CN202993424U - Horizontal unit heat removing air conditioner connected with window - Google Patents

Horizontal unit heat removing air conditioner connected with window Download PDF

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Publication number
CN202993424U
CN202993424U CN 201220635365 CN201220635365U CN202993424U CN 202993424 U CN202993424 U CN 202993424U CN 201220635365 CN201220635365 CN 201220635365 CN 201220635365 U CN201220635365 U CN 201220635365U CN 202993424 U CN202993424 U CN 202993424U
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China
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window
spacer assembly
aircondition
combines
heat extraction
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CN 201220635365
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Chinese (zh)
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于向阳
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Individual
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Abstract

The utility model relates to a horizontal unit heat removing air conditioner connected with a window. A window is installed in the hole window which is an envelope enclosure, a horizontal air handling unit is arranged inside of a window insulation device which is more than one in number and can be opened or closed, and the joints of the air handling unit and other sashes and window frames are sealed. A fresh window port of the horizontal air handling unit leads to the outside, an air outlet of the horizontal air handling unit is communicated with the inside of the room, and an air vent arranged in the horizontal air handing unit is communicated with the outside. An internal isolating device is disposed on the inside of the window, a diversion hole supporting device is installed between the internal isolating device and the window, and an exhaust cavity with more than one layer of air flow channel is formed between the internal isolating device and the window. Further the exhaust cavity consists of an air inlet and an air outlet and is communicated with the air vent. The horizontal unit heat removing air conditioner has the advantages that the indoor exhaust air volume can be efficiently used in classification and gradient and the optimal configuration of the equipment is achieved.

Description

Horizontal unit heat extraction aircondition combines with window
Technical field
the utility model relates to the energy-saving building technology field, is a kind of horizontal unit heat extraction aircondition that combines with window.
Technical background
along with the China's economic fast development, when living standards of the people improve day by day, existing, newly-built and reached unprecedented scale in various types of gross floors areas of building, the problem thereupon produced is the great burden that the high building energy consumption causes to China's economic society.
current in the themes of the times of Resources for construction economizing type and environmentally friendly low-carbon type society, how reducing building energy consumption is one of great key subject concerned sustainable development of China.In building energy saving field, HVAC is the rich and influential family of building energy consumption always, thereby improve the heat-insulating property of architectural exterior-protecting construction by the thermal property that strengthens and improve architectural exterior-protecting construction, and then reduce load and the energy consumption of HVAC, be the important developing direction of building energy saving field always.
in architectural exterior-protecting construction, for the building enclosures such as exterior wall and roofing, the insulation of ordinary window, heat insulation and airtight performance is more far short of what is expected than building enclosures such as exterior walls, so window is the weak link of Building Indoor Environment insulation.And due to the penetrating window that wafts, the French window of more employing in building at present, or even the glass curtain wall daylighting be abound with design, area ratio of window to wall has the trend of increase, thereby causes indoor perennial load higher, the HVAC installed capacity increases, and has more aggravated the excessive loss of building to the energy.
Summary of the invention
the utility model provides a kind of horizontal unit heat extraction aircondition that combines with window, it has overcome the deficiency of prior art, efficiently solve the high problem of air conditioning energy consumption caused because of light transmission building enclosures such as windows, it is on the basis that guarantees the good daylighting function that window should have, strengthen and improve the comprehensive thermal property of window and air-tightness, realizing energy-conservation purpose.
the technical solution of the utility model realizes by following measures: a kind of horizontal unit heat extraction aircondition that combines with window, in the window opening of its architectural exterior-protecting construction, window is installed, opening of window, maybe can close be no less than a window formula attemperator installed inside have horizontal air process unit and and other sash and window frame between junction mutually seal, and the fresh wind port of horizontal air processing unit leads to the outside, the air outlet that horizontal air is processed unit communicates with indoor; Horizontal air is processed on unit the exhaust outlet communicated with the outside; There is interior spacer assembly the window inboard, water conservancy diversion bracing or strutting arrangement with holes is arranged between spacer assembly and window in this, being formed with the gas channel that is no less than one deck in this between spacer assembly and window is the air draft cavity, and this air draft cavity has air intake place and air draft place, and this air draft place communicates with exhaust outlet; It is that conventional compression-type refrigeration unit is or/and the sweat cooling unit is equipped with the cubicle switcher that can open the window formula attemperator that maybe can close on window that horizontal air is processed unit.
below to the further optimization of technique scheme or/and select:
the heat exchanger of the new wind of precooling is installed in above-mentioned sweat cooling unit, and the delivery port of evaporation packing section communicates with the water inlet of heat exchanger, and the water inlet of the delivery port of heat exchanger and evaporation packing section communicates.
at the said exhaust mouth, place is equipped with exhaust blower.
be provided with the condenser of conventional compression-type refrigeration unit at the import or export place of said exhaust machine.
the import at above-mentioned air intake place be positioned at the air draft cavity top or/and the middle part of air draft cavity or/and the bottom of air draft cavity or/and the side of air draft cavity, the outlet of air draft place be positioned at the air draft cavity top or/and the middle part of air draft cavity or/and the bottom of air draft cavity or/and the side of air draft cavity, this air draft place communicates with exhaust outlet.
