CN112628903A - Dehumidification new trend plasma sterilization system of supplementary refrigeration heat production in area - Google Patents

Abstract

The invention provides a dehumidification fresh air plasma sterilization system with auxiliary refrigeration and heating, which comprises a lower sealing plate, wherein a front sealing plate is fixedly arranged on the front side of the top of the lower sealing plate, a lower cover plate fixedly arranged with the top of the lower sealing plate is fixed at the bottom of the rear side of the front sealing plate, an air valve A support fixedly arranged with the rear side of the front sealing plate is fixedly arranged on the front side of the top of the lower cover plate, an air valve A positioned on the left side of the air valve A support is arranged on the air valve A support, a filter screen frame A fixedly arranged with the top of the lower cover plate is fixedly arranged on the rear side of the air valve A support, a temperature and humidity sensor is arranged on the left side of the front side of the filter screen frame A, the temperature and humidity sensor is positioned on the left side of the air valve A support, and a filter. The invention greatly improves the dehumidification performance and the sterilization performance on the original basis, and adds the function of auxiliary refrigeration and heating.

Description

Dehumidification new trend plasma sterilization system of supplementary refrigeration heat production in area

Technical Field

The invention relates to the technical field of dehumidification fresh air plasma sterilization, in particular to a dehumidification fresh air plasma sterilization system with auxiliary refrigeration and heating functions.

Background

The new fan of dehumidification has possessed the ability of new trend take a breath, circulation dehumidification, air-purifying. The intelligent control has possessed indoor circulation wind dehumidification, outdoor supplementary new trend dehumidification, three kinds of operational modes of the outside new trend of opening alone taking a breath. The fresh air opening is reasonably opened and closed, air is purified in the circulating and dehumidifying processes, the indoor oxygen content is supplemented, and the indoor air humidity is ensured. Generally, a fresh air dehumidifier is composed of a compressor, an evaporator, a condenser, a fan, a water outlet pipe, a filter, a shell and a controller, the working principle of the fresh air dehumidifier is that moist air is sucked into a machine through the fan, the moist air is changed into dry and clean air to be discharged after passing through the evaporator, the condenser and the filter, the air is purified, and the indoor humidity is kept at the proper humidity.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a dehumidification fresh air plasma sterilization system with auxiliary refrigeration and heating.

In order to achieve the purpose, the invention adopts the following technical scheme:

a dehumidification fresh air plasma sterilization system with auxiliary refrigeration and heating comprises a lower sealing plate, wherein a front sealing plate is fixedly installed on the front side of the top of the lower sealing plate, a lower cover plate fixedly installed with the top of the lower sealing plate is fixed on the bottom of the rear side of the front sealing plate, an air valve A support fixedly installed with the rear side of the front sealing plate is fixedly installed on the front side of the top of the lower cover plate, an air valve A positioned on the left side of the air valve A support is installed on the air valve A support, a filter screen frame A fixedly installed with the top of the lower cover plate is fixedly installed on the rear side of the air valve A support, a temperature and humidity sensor is installed on the left side of the front side of the filter screen frame A, a filter screen frame B fixedly installed with the top of the lower cover plate is arranged on the rear side of the filter screen frame A, and a plasma filter screen module placed on the top of the lower cover plate is matched between the front side of, the top of the plasma filter screen module is contacted with a filter screen upper baffle fixedly installed with the front side of the filter screen frame B, the rear side of the filter screen frame B is provided with a filter screen frame C fixedly installed with the top of the lower cover plate, a same dehumidification module placed at the top of the lower cover plate is matched between the front side of the filter screen frame C and the rear side of the filter screen frame B, the middle position of the rear side of the filter screen frame C is fixedly provided with a sealing baffle fixedly installed with the top of the lower sealing plate, the sealing baffle is set to be in an L-shaped structure, the rear side of the sealing baffle is fixedly provided with a rear sealing plate fixedly installed at the rear side of the top of the lower sealing plate, the rear side of the rear sealing plate is provided with an air outlet positioned at the left side of the sealing baffle, the front side of the rear sealing plate is provided with a DC fan matched with the air outlet, the DC fan is positioned at the left side of the, the air valve B is located on the right side of the sealing partition plate, the rear side of the filter screen frame C is provided with a filter screen frame D fixedly installed at the top of the lower air plate, the right side of the filter screen frame D is fixedly installed on the left side of the sealing partition plate, an activated carbon filter screen and a high-efficiency filter screen which are placed at the top of the lower air plate are sequentially installed between the front side of the filter screen frame D and the rear side of the filter screen frame C from front to back, an upper cover plate located above the dehumidification module is fixedly installed at the top of the filter screen frame C, the top of the filter screen frame B, the top of the filter screen frame A, the top of the air valve A support and the top of the filter screen frame D, the front side of the upper cover plate is in close contact with the top of the rear side of the front cover plate, a left side closing plate fixedly installed on the left side of the upper cover plate is fixedly installed on the left, Left side, the left side of preceding shrouding, the left side of filter screen frame D and the left side fixed mounting of back shrouding of filter screen frame A, the left side of preceding shrouding, the left side of filter screen frame D and the left side fixed mounting of back shrouding, fixed mounting has a DC motor drive support that is located filter screen frame D rear side behind the right side of left side shrouding, and installs DC motor drive on the DC motor drive support, the right side fixed mounting of upper cover plate has a right side shrouding with leeward plate top right side fixed mounting, the left side of right side shrouding respectively with the right side of filter screen frame C, the right side of filter screen frame B, the right side of filter screen frame A, the right side of preceding shrouding and the right side fixed mounting of back shrouding, fixed mounting has an EC fan that is located filter screen frame C rear side behind the left side of, The top of left side shrouding, the top of right side shrouding and the top fixed mounting of upper cover plate have same last shrouding, a fresh air inlet that is located air valve A support right side is installed on the front side right of preceding shrouding, and a return air inlet that is located air valve A support left side is installed on the front side left side of preceding shrouding, the rear side left side fixed mounting of back shrouding has one to be used for carrying out the control circuit module that controls DC fan, air valve B, EC fan, air valve A, temperature and humidity sensor and dehumidification module.

