CN203478450U - Wall-mounted fresh air purifier - Google Patents

Abstract

The utility model provides a wall-mounted fresh air purifier, and belongs to the technical field of air regenerating devices. The wall-mounted fresh air purifier comprises a main body structure. The main body structure comprises a shell, fresh air inlets, filter screens, a total heat exchanger core, an air inlet draught fan, a fresh air outlet, a turbid air inlet, an air exhaust draught fan, a turbid outlet, a bypass air valve and a bypass channel. The shell comprises an upper surface shell body, a lower surface shell body and a left surface shell body; the total heat exchanger core comprises a total heat exchanger core fresh air channel and a total heat exchanger core turbid air channel; the main body structure is in a rectangular shape on the whole, the fresh air inlets, the fresh air outlet, the turbid air inlet and the turbid air outlet are all of non-pipeline structures, the fresh air inlets comprise a fresh air inlet A and a fresh air inlet B, and the filter screens comprise a coarse filter screen A and a coarse filter screen B. The wall-mounted fresh air purifier further comprises a gate valve, a gate valve fresh air channel, a gate valve turbid air channel and an air processing system. Compared with the prior art, the wall-mounted fresh air purifier has the advantages that the air energy recovery standard reaches the national standard; the filter screens are automatically replaced; because of the integrated structure, the wall-mounted fresh air purifier is easy and convenient to install and saves time and labor.

Description

A kind of wall-hanging fresh air purifier

Technical field

The utility model is a kind of fresh air purifier, and particularly a kind of wall-hanging fresh air purifier, belongs to air regenerating device technical field.

Background technology

Construction material, to discharge of the severe contamination of environment, automobile and industrial waste gas etc., has caused great injury to human settlement, and the requirement of low-carbon environment-friendly environment has been become to the common cry of the mankind.Particularly the whole nation adopts after PM2.5 particulate instrument supervision air quality in recent years, and the air quality of finding domestic most cities does not all reach safety standard, has caused national great attention.The air quality negative effect that the use of air-conditioner brings human settlement is also startling.The use of air-conditioner must be in airtight space, otherwise can cause the massive losses of the energy.First closed room is brought air quality problems is that oxygen is not enough, and secondly the increasing of carbon dioxide be that such as formaldehyde, sulfur dioxide etc. that building is emitted affect human health accessory substance and also can not get discharge and increase, generation " air conditioner disease ".Separately from the new wind of outdoor introduction also by environmental pollution, a lot of areas can be introduced without healthy newly wind.

Adopt at present Air to air ERV device to carry out the energy of recovery section loss, by the regulation of national standard, at least should reclaim 55% energy, can reduce like this by 55% energy loss.Airborne deleterious particle material enters in room after processing by air treatment system, and what the indoor construction material existing itself produced is removed by indoor circulation system as harmful substances such as formaldehyde, sulfur dioxide and viruses.If do not clean for a long time screen pack, can not blocked by particulates emission, cannot introduce new wind, even if adopted high efficiency electrostatic to carry out carbonization treatment to airborne particulate and harmful substance, but still will process just, can avoid secondary pollution.Because most of Air to air ERV devices are all embedded structures, be arranged in ceiling, and screen pack is mounted in device inside, be not easy to disassembly, cleaning.To the removing of dirt after the control of air-treatment multifunction system and detoxication, it is an insoluble problem.

Utility model content

The purpose of this utility model is in above-mentioned prior art, Air to air ERV is few, screen pack cleans difficulty, complicated defect is installed, a kind of wall-hanging fresh air purifier is provided, can have reached that Air to air ERV is many, screen pack is changed automatically, simple object is installed.

The technical scheme that the utility model is taked is to achieve these goals: a kind of wall-hanging fresh air purifier, comprise agent structure, described agent structure comprises housing, fresh inlet, screen pack, full heat exchange movement, air intake blower fan, new wind outlet, turbid wind inlet, exhaust fan, the outlet of turbid wind, bypass air-valve, bypass passageways, described housing comprises top shell, housing and left side housing below, described full heat exchange movement comprises the new wind passage of full heat exchange movement and the dirty wind passage of full heat exchange movement

Described agent structure integral body is rectangle, and described fresh inlet, new wind outlet, turbid wind inlet and the outlet of turbid wind are without pipeline configuration, and described fresh inlet comprises fresh inlet A, B, and described screen pack comprises low efficient filter screen A, B, also comprise gate valve, the new wind passage of gate valve, the dirty wind passage of gate valve and air treatment system, described fresh inlet A is arranged on left side lower housing portion, described full heat exchange movement is arranged in agent structure the position of taking back, middle part, described screen pack A arranges full heat exchange movement left lower side, described air treatment system is arranged in agent structure the position that takes over, middle part, described new wind outlet is arranged on top shell the right, described air intake blower fan is arranged on right part in agent structure, new wind outlet inner face, described turbid wind inlet is arranged on housing middle part below, described turbid wind outlet is arranged on housing top, the left side, described exhaust fan is arranged on agent structure left part, turbid wind outlet inner face, described low efficient filter screen B is arranged on turbid wind inlet inner face, between turbid wind inlet and full heat exchange movement, described fresh inlet B is arranged on agent structure rear portion right flank, described bypass air-valve is arranged on left part in agent structure, fresh inlet B inner face, described bypass passageways is arranged on bottom in agent structure, between fresh inlet B and air treatment system, described gate valve is arranged in agent structure the middle part portion that takes over, between full heat exchange movement and air treatment system, the new wind passage of described gate valve is on gate valve, the dirty wind passage of described gate valve is in gate valve lower left,

