CN205066005U - High efficiency air conditioner - Google Patents

Abstract

The utility model provides a cold heat exchanger makes up the constitution that high efficiency air conditioner, by the inside sealed pipeline of organism, with the configuration on the sealed tube way. Should include compressor, condenser, filter, capillary and evaporimeter by sealed pipeline, it is mobile at sealed pipeline internal recycling by the compressor drive refrigerant at the inside refrigerant that has filled of sealed pipeline, respectively by the external fan to the condenser air supply to outdoor heat dissipation, by interior fan to the evaporimeter air supply to indoor cooling. In should sealed pipeline, from the high pressure and high temperature refrigerant that the condenser was seen off, be the inside high -pressure pipeline cooling back of the cold heat exchanger of circulation earlier, again through the capillary vaporization and send into the evaporimeter, from the low pressure low temperature refrigerant that the evaporimeter was seen off, be the cold heat exchanger's of circulation earlier inner space to high -pressure pipeline the cooling send into the compressor again to this structural design promotes the cooling efficiency of air conditioner.

Description

High efficiency air conditioner

Technical field

The utility model is about a kind of high efficiency air conditioner, refer to one especially, design and configure a cool-heat-exchanger on the sealing pipeline of refrigerant circulation flowing, utilize remaining cryogenic energy in sealing pipeline, fast cooling is done to the high temperature in sealing pipeline, significantly to promote the air conditioner of cooling efficiency, belong to the technology category of modified form air conditioner.

Background technology

Air conditioner is the air-conditioning equipment that tradition is known, its infrastructure component comprises compressor, condenser, filter, capillary and evaporimeter, sequentially be connected on a sealing pipeline, refrigerant is filled with in sealing pipeline inside, flowed in sealing pipeline inner loop by driven compressor refrigerant, heat energy is absorbed in a large number when capillary vaporization, and in evaporimeter, reduce temperature, and respectively by the evaporator blowing of internal fan to low temperature, to indoor cooling, by external fan, the condenser of high temperature is blown, to outdoor heat radiation.

From modular construction and the refrigeration operation principle thereof of above-mentioned traditional cold mechanism of qi, in the sealing pipeline of traditional cold mechanism of qi, the low temperature refrigerant sent from evaporimeter directly sends into compressor, and its cryogenic energy is not fully effectively utilized, in addition, driven compressor refrigerant is before sealing pipeline internal flow to capillary, because of the high temperature that high pressure produces, need first to be dispelled the heat by external fan through condenser, in manufacture, take into account the radiating efficiency of condenser, if the sealing pipeline length forming condenser is longer, become large by making the volume of condenser, in like manner, if in order to promote evaporimeter cooling efficiency by when being increased by the pipeline total length of evaporimeter, also the volume of evaporimeter can be made to become large, namely make air conditioner overall volume larger, and, the total length of above-mentioned sealing pipeline increases, relatively also improve the cost of parts of air conditioner.

Utility model content

Technical problem underlying to be solved in the utility model is, overcome the above-mentioned defect that prior art exists, and a kind of high efficiency air conditioner is provided, the sealing pipeline of refrigerant flowing configures a cool-heat-exchanger, utilize remaining cryogenic energy in sealing pipeline, fast cooling action is done, significantly to promote cooling efficiency to the high pressure-temperature refrigerant in sealing pipeline; It by forming the length of condenser heat transmission pipeline and formation evaporimeter being reduced to minimal path degree for colod-application length of pipe, can reduce the volume of condenser and evaporimeter, makes air conditioner overall volume littleization, and can reduce part and production cost.

The utility model solves the technical scheme that its technical problem adopts:

A kind of high efficiency air conditioner, by casing internal a sealing pipeline, with the cool-heat-exchanger be configured on sealing pipeline, combine formation.

Described sealing pipeline, comprises compressor, condenser, filter, capillary and evaporimeter, is sequentially connected on sealing pipeline.

On sealing pipeline between condenser and evaporimeter, be configured with above-mentioned cool-heat-exchanger.

Described sealing pipeline, be included in sealing pipeline inside and be filled with refrigerant, flowed in sealing pipeline inner loop by driven compressor refrigerant, and by external fan, the condenser of high temperature blown to outdoor heat radiation respectively, by internal fan to the evaporator blowing of low temperature to indoor cooling.