Preferably, two detachable door hinges and two fresh air hasps are installed in the left side of left side shrouding, and a detachable left side door plant is installed through two detachable door hinges and two fresh air hasps to the left side shrouding cooperateing.

Preferably, a plurality of reinforcing ribs are fixedly mounted on the left side of the right sealing plate.

Preferably, lifting lugs are welded at four corners of the front side of the front sealing plate and four corners of the rear side of the rear sealing plate.

Preferably, the dehumidification module comprises a dehumidification module outer shell and an evaporator, a stainless steel water collecting disc, a high liquid level sensor, a low liquid level sensor, an air valve C, a middle partition plate, a diaphragm lifting pump, a condenser, a compressor, a drying pipe and a capillary tube which are arranged in the dehumidification module outer shell, wherein the compressor comprises a needle valve arranged on the dehumidification module outer shell, the inside of the dehumidification module outer shell is divided into two chambers by the middle partition plate, the same condenser is arranged on the inner wall of the rear side of the two chambers, the air valve C is arranged in the chamber on the right side of the middle partition plate and matched with the condenser, the evaporator, the stainless steel water collecting disc, the high liquid level sensor, the low liquid level sensor, the diaphragm lifting pump, the compressor, the drying pipe and the capillary tube are arranged in the chamber on the left side of the middle partition plate, and an exhaust port of the compressor, the other ends of the two condensers are connected with a return air port of the compressor through a throttling device consisting of the drying pipe and the capillary tube, the compressor is vertically arranged, and the other ends of the two condensers are installed on the inner wall of the bottom of the outer shell of the dehumidification module through bolts.

Preferably, the stainless steel water collecting tray, the high liquid level sensor, the low liquid level sensor, the diaphragm lift pump and the condenser are integrated into a drawable drawer type module, the stainless steel water collecting tray is positioned below the evaporator and matched with the evaporator, the condenser is also matched with the evaporator, the low liquid level sensor is electrically connected with the diaphragm lift pump, a water delivery hose is installed at a condensate water outlet of the diaphragm lift pump, a water pipe adapter arranged at the front side of the front sealing plate is installed at the condensate water outlet of the diaphragm lift pump through the water delivery hose, wherein the high liquid level sensor and the low liquid level sensor are both matched with the stainless steel water collecting tray, the compressor, the high liquid level sensor, the low liquid level sensor and the air valve C are all electrically connected with the control circuit module and controlled by the control circuit module, an access door panel with a door handle is installed at the top of the left side of the outer shell of the dehumidification, the access door panel and the drawer type module are fixedly installed.