Described fresh inlet, bypass air-valve, low efficient filter screen A, the complete new wind passage of heat exchange movement, the new wind passage of gate valve, air intake blower fan, new wind outlet forms through the new wind of full heat exchange movement introduces passage, described turbid wind inlet, low efficient filter screen B, the dirty wind passage of full heat exchange movement, exhaust fan, turbid wind outlet forms turbid wind passing away, described fresh inlet, bypass passageways, air treatment system, air intake blower fan, new wind outlet forms through the new wind of air treatment system introduces passage, described fresh inlet, bypass air-valve, low efficient filter screen A, the complete new wind passage of heat exchange movement, the new wind passage of gate valve, air treatment system, air intake blower fan, new wind outlet forms through the new wind of full heat exchange movement and air treatment system introduces passage, described turbid wind inlet, low efficient filter screen B, the turbid wind passage of gate valve, air treatment system, exhaust fan, new wind outlet forms indoor air purification passage,

Described gate valve comprises gate valve door frame, upper rail, lower guideway, gate and valve, gate valve electric machine support, gate valve motor, gear, travel switch A, travel switch B, described gate valve door frame is on full heat exchange movement the right, be fixedly installed vertical with back side of shell, on described, lower guideway is fixedly installed on gate valve door frame, below, described gate and valve is arranged between upper/lower guide, be slidably connected with upper/lower guide, described gate valve electric machine support is arranged on the place ahead, gate and valve middle part, described gate valve motor is fixedly installed in gate valve electric machine support, described gear is arranged on gate valve electric machine support top, gear shaft is fixedly connected with gate valve motor shaft, at gate and valve middle part, be horizontally arranged with tooth bar, described rack and pinion is that tooth transmission coordinates, at gate and valve left and right sides, tooth bar left and right end is respectively provided with travel switch A, B, when gate valve electric motor starting, the downward face-piece body of tooth bar move, gate and valve is opened, and the new wind passage of gate valve is opened, the dirty wind pathway closure of gate valve, when gate valve motor cuts out, tooth bar is when housing moves upward, gate and valve is closed, the new wind pathway closure of gate valve, the dirty wind passage of gate valve are opened.

Described air treatment system comprises primarily efficient filter device, medium air filtration device, purifying and dedusting device, charcoal adsorbent equipment, described primarily efficient filter device, medium air filtration device are all to adopt paperboard+HEPA different densities material to make, described purifying and dedusting device is 90% high-pressure electrostatic precipitation, 95% virus purified, and described charcoal adsorbent equipment is activated carbon filtration adsorbent equipment.

Described bypass air-valve comprises bypass motor, bypass electric machine support, bypath valve, rotating shaft, travel switch C, travel switch D, described bypass motor is arranged on bypass electric machine support below, described bypath valve is arranged on bypass electric machine support top, described rotating shaft is arranged between bypass electric machine support and bypath valve, at right angle setting, rotating shaft lower end is rotationally connected with the motor shaft of the bypass motor of boring a hole by bypass electric machine support, rotating shaft upper end is fixedly connected with bypath valve, and travel switch C, D are arranged on the both sides above bypass electric machine support; When bypass electric motor starting, bypass motor drives bypath valve to clockwise rotate by rotating shaft, and bypass air-valve is opened, and when bypass motor cuts out, bypass motor drives bypath valve to rotate counterclockwise by rotating shaft, and bypass air-valve cuts out.

Also comprise link plate, described link plate integral body is rectangle, shorter than agent structure of the present utility model, and 4 bights of link plate are respectively provided with 1 two-way clothes-hook hole, and the middle part of link plate is oblique to be provided with 2 and to enter wall setscrew hole; Link plate can be fixedly connected with wall with setscrew by entering wall setscrew hole, and the agent structure of utility model can articulate by 4 two-way clothes-hook holes and clothes-hook and link plate.

Described low efficient filter screen A or B are a kind of scavenging air filter of exempting from, comprise casing, screen pack, be arranged on the pallet on casing top, the filter motor that is arranged on lower box and filter machine shaft, described screen pack comprises that top is arranged on new screen pack lamination, the working lining in the middle part of casing on pallet and twists in the dirty net volume cylinder on filter machine shaft; When filter electric motor starting, the new screen pack of part on new screen pack lamination can forward working lining position downwards to, and the working lining with dirt can be rolled onto on dirty net volume cylinder simultaneously.

