CN203518064U - Distributed fresh air supply air conditioning equipment - Google Patents
Distributed fresh air supply air conditioning equipment Download PDFInfo
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- CN203518064U CN203518064U CN201320440062.5U CN201320440062U CN203518064U CN 203518064 U CN203518064 U CN 203518064U CN 201320440062 U CN201320440062 U CN 201320440062U CN 203518064 U CN203518064 U CN 203518064U
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- type heat
- exchanger rig
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Abstract
The utility model relates to the technical field of building energy saving, and discloses distributed fresh air supply air conditioning equipment. The distributed fresh air supply air conditioning equipment comprises fresh air units, tail end devices and decentralized fresh air supply rooms. The rooms are provided with the fresh air units and the tail end devices. Each fresh air unit comprises a shell and a fresh air treating device, each fresh air treating device is mounted inside the corresponding shell, and a shell air supply opening and a shell air inlet are formed in each shell. Outdoor air enters one fresh air treating device through the corresponding shell air inlet and then enters the inside of one room through one shell air supply opening. The distributed fresh air supply air conditioning equipment is convenient to use, the indoor fresh air amount can be increased through the fresh air units, and the indoor air quality is improved; compared with a traditional centralized air supply duct, the construction difficulty is reduced, the building height is decreased, the number of air supply ducts can be decreased, auxiliary facilities such as a fire sprinkler do not need to be arranged specifically, the fresh air units of all the rooms can be separately controlled, and thus the equipment has the advantages of being convenient to adjust, good in airtightness, capable of being matched with a building easily, flexible and convenient to mount, and safe and efficient.
Description
Technical field
the utility model relates to energy-saving building technology field, is the aircondition that a kind of distributing send new wind.
Background technology
the way that traditional air-conditioning system is general is to the new wind of indoor confession by concentrated new wind treating apparatus, end equipment is set in room and carrys out temperature, the humidity in control room, this kind of way solved the problem of Indoor Temperature, humidity, but concentrate for new wind and need to be provided with under construction Air Conditioning Facilities, occupied the area of the use of building; In building, air delivery duct is set, makes the system complex in building, take the height of building, increased difficulty of construction; If be provided with air delivery duct in building, fire-fighting spraying should be set, also increased the investment of system; Owing to processing new wind, need the increase of high energy consumption and initial cost, the minimum fresh air requirmente that is all controlled at human physiology needs that therefore indoor resh air requirement is general, has caused the reduction of indoor air quality, has affected people's live and work.
Utility model content
the utility model provides a kind of distributing to send the aircondition of new wind, overcome the deficiency of above-mentioned prior art, its need that can effectively solve existing air-conditioning system existence are established Air Conditioning Facilities and are taken building usable floor area, air delivery duct system complex, need establish the problem that fire-fighting spraying facility, difficulty of construction are large, operating cost is higher.
the technical solution of the utility model realizes by following measures: a kind of distributing send the aircondition of new wind, comprise new wind unit, end equipment and the non-centralized room that send new wind, above-mentioned room is provided with new wind unit and end equipment, new wind unit comprises housing and new wind treating apparatus, this new wind treating apparatus is arranged in housing, has housing air outlet and housing air inlet on housing; Wherein, housing air inlet directly communicates or communicates with outdoor by wall hole or window opening or airduct with outdoor, newly wind unit be positioned at indoor or/and the outdoor or/and top of forms or/and the bottom of forms or/and the left part of forms or/and the right part of forms or/and the middle part of forms.
the further optimization and/or improvements to above-mentioned utility model technical scheme below:
on above-mentioned housing, can be provided with indoor wind inlet, this indoor wind inlet is connected with the air inlet of new wind treating apparatus, on indoor wind inlet, volume adjusting apparatus is installed.
above-mentioned end device can be connected with low-temperature receiver or thermal source by pipeline, or end equipment is connected with respectively low-temperature receiver and thermal source by the pipeline with hot and cold water switching device shifter.
on above-mentioned pipeline, flow regulator can be installed.
the setting of above-mentioned end device can be in enclosure interior.
the air inlet of above-mentioned new wind treating apparatus communicates with outdoor by housing air inlet, and the air outlet of new wind treating apparatus communicates with indoor by housing air outlet.
above-mentioned new wind treating apparatus can comprise pressure fan, and the air inlet of pressure fan communicates with housing air inlet, and the air outlet of pressure fan communicates with housing air outlet.
above-mentioned new wind treating apparatus can comprise pressure fan and indirect evaporation cooler, and indirect evaporation cooler is positioned at the air inlet of pressure fan or/and air outlet place.
