CN212081674U - Heat recovery ground source heat pump air conditioner host of independent water fluorine system - Google Patents
Heat recovery ground source heat pump air conditioner host of independent water fluorine system Download PDFInfo
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- CN212081674U CN212081674U CN202020636611.6U CN202020636611U CN212081674U CN 212081674 U CN212081674 U CN 212081674U CN 202020636611 U CN202020636611 U CN 202020636611U CN 212081674 U CN212081674 U CN 212081674U
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Abstract
The utility model discloses a heat recovery ground source heat pump air conditioner host computer of independent water fluorine system relates to ground source heat pump air conditioner field, including fluorine system, water system and electrical system, the fluorine system is located the first half side of bottom plate, the water system is located the latter half side of bottom plate, the electrical system is located the right side of water system, the fluorine system passes through plate heat exchanger with the water system and is connected, through structurally setting up water system and fluorine system mutually independent, the welding of copper pipe way and the connection of water pipe pipeline of being convenient for have also reduced water pipe length relatively, have strengthened the convection heat transfer of water system and fluorine system, have improved heat exchange efficiency; electric control system, compressor, vapour and liquid separator all are located the right side of bottom plate, and electric control system and water pump all are located the latter half side of bottom plate simultaneously, and electric control system is closer to main consumer more on the whole for the arrangement of electric wire is simpler and safety.
Description
Technical Field
The utility model relates to a ground source heat pump air conditioner field, concretely relates to heat recovery ground source heat pump air conditioner host computer of independent water fluorine system.
Background
The ground source heat pump air conditioning technology is a novel energy-saving technology, heat emitted by a building is transferred to the ground in summer, heat is absorbed from the ground in winter to supply heat, and the ground temperature is generally relatively stable, so that the efficiency of a unit can be effectively improved, and the energy-saving effect is achieved.
The air-conditioning water system and the fluorine system of the common heat recovery host are mutually inserted, so that the welding of copper pipes and the connection of water pipes are inconvenient; when the water pump is installed, the installation position of the water pump needs to be additionally reserved, so that the installation space is increased, and the installation of a water pipe is inconvenient; meanwhile, the electric wire arrangement of the electric control system is also relatively complex.
Disclosure of Invention
The utility model aims at providing a heat recovery ground source heat pump air conditioner host of independent water fluorine system, through setting up the river system and fluorine system mutually independent structurally, the welding of the convenient copper pipe way and the connection of water pipe pipeline have relatively also reduced the water pipe length, strengthened the heat convection of water system and fluorine system, improved heat exchange efficiency; electric control system, compressor, vapour and liquid separator all are located the right side of bottom plate, and electric control system and water pump all are located the latter half side of bottom plate simultaneously, and electric control system is closer to main consumer more on the whole for the arrangement of electric wire is simpler and safety.
The utility model provides a heat recovery ground source heat pump air conditioner host computer of independent water fluorine system, includes fluorine system, water system and electrical system, the fluorine system comprises compressor, drier-filter, thermal expansion valve, four-way reversing valve, vapour and liquid separator and pipeline, the water system comprises water pump, water flow switch and pipeline, the fluorine system is located the first half side of bottom plate, the water system is located the latter half side of bottom plate, electrical system is located the right side of water system, the fluorine system passes through plate heat exchanger with the water system and is connected.
Preferably, the compressor passes through the last interface connection of pipeline with vapour and liquid separator and leftmost plate heat exchanger among the fluorine system, vapour and liquid separator passes through pipeline and four-way reversing valve and middle and the last interface connection of rightmost plate heat exchanger to vapour and liquid separator still passes through pipeline and four-way reversing valve and is connected with the lower interface of leftmost plate heat exchanger, and middle and rightmost plate heat exchanger's lower interface passes through pipeline lug connection.
Preferably, a dry filter and a thermal expansion valve are arranged on a connecting pipeline of the lower joints of the middle plate heat exchanger and the rightmost plate heat exchanger.