Described cool-heat-exchanger, be a hollow sealing housing, empty inside is provided with the high-voltage tube of a sealing in the housing.

Above-mentioned cool-heat-exchanger, a low-pressure end entrance and a low-pressure end that hollow sealing housing is respectively equipped with conducting enclosure interior space export, and on hollow sealing housing, are provided with the high-pressure side entrance at respectively conducting pressure duct two ends and a high-pressure side exports.

The syndeton of above-mentioned sealing pipeline and cool-heat-exchanger, it is low-pressure end entrance evaporator back end pipeline is connected on cool-heat-exchanger housing, exported by the low-pressure end on cool-heat-exchanger housing again and be connected to compressor, and, condenser rear end pipeline is connected to the high-pressure side entrance on cool-heat-exchanger housing through filter, exported by the high-pressure side of cool-heat-exchanger housing again, be connected to evaporimeter via capillary, the sealing pipeline configuration formed.

High efficiency air conditioner of the present utility model in the running, flowed in sealing pipeline inner loop by driven compressor refrigerant, from the high temperature refrigerant that condenser is sent, be the cool-heat-exchanger internal high pressure pipeline fast cooling that first circulates, then send into evaporimeter through capillary vaporization, and, from the low temperature refrigerant that evaporimeter is sent, be the inner space of cool-heat-exchanger of first circulating, utilize remaining cryogenic energy, again compressor is sent into above-mentioned pressure duct cooling.

Above-mentioned sealing pipeline configuration of the present utility model, due to cool-heat-exchanger set on sealing pipeline, the high pressure-temperature refrigerant fast cooling before feeding capillary can be made, the vaporization effect of strengthening capillary rear end evaporimeter, except the cooling efficiency of evaporimeter can be promoted, and therefore the condenser heat dissipation pipeline of compressor rear end can be reduced to the shortest degree, thus reduce the volume of condenser.

In addition, because cool-heat-exchanger of the present utility model, the cooling pipeline of evaporimeter by fast cooling, relatively also can be reduced to the shortest degree, also therefore can reduce the volume of evaporimeter by the high pressure-temperature refrigerant sent into before capillary.

Above-mentioned high efficiency air conditioner of the present utility model, WAC can be applied in, also the separated air conditioner that indoor set adds off-premises station can be applied in, on all types of air conditioners that particularly large-tonnage cooling exports, can reach before promoting cooling efficiency, littleization volume, reduction production cost and take off predetermined object.

The beneficial effects of the utility model are, the sealing pipeline of refrigerant flowing configures a cool-heat-exchanger, utilizes remaining cryogenic energy in sealing pipeline, do fast cooling action, significantly to promote cooling efficiency to the high pressure-temperature refrigerant in sealing pipeline; It by forming the length of condenser heat transmission pipeline and formation evaporimeter being reduced to minimal path degree for colod-application length of pipe, can reduce the volume of condenser and evaporimeter, makes air conditioner overall volume littleization, and can reduce part and production cost.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further illustrated.

Fig. 1 is the sealing pipeline structural representation of the utility model high efficiency air conditioner.

Fig. 2 is the cool-heat-exchanger structure cut away view of the utility model high efficiency air conditioner.

Fig. 3 is the embodiment schematic diagram that the utility model high efficiency air conditioner pipeline flowing is applied in a WAC.

Fig. 4 is the embodiment schematic diagram that the utility model high efficiency air conditioner pipeline flowing is applied in a separated air conditioner.

Number in the figure illustrates:

10 sealing pipelines

11 compressors

12 condensers

13 external fans

14 filters

15 capillaries

16 evaporimeters

17 internal fans

20 cool-heat-exchangers

21 housings

22 inner spaces

23 low-pressure end entrances

24 low-pressure end outlets

25 high-voltage tubes

26 high-pressure side entrances

27 high-pressure side outlets

30 casings

40 outdoor machine shells

41 indoor casings

Detailed description of the invention

As rear accompanying drawing 1, high efficiency air conditioner of the present utility model, be by a sealing pipeline 10 of casing internal, be configured in a cool-heat-exchanger 20 on sealing pipeline, combine formation.

As Fig. 1, described sealing pipeline 10, comprises compressor 11, condenser 12, filter 14, capillary 15 and evaporimeter 16, is sequentially connected on sealing pipeline 10.

On sealing pipeline 10 between condenser 12 and evaporimeter 16, be configured with this cool-heat-exchanger 20.

