CN104676955A - Water and air source heat pump integrated machine total-heat recovery system - Google Patents

Abstract

The invention relates to a water and air source heat pump integrated machine total-heat recovery system which comprises a compressor, a four-way electromagnetic valve connected to one end of the compressor, a hot-water heat exchanger connected with the four-way electromagnetic valve, a liquid storage pot connected with the hot-water heat exchanger, a cold-water heat exchanger connected with the liquid storage pot and a fan heat exchanger. The liquid storage pot is connected with the four-way electromagnetic valve through at least one of the cold-water heat exchanger and the fan heat exchanger to realize heat recovery; the water and air source heat pump integrated machine total-heat recovery system further comprises a vapor liquid separator connected to the other end of each of the four-way electromagnetic valve and the compressor. By the arrangement, heat can be recovered, hot water can be generated, power consumption can be reduced, energy consumption is saved, and environment is protected.

Description

Water source, air source heat pump all-in-one total heat recovery system

Technical field

The present invention relates to a kind of heat pump for unit, particularly relate to a kind of water source, air source heat pump all-in-one total heat recovery system.

Background technology

Along with the development of society, energy problem seems particularly nervous, and the annual proportion that total energy consumes shared by the energy resource consumption of air conditioner industry of country is increasing, seems particularly important at the energy-saving and cost-reducing of air conditioner industry.Traditional air-conditioning, when cooling in summer, runs mainly through air-conditioning inner compressor, by the heat dissipation of indoor to outdoor.Facts have proved, when summer, outdoor environment temperature was higher than 35 DEG C, the runnability of air-conditioning starts to occur obvious decay, and along with working environment is more and more higher, also worse and worse, power consumption also becomes large to air conditioner refrigeration effect.And air-conditioning is when heating in the winter time, along with the decline of environment temperature, the heating effect of air-conditioning is also obviously deteriorated, and at this time will reach heating object, has to adopt electric auxiliary heating to complete, and so just greatly reduces air-conditioning heating operational efficiency and adds power consumption.

Summary of the invention

For the deficiency that prior art exists, the invention provides and a kind ofly can carry out heat recovery, can hot water be produced and power consumption can be reduced, save energy consumption, the water source of protection of the environment, air source heat pump all-in-one total heat recovery system.

To achieve these goals, the present invention realizes by the following technical solutions: a kind of water source, air source heat pump all-in-one total heat recovery system, comprise compressor, the four way solenoid valve be connected with compressor one end, the hot water heat exchanger be connected with four way solenoid valve and the fluid reservoir be connected with hot water heat exchanger, described water source, air source heat pump all-in-one total heat recovery system also comprises all tank connected cold-water heat exchanger and fan heat exchanger with liquid storage, by cold-water heat exchanger, at least one of them is connected with four way solenoid valve described fluid reservoir with fan heat exchanger, to realize heat recovery, described water source, air source heat pump all-in-one total heat recovery system also comprises the vapour liquid separator connecting described four way solenoid valve and the described compressor other end.

Further: described fluid reservoir and the first throttle device being provided with first Unidirectional solenoid valve tank connected with liquid storage, the first filter be connected with the first Unidirectional solenoid valve between cold-water heat exchanger successively and be connected with the first filter.

Further: the second check valve being provided with first check valve tank connected with liquid storage, the second Unidirectional solenoid valve be connected with the first check valve, the second filter be connected with the second Unidirectional solenoid valve, the second throttling arrangement be connected with the second filter between described fluid reservoir with fan heat exchanger successively and being connected with the second throttling arrangement.

Further: described fan heat exchanger is connected the bidirectional electromagnetic valve of described fan heat exchanger and described four way solenoid valve with being provided with between described four way solenoid valve.

Further: be provided with three Unidirectional solenoid valve tank connected with liquid storage between described fluid reservoir with fan heat exchanger successively and described fan heat exchanger and the described first throttle device being disposed with the 3rd check valve be connected with described fan heat exchanger, described first filter be connected with described 3rd check valve between described cold-water heat exchanger and be connected with described first filter.

Further: described hot water heat exchanger is provided with hot water outlet and hot water backwater's mouth, be provided with the first water pump between described hot water backwater's mouth and one end of hot water heat exchanger, described hot water heat exchanger carries out backwater by described first water pump.

Further: described cold-water heat exchanger is provided with cold water delivery port and cold-water return mouth, be provided with the second water pump between described cold-water return mouth and one end of cold-water heat exchanger, described cold-water heat exchanger carries out backwater by described second water pump.

Further: the side of described fan heat exchanger is provided with heat exchange blower fan.

