CN217031634U - Integrated water heater under floating windowsill - Google Patents

Abstract

The utility model discloses an integrated water heating device under a floating windowsill, which comprises a solar refrigerant water supply and return pipe (12), an air source refrigerant water supply and return pipe (14), a domestic water pipe assembly, a controller (30), a solar heat collecting plate (11) arranged in a mounting cavity below the floating windowsill, an air source heat pump host (13) and a solar water storage tank (15); the air source heat pump host, the air source refrigerant water supply and return pipe and the air source heat pump steam-water heat exchanger (153) in the solar water storage tank are connected into a loop, and the solar heat collecting plate, the solar refrigerant water supply and return pipe and the solar heat exchanger (152) in the solar water storage tank are connected into a loop; the life water pipe assembly is connected with the solar water storage tank, and the controller is connected with the air source heat pump steam-water heat exchanger and the solar heat exchanger. The solar energy water storage tank can be integrally arranged below the bay windowsill, the occupied indoor space is reduced, cold water in the solar energy water storage tank is effectively heated by combining solar energy and air heat energy, and the solar energy water storage tank is energy-saving and environment-friendly.

Description

Integrated water heater under bay windowsill

Technical Field

The utility model relates to a water heating system, in particular to a floating windowsill lower integrated water heating device.

Background

The hot water system is one of conventional configuration facilities in residential buildings and commercial building structures, and in the existing residential projects, a solar water heater system is often arranged due to the consideration of environmental protection, energy conservation and other factors, but the solar water heater system in the prior art is unstable in operation, usually needs electric auxiliary heat, and the energy consumption of the electric auxiliary heat is high. Meanwhile, the solar panel and the solar water storage tank of the solar water heater system are usually arranged on a balcony, on one hand, the balcony occupies the height outwards, so that the balcony cannot adopt large-scale floor glass, decoration of the balcony is affected, and on the other hand, the solar water storage tank occupies a large inner space of the balcony.

Disclosure of Invention

The utility model aims to provide an integrated water heating device below a bay windowsill, which can be integrally arranged below the bay windowsill of a building, reduces the occupation of indoor space, effectively heats cold water in a solar water storage tank by combining solar energy and air heat energy, and is energy-saving and environment-friendly.

The utility model is realized in the following way:

an integrated water heating device under a floating windowsill comprises a solar heat collecting plate, a solar refrigerant water supply and return pipe, an air source heat pump host, an air source refrigerant water supply and return pipe, a solar water storage tank, a living water pipe assembly and a controller; a mounting cavity is arranged in a wall body below a floating windowsill of the building structure, the solar heat collecting plate, the air source heat pump host and the solar water storage tank are all mounted in the mounting cavity, and the solar heat collecting plate is arranged outwards; an air source heat pump steam-water heat exchanger and a solar heat exchanger are arranged in the solar water storage tank, an air source heat pump host is connected with the air source heat pump steam-water heat exchanger through an air source refrigerant water supply and return pipe to form a loop, and a solar heat collecting plate is connected with the solar heat exchanger through a solar refrigerant water supply and return pipe to form a loop; one end of the domestic water pipe assembly is connected with the solar water storage tank, and the other end of the domestic water pipe assembly is connected to indoor water supply and utilization equipment; the controller is arranged indoors, the controller is respectively electrically connected with the air source heat pump steam-water heat exchanger and the solar heat exchanger through electric wiring, and the air source heat pump steam-water heat exchanger is electrically connected with the air source heat pump host through electric wiring.

The domestic water pipe assembly comprises a domestic cold water pipe and a domestic hot water pipe; a water pipe connector is arranged on the solar water storage tank, the water outlet end of the domestic cold water pipe is connected with the water inlet end of the solar water storage tank through the water pipe connector, and the water inlet end of the domestic cold water pipe is connected with indoor water supply equipment; the water inlet end of the domestic hot water pipe is connected with the water outlet end of the solar water storage tank through a water pipe connector, and the water outlet end of the domestic hot water pipe is connected with indoor water utilization equipment.

The domestic water pipe assembly also comprises a circulating pipe, a circulating pump is arranged in the solar water storage tank, and the circulating pump is electrically connected with the controller through an electric connection; one end of the circulating pipe is connected with the domestic hot water pipe, and the other end of the circulating pipe is connected with the solar water storage tank through a water pipe connector by the circulating pump.

The air source heat pump host machine and the solar water storage tank are provided with first supports, the solar heat collecting plate is arranged on the outer sides of the air source heat pump host machine and the solar water storage tank through the first supports in a supporting mode, and the solar heat collecting plate faces outdoors through the first supports.

The outer side surface of the first support is of an inclined surface structure, so that the solar heat collecting plate is obliquely arranged.

