CN202955785U - Air constant temperature dehumidification compound system - Google Patents

Abstract

The utility model discloses an air constant temperature dehumidification compound system which comprises a refrigerating system and a heating system. A first water side heat exchanger is connected in the refrigerating system in series, and a second water side heat exchanger is connected in the heating system in series. The air constant temperature dehumidification compound system is characterized in that the first water side heat exchanger is connected with a first tail end heat exchanger in an external mode, the first tail end heat exchanger is connected with the first water side heat exchanger through a pipeline to form a first heat exchange loop, the second water side heat exchanger is connected with a second tail end heat exchanger in an external mode, the second tail end heat exchanger is connected with the second water side heat exchanger through a pipeline to form a second heat exchange loop, and the second tail end heat exchanger is arranged in front of the first tail end heat exchanger. The air constant temperature dehumidification compound system can achieve constant temperature dehumidification of the air, and simultaneously has functions that refrigeration and heating are achieved and sanitary hot water is supplied for outside.

Description

Air constant temperature dehumidification hybrid system

Technical field

The utility model relates to filed of air conditioning, relates in particular to a kind of air constant temperature dehumidification hybrid system.

Background technology

In the terminal air handling system of traditional chilled water end or dual coil pipes, terminal unit constantly recycles the air in room, place, is cooled after making air by cold water or hot-water coil pipe or heats, to keep the constant of room temperature.Yet, realization refrigerated dehumidification or heat-production functions that this terminal air handling system can only be single.And dehumidify in low temperature and high relative humidity, air themperature constantly reduces, and can not guarantee temperature-resistant or rising.

Summary of the invention

Based on this, the utility model is to overcome the defective of prior art, and a kind of air constant temperature dehumidification hybrid system is provided, and this air constant temperature dehumidification hybrid system can realize the constant temperature dehumidification of air.

Its technical scheme is as follows:

A kind of air constant temperature dehumidification hybrid system, include refrigeration system and heating, be in series with the first water-side heat in the described refrigeration system, be in series with the second water-side heat in the described heating, it is characterized in that, described the first water-side heat is to being externally connected with the first end heat exchanger, this first end heat exchanger and the first water-side heat are connected to form the first heat-exchanging loop by pipeline, described the second water-side heat is to being externally connected with the second end heat exchanger, this second end heat exchanger and the second water-side heat are connected to form the second heat-exchanging loop by pipeline, in the air channel, described the second end heat exchanger places the place ahead of the first end heat exchanger.

The below describes further technical scheme:

Described refrigeration system also includes the first compressor, first throttle element and the first heat exchanger tube, described the first compressor, the first water-side heat, first throttle element and the first heat exchanger tube are connected to form the first heat-exchange working medium closed circuit by tube connector, this the first heat-exchange working medium closed circuit is connected in parallel with described the first heat-exchanging loop by described the first water-side heat, described heating also includes the second compressor, second section fluid element and the second heat exchanger tube, described the second compressor, the second water-side heat, second section fluid element and the second heat exchanger tube are connected to form the second heat-exchange working medium closed circuit by tube connector, and this second heat-exchange working medium closed circuit is connected in parallel with described the second heat-exchanging loop by described the second water-side heat.

Described the first water-side heat includes first and holds water tank and the first coil pipe, described the second water-side heat includes second and holds water tank and the second coil pipe, described the first coil pipe places in described the first appearance water tank and is connected on described the first heat-exchange working medium closed circuit, described the second coil pipe places in described the second appearance water tank and is connected on described the second heat-exchange working medium closed circuit, the first appearance water tank and second holds water tank and is equipped with water inlet and delivery port, first holds water tank is connected in described the first heat-exchanging loop by its water inlet and delivery port, and second holds water tank is connected in described the second heat-exchanging loop by its water inlet and delivery port.

Described air constant temperature dehumidification hybrid system also includes heat exchange fin, and described the first heat exchanger tube forms heat exchange be connected that heat exchanger tube is interspersed in the same set of heat exchange fin interlacedly and connects.

