CN103134166B - Multichannel combined fresh air purifier - Google Patents

Abstract

The invention relates to a multichannel combined fresh air purifier, and belongs to the technical field of air regenerating devices. The multichannel combined fresh air purifier comprises a shell, a fresh air channel and a dirty air channel and further comprises an internal circulation channel, a bypass channel, a filter net, a photocatalysis purifier and a heterogeneous membrane machine core. The internal circulation channel comprises an internal circulation doorframe component, an internal circulation opening and closing door, a rotating shaft fixed upper panel, a rotating shaft fixed lower panel and an internal circulation motor. The bypass channel comprises a foam doorframe component, a bypass component, a bypass connecting component and bypass foam, and the bypass component comprises a bypass motor support, a bypass motor, a bypass opening and closing door, an opening and closing door connecting plate and a rotating connecting rod. When the internal circulation motor is turned on, a foam doorframe A is closed, a dirty air front chamber and a fresh air back chamber are communicated through a doorframe B, and when the bypass motor is turned on, the foam doorframe A is closed, and the dirty air channel and an inlet air channel of the bypass channel are communicated through a foam doorframe B. The multichannel combined fresh air purifier has the advantages that indoor air can be subjected to an internal circulation and direct purifying treatment, and when large in amount, dirty air can be discharged out of a room, and a purifying effect is added.

Description

Multichannel combination fresh air purifier

Technical field

The present invention is a kind of fresh air purifier, particularly a kind of Multichannel combination fresh air purifier, and the new blower fan of multichannel of a kind of tool new wind distributor chamber structure, belongs to air regenerating device technical field.

Background technology

In order to improve human settlement, air-conditioner enters the stage of popularization in the whole world.But existingly improve the relatively simple for structure of the fresh-air ventilation equipment of indoor air quality, only have these 2 passages of new wind passage, dirty wind passage, in new wind passage, dirty wind passage, be horizontally arranged with heat-transfer film movement, new wind enters new wind passage outdoor and through primarily efficient filter purified treatment, then enters indoor, and indoor dirty gas is outside dirty wind passage discharge chamber, that is, air exchange that is indoor and outdoor can only be carried out.When severe winter or heat season, indoor/outdoor temperature-difference is larger, by recuperation of heat movement, reduces energy loss, plays the effect of energy-saving and emission-reduction.But the purified treatment of foul indoor air cannot be carried out.This illustrates that the using function of existing air-conditioning equipment and fresh-air ventilation equipment is very limited, and cannot meet people in the use procedure of air-conditioning equipment, to multiple requirements that is energy-conservation and purification.Sometimes, foul indoor air is comparatively serious, and during by the discharge of heat exchange movement, effect is poor.

Along with the warming of global climate, construction material are to the discharge etc. of the severe contamination of environment, automobile and industrial waste gas, great injury are caused to human settlement, the common cry of the mankind has been become to the requirement of low-carbon environment-friendly environment.But the use of air-conditioner is also startling to the air quality negative effect that human settlement brings.Closed room brings air quality problems to be first that oxygen is not enough, increasing of carbon dioxide, is secondly that such as formaldehyde, sulfur dioxide etc. that building is released affects human health accessory substance and also can not get discharge and increase, generation " air conditioner disease ".Conventional heat exchange movement adopts scraps of paper shape caloic exchange material, and its ventilation volume is still less, and air purification efficiency is still lower, have impact on the combination property of total-heat exchanger.

Summary of the invention

The object of the invention is in above-mentioned prior art, the using function of total-heat exchanger is limited, when outdoor air enters indoor, purification efficiency is low, or foul indoor air more serious time, emission effect is poor, or in the use procedure to exchange at normal indoor-outdoor air, the defect that air purification efficiency is lower, provide a kind of Multichannel combination fresh air purifier, increase using function can be reached, room air exchanges purification voluntarily, and foul indoor air mass rate of emission is fast, and improves the object heating enthalpy exchange efficiency.

The technical scheme that the present invention takes to achieve these goals is: a kind of Multichannel combination fresh air purifier, comprises housing, upper cover, lower cover, new wind passage, dirty wind passage, longitudinal baffle assembly and electric control gear; The lower surface of described housing is fixedly connected with the surrounding of lower cover; Housing comprises new wind entrance, new wind outlet, the outlet of dirty wind entrance, dirty wind; Described longitudinal baffle assembly is arranged between new wind passage and dirty wind passage, in new wind passage, dirty wind passage, be horizontally arranged with heat-transfer film movement and guide rail, described heat-transfer film movement, by guide rail grafting, also comprises inner cycle channel, bypass passageways and foam stand; Described housing is divided into left shell and right shell body, described left shell is structure as a whole, left shell to comprise on the left of left shell and on front side of left shell, on rear side of left shell, overall in left spill, described new wind outlet, dirty wind entrance are arranged on the left of left shell, and described right shell body is structure as a whole, and right shell body comprises on the right side of right shell body and on front side of right shell body, on rear side of right shell body, overall in right spill, the outlet of described new wind entrance, dirty wind is arranged on the right side of right shell body; The total-heat exchanger heat transfer movement of the heterogeneous membrane that described heat-transfer film movement is structure as a whole, be called for short heterogeneous membrane movement, comprise new wind channel part and dirty wind channel part, described heterogeneous membrane movement is by guide rail and housing grafting;