The side opening of installation cavity, the lateral part of air source heat pump host computer be equipped with the host computer fan, the host computer fan is located the opening inboard of installation cavity.

The bottom of the air source heat pump host machine is provided with a second support, the air source heat pump host machine is fixed in the installation cavity through the second support, and the bottom of the second support is provided with a damping piece.

The bottom of solar energy storage water tank be equipped with the third support, the solar energy storage water tank passes through the third support to be fixed in the installation cavity, the bottom of third support is equipped with the shock attenuation piece.

Compared with the prior art, the utility model has the following beneficial effects:

1. the utility model is arranged below the floating windowsill of the building, has high integration degree and small volume, reduces the occupation of the water heating device on the indoor space to the maximum extent, does not influence the indoor decoration design such as a balcony and the like, and can also ensure the supply of indoor domestic hot water.

2. The solar water heater is provided with the solar heat collecting plate and the air source heat pump host, and combines the solar heat collecting technology and the air source heat pump technology, so that electric auxiliary heat is not required, the heating efficiency of cold water in the solar water storage tank can be ensured, the energy consumption can be effectively reduced, and the purpose of energy conservation is achieved.

3. The utility model can send the unused hot water circulating pump back to the solar water storage tank due to the arrangement of the circulating pipe and the circulating pump, thereby reducing the waste of water resource and heat energy, and being beneficial to ensuring the constant water temperature in the solar water storage tank so as to ensure the continuous supply of domestic water.

Drawings

FIG. 1 is an installed right side elevation view of the integrated under bay window sill water heater of the present invention;

FIG. 2 is an installed left side elevation view of the integrated under bay window hot water unit of the present invention;

FIG. 3 is a plan view of the installation of the integrated under bay sill hot water unit of the present invention;

FIG. 4 is an internal structural view of a solar water storage tank in the integrated water heating device under the bay windowsill of the present invention;

fig. 5 is a schematic structural view of the integrated water heating device under the bay window sill of the present invention.

In the figure, 11 solar heat collecting plates, 111 a first bracket, 12 solar refrigerant water supply and return pipes, 13 air source heat pump main units, 131 main unit fans, 132 a second bracket, 14 air source refrigerant water supply and return pipes, 15 solar water storage tanks, 151 a third bracket, 152 air source heat pump steam-water heat exchangers, 153 solar heat exchangers, 154 circulating pumps, 20 water pipe interfaces, 201 domestic cold water pipes, 202 domestic hot water pipes, 203 circulating pipes, 30 controllers, 31 electric connecting wires and 40 installation chambers.

Detailed Description

The utility model is further described with reference to the following figures and specific examples.

Referring to fig. 1 to 3 and 5, a floating windowsill lower integrated water heating device includes a solar heat collecting plate 11, a solar refrigerant supply and return pipe 12, an air source heat pump host 13, an air source refrigerant supply and return pipe 14, a solar water storage tank 15, a living water pipe assembly and a controller 30; an installation chamber 40 is arranged in a wall body below a floating windowsill of the building structure, the solar heat collecting plate 11, the air source heat pump host 13 and the solar water storage tank 15 are all installed in the installation chamber 40, and the solar heat collecting plate 11 faces outdoors; referring to fig. 4, an air source heat pump steam-water heat exchanger 152 and a solar heat exchanger 153 are arranged in the solar water storage tank 15, the air source heat pump host 13 is connected with the air source heat pump steam-water heat exchanger 152 through an air source refrigerant water supply and return pipe 14 to form a loop, and the solar heat collecting plate 11 is connected with the solar heat exchanger 153 through a solar refrigerant water supply and return pipe 12 to form a loop; one end of the domestic water pipe assembly is connected with the solar water storage tank 15, and the other end of the domestic water pipe assembly is connected to indoor water supply and utilization equipment; the controller 30 is arranged indoors, the controller 30 is electrically connected with the air source heat pump steam-water heat exchanger 152 and the solar heat exchanger 153 through the electric connection 31, and the air source heat pump steam-water heat exchanger 152 is electrically connected with the air source heat pump host 13 through the electric connection 31.

