CN114465402A

CN114465402A - Intelligent water-cooling heat dissipation device for generator

Info

Publication number: CN114465402A
Application number: CN202111606433.8A
Authority: CN
Inventors: 赵书敏; 吴星
Original assignee: Jiangsu Haidiwei Hydraulic Co ltd
Current assignee: Jiangsu Haidiwei Hydraulic Co ltd
Priority date: 2021-12-26
Filing date: 2021-12-26
Publication date: 2022-05-10

Abstract

The invention relates to the technical field of heat dissipation devices, and discloses an intelligent water-cooling heat dissipation device for a generator, which comprises a mounting box and also comprises: the device comprises a rotating shaft, a mounting block, a generator mounting frame, a connecting plate, a water cooling assembly, a driving assembly, an adjusting assembly and a circulating assembly; the rotating shaft is rotatably connected to the mounting box, and the mounting block is mounted at one end of the rotating shaft. The heat on the generator is led out by the second radiating fin, one part is blown out the mounting box by the blade through the thermovent, the other part is absorbed by the cooling water in the second radiating water pipe, when the cooling water passes through the first radiating water pipe, the heat is guided into the first radiating fin, so that the cooling water is cooled, the cooling water after cooling is circulated in the water tank, the heat dissipation effect of the generator is improved, the rotating shaft drives the blade to rotate, the external air enters the mounting box through the first filter screen, then the heat generated by the generator is discharged from the second filter screen, and the temperature in the mounting box is reduced.

Description

Intelligent water-cooling heat dissipation device for generator

Technical Field

The invention relates to the technical field of heat dissipation devices, in particular to an intelligent water-cooling heat dissipation device for a generator.

Background

Initially in the early stages of the development of the wind power industry, the heat dissipation problem was not considered excessively. In addition, the current converter cabinets, boxes and the like are often on the ground beside the fans. With the development of the wind power generation industry, with the consideration of cost reduction and the reduction of engineering cost, equipment originally placed outside a tower barrel is gradually moved into the tower barrel. When the capacity of the unit is still small, the converter cabinet and the electric control cabinet in the unit are cooled by natural air or forced air, heat is directly discharged into the unit, and a heat dissipation system of the whole unit is not provided.

Therefore, when the generator works for a long time, in order to prolong the service life of each component in the generator, the heat of the generator needs to be radiated, and the existing generator mostly adopts wind power to radiate the heat in the generator, but the radiating efficiency of the mode is low.

Disclosure of Invention

The invention provides an intelligent water-cooling heat dissipation device for a generator, and solves the technical problems that in the related art, the existing generator mostly adopts wind power for heat dissipation, heat in the generator is blown out, and the heat dissipation efficiency is low.

According to one aspect of the invention, an intelligent water-cooling heat dissipation device for a generator is provided, which comprises a mounting box and further comprises:

the device comprises a rotating shaft, a mounting block, a generator mounting frame, a connecting plate, a water cooling assembly, a driving assembly, an adjusting assembly and a circulating assembly;

the wind power generation device comprises a rotating shaft, a mounting block, a connecting plate, a water cooling assembly, a driving assembly, an adjusting assembly and a circulating assembly, wherein the rotating shaft is rotatably connected to a mounting box, the mounting block is mounted at one end of the rotating shaft, the other end of the rotating shaft is connected with a generator, a wind power generation blade is mounted on the mounting block, the generator mounting frame is fixedly mounted in the mounting box, the generator is mounted in the generator mounting frame, the connecting plate is fixedly mounted on the mounting box, a wiring port is formed in the mounting box, the water cooling assembly, the driving assembly, the adjusting assembly and the circulating assembly are all mounted in the mounting box, the driving assembly is connected with the rotating shaft, the adjusting assembly is respectively connected with the driving assembly and the circulating assembly, and the water cooling assembly is connected with the circulating assembly;

the axis of rotation rotates through wind power generation blade, drive assembly drives the work of circulation subassembly through axis of rotation pivoted mode, the circulation subassembly is used for driving the cooling water at the water-cooling module inner loop, the water-cooling module is used for dispelling the heat to the generator, the adjusting part is used for controlling drive assembly and circulation subassembly to be connected.

Further: the mounting box is internally provided with a heat dissipation assembly used for dissipating heat of the generator, the heat dissipation assembly is connected with the rotating shaft, and the heat dissipation assembly dissipates heat of the generator in a rotating shaft rotating mode.

Further: radiator unit includes first filter screen, second filter screen, blade, be provided with air intake and thermovent on the mounting box, first filter screen and second filter screen are installed respectively in air intake and thermovent, blade fixed mounting is in the axis of rotation.

