CN110657481A - An ecological water supply and heating linkage system for homestay experience landscape - Google Patents

Abstract

The invention discloses an ecological water supply and heat supply linkage system of an experiential landscape of people and hosts, which comprises a ground source heat pump system, a swimming pool constant temperature system and a greenhouse constant temperature system, wherein the ground source heat pump system comprises a ground source heat pump, a ground source heat pump evaporator is connected with a heat exchange pipeline, a geothermal circulating pump is arranged between the heat exchange pipeline and the water outlet end of the ground source heat pump evaporator, a ground source heat pump condenser exchanges heat with a hot water storage tank through a heat conduction pipe, a heat conduction circulating pump is arranged between the heat conduction pipe and the water outlet end of the ground source heat pump condenser, the swimming pool constant temperature system comprises a swimming pool, the swimming pool is supplied with hot water by the hot water storage tank, the greenhouse constant temperature system comprises a. The ecological water supply and heat supply linkage system for the residential experience type landscape has the advantages of clean energy, reasonable design and low construction difficulty.

Description

An ecological water supply and heating linkage system for homestay experience landscape

technical field

The invention relates to the technical field of heating and heating, in particular to an ecological water supply and heating supply linkage system of a homestay experience-style landscape.

Background technique

With the gradual reduction of non-renewable energy sources, human beings need to shift the development direction of energy to renewable and environmentally friendly energy. At present, many buildings have adopted environmentally friendly energy for room temperature regulation and as a heat source for related equipment. However, most of the existing technologies for utilizing environmentally friendly energy use solar energy and air thermal energy as energy sources to supply heating and water supply. However, the use of solar energy and air thermal energy is limited by the environment and cannot be used throughout the year. Therefore, there is an urgent need for a new ecological water supply and heat supply linkage system that is more reasonable in energy supply and is not limited by time to overcome the above-mentioned technical defects.

SUMMARY OF THE INVENTION

The purpose of the present invention is to provide an ecological water supply and heat supply linkage system for a homestay experience landscape, so as to solve the problems raised in the above background technology.

To achieve the above object, the present invention provides the following technical solutions:

An ecological water supply and heating linkage system for homestay experience landscape, including a ground source heat pump system, a swimming pool constant temperature system and a flower house constant temperature system, the ground source heat pump system includes a ground source heat pump, the ground source heat pump evaporator and heat exchange pipelines A geothermal circulation pump is installed between the heat exchange pipe and the water outlet of the ground source heat pump evaporator, the ground source heat pump condenser exchanges heat with the hot water storage tank through a heat transfer pipe, and the heat transfer pipe is connected to the ground source heat pump. A heat conduction circulating pump is installed between the water outlet ends of the condenser. The swimming pool constant temperature system includes a swimming pool, and the swimming pool is supplied with hot water by a hot water storage tank. The flower house constant temperature system includes a heating pipe, and the heating pipe is heated by the swimming pool. water.

Preferably, the swimming pool constant temperature system further includes a second temperature probe, a swimming pool constant temperature controller and a swimming pool water supply pump, the second temperature probe is installed at the bottom of the swimming pool, and the second temperature probe is connected to the swimming pool constant temperature controller through a circuit , the swimming pool thermostat controller is connected to the signal control end of the swimming pool water supply pump, the water inlet end of the hot water storage tank is connected to the tap water pipe, the water outlet end of the hot water storage tank is connected to the swimming pool through pipes, and the swimming pool water supply pump is installed in On the outlet end of the hot water storage tank.

Preferably, the greenhouse constant temperature system further includes a first temperature probe, a greenhouse constant temperature controller and a heating circulation pump, the first temperature probe and the heating pipe are arranged and installed inside the greenhouse, and the first temperature probe communicates with the greenhouse constant temperature controller through a circuit. Connected, the greenhouse constant temperature controller is connected to the signal control end of the heating circulation pump, the heating pipe is connected to the swimming pool through the swimming pool heating pipe to form a loop connection, and the heating circulation pump is installed at the water inlet end of the heating pipe to supply heat to the swimming pool between the tubes.

