CN203550037U - Air conditioner capable of improving indoor heating capacity - Google Patents

Abstract

The utility model discloses an air conditioner capable of improving indoor heating capacity. A container device used for containing a heat storage solvent absorbing heat released by a compressor is arranged on the compressor, a first heat exchange device used for containing a refrigerant absorbing heat from the heat storage solvent is arranged in the container device, a second heat exchange device is arranged in an indoor unit and connected with the first heat exchange device to form a loop, and a driving device is arranged on the loop and used for driving the refrigerant to circularly move in the loop to deliver the refrigerant, absorbing the heat from the heat storage solvent, in the first heat exchange device to the second heat exchange device to release the heat. The heat released by the compressor is delivered into a room by driving the refrigerant to circularly move in the loop, so that recycling utilization of the heat released by the compressor is realized, overall heating capacity of the air conditioner is improved, and energy consumption is lowered.

Description

A kind of air-conditioner that improves indoor heating amount

Technical field

The utility model relates to air-conditioning technical field, is specifically related to a kind of air-conditioner that improves indoor heating amount.

Background technology

When user is when using air conditioner heat-production, wish can blow out rapidly a large amount of hot blasts after air-conditioner start, so that indoor temperature can raise fast, therefore the heating capacity of air-conditioner has reacted the heating effect of air-conditioner, but the heating capacity of heat pump type air conditioner is all limited, in order to reach faster heating effect, the general heating capacity that adopts the method for raising electrical power to improve air-conditioner, such as introducing auxiliary electrical heater mode etc., although adopt the method for raising electrical power to improve the heating capacity of air-conditioner, the consumption but this also increases electric power, thereby cause power consumption higher.

Utility model content

The purpose of this utility model is to provide a kind of air-conditioner that improves indoor heating amount, reduces energy resource consumption when being intended to improve air conditioner heat-production ability.

In order to realize the purpose of this utility model, the utility model provides a kind of air-conditioner that improves indoor heating amount, comprises indoor set and off-premises station, and off-premises station comprises compressor.On compressor, be provided with the case for holding the accumulation of heat solvent that absorbs compressor release heat; In case, be provided with for holding from the first heat-exchanger rig of the cold-producing medium of accumulation of heat solvent absorption heat; In indoor set, be provided with the second heat-exchanger rig, the two ends of this second heat-exchanger rig are connected to form a loop with the two ends of the first heat-exchanger rig respectively; On the loop forming at the second heat-exchanger rig and the first heat-exchanger rig, be provided with drive unit, for drive cold-producing medium in loop shuttling movement being transported to the second heat-exchanger rig release heat from the cold-producing medium of accumulation of heat solvent absorption heat in the first heat-exchanger rig.

Preferably, described case is wrapped on compressor.

Preferably, described case has container slot and container cover, and this container slot is wrapped on compressor, and container cover is sealed in container slot.

Preferably, the sidewall that described case is wrapped on compressor adopts aluminium sheet.

Preferably, described accumulation of heat solvent is ethylene glycol solution.

Preferably, described the first heat-exchanger rig is formed by metal tube bending.

Preferably, described the first heat-exchanger rig is S-shaped.

Preferably, described the second heat-exchanger rig is straight tube-like.

Preferably, the two ends of the two ends of described the second heat-exchanger rig and the first heat-exchanger rig link together by conduit respectively.

Preferably, the two ends of described the second heat-exchanger rig are provided with the control valve of closing cold-producing medium shuttling movement in loop when air-conditioner freezes.

Due to the utility model air-conditioner by be contained in case accumulation of heat solvent absorption compressor discharge heat, by drive unit, drive shuttling movement in the loop that cold-producing medium forms at the first heat-exchanger rig and the second heat-exchanger rig and heat delivery that the compressor of accumulation of heat solvent absorption is discharged discharges to the second heat-exchanger rig, thereby the heat delivery that compressor is discharged is to indoor, the recycling that this has realized compressor release heat, therefore improved air-conditioner overall heating capacity, reduced energy resource consumption.

Accompanying drawing explanation

Fig. 1 is the line map of the utility model air-conditioner;

Fig. 2 be the utility model air-conditioner first heat-exchanger rig install with case in three-dimensional combination figure;

Fig. 3 is that shown in Fig. 2, case is arranged on the three-dimensional combination figure on compressor;

Fig. 4 is the three-dimensional exploded view of the first heat-exchanger rig shown in Fig. 2 and case;

Fig. 5 is the solid combination of the utility model air conditioner room unit.

