CN212987473U

CN212987473U - Air source triple co-generation

Info

Publication number: CN212987473U
Application number: CN202021746398.0U
Authority: CN
Inventors: 巫宗进; 曾锦恩
Original assignee: Guangdong Bilai Energy Saving Equipment Co ltd
Current assignee: Guangdong Bilai Energy Saving Equipment Co ltd
Priority date: 2020-08-19
Filing date: 2020-08-19
Publication date: 2021-04-16
Anticipated expiration: 2030-08-19

Abstract

The utility model relates to an air source trigeminy supplies, it includes casing, fluorine way system, waterway system, pipeline heat exchanger, is used for communicating the outlet pipe of terminal equipment and is used for communicating the wet return of terminal equipment, fluorine way system includes compressor, cross valve, electronic expansion valve and plate heat exchanger; air source trigeminy supplies, fluorine way system closed circulation, and terminal equipment need not to connect fluorine way system, and the fluorine problem of leaking is stopped, reduces engineering installation work load, easy to assemble, and reduce cost, terminal equipment utilize waterway system to carry out the heat exchange refrigeration or heat or form hot water, through utilizing the temperature, can obtain control room temperature, and lock moisture, reach the natural environment state, let the human experience feel strong, more comfortable, warm and healthy.

Description

Air source triple co-generation

Technical Field

The utility model relates to an air source trigeminy supplies.

Background

At present, air conditioners, single body double combined supply, water heaters and the like are applied to the market, and the split mode is adopted, so that the installation is complex, the occupied area is large, and the appearance is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a terminal equipment need not connect fluorine way system, only needs to connect water piping system and just can directly use, and the fluorine problem of stopping leak reduces engineering installation work load, possesses an air source trigeminy confession of refrigeration, heating and hot water supply function.

The purpose of the utility model is realized like this:

an air source triple co-generation device comprises a shell, a fluorine path system, a water path system, a pipeline type heat exchanger, a water outlet pipe used for being communicated with terminal equipment and a water return pipe used for being communicated with the terminal equipment, wherein the fluorine path system comprises a compressor, a four-way valve, an electronic expansion valve and a plate type heat exchanger;

the pipeline type heat exchanger comprises a waterway outer pipe and a fluorine path inner pipe, and the fluorine path inner pipe is arranged in the inner cavity of the waterway outer pipe;

the four-way valve is provided with a D opening, an E switch, a C opening and an S opening, an exhaust port of the compressor is connected with the D opening of the four-way valve, an E outlet of the four-way valve is communicated with one port of the fluorine path inner tube, the other port of the fluorine path inner tube is communicated with one port of the electronic expansion valve, the other port of the electronic expansion valve is communicated with one port of the plate heat exchanger, the other port of the plate heat exchanger is communicated with the C opening of the four-way valve, and the S opening of the four-way valve;

the waterway system comprises a heat-insulating water container, a three-way valve, a water pump, a water flow switch and a flowmeter, wherein the heat-insulating water container is provided with a tap water inlet, a water outlet, a hot water inlet, a hot water outlet and a sewage discharge outlet;

the water outlet is communicated with the opening A of the three-way valve, the opening B of the three-way valve is communicated with the inlet of the water pump, the outlet of the water pump is communicated with one port of the flow switch, the other port of the flow switch is communicated with one end of the outer water channel pipe, the other end of the outer water channel pipe is respectively communicated with the water outlet pipe and the hot water inlet, and the opening C of the three-way valve is communicated with the water return pipe;

the water outlet pipe, the water return pipe, the tap water inlet, the hot water outlet and the sewage outlet of the waterway system are exposed out of the casing, and the refrigerant filling pipe of the fluorine system is exposed out of the casing.