Preferably, a solar heating system is installed on the roof of the flower house, and the solar heating system includes a solar light absorbing film and a solar water storage tank. connected.

Preferably, the water outlet pipe of the solar water storage tank is connected to the swimming pool heating pipe through a solar heating pipe.

Preferably, a spray cooling system is also installed in the flower room, and the spray cooling system includes a set of spray heads, the spray heads are connected to the swimming pool through pipes, and a spray pump is installed on the pipes connecting the spray heads to the swimming pool. .

Preferably, the hot water storage tank is connected to the hot water pipeline of the homestay through a pipeline, and a homestay water supply pump is installed on the pipeline connecting the hot water storage tank to the hot water pipeline of the homestay.

Preferably, the heat exchange pipes are arranged below the swimming pool.

Compared with the prior art, the beneficial effects of the present invention are: in the present invention, the heat exchange pipes are laid underground-m, where the underground temperature is constant throughout the four seasons, which solves the problem of slow and insufficient heating effect caused by low air temperature in winter. question. The ground source heat pump heats the water in the hot water storage tank. The swimming pool constant temperature system is used to keep the water in the swimming pool at a constant temperature in all seasons. In winter, the hot water storage tank replenishes hot water in the swimming pool. Maintaining a constant temperature in all seasons, the swimming pool replenishes hot water to the greenhouse to warm up the greenhouse in winter. The solar heating system supplements the heat supply for the greenhouse, and the solar water storage tank supplies hot water to the heating pipes. When the temperature of the greenhouse is high in summer, the spray cooling system can extract the cold water from the swimming pool and spray it into the greenhouse to cool down the greenhouse. The hot water storage tank can also supply hot water to the kitchen faucets, bathroom shower heads, etc. in the homestay, providing daily hot water for the homestay. The construction of the swimming pool needs to dig the ground, so the heat exchange pipeline can be combined with the digging project under the swimming pool and completed simultaneously. The invention is an ecological water supply and heat supply linkage system with clean energy, reasonable design and low construction difficulty of homestay experience-style landscape.

Description of drawings

Figure 1 is a schematic structural diagram of an ecological water supply and heating linkage system for a homestay experience landscape;

Figure 2 is a structural block diagram of a ground source heat pump system in an ecological water supply and heating linkage system of a homestay experience landscape;

Figure 3 is a structural block diagram of a swimming pool constant temperature system in an ecological water supply and heating linkage system of a homestay experience landscape;

Fig. 4 is a structural block diagram of a greenhouse constant temperature system in an ecological water supply and heating linkage system of a homestay experience landscape.

In the picture: 1- ground source heat pump system, 2- swimming pool constant temperature system, 3- flower room constant temperature system, 4- solar heating system, 5- spray cooling system, 6- ground source heat pump, 7- hot water storage tank, 8- Heat exchange pipeline, 9-geothermal circulation pump, 10-heat conduction circulation pump, 11-homestay water supply pump, 12-pool water supply pump, 13-second temperature probe, 14-swimming pool, 15-first temperature probe, 16-heating pipe , 17-Solar heating pipe, 18-Swimming pool heating pipe, 19-Heating circulation pump, 20-Solar water storage tank, 21-Solar light-absorbing film, 22-Spray pump, 23-Sprinkler, 24-Flower room.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, but not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

Please refer to FIGS. 1 to 4 , the present invention provides a technical solution: an ecological water supply and heating linkage system for homestay experiential landscape, including a ground source heat pump system 1 , a swimming pool constant temperature system 2 and a flower room constant temperature system 3 . The heat pump system 1 includes a ground source heat pump 6, the evaporator of the ground source heat pump 6 is connected to a heat exchange pipe 8, and a geothermal circulation pump 9 is installed between the heat exchange pipe 8 and the water outlet end of the evaporator of the ground source heat pump 6, and the The ground source heat pump 6 condenser conducts heat exchange with the hot water storage tank 7 through a heat conduction pipe, and a heat conduction circulating pump 10 is installed between the heat conduction pipe and the water outlet of the ground source heat pump 6 condenser, and the swimming pool constant temperature system 2 includes a swimming pool. 14. The swimming pool 14 is supplied with hot water by the hot water storage tank 7, and the greenhouse constant temperature system 3 includes a heating pipe 16, and the heating pipe 16 is supplied with hot water by the swimming pool 14.

