CN217957032U - Heat dissipation device for photovoltaic power station - Google Patents

Abstract

The utility model relates to a photovoltaic power generation technical field, concretely relates to photovoltaic power plant heat abstractor, including water installations, water installations left side through connection inlet tube, inlet tube opposite side through connection heat collecting device, fixed mounting thermal-arrest board in the heat collecting device, the inboard solid fixed ring two of surface mounting of heat collecting device. The left side of the second fixing ring is fixedly connected with the heat absorption coil, and the lower side of the second fixing ring is fixedly installed on the heat collection plate. The heat absorption water coil is embedded in the heat collection plate, and an outlet at the other end of the heat absorption water coil is connected with the water pipe. The other end of the connecting water pipe is connected with a cooling device in a penetrating way, and the middle of the connecting water pipe is fixedly connected with a fixed support. And the upper part of the front side of the cooling device is in through connection with an air inlet pipe. The other side of the air inlet pipe is connected with a compressor in a penetrating way. This device passes through water pump and electric valve's nimble application, and the circulated water, the water economy resource, heat absorption coil increase area of contact has increaseed the radiating efficiency.

Description

Heat dissipation device for photovoltaic power station

Technical Field

The utility model relates to a photovoltaic power generation technical field, concretely relates to photovoltaic power plant heat abstractor.

Background

The photovoltaic power station is a power generation system which is formed by using solar energy and electronic elements made of special materials such as a crystalline silicon plate, an inverter and the like, and a photovoltaic power generation system which is connected with a power grid and transmits power to the power grid. The chinese patent discloses a (No. CN 216531233U) which can better perform heat dissipation treatment on a solar panel, but the heat dissipation is not uniform enough, the heat dissipation efficiency is low, and the water-cooled heat dissipation water resource is not sufficiently utilized. Therefore, the person skilled in the art provides a heat sink for a photovoltaic power station to solve the problems mentioned in the background above.

SUMMERY OF THE UTILITY MODEL

For solving the technical problem, the utility model discloses a photovoltaic power plant heat abstractor, including water installations, water installations left side through connection inlet tube, inlet tube one end through connection water installations, inlet tube opposite side through connection heat collection device, fixed mounting receives the hot plate in the heat collection device, the solid fixed ring two of surface mounting under the heat collection device inboard, two right sides fixed connection inlet tubes of solid fixed ring, two left sides fixed connection endothermic water coils of solid fixed ring, two downside fixed mounting of solid fixed ring are on receiving the hot plate, endothermic water coils is embedded in receiving the hot plate, and solid fixed ring two is received to endothermic water coils one end exit linkage, and endothermic water coils other end exit linkage connecting pipe, connecting pipe one end fixed connection endothermic water coils, connecting pipe other end through connection cooling device, the fixed connection fixed bolster in the middle of the connecting pipe, the top through connection intake pipe of cooling device front side, one side through connection cooling device, intake pipe opposite side through connection compressor.

Preferably: two right sides fixed connection inlet tubes of solid fixed ring, two left sides fixed connection heat absorption water coil pipes of solid fixed ring, two downside fixed mounting of solid fixed ring are on receiving the hot plate, the heat absorption water coil pipe is embedded in receiving the hot plate, and the solid fixed ring of heat absorption water coil pipe one end exit linkage, the other end exit linkage of heat absorption water coil pipe connect the water pipe, connect water pipe one end fixed connection heat absorption water coil pipe, connect the water pipe other end through connection cooling device, connect the middle fixed connection fixed bolster of water pipe.

Preferably: the water inlet device comprises a water inlet device rear side fixed installation controller, wherein a first switch and a second switch are installed on the surface of the controller respectively, a first water pump is fixedly installed on the bottom surface inside the water inlet device, and a first motor is fixedly installed on the upper side of the first water pump.

Preferably, the following components: the water inlet device is characterized in that the controller is fixedly installed on the rear side of the water inlet device, a first switch and a second switch are installed on the surface of the controller respectively, a first water pump is fixedly installed on the bottom surface inside the water inlet device, a first water pump is fixedly installed on a first motor, a first water pump left side is fixedly connected with a water outlet pipe, a first water outlet pipe left side is fixedly connected with a first fixing ring, a first fixing ring left side is fixedly connected with a water inlet pipe, a first fixing ring right side is fixedly connected with a water outlet pipe, and a first electric valve is installed on the upper side of the water outlet pipe in a penetrating mode.