Controlling the fluorine path system to refrigerate, enabling the formed low-temperature low-pressure liquid refrigerant to enter the fluorine path inner tube, carrying out heat exchange between water in the water path outer tube and the refrigerant in the fluorine path inner tube to form cold water, and transmitting the cold water to the terminal equipment through the water path outer tube to realize refrigeration of the terminal equipment;

controlling the fluorine path system to heat, enabling the formed high-temperature and high-pressure gas refrigerant to enter the fluorine path inner tube, carrying out heat exchange between water in the water path outer tube and the refrigerant in the fluorine path inner tube to form hot water, and transmitting the hot water to the terminal equipment through the water path outer tube to realize heating of the terminal equipment;

during domestic water, the water of the heat-preservation water container flows into the outer water path pipe, the water of the outer water path pipe and the refrigerant of the inner fluorine path pipe are subjected to heat exchange to form hot water, the hot water enters the heat-preservation water container, the protection water container stores the hot water, and when a user needs the hot water, the hot water is discharged through a hot water outlet of the heat-preservation water container to be used by the user.

Air source trigeminy supplies, fluorine way system closed circulation, and terminal equipment need not to connect fluorine way system, and the fluorine problem of leaking is stopped, reduces engineering installation work load, easy to assemble, and reduce cost, terminal equipment utilize waterway system to carry out the heat exchange refrigeration or heat or form hot water, through utilizing the temperature, can obtain control room temperature, and lock moisture, reach the natural environment state, let the human experience feel strong, more comfortable, warm and healthy.

The purpose of the utility model can also adopt the following technical measures to solve:

more specifically, the waterway outer pipe and the fluorine pipe inner pipe are wound into a coil shape. The coiled shape enables the heat exchange between the water in the outer pipe of the water channel and the refrigerant in the inner pipe of the fluorine channel to be more sufficient, and the heat exchange effect is improved.

More specifically, a water liner temperature sensor is arranged in the heat-preservation water liner and used for monitoring the temperature of the heat-preservation water liner.

As a more specific scheme, a water outlet temperature sensor is arranged at the water outlet end of the water path outer pipe and used for monitoring the temperature of the heat preservation water path outer pipe.

As a more specific scheme, an outlet of the water outlet pipe is connected with a water outlet hydraulic balancer, and an inlet of the water return pipe is connected with a water return hydraulic balancer.

As a more specific scheme, the terminal equipment is a water cooling fan, a water inlet of the water cooling fan is communicated with the water outlet hydraulic balancer, and a water outlet of the water cooling fan is communicated with the water return hydraulic balancer.

As a more specific scheme, an outlet of the water outlet pipe is connected with a water separator, and an inlet of the water return pipe is connected with a water return device.

As a more specific scheme, the terminal equipment is a floor heating device, a water inlet of the floor heating device is communicated with an outlet of the water separator, and a water outlet of the floor heating device is communicated with an inlet of the water return device.

More specifically, the hot water outlet is communicated with a faucet.

As a more specific scheme, the system further comprises a circuit board, wherein the circuit board is provided with a wireless signal receiving module, and the compressor, the four-way valve, the three-way valve, the electronic expansion valve and the plate heat exchanger are respectively and electrically connected with the circuit board. The wireless signal receiving module generally has the functions of a wife or 5G module, and can control and monitor the machine in real time.

The utility model has the advantages as follows:

the utility model discloses, control fluorine way system refrigeration, form low temperature low pressure liquid refrigerant and get into fluorine way inner tube, the water of water route outer tube carries out the heat exchange with the refrigerant of fluorine way inner tube and forms cold water, and cold water passes through the water route outer tube and transmits to terminal equipment, realizes terminal equipment refrigeration;

the utility model discloses, control fluorine way system and heat, form high temperature high pressure gas refrigerant and get into fluorine way inner tube, the water of water route outer tube and the refrigerant of fluorine way inner tube carry out the heat exchange and form hot water, hot water passes through the outer tube of water route and transmits to terminal equipment, realizes that terminal equipment heats;

the utility model discloses, during domestic water, the rivers of heat preservation water courage go into the water route outer tube, and the water of water route outer tube carries out the heat exchange with the refrigerant of fluorine way inner tube and forms the hot water, and hot water gets into the heat preservation water courage, and protection water courage storage hot water, when the user needs hot water, the hot water export discharge confession user that the hot water passes through the heat preservation water courage uses.