Described full heat exchange movement is heterogeneous membrane movement, and described heterogeneous membrane movement comprises locating dowel, plastic wave mould strip framework, upper and lower end cap and heterogeneous membrane; Described locating dowel has 4, and plastic wave mould strip framework is by the aperture A in its bight, and upper and lower 2 plastic wave mould strip frameworks are incorgruous 90 degree, and cover is through in 4 locating dowels; Described heterogeneous membrane is arranged on upper and lower being between 2 plastic wave mould strip frameworks that incorgruous 90 degree arrange, and by the aperture B in its bight, cover is through in 4 locating dowels; The new wind passage of described full heat exchange movement and the dirty wind passage of full heat exchange movement are in the upper and lower alternate setting of heterogeneous membrane.

Operational mode and function thereof:

One. Air to air ERV pattern: when outdoor ring temperature is higher than indoor temperature, simultaneously outdoor environment temperature is higher than 20 ℃ and outdoor air particle concentration PM2.5<50 μ g/m ³, room air particle concentration PM10>50 μ g/m simultaneously ³time, the utility model is pressed Air to air ERV mode operation, and new wind is walked through the new wind introduction passage of full heat exchange movement, turbid wind and is walked turbid wind passing away, now, the utlity model has and introduces clean new wind, discharges turbid wind and Air to air ERV function.Now bypass air-valve is opened, close bypass passageways simultaneously, gate valve is opened, the new wind passage of gate valve is enabled, air treatment system is closed, air intake blower fan is opened operation, the clean new wind of high temperature (or low temperature) enters from new wind entrance, through bypass air-valve, after low efficient filter screen A carries out high efficiency filter processing, enter full heat exchange movement, here with indoor exhaust wind passage in the turbid wind of low temperature (or high temperature) carry out the wet exchange of heat, complete Air to air ERV, new wind reduces (or raising) temperature by the gate valve of opening passage, the new wind passage of gate valve, under air intake blower fan effect, from new wind outlet, enter indoor, the new wind of high temperature (or low temperature) that indoor turbid wind enters air energy exchanger core and new wind passage from turbid wind inlet simultaneously carries out damp and hot exchange, temperature rising (or reduction) after turbid wind heat absorption (or heat release), by exhaust fan, from the outlet of turbid wind, be discharged to outdoorly, complete and discharge turbid wind and energy reclaims.

Two. new wind-air energy refrigeration mode: when outdoor ring temperature is lower than indoor temperature, while outdoor environment temperature is higher than 18 ℃, and outdoor air particle concentration PM2.5<50 μ g/m ³, while room air particle concentration PM2.5>50 μ g/m ³time, the utility model is by new wind-air energy refrigeration mode operation, and new wind is walked through the new wind of air treatment system and is introduced passage, and turbid wind, by outside the direct discharge chamber of door and window, now, the utlity model has and introduces clean new wind and air energy refrigerating function.Gate valve now, bypass air-valve cuts out, open bypass passageways simultaneously, air intake blower fan starts, air treatment system is opened, exhaust fan is closed, introducing the new wind of low temperature clean introduces from fresh inlet, pass through bypass passageways, through air treatment system, carry out purifying sterilizing processing, by air intake blower fan, from new wind outlet, directly drain into indoor, in and room air, carrying out air can freeze simultaneously, reduce indoor temperature, complete and introduce clean new wind and air energy refrigerating function, now indoor allow to window open the door, turbid wind is by outside door and window discharge chamber, and increase entering and air energy refrigerating capacity of new wind.

Three. air quality purified treatment-Air to air ERV pattern: when outdoor ring temperature is higher than indoor temperature, while outdoor environment temperature is higher than 20 ℃, and outdoor air particle concentration PM2.5>50 μ g/m ³, while room air particle concentration PM2.5>50 μ g/m ³time, the utility model is by air quality purified treatment-Air to air ERV mode operation, new wind is walked through the new wind introduction passage of full heat exchange movement and air treatment system, turbid wind and is walked turbid wind passing away, now, the utlity model has the clean new wind of introduction, discharge turbid wind and Air to air ERV function.Now bypass air-valve is opened, close bypass passageways simultaneously, gate valve is opened, gate valve is opened passage and is enabled, air treatment system is opened simultaneously, air intake blower fan is opened, the clean new wind of high temperature (or low temperature) enters from new wind entrance, through bypass air-valve, after low efficient filter screen A carries out high efficiency filter processing, enter full heat exchange movement, here with indoor exhaust wind passage in the turbid wind of low temperature (or high temperature) carry out the wet exchange of heat, complete Air to air ERV, new wind reduces (or raising) temperature by the gate valve of opening passage, by the new wind passage of gate valve, enter air treatment system, below standard new wind is carried out to purified treatment and become more clean new wind, clean new wind is discharged new wind by air intake blower fan and is exported, enter indoor, complete and introduce purifying fresh air and Air to air ERV function, the new wind of high temperature (or low temperature) that indoor turbid wind enters air energy exchanger core and new wind passage from turbid wind inlet simultaneously carries out damp and hot exchange, temperature rising (or reduction) after turbid wind heat absorption (or heat release), by exhaust fan, from the outlet of turbid wind, be discharged to outdoorly, complete and discharge turbid wind and energy reclaims.