Preferably, the controller 30 may adopt an intelligent home controller in the prior art, and is configured to set the water temperature in the solar water storage tank 15, the start and stop conditions of the air source heat pump steam-water heat exchanger 152, the solar heat exchanger 153 and the circulating pump 154, so as to meet the living needs of the user. The controller 30 may be installed at various locations in a bedroom, a kitchen, a balcony, etc. The solar heat collecting plate 11 can adopt the solar heat collecting plate technology in the prior art, can convert solar energy into heat energy and heat the refrigerant in the pipeline inside the solar heat collecting plate 11, so that the refrigerant is heated in the solar heat exchanger 153 and the pipeline inside the solar heat collecting plate 11 through the circulating flow of the solar refrigerant supply return pipe 12 and the cold water in the solar water storage tank 15 is heated through heat exchange. The air source heat pump host 13 can adopt the air source heat pump technology in the prior art, effectively absorbs low-grade heat energy which cannot be utilized in the air through a heat transfer working medium, and releases the low-grade heat energy to the air source heat pump steam-water heat exchanger 152 after lifting the low-grade heat energy to available high-grade heat energy, so that cold water in the solar water storage tank 15 is circularly heated through the air source heat pump steam-water heat exchanger 152, water in the solar water storage tank 15 can be heated in an auxiliary mode under the condition that the solar heating capacity is insufficient, and finally the purpose of supplying domestic hot water is achieved through the domestic water pipe assembly.

The domestic water pipe assembly comprises a domestic cold water pipe 201 and a domestic hot water pipe 202; a water pipe connector 20 is arranged on the solar water storage tank 15, the water outlet end of the domestic cold water pipe 201 is connected with the water inlet end of the solar water storage tank 15 through the water pipe connector 20, and the water inlet end of the domestic cold water pipe 201 is connected with indoor water supply equipment; the water inlet end of the domestic hot water pipe 202 is connected with the water outlet end of the solar water storage tank 15 through the water pipe connector 20, and the water outlet end of the domestic hot water pipe 202 is connected with indoor water using equipment. The indoor water supply device may be a water tap or the like for supplying water, and the water is supplied to the solar water storage tank 15 through the domestic cold water pipe 201 through the water tap. The domestic hot water pipe 202 is used for outputting the heated hot water in the solar water storage tank 15 to each indoor water-using device for domestic use.

The domestic water pipe assembly further comprises a circulating pipe 203, a circulating pump 154 is arranged in the solar water storage tank 15, and the circulating pump 154 is electrically connected with the controller 30 through an electric connection 31; one end of the circulating pipe 203 is connected with the domestic hot water pipe 202, and the other end of the circulating pipe 203 is connected with the solar water storage tank 15 through the water pipe connector 20 by the circulating pump 154. When the temperature of the domestic hot water pipe 202 is low, the circulating pump 154 is started, and the unused hot water in the domestic hot water pipe 202 can be pumped back into the solar water storage tank 15 through the circulating pipe 203, so that the constant temperature of the water in the solar water storage tank 15 is kept, the waste of water source and heat energy is reduced, and the return water can be reheated for the next use. The electrical wiring 31 may be buried under the floor or inside the wall to ensure the beauty of interior decoration.

The air source heat pump host 13 and the solar water storage tank 15 are provided with first supports 111, the solar heat collecting plate 11 is erected outside the air source heat pump host 13 and the solar water storage tank 15 through the first supports 111, and the solar heat collecting plate 11 faces outdoors through the first supports 111, so that stable installation and installation angles of the solar heat collecting plate 11 can meet operation requirements of the solar heat collecting plate 11.

Preferably, the outer side surface of the first bracket 111 is an inclined surface structure, so that the solar heat collecting plate 11 is inclined, and the solar heat collecting plate 11 can be arranged facing the sun by adjusting the inclination angle, thereby utilizing solar energy to the maximum extent. The area, length, width, and deflection angle of the solar heat collecting plate 11 can be accurately calculated and determined according to the installation region, and the solar heat collecting plate 11 is preferably a flat plate type heat collecting plate in consideration of the beautiful elevation.

The side end of the installation chamber 40 is open, the side of the air source heat pump host 13 is provided with a host fan 131, the host fan 131 is located inside the opening of the installation chamber 40, it is ensured that the host fan 131 is not shielded by the building, the solar heat collecting plate 11 and the like, so as to ensure effective heat dissipation of the air source heat pump host 13, and the arrow directions in fig. 3 and 5 are heat dissipation directions.

The bottom of the air source heat pump host 13 is provided with a second support 132, the air source heat pump host 13 is fixed in the installation chamber 40 through the second support 132, the bottom of the second support 132 is provided with a damping member to avoid the influence of vibration on the performance of the air source heat pump host 13 and the influence of noise on indoor life, and the damping member may be preferably a rubber pad or the like. The heating power of the air source heat pump host 13 can be selected according to actual requirements, and is preferably 2-3kW, so that the heating capacity of cold water in the solar water storage tank 15 is ensured, and the size of the cold water meets the installation condition in the installation chamber 40.