Further: and four air inlets and four first filter screens are annularly arranged.

Further: drive assembly includes drive gear, fixed axle, cam, sliding sleeve, gear, drive gear fixed mounting is in the axis of rotation, fixed mounting has the fixed block in the mounting box, the fixed axle rotates to be connected on the fixed block, cam fixed mounting is on the fixed axle, sliding sleeve sliding connection is on the fixed axle, gear fixed mounting is on the sliding sleeve.

Further: the adjusting assembly comprises a pressure spring and an electromagnet, the electromagnet is fixedly installed on the fixed shaft, and the pressure spring is sleeved on the fixed shaft.

Further: the circulating assembly comprises a pump body, a piston, a push rod, a second pressure spring, a connecting pipe and a water tank, wherein the pump body and the water tank are fixedly mounted on the mounting box, a sliding groove is formed in the pump body, the piston is arranged in the sliding groove in a sliding mode, a through hole is formed in the piston, a first one-way valve is arranged in the through hole, the pump body is communicated with the water tank through the connecting pipe, a second one-way valve is arranged in the connecting pipe, and a water discharging pipe is connected to the pump body.

Further: the water cooling component comprises a heating panel, a first cooling fin, a connecting pipe, a water tank, a second cooling fin and a second cooling water pipe, the heating panel is fixedly mounted on the side wall of the mounting box, the first cooling fin is fixedly mounted on the heating panel, the first cooling water pipe is further arranged on the heating panel, one end of the first cooling water pipe is communicated with the water tank through the connecting pipe, the second cooling fin and the second cooling water pipe are both arranged on the generator mounting frame, the other end of the first cooling water pipe is communicated with one end of the second cooling water pipe, and the other end of the second cooling water pipe is communicated with the drain pipe.

Further: the first radiating fins and the second radiating fins are provided with a plurality of radiating water pipes which are uniformly coiled on the first radiating fins, and the second radiating water pipes are uniformly coiled on the second radiating fins.

Further: the generator mounting frame is provided with a temperature sensor, a controller is installed in the mounting box, and the controller is electrically connected with the temperature sensor and the electromagnet respectively.

The invention has the beneficial effects that: the first radiating fin and the second radiating fin are made of materials with good heat conductivity such as copper, the second radiating fin conducts heat on the generator, one part of the heat conducted by the blades is blown out of the mounting box through the radiating port, the other part of the heat conducted by the second radiating fin is absorbed by cooling water in the second radiating water pipe, the cooling water conducts the heat to the first radiating fin when passing through the first radiating water pipe, the cooling water conducts heat dissipation and cooling, the cooling water after heat dissipation and cooling enters the water tank to circulate, the heat dissipation effect of the generator is improved, the rotating shaft drives the blades to rotate, external air enters the mounting box through the first filter screen, then heat generated by the generator is discharged from the second filter screen, the temperature in the mounting box is reduced, when the controller reads that the temperature of the temperature sensor is too high, the electromagnet is electrified, and then the generator is cooled by water, and automatic heat dissipation of the device is achieved.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic cross-sectional structural view of the present invention;

FIG. 3 is an enlarged schematic view of A of FIG. 2 according to the present invention;

fig. 4 is an enlarged structural view of B in fig. 3 according to the present invention.

In the figure: the mounting box 101, the rotating shaft 102, the mounting block 103, the generator mounting frame 104, the connecting plate 105, the wire routing port 106, the heat dissipation assembly 2, the air inlet 201, the first filter screen 202, the heat dissipation port 203, the second filter screen 204, the blades 205, the water cooling assembly 3, the heat dissipation plate 301, the first heat dissipation plate 302, the first heat dissipation water pipe 303, the connecting pipe 304, the water tank 305, the second heat dissipation plate 306, the second heat dissipation water pipe 307, the driving assembly 4, the driving gear 401, the fixed block 402, the fixed shaft 403, the cam 404, the sliding sleeve 405, the gear 406, the adjusting assembly 5, the pressure spring 501, the electromagnet 502, the circulating assembly 6, the pump body 601, the sliding groove 602, the piston 603, the push rod 604, the through hole 605, the first check valve 606, the second pressure spring 607, the connecting pipe 608, the second check valve 609, the drain pipe 610, the temperature sensor 7, and the controller 8.