The utility model discloses, air source trigeminy supplies, fluorine way system closed circulation, and terminal equipment need not to connect fluorine way system, and the fluorine problem of leaking is stopped to the evading, reduces engineering installation work load, easy to assemble, and reduce cost, terminal equipment utilize water piping system to carry out the heat exchange refrigeration or heat or form hot water, through utilizing the temperature, can obtain control room temperature, and lock moisture, reach the natural environment state, let the human body test feel strong, more comfortable, warm and healthy.

Drawings

Fig. 1 is a schematic diagram of air source triple supply.

Fig. 2 is another angle schematic diagram of air source triple supply.

Fig. 3 is a schematic diagram of air source triple supply (except for a part of the casing).

Fig. 4 is a schematic diagram of air source triple supply.

Fig. 5 is a schematic diagram of an air source triple supply connection terminal device.

Detailed Description

The invention will be further described with reference to the following drawings and examples:

in the embodiment, as shown in fig. 1 to 5, an air source triple co-generation system includes a casing 1, a fluorine path system 2, a water path system 3, a pipe heat exchanger 4, a water outlet pipe 6 for communicating with a terminal device, a water return pipe 7 for communicating with the terminal device, and a circuit board, where the fluorine path system 2 includes a compressor 21, a four-way valve 22, an electronic expansion valve 23, and a plate heat exchanger 24.

The pipe heat exchanger 4 comprises a water path outer pipe 41 and a fluorine path inner pipe 42, the water path outer pipe 41 and the fluorine path inner pipe 42 are both wound into a coiled shape, the fluorine path inner pipe 42 is arranged in the inner cavity of the water path outer pipe 41, a water outlet temperature sensor 43 is arranged at the water outlet end of the water path outer pipe 41, the water outlet temperature sensor 43 is used for monitoring the temperature of the heat preservation water path outer pipe 41, and the water outlet temperature sensor 43 is electrically connected with the circuit board.

The shell 1 is provided with a cooling fan 11 beside the plate heat exchanger 24, and the cooling fan 11 blows towards the plate heat exchanger 24.

The four-way valve 22 is provided with a D opening, an E opening, a C opening and an S opening, an exhaust port of the compressor 21 is connected with the D opening of the four-way valve 22, the E outlet of the four-way valve 22 is communicated with one port of the fluorine path inner tube 42, the other port of the fluorine path inner tube 42 is communicated with one port of the electronic expansion valve 23, the other port of the electronic expansion valve 23 is communicated with one port of the plate type heat exchanger 24, the other port of the plate type heat exchanger 24 is communicated with the C opening of the four-way valve 22, and the S opening of the four-way valve 22.

Waterway system 3 includes heat preservation water container 5, three-way valve 31, water pump 32, water flow switch 33 and flowmeter 34, heat preservation water container 5 is provided with running water entry 51, outlet 52, hot water entry 53, hot water export 54 and drain 55, hot water export 54 sets up at heat preservation water container 5's top, and drain 55 sets up in heat preservation water container 5's bottom, and hot water entry 53 is higher than running water entry 51 and outlet 52, heat preservation water container 5 embeds there is water container temperature sensor 56, and water container temperature sensor 56 is used for monitoring heat preservation water container 5's temperature, and water container temperature sensor 56 and circuit board electricity are connected.

The three-way valve 31 is provided with an opening A, an opening B and an opening C, the water outlet 52 is communicated with the opening A of the three-way valve 31, the opening B of the three-way valve 31 is communicated with the inlet of the water pump 32, the outlet of the water pump 32 is communicated with one port of the flow switch, the other port of the flow switch is communicated with one end of the outer waterway pipe 41, the other end of the outer waterway pipe 41 is respectively communicated with the water outlet pipe 6 and the hot water inlet 53, and the opening C of the three-way valve 31 is communicated with.

The water outlet pipe 6, the water return pipe 7, the tap water inlet 51, the hot water outlet 54 and the sewage draining outlet 55 of the waterway system 3 are exposed out of the machine shell 1, and the refrigerant filling pipe 25 of the waterway system 2 is exposed out of the machine shell 1.