Preferably, the control circuit module is provided with an alarm indicator light used for electrically matching the high liquid level sensor.

Preferably, the plasma filter screen module, the dehumidification module, the activated carbon filter screen and the efficient filter screen are designed in a drawer type, and a static pressure section is formed between the plasma filter screen module and the front closing plate.

Compared with the prior art, the invention greatly improves the dehumidification performance and the sterilization performance on the original basis, and adds the auxiliary refrigeration and heating functions.

Drawings

Fig. 1 is a schematic top view of a dehumidifying fresh air plasma sterilization system with auxiliary cooling and heating functions according to the present invention;

fig. 2 is a schematic top view of an upper sealing plate of a dehumidification fresh air plasma sterilization system with auxiliary cooling and heating functions according to the present invention, in an uninstalled state;

fig. 3 is a schematic top view of the dehumidification fresh air plasma sterilization system with auxiliary cooling and heating functions according to the present invention, wherein the upper sealing plate and the upper cover plate are both in an uninstalled state;

FIG. 4 is a top cross-sectional view of the dehumidification module of FIG. 3;

fig. 5 is a system schematic diagram of a dehumidification fresh air plasma sterilization system with auxiliary cooling and heating functions according to the present invention.

In the figure: 1 water pipe adapter, 2 lifting lugs, 3 air return inlets, 4 fresh air inlets, 5 upper sealing plates, 6 side exhaust outlets, 7 air outlets, 8 control circuit modules, 9 detachable door hinges, 10 fresh air buckles, 11 left door plates, 12 front sealing plates, 13 upper cover plates, 14 left sealing plates, 15DC motor drivers, 16DC motor driver supports, 17 rear sealing plates, 18DC fans, 19 air valves B, 20EC fans, 21 reinforcing ribs, 22 right sealing plates, 23 air valve A supports, 24 air valve A, 25 lower cover plates, 26 temperature and humidity sensors, 27 filter screen frames A, 28 plasma filter screen modules, 29 filter screen upper baffles, 30 filter screen frames B, 31 dehumidification modules, 311 dehumidification module outer shells, 312 evaporators, 313 stainless steel water collecting discs, 314 high liquid level sensors, 315 low liquid level sensors, 316 air valve C, 317 intermediate baffles, 318 diaphragm lifting pumps, 319 condensers, 3110 needle valves, 3111 compressors, 3111 water pipe adapters, water pipes, air inlets, air outlets, 8 control circuit modules, 9 detachable door hinges, 3112 drying tube, 3113 door handle, 3114 access door panel, 3115 capillary, 32 filter frame C, 33 activated carbon filter, 34 high efficiency filter, 35 filter frame D, 36 lower sealing plate, 37 sealing clapboard.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, a dehumidification fresh air plasma sterilization system with auxiliary refrigeration and heating function comprises a lower sealing plate 36, a front sealing plate 12 is fixedly mounted on the front side of the top of the lower sealing plate 36, a lower cover plate 25 fixedly mounted on the top of the lower sealing plate 36 is fixed on the bottom of the rear side of the front sealing plate 12, an air valve a support 23 fixedly mounted on the rear side of the top of the lower cover plate 25 is fixedly mounted on the front side of the top of the lower cover plate 25, an air valve a24 positioned on the left side of the air valve a support 23 is mounted on the air valve a support 23, a filter screen frame a27 fixedly mounted on the top of the lower cover plate 25 is fixedly mounted on the rear side of the air valve a support 23, a temperature and humidity sensor 26 is mounted on the left side of the air valve a support 23, a filter screen frame B30 fixedly mounted on the top of the lower cover plate 25 is arranged on the rear side of the filter screen frame a27, and a plasma filter screen placed on the top of the lower cover plate 25 is matched between the front side of the filter The module 28, a static pressure section is formed between the plasma filter screen module 28 and the front closing plate 12, the top of the plasma filter screen module 28 is contacted with a filter screen upper baffle plate 29 fixedly installed with the front side of the filter screen frame B30, the rear side of the filter screen frame B30 is provided with a filter screen frame C32 fixedly installed with the top of the lower cover