Described new wind passage comprises room after valve A, valve motor A, new wind intake assembly, new wind air channel foam, new wind cup, the new wind channel part of heterogeneous membrane movement, new wind, screen pack, light catalytic purifying machine, spiral case A, new wind spout assembly from right to left; Described new wind intake assembly left end entrance aims at the new wind entrance of right shell body, be fixedly connected with right shell body, described valve motor A is arranged on above new wind intake assembly, with new wind intake assembly and is fixedly connected with, described valve A is arranged on the right side of valve motor A, be fixedly connected with valve motor A, valve A can open and close; Described new wind air channel foam is arranged on the left of right shell body, and new wind air channel foam comprises new wind inlet conduits, and described new wind inlet conduits aims at new wind entrance, docks with new wind intake assembly left end entrance; Described spiral case A comprises spiral case housing A, and be new wind outlet conduits in described spiral case housing A, described new wind spout assembly is fixedly connected with left shell; Also comprise new wind pressure fan, described new wind blower setting, in spiral case A side, is connected with screw with lower cover bottom it, and the fan blade part of new wind pressure fan stretches in new wind outlet conduits;

Described dirty wind passage comprises dirty wind intake assembly, dirty wind inlet conduits foam, dirty wind cup, dirty wind passage frame members, the dirty wind channel part of heterogeneous membrane movement, spiral case B, the discharge of dirty wind assembly, valve motor B and valve B from left to right; Described dirty wind intake assembly is arranged on the left of left shell; Described dirty wind inlet conduits foam is arranged on inside left shell, and dirty wind inlet conduits foam comprises dirty wind inlet conduits, dirty wind interchange channel and foam doorframe A; Described dirty wind passage frame members comprises doorframe A, described spiral case B comprises spiral case housing B, be that dirty wind discharges air channel in described spiral case housing B, also comprise dirty wind exhaust blower, described dirty wind exhaust blower is arranged on spiral case B side, be connected with screw with lower cover bottom it, the fan blade part of dirty wind exhaust blower stretches into dirty wind and discharges in air channel;

Described inner cycle channel comprises Inner eycle open and close door assembly, described Inner eycle open and close door assembly comprises Inner eycle frame members, upper and lower panel and Inner eycle motor are fixed in Inner eycle open and close door, rotating shaft, described Inner eycle frame members comprises doorframe B and U-lag, described rotating shaft is fixed top panel and is connected with the U-lag side spot welding of Inner eycle frame members, described rotating shaft is fixed lower panel and is connected with the U-lag opposite side spot welding of Inner eycle frame members, described Inner eycle motor is fixed on rotating shaft and fixes on top panel, described Inner eycle open and close door passing hole axle is arranged on Inner eycle motor and rotating shaft is fixed on lower panel, and make Inner eycle open and close door be close on the surface of Inner eycle doorframe B, longitudinal baffle right-hand member is fixed on the left of described Inner eycle frame members, be fixedly connected with dirty wind passage frame members on the right side of Inner eycle frame members, be mutually right angle to arrange,

Described bypass passageways comprises foam frame members, bypass assembly, bypass connector and bypass foam; Described bypass passageways foam frame members and dirty wind inlet conduits foam are structure as a whole, and bypass passageways foam frame members is in side, dirty wind inlet conduits foam bottom, and bypass passageways foam frame members comprises foam doorframe B and bypass inlets air channel; Described bypass assembly comprises bypass electric machine support, bypass motor, bypass open and close door, open and close door connecting plate, pivot link, and bypass assembly is fixed on the inner surface of lower cover by its bypass electric machine support; Open and close door connecting plate one end and bypass enabling gate are screwed, and the open and close door connecting plate other end is fixedly connected with bypass electric machine support, and pivot link one end and bypass motor passing hole axle are rotationally connected, and the pivot link other end and open and close door connecting plate are rotationally connected; Described bypass connector is the flat board being respectively mutually right angle with two pieces of crimp, bypass connector with on front side of left shell, lower cover near and be fixedly connected with, the air channel, middle part of formation bypass passageways; Described bypass foam is arranged between bypass assembly and spiral case B, and the air channel, bypass passageways rear portion in bypass foam and the dirty wind in spiral case B are discharged air channel and interlinked;

Described foam stand is arranged on inside right shell body, newly between wind air channel foam and spiral case B;

When Inner eycle motor cuts out, Inner eycle open and close door contacts completely with doorframe B, doorframe B closes, when new wind pressure fan, valve A and valve motor A open, in new wind passage, new wind is room after the new wind channel part, new wind of valve A, new wind intake assembly, new wind inlet conduits, new wind cup, heterogeneous membrane movement, and screen pack, light catalytic purifying machine, new wind outlet conduits, new wind spout assembly enter indoor;

When Inner eycle motor cuts out, Inner eycle open and close door contacts completely with foam doorframe B, doorframe B closes, dirty wind cup, the dirty wind channel part of heterogeneous membrane movement is interlinked by doorframe A, bypass motor cuts out simultaneously, bypass open and close door contacts completely with foam doorframe B, foam doorframe B closes, dirty wind exhaust blower, when valve motor B and valve B opens, in dirty wind passage, dirty wind is through dirty wind intake assembly, dirty wind inlet conduits, dirty wind interchange channel, foam doorframe A, dirty wind cup, doorframe A, the dirty wind channel part of heterogeneous membrane movement, dirty wind discharges air channel, dirty wind is discharged outside assembly and valve B discharge chamber,