Described the first end heat exchanger rear also is provided with blower fan, this first end heat exchanger, the second end heat exchanger and blower fan form air-conditioner tail end equipment capable jointly, and described the first water-side heat and the second water-side heat are connected with a plurality of described air-conditioner tail end equipment capables in parallel by pipeline.

Described air constant temperature dehumidification hybrid system also includes the first water storage box, and this first water storage box is established external feed water inlet, and the first water storage box is arranged in the pipeline that connects described the second water-side heat and the second end heat exchanger.

Described the first water storage box and the second water-side heat are connected to form the first water-flow circuit by pipeline, and described the first water storage box and the second end heat exchanger are connected to form the second water-flow circuit by pipeline.

Further, described air constant temperature dehumidification hybrid system also includes the second water storage box, and the second water storage box is connected in the pipeline of the water inlet that connects the first water-side heat and the first end heat exchanger.

Described the second water storage box is provided with water intake end in parallel and water side in parallel, be called water inlet pipe with the water intake end that connects described the first water storage box and the pipeline of the second end heat exchanger, be called outlet pipe with the water side that connects the first water storage box and the pipeline of the 3rd water circulating pump, also all be connected by pipeline between between described water intake end in parallel and the described water inlet pipe and described water side in parallel and the described outlet pipe.

On the pipeline between described water side in parallel and the described outlet pipe the first water valve is installed, on the pipeline between described water intake end in parallel and the described water inlet pipe the second water valve is installed, the 3rd water valve is installed on the described water inlet pipe, the 4th water valve is installed on the described outlet pipe.

The below describes advantage or the principle of aforementioned techniques scheme:

1, described refrigeration system is freezed in the first water-side heat, water in the first heat-exchanging loop temperature when flowing through this first water-side heat reduces and becomes cold water, then cold water enters described the first end heat exchanger, cold water and the air in the air channel in the first end heat exchanger carry out heat exchange, thereby air is carried out cooling and dehumidifying, described heating heats in the second water-side heat, water in the second heat-exchanging loop temperature when flowing through this second water-side heat raises and becomes hot water, then hot water enters described the second end heat exchanger, then through the air of the first end heat exchanger cool-down dehumidification can with the second end heat exchanger in again heat exchange of hot water, air themperature is raise, and then realize that air can keep constant temperature except under the wet cooling condition, described the second end heat exchanger is located at the place ahead of the first end heat exchanger, be to guarantee that the air in the air channel can carry out heat exchange with the first end heat exchanger first, and then with the second end heat exchanger heat exchange.Therefore this air constant temperature dehumidification hybrid system can realize the constant temperature dehumidification of air.This air constant temperature dehumidification hybrid system has in fact also realized the function of refrigeration, heating by described the first end heat exchanger and the second end heat exchanger in addition.

2, heat-exchange working medium in described the first heat-exchange working medium closed circuit can be realized absorption refrigeration in the first water-side heat, and this first heat-exchange working medium closed circuit is connected in parallel by described the first water-side heat and described the first heat-exchanging loop, thereby the water in the first heat-exchanging loop is when flowing through the first water-side heat, can carry out heat exchange and produce cold water with the first water-side heat, heat-exchange working medium in described the second heat-exchange working medium closed circuit can realize that in the second water-side heat heat release heats, and this second heat-exchange working medium closed circuit is connected in parallel by described the second water-side heat and described the second heat-exchanging loop, thereby the water in the second heat-exchanging loop can carry out heat exchange and produce hot water with this second water-side heat when flowing through the second water-side heat.

3, described the first coil pipe holds in the water tank and is connected in the first heat-exchange working medium closed circuit first, first holds water tank then is connected in the first heat-exchanging loop, can realize that then water in above-mentioned the first heat-exchanging loop becomes cold water because of heat exchange when flowing through the first water-side heat, described the second coil pipe places in described the second appearance water tank and is connected on described the second heat-exchange working medium closed circuit, second holds water tank then is connected in the second heat-exchanging loop, can realize that then water in above-mentioned the second heat-exchanging loop becomes hot water because of heat exchange when flowing through the second water-side heat.

