CN203052901U - Venting heat removal device and energy saving device for air conditioner - Google Patents
Venting heat removal device and energy saving device for air conditioner Download PDFInfo
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- CN203052901U CN203052901U CN 201220635380 CN201220635380U CN203052901U CN 203052901 U CN203052901 U CN 203052901U CN 201220635380 CN201220635380 CN 201220635380 CN 201220635380 U CN201220635380 U CN 201220635380U CN 203052901 U CN203052901 U CN 203052901U
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- heat release
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Abstract
The utility model discloses a venting heat removal device and an energy saving device for an air conditioner. The venting heat removal device comprises a venting body capable of being mounted on a vertical plane in parallel with a light transmission enclosing structure, wherein vent holes are distributed in the venting body. The venting heat removal device and the energy saving device for the air conditioner have the technical effects that a closed venting airflow channel is formed through the venting heat removal device and the energy saving device, the on-way resistance and local resistance are smaller, the indoor ambient air is sufficiently utilized to organize the flowing of airflow; the heat gain at the position of the light transmission enclosing structure is taken away; venting cold capacity is utilized more effectively and sufficiently; the airflow organization is easy to implement, and the venting heat removal device and the energy saving device can be matched with the enclosing structure to realize sealing; the venting heat removal device and the energy saving device can be combined with a building easily, and the problems of open pore and load bearing of positions such as the light transmission enclosing structure are avoided; the influence of an inner curtain to the indoor lighting is reduced; and diversified solutions are provided.
Description
Technical field
The utility model relates to the HVAC technical field, is a kind of heat release and energy-conservation device of idle call of ventilating.
Background technology
Current social people more and more pay attention to the quality of indoor air environment, and therefore a perfect air-conditioning system except satisfying the temperature and humidity control to indoor environment, also must provide enough outdoor fresh airs (new wind) to indoor environment.The new wind that air-conditioning system is introduced is except the hygienic requirements and dilution nuisance concentration of satisfying personnel, also play the effect that replenishes malleation in indoor exhaust wind and the holding chamber, the influence of avoiding the external environment air that the indoor environment seepage is caused parameters such as indoor controlled aerial temperature and humidities.
Behind the new wind of indoor introducing, the air draft of generation is normally permeated to the outside atmosphere environment by the slit of door and window, belongs to the unordered air draft of nature malleation.Because there have quite a few cold (sensible heat cold and latent heat cold) not have utilization just to drain in the air draft to be outdoor, caused the waste of cryogenic energy utilization.
For the architecture indoor environment, because the heat transfer coefficient of light transmission building enclosures such as glass is much larger than nontransparent building enclosures such as body of wall and roofs, the air-conditioning refrigeration duty proportion of its formation is much bigger, therefore effectively reduces the main direction that thermic load is the control building energy consumption that gets of light transmission building enclosure.
The utility model in the cooperation of building structure with use, problem attractive in appearance, that practicality solves has: the malleation air draft gas channel that 1, forms sealing by structure, on-way resistance and local resistance are less, take full advantage of the indoor air malleation and organize air current flow; 2, the utilization of air draft cold is more effective; 3, air current composition is easy to realize and the cooperation of building enclosure is easy to realize sealing; 4, be easy to and build combination, avoid light transmission building enclosure etc. locate perforate and load-bearing etc. problem; 5, can reduce internal sunshade to the influence of indoor lighting; 6, provide multifarious solution.
Summary of the invention
The utility model provides a kind of heat release and energy-conservation device of idle call of ventilating, it has overcome the deficiency of above-mentioned prior art, it makes indoor exhaust wind enter light transmission building enclosure surface with nearest path, lower resistance by the ventilation heat release, all or part of discharge it get hot, it meets the characteristic that fluid flows and distributes, maximized the indoor exhaust wind cold is utilized, effectively reduce the room conditioning load.
One of the technical solution of the utility model realizes by following measure: a kind of for the ventilation heat release on the light transmission building enclosure, it comprises the ventilation body that can be installed in the facade parallel with the light transmission building enclosure, is distributed with passage at this ventilation body.
Be to the further optimization of one of technique scheme below or/and select:
There are equally distributed passage or ventilation body that the passage of non-uniform Distribution is arranged at above-mentioned ventilation body; Or/and, on the ventilation body sunny slope reflector layer is arranged.
Above-mentioned passage be circular or/and oval-shaped or/and square or/and rhombus or/and rectangle or/and non-regular shape.
