CN202229361U - Air-conditioning system - Google Patents

Abstract

The utility model discloses an air-conditioning system comprising a compressor and a condenser. An air exhaust port of the compressor is connected with an air inlet port of the condenser by an air exhaust pipe. One side of the condenser is provided with an exhaust fan. The air exhaust pipe is provided with a thermoelectric generation module. A high temperature end of the thermoelectric generation module is tightly attached to an outer wall of the air exhaust pipe, and a low temperature end of the thermoelectric generation module is provided with a heat dissipation device. In the utility model, the thermoelectric generation can be used in the air-conditioning system, the waste heat generated during the operation of the air-conditioning can be effectively used, thereby the "zero" energy consumption in standby mode can be realized, the integral energy consumption during the system operation can be reduced, and the object of energy saving and emission reduction can be reached.

Description

A kind of air-conditioning system

Technical field

The utility model relates to the air-conditioning system (for example: domestic air-conditioning system, business air conditioner system, air source water heater etc.) of having used compressor, condenser, throttling arrangement and evaporimeter.

Background technology

In the existing air-conditioning system; Compressor is discharged the gas that the gas of low-temp low-pressure is compressed into HTHP during operation of air conditioner through blast pipe; Because the delivery temperature of compressor and the temperature difference of environment temperature are bigger, are about 40 ℃, need to dispel the heat through condenser; Heat is lost to and forms " used heat " in the air, has caused energy waste.

In addition; At present under the main trend of energy-conserving and environment-protective; The stand-by power consumption of household electrical appliance obtains paying attention to day by day, the EUP of European Union instruction the is clear and definite standby of electrical equipment, the requirement of shutdown energy consumption, and the product coverage is household electrical appliance, family expenses IT product, consumer video and audio product, toy, leisure and sport category product.Domestic household electrical appliances production firm also begins to pay attention to the stand-by power consumption problem of household electrical appliances, and the high-grade type of outlet European Union all need possess the 1W idle function, this shows that stand-by power consumption has become one of heat pump performance index.Reducing stand-by power consumption has been the direction and the competition focal point of the effort of each production firm.

Energy-saving and emission-reduction, the service efficiency that improves the energy are the common recognition in the whole world at present and the direction of effort.Air-conditioning system is the big power consumer, and the operation energy consumption that reduces air-conditioning system becomes the effort target of each production firm.

Summary of the invention

The purpose of the utility model is to provide a kind of air-conditioning system that can the used heat of air-conditioning system be changed into electric energy, to turn waste into wealth.

In order to realize the above-mentioned purpose of the utility model; The technical scheme that is adopted is following: a kind of air-conditioning system, and it comprises compressor and condenser, the exhaust outlet of compressor is connected with the air inlet of condenser through blast pipe; Side at condenser is provided with exhaust blower; On said blast pipe, be provided with temperature-difference power generation module, the temperature end of this temperature-difference power generation module is close on the outer wall of blast pipe, is provided with heat abstractor in the low-temperature end of this temperature-difference power generation module.

As the preferred embodiment of technique scheme, said blast pipe is used to install the pipeline section portion of said temperature-difference power generation module and the homonymy that said exhaust blower is positioned at said condenser.

As the preferred embodiment of technique scheme, on said blast pipe, be formed with the pipeline section portion that is used to install said temperature-difference power generation module, the cross-sectional area of this pipeline section portion is greater than the cross-sectional area of the blast pipe that links to each other with its two ends.

As the preferred embodiment of technique scheme, the cross section of said pipeline section portion is circular, rectangle or regular polygon.

As the preferred embodiment of technique scheme, the surface profile of the surface profile of said pipeline section portion and the temperature end of said temperature-difference power generation module is complementary.

As the preferred embodiment of technique scheme, the temperature end of said temperature-difference power generation module is set in the outside of said blast pipe.

As the preferred embodiment of technique scheme, between said temperature-difference power generation module and said blast pipe, be provided with heat-conducting medium.

As the preferred embodiment of technique scheme, between said temperature-difference power generation module and said heat abstractor, be provided with heat-conducting medium.

As the preferred embodiment of technique scheme, said heat abstractor is fin tube type radiator or finned radiator, and this radiator is close to the outside of the low-temperature end of said temperature-difference power generation module.

As the preferred embodiment of technique scheme, also comprise battery, this battery is connected with the current output terminal of said temperature-difference power generation module.