Four. indoor air purification pattern: when outdoor air quality is worse than IAQ, i.e. outdoor air particle PM2.5>100 μ g/m ³, while room air particle PM2.5>50 μ g/m ³time, the utility model is pressed indoor air purification mode operation, and now wind is walked indoor air purification passage, the utlity model has function of purifying indoor air.Now, gate valve, bypass air-valve are closed, the new wind pathway closure of gate valve, and exhaust fan stops, air treatment system is opened, air intake blower fan moves; Wind is introduced from turbid wind entrance, through low efficient filter screen B, the turbid wind passage of gate valve, entering air treatment system carries out purified treatment to turbid wind and becomes clean air up to standard, by air intake blower fan, from new wind outlet, flow back to indoor, reach the function of indoor air purification circular treatment, IAQ is controlled by VOC monitor, room air particle concentration PM2.5<30 μ g/m ³time, stop air cleaning and process.

Compared with prior art, the beneficial effects of the utility model are:

(1) be provided with the new wind passage of full heat exchange movement and the dirty wind passage of full heat exchange movement, new wind is introduced blower fan and new wind is introduced, entered the new wind passage of full heat exchange movement from outdoor new wind entrance, carry out the wet exchange of heat with the dirty wind in the dirty wind passage of movement, reclaim air energy indoor from indoor direction-changeable ventilating opening introducing with the new wind wetting after measuring, reach to the energy-conservation object of indoor introducing oxygen bar and recovery air energy; The very large dirty wind of the gas concentrations such as formaldehyde that indoor carbon dioxide and air-conditioning bacterium and building distribute is simultaneously drawn blower fan by dirty wind and is sucked, drain into the dirty wind passage of full heat exchange movement, and carry out air energy here and wet amount exchange, reclaim after air energy, from outdoor dirty wind outlet, be discharged to outdoor; The regulation that Air to air ERV standard is up to state standards, at least should reclaim 55% energy;

(2) be provided with Air to air ERV pattern, new wind-air energy refrigeration mode, air quality purified treatment-Air to air ERV pattern and indoor air purification pattern, can select according to different situations, reach the object that purifies the air of a room, saves the energy;

(3) screen pack is changed automatically, for exempting from all the life to change, exempts from filter rinsed, has thoroughly solved the problem of fresh air ventilator filter rinsed, has economized and has sent professional to go to clean the expense of approximately 100,000 yuan every year; Solve regularly fixing turn and changed screen pack and cause the waste of screen pack material, can save screen pack 70% left and right;

(4) integral structure, simple installation is time saving and energy saving.

Accompanying drawing explanation

Fig. 1 is: Air to air ERV pattern and air quality purified treatment-Air to air ERV mode operation figure;

Fig. 2-1st: new wind-air energy refrigeration mode operation front view;

Fig. 2-2nd: new wind-air energy refrigeration mode operation top view;

Fig. 3 is: indoor air purification mode operation figure;

Fig. 4-1st: gate valve structure enlargement decomposition;

Fig. 4-2nd: gate valve open mode enlarged drawing;

Fig. 4-3rd: gate valve closed condition enlarged drawing;

Fig. 5-1st: bypass wind valve structure exploded view;

Fig. 5-2nd: bypass air-valve open mode enlarged drawing;

Fig. 5-3rd: bypass air-valve closed condition enlarged drawing;

Fig. 6-1st: link plate front view;

Fig. 6-2nd: link plate top view;

Fig. 6-3rd: link plate and the horizontal assembly drawing of the utility model agent structure;

Fig. 6-4th: link plate and the longitudinal assembly drawing of the utility model agent structure;

Fig. 7 is: the utility model three-dimensional structure diagram;

Fig. 8 is: exempt from scavenging air filter enlarged drawing;

Fig. 9 is: full heat exchange movement assembling enlarged drawing;

Description of reference numerals: 1 housing, 101 top shell, housing below 102, 103 left side housings, 2 fresh inlets, 201 fresh inlet A, 202 fresh inlet B, 3 screen packs, 301 low efficient filter screen A, 302 low efficient filter screen B, 4 full heat exchange movements, the new wind passage of 401 full heat exchange movement, the dirty wind passage of 402 full heat exchange movement, 403 locating dowels, 404 plastic wave mould strip frameworks, 405 end caps, 406 heterogeneous membranes, 5 air intake blower fans, 6 new wind outlets, 7 turbid wind inlets, 8 exhaust fans, 9 turbid wind outlets, 10 bypass air-valves, 1001 bypass motors, 1002 bypass electric machine supports, 1003 bypath valves, 1004 rotating shafts, 1005 travel switch C, 1006 travel switch D, 11 bypass passageways, 12 gate valves, 1201 gate valve door frames, 1202 upper rails, 1203 lower guideways, 1204 gate and valves, 1205 gate valve electric machine supports, 1206 gate valve motors, 1207 gears, 1208 travel switch A, 1209 travel switch B, 1210 tooth bars, the new wind passage of 13 gate valve, the dirty wind passage of 14 gate valves, 15 air treatment systems, 1501 primarily efficient filter devices, 1502 medium air filtration devices, 1503 purifying and dedusting devices, 1504 charcoal adsorbent equipments, 16 link plates, 1601 clothes-hook holes, 1602 setscrew holes, 1603 clothes-hooks, 17 exempt from scavenging air filter, 1701 casings, 1702 screen packs, 1703 pallets, 1704 filter motors, 1705 filter machine shafts.