above-mentioned new wind treating apparatus can comprise pressure fan and surface-type heat-exchanger rig, and surface-type heat-exchanger rig is positioned at the air inlet of pressure fan or/and air outlet place.
above-mentioned new wind treating apparatus can comprise pressure fan and direct evaporative cooler, and direct evaporative cooler is positioned at the air inlet of pressure fan or/and air outlet place.
above-mentioned new wind treating apparatus can comprise pressure fan, indirect evaporation cooler and direct evaporative cooler, housing air inlet sequentially communicates with housing air outlet by pressure fan, indirect evaporation cooler and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by indirect evaporation cooler, pressure fan and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by indirect evaporation cooler, direct evaporative cooler and pressure fan.
above-mentioned new wind treating apparatus can comprise pressure fan, surface-type heat-exchanger rig and direct evaporative cooler, housing air inlet sequentially communicates with housing air outlet by pressure fan, surface-type heat-exchanger rig and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by surface-type heat-exchanger rig, pressure fan and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by surface-type heat-exchanger rig, direct evaporative cooler and pressure fan.
the water inlet of above-mentioned surface-type heat-exchanger rig and the water inlet of end equipment can be connected with respectively supply channel, and the delivery port of surface-type heat-exchanger rig and the delivery port of end equipment are connected with respectively water return pipeline.
the water inlet of above-mentioned end device is communicated with supply channel, and the delivery port of end equipment can be connected with the water inlet of surface-type heat-exchanger rig by connecting water pipe, and the delivery port of surface-type heat-exchanger rig is communicated with water return pipeline.
the utility model is easy to use, by using new wind unit can increase indoor resh air requirement, improved indoor air quality, compare the height that traditional concentrated air delivery duct has reduced difficulty of construction, saved building, do not need to arrange specially the auxiliary facilities such as air delivery duct, fire-fighting spray pipe, can realize the new wind unit in each room and separately control, have easy to adjust, airtight performance good, be easy to and build cooperation, convenient and flexible installation, feature safely and efficiently.
Accompanying drawing explanation
accompanying drawing 1 is the main TV structure schematic diagram of the utility model embodiment 1.
accompanying drawing 2 is the main TV structure schematic diagram of the utility model embodiment 2.
accompanying drawing 3 is the sectional structure schematic diagram at A-A place in accompanying drawing 2.
accompanying drawing 4 is the main TV structure schematic diagram of the utility model embodiment 3.
accompanying drawing 5 is the main TV structure schematic diagram of the utility model embodiment 4.
accompanying drawing 6 is the main TV structure schematic diagram of the utility model embodiment 5.
accompanying drawing 7 is the main TV structure schematic diagram of the utility model embodiment 6.
accompanying drawing 8 is the main TV structure schematic diagram of the utility model embodiment 7.
accompanying drawing 9 is the main TV structure schematic diagram of the utility model embodiment 8.
accompanying drawing 10 is the main TV structure schematic diagram of the utility model embodiment 9.
accompanying drawing 11 is the main TV structure schematic diagram of the utility model embodiment 10.
accompanying drawing 12 is the main TV structure schematic diagram of the utility model embodiment 11.
accompanying drawing 13 is the main TV structure schematic diagram of the utility model embodiment 12.
accompanying drawing 14 is the main TV structure schematic diagram of the utility model embodiment 13.
accompanying drawing 15 is the main TV structure schematic diagram of the utility model embodiment 14.
accompanying drawing 16 is the main TV structure schematic diagram of the utility model embodiment 15.
accompanying drawing 17 is the main TV structure schematic diagram of the utility model embodiment 16.
coding in accompanying drawing is respectively: 1 is new wind unit, and 2 is end equipment, and 3 is low-temperature receiver, 4 is airduct, and 5 is housing, and 6 is housing air inlet, 7 is housing air outlet, and 8 is pressure fan, and 9 is indirect evaporation cooler, 10 is surface-type heat-exchanger rig, and 11 is direct evaporative cooler, and 12 is end equipment air inlet, 13 is end equipment air outlet, and 14 is supply channel, and 15 is water return pipeline, 16 is connecting water pipe, and 17 is thermal source, and 18 is hot and cold water switching device shifter.