Preferred embodiment as technique scheme; Also comprise civil power input circuit, main circuit and civil power/battery change-over circuit, when the air-conditioning system standby, civil power/battery change-over circuit is connected battery with main circuit; When the electric weight of air-conditioning system operation and battery during greater than setting value; Civil power/battery change-over circuit is connected battery, civil power input circuit with main circuit, when the electric weight of air-conditioning system operation and battery during less than setting value, civil power/battery change-over circuit is connected the civil power input circuit with main circuit; And with battery and main circuit disconnection, temperature-difference power generation module is a charge in batteries.

Thermo-electric generation is that the contrary of semiconductor chilling plate used, and the two ends of cooling piece exist the cold and hot temperature difference can produce electric current.The utility model is applied to air-conditioning system with thermo-electric generation, effectively utilizes the used heat of air-conditioning system generation in service.Compared with prior art, the utlity model has following advantage:

(1) with air-conditioning system generation in service used heat change into electric energy, turn waste into wealth;

(2) electric energy that converts to uses in the time of can supplying the air-conditioning system standby through battery stores, so does not need civil power during the air-conditioning system standby, has realized standby " zero " energy consumption;

(3) and, the electric energy that converts to can also compensate the energy consumption of air-conditioning system operation, realizes the decline of air-conditioning system operation complete machine energy consumption.

This shows that the utility model can effectively utilize the used heat that produces in the operation of air conditioner, reach the purpose of energy-saving and emission-reduction.

Description of drawings

Fig. 1 is the sketch map of the air-conditioning system of the utility model embodiment;

Fig. 2 is the structural representation of the temperature-difference power generation module assembly of the utility model embodiment;

Fig. 3 is battery, civil power input circuit and the sketch map that is connected of air-conditioning system main circuit.

Description of reference numerals: the temperature end of 1-compressor, 2-condenser, 3-throttling arrangement, 4-evaporimeter, 5-temperature-difference power generation module assembly, 51-temperature-difference power generation module, 51a-temperature-difference power generation module, the low-temperature end of 51b-temperature-difference power generation module, 52-heat abstractor, 6-battery, 7-exhaust blower, 8-pressure fan, 9-air intake duct, 10-blast pipe, 10a-pipeline section portion, 11-civil power input circuit, 12-civil power/battery change-over circuit, 13-main circuit.

The specific embodiment

Embodiment to the utility model is elaborated below in conjunction with accompanying drawing:

One of them embodiment of the air-conditioning system of the utility model is as shown in Figure 1; Air-conditioning system mainly is made up of compressor 1, condenser 2, throttling arrangement 3, evaporimeter 4 and temperature-difference power generation module assembly 5; Side at condenser 2 is provided with exhaust blower 7; Side at evaporimeter 4 is provided with pressure fan 8, and throttling arrangement 3 is the capillary-compensated device.The air entry of compressor 1 is connected through the gas outlet of air intake duct 9 with evaporimeter 4, and the exhaust outlet of compressor 1 is connected through the air inlet of blast pipe 10 with condenser 2.Blast pipe 10 is a copper pipe in the present embodiment, on blast pipe 10, is formed with the 10a of pipeline section portion that is used to install temperature-difference power generation module assembly 5, and the 10a of pipeline section portion is caused exhaust blower 7 one sides of condenser 2.

See Fig. 2, the cross-sectional area of the 10a of pipeline section portion that is used to install temperature-difference power generation module assembly 5 is greater than the cross-sectional area of the blast pipe 10 that links to each other with its two ends, and helping to 5 heat conduction of temperature-difference power generation module assembly, temperature-difference power generation module assembly 5 is installed on the 10a of this pipeline section portion.Temperature-difference power generation module assembly 5 is made up of temperature-difference power generation module 51 and heat abstractor 52, and temperature-difference power generation module 51 has temperature end 51a and low-temperature end 51b, exists the cold and hot temperature difference can produce electric current at the temperature end 51a and the low-temperature end 51b of temperature-difference power generation module 51.The temperature end 51a of temperature-difference power generation module 51 is set in the outside of the 10a of pipeline section portion, and is close to the outer wall of the 10a of pipeline section portion.Be provided with heat abstractor 52 at the low-temperature end 51b of temperature-difference power generation module 51, heat abstractor 52 is a finned tubular radiator in the present embodiment, and this finned tubular radiator is sheathed on the outside of the low-temperature end 51b of temperature-difference power generation module 51.

During the air-conditioning system operation; Compressor 1 is compressed into the gas of low-temp low-pressure the gas of HTHP and discharges via blast pipe 10; During through temperature-difference power generation module 51; The temperature end 51a that temperature-difference power generation module 51 is close to the 10a of pipeline section portion absorbs heat and becomes high temperature side, and 52 of heat abstractors dispel the heat under the help of exhaust blower 7 and become low temperature side, make temperature-difference power generation module 51 two ends keep certain temperature difference.Between temperature-difference power generation module 51 and the blast pipe 10 and between temperature-difference power generation module 51 and heat abstractor 52, be equipped with heat-conducting medium and be easy to heat conduction.