The outlet of the water outlet pipe 6 is connected with a water outlet hydraulic balancer 61, the inlet of the water return pipe 7 is connected with a water return hydraulic balancer 71, the terminal equipment is a water cooling fan 8, the water inlet of the water cooling fan 8 is communicated with the water outlet hydraulic balancer 61, and the water outlet of the water cooling fan 8 is communicated with the water return hydraulic balancer 71.

The exit linkage of outlet pipe 6 has water knockout drum 62, and the entry linkage of wet return 7 has water return 72, terminal equipment is floor heating equipment 9, and floor heating equipment 9's water inlet communicates the export of water knockout drum 62, and floor heating equipment 9's delivery port communicates the entry of water return 72, hot water outlet 54 communicates tap 10.

The circuit board is provided with a wireless signal receiving module, and the compressor 21, the four-way valve 22, the three-way valve 31, the electronic expansion valve 23 and the plate heat exchanger 24 are electrically connected with the circuit board respectively.

The working principle is as follows:

fluorine path system 2:

refrigerating: the compressor 21 generates a high-temperature and high-pressure gas refrigerant, the gas refrigerant enters the D opening of the four-way valve 22, the gas refrigerant enters the plate heat exchanger 24 through the E opening of the four-way valve 22 to form a low-temperature and high-pressure gas refrigerant, the liquid refrigerant passes through the electronic expansion valve 23 to form a low-temperature and low-pressure liquid refrigerant, the low-temperature and low-pressure liquid refrigerant passes through the fluorine path inner tube 42 to cause the low-temperature and low-pressure liquid refrigerant to exchange heat with the water in the water path outer tube 41, the water in the water path outer tube 41 becomes cold water, the refrigerant in the fluorine path inner tube 42 becomes a low-temperature and low-pressure gas refrigerant.

Heating: the compressor 21 generates a high-temperature and high-pressure gas refrigerant, the gas refrigerant enters the D opening of the four-way valve 22, and enters the fluorine path inner tube 42 through the C opening of the four-way valve 22, so that the high-temperature and high-pressure gas refrigerant exchanges heat with the water in the water path outer tube 41, the water in the water path outer tube 41 becomes hot water, the refrigerant in the fluorine path inner tube 42 becomes a high-temperature and high-pressure liquid refrigerant, the high-temperature and high-pressure liquid refrigerant passes through the expansion valve to form a high-temperature and low-pressure liquid refrigerant, the high-temperature and low-pressure liquid refrigerant passes through the plate heat exchanger 24 to form a low-temperature and low-.

Waterway system 3

The fluorine path control system 2 is in a refrigeration device, at this time, an external water source enters the opening a of the three-way valve 31 along the tap water inlet 51, the heat preservation water container and the water outlet 52, then passes through the opening B of the three-way valve 31 and the inlet of the water pump 32, the outlet of the water pump 32 is communicated with one port of the flow switch, the other port of the flow switch is communicated with one end of the water path outer pipe 41, the other end of the water path outer pipe 41 is respectively communicated with the water outlet pipe 6, the water outlet pipe 6 is communicated with the inlet of the terminal device, the opening C of the three-way valve 31 is communicated with the water return pipe 7, the water return pipe 7 is communicated with the outlet of the terminal.

The tap water of the outer water path pipe 41 forms cold water due to heat exchange between the tap water of the outer water path pipe 41 and the refrigerant of the inner fluorine path pipe 42, the cold water flows to the terminal equipment (such as the water cooling fan 8) through the water outlet pipe 6, so that the terminal equipment forms cold air, and finally the water after heat exchange of the terminal equipment flows back to the water return pipe 7, and the circulation refrigeration of the terminal equipment is realized by circulating the way.

The fluorine path system 2 is controlled to be in a heating device, at the moment, an external water source enters the opening A of the three-way valve 31 along the tap water inlet 51, the heat preservation water container and the water outlet 52, then the external water source passes through the opening B of the three-way valve 31 and the inlet of the water pump 32, the outlet of the water pump 32 is communicated with one port of the flow switch, the other port of the flow switch is communicated with one end of the water path outer pipe 41, the other end of the water path outer pipe 41 is respectively communicated with the water outlet pipe 6, the water outlet pipe 6 is communicated with the inlet of the terminal equipment, the opening C of the three-way valve 31 is communicated with the water return pipe 7, the water return pipe 7 is communicated.