The specific embodiment
the utility model is not subject to the restriction of following embodiment, can determine concrete embodiment according to the technical solution of the utility model and actual conditions.
below in conjunction with embodiment and accompanying drawing, the utility model is further described:
embodiment 1:
as shown in Figure 1, this distributing send the aircondition of new wind to comprise new wind unit 1, end equipment 2 and the non-centralized room that send new wind, above-mentioned room is provided with new wind unit 1 and end equipment 2, new wind unit 1 comprises housing 5 and new wind treating apparatus, this new wind treating apparatus is arranged in housing 5, has housing air outlet 7 and housing air inlet 6 on housing 5; Wherein, housing air inlet 6 directly communicates or communicates with outdoor by wall hole or window opening or airduct 4 with outdoor, newly wind unit 1 be positioned at indoor or/and the outdoor or/and top of forms or/and the bottom of forms or/and the left part of forms or/and the right part of forms or/and the middle part of forms.Described end equipment 2 is public technology, for example: in the 34th page of the 16th row of the < < of China Construction Industry Press HVAC > > second edition, record, end equipment refers in heating and air-conditioning system, be placed in indoor release heat or (with) terminal device or the utensil of cold.Conventional end equipment has radiator, warm-air drier, fan coil and radiant panel.
the further optimization and/or improvements to above-mentioned utility model technical scheme below:
can on housing 5, be provided with indoor wind inlet according to actual needs, this indoor wind inlet is connected with the air inlet of new wind treating apparatus, on indoor wind inlet, volume adjusting apparatus is installed.When summer and conditioning in Transition Season, by wind inlet in volume adjusting apparatus close chamber; During in the winter time with conditioning in Transition Season, by wind inlet in volume adjusting apparatus opening chamber, the new wind and the indoor wind that are entered housing 5 can be mixed like this by housing air inlet 6, can avoid housing 5 internal condensations.
can be according to actual needs, end equipment 2 is connected with low-temperature receiver or thermal source by pipeline, or as shown in Figure 1, end equipment 2 is connected with respectively low-temperature receiver 3 and thermal source 17 by the pipeline with hot and cold water switching device shifter 18.
can according to actual needs, on above-mentioned pipeline, flow regulator be installed.
can according to actual needs, end equipment 2 be arranged on to housing 5 inside.
the air inlet of new wind treating apparatus communicates with outdoor by housing air inlet 6, and the air outlet of new wind treating apparatus communicates with indoor by housing air outlet 7.
can be according to actual needs, new wind treating apparatus comprises pressure fan 8, and the air inlet of pressure fan 8 communicates with housing air inlet 6, and the air outlet of pressure fan 8 communicates with housing air outlet 7.
embodiment 2:
as shown in accompanying drawing 2,3, new wind treating apparatus comprises pressure fan 8 and indirect evaporation cooler 9, and indirect evaporation cooler 9 is positioned at the air outlet place of pressure fan 8.Housing 5 is positioned on the outer inner wall of forms below, and the lower left quarter of forms has outdoor fresh wind port, and outdoor fresh wind port is connected with housing air inlet 6 by airduct 4, and housing air outlet 7 is connected with indoor.In addition, indirect evaporation cooler 9 can also be positioned at the air inlet place of pressure fan 8, or the air inlet place of pressure fan 8 and air outlet place are respectively arranged with indirect evaporation cooler 9.
embodiment 3:
as shown in Figure 4, new wind treating apparatus comprises pressure fan 8 and surface-type heat-exchanger rig 10, and surface-type heat-exchanger rig 10 is positioned at the air outlet place of pressure fan 8.Housing 5 is positioned on the outer inner wall of forms top, and the upper left quarter of forms has outdoor fresh wind port, and outdoor fresh wind port is connected with housing air inlet 6 by airduct 4, and housing air outlet 7 is connected with indoor.In addition, surface-type heat-exchanger rig 10 can also be positioned at the air inlet place of pressure fan 8, or the air inlet place of pressure fan 8 and air outlet place are respectively arranged with surface-type heat-exchanger rig 10.
embodiment 4:
as shown in Figure 5, embodiment 4 is with the difference of embodiment 3: the housing 5 of embodiment 4 is positioned on right-hand outer inner wall of forms, the upper right quarter of forms has outdoor fresh wind port, and outdoor fresh wind port is connected with housing air inlet 6 by airduct 4, and housing air outlet 7 is connected with indoor.
embodiment 5:
as shown in Figure 6, new wind treating apparatus is pressure fan 8, and the air inlet of pressure fan 8 communicates with housing air inlet 6, and the air outlet of pressure fan 8 communicates with housing air outlet 7; Housing 5 is positioned on the outer inner wall of forms below, and the lower left quarter of forms has outdoor fresh wind port, and outdoor fresh wind port is connected with housing air inlet 6 by airduct 4, and housing air outlet 7 is connected with indoor.