When Inner eycle motor is opened, Inner eycle open and close door rotates counterclockwise 90 degree, contact completely with doorframe A, doorframe A closes, after dirty wind cup and new wind, room is interlinked by doorframe B, bypass motor cuts out simultaneously, bypass open and close door contacts completely with foam doorframe B, foam doorframe B closes, and indoor dirty wind room, screen pack, light catalytic purifying machine, new wind outlet conduits, new wind spout assembly after dirty wind intake assembly, dirty wind inlet conduits, dirty wind interchange channel, foam doorframe A, dirty wind cup, doorframe B, new wind enter indoor; When not needing Inner eycle, Inner eycle open and close door rotates clockwise 90 degree, recovers the state contacted completely with doorframe B; Doorframe B closes;

When dirty air quantity is large, bypass motor is opened, bypass open and close door rotates clockwise 60 degree, contact completely with foam doorframe A, foam doorframe A closes, dirty wind passage and bypass inlets air channel are interlinked by foam doorframe B, when dirty wind exhaust blower, valve motor B and valve B open simultaneously, dirty wind is behind dirty wind intake assembly, dirty wind inlet conduits, dirty wind interchange channel, directly through foam doorframe B and bypass inlets air channel, middle part, air channel, rear portion, then discharge air channel through dirty wind, dirty wind discharges outside assembly and valve B discharge chamber; When dirty air quantity is little, during without bypass passageways, bypass motor cuts out, and bypass open and close door rotates counterclockwise 60 degree, and recover the state contacted completely with foam doorframe B, foam doorframe B closes.

Described guide rail comprises left rail, right guide rail, upper rail and lower guideway, described left rail two ends are fixedly connected with Inner eycle frame members respectively with on rear side of left shell, inlay in the groove of bank on the left of new wind air channel foam and foam stand on the right side of described right guide rail, one end of right guide rail is fixedly connected with on rear side of right shell body, and described upper rail and lower guideway are fixedly connected with upper cover, lower cover respectively.

Described heterogeneous membrane movement comprises the plastic wave mould strip framework of more than 10 pieces and the heterogeneous membrane of more than 9 pieces, and described each heterogeneous membrane is arranged on upper and lower between incorgruous 90 degree of 2 pieces of plastic wave mould strip frameworks arranged.

Described heterogeneous membrane movement comprises the plastic wave mould strip framework of 250 pieces and the heterogeneous membrane of 249 pieces.

Described heterogeneous membrane comprises base film layer and thin film of additive layer, and described base film layer is flame retardant type PP thin layer, and described thin film of additive layer is the admixture solvent layer of compound adsorbent, fire retardant, bactericide, reinforcing agent, adhesive, polyurethane and PLA.

Described longitudinal baffle assembly is arranged on the light catalytic purifying machine, new between wind pressure fan and the dirty wind cup of dirty wind passage of new wind passage.

Described light catalytic purifying machine and housing socket connection, described screen pack and the socket connection of light catalytic purifying machine; The material that screen pack adopts is PU; Light catalytic purifying machine is TiO2 photocatalysis compound+uviol lamp.

Described electric control gear is arranged on outside on rear side of left shell, is fixedly connected with on rear side of left shell, and electric control gear comprises electric-controlled box and automatically controlled base plate, and described automatically controlled base plate is fixedly installed in electric-controlled box, and automatically controlled base plate is regulated by remote controller.

On rear side of heterogeneous membrane movement, be also provided with inspection hatch, described inspection hatch both sides are connected with screw respectively with on rear side of left and right housing.

Compared with prior art, the invention has the beneficial effects as follows: be both provided with new wind channel design, dirty wind channel design, there is new wind ventilation function, dirty wind ventilation function, also be provided with inner cycle channel structure, bypass passageways structure, Inner eycle can be carried out to room air, direct purification process, and when foul atmosphere amount is large, can fast outside discharge chamber; Be provided with heat exchange movement, preheating or precooling can be carried out to the air exchanged, and heat exchanger core material of having upgraded, improve and heat enthalpy exchange efficiency.Meanwhile, improve air purification structure, add clean-up effect, be specially:

﹙ 1 ﹚ is provided with inner cycle channel structure: when Inner eycle motor is opened, doorframe A closes, after dirty wind cup and new wind, room is interlinked by doorframe B, open with stylish wind pressure fan, valve A and valve motor A closes, dirty wind exhaust blower, valve motor B and valve B closes, indoor dirty wind can first through the dirty wind intake assembly of dirty wind passage, dirty wind inlet conduits, dirty wind interchange channel, foam doorframe A, after dirty wind cup, then through doorframe B room after entering the new wind of new wind passage, again along the screen pack of new wind passage, light catalytic purifying machine, new wind outlet conduits, new wind spout assembly enters indoor, through screen pack, during light catalytic purifying machine, foul indoor air is purified,

﹙ 2 ﹚ is provided with bypass passageways structure: when dirty air quantity is large, when bypass motor is opened, foam doorframe A closes, dirty wind interchange channel and bypass inlets air channel are interlinked by foam doorframe B, dirty wind exhaust blower simultaneously, valve motor B and valve B opens, now, dirty wind is through dirty wind intake assembly, dirty wind inlet conduits, behind dirty wind interchange channel, directly through foam doorframe B and bypass inlets air channel, middle part, air channel, rear portion, air channel is discharged again through dirty wind, dirty wind is discharged outside assembly and the direct discharge chamber of valve B, when solving the heat exchange movement discharge by dirty wind passage, the defect that foul atmosphere discharge is too slow,