plate 25, a dehumidification module 31 arranged at the top of the lower cover plate 25 is matched between the front side of the filter screen frame C32 and the rear side of the filter screen frame B30, the middle position of the rear side of the filter screen frame C32 is fixedly installed with a sealing clapboard 37 fixedly installed with the top of the lower closing plate 36, the sealing clapboard 37 is in an L-shaped structure, the rear side of the sealing clapboard 37 is fixedly installed with a rear closing plate 17 fixedly installed at the rear side of the top of the lower closing plate 36, lifting lugs 2 are welded at the four corners of the front side of the front closing plate 12 and the four corners of the rear side of the rear closing plate 17, the DC fan 18 matched with the air outlet 7 is arranged on the front side of the rear sealing plate 17, the DC fan 18 is positioned on the left side of the sealing partition plate 37, the right side of the sealing partition plate 37 is also provided with an air valve B19 arranged on the rear side of the filter screen frame C32, the air valve B19 is positioned on the right side of the sealing partition plate 37, the rear side of the filter screen frame C32 is provided with a filter screen frame D35 fixedly arranged on the top of the downwind plate 36, the right side of the filter screen frame D35 is fixedly arranged on the left side of the sealing partition plate 37, an activated carbon filter screen 33 and an efficient filter screen 34 which are arranged on the top of the downwind plate 36 are sequentially arranged between the front side of the filter screen frame D35 and the rear side of the filter screen frame C32 from front to back, the top of the plasma filter screen module 28, the dehumidifying module 31, the activated carbon filter screen 33 and the efficient filter screen 34 are all designed in a drawer type, the top of the filter screen frame C32, the top of the filter screen frame B30, the filter screen frame A, the front side of the upper cover plate 13 is in close contact with the top of the rear side of the front sealing plate 12, the left side of the upper cover plate 13 is fixedly provided with a left sealing plate 14 fixedly arranged with the left side of the top of the lower air plate 36, the left side of the left sealing plate 14 is provided with two detachable door hinges 9 and two fresh air hasps 10, the left sealing plate 14 is provided with a detachable left door plate 11 by matching the two detachable door hinges 9 and the two fresh air hasps 10, the right side of the left sealing plate 14 is fixedly arranged with the left side of the filter screen frame C32, the left side of the filter screen frame B30, the left side of the filter screen frame A27, the left side of the front sealing plate 12, the left side of the filter screen frame D35 and the left side of the rear sealing plate 17, the rear side of the left sealing plate 14 is fixedly provided with a DC motor driver bracket 16 positioned at the rear side of the filter screen frame D35, the DC motor driver bracket 16 is provided with a The left side of the right sealing plate 22 is fixedly mounted with the right side of the filter screen frame C32, the right side of the filter screen frame B30, the right side of the filter screen frame A27, the right side of the front sealing plate 12 and the right side of the rear sealing plate 17 respectively, the left side of the right sealing plate 22 is also fixedly mounted with a plurality of reinforcing ribs 21, the rear side of the left side of the right sealing plate 22 is fixedly mounted with an EC fan 20 positioned at the rear side of the filter screen frame C32, the rear side of the right sealing plate 22 is mounted with a side exhaust outlet 6 matched with the EC fan 20, the top of the front sealing plate 12, the top of the rear sealing plate 17, the top of the left sealing plate 14, the top of the right sealing plate 22 and the top of the upper cover plate 13 are fixedly mounted with the same upper sealing plate 5, the right side of the front sealing plate 12 is mounted with a fresh air inlet 4 positioned at the right side of the air valve A bracket 23, the left side of the front sealing plate, The invention greatly improves the dehumidification performance and the sterilization performance on the original basis and adds the auxiliary refrigeration and heating functions on the control circuit module 8 for controlling the air valve B19, the EC fan 20, the air valve A24, the temperature and humidity sensor 26 and the dehumidification module 31.

