of the breathing chamber between-50 Kpa and-60 Kpa. After the negative pressure was maintained for 1min, the next procedure was performed.

Further, in S23, the electromagnetic valve 391 and 25 of the air filtering air pipe are opened, the vacuum pressure pump 261 starts to work, and the fresh air from the outside enters the air filtering bin 4 through the air inlet window 5, enters the air filtering air pipe 81 after being adsorbed and filtered by the air filter element 61, and then enters the vacuum pressure pump 261. The filtered air is pressurized by the vacuum pressure pump and then is charged into the breathing chamber 30 through the air inlet conduit 19, the air pressure of the breathing chamber is continuously increased, when the air pressure value of the breathing chamber reaches a positive air pressure limit (35Kpa), the vacuum pressure pump stops working, the air filtering air conveying pipe electromagnetic valve 391 and the air inlet conduit electromagnetic valve 25 are closed, and the next procedure is executed.

Further, after the air filtering air pipe electromagnetic valve 391 and the air inlet conduit electromagnetic valve 25 are closed in the step S24, the timer starts to work, if the air pressure value of the breathing chamber is reduced to be below a set value of 30Kpa within a set high pressure value holding time of 1min, the air filtering air pipe electromagnetic valve 391 and the air inlet conduit electromagnetic valve 25 are opened, the vacuum pressure pump works to enable the breathing chamber to continue to inflate, when the air pressure value of the breathing chamber reaches 35Kpa, the vacuum pressure pump stops working, the air filtering air pipe electromagnetic valve 391 and the air inlet conduit electromagnetic valve 25 are closed, and the air pressure of the breathing chamber 30 is kept between 30Kpa and 35 Kpa. After the high pressure was maintained for 1min, the next procedure was performed.

Preferably, the purification circulation adjusting knob can be used for human-computer conversation setting according to the peculiar smell condition of the clothes, and normal purification, powerful purification or super-powerful purification can be selected. Wherein the normal purification is that the step S2 is performed 10 times, the powerful purification is performed 20 times, and the powerful purification is performed 30 times. Accumulating the number of purification cycles once after the execution of the step S24 is finished, and returning to execute the step S2 if the accumulated number is less than the number of purification cycles manually set by the purification cycle adjusting knob; the two values are equal, and the process proceeds to the next step S3.

Further, S3 opens the electromagnetic valve 241 of the ozone chamber air inlet pipe, the electromagnetic valve 382 of the ozone chamber air outlet pipe and the electromagnetic valve 25 of the air inlet guide pipe, the vacuum pressure pump 261 and the ozone generator 102 are started, the breathing chamber and the ozone chamber 92 are connected in series through the vacuum pressure pump, the disinfection timer starts to work, air in the breathing chamber enters the ozone chamber 92 through the exhaust guide pipe 19 and the ozone chamber air inlet pipe 371, and after being mixed with gas with ozone, the air enters the breathing chamber through the ozone chamber air outlet pipe 112, the vacuum pressure pump 261 and the air inlet guide pipe 19 to disinfect clothes. When the working timing reaches the time set by the man-machine conversation of the disinfection time adjusting knob, the ozone chamber air inlet pipe electromagnetic valve 241, the air inlet guide pipe electromagnetic valve 25 and the ozone chamber air outlet pipe electromagnetic valve 382 are closed, the power supplies of the ozone generator 102 and the vacuum pressure pump are disconnected, and the ozone disinfection process is finished.

Preferably, during the ozone disinfection process, if the air pressure value of the breathing chamber 30 is lower than 30Kpa, the air outlet pipe electromagnetic valve 382 of the ozone chamber is closed, the air filtering air conveying pipe electromagnetic valve 391 is opened, and the air in the breathing chamber is supplemented by the vacuum pressure pump, so that the air pressure values of the breathing chamber and the ozone chamber 92 are kept within 30Kpa-35 Kpa.

Further preferably, after the ozone sterilization is finished, the routine S21 is executed.