There is water circulating in the heat exchange pipe 8, the heat exchange pipe 8 uses geothermal heat to heat the water, and then the water in the hot water storage tank 7 is heated by the action of the ground source heat pump 1, and the swimming pool constant temperature system 2 is used to heat the water in the swimming pool 14. The hot water storage tank 7 supplies hot water to the swimming pool 14 in winter, the greenhouse constant temperature system 3 is used to keep the greenhouse at a constant temperature in all seasons, and the swimming pool 14 supplies hot water to the greenhouse 14 to warm the greenhouse 14 in winter.

Preferably, the swimming pool constant temperature system 2 further includes a second temperature probe 13, a swimming pool constant temperature controller and a swimming pool water supply pump 12, the second temperature probe 13 is arranged and installed at the bottom of the swimming pool 14, and the second temperature probe 13 is connected to the swimming pool 14. The swimming pool thermostatic controller is connected through the circuit, the swimming pool thermostatic controller is connected with the signal control end of the swimming pool water supply pump 12, the water inlet end of the hot water storage tank 7 is connected with the tap water pipe, and the water outlet end of the hot water storage tank 7 is connected with the water supply pipe through the pipe. The swimming pool 14 is connected, and the swimming pool water supply pump 12 is installed on the water outlet end of the hot water storage tank 7 .

The second temperature probe 13 monitors the water temperature in the swimming pool 14. When the water temperature is low, the swimming pool thermostatic controller controls the swimming pool water supply pump 12 to work so that the hot water in the hot water storage tank 7 flows to the swimming pool.

Preferably, the greenhouse constant temperature system 3 also includes a first temperature probe 15, a greenhouse thermostatic controller and a heating circulation pump 19, the first temperature probe 15 and the heating pipe 16 are arranged and installed inside the greenhouse 24, and the first temperature probe 15 is connected with the greenhouse thermostatic controller through the circuit, the greenhouse thermostatic controller is connected with the signal control end of the heating circulation pump 19, the heating pipe 16 and the swimming pool 14 are connected in a loop through the swimming pool heating pipe 18, and the heating circulation pump 19 is installed between the water inlet end of the heating pipe 16 and the swimming pool heating pipe 18 .

The first temperature probe 15 monitors the air temperature in the flower room 24. When the temperature is low, the flower room thermostat controller controls the heating circulation pump 19 to work. The swimming pool 14 supplies hot water to the heating pipe 16, and the heating pipe 16 warms the flower room 24.

Preferably, a solar heating system 4 is installed on the roof of the flower house 24. The solar heating system 4 includes a solar light absorbing film 21 and a solar water storage tank 20. The water inlet end of the water storage tank 20 is connected with the tap water pipe.

The solar heating system 4 uses solar energy to heat water, and the solar light absorbing film 21 heats the water in the solar water storage tank 20 .

Preferably, the water outlet pipe of the solar water storage tank 20 is connected to the swimming pool heating pipe 18 through the solar heating pipe 17 .

The solar heating system 4 provides supplementary heat for the flower house 24 , and the solar water storage tank 20 supplies hot water to the heating pipe 16 .

Preferably, a spray cooling system 5 is also installed in the flower house 24. The spray cooling system 5 includes a group of spray heads 23. The spray heads 23 are connected to the swimming pool 14 through pipes, and the spray heads 23 are connected to the swimming pool 14. A spray pump 22 is installed on the connected pipeline.