4, described the first heat exchanger tube forms heat exchange be connected that heat exchanger tube is interspersed in the same set of heat exchange fin interlacedly and connects, then between the first heat exchanger tube and the second heat exchanger tube, realized cold and hot exchange, strengthened heat exchange efficiency, be conducive to realize that the first end heat exchanger and the second end heat exchanger to the constant temperature dehumidification of air, have also reached energy-conservation effect simultaneously.

5, described the first water storage box is established external feed water inlet, and the first water storage box is arranged in the pipeline that connects described the second water-side heat and the second end heat exchanger, so this air constant temperature dehumidification hybrid system can also realize externally supplying health hot water.

6, described the first water-flow circuit constantly heats the water in the first water storage box by the second water-side heat, described the second water-flow circuit then constantly makes the flow of hot water in the first water storage box carry out heat exchange through the second end heat exchanger with this second terminal heat exchange, and the air themperature behind the cooling and dehumidifying is raise.

7, between the water intake end in parallel of the second water storage box and the described water inlet pipe with and water side in parallel and described outlet pipe between all be connected by pipeline, described water valve matches with it simultaneously, then can make the temperature of water when just entering the first water-side heat in the first heat-exchanging loop relatively low, can further strengthen the refrigeration of the first end heat exchanger, also make simultaneously the temperature of water when flowing out the first water storage box of the second water-flow circuit relatively high, can further strengthen the heating effect of the second end heat exchanger.

Description of drawings

Fig. 1 is the structural representation of the utility model embodiment one described air constant temperature dehumidification hybrid system.

Fig. 2 is the structural representation of the utility model embodiment two described air constant temperature dehumidification hybrid systems.

Description of reference numerals:

1, the first compressor, 2, the first cross valve, 3, the first water-side heat, 4, the first throttle element, 5, the first heat exchanger tube, 6, the second compressor, 7, the second cross valve, 8, the second water-side heat, 9, the second section fluid element, 10, the second heat exchanger tube, 11, the first end heat exchanger, 12, the second end heat exchanger, 13, the first water circulating pump, 14, the second water circulating pump, 15, the 3rd water circulating pump, 16, the first water storage box, 1601, external feed water inlet, 17, the second water storage box, 1701, water intake end in parallel, 1702, water side in parallel, 18, the first water valve, 19, the second water valve, 20, the 3rd water valve, 21, the 4th water valve, 22, heat exchange fin, 23, blower fan, 24, main frame.

The specific embodiment

The below is elaborated to embodiment of the present utility model:

Embodiment one

As shown in Figure 1, a kind of air constant temperature dehumidification hybrid system, include refrigeration system and heating, be in series with the first water-side heat 3 in the described refrigeration system, be in series with the second water-side heat 8 in the described heating, it is characterized in that, 3 pairs of described the first water-side heats are externally connected with the first end heat exchanger 11, this first end heat exchanger 11 and the first water-side heat 3 are connected to form the first heat-exchanging loop by pipeline, 8 pairs of described the second water-side heats are externally connected with the second end heat exchanger 12, this second end heat exchanger 12 and the second water-side heat 8 are connected to form the second heat-exchanging loop by pipeline, in the air channel, described the second end heat exchanger 12 places the place ahead of the first end heat exchanger 11.

