CN210220257U - Solar air energy system device - Google Patents

Abstract

The utility model discloses a solar energy air can system device, including solar water heating system and air ability hot water system, solar water heating system includes solar panel and heat storage water tank, be circulation water path connection through the pipeline between solar panel and the heat storage water tank, be equipped with the temperature sensor who can hot water system signal connection with the air in the heat storage water tank, the air can the hot water system including being fixed in the heat transfer coil pipe in the heat storage water tank, be equipped with heat medium entry and heat medium export on heat transfer coil pipe's the relative both ends respectively, just be equipped with interface channel corresponding to the position punishment of heat medium entry and heat medium export on the lateral wall of heat storage water tank respectively, be equipped with in the interface channel and be used for the joint spare with heat medium entry and heat medium export are fixed. The utility model has the advantages of reasonable design, can effectively improve solar water heater and can only rely on the electricity to assist the heat and cause the higher problem of power consumption when illumination is more weak or do not have illumination, be favorable to the production of marketization to be used.

Description

Solar air energy system device

Technical Field

The utility model relates to a solar water heating system, concretely relates to solar energy air can system device.

Background

Solar energy is incomparable clean energy, is environment-friendly and saves money, so that the solar water heater has been developed in recent years, but the solar water heater is directly influenced by illumination, and the weather without the sun illumination can only depend on electric auxiliary heating; when the disposable water storage is not enough, the electric auxiliary heating can be only relied on. Compared with the annual power consumption of the same water consumption, the power consumption is higher than that of the air energy water heater. The solar water heater is the unchangeable limitation of the solar water heater, and meanwhile, the solar water heater encounters the industrial development bottleneck in two years and is lack of competition. With the continuous development of society, people have higher and higher requirements on energy consumption saving, and the solar water heater in the prior art cannot meet the requirements of people.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solve above-mentioned problem, provide a solar energy air can system device, its structural design is reasonable, can effectively improve solar water heater and can only rely on the electricity to assist the heat and cause the higher problem of power consumption when illumination is more weak or do not have illumination, is favorable to the production of marketization to be used.

The utility model adopts the following technical scheme:

the utility model provides a solar energy air can system device, includes solar water heating system and air can hot water heating system, solar water heating system includes solar panel and heat storage water tank, form circulation water path connection through the pipeline between solar panel and the heat storage water tank, the inside fixed temperature sensor that is equipped with of heat storage water tank, temperature sensor and air can hot water system signal connection, air can hot water heating system is including being fixed in the heat transfer coil pipe in the heat storage water tank, be equipped with heat medium entry and heat medium export on heat transfer coil pipe's the relative both ends respectively, just be equipped with interface channel corresponding to the position punishment of heat medium entry and heat medium export on the lateral wall of heat storage water tank respectively, the joint has a joint spare in the interface channel, connect through the screw between the lateral wall of joint spare and the inside wall of interface channel soon, the fixed rotation portion that extends the interface channel outside that is equipped with on the joint spare, still be equipped with the connecting hole that runs through in joint spare and rotation part in proper order on the joint spare, heat medium entry and heat medium export run through respectively and the screw connects soon in the connecting hole that corresponds.

As a preferred technical scheme of the utility model, the connecting channel is last to be close to one of heat storage water tank inboard and serves the fixed annular interior baffle that is equipped with, fixed laminating has the sealing washer on the inside wall of interior baffle, the last one of being close to the heat storage water tank outside of connecting channel serves the fixed annular outer baffle that is equipped with.

As an optimal technical scheme of the utility model, air can hot water system still includes liquid storage pot, drier-filter, expansion valve, evaporimeter, vapour and liquid separator and compressor, heat transfer coil, liquid storage pot, drier-filter, expansion valve, evaporimeter, vapour and liquid separator and compressor are heat medium circulation circuit connection through the pipeline in proper order.

The utility model has the advantages that:

the utility model has reasonable structure design, can effectively solve the problem that the solar water heater can only depend on electric auxiliary heat to cause higher power consumption when the illumination is weak or no illumination is available by adopting the mode of combining the solar water system and the air energy hot water system, and is beneficial to marketized production and application; meanwhile, the heat exchange coil on the air energy hot water system is connected with the heat storage water tank in a threaded screwing mode, so that the heat exchange coil is more convenient and faster to disassemble, assemble and maintain.

