CN201251242Y

CN201251242Y - Window-type air conditioning device

Info

Publication number: CN201251242Y
Application number: CNU2008203012513U
Authority: CN
Inventors: 李越峰; 陈俊智; 王晰
Original assignee: Sichuan Changhong Electric Co Ltd
Current assignee: Sichuan Changhong Air Conditioner Co Ltd
Priority date: 2008-06-23
Filing date: 2008-06-23
Publication date: 2009-06-03
Anticipated expiration: 2018-06-23

Abstract

The utility model discloses a window-type air conditioning device with high heat transferring efficiency in the field of the air conditioner, which comprises an evaporator that is arranged at the inner side of the room and an condenser that is arranged at the outer side of the room, wherein, the evaporator adopts a flat-pipe heat exchanger, and the heat transferring surface of flat pipes in the flat-pipe heat exchanger is inclined from up to down along with the air discharging direction of the heat exchanger corresponding to the horizontal level. The evaporator adopts the flat-pipe heat exchanger, so that the condensed water flows out rapidly along with the inclined heat transferring surface of the flat pipes under the effect of the self weight and the wind force, thereby resolving the drainage problem of the condensed water of the flat-pipe heat exchanger, and improving the heat exchanging efficiency of the evaporator, and reducing the fluorine charging quantity, and reducing the cost of the air conditioning device.

Description

Window air conditioner

Technical field

The utility model relates to the air-conditioning equipment field, is specifically related to a kind of window air conditioner.

Background technology

Window air conditioner is a kind of single cold type air-conditioning.Existing window air conditioner structure as shown in Figure 1, mainly by: parts such as evaporimeter 1, centrifugal fan 2, fan electromotor 3, capillary 4, aerofoil fan 5, condenser 7, compressor 9, sound panel 10 are formed, sound panel 10 is separated into indoor 11 and outside 12 two parts with window air conditioner, evaporimeter 1 and centrifugal fan 2 are installed in the indoor 11, before evaporimeter 1 is positioned at the air inlet of centrifugal fan 2; Condenser 7 and aerofoil fan 5 are installed in the outside 12, before condenser 7 is positioned at the air outlet of aerofoil fan 5.This window air conditioner is when operation, evaporimeter 1 absorbs the heat of room air, makes the refrigerants vaporize in the evaporimeter 1, and cold-producing medium enters condenser 7 by compressor then, pass through condenser 7 air that the heat transferred of cold-producing medium is outdoor again, thereby realize the heat exchange of indoor-outdoor air.Can produce a large amount of condensate water in the surface during evaporimeter 1 operation, these condensate water are got rid of the back flows to aerofoil fan 5 by the groove of window air conditioner bottom below from evaporimeter 1, aerofoil fan 5 is rolled the condensate water 6 of its below and be splashed on the condenser 7 when rotated, quickens the heat of cold-producing medium in the absorptive condenser 7.

Evaporimeter 1 in the above-mentioned window air conditioner and condenser 7 all adopt copper aluminum pipe plate heat interchanger, owing to the volume that is subjected to window mounting structure restriction copper aluminum pipe plate heat interchanger can not be too big, cause the heat exchange efficiency of heat exchanger not high; And along with raw-material rises in price such as copper, the complete machine cost rises, and the market competitiveness of window air conditioner is declined to a great extent.On the other hand, the flat pipe heat exchanger of all aluminium alloy manufacturing is compared with the copper aluminum pipe plate heat interchanger with the volume size, has the heat exchange efficiency height, fills few, the low cost and other advantages of fluorine amount.Existing flat pipe heat exchanger mainly comprises parts such as flat tube, left collector, right collector, inlet tube, outlet, fin, wherein the two ends of flat tube are installed in respectively on left collector and the right collector, left side collector and right collector are parallel to each other, axially axially perpendicular with left collector and right collector of flat tube, the heat-transfer area of flat tube is parallel with horizontal plane.In a left side collector and the right collector dividing plate is installed, dividing plate is separated into several cavity volumes with left collector and right collector, and these cavity volumes are by the flat tube formation coolant channel of contacting, and inlet tube and outlet are separately positioned on the collector at coolant channel two ends.Because the heat-transfer area of flat tube is horizontal, the condensate water on the heat-transfer area is difficult for getting rid of, and causes the flat pipe heat exchanger heat transfer efficiency to worsen rapidly.Therefore, need solve the queueing problem of condensate water with flat pipe heat exchanger instead of copper aluminum pipe plate heat interchanger.