Compared to prior art, water source of the present invention, at least there is following advantage in air source heat pump all-in-one total heat recovery system: described water source, air source heat pump all-in-one total heat recovery system comprises hot water heat exchanger, cold-water heat exchanger and fan heat exchanger, the recovery of heat can be realized, and then produce hot water or refrigeration, heat, reduce power consumption, by cold-water heat exchanger, at least one of them is connected with four way solenoid valve described fluid reservoir with fan heat exchanger, the total heat recovery of various ways can be realized, can for selecting according to user oneself, handled easily, hommization more, also save energy consumption simultaneously, protection of the environment.

Accompanying drawing explanation

The present invention is described in detail below in conjunction with the drawings and specific embodiments;

Fig. 1 is structural representation of the present invention.

Detailed description of the invention

The technological means realized for making the present invention, creation characteristic, reaching object and effect is easy to understand, below in conjunction with detailed description of the invention, setting forth the present invention further.

As shown in Figure 1, it illustrates a kind of water source of the present invention, air source heat pump all-in-one total heat recovery system, comprise compressor 1, the four way solenoid valve 2 be connected with compressor 1 one end, the hot water heat exchanger 30 be connected with four way solenoid valve 2 and the fluid reservoir 4 be connected with hot water heat exchanger 30, described water source, air source heat pump all-in-one total heat recovery system also comprises the cold-water heat exchanger 53 and fan heat exchanger 65 that are all connected with fluid reservoir 4, by cold-water heat exchanger 53, at least one of them is connected with four way solenoid valve 2 described fluid reservoir 4 with fan heat exchanger 65, to realize heat recovery, described water source, air source heat pump all-in-one total heat recovery system also comprises the vapour liquid separator 8 connecting described four way solenoid valve 2 and described compressor 1 other end.Described fluid reservoir 4 and the first throttle device 52 being provided with the first Unidirectional solenoid valve 50 be connected with fluid reservoir 4, the first filter 51 be connected with the first Unidirectional solenoid valve 50 between cold-water heat exchanger 53 successively and be connected with the first filter 51.Described fluid reservoir 4 be provided with the first check valve 60 be connected with fluid reservoir 4, the second Unidirectional solenoid valve 61 be connected with the first check valve 60, the second filter 62 be connected with the second Unidirectional solenoid valve 61, the second throttling arrangement 63 being connected 62 with the second filter and the second check valve 64 be connected with the second throttling arrangement 63 between fan heat exchanger 65 successively.The bidirectional electromagnetic valve 67 being connected described fan heat exchanger 65 and described four way solenoid valve 2 is provided with between described fan heat exchanger 65 with described four way solenoid valve 2.Described fluid reservoir 4 be provided with the 3rd Unidirectional solenoid valve 71 be connected with fluid reservoir 4 between fan heat exchanger 65 successively and the described first throttle device 52 being disposed with the 3rd check valve 70 be connected with described fan heat exchanger 65, described first filter 51 be connected with described 3rd check valve 70 between described fan heat exchanger 65 with described cold-water heat exchanger 53 and being connected with described first filter 51.Described hot water heat exchanger 30 is provided with hot water outlet 32 and hot water backwater's mouth 33, is provided with the first water pump 31 between described hot water backwater's mouth 32 and one end of hot water heat exchanger 30, and described hot water heat exchanger 30 carries out backwater by described first water pump 31.Described cold-water heat exchanger 53 is provided with cold water delivery port 56 and cold-water return mouth 55, is provided with the second water pump 54 between described cold-water return mouth 55 and one end of cold-water heat exchanger 53, and described cold-water heat exchanger 53 carries out backwater by described second water pump 54.The side of described fan heat exchanger 65 is provided with heat exchange blower fan 66.

Water source, air source heat pump all-in-one total heat recovery system can according to different seasons and different fields of employment, by the demand of operator according to oneself, select the mode of operation that four kinds different flexibly, be separate refrigeration respectively, refrigeration produces hot water simultaneously, heat produces hot water and independent heat production water simultaneously.

Separate refrigeration pattern: compressor 1 is energized work, cold-producing medium in system pipeline becomes high temperature and high pressure gaseous refrigerant and enters four way solenoid valve 2, now hot water heat exchanger 30 quits work, heat does not exchange release, high temperature and high pressure gaseous refrigerant flows through the 3rd Unidirectional solenoid valve 70 through fluid reservoir 4, heat is discharged in air by fan heat exchanger 65, the temperature of cold-producing medium reduces, and connect four way solenoid valve 2 by bidirectional electromagnetic valve 67 and get back to compressor 1 through vapour liquid separator 8, the once circulation of completion system, realizes the object of refrigeration.

Refrigeration produce hot-water mode simultaneously: during this work pattern and separate refrigeration similar, after cold-producing medium rejects heat in air, through the 3rd check valve 71 to the first filter 51 and first throttle device 52, to cold-water heat exchanger 53, heat unnecessary in cold-producing medium is absorbed by cold-water heat exchanger 53, and then generation hot water, the once circulation of completion system, produces the object of hot water while realizing refrigeration.