the water conservancy diversion gripper shoe of many one is installed between above-mentioned interior spacer assembly and window.
in processing unit, above-mentioned horizontal air fan heater is arranged or/and screen pack.
above-mentioned cubicle switcher is link-type.
towards sunny side, reflectance coating is arranged at above-mentioned interior spacer assembly; Or and, interior spacer assembly adopts mobilizable soft material.
resultant effect of the present utility model is:
the air-conditioning unit is arranged on the one or both sides of indoor window inboard, has effectively utilized space, and easier and building structure coordinates, and function is easy to realize.Open or close by window formula attemperator, solved the insulation problem of indoor and outdoor import and export, airflow path;
by forming the indoor exhaust wind passage between indoor abat vent and window, the part that cooling mode is taken away the window place by passive type obtains thermic load, correspondingly reduces indoor load, reduces installed capacity and the energy resource consumption of the active cooling devices such as room conditioning;
because window load distributes differently, effectively reduce the indoor heat gain load formed sunshine due to window by different air draft air current compositions.For difference towards window for, not in the same time due to the difference of the height of solar incident angle degree and floor, the distribution of window solar radiation heat on window has significant difference, and what therefore adopt the corresponding elimination of multi-form air current composition mode window place varying number must thermic load be the key of this patent.
the indoor exhaust wind cold is carried out to the efficient utilization of reasonable classification, minute gradient;
due to the relatively sufficient sidepiece device space being arranged, make the selection of system dynamic parts that larger flexibility be arranged, realize distributing rationally of equipment.
can suitably reduce the glazed area of window, reduce indoor load;
form entrance, outlet and the circulation passage of the exchange of indoor and outdoor air-flow;
according to the DIFFERENT METEOROLOGICAL CONDITIONS of different regions, be equipped with different refrigerating function sections, realize the optimization configuration of using energy source.
air draft outside discharge chamber before, can carry out the condenser of compression-type refrigeration unit air-cooled coolingly, due to temperature of outgoing air, lower than outdoor temperature, more conventional outdoor air-cooled condenser effect will be got well, and has improved the coefficient of performance of refrigeration machine;
summer, heat-insulating property strengthened, and intercepted solar radiation, and the Winter protection performance strengthens, the effectively outer cold emission of air lock.
whole air-tightness is better;
possesses sound insulation and noise reducing function preferably;
the synthesis energy saving effect is remarkable.
more complete diversity system scheme is provided.
The accompanying drawing explanation
the structural representation that accompanying drawing 1 is embodiment 1 of the present utility model.
the A-A side-looking structural representation that accompanying drawing 2 is accompanying drawing 1.
the B-B plan structure schematic diagram that accompanying drawing 3 is accompanying drawing 1.
the structural representation that accompanying drawing 4 is embodiment 2 of the present utility model.
the structural representation that accompanying drawing 5 is embodiment 3 of the present utility model.
the structural representation that accompanying drawing 6 is embodiment 4 of the present utility model.
the structural representation that accompanying drawing 7 is embodiment 5 of the present utility model.
the structural representation that accompanying drawing 8 is embodiment 6 of the present utility model.
the structural representation that accompanying drawing 9 is embodiment 7 of the present utility model.
the structural representation that accompanying drawing 10 is embodiment 8 of the present utility model.
the structural representation that accompanying drawing 11 is embodiment 9 of the present utility model.
the structural representation that accompanying drawing 12 is embodiment 10 of the present utility model.
the structural representation that accompanying drawing 13 is embodiment 11 of the present utility model.
the structural representation that accompanying drawing 14 is embodiment 12 of the present utility model.
the structural representation that accompanying drawing 15 is embodiment 13 of the present utility model.
the structural representation that accompanying drawing 16 is embodiment 14 of the present utility model.
the structural representation that accompanying drawing 17 is embodiment 15 of the present utility model.
the structural representation that accompanying drawing 18 is embodiment 16 of the present utility model.
the structural representation that accompanying drawing 19 is embodiment 17 of the present utility model.
the structural representation that accompanying drawing 20 is embodiment 18 of the present utility model.
the structural representation that accompanying drawing 21 is embodiment 19 of the present utility model.
the structural representation that accompanying drawing 22 is embodiment 20 of the present utility model.
the structural representation that accompanying drawing 23 is embodiment 21 of the present utility model.
the structural representation that accompanying drawing 24 is embodiment 22 of the present utility model.
coding in accompanying drawing is respectively: 1 is fresh wind port, and 2 is filler, and 3 is exhaust blower, and 4 is water conservancy diversion bracing or strutting arrangement with holes, and 5 is interior spacer assembly, 6 is the evaporation packing section, and 7 is heat exchanger, and 8 is heater, and 9 is screen pack, 10 is evaporimeter, and 11 is condenser, and 12 is compressor, and 13 is choke valve; 14 process unit for horizontal air, and 15 is window formula attemperator, and 16 is cubicle switcher; 17 is outdoor, and 18 is indoor, and 19 is architectural exterior-protecting construction, and 20 is window; 21 is the water conservancy diversion gripper shoe; 22 is air outlet.