The specific embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail, but not as to restriction of the present utility model.

As shown in Figures 1 to 9, a kind of wall-hanging fresh air purifier, comprise agent structure, described agent structure comprises housing 1, fresh inlet 2, screen pack 3, full heat exchange movement 4, air intake blower fan 5, new wind outlet 6, turbid wind inlet 7, exhaust fan 8, turbid wind outlet 9, bypass air-valve 10, bypass passageways 11, described housing 1 comprises top shell 101, housing 102 and left side housing 103 below, described full heat exchange movement 4 comprises the new wind passage 401 of full heat exchange movement (401 trends that solid line is schematic channel of pointing in figure) and the dirty wind passage 402 of full heat exchange movement (402 trends that solid line is schematic channel of pointing in figure).

Described agent structure integral body is rectangle, described fresh inlet 2, new wind outlet 6, turbid wind inlet 7 and turbid wind outlet 9 are without pipeline configuration, described fresh inlet 2 comprises fresh inlet A201, fresh inlet B202, and described screen pack 3 comprises low efficient filter screen A301, low efficient filter screen B302, also comprise gate valve 12, the new wind passage 13 of gate valve (13 trends that solid line is schematic channel of pointing in figure), the dirty wind passage 14 of gate valve (14 trends that solid line is schematic channel of pointing in figure) and air treatment system 15, described fresh inlet A201 is arranged on left side housing 103 bottoms, described full heat exchange movement 4 is arranged in agent structure the position of taking back, middle part, described screen pack A301 is arranged on full heat exchange movement 4 left sides, described air treatment system 15 is arranged in agent structure the position that takes over, middle part, described new wind outlet 6 is arranged on top shell right part, described air intake blower fan 5 is arranged on right part in agent structure, new wind exports 6 inner faces, described turbid wind inlet 7 is arranged on housing middle part below, described turbid wind outlet 9 is arranged on left side housing 103 tops, described exhaust fan 8 is arranged on left part in agent structure, turbid wind exports 9 inner faces, described low efficient filter screen B302 is arranged on turbid wind inlet 7 inner faces, between turbid wind inlet 7 and full heat exchange movement 4, described fresh inlet B202 is arranged on back side of shell left part, described bypass air-valve 10 is arranged on left part in agent structure, fresh inlet B202 inner face, described bypass passageways 11 is arranged on bottom in agent structure, between fresh inlet B202 and air treatment system 15, described gate valve 12 is arranged in agent structure the middle part portion that takes over, between full heat exchange movement 4 and air treatment system 15, the new wind passage 13 of described gate valve is above gate valve 12 left sides, the dirty wind passage 14 of described gate valve is below gate valve 12 left sides,

Described fresh inlet 2, bypass air-valve 10, low efficient filter screen A301, the complete new wind passage 401 of heat exchange movement, the new wind passage 13 of gate valve, air intake blower fan 5, new wind outlet 6 forms through the new wind of full heat exchange movement introduces passage, described turbid wind inlet 7, low efficient filter screen B302, the dirty wind passage 402 of full heat exchange movement, exhaust fan 8, turbid wind outlet 9 forms turbid wind passing away, described fresh inlet 2, bypass passageways 11, air treatment system 15, air intake blower fan 5, new wind outlet 6 forms through the new wind of air treatment system 15 introduces passage, described fresh inlet 2, bypass air-valve 10, low efficient filter screen A301, the complete new wind passage 401 of heat exchange movement, the new wind passage 13 of gate valve, air treatment system 15, air intake blower fan 5, new wind outlet 6 forms through the new wind of full heat exchange movement 4 and air treatment system 15 introduces passage, described turbid wind inlet 7, low efficient filter screen B302, the turbid wind passage 14 of gate valve, air treatment system 15, exhaust fan 8, new wind outlet 6 forms indoor air purification passage,

When gate valve 12, bypass air-valve 10 are opened, air intake blower fan 5, exhaust fan 8 start, when air treatment system 15 is closed, new wind is walked through the new wind of the new wind passage 401 of full heat exchange movement and is introduced passage, from fresh inlet 2 introducings, through bypass air-valve 10, low efficient filter screen A301, the complete new wind passage 401 of heat exchange movement, the new wind passage 13 of gate valve, air intake blower fan 5, from new wind outlet 6, enter indoor; And turbid wind is walked turbid wind passing away, from turbid wind inlet 7 introducings, through low efficient filter screen B302, the dirty wind passage 402 of full heat exchange movement, exhaust fan 8, from turbid wind outlet 9, be discharged to outdoor;