In this embodiment, the dehumidification module 31 comprises a dehumidification module outer housing 311, and an evaporator 312, a stainless steel water collecting tray 313, a high liquid level sensor 314, a low liquid level sensor 315, an air valve C316, a middle partition 317, a diaphragm lift pump 318, a condenser 319, a compressor 3111, a drying pipe 3112 and a capillary vessel 3115 which are arranged inside the dehumidification module outer housing 311, wherein the compressor 3111 comprises a needle valve 3110 arranged on the dehumidification module outer housing 311, the interior of the dehumidification module outer housing 311 is divided into two chambers by the middle partition 317, the same condenser 319 is arranged on the inner wall of the rear side of the two chambers, wherein the air valve C316 is arranged in the chamber on the right side of the middle partition and is matched with the condenser 319, the evaporator 312, the stainless steel water collecting tray 313, the high liquid level sensor 314, the low liquid level sensor 311315, the diaphragm lift pump 317, the compressor 1, the drying pipe 3112 and the capillary vessel 3115 are arranged in the chamber on the left side, an exhaust port of the compressor 3111 is connected with one end of the condenser 319, the other ends of the two condensers 319 are connected with a return air port of the compressor 3111 through a throttling device composed of a drying pipe 3112 and a capillary vessel 3115, the compressor 3111 is vertically arranged and is mounted on the inner wall of the bottom of the dehumidification module outer shell 311 through bolts, a stainless steel water collecting disc 313, a high liquid level sensor 314, a low liquid level sensor 315, a membrane lift pump 318 and the condensers 319 are integrated into a drawable drawer type module, the stainless steel water collecting disc 313 is positioned below the evaporator 312 and is matched with the evaporator 312, the condensers 319 is also matched with the evaporator 312, the low liquid level sensor 315 is electrically connected with the membrane lift pump 318, a water delivery hose is mounted at a condensed water outlet of the membrane lift pump 318, a water pipe adapter 1 arranged at the front side of the front sealing plate 12 is mounted at a condensed water outlet of the membrane lift pump 318 through the water delivery hose, wherein high level sensor 314 and low level sensor 315 all cooperate with stainless steel water-collecting tray 313, compressor 3111, high level sensor 314, low level sensor 315 and air valve C316 all with control circuit module 8 electric connection, and be controlled by control circuit module 8, be provided with an alarm indicator that is used for high level sensor 314 electric fit on the control circuit module 8, an access door board 3114 of taking a handle 3113 is installed at the left side top of dehumidification module shell body 311, access door board 3114 and drawer type module fixed mounting, the invention has greatly improved dehumidification performance and bactericidal performance on original basis, and the function of supplementary refrigeration heating has been newly added.