The specific embodiment
the utility model is not subject to the restriction of following embodiment, can determine concrete embodiment according to above-mentioned the technical solution of the utility model and actual conditions.
in the utility model, architectural exterior-protecting construction comprises existing known light transmission building enclosure and non-light transmittance building enclosure, the light transmission building enclosure refer to window or/and glass curtain wall or/and the good building enclosure of other light transmission.
below in conjunction with embodiment, the utility model is done further to discuss:
embodiment 1:
as shown in accompanying drawing 1,2,3, in the window opening of the architectural exterior-protecting construction of this horizontal unit heat extraction aircondition that combine with window, window 20 is installed, opening of window 20, maybe can close be no less than window formula attemperator 15 installed inside have horizontal air process unit 14 and and other sash and window frame between junction mutually seal, and the fresh wind port 1 of horizontal air processing unit 14 leads to the outside, the air outlet 22 that horizontal air is processed unit 14 communicates with indoor 18; Horizontal air is processed on unit 14 exhaust outlet communicated with the outside; There is interior spacer assembly 5 window 20 inboards, water conservancy diversion bracing or strutting arrangement 4 with holes is arranged between spacer assembly 5 and window 20 in this, being formed with the gas channel that is no less than one deck between spacer assembly 5 and window 20 in this is the air draft cavity, this air draft cavity has air intake place and air draft place, and this air draft place communicates with exhaust outlet; Can, according to reality, exhaust blower 3 be installed at the exhaust outlet place or exhaust blower 3 is not installed; It is that conventional compression-type refrigeration unit is or/and the sweat cooling unit can adopt direct sweat cooling unit according to actual needs that horizontal air is processed unit 14; The cubicle switcher 16 that can open the window formula attemperator 15 that maybe can close is installed on window 20.Horizontal air is processed unit 14 and is arranged on the inboard facade of indoor window, solved the insulation problem of air-conditioning unit and inside and outside gas channel by the keying of window formula attemperator 15, window formula attemperator is can open maybe to close, the open and close of window formula attemperator are to complete by an indoor cubicle switcher 16, when summer operation, window is opening, window is closed condition in the winter time, avoid outdoor cold wind to invade, fresh wind port is arranged on facade, outdoor new wind is sent into indoor after processing by the constant enthalpy cooling of filler, summer, cold wind was sent into the indoor refrigeration duty of bearing room.
as shown in accompanying drawing 1,2,3, should combine with window the course of work of horizontal unit heat extraction aircondition as follows: indoor exhaust wind from the air intake on the right side of interior spacer assembly 5 enter interior spacer assembly 5, water conservancy diversion bracing or strutting arrangement 4 with holes is the air draft cavity with the gas channel that window 20 forms, the part of taking away window 20 obtains thermic load, then is discharged to outdoor 17 by the exhaust blower 3 that is arranged on exhaust outlet.
embodiment 2:
as shown in Figure 4, embodiment 2 is with the difference of embodiment 1: the water conservancy diversion of embodiment 2 bracing or strutting arrangement 4 with holes is horizontal type, indoor exhaust wind from the air intake on the right side of interior spacer assembly 5 enter interior spacer assembly 5, water conservancy diversion bracing or strutting arrangement 4 with holes is the air draft cavity with the gas channel that window 20 forms, the part of taking away window 20 obtains thermic load, then is discharged to outdoor 17 by the exhaust blower 3 that is arranged on exhaust outlet.
embodiment 3:
as shown in Figure 5, the difference of embodiment 3 and embodiment 1 and embodiment 2 is: water conservancy diversion gripper shoe 21 and two water conservancy diversion bracing or strutting arrangements 4 with holes of many one are installed between the interior spacer assembly 5 of embodiment 3 and window 20, this water conservancy diversion gripper shoe 21 is vertical, in two water conservancy diversion bracing or strutting arrangements 4 with holes one is horizontal type for vertical another, indoor exhaust wind enters interior spacer assembly 5 from the air intake of the downside of interior spacer assembly 5 like this, water conservancy diversion bracing or strutting arrangement 4 with holes is air draft cavity (the air draft cavity of U-shaped) with the gas channel that window 20 forms, the part of taking away window 20 obtains thermic load, be discharged to outdoor 17 by the exhaust blower 3 that is arranged on exhaust outlet again.
embodiment 4:
as shown in Figure 6, embodiment 4 is with the difference of embodiment 1 to embodiment 3: there are two places at the air intake place of the air draft cavity of embodiment 4 and lay respectively at interior spacer assembly 5 left and right sides, two water conservancy diversion bracing or strutting arrangements 4 with holes are arranged and all this is vertical, the downside between these two water conservancy diversion bracing or strutting arrangement 4 with holes have air draft place and with the exhaust blower 3 of below.The air intake place of the both sides of first process air draft of indoor like this 18 air draft cavity enters the air draft cavity, and is discharged to outdoor 17 by the exhaust blower 3 that is arranged on exhaust outlet respectively under the guide functions of two water conservancy diversion bracing or strutting arrangements 4 with holes.
embodiment 5:
as shown in Figure 7, embodiment 4 is with the difference of embodiment 1 to embodiment 4: the air intake place of the air draft cavity of embodiment 5 is equipped with evaporation packing section 6, and the air intake place is positioned at the right side of air draft cavity, thereby evaporation packing section 6 adopts vertical.Indoor like this 18 air draft first enters the air draft cavity after evaporation packing section 6 coolings at the air intake place of air draft cavity again, thereby the part that is conducive to take away window 20 obtains thermic load.