Preferably, the following components: the utility model discloses a coolant liquid storage device, including inlet tube front side through connection coolant liquid inlet tube, coolant liquid inlet tube one end through connection inlet tube, coolant liquid inlet tube other end through connection coolant liquid bin, the coolant liquid inlet tube upside fixed mounting electric valve two, inlet tube downside through fixed probe, probe lower extreme fixed mounting monitor, monitor downside fixed connection connecting wire one, connecting wire one end fixed connection monitor, connecting wire one other end fixed connection electric valve one, connecting wire one is connected to one side in the left side of electric valve one, and connecting wire two is connected to one side in the right of electric valve one, motor one is connected on one right side of two left sides fixed connection electric valve of connecting wire, one front side fixed connection connecting wire of electric valve three, electric valve one is connected to three one ends of connecting wire, and connecting wire three other end fixed connection electric valve two.

Preferably, the following components: the solar heat collecting device comprises a heat collecting device body, a support frame, a partition plate, a cooling pipe I, a cooling pipe II, a circulating water pipe, a circulating water pump II, a circulating water pump motor II and a circulating water pipe, wherein the partition plate is fixedly installed on two sides of the outer side surface of the heat collecting device body, the solar panel is fixedly installed on the fixed corner plate, the support frame is fixedly connected with the support frame, the partition plate is fixedly installed in the middle of the inner portion of the cooling device body, the cooling pipe I is connected with the front portion of the partition plate in a penetrating mode, the cooling pipe II is connected with the rear portion of the partition plate in a penetrating mode, one end of the cooling pipe II is connected with the rear portion of the partition plate in a penetrating mode, the circulating water pipe II is fixedly connected with the other end of the cooling pipe, the other end of the cooling pipe II is connected with the cooling device in a penetrating mode, one end of the cooling pipe II is fixedly connected with the circulating water pipe, the circulating water pump motor II is fixedly installed on the right side of the circulating water pipe, and the circular pipe is fixedly installed on the circulating water pipe.

Preferably, the following components: the compressor right side top through connection intake pipe, compressor left side below through connection outlet duct, compressor right side below fixed mounting motor three, compressor bottom surface fixed mounting backup pad.

The utility model discloses a technological effect and advantage:

1. this device passes through water pump and electric valve's nimble application, and the circulated water, the water economy resource, heat absorption coil increase area of contact has increaseed the radiating efficiency.

Drawings

Fig. 1 is a schematic structural diagram of a photovoltaic power station heat dissipation device provided in an embodiment of the present application;

fig. 2 is a schematic rear view of a heat dissipation device of a photovoltaic power station according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a front view of a water inlet device in a heat dissipation device of a photovoltaic power station according to an embodiment of the present disclosure;

FIG. 4 is a schematic structural diagram of a photovoltaic power plant heat dissipation device according to an embodiment of the present disclosure in a side view;

fig. 5 is a schematic structural diagram of a rear view of a water inlet device in a photovoltaic power station heat dissipation device according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of a photovoltaic power station heat dissipation device in a top view according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of a water inlet device in a photovoltaic power station heat dissipation device according to an embodiment of the present disclosure from a top view;

fig. 8 is a schematic structural diagram of an interior of a heat collecting device in a heat dissipation device of a photovoltaic power station according to an embodiment of the present disclosure.

Fig. 9 is a schematic structural diagram of a side view of a cooling device in a heat dissipation device of a photovoltaic power station according to an embodiment of the present application.

Fig. 10 is a schematic structural diagram of a rear interior of a cooling device in a photovoltaic power station heat dissipation device according to an embodiment of the present application.

Fig. 11 is a schematic structural diagram of details of a water inlet pipe 172 in a water inlet device in a photovoltaic power station heat dissipation device according to an embodiment of the present disclosure.

In the figure:

1. a water inlet device; 111. a first motor; 121. a cooling liquid inlet pipe; 151. a probe; 161. a second connecting line; 162. connecting a third wire; 171. a first fixing ring; 172. a water inlet pipe; 173. a second fixing ring; 181. a first switch; 182. a second switch; 11. a first water pump; 12. a coolant storage tank; 13. a first electrically operated valve; 14. an electric valve II; 15. a monitor; 16. connecting a first wire; 17. a water outlet pipe; 18. a controller;

2. a solar panel;

3. a heat collecting device; 31. a heated plate; 32. a heat absorbing water coil pipe; 33. a support frame; 34. fixing the angle plate; 35. connecting a water pipe; 351. fixing a bracket;

4. a cooling device; 41. a division plate; 42. a first cooling pipe; 421. a second cooling pipe; 43. a second circulating water pump; 44. a circulating water pipe; 431. a second motor; 441. fixing a ring pipe support; 442. a fixed tube;