Described sealing pipeline 10, be included in sealing pipeline 10 inside and be filled with refrigerant, refrigerant is driven to flow in sealing pipeline 10 inner loop by compressor 11, and respectively by external fan 13, blow to outdoor heat radiation to the condenser 12 of high temperature, by internal fan 17, the evaporimeter 16 of low temperature is blown to indoor cooling.

As Fig. 1 and Fig. 2, described cool-heat-exchanger 20, be a hollow housing 21, housing 21 empty internal is provided with a high-voltage tube 25.

As Fig. 2, above-mentioned cool-heat-exchanger 20, on hollow housing 21, the low-pressure end entrance 23 and the low-pressure end that are respectively equipped with conducting enclosure interior space 22 export 24, and on hollow housing 21, the high-pressure side entrance 26 and the high-pressure side that are provided with conducting high-voltage tube 25 two ends respectively export 27.

And for example Fig. 1 and Fig. 2, the syndeton of above-mentioned sealing pipeline 10 and cool-heat-exchanger 20, by evaporimeter 16 rear end pipeline, be connected to the low-pressure end entrance 23 on cool-heat-exchanger 20 housing 21,24 are exported again by the low-pressure end of cool-heat-exchanger 20 housing 21, be connected to compressor 11, and, by condenser 12 rear end pipeline, the high-pressure side entrance 26 be connected on cool-heat-exchanger 20 housing 21 through filter 14, export 27 by the high-pressure side of cool-heat-exchanger 20 housing 21 again, be connected to evaporimeter 16 via capillary 15, the sealing pipeline formed connects configuration.

Above-mentioned sealing pipeline 10 configures with the connection of cool-heat-exchanger 20, forms the refrigerant flow pipe of the utility model high efficiency air conditioner.When starting for cable order mechanism of qi operation, drive refrigerant to flow in sealing pipeline 10 inner loop by compressor 11, because the cool-heat-exchanger 20 that sealing pipeline 10 configures, from the high pressure-temperature refrigerant that condenser 12 is sent, after first flowing through the cooling of cool-heat-exchanger 20 internal high pressure pipeline 25, vaporize through capillary 15 again and enter evaporimeter 16, and, from the low-pressure low-temperature refrigerant that evaporimeter 16 is sent, it is the inner space 22 first flowing through cool-heat-exchanger 20, utilize remaining cryogenic energy, high-voltage tube 25 is lowered the temperature and sends into compressor 11 again.

The above-mentioned sealing pipeline 10 of the utility model high efficiency air conditioner configures with the connection of cool-heat-exchanger 20, its advantage is apparent: because cool-heat-exchanger 20 can make the high pressure-temperature refrigerant fast cooling before feeding capillary 15, enhance the vaporization effect of capillary 15 rear end evaporimeter 16, except the cooling efficiency of evaporimeter 16 can be promoted, and can therefore by condenser 12 heat transmission pipeline, be reduced to the shortest degree, thus reduce the volume of condenser 12.

In addition, because the pipeline flowing of cool-heat-exchanger 20, make the high pressure-temperature refrigerant before entering capillary 15, can by fast cooling, relatively also by the colod-application pipeline of confession of capillary 15 rear end evaporimeter 16, the shortest degree can be reduced to, also therefore can reduce the volume of evaporimeter 16.

Rear accompanying drawing 3 is the pipeline flowing of the utility model high efficiency air conditioner, is applied in the embodiment schematic diagram of a WAC.

As Fig. 3, high efficiency air conditioner of the present utility model, be comprise be arranged on casing 30 inside a sealing pipeline 10, be connected to a cool-heat-exchanger 20 of sealing pipeline 10, combine formation.

The sealing pipeline 10 of casing 30 inside, comprises compressor 11, condenser 12, filter 14, capillary 15 and evaporimeter 16, is sequentially connected on sealing pipeline 10.

On sealing pipeline 10 between condenser 12 and evaporimeter 16, be configured with this cool-heat-exchanger 20.

Evaporimeter 16 rear end pipeline is the low-pressure end entrance 23 being connected to cool-heat-exchanger 20, and the low-pressure end outlet 24 of cool-heat-exchanger 20 is connected to compressor 11.

Condenser 12 rear end, through filter 14, is connected to the high-pressure side entrance 26 of cool-heat-exchanger 20, and the high-pressure side outlet 27 of cool-heat-exchanger 20, is connected to evaporimeter 16 via capillary 15, forms the sealing pipeline configuration of the utility model high efficiency air conditioner.