Two of the technical solution of the utility model realizes by following measure: a kind of energy-conservation device of idle call that adopts above-mentioned ventilation heat release, it comprises light transmission building enclosure and ventilating opening, on the light transmission building enclosure or the non-light transmittance building enclosure have a ventilating opening at least, there is the ventilation heat release that is no less than one deck to be installed on the facade parallel with the light transmission building enclosure, and forms cavity between ventilation heat release, light transmission building enclosure, the non-light transmittance building enclosure.
Be below two further optimization to technique scheme or/and select:
Above-mentioned ventilation heat release has more than two layers; Or/and the ventilation heat release is positioned at inboard or the outside of light transmission building enclosure or non-light transmittance building enclosure.
Between above-mentioned ventilation heat release and light transmission building enclosure, blinds is installed.
Between the ventilation heat release of above-mentioned ventilation heat release and following one deck, blinds is installed.
In the outside of above-mentioned ventilation heat release interior spacer assembly is installed.
Spacer assembly has and is no less than an air inlet in above-mentioned.
Above-mentioned air inlet be positioned at the top of spacer assembly or/and the following or/and left side or/and the right side or/and the side.
At above-mentioned air inlet place direct evaporation packing section is installed.
The air inlet of spacer assembly communicates with the gas outlet of blower fan in above-mentioned.
Air inlet place or the wind outlet of above-mentioned direct evaporation packing section are equipped with blower fan.
The cold water outlet pipe of above-mentioned direct evaporation packing section with new blower fan group or/and the surface cooler of air-treatment unit or/and the indoor cold water inlet that shows cold end communicate.
The air inlet place of spacer assembly is equipped with flow distributor in above-mentioned.
In above-mentioned, between spacer assembly and the ventilation heat release air-flow is installed and separates guider, have at the ventilation heat release to be no less than one passage.
Said flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
Technique effect of the present utility model is:
1, form the air draft gas channel of sealing by the utility model, on-way resistance and local resistance are less, take full advantage of indoor air and organize air current flow; Take away simultaneously light transmission building enclosure place such as light transmission building enclosure heat.
, the air draft cold utilization more effectively and fully;
3, air current composition is easy to realize and the cooperation of building enclosure is easy to realize sealing;
4, be easy to and build combination, avoid light transmission building enclosure etc. locate perforate and load-bearing etc. problem;
5, can reduce internal sunshade to the influence of indoor lighting;
6, provide multifarious solution.
Description of drawings
Accompanying drawing 1 is the structural representation of embodiment 1 of the present utility model.
Accompanying drawing 2 is the structural representation of embodiment 2 of the present utility model.
Accompanying drawing 3 is the structural representation of embodiment 3 of the present utility model.
Accompanying drawing 4 is the structural representation of embodiment 4 of the present utility model.
Accompanying drawing 5 is the structural representation of embodiment 5 of the present utility model.
Accompanying drawing 6 is the structural representation of embodiment 6 of the present utility model.
Accompanying drawing 7 is the structural representation of embodiment 7 of the present utility model.
Accompanying drawing 8 is the structural representation of embodiment 8 of the present utility model.
Accompanying drawing 9 is the structural representation of embodiment 9 of the present utility model.
Accompanying drawing 10 is the structural representation of embodiment 10 of the present utility model.
Accompanying drawing 11 is the structural representation of embodiment 11 of the present utility model.
Accompanying drawing 12 is the structural representation of embodiment 12 of the present utility model.
Accompanying drawing 13 is the structural representation of embodiment 13 of the present utility model.
Accompanying drawing 14 is the structural representation of embodiment 14 of the present utility model.
Accompanying drawing 15 is the structural representation of embodiment 15 of the present utility model.
Accompanying drawing 16 is the structural representation of embodiment 16 of the present utility model and embodiment 17.
Accompanying drawing 17 is the structural representation of embodiment 16 for the sectional structure schematic diagram of the A-A of accompanying drawing 16.
Accompanying drawing 18 is the structural representation of embodiment 17 for the sectional structure schematic diagram of the A-A of accompanying drawing 16.
Accompanying drawing 19 is the structural representation of embodiment 18 of the present utility model and embodiment 19.
Accompanying drawing 20 is the structural representation of embodiment 18 for the sectional structure schematic diagram of the B-B of accompanying drawing 19.
