CN205505203U - air conditioner - Google Patents

Abstract

The utility model provides an air conditioner. The air conditioner includes: an indoor evaporator; and an indoor condenser disposed at a downstream position through which condensed water generated from the air passing through the indoor evaporator flows so that the condensed water flows through the indoor condenser. When the air flow passes through the indoor evaporator, moisture in the air is condensed into low-temperature condensed water on the indoor evaporator, the condensed water flows through the indoor condenser, and the condensed water directly exchanges heat with the indoor condenser indoors. Because the condensate water does not exchange heat with the hot air on the outside when indoor, the cold volume that contains is high, and the heat transfer is more abundant when exchanging heat with indoor condenser, and energy-conserving effect is better.

Description

Air-conditioner

Technical field

This utility model relates to filed of air conditioning, in particular to a kind of air-conditioner.

Background technology

At present during window air conditioner refrigerating operaton, when refrigeration system is run, moisture when air flows through pervaporation device, in air Condensing into the condensed water of low temperature on an evaporator, condensed water falls under gravity into drip tray, then flows on the chassis of outside. Condensed water is successively thrown on condenser by outside axial-flow leaf hydrosphere, thus improves the heat transfer effect of condenser, improves The refrigeration performance of air-conditioner, reaches energy-conservation purpose.Heated by the external world owing to condensed water flows to the process of outside from indoor, temperature Degree raises relatively big, and major part cold is wasted in intermediate links, causes energy-saving effect the most abundant.

Utility model content

Main purpose of the present utility model is to provide a kind of air-conditioner, is wasted in intermediate links solving cold in prior art, Cause energy-saving effect not sufficiently technical problem.

To achieve these goals, according to this utility model, it is provided that a kind of air-conditioner, including: indoor evaporator；Indoor cold Condenser, is arranged at the downstream position of the condensation flow warp that air produces through indoor evaporator so that condensation flow is through indoor condenser.

Further, air-conditioner also includes: drip tray, is arranged at the lower section of indoor evaporator, for access humid air through room The condensed water that interior vaporizer produces.

Further, indoor condenser is arranged at the lower section of indoor evaporator.

Further, indoor evaporator is arranged on the upper end of drip tray.

Further, indoor condenser is arranged in drip tray.

Further, the degree of depth of drip tray is higher than the height of indoor condenser.

Further, air-conditioner also includes: thermal insulation board, and thermal insulation board is arranged between indoor evaporator and indoor condenser.

Further, thermal insulation board has conduction hole so that condensed water to be drained to indoor condenser.

Further, conduction hole is offered along the above-below direction of thermal insulation board.

Further, conduction hole is multiple, and multiple conduction holes are evenly spaced apart to arrange.

Further, air-conditioner also includes: outdoor condenser, and outdoor condenser is connected with indoor condenser.

Further, air-conditioner also includes: compressor, and compressor is connected with indoor evaporator and outdoor condenser respectively.

The air-conditioner of application technical solutions of the utility model, air stream moisture in indoor evaporator, air is in indoor steaming Sending out the condensed water condensing into low temperature on device, condensation flow is through indoor condenser, and condensed water is directly carried out with indoor condenser in indoor Heat exchange.Owing to condensed water does not has the hot-air heat exchange with outside when indoor, the cold contained is high, changes with indoor condenser During heat, heat exchange is more abundant, and energy-saving effect is more preferably.

Accompanying drawing explanation

The Figure of description of the part constituting the application is used for providing being further appreciated by of the present utility model, of the present utility model Schematic description and description is used for explaining this utility model, is not intended that improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 shows the structural representation according to air-conditioner of the present utility model.

Wherein, above-mentioned accompanying drawing includes the following drawings labelling:

10, indoor evaporator；20, drip tray；30, indoor condenser；40, thermal insulation board；41, conduction hole；50, outdoor Condenser；60, compressor；70, capillary tube；80, connecting tube；90, exhaustor；100, suction nozzle.

Detailed description of the invention

It should be noted that in the case of not conflicting, the embodiment in the application and the feature in embodiment can be mutually combined. Describe this utility model below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

As it is shown in figure 1, this utility model provides a kind of air-conditioner.

Specifically, this air-conditioner includes indoor evaporator 10 and indoor condenser 30.Indoor condenser 30 is arranged at air and passes through The downstream position of the condensation flow warp that indoor evaporator 10 produces, so that condensation flow is through indoor condenser 30.