Detailed Description

An intelligent water-cooled heat sink for a generator as described herein will now be discussed with reference to an example embodiment. It should be understood that these embodiments are discussed only to enable those skilled in the art to better understand and realize the intelligent water-cooled heat sink for a generator described herein, and are not intended to limit the scope, applicability, or examples set forth in the claims. Changes may be made in the function and arrangement of elements discussed without departing from the scope of the disclosure. Various examples may omit, substitute, or add various procedures or components as needed. In addition, features described with respect to some examples may also be combined in other examples.

Example one

As shown in fig. 1 and fig. 2, an intelligent water-cooling heat dissipation device for a generator includes a mounting box 101, and is characterized by further including:

the rotating shaft 102, the mounting block 103, the generator mounting frame 104, the connecting plate 105, the water cooling assembly 3, the driving assembly 4, the adjusting assembly 5 and the circulating assembly 6;

the wind power generation device comprises a rotating shaft 102, a mounting block 103, a generator, a wind power generation blade, a generator mounting frame 104, a connecting plate 105, a water cooling assembly 3, a driving assembly 4, an adjusting assembly 5 and a circulating assembly 6, wherein the rotating shaft 102 is rotatably connected to the mounting box 101, the mounting block 103 is mounted at one end of the rotating shaft 102, the generator is connected to the other end of the rotating shaft 102, the wind power generation blade is mounted on the mounting block 103, the generator mounting frame 104 is fixedly mounted in the mounting box 101, the generator is mounted in the generator mounting frame 104, the connecting plate 105 is fixedly mounted on the mounting box 101, the mounting box 101 is provided with a wiring port 106, the water cooling assembly 3, the driving assembly 4, the adjusting assembly 5 and the circulating assembly 6 are all mounted in the mounting box 101, the driving assembly 4 is connected with the rotating shaft 102, the adjusting assembly 5 is respectively connected with the driving assembly 4 and the circulating assembly 6, and the water cooling assembly 3 is connected with the circulating assembly 6;

rotation axis 102 rotates through wind power generation blade, drive assembly 4 drives circulation subassembly 6 work through rotation axis 102 pivoted mode, circulation subassembly 6 is used for driving cooling water at water cooling module 3 inner loop, water cooling module 3 is used for dispelling the heat to the generator, adjusting part 5 is used for controlling being connected of drive assembly 4 and circulation subassembly 6.

The wind power generation blade drives the rotating shaft 102 to rotate through wind power, the rotating shaft 102 drives the generator to generate power, the rotating shaft 102 drives the driving component 4 to work, when the temperature in the mounting box 101 is high, the adjusting component 5 controls the driving component 4 to be in transmission connection with the circulating component 6, the driving component 4 drives the circulating component 6 to drive cooling water to circulate, so that the cooling water circulates in the water cooling component 3, the generator is cooled, the generator is prevented from being overheated during working, and the service life of the generator is prolonged.

Example two

As shown in fig. 1 and fig. 3, in the second embodiment, the difference from the above embodiments is that a heat dissipation assembly 2 for dissipating heat of a generator is installed in the mounting box 101, the heat dissipation assembly 2 is connected to the rotating shaft 102, the heat dissipation assembly 2 dissipates heat of the generator in a manner that the rotating shaft 102 rotates, the heat dissipation assembly 2 includes a first filter screen 202, a second filter screen 204 and blades 205, an air inlet 201 and a heat dissipation opening 203 are formed in the mounting box 101, the first filter screen 202 and the second filter screen 204 are installed in the air inlet 201 and the heat dissipation opening 203, the blades 205 are fixedly installed on the rotating shaft 102, and four air inlets 201 and four first filter screens 202 are annularly provided.

The rotating shaft 102 drives the blades 205 to rotate, external air enters the mounting box 101 through the first filter screen 202, and heat generated by the generator is discharged from the second filter screen 204, so that the temperature in the mounting box 101 is reduced.