Accompanying drawing 21 is the structural representation of embodiment 19 for the sectional structure schematic diagram of the B-B of accompanying drawing 19.
Coding in the accompanying drawing is respectively: 1 is the ventilation body, and 2 is ventilating opening, and 3 is blinds, 4 is interior spacer assembly, 5 is blower fan, and 6 directly evaporate packing section, and 7 is room air, 8 are air draft, 9 is the cold water outlet pipe, and 10 is passage, and 11 is the light transmission building enclosure, 12 is the non-light transmittance building enclosure, and 13 is flow distributor; 14 is airduct, and 15 are air-flow separation guider.
The specific embodiment
The utility model is not subjected to the restriction of following embodiment, can determine concrete embodiment according to above-mentioned the technical solution of the utility model and actual conditions.
Below in conjunction with specific embodiment and accompanying drawing thereof the utility model is done further to discuss:
Embodiment 1:
As shown in Figure 1, should be used for the ventilation heat release on the light transmission building enclosure, it comprises the ventilation body 1 that can be installed in the facade parallel with light transmission building enclosure 11, is distributed with passage 10 at this ventilation body 1.
Can be according to actual needs to embodiment 1 do further to optimize or/select: for example, the passage 10 that non-uniform Distribution is arranged on equally distributed passage 10 or the ventilation body 1 is arranged on the ventilation body 1; Or/and, on the ventilation body sunny slope reflector layer is arranged; Passage 10 be circular or/and oval-shaped or/and square or/and rhombus or/and rectangle or/and non-regular shape.
Embodiment 2:
As shown in Figure 2, this adopts the energy-conservation device of idle call of the ventilation heat release of embodiment 1, it comprises light transmission building enclosure 11 and ventilating opening 2, on light transmission building enclosure 11 or non-light transmittance building enclosure 12 have a ventilating opening 2 at least, there is the ventilation heat release that is no less than one deck to be installed on the facade of the inboard parallel with light transmission building enclosure 11, and forms cavity between the ventilation heat release, light transmission building enclosure 11, non-light transmittance building enclosure 12.
During work, the room air 7 of about 26 ℃ malleation enters into the cavity of light transmission building enclosure 11 and the formation of ventilation heat release in the air-conditioned room by the passage 10 of ventilation heat release, by the air draft 8 behind the heat of taking away light transmission building enclosure 11 parts, can be the sash of unlatching from this ventilating opening 2 of ventilating opening 2() be discharged to outdoor, thereby reach the purpose of the load that reduces air-conditioned room.
Embodiment 3:
As shown in Figure 3, the difference with embodiment 2 is: the ventilation heat release of embodiment 3 has more than two layers.
During work, air 7 in the air-conditioned room enters into the cavity of the ventilation heat release formation of ventilation heat release and another layer by the passage 10 of ventilation heat release, the passage 10 of the ventilation heat release by another layer enters into ventilation heat release and the ventilation heat release of following one deck or the cavity of light transmission building enclosure formation again, is discharged to outdoor by ventilating opening 2 at last.
Embodiment 4:
As shown in Figure 4, and the difference of embodiment 2 to embodiment 3 be: between the ventilation heat release of embodiment 4 and the light transmission building enclosure blinds 3 is installed; Perhaps, according to actual needs, between the ventilation heat release of ventilation heat release and following one deck, blinds is installed.
During work, the room air 7 of the malleation in the air-conditioned room enters into the cavity of light transmission building enclosure 11 and the formation of ventilation heat release by the passage 10 of ventilation heat release, flow through the air draft 8 of blinds 3, by can be the sash of unlatching from this ventilating opening 2 of ventilating opening 2() be discharged to outdoor.Can on blinds, reduce the reflecting layer of solar radiation with spraying as required.
Embodiment 5:
As shown in Figure 5, the difference with embodiment 2 and embodiment 4 is: the outside of the ventilation heat release of embodiment 5 is equipped with interior spacer assembly 4, has at interior spacer assembly 4 to be no less than an air inlet; According to actual needs, air inlet be positioned at the top of spacer assembly or/and the following or/and left side or/and the right side or/and the side.