Preferably, the water system comprises three water pumps, the three water pumps are respectively connected with the three plate heat exchangers, and an output pipeline of each plate heat exchanger is provided with a water flow switch.
Preferably, the compressor and the gas-liquid separator are both installed on the right side of the base.
The utility model has the advantages that: the structure is simple, the use is flexible, the water system and the fluorine system are mutually independent in structure, the welding of copper pipes and the connection of water pipes and pipelines are facilitated, the length of the water pipes is relatively reduced, the convective heat transfer of the water system and the fluorine system is enhanced, and the heat transfer efficiency is improved; electric control system, compressor, vapour and liquid separator all are located the right side of bottom plate, and electric control system and water pump all are located the latter half side of bottom plate simultaneously, and electric control system is closer to main consumer more on the whole for the arrangement of electric wire is simpler and safety.
Drawings
FIG. 1 is a schematic structural view of a side front view of the device of the present invention;
FIG. 2 is a schematic structural view of the side and rear viewing angles of the device of the present invention;
FIG. 3 is a top view of the device of the present invention;
the system comprises a base 1, a base 2, a compressor 3, a plate heat exchanger 4, a drying filter 5, a thermal expansion valve 6, a four-way reversing valve 7, a gas-liquid separator 8, a water pump 9, a water flow switch 10, a fluorine system 11, a water system 12 and an electric control system.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the functions of the invention easy to understand, the invention is further explained by combining the specific embodiments.
As shown in fig. 1 to 3, the heat recovery ground source heat pump air-conditioning main unit of the independent water-fluorine system comprises a fluorine system 10, a water system 11 and an electric control system 12, wherein the fluorine system 10 is composed of a compressor 2, a drying filter 4, a thermostatic expansion valve 5, a four-way reversing valve 6, a gas-liquid separator 7 and a pipeline, the water system 11 is composed of a water pump 8, a water flow switch 9 and a pipeline, the fluorine system 10 is located on the front half side of a bottom plate 1, the water system 11 is located on the rear half side of the bottom plate 1, the electric control system 12 is located on the right side of the water system 11, and the fluorine system 10 is connected with the water system 11 through a plate heat exchanger. The water system 11 and the fluorine system 10 are mutually independent in structure, so that the welding of copper pipes and the connection of water pipes are facilitated, the length of the water pipes is relatively reduced, the convective heat transfer of the water system 11 and the fluorine system 10 is enhanced, and the heat transfer efficiency is improved; electric control system 12, compressor 2, vapour and liquid separator 7 all are located the right side of bottom plate 1, and electric control system 12 and water pump 8 all are located the latter half side of bottom plate 1 simultaneously, and electric control system 12 is closer to main consumer on the whole for the arrangement of electric wire is simpler and safety.
And a drying filter 4 and a thermostatic expansion valve 5 are arranged on a connecting pipeline of lower joints of the middle plate heat exchanger 3 and the rightmost plate heat exchanger 3.
The water system 11 comprises three water pumps 8, the three water pumps 8 are respectively connected with the three plate heat exchangers 3, and an output pipeline of the plate heat exchangers 3 is provided with a water flow switch 9. The pipelines in the water system 11 are also concentrated on the rear half side of the base 1, the pipelines are arranged conveniently and orderly, and each pipeline is provided with a water flow switch 9 for convenient detection and control.
And the compressor 2 and the gas-liquid separator 7 are both arranged on the right side of the base 1. The electronic control system 12 is closer to the main electric equipment, which facilitates the arrangement of the electric wires.