embodiment 6:
as shown in Figure 7, new wind treating apparatus comprises pressure fan 8 and direct evaporative cooler 11, and direct evaporative cooler 11 is positioned at the air outlet place of pressure fan 8; Housing 5 is positioned on the outer inner wall of forms below, and the lower left quarter of forms has outdoor fresh wind port, and outdoor fresh wind port is connected with housing air inlet 6 by airduct 4, and housing air outlet 7 is connected with indoor.In addition, direct evaporative cooler 11 can also be positioned at the air inlet place of pressure fan 8, or the air inlet place of pressure fan 8 and air outlet place are respectively arranged with direct evaporative cooler 11.
embodiment 7:
as shown in Figure 8, embodiment 7 is with the difference of embodiment 6: the new wind treating apparatus of embodiment 7 comprises pressure fan 8 and indirect evaporation cooler 9, the air inlet of pressure fan 8 communicates with housing air inlet 6, and indirect evaporation cooler 9 is positioned at the air outlet place of pressure fan 8.In addition, indirect evaporation cooler 9 can also be positioned at the air inlet place of pressure fan 8, or the air inlet place of pressure fan 8 and air outlet place are respectively arranged with indirect evaporation cooler 9.
embodiment 8:
as shown in Figure 9, embodiment 8 is with the difference of embodiment 6: the new wind treating apparatus of embodiment 8 comprises pressure fan 8, indirect evaporation cooler 9 and direct evaporative cooler 11, and housing air inlet 6 sequentially communicates with housing air outlet 7 by pressure fan 8, indirect evaporation cooler 9 and direct evaporative cooler 11.In addition, housing air inlet 6 can also sequentially communicate with housing air outlet 7 by indirect evaporation cooler 9, pressure fan 8 and direct evaporative cooler 11, or housing air inlet 6 sequentially communicates with housing air outlet 7 by indirect evaporation cooler 9, direct evaporative cooler 11 and pressure fan 8.
can be according to actual needs, make new wind treating apparatus comprise pressure fan 8, surface-type heat-exchanger rig 10 and direct evaporative cooler 11, housing air inlet 6 sequentially communicates with housing air outlet 7 by pressure fan 8, surface-type heat-exchanger rig 10 and direct evaporative cooler 11, or housing air inlet 6 sequentially communicates with housing air outlet 7 by surface-type heat-exchanger rig 10, pressure fan 8 and direct evaporative cooler 11, or housing air inlet 6 sequentially communicates with housing air outlet 7 by surface-type heat-exchanger rig 10, direct evaporative cooler 11 and pressure fan 8.
embodiment 9:
as shown in Figure 10, end equipment 2 is arranged on housing 5 inside, and end equipment 2 is provided with end equipment air inlet 12 and end equipment air outlet 13.
can make the water inlet of surface-type heat-exchanger rig 10 and the water inlet of end equipment 2 be connected with respectively supply channel 14 according to actual needs, the delivery port of the delivery port of surface-type heat-exchanger rig 10 and end equipment 2 be connected with respectively water return pipeline 15.
embodiment 10:
as shown in Figure 11, housing 5 is positioned on the outer inner wall of forms below, the lower left quarter of forms has outdoor fresh wind port, outdoor fresh wind port is connected with housing air inlet 6 by airduct 4, housing air outlet 7 is connected with indoor, new wind treating apparatus comprises pressure fan 8 and surface-type heat-exchanger rig 10, and surface-type heat-exchanger rig 10 is positioned at the air outlet place of pressure fan 8; End equipment air inlet 12 and end equipment air outlet 13 are connected with indoor respectively; The water inlet of the water inlet of surface-type heat-exchanger rig 10 and end equipment 2 is connected with respectively supply channel 14, and the delivery port of the delivery port of surface-type heat-exchanger rig 10 and end equipment 2 is connected with respectively water return pipeline 15.
embodiment 11:
as shown in Figure 12, embodiment 11 is with the difference of embodiment 10: the new wind treating apparatus of embodiment 11 comprises pressure fan 8, surface-type heat-exchanger rig 10 and direct evaporative cooler 11, and housing air inlet 6 sequentially communicates with housing air outlet 7 by pressure fan 8, surface-type heat-exchanger rig 10, direct evaporative cooler 11.
embodiment 12:
as shown in Figure 13, embodiment 12 is with the difference of embodiment 9: the water inlet of the end equipment 2 of embodiment 12 is communicated with supply channel 14, the delivery port of end equipment 2 is connected with the water inlet of surface-type heat-exchanger rig 10 by connecting water pipe 16, and the delivery port of surface-type heat-exchanger rig 10 is communicated with water return pipeline 15.