During work, the room air 7 of the malleation in the air-conditioned room can enter into the cavity that forms between interior spacer assembly 4 and the ventilation heat release by the air inlet from interior spacer assembly 4; Passage 10 by the ventilation heat release enters into the air draft 8 of the cavity that forms between light transmission building enclosure 11 and the heat release of ventilating then, at last by can be the sash of unlatching from this ventilating opening 2 of ventilating opening 2() be discharged to outdoor.Owing to formed cavity respectively between ventilation heat release, interior spacer assembly, the light transmission building enclosure, realized " low to low, high to height " from the utilization of energy, more meet the cascade utilization of energy.
Embodiment 6:
As shown in Figure 6, the difference with embodiment 2 and embodiment 5 is: the air inlet of the interior spacer assembly of embodiment 6 communicates with the gas outlet of blower fan 5.
During work, in the cavity that spacer assembly and ventilation heat release formed in the room air 7 of air-conditioned room was pressed into by blower fan 5.Wherein blower fan 5 can be according to the concrete layout of air-conditioned room, upper and lower, left and right side and any position that can place blower fan 5 of spacer assembly in being placed on, the air outlet of blower fan 5 is connected by airduct with the air inlet of interior spacer assembly, the material of airduct can be any material with seal, comprises hard material and flexible material.
Embodiment 7:
As shown in Figure 7, the difference with embodiment 2 and embodiment 6 is: the air inlet place of embodiment 7 is equipped with direct evaporation packing section 6.
During work, the cavity that spacer assembly and ventilation heat release form in entering into after room air 7 cools by direct evaporator section earlier again.
Embodiment 8:
As shown in Figure 8, be with the difference of embodiment 2 and embodiment 7: the air inlet place of the direct evaporation packing section 6 of embodiment 8 is equipped with blower fan 5, the air outlet of blower fan 5 is connected by airduct with the air inlet of interior spacer assembly, the material of airduct can be any material with seal, comprises hard material and flexible material.
During work, the room air 7 of air-conditioned room is pressed into the air inlet that connects evaporation packing section 6 by blower fan 5 earlier, the cavity that spacer assembly 4 and ventilation heat release form in entering into after cooling through direct evaporator section again.
Embodiment 9:
As shown in Figure 9, the difference with embodiment 2 and embodiment 8 is: the air outlet place of the direct evaporation packing section 6 of embodiment 9 is equipped with blower fan 5.
During work, the room air 7 of air-conditioned room is inhaled into the air inlet that connects evaporation packing section 6 by blower fan 5 earlier, the cavity that spacer assembly 4 and ventilation heat release form in entering into after cooling through direct evaporator section again.
Embodiment 10:
As shown in Figure 10, the difference with embodiment 9 is: the cold water outlet pipe of the direct evaporation packing section 6 of embodiment 10 with new blower fan group or/and the surface cooler of air-treatment unit or/and the indoor cold water inlet 9 that shows cold end communicate.
During work, evaporate directly that cold water that packing section 6 produces can flow to new blower fan group or/and the surface cooler of air-treatment unit or/and indoorly show cold end and be utilized.
Embodiment 11:
As shown in Figure 11, the difference with embodiment 6 is: the air inlet place of the interior spacer assembly 4 of embodiment 11 is equipped with flow distributor 13.
During work, after the air that enters from the air inlet of interior spacer assembly 4 distributed through the flow distributor 13 of the air inlet of interior spacer assembly 4 earlier, the air inlet through interior spacer assembly 4 evenly entered in the cavity again.
Embodiment 12:
As shown in Figure 12, the difference with embodiment 8 is: the air inlet place of the interior spacer assembly 4 of embodiment 12 is equipped with flow distributor 13.
During work, the air inlet place of spacer assembly 4 is equipped with flow distributor 13 in evenly entering through the air inlet of interior spacer assembly 4 after the air that enters from the air inlet of interior spacer assembly 4 distributes through the flow distributor 13 of the air inlet of interior spacer assembly 4 earlier again.
Embodiment 13:
As shown in Figure 13, the difference with embodiment 9 is: the air inlet place of the interior spacer assembly 4 of embodiment 13 is equipped with flow distributor 13.
During work, the air inlet place of spacer assembly 4 is equipped with flow distributor 13 in evenly entering through the air inlet of interior spacer assembly 4 after the air that enters from the air inlet of interior spacer assembly 4 distributes through the flow distributor 13 of the air inlet of interior spacer assembly 4 earlier again.
Embodiment 14:
As shown in Figure 14, the difference with embodiment 10 is: the air inlet place of the interior spacer assembly 4 of embodiment 14 is equipped with flow distributor 13.