embodiment 6:
as shown in Figure 8, embodiment 6 is with the difference of embodiment 1 to 5: the air intake place of embodiment 6 is positioned at the upside of air draft cavity, thereby evaporation packing section 6 adopts horizontal types, be conducive to like this to reduce the temperature of outgoing air entered, thereby the part that more is conducive to take away window 20 obtains thermic load.
embodiment 7:
as shown in Figure 9, embodiment 7 is with the difference of embodiment 1 to 6: the air intake place of the air draft cavity of embodiment 7 is positioned at the downside of air draft cavity, the air intake place of air draft cavity is equipped with evaporation packing section 6, water conservancy diversion gripper shoe 21 and two water conservancy diversion bracing or strutting arrangements 4 with holes of many one are installed between interior spacer assembly 5 and window 20, this water conservancy diversion gripper shoe 21 is vertical, in two water conservancy diversion bracing or strutting arrangements 4 with holes one is horizontal type for vertical another, indoor exhaust wind enters interior spacer assembly 5 from the air intake of the downside of interior spacer assembly 5 like this, water conservancy diversion bracing or strutting arrangement 4 with holes is air draft cavity (the air draft cavity of U-shaped) with the gas channel that window 20 forms, the part of taking away window 20 obtains thermic load, be discharged to outdoor 17 by the exhaust blower 3 that is arranged on exhaust outlet again.
embodiment 8:
as shown in Figure 10, embodiment 8 is with the difference of embodiment 4: two air intake places, place of the air draft cavity of embodiment 8 are equipped with evaporation packing section 6.
embodiment 9:
as shown in Figure 11, embodiment 9 is with the difference of embodiment 5: the heat exchanger 7 that the new wind of precooling is installed in the sweat cooling unit of embodiment 9, the delivery port of evaporation packing section 6 communicates with the water inlet of heat exchanger 7, and the water inlet of the delivery port of heat exchanger 7 and evaporation packing section 6 communicates.Outdoor new wind first passes through the wet cooling such as grade of heat exchanger 7, after the cooling of the constant enthalpy through the pervaporation filler, sends into indoor.
embodiment 10:
as shown in Figure 12, embodiment 10 is with the difference of embodiment 6: the heat exchanger 7 that the new wind of precooling is installed in the sweat cooling unit of embodiment 10, the delivery port of evaporation packing section 6 communicates with the water inlet of heat exchanger 7, and the water inlet of the delivery port of heat exchanger 7 and evaporation packing section 6 communicates.Outdoor new wind first passes through the wet cooling such as grade of heat exchanger 7, after the cooling of the constant enthalpy through the pervaporation filler, sends into indoor.
embodiment 11:
as shown in Figure 13, embodiment 11 is with the difference of embodiment 7: the heat exchanger 7 that the new wind of precooling is installed in the sweat cooling unit of embodiment 11, the delivery port of evaporation packing section 6 communicates with the water inlet of heat exchanger 7, and the water inlet of the delivery port of heat exchanger 7 and evaporation packing section 6 communicates.Outdoor new wind first passes through the wet cooling such as grade of heat exchanger 7, after the cooling of the constant enthalpy through the pervaporation filler, sends into indoor.
embodiment 12:
as shown in Figure 14, embodiment 12 is with the difference of embodiment 8: the heat exchanger 7 that the new wind of precooling is installed in the sweat cooling unit of embodiment 12, the delivery port of evaporation packing section 6 communicates with the water inlet of heat exchanger 7, and the water inlet of the delivery port of heat exchanger 7 and evaporation packing section 6 communicates.Outdoor new wind first passes through the wet cooling such as grade of heat exchanger 7, after the cooling of the constant enthalpy through the pervaporation filler, sends into indoor.
embodiment 13:
as shown in Figure 15, embodiment 13 is with the difference of embodiment 9: the horizontal air of embodiment 13 is processed in unit has fan heater or/and screen pack 9.After outdoor new wind first filters by screen pack, through cooling or heating, sending into indoor.Horizontal air is processed in unit existing public fan heater 8, after the air-supply heating, send in the winter time indoor, can ventilation or bear the thermic load in room.
embodiment 14:
as shown in Figure 16, embodiment 14 is with the difference of embodiment 10: the horizontal air of embodiment 14 is processed in unit has fan heater or/and screen pack 9.After outdoor new wind first filters by screen pack, through cooling or heating, sending into indoor.Horizontal air is processed in unit existing public fan heater 8, after the air-supply heating, send in the winter time indoor, can ventilation or bear the thermic load in room.
embodiment 15:
as shown in Figure 17, embodiment 15 is with the difference of embodiment 11: the horizontal air of embodiment 15 is processed in unit has fan heater or/and screen pack 9.After outdoor new wind first filters by screen pack, through cooling or heating, sending into indoor.Horizontal air is processed in unit existing public fan heater 8, after the air-supply heating, send in the winter time indoor, can ventilation or bear the thermic load in room.
embodiment 16:
as shown in Figure 18, embodiment 16 is with the difference of embodiment 12: the horizontal air of embodiment 16 is processed in unit has fan heater or/and screen pack 9.After outdoor new wind first filters by screen pack, through cooling or heating, sending into indoor.Horizontal air is processed in unit existing public fan heater 8, after the air-supply heating, send in the winter time indoor, can ventilation or bear the thermic load in room.