﹙ 3 ﹚ is provided with heat exchange movement, preheating or precooling can be carried out to the air exchanged, and heat exchanger core material of having upgraded, improve and heat enthalpy exchange efficiency: as shown in Figure 4, when new wind passage and dirty wind channels operation, new wind and the orthogonal thereto fork mode of dirty wind flow through heat exchange movement, dividing plate both sides due to heat exchange movement there is temperature difference and water vapour pressure difference causes Total heat exchange, in summer, lowered the temperature in the dirty air-out that new wind is nice and cool indoor, otherwise, in the winter time, be warmed in the dirty air-out that new wind is warm indoor, like this by the Total heat exchange process of heat exchange movement, no matter summer, winter, outdoor new wind recovers energy in air-out all indoor, reach energy-conservation object, and adopt the total-heat exchanger heat transfer movement of heterogeneous membrane, then further increase and heat enthalpy exchange efficiency, reach 57.2%,

﹙ 4 ﹚ improves air purification structure: the material that screen pack adopts is PU, and model is: KFR-400A.Effect is the multi-efficiency of the microorganisms such as dedusting, deodorizing, decomposing organic pollutant, kill bacteria, virus, thus achieves the effect purified air; Light catalytic purifying machine is TiO2 photocatalysis compound+uviol lamp: TiO2 photocatalysis can solve the heavy-metal pollutions such as chromium, mercury, lead, the inorganic pollutions such as decomposable asymmetric choice net, converting hydrogen sulfide, sulfur dioxide, antibacterial, sterilization is rapid; Ultraviolet can the various microorganism such as kill vegetative forms of bacteria, virus, mycoplasma.

Accompanying drawing illustrates:

Fig. 1 is: STRUCTURE DECOMPOSITION figure of the present invention;

Fig. 2 is: new wind passage of the present invention, dirty wind channel design figure (Inner eycle open and close door closed condition);

Fig. 3-1 is: new wind air channel foam three-dimensional structure diagram;

Fig. 3-2 is: foam stand three-dimensional structure diagram;

Fig. 4 is: heterogeneous membrane movement heat exchange principle schematic diagram;

Fig. 5 is: heterogeneous membrane movement assembling perspective view;

Fig. 6 is: heterogeneous membrane structure front sectional view;

Fig. 7 is: dirty wind passage frame members three-dimensional structure diagram;

Fig. 8 is: inner cycle channel structure chart of the present invention (Inner eycle open and close door open mode);

Fig. 9-1 is: Inner eycle open and close door assembly exploded view;

Fig. 9-2 is: Inner eycle open and close door assembling components figure (Inner eycle open and close door open mode);

Figure 10 is: the present invention removes top view during upper cover;

Figure 11 is: the A-A sectional view of Figure 10;

Figure 12 is: the B-B sectional view of Figure 10;

Figure 13 is: structural representation when bypass passageways is closed;

Figure 14 is: structural representation when bypass passageways is opened;

Figure 15-1 is: bypass assembly exploded view;

Figure 15-2 is: bypass assembling components figure;

Figure 16 is: dirty wind inlet conduits foam three-dimensional structure diagram.

Description of reference numerals:

On the left of 1 housing, 11 left shells, 111 left shells, on front side of 112 left shells, on rear side of 113 left shells, 114 new wind outlets, on the right side of 115 dirty wind entrances, 12 right shell bodies, 121 right shell bodies, on front side of 122 right shell bodies, on rear side of 123 right shell bodies, 124 new wind entrances, 125 dirty wind outlets;

2 upper covers, 3 lower covers;

Room, 46 screen packs, 47 light catalytic purifying machines, 48 spiral case A, 481 spiral case housing A, 482 new wind outlet conduits, 483 new wind pressure fan, 49 new wind spout assemblies after the new wind channel part of 4 new wind passages, 41 new wind intake assemblies, 411 valve A, 412 valve motor A, 42 new wind air channel foams, 421 new wind inlet conduits, 43 new wind cups, 44 heterogeneous membrane movements, 45 new wind;

The dirty wind channel part of 5 dirty wind passages, 51 dirty wind intake assemblies, 52 dirty wind inlet conduits foams, 521 dirty wind inlet conduits, 522 dirty wind interchange channels, 523 foam doorframe A, 53 dirty wind cups, 54 dirty wind passage frame members, 541 doorframe A, 55 heterogeneous membrane movements, 56 spiral case B, 561 spiral case housing B, 562 dirty wind discharge air channel, 563 dirty wind exhaust blowers, 57 dirty wind discharge assemblies, 571 valve motor B, 572 valve B, 58 foam stands;

6 inner cycle channels, 61 Inner eycle open and close door assemblies, 611 Inner eycle frame members, 612 Inner eycle open and close doors, top panel is fixed in 613 rotating shafts, lower panel is fixed in 614 rotating shafts, 615 Inner eycle motors, 616 doorframe B, 617 U-lags, 62 longitudinal baffle assemblies;

The air channel, middle part of 7 bypass passageways, 71 foam frame members, 711 foam doorframe B, 712 bypass inlets air channels, 72 bypass assemblies, 721 bypass electric machine supports, 722 bypass motors, 723 bypass open and close doors, 724 open and close door connecting plates, 725 pivot links, 73 bypass connectors, 731 bypass passageways, 74 bypass foams, 741 air channels, bypass passageways rear portion;

8 electric control gears, 801 electric-controlled boxes, 802 automatically controlled base plates;

9 heterogeneous membrane movements, 901 plastic wave mould strip frameworks, 902 heterogeneous membranes;

10 guide rails, 101 left rails, 102 right guide rails, 103 upper rails, 104 lower guideways.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the invention will be further described, but not as a limitation of the invention.