In this embodiment, indoor circulating air and outdoor fresh air respectively enter the static pressure section through the fresh air inlet 4 and the return air inlet 3, after primary purification by the plasma filter module 28, the plasma filter module 28 can filter large suspended particles above 10.0 microns, mosquitoes, leaves and the like, meanwhile, the plasma filter module 28 inactivates viruses and bacteria in the air by using high voltage to prevent fins of the evaporator 312 from being blocked after long-time use, the air purified by the plasma filter module 28 enters the dehumidification module 31, the dehumidification starting condition is comprehensively judged by signals sent by the temperature and humidity sensor 26 and the control circuit module 8, if the dehumidification module 31 is started, the air valve B19 and the air valve C316 are opened in an environment with high temperature in summer, the primarily purified air enters the dehumidification module 31, a part of the air is firstly dehumidified and cooled by the evaporator 312, and the dried cold air enters the activated carbon filter 33 after passing through the condenser 319, the active carbon filter screen 33 is used for removing harmful gases (such as formaldehyde and the like) and peculiar smell in the air, then the air is further purified through the high-efficiency filter screen 34, the high-efficiency filter screen 34 effectively filters fine particles such as air suspended matters below 1.0 micron in the air, finally, clean constant oxygen air meeting the PM2.5 level and the carbon dioxide level meeting the specified standard of a sensor is sucked by the DC fan 18 and sent to the air outlet 7 to be blown out, the other part of air passes through the condenser 319, takes away heat generated on the condenser 319, and is sucked by the EC fan 20 and then discharged to the outside; under the condition of low temperature in winter, the air valve B19 is closed, the air valve C316 is opened, the other part of air is cooled and dehumidified by the evaporator 312, the dried cold air is heated and discharged by the condenser 319, the heated dry air enters the activated carbon filter screen 33, the activated carbon filter screen 33 is used for removing harmful gases (such as formaldehyde and the like) and peculiar smell in the air, then the air is further purified by the high-efficiency filter screen 34, fine particles such as suspended matters in the air below 1.0 micron in the air are effectively filtered by the high-efficiency filter screen 34, finally, clean constant oxygen meeting the PM2.5 level and the carbon dioxide level meeting the specified standards of the sensor is sucked by the DC fan 18, and the sterilized air is sent to the air outlet 7 to be blown out.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. A dehumidification fresh air plasma sterilization system with auxiliary refrigeration and heating comprises a lower sealing plate (36) and is characterized in that a front sealing plate (12) is fixedly mounted on the front side of the top of the lower sealing plate (36), a lower cover plate (25) fixedly mounted on the top of the lower sealing plate (36) is fixed to the bottom of the rear side of the front sealing plate (12), an air valve A support (23) fixedly mounted on the rear side of the front sealing plate (12) is fixedly mounted on the front side of the top of the lower cover plate (25), an air valve A (24) located on the left side of the air valve A support (23) is mounted on the air valve A support, a filter screen frame A (27) fixedly mounted on the top of the lower cover plate (25) is fixedly mounted on the rear side of the air valve A support (23), a temperature and humidity sensor (26) is mounted on the left side of the front side of the filter screen frame A (27), and the temperature and humidity sensor (26, a filter screen frame B (30) fixedly installed at the top of the lower cover plate (25) is arranged at the rear side of the filter screen frame A (27), a same plasma filter screen module (28) placed at the top of the lower cover plate (25) is matched between the front side of the filter screen frame B (30) and the rear side of the filter screen frame A (27), a filter screen upper baffle plate (29) fixedly installed at the front side of the filter screen frame B (30) is contacted with the top of the plasma filter screen module (28), a filter screen frame C (32) fixedly installed at the top of the lower cover plate (25) is arranged at the rear side of the filter screen frame B (30), a same dehumidification module (31) placed at the top of the lower cover plate (25) is matched between the front side of the filter screen frame C (32) and the rear side of the filter screen frame B (30), a sealing partition plate (37) fixedly installed at the top of the lower sealing plate (36) is fixedly installed at the middle position of the rear side of the filter screen frame, the sealing partition plate (37) is of an L-shaped structure, the rear side of the sealing partition plate (37) is fixedly provided with a rear sealing plate (17) fixedly installed on the rear side of the top of the lower sealing plate (36), the rear side of the rear sealing plate (17) is provided with an air outlet (7) positioned on the left side of the sealing partition plate (37), the front side of the rear sealing plate (17) is provided with a DC fan (18) matched with the air outlet (7), the DC fan (18) is positioned on the left side of the sealing partition plate (37), the right side of the sealing partition plate (37) is also provided with an air valve B (19) installed on the rear side of a filter screen frame C (32), the air valve B (19) is positioned on the right side of the sealing partition plate (37), the rear side of the filter screen frame C (32) is provided with a filter screen frame D (35) fixedly installed on the top of the lower air plate (36), and the right side of the filter screen frame D, install activated carbon filter screen (33) and high-efficient filter screen (34) of placing at leeward aerofoil (36) top between the front side of filter screen frame D (35) and the rear side of filter screen frame C (32) in proper order after to in the past, the top of filter screen frame B (30), filter screen frame A (27), the top of blast gate A support (23) and the top fixed mounting of filter screen frame D (35) have same upper cover plate (13) that is located dehumidification module (31) top, and the front side of upper cover plate (13) and the rear side top in close contact with of preceding shrouding (12), the left side fixed mounting of upper cover plate (13) has one and leeward aerofoil (36) top left side fixed mounting's left side shrouding (14), the right side of left side shrouding (14) respectively with the left side of filter screen frame C (32), the left side of filter screen frame B (30), the left side of filter screen frame A (27), The left side of preceding shrouding (12), the left side of filter screen frame D (35) and the left side fixed mounting of back shrouding (17), fixed mounting has a DC motor driver support (16) that is located filter screen frame D (35) rear side behind the right side of left side shrouding (14), and installs DC motor driver (15) on the DC motor driver support (16), the right side fixed mounting of upper cover plate (13) has one with down aerofoil (36) top right side fixed mounting's right side shrouding (22), the left side of right side shrouding (22) respectively with the right side of filter screen frame C (32), the right side of filter screen frame B (30), the right side of filter screen frame A (27), the right side of preceding shrouding (12) and the right side fixed mounting of back shrouding (17), the left side fixed mounting of right side shrouding (22) has an EC fan (20) that is located filter screen frame C (32) rear side, a side air outlet (6) matched with the EC fan (20) is arranged at the rear side of the right side sealing plate (22), the top of the front sealing plate (12), the top of the rear sealing plate (17), the top of the left sealing plate (14), the top of the right sealing plate (22) and the top of the upper cover plate (13) are fixedly provided with the same upper sealing plate (5), a fresh air inlet (4) positioned on the right side of the air valve A support (23) is arranged on the right side of the front sealing plate (12), a return air inlet (3) positioned on the left side of the air valve A support (23) is arranged on the left side of the front sealing plate (12), and a control circuit module (8) for controlling the DC fan (18), the air valve B (19), the EC fan (20), the air valve A (24), the temperature and humidity sensor (26) and the dehumidification module (31) is fixedly mounted on the left side of the rear sealing plate (7).