Wherein, described refrigeration system and heating are installed in the main frame 24, described refrigeration system also includes the first compressor 1, the first cross valve 2, first throttle element 4 and the first heat exchanger tube 5, described the first compressor 1, the first cross valve 2, the first water-side heat 3, first throttle element 4 and the first heat exchanger tube 5 are connected to form the first heat-exchange working medium closed circuit by tube connector, this the first heat-exchange working medium closed circuit is connected in parallel with described the first heat-exchanging loop by described the first water-side heat 3, described heating also includes the second compressor 6, the second cross valve 7, second section fluid element 9 and the second heat exchanger tube 10, described the second compressor 6, the second cross valve 7, the second water-side heat 8, second section fluid element 9 and the second heat exchanger tube 10 are connected to form the second heat-exchange working medium closed circuit by tube connector, and this second heat-exchange working medium closed circuit is connected in parallel with described the second heat-exchanging loop by described the second water-side heat 8.Described the first water-side heat 3 includes first and holds water tank and the first coil pipe, described the second water-side heat 8 includes second and holds water tank and the second coil pipe, described the first coil pipe places in described the first appearance water tank and is connected on described the first heat-exchange working medium closed circuit, described the second coil pipe places in described the second appearance water tank and is connected on described the second heat-exchange working medium closed circuit, the first appearance water tank and second holds water tank and is equipped with water inlet and delivery port, first holds water tank is connected in described the first heat-exchanging loop by its water inlet and delivery port, and second holds water tank is connected in described the second heat-exchanging loop by its water inlet and delivery port.Also be in series with the first water circulating pump 13 in described the first heat-exchanging loop, also be in series with the second water circulating pump 14 in described the second heat-exchanging loop.Described air constant temperature dehumidification hybrid system includes heat exchange fin 22, and described the first heat exchanger tube 5 forms heat exchange be connected that heat exchanger tube 10 is interspersed in the same set of heat exchange fin 22 interlacedly and connects.In the air channel, described the first end heat exchanger 11 rears also are provided with blower fan 23, this first end heat exchanger 11, the second end heat exchanger 12 and the blower fan 23 common air-conditioner tail end equipment capables that form, described the first water-side heat 3 and the second water-side heat 8 are connected with a plurality of described air-conditioner tail end equipment capables in parallel by pipeline.

Described air constant temperature dehumidification hybrid system also includes the first water storage box 16 and the 3rd water circulating pump 15, this first water storage box 16 is established external feed water inlet 1601, the first water storage boxes 16 and is arranged in the pipeline that connects described the second water-side heat 8 and the second end heat exchanger 12.Described the first water storage box 16, the second water circulating pump 14 and the second water-side heat 8 are connected to form the first water-flow circuit by pipeline, and described the first water storage box 16, the 3rd water circulating pump 15 and the second end heat exchanger 12 are connected to form the second water-flow circuit by pipeline.

Advantage or the principle of present embodiment are as follows:

1, described refrigeration system is freezed in the first water-side heat 3, water in the first heat-exchanging loop temperature when flowing through this first water-side heat 3 reduces and becomes cold water, then cold water enters described the first end heat exchanger 11, cold water and the air in the air channel in the first end heat exchanger 11 carry out heat exchange, thereby air is carried out cooling and dehumidifying, described heating heats in the second water-side heat 8, water in the second heat-exchanging loop temperature when flowing through this second water-side heat 8 raises and becomes hot water, then hot water enters described the second end heat exchanger 12, then through the air of the first end heat exchanger 11 dehumidifying and coolings can with the second end heat exchanger 12 in again heat exchange of hot water, air themperature is raise, and then realize that air can keep constant temperature except under the wet cooling condition, described the second end heat exchanger 12 is located at the place ahead of the first end heat exchanger 11, be to guarantee that the air in the air channel can carry out heat exchange with the first end heat exchanger 11 first, and then with 12 heat exchanges of the second end heat exchanger.Therefore this air constant temperature dehumidification hybrid system can realize the constant temperature dehumidification of air.This air constant temperature dehumidification hybrid system has in fact also realized the function of refrigeration, heating by described the first end heat exchanger 11 and the second end heat exchanger 12 in addition.