As shown in Fig. 1-Figure 16, a kind of Multichannel combination fresh air purifier, comprises housing 1, upper cover 2, lower cover 3, new wind passage 4, dirty wind passage 5, inner cycle channel 6, bypass passageways 7 and electric control gear 8; The lower surface of described housing 1 is fixedly connected with the surrounding of lower cover 3; Described housing 1 comprises left shell 11 and right shell body 12, described left shell 11 is structure as a whole, left shell 11 to comprise on the left of left shell 111, on front side of left shell 112 and left shell on rear side of 113, overall in left spill, on the left of described left shell, 111 are provided with new wind outlet 114 and dirty wind entrance 115; Described right shell body 12 is structure as a whole, right shell body 12 to comprise on the right side of right shell body 121, on front side of right shell body 122 and right shell body on rear side of 123, overall in right spill, on the right side of right shell body, 121 are provided with new wind entrance 124, dirty wind outlet 125; In new wind passage 4, dirty wind passage 5, be horizontally arranged with heterogeneous membrane movement 9 and guide rail 10, described heterogeneous membrane movement 9 comprises new wind channel part 44 and dirty wind channel part 55;

Described new wind passage 4 comprises room 45 after valve A411, valve motor A412, new wind intake assembly 41, new wind air channel foam 42, new wind cup 43, the new wind channel part 44 of heterogeneous membrane movement, new wind, screen pack 46, light catalytic purifying machine 47, spiral case A48, new wind spout assembly 49 from right to left; Described new wind intake assembly 41 left end entrance aims at the new wind entrance 124 of right shell body 12, be fixedly connected with right shell body 12, described valve motor A412 is arranged on above new wind intake assembly 41, with new wind intake assembly 41 and is fixedly connected with, described valve A411 is arranged on the right side of valve motor A412, be fixedly connected with valve motor A412, valve A411 can open and close; Described new wind air channel foam 42 is arranged on the left of right shell body 12, and new wind air channel foam 42 comprises new wind inlet conduits 421, and described new wind inlet conduits 421 aims at new wind entrance 124, docks with new wind intake assembly 41 left end entrance; Described spiral case A48 comprises spiral case housing A481, and be new wind outlet conduits 482 in described spiral case housing A481, described new wind spout assembly 49 is fixedly connected with left shell 11; Also comprise new wind pressure fan 483, described new wind pressure fan 483 is arranged on spiral case A48 side, is connected bottom it with lower cover 3 with screw, and the fan blade part of new wind pressure fan 483 stretches in new wind outlet conduits 482;

Described dirty wind passage 5 comprises dirty wind intake assembly 51, dirty wind inlet conduits foam 52, dirty wind cup 53, dirty wind passage frame members 54, the dirty wind channel part 55 of heterogeneous membrane movement, spiral case B56, the discharge of dirty wind assembly 57, valve motor B571 and valve B572 from left to right; Described dirty wind intake assembly 51 is arranged on the left of left shell 11; Described dirty wind inlet conduits foam 52 is arranged on inside left shell 11, and dirty wind inlet conduits foam 52 comprises dirty wind inlet conduits 521, dirty wind interchange channel 522 and foam doorframe A523; Described dirty wind passage frame members 54 comprises doorframe A541, described spiral case B56 comprises spiral case housing B561, be that dirty wind discharges air channel 562 in described spiral case housing B561, also comprise dirty wind exhaust blower 563, described dirty wind exhaust blower 563 is arranged on spiral case B56 side, be connected with screw with lower cover 3 bottom it, the fan blade part of dirty wind exhaust blower 563 stretches into dirty wind and discharges in air channel 562; Foam stand 58 is provided with inside right shell body 12, between new wind air channel foam 42 and the spiral case B56 of dirty wind passage 5;

Described inner cycle channel 6 comprises Inner eycle open and close door assembly 61; Described Inner eycle open and close door assembly 61 comprises Inner eycle frame members 611, upper and lower panel 613,614 and Inner eycle motor 615 are fixed in Inner eycle open and close door 612, rotating shaft; Described Inner eycle frame members 611 comprises doorframe B616 and U-lag 617, described rotating shaft is fixed top panel 613 and is connected with the U-lag 617 side spot welding of Inner eycle frame members 611, described rotating shaft is fixed lower panel 614 and is connected with the U-lag 617 opposite side spot welding of Inner eycle frame members, described Inner eycle motor 615 is fixed on rotating shaft and fixes on top panel 613, described Inner eycle open and close door 612 passing hole axle is arranged on Inner eycle motor 615 and rotating shaft is fixed on lower panel 614, and makes Inner eycle open and close door 612 be close on the surface of Inner eycle doorframe B616; Longitudinal baffle assembly 62 is provided with between new wind passage 4 and dirty wind passage 5, longitudinal baffle assembly 62 right-hand member is fixed on the left of described Inner eycle frame members 611, be fixedly connected with dirty wind passage frame members 54 on the right side of Inner eycle frame members 611, be mutually right angle and arrange;