The utility model content

The technical problem that the utility model solved is: provide a kind of heat transfer efficiency high window air conditioner.

The technical scheme that solves the problems of the technologies described above is: window air conditioner, comprise evaporimeter that is arranged in the indoor and the condenser that is arranged in the outside, evaporimeter adopts flat pipe heat exchanger, and the heat-transfer area of flat tube from top to bottom tilts along the relative horizontal plane of air-out direction of heat exchanger in this flat pipe heat exchanger.

Further be, condenser adopts flat pipe heat exchanger, and the heat-transfer area of flat tube from top to bottom tilts along the relative horizontal plane of air-out direction of heat exchanger in this flat pipe heat exchanger.

Preferred version as technique scheme, parallel to each other and the vertical installation of left collector in each flat pipe heat exchanger and right collector, axially axially perpendicular with left collector and right collector of flat tube, flat tube tilt to be installed in to make on left collector and the right collector angle between heat-transfer area and left collector or right collector axial greater than 0 ° and less than 90 °.

Further be that flat pipe heat exchanger all adopts aluminium alloy to make.

Further be all to adopt flat pipe heat exchanger through hydrophilic treated.

The beneficial effects of the utility model are: evaporimeter adopts flat pipe heat exchanger, the condensate water that flat pipe heat exchanger produced flows out rapidly at the heat-transfer area that the effect lower edge of self gravitation and wind-force flat tube tilts, solved the problem that the flat pipe heat exchanger condensate water is got rid of, improved the heat exchange efficiency of evaporimeter, and reduced the fluorine amount of filling, reduced the complete machine cost; Condenser adopts flat pipe heat exchanger, the condensate water that aerofoil fan is splashed on the condenser when rotated flows out rapidly at the inclination heat-transfer area of the effect lower edge of self gravitation and wind-force flat tube, solve the problem that the flat pipe heat exchanger condensate water is got rid of, improved the heat exchange efficiency of condenser.Flat pipe heat exchanger all adopts aluminium alloy to make, and significantly reduces the copper material consumption of air conditioner, reduces production costs; Flat pipe heat exchanger can improve its ability of getting rid of condensate water after hydrophilic treated.

Description of drawings

Fig. 1 is the structural representation of existing window air conditioner.

Fig. 2 is the structural representation of the utility model window air conditioner.

Fig. 3 is the structural representation of flat pipe heat exchanger in the utility model window air conditioner.

Fig. 4 be among Fig. 3 A-A to cutaway view.

Be labeled as among the figure: evaporimeter 1, centrifugal fan 2, fan electromotor 3, capillary 4, aerofoil fan 5, condensate water 6, condenser 7, compressor 9, sound panel 10, indoor 11, outside 12, left collector 13, inlet tube 14, outlet 15, right collector 16, heat-transfer area 17, flat tube 18, fin 19.

Direction shown in the arrow is a wind direction among Fig. 4.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is described further.

As Fig. 2～window air conditioner shown in Figure 4, comprise evaporimeter 1 that is arranged in indoor 11 and the condenser 7 that is arranged in outside 12, evaporimeter 1 adopts flat pipe heat exchanger, and the heat-transfer area 17 of flat tube 18 from top to bottom tilts along the relative horizontal plane of air-out direction of heat exchanger in this flat pipe heat exchanger.Before evaporimeter 1 is installed in the air inlet of centrifugal fan 2, evaporimeter 1 adopts flat pipe heat exchanger, the condensate water that flat pipe heat exchanger produced flows out rapidly at the heat-transfer area 17 that the effect lower edge of self gravitation and wind-force flat tube 18 tilts, solved the problem that the flat pipe heat exchanger condensate water is got rid of, improved the heat exchange efficiency of evaporimeter 1, and reduced the fluorine amount of filling, reduced the complete machine cost.

In addition, condenser 7 also can adopt flat pipe heat exchanger, and the heat-transfer area 17 of flat tube 18 from top to bottom tilts along the relative horizontal plane of air-out direction of heat exchanger in this flat pipe heat exchanger.Before condenser 7 is installed in the air outlet of aerofoil fan 5, owing to can produce a large amount of condensate water in the surface during evaporimeter 1 operation, these condensate water are got rid of the back flows to aerofoil fan 5 by the groove of window air conditioner bottom below from evaporimeter 1, aerofoil fan 5 is rolled the condensate water 6 of its below and be splashed on the condenser 7 when rotated, can quicken the heat of cold-producing medium in the absorptive condenser 7, improve the heat exchange efficiency of condenser 7.After condenser 7 adopts flat pipe heat exchanger, flat pipe heat exchanger itself has the heat exchange efficiency height, fills few, the low cost and other advantages of fluorine amount, and the heat-transfer area 17 of flat tube 18 from top to bottom tilts along the relative horizontal plane of air-out direction of heat exchanger in this flat pipe heat exchanger, the condensate water that is splashed on the condenser 7 flows out rapidly at the heat-transfer area 17 that the effect lower edge of self gravitation and wind-force flat tube 18 tilts, and can not be deposited on the heat-transfer area 17 of flat tube 18 influences heat exchange.