2, heat-exchange working medium in described the first heat-exchange working medium closed circuit can be realized absorption refrigeration in the first water-side heat 3, and this first heat-exchange working medium closed circuit is connected in parallel with described the first heat-exchanging loop by described the first water-side heat 3, thereby the water in the first heat-exchanging loop is when flowing through the first water-side heat 3, can carry out heat exchange and produce cold water with the first water-side heat 3, heat-exchange working medium in described the second heat-exchange working medium closed circuit can realize that heat release heats in the second water-side heat 8, and this second heat-exchange working medium closed circuit is connected in parallel with described the second heat-exchanging loop by described the second water-side heat 8, thereby the water in the second heat-exchanging loop can carry out heat exchange and produce hot water with this second water-side heat 8 when flowing through the second water-side heat 8.

3, described the first coil pipe holds in the water tank and is connected in the first heat-exchange working medium closed circuit first, first holds water tank then is connected in the first heat-exchanging loop, can realize that then water in above-mentioned the first heat-exchanging loop becomes cold water because of heat exchange when flowing through the first water-side heat 3, described the second coil pipe places in described the second appearance water tank and is connected on described the second heat-exchange working medium closed circuit, second holds water tank then is connected in the second heat-exchanging loop, can realize that then water in above-mentioned the second heat-exchanging loop becomes hot water because of heat exchange when flowing through the second water-side heat 8.

4, described the first heat exchanger tube 5 forms heat exchange be connected that heat exchanger tube 10 is interspersed in the same set of heat exchange fin 22 interlacedly and connects, then between the first heat exchanger tube 5 and the second heat exchanger tube 10, realized cold and hot exchange, strengthened heat exchange efficiency, be conducive to realize the constant temperature dehumidification of the first end heat exchanger 11 and 12 pairs of air of the second end heat exchanger, also reached energy-conservation effect simultaneously.

5, described the first water storage box 16 is established external feed water inlet 1601, the first water storage box 16 is arranged in the pipeline that connects described the second water-side heat 8 and the second end heat exchanger 12, so this air constant temperature dehumidification hybrid system can also realize externally supplying health hot water.

6, described the first water-flow circuit constantly heats by the water in 8 pairs of the first water storage boxes 16 of the second water-side heat, described the second water-flow circuit then constantly makes the flow of hot water in the first water storage box 16 carry out heat exchange through the second end heat exchanger 12 with this second terminal heat exchange, and the air themperature behind the cooling and dehumidifying is raise.

Embodiment two

As shown in Figure 2, a kind of air constant temperature dehumidification hybrid system, include refrigeration system and heating, be in series with the first water-side heat 3 in the described refrigeration system, be in series with the second water-side heat 8 in the described heating, it is characterized in that, 3 pairs of described the first water-side heats are externally connected with the first end heat exchanger 11, this first end heat exchanger 11 and the first water-side heat 3 are connected to form the first heat-exchanging loop by pipeline, 8 pairs of described the second water-side heats are externally connected with the second end heat exchanger 12, this second end heat exchanger 12 and the second water-side heat 8 are connected to form the second heat-exchanging loop by pipeline, in the air channel, described the second end heat exchanger 12 places the place ahead of the first end heat exchanger 11.