According to the embodiment of the invention, S4 is to inflate the breathing chamber to keep the air pressure in the breathing chamber between 30Kpa and 35Kpa, then the perfuming solenoid valve 15, the volatilization box air outlet pipe solenoid valve 17 and the air inlet pipe solenoid valve 25 are opened, the vacuum pressure pump 261 starts to work, the breathing chamber and the perfume volatilization box 121 are connected in series through the vacuum pressure pump, the perfuming timer starts to work, the air in the breathing chamber enters the perfume volatilization box through the exhaust pipe 19 and the volatilization box air inlet pipe 14, and after being mixed with the fragrant air, the air enters the breathing chamber through the volatilization box air outlet pipe 16, the vacuum pressure pump 261 and the air inlet pipe to perfume the clothes. The perfuming time is set by adjusting the perfuming time adjusting knob, and perfume is placed in the perfume volatilization box 121 as required. When the working time reaches the time set by the flavoring time adjusting knob in man-machine conversation, the flavoring electromagnetic valve 15, the air inlet guide pipe electromagnetic valve 25 and the air outlet pipe electromagnetic valve 17 of the volatilization box are closed, the power supply of the vacuum pressure pump 261 is cut off, and the flavoring process is finished.

Preferably, after the perfuming process is finished, the exhaust duct electromagnetic valve 20, the exhaust duct electromagnetic valve 21, the air filtering air conveying pipe electromagnetic valve 391 and the air inlet duct electromagnetic valve 25 are opened, and when the air pressure value of the breathing chamber 30 is within +/-100 Pa, all the electromagnetic valves are closed.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A breathing type air washing purifier is characterized in that: the method comprises the following steps:

the main equipment bin is internally provided with a power device;

the exhaust gas pipe is communicated with the air outlet of the power device and the outside, and an exhaust gas pipe electromagnetic valve is arranged on the exhaust gas pipe;

and the air inlet pipe is connected to the air inlet of the power device, and an air inlet pipe electromagnetic valve is installed on the air inlet pipe.

2. A respiratory air laundry purifier according to claim 1, characterized in that: the air filter comprises an air filter bin, wherein at least one side wall of the air filter bin is provided with an air inlet window, and an air filter is arranged in the air filter bin;

3. A respiratory air laundry purifier according to claim 1, characterized in that: the sterilization device comprises a sterilization chamber, wherein sterilization equipment is arranged in the sterilization chamber;

the degerming chamber is at least provided with a degerming chamber air outlet pipe communicated with the air inlet of the power device, and a degerming chamber air outlet pipe electromagnetic valve is arranged on the degerming chamber air outlet pipe;

preferably, the sterilization device is an oxygen anion generator;

or the sterilizing equipment is an ozone generator.

4. A respiratory air laundry purifier according to claim 3, characterized in that: the degerming room still is equipped with the intercommunication exhaust duct's degerming room intake pipe, set up degerming room intake pipe solenoid valve in the degerming room intake pipe.

5. A respiratory air laundry purifier according to any one of claims 1-4, characterized in that: the perfuming device comprises a perfume volatilization box and a volatilization box cover, wherein the perfume volatilization box is provided with a perfume taking and placing opening, and the volatilization box cover is buckled on the perfume taking and placing opening;

6. The method of purifying a breathing air laundry purifier of any one of claims 1-5, the purifier comprising a PLC integrated control circuit, wherein: the PLC integrated control circuit controls the power device to drive external clean air to exchange with dirty air in the breathing bin so as to purify clothes.

7. The purification method according to claim 6, characterized in that: the PLC integrated control circuit controls the opening of an air inlet pipe electromagnetic valve, a power device, an air inlet guide pipe electromagnetic valve and the air inlet of the breathing cabin;

8. The purification method according to claim 7, characterized in that: the method comprises the following steps:

s1, hanging clothes into the breathing chamber;

9. The purification method according to claim 8, characterized in that: the method also comprises the step S11 of detecting the air tightness of the breathing chamber, the air tightness of the flavoring device and the air tightness of the sterilizing chamber.

10. The purification method according to claim 9, characterized in that: the step S2 includes the step S21 that the purifier controls to open the electromagnetic valve of the exhaust conduit, the power device and the electromagnetic valve of the exhaust gas pipe, the air in the breathing chamber is exhausted to the outside, and after the air pressure value of the breathing chamber reaches the negative air pressure limit value, the electromagnetic valve of the exhaust conduit, the power device and the electromagnetic valve of the exhaust gas pipe are controlled to be closed;