During work, the air inlet place of spacer assembly 4 is equipped with flow distributor 13 in evenly entering through the air inlet of interior spacer assembly 4 after the air that enters from the air inlet of interior spacer assembly 4 distributes through the flow distributor 13 of the air inlet of interior spacer assembly 4 earlier again.
Embodiment 15:
As shown in Figure 15, the difference with embodiment 2 is: embodiment 15 has the ventilation heat release that is no less than one deck to be installed on the facade in the outside parallel with light transmission building enclosure 11.
During work, room air 7 in the air-conditioned room enters into the cavity of ventilation heat release, light transmission building enclosure, the formation of non-light transmittance building enclosure by ventilating opening 2, behind the heat of taking away light transmission building enclosure part, be discharged to outdoor from the passage 10 of ventilation heat release.
Embodiment 16:
Shown in accompanying drawing 16 and 17, and the difference of embodiment 2 to embodiment 14 is: between the interior spacer assembly 4 of embodiment 16 and the ventilation heat release air-flow is installed and separates guider 15, as shown in Figure 17, the corresponding ventilation heat release of afterbody of only separating guider 15 at air-flow has one passage 10.
During work: the air that enters from the air inlet of interior spacer assembly 4 is separated behind the guider 15 again through the passage 10 on the heat release of ventilating through interior spacer assembly 4 and the air-flow between the ventilation heat release earlier.
Embodiment 17:
As shown in Figure 18, the difference with embodiment 16 is: the air-flow of embodiment 17 separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct 14 is installed.
Embodiment 18:
Shown in accompanying drawing 19 and 20, be with the difference of embodiment 16: the passage 10 that non-uniform Distribution is arranged on equally distributed passage 10 or the ventilation heat release is arranged on the ventilation heat release of embodiment 18.
Embodiment 19:
As shown in Figure 21, the difference with embodiment 18 is: the air-flow of embodiment 18 separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct 14 is installed.
Above technical characterictic has constituted embodiment of the present utility model, and it has stronger adaptability and implementation result, can increase and decrease non-essential technical characterictic according to actual needs, satisfies the demand of different situations.
Claims (122)
1. a ventilation heat release that is used on the light transmission building enclosure is characterized in that comprising the ventilation body that can be installed in the facade parallel with the light transmission building enclosure, is distributed with passage at this ventilation body.
2. ventilation heat release according to claim 1 has the passage that non-uniform Distribution is arranged on equally distributed passage or the ventilation body on the body that it is characterized in that ventilating; Or/and, on the ventilation body sunny slope reflector layer is arranged.
3. ventilation heat release according to claim 1 and 2, it is characterized in that passage be circular or/and oval-shaped or/and square or/and rhombus or/and rectangle or/and non-regular shape.
4. energy-conservation device of idle call that adopts claim 1 or 2 or 3 described ventilation heat releases, it is characterized in that comprising light transmission building enclosure and ventilating opening, on the light transmission building enclosure or the non-light transmittance building enclosure have a ventilating opening at least, there is the ventilation heat release that is no less than one deck to be installed on the facade parallel with the light transmission building enclosure, and forms cavity between ventilation heat release, light transmission building enclosure, the non-light transmittance building enclosure.
5. the energy-conservation device of idle call according to claim 4, the heat release that it is characterized in that ventilating has more than two layers; Or/and the ventilation heat release is positioned at inboard or the outside of light transmission building enclosure or non-light transmittance building enclosure.
6. according to claim 4 or the energy-conservation device of 5 described idle calls, it is characterized in that ventilating is equipped with blinds between heat release and the light transmission building enclosure.
7. the energy-conservation device of idle call according to claim 5 is equipped with blinds between the ventilation heat release of it is characterized in that ventilating heat release and following one deck.
8. according to claim 4 or the energy-conservation device of 5 or 7 described idle calls, the outside of the heat release that it is characterized in that ventilating is equipped with interior spacer assembly.
9. the energy-conservation device of idle call according to claim 6, the outside of the heat release that it is characterized in that ventilating is equipped with interior spacer assembly.
10. the energy-conservation device of idle call according to claim 8 has on the spacer assembly in it is characterized in that to be no less than an air inlet.
11. the device that idle call according to claim 9 is energy-conservation has on the spacer assembly in it is characterized in that to be no less than an air inlet.
12. the device that idle call according to claim 10 is energy-conservation, it is characterized in that air inlet is positioned at the top of spacer assembly or/and the following or/and left side or/and the right side or/and the side.