Wherein, described refrigeration system and heating are installed in the main frame 24, described refrigeration system also includes the first compressor 1, the first cross valve 2, first throttle element 4 and the first heat exchanger tube 5, described the first compressor 1, the first cross valve 2, the first water-side heat 3, first throttle element 4 and the first heat exchanger tube 5 are connected to form the first heat-exchange working medium closed circuit by tube connector, this the first heat-exchange working medium closed circuit is connected in parallel with described the first heat-exchanging loop by described the first water-side heat 3, described heating also includes the second compressor 6, the second cross valve 7, second section fluid element 9 and the second heat exchanger tube 10, described the second compressor 6, the second cross valve 7, the second water-side heat 8, second section fluid element 9 and the second heat exchanger tube 10 are connected to form the second heat-exchange working medium closed circuit by tube connector, and this second heat-exchange working medium closed circuit is connected in parallel with described the second heat-exchanging loop by described the second water-side heat 8.Described the first water-side heat 3 includes first and holds water tank and the first coil pipe, described the second water-side heat 8 includes second and holds water tank and the second coil pipe, described the first coil pipe places in described the first appearance water tank and is connected on described the first heat-exchange working medium closed circuit, described the second coil pipe places in described the second appearance water tank and is connected on described the second heat-exchange working medium closed circuit, the first appearance water tank and second holds water tank and is equipped with water inlet and delivery port, first holds water tank is connected in described the first heat-exchanging loop by its water inlet and delivery port, and second holds water tank is connected in described the second heat-exchanging loop by its water inlet and delivery port.Also be in series with the first water circulating pump 13 in described the first heat-exchanging loop, also be in series with the second water circulating pump 14 in described the second heat-exchanging loop.Described air constant temperature dehumidification hybrid system also includes heat exchange fin 22, and described the first heat exchanger tube 5 forms heat exchange be connected that heat exchanger tube 10 is interspersed in the same set of heat exchange fin 22 interlacedly and connects.In the air channel, described the first end heat exchanger 11 rears also are provided with blower fan 23, this first end heat exchanger 11, the second end heat exchanger 12 and the blower fan 23 common air-conditioner tail end equipment capables that form, described the first water-side heat 3 and the second water-side heat 8 are connected with a plurality of described air-conditioner tail end equipment capables in parallel by pipeline.

Described air constant temperature dehumidification hybrid system also includes the first water storage box 16 Hes, and this first water storage box 16 is established external feed water inlet 1601, the first water storage boxes 16 and is arranged in the pipeline that connects described the second water-side heat 8 and the second end heat exchanger 12.Described the first water storage box 16, the second water circulating pump 14 and the second water-side heat 8 are connected to form the first water-flow circuit by pipeline, and described the first water storage box 16, the 3rd water circulating pump 15 and the second end heat exchanger 12 are connected to form the second water-flow circuit by pipeline.

Further, described air constant temperature dehumidification hybrid system also includes in the pipeline that the second water storage box 17, the second water storage boxes 17 are connected on the water inlet that connects the first water-side heat 3 and the first end heat exchanger 11.Described the second water storage box 17 is provided with water intake end 1701 in parallel and water side in parallel 1702, be called water inlet pipe with the water intake end that connects described the first water storage box 16 and the pipeline of the second end heat exchanger 12, be called outlet pipe with the water side that connects the first water storage box 16 and the pipeline of the 3rd water circulating pump 15, also all be connected by pipeline between between described water intake end 1701 in parallel and the described water inlet pipe and described water side in parallel 1702 and the described outlet pipe.The first water valve 18 is installed on the pipeline between described water side in parallel 1702 and the described outlet pipe, the second water valve 19 is installed on the pipeline between described water intake end in parallel 1701 and the described water inlet pipe, the 3rd water valve 20 is installed on the described water inlet pipe, the 4th water valve 21 is installed on the described outlet pipe.

The utility model embodiment two also has the following advantages except having the same advantage of the utility model embodiment one:

Between the water intake end in parallel 1701 of the second water storage box 17 and the described water inlet pipe with and water side in parallel 1702 and described outlet pipe between all be connected by pipeline, described water valve matches with it simultaneously, then can make the temperature of water when just entering the first water-side heat 3 in the first heat-exchanging loop relatively low, can further strengthen the refrigeration of the first end heat exchanger 11, also make simultaneously the temperature of water when flowing out the first water storage box 16 of the second water-flow circuit relatively high, can further strengthen the heating effect of the second end heat exchanger 12.

The above embodiment has only expressed the specific embodiment of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model claim.Should be pointed out that for the person of ordinary skill of the art without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.

Claims (10)

1. air constant temperature dehumidification hybrid system, it is characterized in that, include refrigeration system and heating, be in series with the first water-side heat in the described refrigeration system, be in series with the second water-side heat in the described heating, it is characterized in that, described the first water-side heat is to being externally connected with the first end heat exchanger, this first end heat exchanger and the first water-side heat are connected to form the first heat-exchanging loop by pipeline, described the second water-side heat is to being externally connected with the second end heat exchanger, this second end heat exchanger and the second water-side heat are connected to form the second heat-exchanging loop by pipeline, in the air channel, described the second end heat exchanger places the place ahead of the first end heat exchanger.