Drawings

Fig. 1 is a schematic structural diagram of a solar air energy system device according to the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

the symbols in the drawings illustrate that:

the solar heat collecting plate comprises a solar heat collecting plate 1, a heat storage water tank 2, a temperature sensor 3, a heat exchange coil 4, a heat medium inlet 5, a heat medium outlet 6, a connecting channel 7, a clamping piece 8, a rotating part 9, an inner baffle 10, a sealing ring 11, an outer baffle 12, a liquid storage tank 13, a drying filter 14, an expansion valve 15, an evaporator 16, a gas-liquid separator 17 and a compressor 18.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, a solar air energy system device includes a solar water heating system and an air energy water heating system, the solar water heating system includes a solar heat collecting plate 1 and a heat storage water tank 2, the solar heat collecting plate 1 and the heat storage water tank 2 form a circulating water path connection through a pipeline, specifically, in the installation process, a water pump is further disposed on the pipeline of the circulating water path formed between the solar heat collecting plate 1 and the heat storage water tank 2, the solar heat collecting plate 1 adopted in this embodiment is a solar heat collecting plate conventionally used in a solar water heating system in the prior art, and therefore detailed description of the specific structure is omitted;

the air energy hot water system comprises a power supply mechanism with a switch, the temperature sensor 3 is in signal connection with the switch on the power supply mechanism, when the temperature sensor 3 detects that the water temperature in the hot water storage tank 2 is lower than a set value, the temperature sensor 3 transmits a control signal to the switch of the power supply mechanism to enable the switch to close the power supply mechanism to be powered on, and the air energy hot water system is started to heat the water in the hot water storage tank 2; on the contrary, when the water temperature in the heat storage water tank 2 is higher than the set value in use, the air energy water heating system is in a stop state; in the present embodiment, the bottom of the hot water storage tank 2 is further provided with a cold water inlet (not shown) for connecting with an external water source and a hot water outlet (not shown) for discharging hot water;

the air energy hot water system comprises a heat exchange coil 4 fixed in a heat storage water tank 2, the heat exchange coil 4 is of an S-shaped structure, two opposite ends of the heat exchange coil 4 are respectively provided with a heat medium inlet 5 and a heat medium outlet 6, the side wall of the heat storage water tank 2 and the positions corresponding to the heat medium inlet 5 and the heat medium outlet 6 are respectively provided with a connecting channel 7 for connecting and fixing the heat medium inlet 5 and the heat medium outlet 6, a clamping piece 8 is clamped in the connecting channel 7, the outer side wall of the clamping piece 8 is screwed with the inner side wall of the connecting channel 7 through threads, and in the embodiment, the length of the clamping piece 8 is smaller than that of the connecting channel 6; the clamping piece 8 is fixedly provided with a rotating part 9 extending out of the connecting channel 7, the rotating part 9 and the clamping piece 8 are of an integrally formed structure, and the sum of the lengths of the clamping piece 8 and the rotating part 9 is greater than the length of the connecting channel 7; the clamping piece 8 is also provided with connecting holes (not marked in the figure) which sequentially penetrate through the clamping piece 8 and the rotating part 9, and the structure of the connecting holes is matched with the structures of the heat medium inlet 5 and the heat medium outlet 6; when in installation, the heat medium inlet 5 and the heat medium outlet 6 respectively penetrate through and are screwed in the corresponding connecting holes; specifically, the external threads on the heat medium inlet 5 and the heat medium outlet 6 are arranged at one end close to the heat exchange coil 4, during installation, the clamping piece 8 is firstly rotated to one end, close to the outer side of the heat storage water tank 2, of the connecting channel 7, then the heat medium inlet 5 and the heat medium outlet 6 are respectively inserted into the corresponding connecting holes (at the moment, the external threads on the heat medium inlet 5 and the heat medium outlet 6 and the internal threads on the inner side wall of the connecting holes are not screwed), then the clamping piece 8 is reversely rotated through the rotating part 9 so that the clamping piece 8 moves along one end close to the inner side of the heat storage water tank 2, and meanwhile, the internal threads on the inner side wall of the connecting holes are convenient for the external threads on the heat medium inlet 5 (or the heat medium outlet 6) to; more specifically, a limiting block is fixedly arranged on the outer side walls of the heat medium inlet 5 and the heat medium outlet 6 and at a position corresponding to the inner side wall of the heat storage water tank 2, and when the heat medium inlet 5 (or the heat medium outlet 6) is screwed with the connecting hole in a threaded manner, the limiting block is abutted against the inner side wall of the heat storage water tank 2;