Further referring to Fig. 1, the current output terminal of temperature-difference power generation module 51 is connected with battery 6.

As shown in Figure 3, air-conditioning system also comprises civil power input circuit 11, main circuit 13 and civil power/battery change-over circuit 12.When the air-conditioning system standby; Civil power/battery change-over circuit 12 is connected battery 6 with main circuit 13, so the energy consumption of air-conditioning system standby is provided by battery 6, does not need civil power; Realize standby " zero " energy consumption that air-conditioning system is used, reach the purpose of energy-saving and emission-reduction.When the electric weight of air-conditioning system operation and battery 6 during greater than setting value; Civil power/battery change-over circuit 12 is connected battery 6, civil power input circuit 11 with main circuit 13; So air-conditioning system is used civil power work; Battery 6 can compensate the part energy consumption needs of complete machine operation simultaneously, realizes the decline of air-conditioning system operation complete machine energy consumption.When the electric weight of air-conditioning system operation and battery 6 during less than setting value; Civil power/battery change-over circuit 12 is connected battery 6 with main circuit 13; And civil power input circuit 11 is connected with main circuit 13; At this moment, the complete machine operation needs the civil power operation fully, and it is battery 6 chargings that the used heat that produces during air-conditioning system operation simultaneously changes into electric energy through temperature-difference power generation module.

This shows that the air-conditioning system of the utility model has the following advantages:

(1) with air-conditioning system generation in service used heat change into electric energy, turn waste into wealth;

(2) electric energy that converts to uses in the time of can supplying the air-conditioning system standby, does not need civil power, has realized standby " zero " energy consumption;

(3) electric energy that converts to can also compensate the energy consumption of air-conditioning system operation, realizes the decline of air-conditioning system operation complete machine energy consumption.

More than be merely the specific embodiment of the utility model, do not limit the protection domain of the utility model with this; Do not violate any replacement and the improvement of being done on the basis of the utility model design, all belonging to the protection domain of the utility model.

Claims (11)

1. air-conditioning system; It comprises compressor and condenser; The exhaust outlet of compressor is connected with the air inlet of condenser through blast pipe, is provided with exhaust blower in a side of condenser, it is characterized in that: on said blast pipe, be provided with temperature-difference power generation module; The temperature end of this temperature-difference power generation module is close on the outer wall of blast pipe, is provided with heat abstractor in the low-temperature end of this temperature-difference power generation module.

2. air-conditioning system according to claim 1 is characterized in that: said blast pipe is used to install the pipeline section portion of said temperature-difference power generation module and the homonymy that said exhaust blower is positioned at said condenser.

3. air-conditioning system according to claim 1 is characterized in that: on said blast pipe, be formed with the pipeline section portion that is used to install said temperature-difference power generation module, the cross-sectional area of this pipeline section portion is greater than the cross-sectional area of the blast pipe that links to each other with its two ends.

4. air-conditioning system according to claim 3 is characterized in that: the cross section of said pipeline section portion is circular, rectangle or regular polygon.

5. air-conditioning system according to claim 3 is characterized in that: the surface profile of the surface profile of said pipeline section portion and the temperature end of said temperature-difference power generation module is complementary.

6. air-conditioning system according to claim 5 is characterized in that: the temperature end of said temperature-difference power generation module is set in the outside of said blast pipe.

7. air-conditioning system according to claim 1 is characterized in that: between said temperature-difference power generation module and said blast pipe, be provided with heat-conducting medium.

8. air-conditioning system according to claim 1 is characterized in that: between said temperature-difference power generation module and said heat abstractor, be provided with heat-conducting medium.

9. air-conditioning system according to claim 1 is characterized in that: said heat abstractor is fin tube type radiator or finned radiator, and this radiator is close to the outside of the low-temperature end of said temperature-difference power generation module.

10. according to each described air-conditioning system of claim 1 to 9, it is characterized in that: also comprise battery, this battery is connected with the current output terminal of said temperature-difference power generation module.

11. air-conditioning system according to claim 10; It is characterized in that: also comprise civil power input circuit, main circuit and civil power/battery change-over circuit; When the air-conditioning system standby, civil power/battery change-over circuit is connected battery with main circuit, when the electric weight of air-conditioning system operation and battery during greater than setting value; Civil power/battery change-over circuit is connected battery, civil power input circuit with main circuit; When the electric weight of air-conditioning system operation and battery during less than setting value, civil power/battery change-over circuit is connected the civil power input circuit with main circuit, and with battery and main circuit disconnection.

Images