embodiment 13:
as shown in Figure 14, embodiment 13 is with the difference of embodiment 10: the water inlet of the end equipment 2 of embodiment 13 is communicated with supply channel 14, the delivery port of end equipment 2 is connected with the water inlet of surface-type heat-exchanger rig 10 by connecting water pipe 16, and the delivery port of surface-type heat-exchanger rig 10 is communicated with water return pipeline 15.
embodiment 14:
as shown in Figure 15, embodiment 14 is with the difference of embodiment 13: the new wind treating apparatus of embodiment 14 comprises pressure fan 8, surface-type heat-exchanger rig 10 and direct evaporative cooler 11, and housing air inlet 6 sequentially communicates with housing air outlet 7 by pressure fan 8, surface-type heat-exchanger rig 10, direct evaporative cooler 11.
embodiment 15:
as shown in Figure 16, housing 5 is positioned on the outer inner wall of forms below, the lower left quarter of forms has outdoor fresh wind port, outdoor fresh wind port is connected with housing air inlet 6 by airduct 4, new wind treating apparatus comprises pressure fan 8 and direct evaporative cooler 11, housing air inlet 6 sequentially communicates with housing air outlet 7 by pressure fan 8, direct evaporative cooler 11, and housing air outlet 7 is connected with indoor; End equipment 2 is arranged on housing 5 inside, and end equipment 2 is provided with end equipment air inlet 12 and end equipment air outlet 13, and end equipment air inlet 12 and end equipment air outlet 13 are connected with indoor respectively; The water inlet of end equipment 2 is connected with supply channel 14, and the delivery port of end equipment 2 is connected with water return pipeline 15.
embodiment 16:
as shown in Figure 17, embodiment 16 is with the difference of embodiment 15: the new wind treating apparatus of embodiment 16 is pressure fan 8, and the air inlet of pressure fan 8 communicates with housing air inlet 6, and the air outlet of pressure fan 8 communicates with housing air outlet 7.
above technical characterictic has formed embodiment of the present utility model, and it has stronger adaptability and implementation result, can increase and decrease according to actual needs non-essential technical characterictic, meets the demand of different situations.
the utility model has solved the little problem of indoor fresh air amount preferably, has improved greatly people's live and work environmental amenity degree; Also reduced the initial cost in air-conditioning system; Need not separately establish Air Conditioning Facilities, increase building usable floor area; Do not need air delivery duct, reduced greatly the difficulty of construction of system, saved the height of building; Do not take Air Conditioning Facilities, increased the usable floor area of building; System investment is less, has reduced the auxiliary equipment such as air delivery duct, fire-fighting spray pipe; Increased indoor resh air requirement, larger than traditional concentrated resh air requirement of new wind that send, thus improved indoor air quality; Easy to adjust, performance-adjustable increases greatly, can open in use new wind unit, and each room is separately controlled; Integral sealing performance in severe cold area building increases, and has reduced Winter Cold Wind Infiltration Of and has invaded in room in air delivery duct; Coordinate and be easier to building, flexible for installation, convenient.
Claims (52)
1. a distributing send the aircondition of new wind, it is characterized in that comprising new wind unit, end equipment and the non-centralized room that send new wind, above-mentioned room is provided with new wind unit and end equipment, new wind unit comprises housing and new wind treating apparatus, this new wind treating apparatus is arranged in housing, has housing air outlet and housing air inlet on housing; Wherein, housing air inlet directly communicates or communicates with outdoor by wall hole or window opening or airduct with outdoor, newly wind unit be positioned at indoor or/and the outdoor or/and top of forms or/and the bottom of forms or/and the left part of forms or/and the right part of forms or/and the middle part of forms.
2. distributing according to claim 1 send the aircondition of new wind, it is characterized in that being provided with indoor wind inlet on housing, and this indoor wind inlet is connected with the air inlet of new wind treating apparatus, on indoor wind inlet, volume adjusting apparatus is installed.
3. distributing according to claim 1 and 2 send the aircondition of new wind, it is characterized in that end equipment is connected with low-temperature receiver or thermal source by pipeline, or end equipment is connected with respectively low-temperature receiver and thermal source by the pipeline with hot and cold water switching device shifter.
4. distributing according to claim 3 send the aircondition of new wind, it is characterized in that being provided with on pipeline flow regulator.
5. distributing according to claim 1 and 2 send the aircondition of new wind, it is characterized in that end equipment is arranged on enclosure interior.