EXAMPLE III

As shown in fig. 1 to 4, in the third embodiment, the difference from the previous embodiments is that the driving assembly 4 includes a driving gear 401, a fixed shaft 403, a cam 404, a sliding sleeve 405, and a gear 406, the driving gear 401 is fixedly mounted on the rotating shaft 102, a fixed block 402 is fixedly mounted in the mounting box 101, the fixed shaft 403 is rotatably connected to the fixed block 402, the cam 404 is fixedly mounted on the fixed shaft 403, the sliding sleeve 405 is slidably connected to the fixed shaft 403, the gear 406 is fixedly mounted on the sliding sleeve 405, the adjusting assembly 5 includes a pressure spring 501 and an electromagnet 502, the electromagnet 502 is fixedly mounted on the fixed shaft 403, the pressure spring 501 is sleeved on the fixed shaft 403, the circulating assembly 6 includes a pump body 601, a piston 603, a push rod 604, a second pressure spring 607, a connecting pipe 608, and a water tank 305, the pump body 601 and the water tank 305 are both fixedly mounted on the mounting box 101, a sliding groove 602 is arranged in the pump body 601, the piston 603 is arranged in the sliding groove 602 in a sliding manner, a through hole 605 is arranged on the piston 603, a first one-way valve 606 is arranged in the through hole 605, the pump body 601 is communicated with the water tank 305 through a connecting pipe 608, a second one-way valve 609 is arranged in the connecting pipe 608, a drain pipe 610 is connected to the pump body 601, the water cooling assembly 3 comprises a heat dissipation plate 301, a first heat dissipation plate 302, a connecting pipe 304, the water tank 305, a second heat dissipation plate 306 and a second heat dissipation water pipe 307, the heat dissipation plate 301 is fixedly arranged on the side wall of the mounting box 101, the first heat dissipation plate 302 is fixedly arranged on the heat dissipation plate 301, the heat dissipation plate 301 is further provided with a first heat dissipation water pipe 303, one end of the first heat dissipation water pipe 303 is communicated with the water tank 305 through the connecting pipe 304, and the second heat dissipation water pipe 306 and the second heat dissipation water pipe 307 are both arranged on the generator mounting rack 104, the other end of the first heat dissipation water pipe 303 is communicated with one end of a second heat dissipation water pipe 307, and the other end of the second heat dissipation water pipe 307 is communicated with a drain pipe 610.

The sliding sleeve 405 is made of metal and can be magnetically adsorbed, when the temperature in the mounting box 101 is too high, the electromagnet 502 is energized, the magnetic force generated by the electromagnet 502 attracts the sliding sleeve 405 to move rightward by overcoming the elastic force of the compression spring 501, so that the gear 406 on the sliding sleeve 405 is meshed and matched with the driving gear 401, the rotating shaft 102 drives the driving gear 401 to rotate, the driving gear 401 drives the fixed shaft 403 to rotate through the gear 406, the fixed shaft 403 drives the cam 404 to rotate, the cam 404 pushes the push rod 604 to move downward, the push rod 604 drives the piston 603 to move downward, so that the cooling water at the lower part of the piston 603 in the sliding groove 602 enters the upper part of the piston 603 through the first check valve 606, when the cam 404 continues to rotate and is separated from the push rod 604, the second compression spring 607 pushes the piston 603 to move upward, so that the cooling water at the upper part of the piston 603 enters the drain pipe 610, and the cooling water in the water tank 305 enters the sliding groove 602 and is located at the lower part of the piston 603 through the second check valve 609, when the cam 404 continuously rotates, the cooling water in the water tank 305 is pumped into the second heat dissipation water pipe 307 and the first heat dissipation water pipe 303, and then enters the water tank 305 again through the connecting pipe 304, the first heat dissipation fin 302 and the second heat dissipation fin 306 are made of materials with good heat conductivity such as copper, the second heat dissipation fin 306 guides out the heat on the generator, one part of the heat is blown out of the mounting box 101 through the heat dissipation port 203 by the blade 205, the other part of the heat is absorbed by the cooling water in the second heat dissipation water pipe 307, when the cooling water passes through the first heat dissipation water pipe 303, the heat is guided into the first heat dissipation fin 302, so that the cooling water is cooled, the cooling water after cooling is cooled is circulated in the water tank 305, and the heat dissipation effect of the generator is improved.

Example four

As shown in fig. 2, in the fourth embodiment, the difference from the above embodiments is that a plurality of first heat dissipation fins 302 and a plurality of second heat dissipation fins 306 are provided, the first heat dissipation water pipes 303 are uniformly wound on the first heat dissipation fins 302, the second heat dissipation water pipes 307 are uniformly wound on the second heat dissipation fins 306, the generator mounting frame 104 is provided with a temperature sensor 7, the mounting box 101 is internally provided with a controller 8, and the controller 8 is electrically connected to the temperature sensor 7 and the electromagnet 502 respectively.

Set up a plurality of first fin 302 and second fin 306 and be used for improving the effect of heat dissipation cooling, temperature-sensing ware 7 carries out real time monitoring to the temperature of generator, and controller 8 reads when temperature-sensing ware 7 is too high, and the electro-magnet 502 circular telegram, and then carries out water-cooling to the generator.

The embodiments of the present invention have been described with reference to the drawings, but the present invention is not limited to the above-mentioned specific embodiments, which are only illustrative and not restrictive, and those skilled in the art can make many forms without departing from the spirit and scope of the present invention and the protection scope of the claims.