13. the device that idle call according to claim 11 is energy-conservation, it is characterized in that air inlet is positioned at the top of spacer assembly or/and the following or/and left side or/and the right side or/and the side.
14. the device that idle call according to claim 10 is energy-conservation is characterized in that the air inlet place is equipped with direct evaporation packing section; Perhaps, the air inlet of interior spacer assembly communicates with the gas outlet of blower fan.
15. the device that idle call according to claim 11 is energy-conservation is characterized in that the air inlet place is equipped with direct evaporation packing section; Perhaps, the air inlet of interior spacer assembly communicates with the gas outlet of blower fan.
16. the device that idle call according to claim 12 is energy-conservation is characterized in that the air inlet place is equipped with direct evaporation packing section; Perhaps, the air inlet of interior spacer assembly communicates with the gas outlet of blower fan.
17. the device that idle call according to claim 13 is energy-conservation is characterized in that the air inlet place is equipped with direct evaporation packing section; Perhaps, the air inlet of interior spacer assembly communicates with the gas outlet of blower fan.
18. the device that idle call according to claim 14 is energy-conservation is characterized in that the air inlet place or the wind outlet that directly evaporate packing section are equipped with blower fan.
19. the device that idle call according to claim 15 is energy-conservation is characterized in that the air inlet place or the wind outlet that directly evaporate packing section are equipped with blower fan.
20. the device that idle call according to claim 16 is energy-conservation is characterized in that the air inlet place or the wind outlet that directly evaporate packing section are equipped with blower fan.
21. the device that idle call according to claim 17 is energy-conservation is characterized in that the air inlet place or the wind outlet that directly evaporate packing section are equipped with blower fan.
22. the device that idle call according to claim 14 is energy-conservation, the cold water outlet pipe that it is characterized in that directly evaporating packing section with new blower fan group or/and the surface cooler of air-treatment unit or/and the indoor cold water inlet that shows cold end communicate.
23. the device that idle call according to claim 15 is energy-conservation, the cold water outlet pipe that it is characterized in that directly evaporating packing section with new blower fan group or/and the surface cooler of air-treatment unit or/and the indoor cold water inlet that shows cold end communicate.
24. the device that idle call according to claim 16 is energy-conservation, the cold water outlet pipe that it is characterized in that directly evaporating packing section with new blower fan group or/and the surface cooler of air-treatment unit or/and the indoor cold water inlet that shows cold end communicate.
25. the device that idle call according to claim 17 is energy-conservation, the cold water outlet pipe that it is characterized in that directly evaporating packing section with new blower fan group or/and the surface cooler of air-treatment unit or/and the indoor cold water inlet that shows cold end communicate.
26. the device that idle call according to claim 18 is energy-conservation, the cold water outlet pipe that it is characterized in that directly evaporating packing section with new blower fan group or/and the surface cooler of air-treatment unit or/and the indoor cold water inlet that shows cold end communicate.
27. the device that idle call according to claim 19 is energy-conservation, the cold water outlet pipe that it is characterized in that directly evaporating packing section with new blower fan group or/and the surface cooler of air-treatment unit or/and the indoor cold water inlet that shows cold end communicate.
28. the device that idle call according to claim 20 is energy-conservation, the cold water outlet pipe that it is characterized in that directly evaporating packing section with new blower fan group or/and the surface cooler of air-treatment unit or/and the indoor cold water inlet that shows cold end communicate.
29. the device that idle call according to claim 21 is energy-conservation, the cold water outlet pipe that it is characterized in that directly evaporating packing section with new blower fan group or/and the surface cooler of air-treatment unit or/and the indoor cold water inlet that shows cold end communicate.
30. the device that idle call according to claim 14 is energy-conservation, the air inlet place of spacer assembly is equipped with flow distributor in it is characterized in that.
31. the device that idle call according to claim 15 is energy-conservation, the air inlet place of spacer assembly is equipped with flow distributor in it is characterized in that.
32. the device that idle call according to claim 16 is energy-conservation, the air inlet place of spacer assembly is equipped with flow distributor in it is characterized in that.
33. the device that idle call according to claim 17 is energy-conservation, the air inlet place of spacer assembly is equipped with flow distributor in it is characterized in that.
34. the device that idle call according to claim 18 is energy-conservation, the air inlet place of spacer assembly is equipped with flow distributor in it is characterized in that.