As Fig. 3 and Fig. 4, for the heat-transfer area 17 that makes flat tube 18 in each flat pipe heat exchanger relative horizontal plane of air-out direction along heat exchanger from top to bottom tilts, left collector 13 and right collector 16 parallel to each other and vertical installations in each flat pipe heat exchanger, axially axially perpendicular with left collector 13 and right collector 16 of flat tube 18, flat tube 18 tilt to be installed in to make on left collector 13 and the right collector 16 angle α between heat-transfer area 17 and left collector 13 or right collector 16 axial greater than 0 ° and less than 90 °.Flat pipe heat exchanger comprises parts such as inlet tube 14, outlet 15, left collector 13, right collector 16, fin 19, flat tube 18 among Fig. 3, be provided with dividing plate in wherein left collector 13 and the right collector 16, dividing plate is separated into several cavity volumes with left collector 13 and right collector 16, these cavity volumes get up to form coolant channel by flat tube 18 polyphones, inlet tube 14 and outlet 16 are separately positioned on the collector at coolant channel two ends, fin 19 is arranged between the flat tube 18, and welds with flat tube 18.After flat pipe heat exchanger is installed, left side collector 13 vertically is provided with right collector 16, owing to tilt to be installed in to make on left collector 13 and the right collector 14 angle α between heat-transfer area 17 and left collector 13 or right collector 16 axial greater than 0 ° and less than 90 ° flat tube 18, like this, the heat-transfer area 17 of flat tube 18 from top to bottom tilts along the relative horizontal plane of air-out direction of heat exchanger, solves the problem that the flat pipe heat exchanger condensate water is got rid of.

In order to reduce the production cost of flat pipe heat exchanger, flat pipe heat exchanger all adopts aluminium alloy to make.Like this, can reduce the copper material consumption of air conditioner, reduce the whole cost of air-conditioner.

In addition, flat pipe heat exchanger preferably all adopts the flat pipe heat exchanger through hydrophilic treated, further improves the ability that flat pipe heat exchanger is got rid of condensate water.Hydrophilic treatment method is a prior art, purpose is to form one deck hydrophilic film material at the heat exchanger outer surface, can evacuate rapidly when condensate water appears at this heat exchange surface, is difficult for shape water bridge, the heat that reduces between air and the cold-producing medium is transmitted resistance, thereby improves heat exchange efficiency.

Claims

[claim 1] window air conditioner, comprise evaporimeter (1) that is arranged in indoor (11) and the condenser (7) that is arranged in outside (12), it is characterized in that: evaporimeter (1) adopts flat pipe heat exchanger, and the heat-transfer area (17) of flat tube in this flat pipe heat exchanger (18) from top to bottom tilts along the relative horizontal plane of air-out direction of heat exchanger.
[claim 2] window air conditioner as claimed in claim 1 is characterized in that: condenser (7) adopts flat pipe heat exchanger, and the heat-transfer area (17) of flat tube in this flat pipe heat exchanger (18) from top to bottom tilts along the relative horizontal plane of air-out direction of heat exchanger.
[claim 3] window air conditioner as claimed in claim 1 or 2, it is characterized in that: left collector (13) in each flat pipe heat exchanger and the parallel to each other and vertical installation of right collector (16), axially axially perpendicular with left collector (13) and right collector (16) of flat tube (18), flat tube (18) tilt to be installed in to make on left collector (13) and the right collector (16) angle (α) between heat-transfer area (17) and left collector (13) or right collector (16) axial greater than 0 ° and less than 90 °.
[claim 4] window air conditioner as claimed in claim 1 or 2 is characterized in that: flat pipe heat exchanger all adopts aluminium alloy to make.
[claim 5] window air conditioner as claimed in claim 1 or 2 is characterized in that: all adopt the flat pipe heat exchanger through hydrophilic treated.