Realization, functional characteristics and the advantage of the utility model object, in connection with embodiment, are described further with reference to accompanying drawing.

The specific embodiment

Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

The utility model provides a kind of air-conditioner that improves indoor heating amount.Refer to Fig. 1, it has disclosed a specific embodiment of the present utility model, and this air-conditioner comprises in the present embodiment: indoor set and off-premises station.Indoor set comprises indoor heat exchanger 100.Off-premises station comprises outdoor heat exchanger 200, compressor 300, oil eliminator 400, gas-liquid separator 500 and cross valve 600.

One end of indoor heat exchanger 100 is connected with cross valve 600, and the other end of indoor heat exchanger 100 is connected with one end of outdoor heat exchanger 200.The other end of outdoor heat exchanger 200 is connected with cross valve 600; Compressor 300 is connected with oil eliminator 400 and gas-liquid separator 500 respectively, and oil eliminator 400 is also connected with cross valve 600 respectively with gas-liquid separator 500, thereby by cross valve 600, form the flow circuits of refrigerant to realize the refrigeration of air-conditioner or to heat, concrete cooling and warming process is by those skilled in the art is known, in this explanation no longer in detail.

When air-conditioner is in refrigeration or while heating, the equal compression refrigerant of compressor 300, refrigerant release heat and cause compressor 300 to generate heat in compression process, thereby compressor 300 is understood release heat in compression refrigerant process.But when air conditioner heat-production, if compressor 300 rejects heat in air, this not only can affect the heating capacity of air-conditioner, and has caused energy waste.For improving heating capacity, the saving energy of air-conditioner, the utility model air-conditioner also comprises: case 710, the first heat-exchanger rig 720, the second heat-exchanger rig 730 and drive unit 740.

Refer to Fig. 2 to Fig. 4, case 710 has container slot 711 and container cover 712.In container slot 711, accommodate accumulation of heat solvent, in the present embodiment, accumulation of heat solvent is ethylene glycol solution; This container slot 711 is wrapped on compressor 300, and it is wrapped in sidewall on compressor 300 and adopts aluminium sheet, to increase thermal conductivity.Container cover 712 is sealed in container slot 711, and in container cover 712, offers two perforates 713.

The first heat-exchanger rig 720 is placed in container slot 711, and it is formed by metal tube bending and the S-shaped contact area with increase and the interior accumulation of heat solvent of container slot 711.This first heat-exchanger rig 720 has the first port 721 and the second port 722.And the first port 721 and the second port 722 pass respectively corresponding perforate 713.

Refer to Fig. 1, Fig. 4 and Fig. 5, the second heat-exchanger rig 730 is straight tube-like, and it has first interface 731 and the second interface 732.First interface 731 and the second interface 732 are connected with the first port 721 and second port 722 of the first heat-exchanger rig 720 by conduit (in figure not label) respectively, thereby the second heat-exchanger rig 730 and the first heat-exchanger rig 720 form a loop, in this loop, are filled with cold-producing medium.

Drive unit 740 is a pump, and this drive unit 740 is connected between first port 721 and the first interface 731 of the second heat-exchanger rig 730 of the first heat-exchanger rig 720.

In addition, for preventing when air-conditioner freezes cold-producing medium shuttling movement in the loop that the second heat-exchanger rig 730 and the first heat-exchanger rig 720 form, the utility model air-conditioner also arranges the first control valve 750 between the first interface 731 of the second heat-exchanger rig 730 and drive unit 740, between the second interface 732 of the second heat-exchanger rig 730 and the second port 722 of the first heat-exchanger rig 720, the second control valve 760 is set, in the present embodiment, the first control valve 750 and the second control valve 760 are magnetic valve.