embodiment 17:
as shown in Figure 19, embodiment 17 is with the difference of embodiment 13: the import or export place of the exhaust blower 3 of embodiment 17 is provided with the condenser 11 of conventional compression-type refrigeration unit.Must hotly being taken away by indoor air draft of condenser 11, air draft outside discharge chamber before, can carry out the condenser of compression-type refrigeration unit air-cooled cooling, due to temperature of outgoing air lower than outdoor temperature, more conventional outdoor air-cooled condenser effect will be got well, thereby has improved the coefficient of performance of refrigeration machine.
embodiment 18:
as shown in Figure 20, embodiment 18 is with the difference of embodiment 13: the indoor exhaust wind of embodiment 18 has cold water to produce when pervaporation packing section 6, cold water is transported to heat exchanger 7, and the cold water after heat exchanger 7 temperature rises, in leading to condenser 11, is taken away obtaining of condenser 11 hot.The cold water that obtains hot process heat exchanger 7 of condenser 11, before entering the filler processing, can carry out cooling by water to the condenser of compression-type refrigeration unit, makes the cold of cold water discharge maximization, thereby has improved the coefficient of performance of refrigeration machine.
embodiment 19:
as shown in Figure 21, embodiment 19 is with the difference of embodiment 1 to embodiment 18: the window formula attemperator 15 of embodiment 19 can be existing public rotary shaft sash, the cubicle switcher 16 that can open the window formula attemperator that maybe can close can be installed on window 20, and this cubicle switcher 16 is link-type.
embodiment 20:
as shown in Figure 22, embodiment 20 is with the difference of embodiment 1 to embodiment 18: the window formula attemperator 15 of embodiment 20 can be existing public plug-type sash.
embodiment 21:
as shown in Figure 23, embodiment 21 is with the difference of embodiment 1 to embodiment 18: the window formula attemperator 15 of embodiment 21 can be existing public thermal insulating door thermally insulated door.
embodiment 22:
as shown in Figure 24, embodiment 22 is with the difference of embodiment 1 to embodiment 18: the window formula attemperator 15 of embodiment 22 can be existing public insulation airtight valve.
in the above-described embodiments, can do according to actual needs following preferably:
horizontal air is processed in unit can existing public fan heater.
the import at air intake place be positioned at the air draft cavity top or/and the middle part of air draft cavity or/and the bottom of air draft cavity or/and the side of air draft cavity, the outlet of air draft place be positioned at the air draft cavity top or/and the middle part of air draft cavity or/and the bottom of air draft cavity or/and the side of air draft cavity, this air draft place communicates with exhaust outlet.
cubicle switcher can be existing public link-type.
interior spacer assembly towards sunny side, reflectance coating is arranged, thereby the solar radiation major part is reflected back to external environment.
interior spacer assembly adopts mobilizable soft material.
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.
in sum, for building energy saving field, window is the important channel that reduces building energy consumption, on the basis that guarantees the good daylighting function that window should have, strengthen and improve the comprehensive thermal property of window and air-tightness, with rational structure with the heat-insulating property that improves window and the heat-proof quality of radiation to external world, improve the air-tightness of window itself, build rational indoor exhaust wind gas channel, the load that direct or indirect step deep exploitation forms to reduce window to the air draft cold, and realize the function of indoor and outdoor ventilation, reduce outdoor noise to indoor impact, the moderate control area ratio of window to wall, this is one of main effect of reaching of the utility model.

Claims (130)

1. the horizontal unit heat extraction aircondition that combines with window, it is characterized in that, in the window opening of architectural exterior-protecting construction, window is installed, opening of window, maybe can close be no less than a window formula attemperator installed inside have horizontal air process unit and and other sash and window frame between junction mutually seal, and the fresh wind port of horizontal air processing unit leads to the outside, the air outlet that horizontal air is processed unit communicates with indoor; Horizontal air is processed on unit the exhaust outlet communicated with the outside; There is interior spacer assembly the window inboard, water conservancy diversion bracing or strutting arrangement with holes is arranged between spacer assembly and window in this, being formed with the gas channel that is no less than one deck in this between spacer assembly and window is the air draft cavity, and this air draft cavity has air intake place and air draft place, and this air draft place communicates with exhaust outlet; It is that conventional compression-type refrigeration unit is or/and the sweat cooling unit is equipped with the cubicle switcher that can open the window formula attemperator that maybe can close on window that horizontal air is processed unit.
2. the horizontal unit heat extraction aircondition that combines with window according to claim 1, is characterized in that the air intake place of air draft cavity is equipped with the evaporation packing section.
3. the horizontal unit heat extraction aircondition that combines with window according to claim 2, it is characterized in that being equipped with in the sweat cooling unit heat exchanger of the new wind of precooling, the delivery port of evaporation packing section communicates with the water inlet of heat exchanger, and the water inlet of the delivery port of heat exchanger and evaporation packing section communicates.
4. according to claim 1 or the 2 or 3 described horizontal unit heat extraction airconditions that combine with window, it is characterized in that the exhaust outlet place is equipped with exhaust blower.