When the temperature of the flower room 24 is high in summer, the spray cooling system 5 can extract the cold water from the swimming pool 14 and spray it into the flower room 24 to cool the flower room 24 .

Preferably, the hot water storage tank 7 is connected to the hot water pipeline of the homestay through a pipeline, and a homestay water supply pump 11 is installed on the pipe connecting the hot water storage tank 7 to the hot water pipeline of the homestay.

The hot water storage tank 7 can also supply hot water to kitchen faucets, bathroom shower nozzles, etc. in the homestay, and provide daily hot water for the homestay.

Preferably, the heat exchange pipes 8 are arranged below the swimming pool 14 .

The construction of the swimming pool 14 needs to dig the ground, so the heat exchange pipe 8 can be combined with the digging project of the swimming pool 14 and completed simultaneously. The heat exchange pipe 8 is laid 2-3 meters underground. Low heating effect caused by slow and insufficient problems. The working principle of the present invention is as follows: the present invention is an ecological water supply and heat supply linkage system for a homestay experience-style landscape. There is water circulating in the heat exchange pipe 8, and the heat exchange pipe 8 uses geothermal heat to heat the water, and then acts through the ground source heat pump 1. The water in the hot water storage tank 7 is heated and heated, and the swimming pool constant temperature system 2 is used to keep the water in the swimming pool 14 at a constant temperature throughout the four seasons. In winter, the hot water storage tank 7 supplies hot water to the swimming pool 14. The flower house maintains a constant temperature throughout the four seasons, and the swimming pool 14 supplies hot water to the flower room 14 for heating the flower room 14 in winter. The second temperature probe 13 monitors the water temperature in the swimming pool 14. When the water temperature is low, the swimming pool thermostatic controller controls the swimming pool water supply pump 12 to work so that the hot water in the hot water storage tank 7 flows to the swimming pool. The first temperature probe 15 monitors the air temperature in the flower room 24. When the temperature is low, the flower room thermostat controller controls the heating circulation pump 19 to work. The swimming pool 14 supplies hot water to the heating pipe 16, and the heating pipe 16 warms the flower room 24. The solar heating system 4 uses solar energy to heat water, and the solar light absorbing film 21 heats the water in the solar water storage tank 20 . The solar heating system 4 provides supplementary heat for the flower house 24 , and the solar water storage tank 20 supplies hot water to the heating pipe 16 . When the temperature of the flower room 24 is high in summer, the spray cooling system 5 can extract the cold water from the swimming pool 14 and spray it into the flower room 24 to cool the flower room 24 . The hot water storage tank 7 can also supply hot water to kitchen faucets, bathroom shower nozzles, etc. in the homestay, and provide daily hot water for the homestay. The construction of the swimming pool 14 needs to dig the ground, so the heat exchange pipe 8 can be combined with the digging project of the swimming pool 14 and completed simultaneously. The heat exchange pipe 8 is laid 2-3 meters underground. Low heating effect caused by slow and insufficient problems.

It will be apparent to those skilled in the art that the present invention is not limited to the details of the above-described exemplary embodiments, but that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. Therefore, the embodiments are to be regarded in all respects as illustrative and not restrictive, and the scope of the invention is to be defined by the appended claims rather than the foregoing description, which are therefore intended to fall within the scope of the claims. All changes within the meaning and scope of the equivalents of , are included in the present invention. Any reference signs in the claims shall not be construed as limiting the involved claim.

In addition, it should be understood that although this specification is described in terms of embodiments, not each embodiment only includes an independent technical solution, and this description in the specification is only for the sake of clarity, and those skilled in the art should take the specification as a whole , the technical solutions in each embodiment can also be appropriately combined to form other implementations that can be understood by those skilled in the art.