The course of work of the raising heating capacity of the utility model air-conditioner is as follows:

When air-conditioner is when heating, compressor 300 compression refrigerants, refrigerant release heat and cause compressor 300 to generate heat and release heat in compression process, the heat that the sidewall on compressor 300 discharges compressor 300 that is wrapped in of case 710 conducts to the accumulation of heat solvent in case 710, thereby the heat that accumulation of heat solvent discharges compressor 300 conducts to the cold-producing medium in the first heat-exchanger rig 720; Cold-producing medium in the first heat-exchanger rig 720 becomes gaseous state from liquid state after absorbing heat; Drive unit 740 drives the cold-producing medium of gaseous state to move along direction shown in arrow in Fig. 1; The cold-producing medium absorbing after heat enters the second heat-exchanger rig 730 through over-driving device 740 and the first control valve 750; Enter cold-producing medium in the second heat-exchanger rig 730 under the forced convertion wind action of indoor set with indoor cold air heat exchange, thereby reject heat to indoor; Cold-producing medium after the interior release heat of the second heat-exchanger rig 730 in the second control valve 760 is back to the first heat-exchanger rig 720, circulation and so forth, thereby the heat recovery that compressor 300 is discharged and be discharged into indoor, therefore improved air-conditioner overall heating capacity, reduced energy resource consumption.

When air-conditioner freezes, by closing drive unit 740, the first control valve 750 and the second control valve 760, thereby close cold-producing medium shuttling movement in the loop that the second heat-exchanger rig 730 and the first heat-exchanger rig 720 form, now, compressor 300 by case 710 and accumulation of heat solvent by dissipation of heat in outdoor air, and no longer by cold-producing medium, heat delivery to the second heat-exchanger rig 730 is discharged.

The heat discharging by accumulation of heat solvent absorption compressor due to the case 710 of the utility model air-conditioner, by drive unit 740, drive cold-producing medium shuttling movement and heat delivery that the compressor of accumulation of heat solvent absorption 300 is discharged in the loop that the first heat-exchanger rig 720 and the second heat-exchanger rig 730 form to discharge to the second heat-exchanger rig 730, thereby the heat delivery that compressor 300 is discharged is to indoor, the recycling that this has realized compressor 300 release heat, therefore improved air-conditioner overall heating capacity, reduced energy resource consumption.

These are only preferred embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model description and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. improve an air-conditioner for indoor heating amount, comprise indoor set and off-premises station, off-premises station comprises compressor, it is characterized in that, is provided with the case for holding the accumulation of heat solvent that absorbs compressor release heat on compressor; In case, be provided with for holding from the first heat-exchanger rig of the cold-producing medium of accumulation of heat solvent absorption heat; In indoor set, be provided with the second heat-exchanger rig, the two ends of this second heat-exchanger rig are connected to form a loop with the two ends of the first heat-exchanger rig respectively; On the loop forming at the second heat-exchanger rig and the first heat-exchanger rig, be provided with drive unit, for drive cold-producing medium in loop shuttling movement being transported to the second heat-exchanger rig release heat from the cold-producing medium of accumulation of heat solvent absorption heat in the first heat-exchanger rig.

2. the air-conditioner of raising indoor heating amount as claimed in claim 1, is characterized in that, described case is wrapped on compressor.

3. the air-conditioner of raising indoor heating amount as claimed in claim 2, is characterized in that, described case has container slot and container cover, and this container slot is wrapped on compressor, and container cover is sealed in container slot.

4. the air-conditioner of raising indoor heating amount as claimed in claim 2, is characterized in that, the sidewall that described case is wrapped on compressor adopts aluminium sheet.

5. the air-conditioner of raising indoor heating amount as claimed in claim 2, is characterized in that, described accumulation of heat solvent is ethylene glycol solution.

6. the air-conditioner of raising indoor heating amount as claimed in claim 1, is characterized in that, described the first heat-exchanger rig is formed by metal tube bending.

7. the air-conditioner of raising indoor heating amount as claimed in claim 1, is characterized in that, described the first heat-exchanger rig is S-shaped.

8. the air-conditioner of raising indoor heating amount as claimed in claim 1, is characterized in that, described the second heat-exchanger rig is straight tube-like.

9. the air-conditioner of raising indoor heating amount as claimed in claim 1, is characterized in that, the two ends of the two ends of described the second heat-exchanger rig and the first heat-exchanger rig link together by conduit respectively.

10. the air-conditioner of raising indoor heating amount as claimed in claim 1, is characterized in that, the two ends of described the second heat-exchanger rig are provided with the control valve of closing cold-producing medium shuttling movement in loop when air-conditioner freezes.

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