Described bypass passageways 7 comprises foam frame members 71, bypass assembly 72, bypass connector 73 and bypass foam 74; Described bypass passageways foam frame members 71 is structure as a whole with dirty wind inlet conduits foam 52, bypass passageways foam frame members 71 is in side, dirty wind inlet conduits foam 52 bottom, and bypass passageways foam frame members 71 comprises foam doorframe B711 and bypass inlets air channel 712; Described bypass assembly 72 comprises bypass electric machine support 721, bypass motor 722, bypass open and close door 723, open and close door connecting plate 724, pivot link 725, and bypass assembly 72 is fixed on the inner surface of lower cover 3 by its bypass electric machine support 721; Open and close door connecting plate 724 one end and bypass enabling gate 723 are screwed, open and close door connecting plate 724 other end is fixedly connected with bypass electric machine support 721, pivot link 725 one end and bypass motor 722 passing hole axle are rotationally connected, and pivot link 725 other end and open and close door connecting plate 724 are rotationally connected; Described bypass connector 73 is the flat board being respectively mutually right angle with two pieces of crimp, bypass connector 73 with on front side of left shell 112, lower cover 3 near and be fixedly connected with, the air channel, middle part 731 of formation bypass passageways; Described bypass foam 74 is arranged between bypass assembly 72 and spiral case B56, and the air channel, bypass passageways rear portion 741 in bypass foam 74 is discharged air channel 562 with the dirty wind in spiral case B56 and interlinked;

New wind air channel foam 42, spiral case A48, dirty wind inlet conduits foam 52 and foam frame members 71, spiral case B56, foam stand 58 and bypass foam 74 are all tightly affixed with adjacent left and right, upper and lower all edge pieces, and play fixation.

Described guide rail 10 comprises left rail 101, right guide rail 102, upper rail 103 and lower guideway 104, described left rail 101 two ends 113 to be fixedly connected with Inner eycle frame members 611 with on rear side of left shell respectively, inlay in the groove of bank on the left of new wind air channel foam 42 and foam stand 58 on the right side of described right guide rail 102, one end of right guide rail 102 is fixedly connected with on rear side of right shell body 12, and described upper rail 103 and lower guideway 104 are fixedly connected with upper cover 2, lower cover 3 respectively.

Described heterogeneous membrane movement 9 comprises 250 pieces of plastic wave mould strip frameworks 901 and 249 pieces of heterogeneous membranes 902, and described each heterogeneous membrane 902 is arranged on upper and lower between incorgruous 90 degree of 2 pieces of plastic wave mould strip frameworks 901 arranged.

Described heterogeneous membrane 902 comprises base film layer 903 and thin film of additive layer 904, described base film layer 903 is flame retardant type PP thin layer, and described thin film of additive layer 904 is the admixture solvent layer of compound adsorbent, fire retardant, bactericide, reinforcing agent, adhesive, polyurethane and PLA.

In described thin film of additive layer 904: compound adsorbent is sio ₂.cacl ₂compound; Fire retardant is ZR-101 type; Bactericide is HY-210 type; Reinforcing agent is polyacrylamide high molecular polymer; Adhesive is HY770 type.

On rear side of heterogeneous membrane movement 9, be also provided with inspection hatch 905, described inspection hatch 905 both sides 123 to be connected with screw with on rear side of left shell 113, on rear side of right shell body respectively.

Described light catalytic purifying machine 47 and housing 1 socket connection, described screen pack 46 and light catalytic purifying machine 47 socket connection; The material that screen pack 46 adopts is PU; Light catalytic purifying machine 47 is TiO2 photocatalysis compound+uviol lamp.

Described electric control gear 8 to be arranged on rear side of left shell outside 113,113 to be fixedly connected with on rear side of left shell, electric control gear 8 comprises electric-controlled box 801 and automatically controlled base plate 802, described automatically controlled base plate 802 is fixedly installed in electric-controlled box 801, and automatically controlled base plate 802 is regulated by remote controller (not shown).

When Inner eycle motor 615 cuts out, Inner eycle open and close door 612 contacts completely with doorframe B616, doorframe B616 closes, when new wind pressure fan 483, valve A411 and valve motor A412 open, in new wind passage 4, new wind room 45, screen pack 46, light catalytic purifying machine 47, new wind outlet conduits 482, new wind spout assembly 49 after the new wind channel part 44, new wind of valve A411, new wind intake assembly 41, new wind inlet conduits 421, new wind cup 43, heterogeneous membrane movement enter indoor;

When Inner eycle motor 615 cuts out, Inner eycle open and close door 612 contacts completely with doorframe B616, doorframe B616 closes, dirty wind cup 53, the dirty wind channel part 55 of heterogeneous membrane movement is interlinked by foam doorframe A523, bypass motor 722 cuts out simultaneously, bypass open and close door 723 contacts completely with foam doorframe B711, foam doorframe B711 closes, dirty wind exhaust blower 563, when valve motor B571 and valve B572 opens, in dirty wind passage 5, dirty wind is through dirty wind intake assembly 51, dirty wind inlet conduits 521, dirty wind interchange channel 522, foam doorframe A523, dirty wind cup 53, doorframe A541, the dirty wind channel part 55 of heterogeneous membrane movement, dirty wind discharges air channel 562, dirty wind is discharged outside assembly 57 and valve B572 discharge chamber,

When Inner eycle motor 615 is opened, Inner eycle open and close door 612 rotates counterclockwise 90 degree, contact completely with doorframe A541, doorframe A541 closes, after dirty wind cup 53 and new wind, room 45 is interlinked by doorframe B616, bypass motor 722 cuts out simultaneously, bypass open and close door 723 contacts completely with foam doorframe B711, foam doorframe B711 closes, and new wind pressure fan 483 is opened, valve A411 and valve motor A412 closes, dirty wind exhaust blower 563, valve motor B571 and valve B572 closes, indoor dirty wind is through dirty wind intake assembly 51, dirty wind inlet conduits 521, dirty wind interchange channel 522, foam doorframe A523, dirty wind cup 53, doorframe B616, room 45 after new wind, screen pack 46, light catalytic purifying machine 47, new wind outlet conduits 482, new wind spout assembly 49 enters indoor, when not needing Inner eycle, Inner eycle open and close door 612 rotates clockwise 90 degree, recovers the state contacted completely with doorframe B616, doorframe B616 closes.