6. distributing according to claim 3 send the aircondition of new wind, it is characterized in that end equipment is arranged on enclosure interior.
7. distributing according to claim 4 send the aircondition of new wind, it is characterized in that end equipment is arranged on enclosure interior.
8. distributing according to claim 1 and 2 send the aircondition of new wind, it is characterized in that the air inlet of new wind treating apparatus communicates with outdoor by housing air inlet, and the air outlet of new wind treating apparatus communicates with indoor by housing air outlet.
9. distributing according to claim 3 send the aircondition of new wind, it is characterized in that the air inlet of new wind treating apparatus communicates with outdoor by housing air inlet, and the air outlet of new wind treating apparatus communicates with indoor by housing air outlet.
10. distributing according to claim 4 send the aircondition of new wind, it is characterized in that the air inlet of new wind treating apparatus communicates with outdoor by housing air inlet, and the air outlet of new wind treating apparatus communicates with indoor by housing air outlet.
11. distributings according to claim 5 send the aircondition of new wind, it is characterized in that the air inlet of new wind treating apparatus communicates with outdoor by housing air inlet, and the air outlet of new wind treating apparatus communicates with indoor by housing air outlet.
12. distributings according to claim 8 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan, and the air inlet of pressure fan communicates with housing air inlet, and the air outlet of pressure fan communicates with housing air outlet.
13. distributings according to claim 9 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan, and the air inlet of pressure fan communicates with housing air inlet, and the air outlet of pressure fan communicates with housing air outlet.
14. distributings according to claim 10 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan, and the air inlet of pressure fan communicates with housing air inlet, and the air outlet of pressure fan communicates with housing air outlet.
15. distributings according to claim 11 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan, and the air inlet of pressure fan communicates with housing air inlet, and the air outlet of pressure fan communicates with housing air outlet.
16. distributings according to claim 8 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan and indirect evaporation cooler, and indirect evaporation cooler is positioned at the air inlet of pressure fan or/and air outlet place.
17. distributings according to claim 9 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan and indirect evaporation cooler, and indirect evaporation cooler is positioned at the air inlet of pressure fan or/and air outlet place.
18. distributings according to claim 10 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan and indirect evaporation cooler, and indirect evaporation cooler is positioned at the air inlet of pressure fan or/and air outlet place.
19. distributings according to claim 11 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan and indirect evaporation cooler, and indirect evaporation cooler is positioned at the air inlet of pressure fan or/and air outlet place.
20. distributings according to claim 8 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan and surface-type heat-exchanger rig, and surface-type heat-exchanger rig is positioned at the air inlet of pressure fan or/and air outlet place.
21. distributings according to claim 9 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan and surface-type heat-exchanger rig, and surface-type heat-exchanger rig is positioned at the air inlet of pressure fan or/and air outlet place.
22. distributings according to claim 10 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan and surface-type heat-exchanger rig, and surface-type heat-exchanger rig is positioned at the air inlet of pressure fan or/and air outlet place.
23. distributings according to claim 11 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan and surface-type heat-exchanger rig, and surface-type heat-exchanger rig is positioned at the air inlet of pressure fan or/and air outlet place.
24. distributings according to claim 8 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan and direct evaporative cooler, and direct evaporative cooler is positioned at the air inlet of pressure fan or/and air outlet place.
25. distributings according to claim 9 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan and direct evaporative cooler, and direct evaporative cooler is positioned at the air inlet of pressure fan or/and air outlet place.
26. distributings according to claim 10 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan and direct evaporative cooler, and direct evaporative cooler is positioned at the air inlet of pressure fan or/and air outlet place.
27. distributings according to claim 11 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan and direct evaporative cooler, and direct evaporative cooler is positioned at the air inlet of pressure fan or/and air outlet place.
28. distributings according to claim 8 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan, indirect evaporation cooler and direct evaporative cooler, housing air inlet sequentially communicates with housing air outlet by pressure fan, indirect evaporation cooler and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by indirect evaporation cooler, pressure fan and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by indirect evaporation cooler, direct evaporative cooler and pressure fan.
29. distributings according to claim 9 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan, indirect evaporation cooler and direct evaporative cooler, housing air inlet sequentially communicates with housing air outlet by pressure fan, indirect evaporation cooler and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by indirect evaporation cooler, pressure fan and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by indirect evaporation cooler, direct evaporative cooler and pressure fan.
30. distributings according to claim 10 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan, indirect evaporation cooler and direct evaporative cooler, housing air inlet sequentially communicates with housing air outlet by pressure fan, indirect evaporation cooler and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by indirect evaporation cooler, pressure fan and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by indirect evaporation cooler, direct evaporative cooler and pressure fan.