Inner at sealing pipeline 10, be filled with refrigerant, drive refrigerant to flow in sealing pipeline 10 inner loop by compressor 12, and blow to outdoor heat radiation by the condenser 12 of external fan 13 pairs of high temperature respectively, blown to indoor cooling by the evaporimeter 16 of internal fan 17 pairs of low temperature.

Rear accompanying drawing 4 is the pipeline flowing of the utility model high efficiency air conditioner, is applied in indoor set and adds embodiment schematic diagram on the separated air conditioner of off-premises station.

As Fig. 4, high efficiency air conditioner of the present utility model, be by be arranged on outdoor machine shell 40 sealing pipeline 10 with indoor casing 41 inside, with the cool-heat-exchanger 20 be configured on sealing pipeline 10, combine formation.

Sealing pipeline 10, comprises compressor 11, condenser 12, filter 14, the capillary 15 of casing 40 inside disposed in the outdoor, and the evaporimeter 16 with casing 41 inside disposed in the interior, is sequentially connected on sealing pipeline.

On the sealing pipeline 10 of outdoor machine shell 40 inside, be configured with this cool-heat-exchanger 20.

The evaporimeter 16 rear end pipeline of indoor casing 41 inside is the low-pressure end entrance 23 being connected to outdoor machine shell 40 this cool-heat-exchanger 20 inner, and the low-pressure end outlet 24 of cool-heat-exchanger 20 is connected to compressor 11.

The condenser 12 rear end pipeline of outdoor machine shell 40 inside, the high-pressure side entrance 26 of cool-heat-exchanger 20 is connected to through filter 14, the high-pressure side outlet 27 of cool-heat-exchanger 20, be connected to the evaporimeter 16 of indoor casing 41 inside via capillary 15, form the sealing pipeline configuration of the utility model high efficiency air conditioner.

Refrigerant is filled with in sealing pipeline 10 inside, refrigerant is driven to flow in sealing pipeline 10 inner loop by the compressor 12 of outdoor machine shell 40 inside, and respectively by the external fan 13 of outdoor machine shell 40 inside, blow to outdoor heat radiation to the condenser 12 of high temperature, by the internal fan 17 of indoor casing 41 inside, the evaporimeter 16 of low temperature is blown to indoor cooling.

From above-described embodiment, high efficiency air conditioner sealing pipeline configuration of the present utility model, WAC can be applied in, also the separated air conditioner that indoor set adds off-premises station can be applied in, on all types of air conditioners that particularly large-tonnage cooling exports, can reach before promoting cooling efficiency, littleization volume, reduction production cost and take off predetermined object.

The above, it is only preferred embodiment of the present utility model, not any pro forma restriction is done to the utility model, every above embodiment is done according to technical spirit of the present utility model any simple modification, equivalent variations and modification, all still belong in the scope of technical solutions of the utility model.

Claims (1)

1. a high efficiency air conditioner, is characterized in that, comprising:

One sealing pipeline of casing internal, comprise compressor, condenser, filter, capillary and evaporimeter, sequentially be connected on sealing pipeline, sealing pipeline between condenser and evaporimeter is configured with cool-heat-exchanger, refrigerant is filled with in sealing pipeline inside, flowed in sealing pipeline inner loop by driven compressor refrigerant, and by external fan, the condenser of high temperature blown to outdoor heat radiation respectively, by internal fan to the evaporator blowing of low temperature to indoor cooling; And,

One cool-heat-exchanger, it is a hollow housing, housing empty internal is provided with a high-voltage tube, a low-pressure end entrance and a low-pressure end that hollow housing is respectively equipped with conducting enclosure interior space export, on hollow housing, the high-pressure side entrance and the high-pressure side that are separately provided with conducting high-voltage tube two ends respectively export;

The syndeton of above-mentioned sealing pipeline and cool-heat-exchanger, by evaporator back end pipeline, be connected to the low-pressure end entrance of cool-heat-exchanger, exported by the low-pressure end of cool-heat-exchanger again, be connected to compressor, by condenser rear end pipeline, the high-pressure side entrance of cool-heat-exchanger is connected to through filter, exported by the high-pressure side of cool-heat-exchanger again, be connected to evaporimeter via capillary, the sealing pipeline configuration formed.