The bottom of the solar water storage tank 15 is provided with a third support 151, the solar water storage tank 15 is fixed in the installation cavity 40 through the third support 151, the bottom of the third support 151 is provided with a damping piece, so that the influence of vibration on the performance of the solar water storage tank 15 and the influence of noise on indoor life are avoided, and the damping piece can be preferably a rubber pad and the like. The volume of the solar storage tank 15 may be determined according to the size of the installation chamber 40, and is preferably 80-120L, which can ensure both the installation of the solar storage tank 15 in the installation chamber 40 of a conventional size and the supply of domestic hot water.

The present invention is not limited to the above embodiments, and therefore, any modifications, equivalents, improvements, etc. within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (8)

1. The utility model provides an integral type hot water system under windowsill wafts, characterized by: comprises a solar heat collecting plate (11), a solar refrigerant water supply and return pipe (12), an air source heat pump host (13), an air source refrigerant water supply and return pipe (14), a solar water storage tank (15), a domestic water pipe component and a controller (30); an installation chamber (40) is arranged in a wall body below a floating windowsill of the building structure, a solar heat collecting plate (11), an air source heat pump host (13) and a solar water storage tank (15) are all installed in the installation chamber (40), and the solar heat collecting plate (11) faces outdoors; an air source heat pump steam-water heat exchanger (152) and a solar heat exchanger (153) are arranged in the solar water storage tank (15), an air source heat pump host (13) is connected with the air source heat pump steam-water heat exchanger (152) through an air source refrigerant water supply and return pipe (14) to form a loop, and a solar heat collecting plate (11) is connected with the solar heat exchanger (153) through a solar refrigerant water supply and return pipe (12) to form the loop; one end of the domestic water pipe component is connected with the solar water storage tank (15), and the other end of the domestic water pipe component is connected to indoor water supply and utilization equipment; the controller (30) is arranged indoors, the controller (30) is electrically connected with the air source heat pump steam-water heat exchanger (152) and the solar heat exchanger (153) through electric connection lines (31), and the air source heat pump steam-water heat exchanger (152) is electrically connected with the air source heat pump host (13) through the electric connection lines (31).

2. A bay window sill integrated water heating apparatus as claimed in claim 1, further comprising: the domestic water pipe assembly comprises a domestic cold water pipe (201) and a domestic hot water pipe (202); a water pipe connector (20) is arranged on the solar water storage tank (15), the water outlet end of the domestic cold water pipe (201) is connected with the water inlet end of the solar water storage tank (15) through the water pipe connector (20), and the water inlet end of the domestic cold water pipe (201) is connected with indoor water supply equipment; the water inlet end of the domestic hot water pipe (202) is connected with the water outlet end of the solar water storage tank (15) through a water pipe connector (20), and the water outlet end of the domestic hot water pipe (202) is connected with indoor water using equipment.

3. A bay window sill integrated water heater as claimed in claim 2, wherein: the domestic water pipe assembly further comprises a circulating pipe (203), a circulating pump (154) is arranged in the solar water storage tank (15), and the circulating pump (154) is electrically connected with the controller (30) through an electric connection wire (31); one end of the circulating pipe (203) is connected with the domestic hot water pipe (202), and the other end of the circulating pipe (203) is connected with the solar water storage tank (15) through the circulating pump (154) through the water pipe connector (20).

4. A bay window sill integrated water heating apparatus as claimed in claim 1, further comprising: the air source heat pump system is characterized in that a first support (111) is arranged on the air source heat pump host (13) and the solar water storage tank (15), the solar heat collecting plate (11) is erected outside the air source heat pump host (13) and the solar water storage tank (15) through the first support (111), and the solar heat collecting plate (11) faces outdoors through the first support (111).

5. A bay window sill integrated water heater as claimed in claim 4, wherein: the outer side surface of the first support (111) is of an inclined surface structure, so that the solar heat collecting plate (11) is obliquely arranged.

6. The under bay window integrated water heating apparatus of claim 1, wherein: the side end opening of installation cavity (40), the lateral part of air source heat pump host computer (13) is equipped with host computer fan (131), and host computer fan (131) are located the open-ended inboard of installation cavity (40).

7. An under bay window integrated water heating apparatus as claimed in claim 1 or 6 wherein: the air source heat pump air conditioner is characterized in that a second support (132) is arranged at the bottom of the air source heat pump host (13), the air source heat pump host (13) is fixed in the installation chamber (40) through the second support (132), and a damping piece is arranged at the bottom of the second support (132).

8. The under bay window integrated water heating apparatus of claim 1, wherein: the solar water storage tank is characterized in that a third support (151) is arranged at the bottom of the solar water storage tank (15), the solar water storage tank (15) is fixed in the mounting cavity (40) through the third support (151), and a damping piece is arranged at the bottom of the third support (151).

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