Heating produces hot-water mode simultaneously: compressor 1 is energized work, cold-producing medium in system pipeline becomes high temperature and high pressure gaseous refrigerant and enters four way solenoid valve 2, through hot water heat exchanger 30, now, this hot water heat exchanger 30 works, and the heat of absorption refrigeration agent, after through the first check valve 60, second Unidirectional solenoid valve 61, second filter 62, second throttling arrangement 63 and the second check valve 64 to fan heat exchanger 65, the refrigerant temperature reaching fan heat exchanger 65 reduces, and then be that indoor are excessively warm, the once circulation of completion system, the object of hot water is produced while realizing heating.

Independent heat production water: compressor 1 works, cold-producing medium in system pipeline enters four way solenoid valve 2, through the hot water heat exchanger 30 of work, reject heat in hot water, enter cold-water heat exchanger 53 by the first Unidirectional solenoid valve 50, first filter 51 and first throttle device 52 afterwards, and by remaining thermal release in cold water, improve the temperature of cold water, complete and once circulate, realize the object of independent heat production water.

Water source, air source heat pump all-in-one total heat recovery system comprise hot water heat exchanger 30, cold-water heat exchanger 53 and fan heat exchanger 65; the recovery of heat can be realized; and then produce hot water or refrigeration, heat; reduce power consumption; by cold-water heat exchanger 53, at least one of them is connected with four way solenoid valve 2 described fluid reservoir 4 with fan heat exchanger 65; the total heat recovery of various ways can be realized; can for selecting according to user oneself; handled easily; hommization more; also save energy consumption, protection of the environment simultaneously.

More than show and describe general principle of the present invention and principal character and advantage of the present invention.The technical staff of the industry should understand; the present invention is not restricted to the described embodiments; what describe in above-described embodiment and description just illustrates principle of the present invention; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements all fall in the claimed scope of the invention.Application claims protection domain is defined by appending claims and equivalent thereof.

Claims (8)

1. a water source, air source heat pump all-in-one total heat recovery system, it is characterized in that: comprise compressor, the four way solenoid valve be connected with compressor one end, the hot water heat exchanger be connected with four way solenoid valve and the fluid reservoir be connected with hot water heat exchanger, described water source, air source heat pump all-in-one total heat recovery system also comprises all tank connected cold-water heat exchanger and fan heat exchanger with liquid storage, by cold-water heat exchanger, at least one of them is connected with four way solenoid valve described fluid reservoir with fan heat exchanger, described water source, air source heat pump all-in-one total heat recovery system also comprises the vapour liquid separator connecting described four way solenoid valve and the described compressor other end.

2. water source, air source heat pump all-in-one total heat recovery system as claimed in claim 1, is characterized in that: described fluid reservoir and the first throttle device being provided with first Unidirectional solenoid valve tank connected with liquid storage, the first filter be connected with the first Unidirectional solenoid valve between cold-water heat exchanger successively and be connected with the first filter.

3. water source, air source heat pump all-in-one total heat recovery system as claimed in claim 2, is characterized in that: the second check valve being provided with first check valve tank connected with liquid storage, the second Unidirectional solenoid valve be connected with the first check valve, the second filter be connected with the second Unidirectional solenoid valve, the second throttling arrangement be connected with the second filter between described fluid reservoir with fan heat exchanger successively and being connected with the second throttling arrangement.

4. water source, air source heat pump all-in-one total heat recovery system as claimed in claim 3, is characterized in that: described fan heat exchanger is connected the bidirectional electromagnetic valve of described fan heat exchanger and described four way solenoid valve with being provided with between described four way solenoid valve.

5. water source, air source heat pump all-in-one total heat recovery system as claimed in claim 2, is characterized in that: be provided with three Unidirectional solenoid valve tank connected with liquid storage between described fluid reservoir with fan heat exchanger successively and described fan heat exchanger and the described first throttle device being disposed with the 3rd check valve be connected with described fan heat exchanger, described first filter be connected with described 3rd check valve between described cold-water heat exchanger and be connected with described first filter.

6. water source, air source heat pump all-in-one total heat recovery system as claimed in claim 1, it is characterized in that: described hot water heat exchanger is provided with hot water outlet and hot water backwater's mouth, be provided with the first water pump between described hot water backwater's mouth and one end of hot water heat exchanger, described hot water heat exchanger carries out backwater by described first water pump.

7. water source, air source heat pump all-in-one total heat recovery system as claimed in claim 1, it is characterized in that: described cold-water heat exchanger is provided with cold water delivery port and cold-water return mouth, be provided with the second water pump between described cold-water return mouth and one end of cold-water heat exchanger, described cold-water heat exchanger carries out backwater by described second water pump.

8. water source, air source heat pump all-in-one total heat recovery system as claimed in claim 1, is characterized in that: the side of described fan heat exchanger is provided with heat exchange blower fan.