When dirty air quantity is large, bypass motor 722 is opened, bypass open and close door 723 rotates clockwise 60 degree, contact completely with foam doorframe A523, foam doorframe A523 closes, dirty wind passage 5 is interlinked by foam doorframe B711 with bypass inlets air channel 712, dirty wind exhaust blower 563 simultaneously, when valve motor B571 and valve B572 opens, dirty wind is through dirty wind intake assembly 51, dirty wind inlet conduits 521, behind dirty wind interchange channel 522, directly through foam doorframe B711 and bypass inlets air channel, middle part, air channel, rear portion 712, 731, 741, air channel 562 is discharged again through dirty wind, dirty wind is discharged outside assembly 57 and valve B572 discharge chamber.When dirty air quantity is little, during without bypass passageways 7, bypass motor 722 cuts out, and bypass open and close door 723 rotates counterclockwise 60 degree, and recover the state contacted completely with foam doorframe B711, foam doorframe B711 closes.

Above-described embodiment, the just one of the present invention's more preferably detailed description of the invention, the usual change that those skilled in the art carries out within the scope of technical solution of the present invention and replacing all should be included in protection scope of the present invention.

Claims (2)

1. a Multichannel combination fresh air purifier, comprises housing, upper cover, lower cover, new wind passage, dirty wind passage, longitudinal baffle assembly and electric control gear; The lower surface of described housing is fixedly connected with the surrounding of lower cover; Housing comprises new wind entrance, new wind outlet, the outlet of dirty wind entrance, dirty wind; Described longitudinal baffle assembly is arranged between new wind passage and dirty wind passage, in new wind passage, dirty wind passage, is horizontally arranged with heat-transfer film movement and guide rail, and described heat-transfer film movement, by guide rail grafting, is characterized in that:

Also comprise inner cycle channel, bypass passageways and foam stand; Described housing is divided into left shell and right shell body, described left shell is structure as a whole, left shell to comprise on the left of left shell and on front side of left shell, on rear side of left shell, overall in left spill, described new wind outlet, dirty wind entrance are arranged on the left of left shell, and described right shell body is structure as a whole, and right shell body comprises on the right side of right shell body and on front side of right shell body, on rear side of right shell body, overall in right spill, the outlet of described new wind entrance, dirty wind is arranged on the right side of right shell body; The total-heat exchanger heat transfer movement of the heterogeneous membrane that described heat-transfer film movement is structure as a whole, be called for short heterogeneous membrane movement, comprise new wind channel part and dirty wind channel part, described heterogeneous membrane movement is by guide rail and housing grafting;

Described new wind passage comprises room after valve A, valve motor A, new wind intake assembly, new wind air channel foam, new wind cup, the new wind channel part of heterogeneous membrane movement, new wind, screen pack, light catalytic purifying machine, spiral case A, new wind spout assembly from right to left; Described new wind intake assembly left end entrance aims at the new wind entrance of right shell body, be fixedly connected with right shell body, described valve motor A is arranged on above new wind intake assembly, with new wind intake assembly and is fixedly connected with, described valve A is arranged on the right side of valve motor A, be fixedly connected with valve motor A, valve A can open and close; Described new wind air channel foam is arranged on the left of right shell body, and new wind air channel foam comprises new wind inlet conduits, and described new wind inlet conduits aims at new wind entrance, docks with new wind intake assembly left end entrance; Described spiral case A comprises spiral case housing A, and be new wind outlet conduits in described spiral case housing A, described new wind spout assembly is fixedly connected with left shell; Also comprise new wind pressure fan, described new wind blower setting, in spiral case A side, is connected with screw with lower cover bottom it, and the fan blade part of new wind pressure fan stretches in new wind outlet conduits;

Described dirty wind passage comprises dirty wind intake assembly, dirty wind inlet conduits foam, dirty wind cup, dirty wind passage frame members, the dirty wind channel part of heterogeneous membrane movement, spiral case B, the discharge of dirty wind assembly, valve motor B and valve B from left to right; Described dirty wind intake assembly is arranged on the left of left shell; Described dirty wind inlet conduits foam is arranged on inside left shell, and dirty wind inlet conduits foam comprises dirty wind inlet conduits, dirty wind interchange channel and foam doorframe A; Described dirty wind passage frame members comprises doorframe A, described spiral case B comprises spiral case housing B, be that dirty wind discharges air channel in described spiral case housing B, also comprise dirty wind exhaust blower, described dirty wind exhaust blower is arranged on spiral case B side, be connected with screw with lower cover bottom it, the fan blade part of dirty wind exhaust blower stretches into dirty wind and discharges in air channel;

Described inner cycle channel comprises Inner eycle open and close door assembly, described Inner eycle open and close door assembly comprises Inner eycle frame members, Inner eycle open and close door, top panel is fixed in rotating shaft, lower panel is fixed in rotating shaft and Inner eycle motor, described Inner eycle frame members comprises doorframe B and U-lag, described rotating shaft is fixed top panel and is connected with the U-lag side spot welding of Inner eycle frame members, described rotating shaft is fixed lower panel and is connected with the U-lag opposite side spot welding of Inner eycle frame members, described Inner eycle motor is fixed on rotating shaft and fixes on top panel, described Inner eycle open and close door passing hole axle is arranged on Inner eycle motor and rotating shaft is fixed on lower panel, and make Inner eycle open and close door be close on the surface of Inner eycle doorframe B, longitudinal baffle right-hand member is fixed on the left of described Inner eycle frame members, be fixedly connected with dirty wind passage frame members on the right side of Inner eycle frame members, be mutually right angle to arrange,