35. the device that idle call according to claim 19 is energy-conservation, the air inlet place of spacer assembly is equipped with flow distributor in it is characterized in that.
36. the device that idle call according to claim 20 is energy-conservation, the air inlet place of spacer assembly is equipped with flow distributor in it is characterized in that.
37. the device that idle call according to claim 21 is energy-conservation, the air inlet place of spacer assembly is equipped with flow distributor in it is characterized in that.
38. the device that idle call according to claim 22 is energy-conservation, the air inlet place of spacer assembly is equipped with flow distributor in it is characterized in that.
39. the device that idle call according to claim 23 is energy-conservation, the air inlet place of spacer assembly is equipped with flow distributor in it is characterized in that.
40. the device that idle call according to claim 24 is energy-conservation, the air inlet place of spacer assembly is equipped with flow distributor in it is characterized in that.
41. the device that idle call according to claim 25 is energy-conservation, the air inlet place of spacer assembly is equipped with flow distributor in it is characterized in that.
42. the device that idle call according to claim 26 is energy-conservation, the air inlet place of spacer assembly is equipped with flow distributor in it is characterized in that.
43. the device that idle call according to claim 27 is energy-conservation, the air inlet place of spacer assembly is equipped with flow distributor in it is characterized in that.
44. the device that idle call according to claim 28 is energy-conservation, the air inlet place of spacer assembly is equipped with flow distributor in it is characterized in that.
45. the device that idle call according to claim 29 is energy-conservation, the air inlet place of spacer assembly is equipped with flow distributor in it is characterized in that.
46. the device that idle call according to claim 8 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
47. the device that idle call according to claim 9 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
48. the device that idle call according to claim 10 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
49. the device that idle call according to claim 11 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
50. the device that idle call according to claim 12 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
51. the device that idle call according to claim 13 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
52. the device that idle call according to claim 14 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
53. the device that idle call according to claim 15 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
54. the device that idle call according to claim 16 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
55. the device that idle call according to claim 17 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
56. the device that idle call according to claim 18 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
57. the device that idle call according to claim 19 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
58. the device that idle call according to claim 20 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
59. the device that idle call according to claim 21 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
60. the device that idle call according to claim 22 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
61. the device that idle call according to claim 23 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
62. the device that idle call according to claim 24 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
63. the device that idle call according to claim 25 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
64. the device that idle call according to claim 26 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
65. the device that idle call according to claim 27 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
66. the device that idle call according to claim 28 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
67. the device that idle call according to claim 29 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
68. the device that idle call according to claim 30 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
69. the device that idle call according to claim 31 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
70. the device that idle call according to claim 32 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
71. the device that idle call according to claim 33 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
72. the device that idle call according to claim 34 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
73. the device that idle call according to claim 35 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
74. the device that idle call according to claim 36 is energy-conservation is equipped with air-flow between spacer assembly and the ventilation heat release in it is characterized in that and separates guider, has at the ventilation heat release to be no less than one passage.
75. according to the energy-conservation device of the described idle call of claim 37, between spacer assembly and the ventilation heat release air-flow is installed in it is characterized in that and separates guider, have at the ventilation heat release to be no less than one passage.
76. according to the energy-conservation device of the described idle call of claim 38, between spacer assembly and the ventilation heat release air-flow is installed in it is characterized in that and separates guider, have at the ventilation heat release to be no less than one passage.
77. according to the energy-conservation device of the described idle call of claim 39, between spacer assembly and the ventilation heat release air-flow is installed in it is characterized in that and separates guider, have at the ventilation heat release to be no less than one passage.
78. according to the energy-conservation device of the described idle call of claim 40, between spacer assembly and the ventilation heat release air-flow is installed in it is characterized in that and separates guider, have at the ventilation heat release to be no less than one passage.
79. according to the energy-conservation device of the described idle call of claim 41, between spacer assembly and the ventilation heat release air-flow is installed in it is characterized in that and separates guider, have at the ventilation heat release to be no less than one passage.
80. according to the energy-conservation device of the described idle call of claim 42, between spacer assembly and the ventilation heat release air-flow is installed in it is characterized in that and separates guider, have at the ventilation heat release to be no less than one passage.
81. according to the energy-conservation device of the described idle call of claim 43, between spacer assembly and the ventilation heat release air-flow is installed in it is characterized in that and separates guider, have at the ventilation heat release to be no less than one passage.