Air stream is when indoor evaporator 10, and the moisture in air condenses into the condensed water of low temperature in indoor evaporator 10, Condensation flow is through indoor condenser 30, and condensed water directly carries out heat exchange with indoor condenser 30 in indoor.Owing to condensed water is in room Not having the hot-air heat exchange with outside during inner side, the cold contained is high, more abundant with heat exchange during indoor condenser 30 heat exchange, joint Can be better.Such condenser heat exchange mode, makes full use of the cooling effect of condensed water, and refrigerating capacity improves 2%～5%, EER improves 0.1W/W～0.2W/W.Applying on 12K window formula air-conditioner, compared with equal cost air-conditioner, refrigerating capacity carries High 60W, EER improve 0.1W/W.

Air-conditioner also includes drip tray 20, is arranged at the lower section of indoor evaporator 10, for access humid air through indoor evaporator 10 condensed waters produced.

As it is shown in figure 1, indoor condenser 30 is arranged at the lower section of indoor evaporator 10.

Preferably, indoor condenser 30 is arranged in drip tray 20.And then ground, the degree of depth of drip tray 20 is higher than indoor condenser The height of 30.Indoor uses the drip tray 20 in the present embodiment, steams in the first half of drip tray 20 such as upper end supported chamber Send out device 10 and collect condensed water, lower half holding chamber inner condenser 30.

Air-conditioner also includes that thermal insulation board 40, thermal insulation board 40 are arranged between indoor evaporator 10 and indoor condenser 30.Indoor steaming Send out device 10 to separate with indoor condenser 30 thermal insulation board 40, it is to avoid the heat that indoor condenser 30 produces is inhaled into air channel impact Refrigeration.Specifically, thermal insulation board 40 prevents the indoor evaporator 10 of low temperature from directly carrying out heat with the indoor condenser 30 of high temperature Exchange, prevents the air heating to being inhaled into air channel, inner side of the indoor condenser 30.Thermal insulation board uses the material of good effect of heat insulation, Such as foam, EVA sponge etc..

Preferably, thermal insulation board 40 has conduction hole 41 so that condensed water to be drained to indoor condenser 30.Indoor evaporator 10 and room Thermal insulation board 40 between inner condenser 30 has conduction hole 41, allows condensed water flow to drip tray 20 from indoor evaporator 10, and Being accumulated to certain altitude in the groove of drip tray 20 and just can flow to outside, indoor condenser 30 is immersed in condensed water, makes Obtain heat exchange more abundant.

Further, conduction hole 41 is offered along the above-below direction of thermal insulation board 40.Conduction hole 41 is multiple, multiple conduction holes 41 It is evenly spaced apart to arrange.

Further, air-conditioner also includes that outdoor condenser 50, outdoor condenser 50 are connected with indoor condenser 30.Outdoor Condenser 50 is individually positioned in indoor and outside with indoor condenser 30 and carries out heat exchange.Outdoor condenser 50 is in outside Carry out air-cooled heat exchange by fan blade and the external world and fan blade hydrosphere is fetched water and carried out water-cooled heat exchange, then by the room inside copper pipe junction chamber Inner condenser 30, indoor condenser 30 is placed on the such as bottom, lower section of indoor evaporator 10, and indoor condenser 30 is evaporated by indoor The direct sprinkle of condensed water of device 10 generation and immersion, the cold avoiding condensed water to lose in intermediate links to the full extent, improve cold Condenser heat transfer effect, improves complete machine efficiency, reduces complete machine cost.In addition the cooling effect of condensed water makes compression ratio reduce, cold Solidifying temperature and condensing pressure reduce, and delivery temperature reduces, and are conducive to extending the service life of air-conditioner.

Air-conditioner also includes compressor 60, and compressor 60 is connected with indoor evaporator 10 and outdoor condenser 50 respectively.

As it is shown in figure 1, indoor evaporator 10 is connected with indoor condenser 30 by capillary tube 70, indoor condenser 30 passes through Connecting tube 80 is connected with outdoor condenser 50, and outdoor condenser 50 is connected by exhaustor 90 with compressor 60, compressor 60 It is connected with indoor evaporator 10 further through suction nozzle 100, finally constitutes the refrigeration system of complete set.Meanwhile, indoor condenser In 30 grooves being placed on drip tray 20, with the thermal insulation board of band conduction hole 41 between indoor condenser 30 and indoor evaporator 10 40 separate, and are finally combined into economical air conditioner.