furthermore, an annular inner baffle 10 is fixedly arranged at one end, close to the inner side of the heat storage water tank 2, of the connecting channel 7, a sealing ring 11 is fixedly attached to the inner side wall of the inner baffle 10, and when the rotating part 9 rotates the clamping piece 8 in the reverse direction so that the clamping piece 8 moves along one end, close to the inner side of the heat storage water tank 2, of the connecting hole so that the inner thread on the inner side wall of the connecting hole facilitates the screwing and connection of the outer thread on the heat medium inlet 5 (heat medium outlet 6), the clamping piece 8 can extrude the sealing ring 11 after moving to be close to the sealing ring 11, and therefore the connecting and sealing effect between the clamping piece 8 and the connecting channel 7 is improved; an annular outer baffle plate 12 is fixedly arranged at one end of the connecting channel 7 close to the outer side of the heat storage water tank 2; in the practical application process, in order to improve the sealing property between the outer side wall of the heat medium inlet 5 (or the heat medium outlet 6) and the inner side wall of the connecting hole, a fixing groove arranged along the circumferential direction of the outer side wall of the heat medium inlet 5 (or the heat medium outlet 6) can be further arranged at a position where an external thread is not arranged on the outer side wall of the heat medium inlet 5 (or the heat medium outlet 6), and an additional sealing ring is sleeved in the fixing groove, so that the sealing property between the outer side wall of the heat medium inlet 5 (or the heat medium outlet 6) and the inner side wall of the connecting hole is improved;

further, the air energy water heating system further comprises a liquid storage tank 13, a drying filter 14, an expansion valve 15, an evaporator 16, a vapor-liquid separator 17 and a compressor 18, wherein the heat exchange coil 4, the liquid storage tank 13, the drying filter 14, the expansion valve 15, the evaporator 16, the vapor-liquid separator 17 and the compressor 18 are sequentially connected in a heat medium circulation loop through pipelines; in this embodiment, the adopted liquid storage tank 13, the dry filter 14, the expansion valve 15, the evaporator 16, the vapor-liquid separator 17 and the compressor 18 are all the liquid storage tank, the dry filter, the expansion valve, the evaporator, the vapor-liquid separator and the compressor which are conventionally used in the air energy water heating system in the prior art, and therefore detailed descriptions of the specific structure and the working principle are omitted.

Finally, it should be noted that: these embodiments are merely illustrative of the present invention and do not limit the scope of the invention. In addition, other variations and modifications will be apparent to persons skilled in the art based on the foregoing description. And are neither required nor exhaustive of all embodiments. And obvious changes and modifications may be made without departing from the scope of the present invention.

Claims (3)

1. The utility model provides a solar energy air can system device, includes solar water heating system and air can hot water heating system, solar water heating system includes solar panel (1) and heat storage water tank (2), be circulation water path connection through the pipeline between solar panel (1) and heat storage water tank (2), heat storage water tank (2) inside is fixed and is equipped with one temperature sensor (3), temperature sensor (3) and air can hot water heating system signal connection, its characterized in that: the air energy water heating system comprises a heat exchange coil (4) fixed in the heat storage water tank (2), a heat medium inlet (5) and a heat medium outlet (6) are respectively arranged at the two opposite ends of the heat exchange coil (4), connecting channels (7) are respectively arranged on the side wall of the heat storage water tank (2) and at positions corresponding to the heat medium inlet (5) and the heat medium outlet (6), a clamping piece (8) is clamped in the connecting channel (7), the outer side wall of the clamping piece (8) is screwed with the inner side wall of the connecting channel (7) through threads, a rotating part (9) extending out of the connecting channel (7) is fixedly arranged on the clamping piece (8), the clamping piece (8) is also provided with a connecting hole which sequentially penetrates through the clamping piece (8) and the rotating part (9), the heat medium inlet (5) and the heat medium outlet (6) respectively penetrate through and are screwed in the corresponding connecting holes.

2. The solar air energy system device of claim 1, wherein: connecting channel (7) are gone up one of being close to heat storage water tank (2) inboard and serve fixed annular interior baffle (10) that is equipped with, fixed laminating has sealing washer (11) on the inside wall of interior baffle (10), connecting channel (7) are gone up one of being close to the heat storage water tank (2) outside and serve fixed annular outer baffle (12) that is equipped with.

3. The solar air energy system device of claim 1, wherein: the air energy water heating system further comprises a liquid storage tank (13), a drying filter (14), an expansion valve (15), an evaporator (16), a vapor-liquid separator (17) and a compressor (18), wherein the heat exchange coil (4), the liquid storage tank (13), the drying filter (14), the expansion valve (15), the evaporator (16), the vapor-liquid separator (17) and the compressor (18) are connected in sequence through a heat medium circulation loop through pipelines.

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