The tap water in the outer water path pipe 41 forms hot water due to heat exchange between the tap water in the outer water path pipe 41 and the refrigerant in the inner fluorine path pipe 42, the hot water flows to the terminal equipment (such as the water cooling fan 8) through the water outlet pipe 6, the terminal equipment forms hot air, and finally the water after heat exchange of the terminal equipment flows back to the water return pipe 7, and circulation is performed, so that the circulating heating of the terminal equipment is realized.

The tap water of the outer waterway pipe 41 forms hot water due to heat exchange between the tap water of the outer waterway pipe 41 and the refrigerant of the inner fluorine passage pipe 42, the hot water flows to the terminal equipment (such as the floor heating device 9) through the water outlet pipe 6, the terminal equipment forms hot water, and finally the water after heat exchange of the terminal equipment flows back to the water return pipe 7, and circulation is performed, so that the circulation heating of the terminal equipment is realized.

Domestic water

The fluorine control path system 2 is in a heating device, at this time, an external water source enters the opening a of the three-way valve 31 along the tap water inlet 51, the heat preservation water container and the water outlet 52, then passes through the opening B of the three-way valve 31 and the inlet of the water pump 32, the outlet of the water pump 32 is communicated with one port of the flow switch, the other port of the flow switch is communicated with one end of the water path outer tube 41, the other end of the water path outer tube 41 is respectively communicated with the hot water inlet 53, the hot water inlet 53 is communicated with the heat preservation water container, and finally is discharged to the faucet 10 through the hot water outlet.

The tap water in the outer waterway pipe 41 is heated by the heat exchange between the tap water in the outer waterway pipe 41 and the refrigerant in the inner waterway pipe 42, and the heated water flows to the heat-insulating water tank through the hot water inlet 53, and the heat-insulating water tank stores the heated water, and the heated water is discharged to the faucet 10 through the hot water outlet 54 for the user (e.g., bathing).

Claims

1. The utility model provides an air source trigeminy supplies, includes casing, fluorine way system, waterway system, pipeline heat exchanger, is used for the outlet pipe of intercommunication terminal equipment and is used for the wet return of intercommunication terminal equipment, its characterized in that: the fluorine path system comprises a compressor, a four-way valve, an electronic expansion valve and a plate heat exchanger;

2. The air source co-generation of claim 1, characterized in that: the outer waterway pipe and the inner waterway pipe are wound into a coiled shape.

3. The air source co-generation of claim 1, characterized in that: a water liner temperature sensor is arranged in the heat-preservation water liner and used for monitoring the temperature of the heat-preservation water liner.

4. The air source co-generation of claim 1, characterized in that: and a water outlet temperature sensor is arranged at the water outlet end of the water path outer pipe and used for monitoring the temperature of the heat preservation water path outer pipe.

5. The air source co-generation of claim 1, characterized in that: the outlet of the water outlet pipe is connected with a water outlet hydraulic balancer, and the inlet of the water return pipe is connected with a water return hydraulic balancer.

6. The air source co-generation of claim 5, wherein: the terminal equipment is a water cooling fan, a water inlet of the water cooling fan is communicated with the water outlet hydraulic balancer, and a water outlet of the water cooling fan is communicated with the water return hydraulic balancer.

7. The air source co-generation of claim 1, characterized in that: the outlet of the water outlet pipe is connected with a water separator, and the inlet of the water return pipe is connected with a water return device.

8. The air source co-generation of claim 7, wherein: the terminal equipment is a floor heating device, a water inlet of the floor heating device is communicated with an outlet of the water distributor, and a water outlet of the floor heating device is communicated with an inlet of the water return device.

9. The air source co-generation of claim 1, characterized in that: the hot water outlet is communicated with a water tap.

10. The air source co-generation of claim 1, characterized in that: the compressor, the four-way valve, the three-way valve, the electronic expansion valve and the plate heat exchanger are respectively and electrically connected with the circuit board.