When air-conditioner runs, refrigerant compression is become high pressure high temperature vapor by compressor 60, is discharged to outdoor condenser 50, at axial flow wind Under fan effect, outdoor air flows through outdoor condenser 50 and is drained by cold-producing medium liberated heat, makes high compressed steam be condensed into high pressure liquid State cold-producing medium, then enter indoor condenser 30 through connecting tube 80, indoor condenser 30 proceeds strengthening with condensation at low temperature water Heat exchange so that refrigerant liquefaction is more abundant, and degree of supercooling is lower.Cold-producing medium, again after capillary tube 70 reducing pressure by regulating flow, enters room Interior vaporizer 110 evaporates atmospheric heat in absorption chamber, under fan effect, Cryogenic air is blown into indoor.Then gaseous refrigerant It is inhaled into again compressor 60, constantly repeats said process and carry out kind of refrigeration cycle.

Meanwhile, the steam in air can form condensed water in indoor evaporator 10 surface condensation, and condensed water is in action of gravity Drop on thermal insulation board 40, poured again on indoor condenser 30 by the conduction hole 41 of thermal insulation board 40, and collect in holding chamber In the groove of the drip tray 20 of inner condenser 30, flow to again after accumulative certain altitude on the chassis of outside.Owing to condenser divides For two parts, the outdoor condenser 50 of outside is substantially carried out air-cooled heat exchange, and high-temperature high-pressure refrigerant is at outdoor condenser 50 Entered the indoor condenser 30 of indoor after completing heat exchange again by connecting tube 80, indoor condenser 30 is immersed in condensed water Row water-cooled heat exchange.It is the least that condensed water flows to temperature rise time on drip tray 20 from indoor evaporator 10, and the heat exchange with environment is damaged Lose the least, therefore indoor condenser 30 can fully and the condensed water of low temperature carries out heat exchange, reduction condensation temperature and condensing pressure, Improve degree of supercooling, thus improve refrigerating capacity and the Energy Efficiency Ratio of air-conditioner.

As can be seen from the above description, this utility model the above embodiments achieve following technique effect:

Air stream moisture in indoor evaporator, air condenses into the condensed water of low temperature, condensed water in indoor evaporator Flowing through indoor condenser, condensed water directly carries out heat exchange with indoor condenser in indoor.Owing to condensed water does not has when indoor With the hot-air heat exchange in outside, the cold contained is high, and more abundant with heat exchange during indoor condenser heat exchange, energy-saving effect is more preferably.

The foregoing is only preferred embodiment of the present utility model, be not limited to this utility model, for this area For technical staff, this utility model can have various modifications and variations.All within spirit of the present utility model and principle, institute Any modification, equivalent substitution and improvement etc. made, within should be included in protection domain of the present utility model.

Claims (12)

1. an air-conditioner, it is characterised in that including:

Indoor evaporator (10)；

Indoor condenser (30), is arranged at the downstream of the condensation flow warp that air produces through described indoor evaporator (10) Position is so that described condensation flow is through described indoor condenser (30).

Air-conditioner the most according to claim 1, it is characterised in that described air-conditioner also includes:

Drip tray (20), is arranged at the lower section of described indoor evaporator (10), for access humid air through described indoor The condensed water that vaporizer (10) produces.

Air-conditioner the most according to claim 2, it is characterised in that described indoor condenser (30) is arranged at described indoor steaming Send out the lower section of device (10).

Air-conditioner the most according to claim 3, it is characterised in that described indoor evaporator (10) is arranged at described drip tray (20) on upper end.

Air-conditioner the most according to claim 4, it is characterised in that described indoor condenser (30) is arranged at described drip tray (20) in.

Air-conditioner the most according to claim 5, it is characterised in that the degree of depth of described drip tray (20) is cold higher than described indoor The height of condenser (30).

Air-conditioner the most according to claim 1, it is characterised in that described air-conditioner also includes:

Thermal insulation board (40), described thermal insulation board (40) is arranged at described indoor evaporator (10) and described indoor condenser (30) Between.

Air-conditioner the most according to claim 7, it is characterised in that described thermal insulation board (40) has conduction hole (41) to incite somebody to action Described condensed water is drained to described indoor condenser (30).

Air-conditioner the most according to claim 8, it is characterised in that described conduction hole (41) is along described thermal insulation board (40) Above-below direction is offered.

Air-conditioner the most according to claim 8, it is characterised in that described conduction hole (41) is multiple, multiple described drains Hole (41) is evenly spaced apart to arrange.

11. air-conditioners according to claim 1, it is characterised in that described air-conditioner also includes:

Outdoor condenser (50), described outdoor condenser (50) is connected with described indoor condenser (30).

12. air-conditioners according to claim 11, it is characterised in that described air-conditioner also includes:

Compressor (60), described compressor (60) respectively with described indoor evaporator (10) and described outdoor condenser (50) It is connected.