2. air constant temperature dehumidification hybrid system according to claim 1, it is characterized in that, described refrigeration system also includes the first compressor, first throttle element and the first heat exchanger tube, described the first compressor, the first water-side heat, first throttle element and the first heat exchanger tube are connected to form the first heat-exchange working medium closed circuit by tube connector, this the first heat-exchange working medium closed circuit is connected in parallel with described the first heat-exchanging loop by described the first water-side heat, described heating also includes the second compressor, second section fluid element and the second heat exchanger tube, described the second compressor, the second water-side heat, second section fluid element and the second heat exchanger tube are connected to form the second heat-exchange working medium closed circuit by tube connector, and this second heat-exchange working medium closed circuit is connected in parallel with described the second heat-exchanging loop by described the second water-side heat.

3. air constant temperature dehumidification hybrid system according to claim 2, it is characterized in that, described the first water-side heat includes first and holds water tank and the first coil pipe, described the second water-side heat includes second and holds water tank and the second coil pipe, described the first coil pipe places in described the first appearance water tank and is connected on described the first heat-exchange working medium closed circuit, described the second coil pipe places in described the second appearance water tank and is connected on described the second heat-exchange working medium closed circuit, the first appearance water tank and second holds water tank and is equipped with water inlet and delivery port, first holds water tank is connected in described the first heat-exchanging loop by its water inlet and delivery port, and second holds water tank is connected in described the second heat-exchanging loop by its water inlet and delivery port.

4. air constant temperature dehumidification hybrid system according to claim 2 is characterized in that, also includes heat exchange fin, and described the first heat exchanger tube forms heat exchange be connected that heat exchanger tube is interspersed in the same set of heat exchange fin interlacedly and connects.

5. air constant temperature dehumidification hybrid system according to claim 1, it is characterized in that, described the first end heat exchanger rear also is provided with blower fan, this first end heat exchanger, the second end heat exchanger and blower fan form air-conditioner tail end equipment capable jointly, and described the first water-side heat and the second water-side heat are connected with a plurality of described air-conditioner tail end equipment capables in parallel by pipeline.

6. according to claim 1 to 5 each described air constant temperature dehumidification hybrid systems, it is characterized in that, also include the first water storage box, this first water storage box is established external feed water inlet, and the first water storage box is arranged in the pipeline that connects described the second water-side heat and the second end heat exchanger.

7. air constant temperature dehumidification hybrid system according to claim 6, it is characterized in that, described the first water storage box and the second water-side heat are connected to form the first water-flow circuit by pipeline, and described the first water storage box and the second end heat exchanger are connected to form the second water-flow circuit by pipeline.

8. air constant temperature dehumidification hybrid system according to claim 7 is characterized in that, also includes the second water storage box, and the second water storage box is connected in the pipeline of the water inlet that connects the first water-side heat and the first end heat exchanger.

9. air constant temperature dehumidification hybrid system according to claim 8, it is characterized in that, described the second water storage box is provided with water intake end in parallel and water side in parallel, be called water inlet pipe with the water intake end that connects described the first water storage box and the pipeline of the second end heat exchanger, be called outlet pipe with the water side that connects the first water storage box and the pipeline of the 3rd water circulating pump, also all be connected by pipeline between between described water intake end in parallel and the described water inlet pipe and described water side in parallel and the described outlet pipe.

10. air constant temperature dehumidification hybrid system according to claim 9, it is characterized in that, on the pipeline between described water side in parallel and the described outlet pipe the first water valve is installed, on the pipeline between described water intake end in parallel and the described water inlet pipe the second water valve is installed, the 3rd water valve is installed on the described water inlet pipe, the 4th water valve is installed on the described outlet pipe.

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