Described bypass passageways comprises foam frame members, bypass assembly, bypass connector and bypass foam; Described bypass passageways foam frame members and dirty wind inlet conduits foam are structure as a whole, and bypass passageways foam frame members is in side, dirty wind inlet conduits foam bottom, and bypass passageways foam frame members comprises foam doorframe B and bypass inlets air channel; Described bypass assembly comprises bypass electric machine support, bypass motor, bypass open and close door, open and close door connecting plate, pivot link, and bypass assembly is fixed on the inner surface of lower cover by its bypass electric machine support; Open and close door connecting plate one end and bypass enabling gate are screwed, and the open and close door connecting plate other end is fixedly connected with bypass electric machine support, and pivot link one end and bypass motor passing hole axle are rotationally connected, and the pivot link other end and open and close door connecting plate are rotationally connected; Described bypass connector is the flat board being respectively mutually right angle with two pieces of crimp, bypass connector with on front side of left shell, lower cover near and be fixedly connected with, the air channel, middle part of formation bypass passageways; Described bypass foam is arranged between bypass assembly and spiral case B, and the air channel, bypass passageways rear portion in bypass foam and the dirty wind in spiral case B are discharged air channel and interlinked;

Described foam stand is arranged on inside right shell body, new between wind air channel foam and spiral case B, described longitudinal baffle assembly is arranged on the light catalytic purifying machine, new between wind pressure fan and the dirty wind cup of dirty wind passage of new wind passage;

Described guide rail comprises left rail, right guide rail, upper rail and lower guideway, described left rail two ends are fixedly connected with Inner eycle frame members respectively with on rear side of left shell, inlay in the groove of bank on the left of new wind air channel foam and foam stand on the right side of described right guide rail, one end of right guide rail is fixedly connected with on rear side of right shell body, and described upper rail and lower guideway are fixedly connected with upper cover, lower cover respectively;

Described heterogeneous membrane movement comprises the plastic wave mould strip framework of more than 10 pieces and the heterogeneous membrane of more than 9 pieces;

When Inner eycle motor cuts out, Inner eycle open and close door contacts completely with doorframe B, doorframe B closes, when new wind pressure fan, valve A and valve motor A open, in new wind passage, new wind is room after the new wind channel part, new wind of valve A, new wind intake assembly, new wind inlet conduits, new wind cup, heterogeneous membrane movement, and screen pack, light catalytic purifying machine, new wind outlet conduits, new wind spout assembly enter indoor;

When Inner eycle motor cuts out, Inner eycle open and close door contacts completely with foam doorframe B, doorframe B closes, dirty wind cup, the dirty wind channel part of heterogeneous membrane movement is interlinked by doorframe A, bypass motor cuts out simultaneously, bypass open and close door contacts completely with foam doorframe B, foam doorframe B closes, dirty wind exhaust blower, when valve motor B and valve B opens, in dirty wind passage, dirty wind is through dirty wind intake assembly, dirty wind inlet conduits, dirty wind interchange channel, foam doorframe A, dirty wind cup, doorframe A, the dirty wind channel part of heterogeneous membrane movement, dirty wind discharges air channel, dirty wind is discharged outside assembly and valve B discharge chamber,

When Inner eycle motor is opened, Inner eycle open and close door rotates counterclockwise 90 degree, contact completely with doorframe A, doorframe A closes, after dirty wind cup and new wind, room is interlinked by doorframe B, bypass motor cuts out simultaneously, bypass open and close door contacts completely with foam doorframe B, foam doorframe B closes, and indoor dirty wind room, screen pack, light catalytic purifying machine, new wind outlet conduits, new wind spout assembly after dirty wind intake assembly, dirty wind inlet conduits, dirty wind interchange channel, foam doorframe A, dirty wind cup, doorframe B, new wind enter indoor; When not needing Inner eycle, Inner eycle open and close door rotates clockwise 90 degree, recovers the state contacted completely with doorframe B; Doorframe B closes;

When dirty air quantity is large, bypass motor is opened, bypass open and close door rotates clockwise 60 degree, contact completely with foam doorframe A, foam doorframe A closes, dirty wind passage and bypass inlets air channel are interlinked by foam doorframe B, when dirty wind exhaust blower, valve motor B and valve B open simultaneously, dirty wind is behind dirty wind intake assembly, dirty wind inlet conduits, dirty wind interchange channel, directly through foam doorframe B and bypass inlets air channel, middle part, air channel, rear portion, then discharge air channel through dirty wind, dirty wind discharges outside assembly and valve B discharge chamber; When dirty air quantity is little, during without bypass passageways, bypass motor cuts out, and bypass open and close door rotates counterclockwise 60 degree, and recover the state contacted completely with foam doorframe B, foam doorframe B closes.

2. a kind of Multichannel combination fresh air purifier according to claim 1, is characterized in that: described light catalytic purifying machine and housing socket connection, described screen pack and the socket connection of light catalytic purifying machine; The material that screen pack adopts is PU; Light catalytic purifying machine is TiO2 photocatalysis compound+uviol lamp.