The specific implementation mode and principle are as follows:
the fluorine system 10 area formed by the compressor 2, the drying filter 4, the thermostatic expansion valve 5, the four-way reversing valve 6, the gas-liquid separator 7 and the copper pipe is positioned at the front half side of the air-conditioning main machine (namely the front half side of the base 1), the pipes in the fluorine system 10 are also concentrated at the front half side of the base 1, and the pipes are conveniently and orderly arranged;
the water system 11 area formed by the water pump 8, the water flow switch 9 and the water pipe is positioned at the rear half side of the air conditioner main machine (namely the rear half side of the base 1), the pipes in the water system 11 are also concentrated at the rear half side of the base 1, and the pipes are conveniently and orderly arranged;
the fluorine system 10 and the water system 11 are connected through the plate heat exchanger 3, the electric control system 12 area is positioned at the same side of the gas-liquid separator 7 and the compressor 2 (namely the right side of the base 1), meanwhile, the electric control system 12 and the water pump 8 are positioned at the rear half side of the base 1, the electric control system 12 is closer to the main electric equipment, and the arrangement of electric wires is convenient;
wherein the compressor 2 provides power input for the fluorine system, the water pump 8 provides power input for the water system, and the fluorine system 10 and the water system 11 are independent and mutually connected.
Based on the above, the utility model has the advantages that the structure is simple, the water system and the fluorine system are mutually independent, so that the welding of copper pipes and the connection of water pipes and pipelines are facilitated, the length of the water pipes is relatively reduced, the convective heat transfer of the water system and the fluorine system is enhanced, and the heat transfer efficiency is improved; electric control system, compressor, vapour and liquid separator all are located the right side of bottom plate, and electric control system and water pump all are located the latter half side of bottom plate simultaneously, and electric control system is closer to main consumer more on the whole for the arrangement of electric wire is simpler and safety.
It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of the invention or which are equivalent to the scope of the invention are embraced by the invention.
Claims (5)
1. The utility model provides a heat recovery ground source heat pump air conditioner host computer of independent water fluorine system, its characterized in that, includes fluorine system (10), water system (11) and electrical system (12), fluorine system (10) comprises compressor (2), drier-filter (4), thermal expansion valve (5), four-way reversing valve (6), vapour and liquid separator (7) and pipeline, water system (11) comprises water pump (8), water flow switch (9) and pipeline, fluorine system (10) are located the first half side of bottom plate (1), water system (11) are located the latter half side of bottom plate (1), electrical system (12) are located the right side of water system (11), fluorine system (10) are connected through plate heat exchanger (3) with water system (11).
2. The heat recovery ground source heat pump air conditioner host machine of the independent water fluorine system of claim 1, characterized in that: compressor (2) pass through the last interface connection of pipeline and vapour and liquid separator (7) and leftmost plate heat exchanger (3) in fluorine system (10), vapour and liquid separator (7) pass through pipeline and four-way reversing valve (6) and the last interface connection of centre and rightmost plate heat exchanger (3) to vapour and liquid separator (7) still pass through pipeline and four-way reversing valve (6) and the lower interface connection of leftmost plate heat exchanger (3), and the lower interface of centre and rightmost plate heat exchanger (3) passes through pipeline lug connection.
3. The heat recovery ground source heat pump air conditioner host machine of the independent water fluorine system of claim 2, characterized in that: and a drying filter (4) and a thermostatic expansion valve (5) are arranged on a connecting pipeline of lower joints of the middle plate heat exchanger (3) and the rightmost plate heat exchanger.
4. The heat recovery ground source heat pump air conditioner host machine of the independent water fluorine system of claim 1, characterized in that: the water system (11) comprises three water pumps (8), the three water pumps (8) are respectively connected with the three plate heat exchangers (3), and a water flow switch (9) is arranged on an output pipeline of each plate heat exchanger (3).
5. The heat recovery ground source heat pump air conditioner host machine of the independent water fluorine system of claim 1, characterized in that: and the compressor (2) and the gas-liquid separator (7) are arranged on the right side of the bottom plate (1).
Priority Applications (1)
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CN202020636611.6U CN212081674U (en) | 2020-04-24 | 2020-04-24 | Heat recovery ground source heat pump air conditioner host of independent water fluorine system |
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CN202020636611.6U CN212081674U (en) | 2020-04-24 | 2020-04-24 | Heat recovery ground source heat pump air conditioner host of independent water fluorine system |
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2020
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