82. according to the energy-conservation device of the described idle call of claim 44, between spacer assembly and the ventilation heat release air-flow is installed in it is characterized in that and separates guider, have at the ventilation heat release to be no less than one passage.
83. according to the energy-conservation device of the described idle call of claim 45, between spacer assembly and the ventilation heat release air-flow is installed in it is characterized in that and separates guider, have at the ventilation heat release to be no less than one passage.
84. according to the energy-conservation device of the described idle call of claim 46, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
85. according to the energy-conservation device of the described idle call of claim 47, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
86. according to the energy-conservation device of the described idle call of claim 48, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
87. according to the energy-conservation device of the described idle call of claim 49, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
88. according to the energy-conservation device of the described idle call of claim 50, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
89. according to the energy-conservation device of the described idle call of claim 51, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
90. according to the energy-conservation device of the described idle call of claim 52, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
91. according to the energy-conservation device of the described idle call of claim 53, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
92. according to the energy-conservation device of the described idle call of claim 54, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
93. according to the energy-conservation device of the described idle call of claim 55, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
94. according to the energy-conservation device of the described idle call of claim 56, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
95. according to the energy-conservation device of the described idle call of claim 57, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
96. according to the energy-conservation device of the described idle call of claim 58, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
97. according to the energy-conservation device of the described idle call of claim 59, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
98. according to the energy-conservation device of the described idle call of claim 60, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
99. according to the energy-conservation device of the described idle call of claim 61, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
100. according to the energy-conservation device of the described idle call of claim 62, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
101. according to the energy-conservation device of the described idle call of claim 63, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
102. according to the energy-conservation device of the described idle call of claim 64, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
103. according to the energy-conservation device of the described idle call of claim 65, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
104. according to the energy-conservation device of the described idle call of claim 66, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
105. according to the energy-conservation device of the described idle call of claim 67, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
106. according to the energy-conservation device of the described idle call of claim 68, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
107. according to the energy-conservation device of the described idle call of claim 69, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
108. according to the energy-conservation device of the described idle call of claim 70, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
109. according to the energy-conservation device of the described idle call of claim 71, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
110. according to the energy-conservation device of the described idle call of claim 72, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
111. according to the energy-conservation device of the described idle call of claim 73, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
112. according to the energy-conservation device of the described idle call of claim 74, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
113. according to the energy-conservation device of the described idle call of claim 74, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
114. according to the energy-conservation device of the described idle call of claim 75, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
115. according to the energy-conservation device of the described idle call of claim 76, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
116. according to the energy-conservation device of the described idle call of claim 77, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
117. according to the energy-conservation device of the described idle call of claim 78, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
118. according to the energy-conservation device of the described idle call of claim 79, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
119. the energy-conservation device of 0 described idle call according to Claim 8, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
120. the energy-conservation device of 1 described idle call according to Claim 8, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
121. the energy-conservation device of 2 described idle calls according to Claim 8, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
122. the energy-conservation device of 3 described idle calls according to Claim 8, it is characterized in that air-flow separate on the corresponding ventilation heat release of the afterbody of guider passage and outdoor between airduct is installed.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201220635380 CN203052901U (en) | 2012-11-28 | 2012-11-28 | Venting heat removal device and energy saving device for air conditioner |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201220635380 CN203052901U (en) | 2012-11-28 | 2012-11-28 | Venting heat removal device and energy saving device for air conditioner |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN203052901U true CN203052901U (en) | 2013-07-10 |
Family
ID=48735848
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 201220635380 Expired - Lifetime CN203052901U (en) | 2012-11-28 | 2012-11-28 | Venting heat removal device and energy saving device for air conditioner |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN203052901U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103017287A (en) * | 2012-11-28 | 2013-04-03 | 于向阳 | Ventilating and heat removing device, and energy-saving device and method for air conditioner |
-
2012
- 2012-11-28 CN CN 201220635380 patent/CN203052901U/en not_active Expired - Lifetime
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103017287A (en) * | 2012-11-28 | 2013-04-03 | 于向阳 | Ventilating and heat removing device, and energy-saving device and method for air conditioner |
| CN103017287B (en) * | 2012-11-28 | 2017-04-12 | 于向阳 | Ventilating and heat removing device, and energy-saving device and method for air conditioner |
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| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CX01 | Expiry of patent term | ||
| CX01 | Expiry of patent term |
Granted publication date: 20130710 |