When gate valve 12, bypass air-valve 10 are closed, air intake blower fan 5 starts, air treatment system 15 is opened, exhaust fan 8 is when close, new wind is walked through the new wind of air treatment system 15 and is introduced passage, from fresh inlet 2 introducings, through bypass passageways 11, air treatment system 15, air intake blower fan 5, from new wind outlet 6, enter indoor; Indoor turbid wind can be by outside door and window discharge chamber;

When gate valve 12, bypass air-valve 10 are opened, air intake blower fan 5, exhaust fan 8 start, when air treatment system 15 is opened simultaneously, new wind is walked through the new wind of the new wind passage 401 of full heat exchange movement and air treatment system 15 and is introduced passage, from fresh inlet 2 introducings, through bypass air-valve 10, low efficient filter screen A301, the complete new wind passage 401 of heat exchange movement, the new wind passage 13 of gate valve, air treatment system 15, air intake blower fan 5, from new wind outlet 6, enter indoor; And turbid wind is walked turbid wind passing away, from turbid wind inlet 7 introducings, through low efficient filter screen B302, the dirty wind passage 402 of full heat exchange movement, exhaust fan 8, from turbid wind outlet 9, be discharged to outdoor;

When gate valve 12, bypass air-valve 10 are closed, gate valve is opened pathway closure, exhaust fan 8 stops, air treatment system 15 is opened, during air intake blower fan 5 operation, indoor turbid wind is walked indoor air purification passage, turbid wind is introduced from turbid wind inlet 7, through low efficient filter screen B302, the turbid wind passage 14 of gate valve, air treatment system 15, exhaust fan 8, from new wind outlet 6, enter indoor.

Described gate valve 12 comprises gate valve door frame 1201, upper rail 1202, lower guideway 1203, gate and valve 1204, gate valve electric machine support 1205, gate valve motor 1206, gear 1207, travel switch A1208, travel switch B1209, described gate valve door frame 1201 is in full heat exchange movement 4 the place aheads, with top shell 101, housing 102 is vertically fixedly installed below, described upper rail 1202, lower guideway 1203 is fixedly installed on gate valve door frame 1201, below, described gate and valve 1204 is arranged on upper rail 1202, between lower guideway 1203, with upper rail 1202, lower guideway 1203 is slidably connected, and described gate valve electric machine support 1205 is arranged on gate and valve 1204 the place aheads, middle part, and described gate valve motor 1206 is fixedly installed in gate valve electric machine support 1205, and described gear 1207 is arranged on gate valve electric machine support 1205 tops, gear 1207 axles are fixedly connected with gate valve motor 1206 axles, at gate and valve 1204 middle parts, are horizontally arranged with tooth bar 1210, and described tooth bar 1210 and gear 1207 coordinate for tooth transmission, at gate and valve 1204 left and right sides, tooth bar 1210 left and right ends are respectively provided with travel switch A1208, travel switch B1209, when 1206 startups of gate valve motor, the downward face-piece body of tooth bar 1210 move, gate and valve 1204 is opened, and the new wind passage 13 of gate valve is opened, the dirty wind passage 14 of gate valve is closed, when gate valve motor 1206 cuts out, tooth bar 1210 is when housing moves upward, gate and valve 1204 is closed, the new wind passage 13 of gate valve is closed, the dirty wind passage 14 of gate valve is opened.

Described air treatment system 15 comprises primarily efficient filter device 1501, medium air filtration device 1502, purifying and dedusting device 1503, charcoal adsorbent equipment 1504, described primarily efficient filter device 1501, medium air filtration device 1502 are all to adopt paperboard+HEPA different densities material to make, described purifying and dedusting device is 90% high-pressure electrostatic precipitation, 95% virus purified, and described charcoal adsorbent equipment is activated carbon filtration adsorbent equipment.

Described bypass air-valve 10 comprises bypass motor 1001, bypass electric machine support 1002, bypath valve 1003, rotating shaft 1004, travel switch C1005, travel switch D1006, described bypass motor 1001 is arranged on bypass electric machine support 1002 belows, described bypath valve 1003 is arranged on bypass electric machine support 1002 tops, described rotating shaft 1004 is arranged between bypass electric machine support 1002 and bypath valve 1003, at right angle setting, rotating shaft 1004 lower ends are rotationally connected with the motor shaft of the bypass motor 1001 of boring a hole by bypass electric machine support 1002, rotating shaft 1004 upper ends are fixedly connected with bypath valve 1003, travel switch C1005, travel switch D1006 is arranged on bypass electric machine support 1002 both sides above, when bypass motor 1001 starts, bypass motor 1001 drives bypath valve 1003 to clockwise rotate by rotating shaft 1004, and bypass air-valve 10 is opened, when bypass motor 1001 cuts out, bypass motor 1001 drives bypath valve 1003 to rotate counterclockwise by rotating shaft 1004, and bypass air-valve 10 cuts out.