5. a compressor; 51. an air inlet pipe; 52. an air outlet pipe; 53. a third motor; 54. and a support plate.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to practitioners skilled in this art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Example 1

Referring to fig. 1 to 11, in the present embodiment, a heat dissipation device for a photovoltaic power station is provided, including a water inlet device 1, a water inlet pipe 172 is connected to a left side of the water inlet device 1 in a penetrating manner, one end of the water inlet pipe 172 is connected to the water inlet device 1 in a penetrating manner, a heat collection device 3 is connected to the other side of the water inlet pipe 172 in a penetrating manner, a heated plate 31 is fixedly installed in the heat collection device 3, and a fixing ring ii 173 is fixedly installed on a lower surface of an inner side of the heat collection device 3. The right side of the second fixing ring 173 is fixedly connected with a water inlet pipe 172, the left side of the second fixing ring 173 is fixedly connected with a heat absorption water coil 32, and the lower side of the second fixing ring 173 is fixedly installed on the heated plate 31. The heat absorption water coil 32 is embedded in the heated plate 31, an outlet at one end of the heat absorption water coil 32 is connected with the second fixing ring 173, and an outlet at the other end of the heat absorption water coil 32 is connected with the water pipe 35. One end of the connecting water pipe 35 is fixedly connected with the heat absorption water coil 32, the other end of the connecting water pipe 35 is connected with the cooling device 4 in a penetrating manner, and the middle of the connecting water pipe 35 is fixedly connected with the fixing support 351. An air inlet pipe 51 is connected to the upper front side of the cooling device 4. One side of the air inlet pipe 51 is connected with the cooling device 4 in a penetrating way, and the other side of the air inlet pipe 51 is connected with the compressor 5 in a penetrating way.

The controller 18 is fixedly arranged on the rear side of the water inlet device 1, and a first switch 181 and a second switch 182 are respectively arranged on the surface of the controller 18. The water inlet device 1 is characterized in that a first water pump 11 is fixedly installed on the bottom surface inside the water inlet device 1, and a first motor 111 is fixedly installed on the upper side of the first water pump 11. The left side of the first water pump 11 is fixedly connected with the water outlet pipe 17, and the left side of the water outlet pipe 17 is fixedly connected with a first fixing ring 171. The left side of the first fixing ring 171 is fixedly connected with a water inlet pipe 172, and the right side of the first fixing ring 171 is fixedly connected with a water outlet pipe 17. And the upper side of the water outlet pipe 17 is provided with a first electric valve 13 in a penetrating way. The front side of the water inlet pipe 172 is connected to the coolant inlet pipe 121. One end of the cooling liquid inlet pipe 121 is connected with the water inlet pipe 172 in a penetrating manner, and the other end of the cooling liquid inlet pipe 121 is connected with the cooling liquid storage tank 12 in a penetrating manner. And a second electric valve 14 is fixedly arranged on the upper side of the cooling liquid inlet pipe 121. The lower side of the water inlet pipe 172 penetrates the fixed probe 151. The monitor 15 is fixedly arranged at the lower end of the probe 151. The monitor 15 is fixedly connected with a first connecting line 16 on the lower side. One end of the first connecting wire 16 is fixedly connected with the monitor 15, and the other end of the first connecting wire 16 is fixedly connected with the first electric valve 13. One side of the left side of the first electric valve 13 is connected with the first connecting wire 16, and one side of the right side of the first electric valve 13 is connected with the second connecting wire 161. The left side of the second connecting line 161 is fixedly connected with the first electric valve 13, the right side of the first electric valve 13 is connected with the first motor 111, and the front side of the first electric valve 13 is fixedly connected with the third connecting line 162. One end of the third connecting line 162 is connected with the first electric valve 13, and the other end of the third connecting line 162 is fixedly connected with the second electric valve 14.

And fixed angle plates 34 are arranged on two sides of the outer side surface of the heat collection device 3, and the fixed angle plates 34 are fixedly provided with the solar panel 2. The rear side of the fixed angle plate 34 is fixedly connected with a support frame 33. The supporting frame 33 fixedly supports the heat collecting device 3. The interlayer plate 41 is fixedly arranged in the middle of the cooling device 4. The front surface of the division plate 41 is connected with a first cooling pipe 42 in a penetrating mode, and the rear surface of the division plate 41 is connected with a second cooling pipe 421 in a penetrating mode. One end of the first cooling pipe 42 is connected with the interlayer plate 41 in a penetrating mode, and the other end of the first cooling pipe 42 is fixedly connected with the water pipe 35. One end of the second cooling pipe 421 penetrates through the interlayer plate 41, and the other end of the second cooling pipe 421 penetrates through the cooling device 4 and is fixedly connected with the fixing pipe 442. One end of the fixed pipe 442 is fixedly connected with the second cooling pipe 421, and the other end of the fixed pipe 442 is fixedly connected with the circulating water pipe 44. The front of the fixed pipe 442 is fixedly provided with a second circulating water pump 43, and the right side of the circulating water pump is fixedly provided with a second motor 431. A fixed ring pipe support 441 is fixedly installed on the circulating water pipe 44.