5. according to claim 1 or the 2 or 3 described horizontal unit heat extraction airconditions that combine with window, it is characterized in that the import or export place of exhaust blower is provided with the condenser of conventional compression-type refrigeration unit.
6. the horizontal unit heat extraction aircondition that combines with window according to claim 4, is characterized in that the import or export place of exhaust blower is provided with the condenser of conventional compression-type refrigeration unit.
7. according to claim 1 or the 2 or 3 described horizontal unit heat extraction airconditions that combine with window, the import that it is characterized in that the air intake place be positioned at the air draft cavity top or/and the middle part of air draft cavity or/and the bottom of air draft cavity or/and the side of air draft cavity, the outlet of air draft place be positioned at the air draft cavity top or/and the middle part of air draft cavity or/and the bottom of air draft cavity or/and the side of air draft cavity, this air draft place communicates with exhaust outlet.
8. according to claim or the 4 described horizontal unit heat extraction airconditions that combine with window, the import that it is characterized in that the air intake place be positioned at the air draft cavity top or/and the middle part of air draft cavity or/and the bottom of air draft cavity or/and the side of air draft cavity, the outlet of air draft place be positioned at the air draft cavity top or/and the middle part of air draft cavity or/and the bottom of air draft cavity or/and the side of air draft cavity, this air draft place communicates with exhaust outlet.
9. the horizontal unit heat extraction aircondition that combines with window according to claim 5, the import that it is characterized in that the air intake place be positioned at the air draft cavity top or/and the middle part of air draft cavity or/and the bottom of air draft cavity or/and the side of air draft cavity, the outlet of air draft place be positioned at the air draft cavity top or/and the middle part of air draft cavity or/and the bottom of air draft cavity or/and the side of air draft cavity, this air draft place communicates with exhaust outlet.
10. the horizontal unit heat extraction aircondition that combines with window according to claim 6, the import that it is characterized in that the air intake place be positioned at the air draft cavity top or/and the middle part of air draft cavity or/and the bottom of air draft cavity or/and the side of air draft cavity, the outlet of air draft place be positioned at the air draft cavity top or/and the middle part of air draft cavity or/and the bottom of air draft cavity or/and the side of air draft cavity, this air draft place communicates with exhaust outlet.
11., according to claim 1 or the 2 or 3 described horizontal unit heat extraction airconditions that combine with window, it is characterized in that between interior spacer assembly and window being equipped with the water conservancy diversion gripper shoe of many.
12. the horizontal unit heat extraction aircondition that combines with window according to claim 4, is characterized in that between interior spacer assembly and window being equipped with the water conservancy diversion gripper shoe of many.
13. the horizontal unit heat extraction aircondition that combines with window according to claim 5, is characterized in that between interior spacer assembly and window being equipped with the water conservancy diversion gripper shoe of many.
14. the horizontal unit heat extraction aircondition that combines with window according to claim 6, is characterized in that between interior spacer assembly and window being equipped with the water conservancy diversion gripper shoe of many.
15. the horizontal unit heat extraction aircondition that combines with window according to claim 7, is characterized in that between interior spacer assembly and window being equipped with the water conservancy diversion gripper shoe of many.
16. the horizontal unit heat extraction aircondition that combines with window according to claim 8, is characterized in that between interior spacer assembly and window being equipped with the water conservancy diversion gripper shoe of many.
17. the horizontal unit heat extraction aircondition that combines with window according to claim 9, is characterized in that between interior spacer assembly and window being equipped with the water conservancy diversion gripper shoe of many.
18. the horizontal unit heat extraction aircondition that combines with window according to claim 10, is characterized in that between interior spacer assembly and window being equipped with the water conservancy diversion gripper shoe of many.
19., according to claim 1 or the 2 or 3 described horizontal unit heat extraction airconditions that combine with window, it is characterized in that fan heater being arranged or/and screen pack in horizontal air processing unit.
20. the horizontal unit heat extraction aircondition that combines with window according to claim 4, is characterized in that horizontal air processes in unit and fan heater is arranged or/and screen pack.
21. the horizontal unit heat extraction aircondition that combines with window according to claim 5, is characterized in that horizontal air processes in unit and fan heater is arranged or/and screen pack.
22. the horizontal unit heat extraction aircondition that combines with window according to claim 6, is characterized in that horizontal air processes in unit and fan heater is arranged or/and screen pack.
23. the horizontal unit heat extraction aircondition that combines with window according to claim 7, is characterized in that horizontal air processes in unit and fan heater is arranged or/and screen pack.
24. the horizontal unit heat extraction aircondition that combines with window according to claim 8, is characterized in that horizontal air processes in unit and fan heater is arranged or/and screen pack.
25. the horizontal unit heat extraction aircondition that combines with window according to claim 9, is characterized in that horizontal air processes in unit and fan heater is arranged or/and screen pack.
26. the horizontal unit heat extraction aircondition that combines with window according to claim 10, is characterized in that horizontal air processes in unit and fan heater is arranged or/and screen pack.
27. the horizontal unit heat extraction aircondition that combines with window according to claim 11, is characterized in that horizontal air processes in unit and fan heater is arranged or/and screen pack.
28. the horizontal unit heat extraction aircondition that combines with window according to claim 12, is characterized in that horizontal air processes in unit and fan heater is arranged or/and screen pack.