Claims (8)

1. The utility model provides an ecological water supply heat supply linked system of people's host experience formula view, includes ground source heat pump system (1), swimming pool constant temperature system (2) and greenhouse constant temperature system (3), its characterized in that: ground source heat pump system (1) is including ground source heat pump (6), ground source heat pump (6) evaporimeter links to each other with heat transfer pipeline (8), install geothermal circulating pump (9) between heat transfer pipeline (8) and ground source heat pump (6) evaporimeter water outlet end, ground source heat pump (6) condenser carries out the heat transfer through heat pipe and hot water storage water tank (7), install heat conduction circulating pump (10) between the water outlet end of heat pipe and ground source heat pump (6) condenser, swimming pool constant temperature system (2) are including swimming pool (14), swimming pool (14) are supplied hot water by hot water storage water tank (7), greenhouse constant temperature system (3) are including steam heating pipe (16), steam heating pipe (16) are supplied hot water by swimming pool (14).

2. The ecological water supply and heat supply linkage system of the experiential landscape of the residential and residential properties of claim 1, which is characterized in that: swimming pool constant temperature system (2) still include second temperature probe (13), swimming pool thermostatic control ware and swimming pool water supply pump (12), second temperature probe (13) set up and install in swimming pool (14) bottom, second temperature probe (13) pass through the circuit with swimming pool thermostatic control ware and link to each other, swimming pool thermostatic control ware links to each other with the signal control end of swimming pool water supply pump (12), hot water storage tank (7) are intake and are held and link to each other with the water pipe, and hot water storage tank (7) water outlet end passes through the pipeline and links to each other with swimming pool (14), swimming pool water supply pump (12) are installed on hot water storage tank (7) water outlet end.

3. The ecological water supply and heat supply linkage system of the experiential landscape of the residential and residential properties of claim 1, which is characterized in that: greenhouse constant temperature system (3) still include first temperature probe (15), greenhouse constant temperature control ware and heating circulating pump (19), first temperature probe (15) and steam heating pipe (16) set up and install inside greenhouse (24), and first temperature probe (15) pass through the circuit and link to each other with greenhouse constant temperature control ware, greenhouse constant temperature control ware links to each other with the signal control end of heating circulating pump (19), steam heating pipe (16) and swimming pool (14) form the return circuit with swimming pool heat supply pipe (18) and are connected, heating circulating pump (19) are installed between the end of intaking of steam heating pipe (16) and swimming pool heat supply pipe (18).

4. The ecological water supply and heat supply linkage system of the experiential landscape of the residential and residential properties of claim 3, which is characterized in that: the solar heating system (4) is installed on the roof of the greenhouse (24), the solar heating system (4) comprises a solar light absorption film (21) and a solar water storage tank (20), the solar water storage tank (20) is arranged below the solar light absorption film (21), and the water inlet end of the solar water storage tank (20) is connected with a tap water pipe.

5. The ecological water supply and heat supply linkage system of the experience type landscape of the residents according to claim 4, characterized in that: the water outlet pipe of the solar water storage tank (20) is connected with the swimming pool heat supply pipe (18) through a solar heat supply pipe (17).

6. The ecological water supply and heat supply linkage system of the experiential landscape of the residential and residential properties of claim 1, which is characterized in that: still set up in greenhouse (24) and install spray cooling system (5), spray cooling system (5) include a set of shower nozzle (23), shower nozzle (23) link to each other with swimming pool (14) through the pipeline, install on the pipeline that shower nozzle (23) and swimming pool (14) link to each other and spray pump (22).

7. The ecological water supply and heat supply linkage system of the experiential landscape of the residential and residential properties of claim 1, which is characterized in that: the hot water storage tank (7) is connected with a residential hot water pipeline through a pipeline, and a residential water supply pump (11) is installed on the pipeline connecting the hot water storage tank (7) with the residential hot water pipeline.

8. The ecological water supply and heat supply linkage system of the experiential landscape of the residential and residential properties of claim 1, which is characterized in that: the heat exchange pipe (8) is arranged below the swimming pool (14).

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