31. distributings according to claim 11 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan, indirect evaporation cooler and direct evaporative cooler, housing air inlet sequentially communicates with housing air outlet by pressure fan, indirect evaporation cooler and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by indirect evaporation cooler, pressure fan and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by indirect evaporation cooler, direct evaporative cooler and pressure fan.
32. distributings according to claim 8 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan, surface-type heat-exchanger rig and direct evaporative cooler, housing air inlet sequentially communicates with housing air outlet by pressure fan, surface-type heat-exchanger rig and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by surface-type heat-exchanger rig, pressure fan and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by surface-type heat-exchanger rig, direct evaporative cooler and pressure fan.
33. distributings according to claim 9 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan, surface-type heat-exchanger rig and direct evaporative cooler, housing air inlet sequentially communicates with housing air outlet by pressure fan, surface-type heat-exchanger rig and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by surface-type heat-exchanger rig, pressure fan and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by surface-type heat-exchanger rig, direct evaporative cooler and pressure fan.
34. distributings according to claim 10 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan, surface-type heat-exchanger rig and direct evaporative cooler, housing air inlet sequentially communicates with housing air outlet by pressure fan, surface-type heat-exchanger rig and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by surface-type heat-exchanger rig, pressure fan and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by surface-type heat-exchanger rig, direct evaporative cooler and pressure fan.
35. distributings according to claim 11 send the aircondition of new wind, it is characterized in that new wind treating apparatus comprises pressure fan, surface-type heat-exchanger rig and direct evaporative cooler, housing air inlet sequentially communicates with housing air outlet by pressure fan, surface-type heat-exchanger rig and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by surface-type heat-exchanger rig, pressure fan and direct evaporative cooler, or housing air inlet sequentially communicates with housing air outlet by surface-type heat-exchanger rig, direct evaporative cooler and pressure fan.
36. distributings according to claim 20 send the aircondition of new wind, it is characterized in that the water inlet of surface-type heat-exchanger rig and the water inlet of end equipment are connected with respectively supply channel, the delivery port of surface-type heat-exchanger rig and the delivery port of end equipment are connected with respectively water return pipeline.
37. distributings according to claim 21 send the aircondition of new wind, it is characterized in that the water inlet of surface-type heat-exchanger rig and the water inlet of end equipment are connected with respectively supply channel, the delivery port of surface-type heat-exchanger rig and the delivery port of end equipment are connected with respectively water return pipeline.
38. distributings according to claim 22 send the aircondition of new wind, it is characterized in that the water inlet of surface-type heat-exchanger rig and the water inlet of end equipment are connected with respectively supply channel, the delivery port of surface-type heat-exchanger rig and the delivery port of end equipment are connected with respectively water return pipeline.
39. distributings according to claim 23 send the aircondition of new wind, it is characterized in that the water inlet of surface-type heat-exchanger rig and the water inlet of end equipment are connected with respectively supply channel, the delivery port of surface-type heat-exchanger rig and the delivery port of end equipment are connected with respectively water return pipeline.
40. according to claim
32described distributing send the aircondition of new wind, it is characterized in that the water inlet of surface-type heat-exchanger rig and the water inlet of end equipment are connected with respectively supply channel, and the delivery port of surface-type heat-exchanger rig and the delivery port of end equipment are connected with respectively water return pipeline.
41. according to claim
33described distributing send the aircondition of new wind, it is characterized in that the water inlet of surface-type heat-exchanger rig and the water inlet of end equipment are connected with respectively supply channel, and the delivery port of surface-type heat-exchanger rig and the delivery port of end equipment are connected with respectively water return pipeline.
42. according to claim
34described distributing send the aircondition of new wind, it is characterized in that the water inlet of surface-type heat-exchanger rig and the water inlet of end equipment are connected with respectively supply channel, and the delivery port of surface-type heat-exchanger rig and the delivery port of end equipment are connected with respectively water return pipeline.
43. according to claim
35described distributing send the aircondition of new wind, it is characterized in that the water inlet of surface-type heat-exchanger rig and the water inlet of end equipment are connected with respectively supply channel, and the delivery port of surface-type heat-exchanger rig and the delivery port of end equipment are connected with respectively water return pipeline.
44. distributings according to claim 20 send the aircondition of new wind, the water inlet that it is characterized in that end equipment is communicated with supply channel, the delivery port of end equipment is connected with the water inlet of surface-type heat-exchanger rig by connecting water pipe, and the delivery port of surface-type heat-exchanger rig is communicated with water return pipeline.