Also comprise link plate 16, described link plate 16 integral body are rectangle, shorter than agent structure of the present utility model, and 4 bights of link plate 16 are respectively provided with 1 two-way clothes-hook hole 1601, and the middle part of link plate 16 is oblique to be provided with 2 and to enter wall setscrew hole 1602; Link plate 16 can be fixedly connected with wall with setscrew (not shown) by entering wall setscrew hole 1602, and the agent structure of utility model can articulate with link plate 16 by 4 two-way clothes-hook holes 1601 and clothes-hook 1603.

Described low efficient filter screen A301, low efficient filter screen B302 are a kind of scavenging air filter 17 of exempting from, comprise casing 1701, screen pack 1702, be arranged on the pallet 1703 on casing 1701 tops, the filter motor 1704 that is arranged on casing 1701 bottoms and filter machine shaft 1705, described screen pack 1702 comprises that top is arranged on new screen pack lamination, the working lining in the middle part of casing on pallet 1703 and twists in the dirty net volume cylinder on filter machine shaft; When filter motor 1704 starts, the new screen pack 1702 of part on new screen pack lamination can forward working lining position downwards to, and the working lining with dirt can be rolled onto on dirty net volume cylinder simultaneously.

Described full heat exchange movement 4 is heterogeneous membrane movement, and described heterogeneous membrane movement comprises locating dowel 403, plastic wave mould strip framework 404, upper and lower end cap 405 and heterogeneous membrane 406; Described locating dowel 403 has 4, and plastic wave mould strip framework 404 is by the aperture A in its bight, and upper and lower 2 plastic wave mould strip frameworks 404 are incorgruous 90 degree, and cover is through in 4 locating dowels 403; Described heterogeneous membrane 406 is arranged on upper and lower being between 2 plastic wave mould strip frameworks 404 that incorgruous 90 degree arrange, and by the aperture B in its bight, cover is through in 4 locating dowels 403; The new wind passage 401 of described full heat exchange movement and the dirty wind passage 402 of full heat exchange movement are in the upper and lower alternate setting of heterogeneous membrane 406.

The key technical indexes of the present utility model is:

Resh air requirement: 100m ³/ h, exhaust air rate: 60m ³/ h;

Static pressure: new wind static pressure 20Pa～40Pa; Air draft static pressure 20Pa～40Pa;

Air cleaning AQI value :≤50 μ g/m ³.

Above-described embodiment, the utility model specific embodiment a kind of more preferably just, the common variation that those skilled in the art carries out within the scope of technical solutions of the utility model and replacing all should be included in protection domain of the present utility model.

Claims (7)

1. a wall-hanging fresh air purifier, comprise agent structure, described agent structure comprises housing, fresh inlet, screen pack, full heat exchange movement, air intake blower fan, new wind outlet, turbid wind inlet, exhaust fan, the outlet of turbid wind, bypass air-valve, bypass passageways, described housing comprises top shell, housing and left side housing below, described full heat exchange movement comprises the new wind passage of full heat exchange movement and the dirty wind passage of full heat exchange movement, it is characterized in that:

Described agent structure integral body is rectangle, and described fresh inlet, new wind outlet, turbid wind inlet and the outlet of turbid wind are without pipeline configuration, and described fresh inlet comprises fresh inlet A, B, and described screen pack comprises low efficient filter screen A, B, also comprise gate valve, the new wind passage of gate valve, the dirty wind passage of gate valve and air treatment system, described fresh inlet A is arranged on left side lower housing portion, described full heat exchange movement is arranged in agent structure the position of taking back, middle part, described screen pack A arranges full heat exchange movement left lower side, described air treatment system is arranged in agent structure the position that takes over, middle part, described new wind outlet is arranged on top shell the right, described air intake blower fan is arranged on right part in agent structure, new wind outlet inner face, described turbid wind inlet is arranged on housing middle part below, described turbid wind outlet is arranged on housing top, the left side, described exhaust fan is arranged on agent structure left part, turbid wind outlet inner face, described low efficient filter screen B is arranged on turbid wind inlet inner face, between turbid wind inlet and full heat exchange movement, described fresh inlet B is arranged on agent structure rear portion right flank, described bypass air-valve is arranged on left part in agent structure, fresh inlet B inner face, described bypass passageways is arranged on bottom in agent structure, between fresh inlet B and air treatment system, described gate valve is arranged in agent structure the middle part portion that takes over, between full heat exchange movement and air treatment system, the new wind passage of described gate valve is on gate valve, the dirty wind passage of described gate valve is in gate valve lower left,

Described fresh inlet, bypass air-valve, low efficient filter screen A, the complete new wind passage of heat exchange movement, the new wind passage of gate valve, air intake blower fan, new wind outlet forms through the new wind of full heat exchange movement introduces passage, described turbid wind inlet, low efficient filter screen B, the dirty wind passage of full heat exchange movement, exhaust fan, turbid wind outlet forms turbid wind passing away, described fresh inlet, bypass passageways, air treatment system, air intake blower fan, new wind outlet forms through the new wind of air treatment system introduces passage, described fresh inlet, bypass air-valve, low efficient filter screen A, the complete new wind passage of heat exchange movement, the new wind passage of gate valve, air treatment system, air intake blower fan, new wind outlet forms through the new wind of full heat exchange movement and air treatment system introduces passage, described turbid wind inlet, low efficient filter screen B, the turbid wind passage of gate valve, air treatment system, exhaust fan, new wind outlet forms indoor air purification passage.