An air inlet pipe 51 is connected to the upper portion of the right side of the compressor 5 in a penetrating mode, an air outlet pipe 52 is connected to the lower portion of the left side of the compressor 5 in a penetrating mode, a motor III 53 is fixedly installed on the lower portion of the right side of the compressor 5 in a penetrating mode, and a supporting plate 54 is fixedly installed on the bottom face of the compressor 5.

The utility model discloses a theory of operation is: opening a first switch 181 on the controller 18, switching on all motors, opening a second switch 182 on the controller 18, opening a first electric valve 13, opening the first electric valve 13, starting a first motor 111 through a second connecting line 161, starting the first motor 111 to drive a first water pump 11 to work, enabling water to flow into a water inlet pipe 172 through a water outlet pipe 17, opening the first electric valve 13, starting a second electric valve 14 through a third connecting line 162, starting cooling liquid to flow into the water inlet pipe 172 from the cooling liquid storage tank 12 through a cooling liquid inlet pipe 121 to form cooling mixed liquid, opening the first electric valve 13, starting the monitor 15 through a first connecting line 16, when the top end of a probe 151 of the monitor 15 is submerged by the cooling mixed liquid, reversely closing the first electric valve 13 through the first connecting line 16, closing the first electric valve 13, connecting the first electric valve 13 with the first motor 111 through the second connecting line 161, reversely closing the first motor 111, and closing the first water pump 11 to stop water supply. The first electric valve 13 is closed, the first electric valve 13 is connected with the second electric valve 14 through the third connecting wire 162, and the second electric valve 14 is closed reversely. When the middle section of the probe 151 of the monitor 15 cannot contact with the cooling mixed liquid, the monitor 15 opens the first electric valve 13 through the first connecting line 16, the first electric valve 13 is opened, the first electric valve 13 is connected with the first motor 111 through the second connecting line 161, the first motor 111 is opened, and the first motor 111 opens the first water pump 11 to supply water. The first electric valve 13 is opened, the first electric valve 13 is connected with the second electric valve 14 through the third connecting wire 162, the second electric valve 14 is opened, and cooling liquid enters. The mixed cooling liquid flows into the heat absorption water coil 32 through the second fixing ring and the 173 fixing ring of the water inlet pipe 172, the heat on the heated plate is taken away 31 along the flow direction of the heat absorption water coil 32, and the heated mixed liquid flows out of the heat collection device 3 through the connecting water pipe 35, flows into the cooling device 4 and is arranged in the first cooling pipe 42. The compressor 5 driven by the third motor 53 starts to work, and the air inlet pipe 51 conveys cold air to pump away heat and discharge the heat through the air outlet pipe 52. The cooled mixed liquid flows into the second cooling pipe 421 from the first cooling pipe 42 to be cooled continuously, finally flows into the circulating water pipe 44, flows back to the water inlet pipe 172 under the operation of the second circulating water pump 43 driven by the second motor 431, and continuously circulates and reciprocates.

It is to be understood that the disclosed embodiments are merely exemplary of the invention, and are not intended to limit the invention to the precise embodiments disclosed. Based on the embodiments in the present disclosure, all other embodiments obtained by a person of ordinary skill in the art and related fields without creative efforts shall fall within the protection scope of the present disclosure. The structures, devices, and methods of operation of the present invention, not specifically described and illustrated, are generally practiced by those of ordinary skill in the art without specific recitation or limitation.

Claims (6)

1. The utility model provides a photovoltaic power plant heat abstractor, includes water installations (1), its characterized in that, water installations (1) left side through connection inlet tube (172), inlet tube (172) one end through connection inlet installation (1), inlet tube (172) opposite side through connection heat collector (3), fixed mounting receives hot plate (31) in heat collector (3), fixed ring two (173) of fixed surface mounting under heat collector (3) inboard, fixed ring two (173) right side fixed connection inlet tube (172), fixed ring two (173) left side fixed connection heat absorption water coil (32), fixed ring two (173) downside fixed mounting is on receiving hot plate (31), heat absorption water coil (32) are embedded in receiving hot plate (31), heat absorption water coil (32) one end exit linkage fixed ring two (173), heat absorption water coil (32) other end exit linkage connecting water pipe (35), connecting water pipe (35) one end fixed connection heat absorption water coil (32), connecting water pipe (35) other end through connection cooling device (4), connecting fixed support (351) in the middle of connecting water pipe (35), cooling device (4) front side through connection intake pipe (51) one side through connection intake pipe (51), the other side of the air inlet pipe (51) is connected with a compressor (5) in a penetrating way.