29. the horizontal unit heat extraction aircondition that combines with window according to claim 13, is characterized in that horizontal air processes in unit and fan heater is arranged or/and screen pack.
30. the horizontal unit heat extraction aircondition that combines with window according to claim 14, is characterized in that horizontal air processes in unit and fan heater is arranged or/and screen pack.
31. the horizontal unit heat extraction aircondition that combines with window according to claim 15, is characterized in that horizontal air processes in unit and fan heater is arranged or/and screen pack.
32. the horizontal unit heat extraction aircondition that combines with window according to claim 16, is characterized in that horizontal air processes in unit and fan heater is arranged or/and screen pack.
33. the horizontal unit heat extraction aircondition that combines with window according to claim 17, is characterized in that horizontal air processes in unit and fan heater is arranged or/and screen pack.
34. the horizontal unit heat extraction aircondition that combines with window according to claim 18, is characterized in that horizontal air processes in unit and fan heater is arranged or/and screen pack.
35. according to claim 1 or the 2 or 3 described horizontal unit heat extraction airconditions that combine with window, it is characterized in that cubicle switcher is link-type.
36. the horizontal unit heat extraction aircondition that combines with window according to claim 4, is characterized in that cubicle switcher is link-type.
37. the horizontal unit heat extraction aircondition that combines with window according to claim 5, is characterized in that cubicle switcher is link-type.
38. the horizontal unit heat extraction aircondition that combines with window according to claim 6, is characterized in that cubicle switcher is link-type.
39. the horizontal unit heat extraction aircondition that combines with window according to claim 7, is characterized in that cubicle switcher is link-type.
40. the horizontal unit heat extraction aircondition that combines with window according to claim 8, is characterized in that cubicle switcher is link-type.
41. the horizontal unit heat extraction aircondition that combines with window according to claim 9, is characterized in that cubicle switcher is link-type.
42. the horizontal unit heat extraction aircondition that combines with window according to claim 10, is characterized in that cubicle switcher is link-type.
43. the horizontal unit heat extraction aircondition that combines with window according to claim 11, is characterized in that cubicle switcher is link-type.
44. the horizontal unit heat extraction aircondition that combines with window according to claim 12, is characterized in that cubicle switcher is link-type.
45. the horizontal unit heat extraction aircondition that combines with window according to claim 13, is characterized in that cubicle switcher is link-type.
46. the horizontal unit heat extraction aircondition that combines with window according to claim 14, is characterized in that cubicle switcher is link-type.
47. the horizontal unit heat extraction aircondition that combines with window according to claim 15, is characterized in that cubicle switcher is link-type.
48. the horizontal unit heat extraction aircondition that combines with window according to claim 16, is characterized in that cubicle switcher is link-type.
49. the horizontal unit heat extraction aircondition that combines with window according to claim 17, is characterized in that cubicle switcher is link-type.
50. the horizontal unit heat extraction aircondition that combines with window according to claim 18, is characterized in that cubicle switcher is link-type.
51. the horizontal unit heat extraction aircondition that combines with window according to claim 19, is characterized in that cubicle switcher is link-type.
52. the horizontal unit heat extraction aircondition that combines with window according to claim 20, is characterized in that cubicle switcher is link-type.
53. the horizontal unit heat extraction aircondition that combines with window according to claim 21, is characterized in that cubicle switcher is link-type.
54. the horizontal unit heat extraction aircondition that combines with window according to claim 22, is characterized in that cubicle switcher is link-type.
55. the horizontal unit heat extraction aircondition that combines with window according to claim 23, is characterized in that cubicle switcher is link-type.
56. the horizontal unit heat extraction aircondition that combines with window according to claim 24, is characterized in that cubicle switcher is link-type.
57. the horizontal unit heat extraction aircondition that combines with window according to claim 25, is characterized in that cubicle switcher is link-type.
58. the horizontal unit heat extraction aircondition that combines with window according to claim 26, is characterized in that cubicle switcher is link-type.
59. the horizontal unit heat extraction aircondition that combines with window according to claim 27, is characterized in that cubicle switcher is link-type.
60. the horizontal unit heat extraction aircondition that combines with window according to claim 28, is characterized in that cubicle switcher is link-type.
61. the horizontal unit heat extraction aircondition that combines with window according to claim 29, is characterized in that cubicle switcher is link-type.
62. the horizontal unit heat extraction aircondition that combines with window according to claim 30, is characterized in that cubicle switcher is link-type.
63. the horizontal unit heat extraction aircondition that combines with window according to claim 31, is characterized in that cubicle switcher is link-type.
64. the horizontal unit heat extraction aircondition that combines with window according to claim 32, is characterized in that cubicle switcher is link-type.
65. the horizontal unit heat extraction aircondition that combines with window according to claim 33, is characterized in that cubicle switcher is link-type.
66. the horizontal unit heat extraction aircondition that combines with window according to claim 34, is characterized in that cubicle switcher is link-type.