45. distributings according to claim 21 send the aircondition of new wind, the water inlet that it is characterized in that end equipment is communicated with supply channel, the delivery port of end equipment is connected with the water inlet of surface-type heat-exchanger rig by connecting water pipe, and the delivery port of surface-type heat-exchanger rig is communicated with water return pipeline.
46. distributings according to claim 22 send the aircondition of new wind, the water inlet that it is characterized in that end equipment is communicated with supply channel, the delivery port of end equipment is connected with the water inlet of surface-type heat-exchanger rig by connecting water pipe, and the delivery port of surface-type heat-exchanger rig is communicated with water return pipeline.
47. distributings according to claim 23 send the aircondition of new wind, the water inlet that it is characterized in that end equipment is communicated with supply channel, the delivery port of end equipment is connected with the water inlet of surface-type heat-exchanger rig by connecting water pipe, and the delivery port of surface-type heat-exchanger rig is communicated with water return pipeline.
48. according to claim
32described distributing send the aircondition of new wind, the water inlet that it is characterized in that end equipment is communicated with supply channel, the delivery port of end equipment is connected with the water inlet of surface-type heat-exchanger rig by connecting water pipe, and the delivery port of surface-type heat-exchanger rig is communicated with water return pipeline.
49. according to claim
33described distributing send the aircondition of new wind, the water inlet that it is characterized in that end equipment is communicated with supply channel, the delivery port of end equipment is connected with the water inlet of surface-type heat-exchanger rig by connecting water pipe, and the delivery port of surface-type heat-exchanger rig is communicated with water return pipeline.
50. according to claim
33described distributing send the aircondition of new wind, the water inlet that it is characterized in that end equipment is communicated with supply channel, the delivery port of end equipment is connected with the water inlet of surface-type heat-exchanger rig by connecting water pipe, and the delivery port of surface-type heat-exchanger rig is communicated with water return pipeline.
51. according to claim
34described distributing send the aircondition of new wind, the water inlet that it is characterized in that end equipment is communicated with supply channel, the delivery port of end equipment is connected with the water inlet of surface-type heat-exchanger rig by connecting water pipe, and the delivery port of surface-type heat-exchanger rig is communicated with water return pipeline.
52. according to claim
35described distributing send the aircondition of new wind, the water inlet that it is characterized in that end equipment is communicated with supply channel, the delivery port of end equipment is connected with the water inlet of surface-type heat-exchanger rig by connecting water pipe, and the delivery port of surface-type heat-exchanger rig is communicated with water return pipeline.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320440062.5U CN203518064U (en) | 2013-07-23 | 2013-07-23 | Distributed fresh air supply air conditioning equipment |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320440062.5U CN203518064U (en) | 2013-07-23 | 2013-07-23 | Distributed fresh air supply air conditioning equipment |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN203518064U true CN203518064U (en) | 2014-04-02 |
Family
ID=50376992
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201320440062.5U Expired - Lifetime CN203518064U (en) | 2013-07-23 | 2013-07-23 | Distributed fresh air supply air conditioning equipment |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN203518064U (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103398431A (en) * | 2013-07-23 | 2013-11-20 | 于向阳 | Distributed fresh air supply air-conditioning method and air conditioner |
| EP3124884A1 (en) | 2015-07-30 | 2017-02-01 | Inex Bet | Decentralised air renewal and treatment system, and air renewal and treatment device for such a system |
| CN108931024A (en) * | 2018-04-25 | 2018-12-04 | 中国核电工程有限公司 | A kind of nuclear power plant's Police Command Center improves the ventilating system of personnel's room fresh air distribution |
-
2013
- 2013-07-23 CN CN201320440062.5U patent/CN203518064U/en not_active Expired - Lifetime
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103398431A (en) * | 2013-07-23 | 2013-11-20 | 于向阳 | Distributed fresh air supply air-conditioning method and air conditioner |
| EP3124884A1 (en) | 2015-07-30 | 2017-02-01 | Inex Bet | Decentralised air renewal and treatment system, and air renewal and treatment device for such a system |
| CN108931024A (en) * | 2018-04-25 | 2018-12-04 | 中国核电工程有限公司 | A kind of nuclear power plant's Police Command Center improves the ventilating system of personnel's room fresh air distribution |
| CN108931024B (en) * | 2018-04-25 | 2021-06-25 | 中国核电工程有限公司 | Ventilation system for improving room fresh air distribution for personnel by emergency command center of nuclear power plant |
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