2. The photovoltaic power station heat dissipation device as recited in claim 1, wherein the controller (18) is fixedly mounted on the rear side of the water inlet device (1), the first switch (181) and the second switch (182) are respectively mounted on the surface of the controller (18), the first water pump (11) is fixedly mounted on the bottom surface inside the water inlet device (1), and the first motor (111) is fixedly mounted on the upper side of the first water pump (11).

3. The photovoltaic power plant heat abstractor of claim 1, characterized in that, the controller (18) is fixedly installed to the rear side of the water installations (1), switch one (181) and switch two (182) are respectively installed on the surface of the controller (18), the first water pump (11) is fixedly installed on the bottom surface inside the water installations (1), the first motor (111) is fixedly installed on the upper side of the first water pump (11), the first water pump (11) is fixedly connected with the outlet pipe (17) on the left side, the outlet pipe (17) is fixedly connected with the first fixing ring (171) on the left side, the first fixing ring (171) is fixedly connected with the inlet pipe (172) on the left side, the first fixing ring (171) is fixedly connected with the outlet pipe (17) on the right side, and the first outlet pipe (17) is installed with the electric valve (13) on the upper side in a penetrating manner.

4. The photovoltaic power plant heat dissipation device of claim 1, wherein the front side of the water inlet pipe (172) is connected with a coolant inlet pipe (121) in a penetrating manner, one end of the coolant inlet pipe (121) is connected with the water inlet pipe (172) in a penetrating manner, the other end of the coolant inlet pipe (121) is connected with a coolant storage tank (12) in a penetrating manner, the coolant inlet pipe (121) is fixedly provided with the second electric valve (14) on the upper side, the lower side of the water inlet pipe (172) is connected with the fixed probe (151) in a penetrating manner, the lower end of the probe (151) is fixedly provided with the monitor (15) in a penetrating manner, the monitor (15) is fixedly provided with the first connecting wire (16) on the lower side, the first electric valve (13) is fixedly connected with the first electric valve (13) on the left side, the second connecting wire (161) is connected with the first electric valve (13) on the right side of the first electric valve (13), the first electric valve (111) is fixedly connected with the first electric valve (13) on the left side, the third connecting wire (162) is fixedly connected with the first electric valve (162) on the left side, and the second electric valve (162) is fixedly connected with the third valve (14) on the other side.

5. The photovoltaic power plant heat dissipation device of claim 1, wherein fixed angle plates (34) are arranged on both sides of the outer side surface of the heat collection device (3), the fixed angle plate (34) is fixedly provided with the solar panel (2), the rear side of the fixed angle plate (34) is fixedly connected with a support frame (33), the support frame (33) is used for fixedly supporting the heat collecting device (3), the middle inside the cooling device (4) is fixedly provided with a interlayer plate (41), the front of the interlayer plate (41) is connected with a first cooling pipe (42) in a penetrating way, the back of the interlayer plate (41) is connected with a second cooling pipe (421) in a penetrating way, one end of the first cooling pipe (42) is connected with the interlayer plate (41) in a penetrating way, the other end of the first cooling pipe (42) is fixedly connected with the water pipe (35), one end of the second cooling pipe (421) penetrates through the interlayer plate (41), the other end of the second cooling pipe (421) penetrates through the cooling device (4) and is fixedly connected with the fixed pipe (442), one end of the fixed pipe (442) is fixedly connected with the second cooling pipe (421), the other end of the fixed pipe (442) is fixedly connected with the circulating water pipe (44), a second circulating water pump (43) is fixedly arranged in front of the fixed pipe (442), a second motor (431) is fixedly arranged on the right side of the circulating water pump, and a fixed ring pipe bracket (441) is fixedly arranged on the circulating water pipe (44).

6. The photovoltaic power station heat dissipation device according to claim 1, wherein an air inlet pipe (51) is connected above the right side of the compressor (5) in a penetrating manner, an air outlet pipe (52) is connected below the left side of the compressor (5) in a penetrating manner, a motor III (53) is fixedly installed below the right side of the compressor (5), and a support plate (54) is fixedly installed on the bottom surface of the compressor (5).

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