67., according to claim 1 or the 2 or 3 described horizontal unit heat extraction airconditions that combine with window, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 68. according to claim 4, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 69. according to claim 5, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 70. according to claim 6, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 71. according to claim 7, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 72. according to claim 8, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 73. according to claim 9, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 74. according to claim 10, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 75. according to claim 11, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 76. according to claim 12, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 77. according to claim 13, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 78. according to claim 14, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 79. according to claim 15, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 80. according to claim 16, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 81. according to claim 17, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 82. according to claim 18, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 83. according to claim 19, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 84. according to claim 20, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 85. according to claim 21, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 86. according to claim 22, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 87. according to claim 23, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 88. according to claim 24, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 89. according to claim 25, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 90. according to claim 26, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 91. according to claim 27, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 92. according to claim 28, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 93. according to claim 29, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 94. according to claim 30, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 95. according to claim 31, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 96. according to claim 32, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 97. according to claim 33, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 98. according to claim 34, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 99. according to claim 35, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
The horizontal unit heat extraction aircondition that combines with window 100. according to claim 36, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
101., according to the described horizontal unit heat extraction aircondition that combines with window of claim 37, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
102., according to the described horizontal unit heat extraction aircondition that combines with window of claim 38, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
103., according to the described horizontal unit heat extraction aircondition that combines with window of claim 39, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
104., according to the described horizontal unit heat extraction aircondition that combines with window of claim 40, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
105., according to the described horizontal unit heat extraction aircondition that combines with window of claim 41, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
106., according to the described horizontal unit heat extraction aircondition that combines with window of claim 42, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
107., according to the described horizontal unit heat extraction aircondition that combines with window of claim 43, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
108., according to the described horizontal unit heat extraction aircondition that combines with window of claim 44, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
109., according to the described horizontal unit heat extraction aircondition that combines with window of claim 45, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
110., according to the described horizontal unit heat extraction aircondition that combines with window of claim 46, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
111., according to the described horizontal unit heat extraction aircondition that combines with window of claim 47, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
112., according to the described horizontal unit heat extraction aircondition that combines with window of claim 48, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
113., according to the described horizontal unit heat extraction aircondition that combines with window of claim 49, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
114., according to the described horizontal unit heat extraction aircondition that combines with window of claim 50, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
115., according to the described horizontal unit heat extraction aircondition that combines with window of claim 51, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
116., according to the described horizontal unit heat extraction aircondition that combines with window of claim 52, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
117., according to the described horizontal unit heat extraction aircondition that combines with window of claim 53, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
118., according to the described horizontal unit heat extraction aircondition that combines with window of claim 54, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
119., according to the described horizontal unit heat extraction aircondition that combines with window of claim 55, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
120., according to the described horizontal unit heat extraction aircondition that combines with window of claim 56, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
121., according to the described horizontal unit heat extraction aircondition that combines with window of claim 57, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
122., according to the described horizontal unit heat extraction aircondition that combines with window of claim 58, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
123., according to the described horizontal unit heat extraction aircondition that combines with window of claim 59, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
124., according to the described horizontal unit heat extraction aircondition that combines with window of claim 60, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
125., according to the described horizontal unit heat extraction aircondition that combines with window of claim 61, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
126., according to the described horizontal unit heat extraction aircondition that combines with window of claim 62, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
127., according to the described horizontal unit heat extraction aircondition that combines with window of claim 63, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
128., according to the described horizontal unit heat extraction aircondition that combines with window of claim 64, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
129., according to the described horizontal unit heat extraction aircondition that combines with window of claim 65, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
130., according to the described horizontal unit heat extraction aircondition that combines with window of claim 66, what it is characterized in that interior spacer assembly has reflectance coating towards sunny side; Or and, interior spacer assembly adopts mobilizable soft material.
CN 201220635365 2012-11-28 2012-11-28 Horizontal unit heat removing air conditioner connected with window Expired - Lifetime CN202993424U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201220635365 CN202993424U (en) 2012-11-28 2012-11-28 Horizontal unit heat removing air conditioner connected with window

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201220635365 CN202993424U (en) 2012-11-28 2012-11-28 Horizontal unit heat removing air conditioner connected with window

Publications (1)

Publication Number Publication Date
CN202993424U true CN202993424U (en) 2013-06-12

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Family Applications (1)

Application Number Title Priority Date Filing Date
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103017271A (en) * 2012-11-28 2013-04-03 于向阳 Horizontal-type unit heat removal air-conditioning device combined with window
CN103398422A (en) * 2013-07-23 2013-11-20 于向阳 Fresh air unit with surface heat exchanger, and passive cooling air conditioner comprising same
CN103398435A (en) * 2013-07-23 2013-11-20 于向阳 Fresh air unit with terminal device, and passive cooling air conditioner comprising same

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103017271A (en) * 2012-11-28 2013-04-03 于向阳 Horizontal-type unit heat removal air-conditioning device combined with window
CN103017271B (en) * 2012-11-28 2015-08-26 于向阳 Combine with window horizontal unit heat extraction aircondition
CN103398422A (en) * 2013-07-23 2013-11-20 于向阳 Fresh air unit with surface heat exchanger, and passive cooling air conditioner comprising same
CN103398435A (en) * 2013-07-23 2013-11-20 于向阳 Fresh air unit with terminal device, and passive cooling air conditioner comprising same
CN103398435B (en) * 2013-07-23 2016-08-10 于向阳 The new wind unit of end of tape device and passive type cooling air-conditioning device thereof

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