2. a kind of wall-hanging fresh air purifier according to claim 1, it is characterized in that: described gate valve comprises gate valve door frame, upper rail, lower guideway, gate and valve, gate valve electric machine support, gate valve motor, gear, travel switch A, travel switch B, described gate valve door frame is in full heat exchange movement the place ahead, with vertical being fixedly installed of lower-left face-piece body, on described, lower guideway is fixedly installed on gate valve door frame, below, described gate and valve is arranged between upper/lower guide, be slidably connected with upper/lower guide, described gate valve electric machine support is arranged on the place ahead, gate and valve middle part, described gate valve motor is fixedly installed in gate valve electric machine support, described gear is arranged on gate valve electric machine support top, gear shaft is fixedly connected with gate valve motor shaft, at gate and valve middle part, be horizontally arranged with tooth bar, described rack and pinion is that tooth transmission coordinates, at gate and valve left and right sides, tooth bar left and right end is respectively provided with travel switch A, B, when gate valve electric motor starting, the downward face-piece body of tooth bar move, gate and valve is opened, and the new wind passage of gate valve is opened, the dirty wind pathway closure of gate valve, when gate valve motor cuts out, tooth bar is when housing moves upward, gate and valve is closed, the new wind pathway closure of gate valve, the dirty wind passage of gate valve are opened.

3. a kind of wall-hanging fresh air purifier according to claim 1, it is characterized in that: described air treatment system comprises primarily efficient filter device, medium air filtration device, purifying and dedusting device, charcoal adsorbent equipment, described primarily efficient filter device, medium air filtration device are all to adopt paperboard+HEPA different densities material to make, described purifying and dedusting device is 90% high-pressure electrostatic precipitation, 95% virus purified, and described charcoal adsorbent equipment is activated carbon filtration adsorbent equipment.

4. a kind of wall-hanging fresh air purifier according to claim 1, it is characterized in that: described bypass air-valve comprises bypass motor, bypass electric machine support, bypath valve, rotating shaft, travel switch C, travel switch D, described bypass motor is arranged on bypass electric machine support below, described bypath valve is arranged on bypass electric machine support top, described rotating shaft is arranged between bypass electric machine support and bypath valve, at right angle setting, rotating shaft lower end is rotationally connected with the motor shaft of the bypass motor of boring a hole by bypass electric machine support, rotating shaft upper end is fixedly connected with bypath valve, travel switch C, D is arranged on the both sides above bypass electric machine support, when bypass electric motor starting, bypass motor drives bypath valve to clockwise rotate by rotating shaft, and bypass air-valve is opened, and when bypass motor cuts out, bypass motor drives bypath valve to rotate counterclockwise by rotating shaft, and bypass air-valve cuts out.

5. a kind of wall-hanging fresh air purifier according to claim 1, it is characterized in that: also comprise link plate, described link plate integral body is rectangle, shorter than agent structure of the present invention, 4 bights of link plate are respectively provided with 1 two-way clothes-hook hole, and the middle part of link plate is oblique to be provided with 2 and to enter wall setscrew hole; Link plate can be fixedly connected with wall with setscrew by entering wall setscrew hole, and the agent structure of invention can articulate by 4 two-way clothes-hook holes and clothes-hook and link plate.

6. a kind of wall-hanging fresh air purifier according to claim 1, it is characterized in that: described low efficient filter screen A or B are a kind of scavenging air filter of exempting from, comprise casing, screen pack, be arranged on the pallet on casing top, the filter motor that is arranged on lower box and filter machine shaft, described screen pack comprises that top is arranged on new screen pack lamination, the working lining in the middle part of casing on pallet and twists in the dirty net volume cylinder on filter machine shaft; When filter electric motor starting, the new screen pack of part on new screen pack lamination can forward working lining position downwards to, and the working lining with dirt can be rolled onto on dirty net volume cylinder simultaneously.

7. a kind of wall-hanging fresh air purifier according to claim 1, is characterized in that: described full heat exchange movement is heterogeneous membrane movement, and described heterogeneous membrane movement also comprises locating dowel, plastic wave mould strip framework, upper and lower end cap and heterogeneous membrane; Described locating dowel has 4, and plastic wave mould strip framework is by the aperture A in its bight, and upper and lower 2 plastic wave mould strip frameworks are incorgruous 90 degree, and cover is through in 4 locating dowels; Described heterogeneous membrane is arranged on upper and lower being between 2 plastic wave mould strip frameworks that incorgruous 90 degree arrange, and by the aperture B in its bight, cover is through in 4 locating dowels; The new wind passage of described full heat exchange movement and the dirty wind passage of full heat exchange movement are in the upper and lower alternate setting of heterogeneous membrane.

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