2. The system for dehumidifying fresh air plasma sterilization with auxiliary cooling and heating functions as claimed in claim 1, wherein two detachable door hinges (9) and two fresh air fasteners (10) are installed on the left side of the left side sealing plate (14), and a detachable left door panel (11) is installed on the left side sealing plate (14) through the two detachable door hinges (9) and the two fresh air fasteners (10).

3. The system for dehumidifying, fresh air plasma sterilization according to claim 1, wherein a plurality of reinforcing ribs (21) are further fixedly mounted on the left side of the right sealing plate (22).

4. The system for dehumidifying, fresh air plasma sterilization with auxiliary cooling and heating functions as claimed in claim 1, wherein lifting lugs (2) are welded to four corners of the front side of the front sealing plate (12) and four corners of the rear side of the rear sealing plate (17).

5. The system of claim 1, wherein the dehumidification module (31) comprises a dehumidification module outer casing (311), an evaporator (312), a stainless steel water collecting tray (313), a high liquid level sensor (314), a low liquid level sensor (315), an air valve C (316), a middle partition plate (317), a diaphragm lifting pump (318), a condenser (319), a compressor (3111), a drying tube (3112) and a capillary tube (3115), wherein the compressor (3111) comprises a needle valve (3110) arranged on the dehumidification module outer casing (311), the interior of the dehumidification module outer casing (311) is divided into two chambers by the middle partition plate (317), the same condenser (319) is placed on the inner wall of the rear side of the two chambers, and the air valve C (316) is installed in the chamber on the right side of the middle partition plate (317), and cooperate with condenser (319), evaporimeter (312), stainless steel water-collecting tray (313), high level sensor (314), low level sensor (315), diaphragm elevator pump (318), compressor (3111), drying tube (3112) and capillary (3115) are installed and are being located the left cavity of intermediate bottom (317), the gas vent of compressor (3111) and the one end of condenser (319), the other end of two condenser (319) all are connected with the return air inlet of compressor (3111) through the throttling arrangement who comprises drying tube (3112) and capillary (3115), and compressor (3111) vertical setting to install on the bottom inner wall of dehumidification module shell body (311) through the bolt.

6. The system of claim 5, wherein the stainless steel water collecting tray (313), the high level sensor (314), the low level sensor (315), the diaphragm lift pump (318) and the condenser (319) are integrated into a drawer type module, the stainless steel water collecting tray (313) is located below the evaporator (312) and is matched with the evaporator (312), the condenser (319) is also matched with the evaporator (312), the low level sensor (315) is electrically connected with the diaphragm lift pump (318), the condensed water outlet of the diaphragm lift pump (318) is provided with a water hose, the condensed water outlet of the diaphragm lift pump (318) is provided with a water pipe adapter (1) arranged at the front side of the front sealing plate (12) through the water hose, and the high level sensor (314) and the low level sensor (315) are both matched with the stainless steel water collecting tray (313), compressor (3111), high level sensor (314), low level sensor (315) and blast gate C (316) all with control circuit module (8) electric connection to be controlled by control circuit module (8), an access door board (3114) of taking door handle (3113) is installed at the left side top of dehumidification module shell body (311), access door board (3114) and drawer type module fixed mounting.

7. The system for dehumidifying fresh air plasma sterilization with auxiliary cooling and heating functions as claimed in claim 6, wherein an alarm indicator light for electrical matching of the high liquid level sensor (314) is arranged on the control circuit module (8).

8. The system for dehumidifying fresh air plasma sterilization with auxiliary cooling and heating functions as claimed in claim 1, wherein the plasma screen module (28), the dehumidifying module (31), the activated carbon screen (33) and the high efficiency screen (34) are all drawer-type designs, and a static pressure section is formed between the plasma screen module (28) and the front sealing plate (12).

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