Claims

1. The utility model provides an intelligence water-cooling heat abstractor for generator, includes mounting box (101), its characterized in that still includes:

the device comprises a rotating shaft (102), a mounting block (103), a generator mounting frame (104), a connecting plate (105), a water cooling assembly (3), a driving assembly (4), an adjusting assembly (5) and a circulating assembly (6);

the rotating shaft (102) is rotatably connected to the mounting box (101), the mounting block (103) is mounted at one end of the rotating shaft (102), the other end of the rotating shaft (102) is connected with a generator, the mounting block (103) is provided with a wind power generation blade, the generator mounting frame (104) is fixedly arranged in the mounting box (101), the generator is arranged in the generator mounting frame (104), the connecting plate (105) is fixedly arranged on the mounting box (101), a wiring port (106) is arranged on the mounting box (101), the water cooling component (3), the driving component (4), the adjusting component (5) and the circulating component (6) are all arranged in the mounting box (101), the driving assembly (4) is connected with the rotating shaft (102), the adjusting assembly (5) is respectively connected with the driving assembly (4) and the circulating assembly (6), and the water cooling assembly (3) is connected with the circulating assembly (6);

the rotating shaft (102) rotates through the wind power generation blades, the driving assembly (4) drives the circulating assembly (6) to work in a rotating mode through the rotating shaft (102), the circulating assembly (6) is used for driving cooling water to circulate in the water cooling assembly (3), the water cooling assembly (3) is used for dissipating heat of a generator, and the adjusting assembly (5) is used for controlling connection of the driving assembly (4) and the circulating assembly (6).

2. The intelligent water-cooling heat dissipation device for the generator as claimed in claim 1, wherein a heat dissipation assembly (2) for dissipating heat of the generator is installed in the installation box (101), the heat dissipation assembly (2) is connected with the rotating shaft (102), and the heat dissipation assembly (2) dissipates heat of the generator in a manner that the rotating shaft (102) rotates.

3. The intelligent water-cooling heat dissipation device for the generator is characterized in that the heat dissipation assembly (2) comprises a first filter screen (202), a second filter screen (204) and blades (205), an air inlet (201) and a heat dissipation opening (203) are formed in the mounting box (101), the first filter screen (202) and the second filter screen (204) are respectively mounted in the air inlet (201) and the heat dissipation opening (203), and the blades (205) are fixedly mounted on the rotating shaft (102).

4. The intelligent water-cooled heat dissipation device for the generator as recited in claim 3, wherein the number of the air inlets (201) and the number of the first filter screens (202) are four.

5. The intelligent water-cooling heat dissipation device for the power generator is characterized in that the driving assembly (4) comprises a driving gear (401), a fixed shaft (403), a cam (404), a sliding sleeve (405) and a gear (406), the driving gear (401) is fixedly installed on a rotating shaft (102), a fixed block (402) is fixedly installed in the installation box (101), the fixed shaft (403) is rotatably connected to the fixed block (402), the cam (404) is fixedly installed on the fixed shaft (403), the sliding sleeve (405) is slidably connected to the fixed shaft (403), and the gear (406) is fixedly installed on the sliding sleeve (405).

6. The intelligent water-cooling heat dissipation device for the generator is characterized in that the adjusting component (5) comprises a pressure spring (501) and an electromagnet (502), the electromagnet (502) is fixedly installed on the fixed shaft (403), and the pressure spring (501) is sleeved on the fixed shaft (403).

7. The intelligent water-cooling heat dissipation device for the generator according to claim 6, wherein the circulation assembly (6) comprises a pump body (601), a piston (603), a push rod (604), a second pressure spring (607), a connecting pipe (608) and a water tank (305), the pump body (601) and the water tank (305) are both fixedly mounted on a mounting box (101), a sliding groove (602) is formed in the pump body (601), the piston (603) is slidably arranged in the sliding groove (602), a through hole (605) is formed in the piston (603), a first check valve (606) is formed in the through hole (605), the pump body (601) is communicated with the water tank (305) through the connecting pipe (608), a second check valve (609) is formed in the connecting pipe (608), and a drain pipe (610) is connected to the pump body (601).

8. The intelligent water-cooling heat dissipation device for the generator as claimed in claim 6, wherein the water-cooling assembly (3) comprises a heat dissipation plate (301), a first heat dissipation plate (302), a connection pipe (304), a water tank (305), a second heat dissipation plate (306) and a second heat dissipation water pipe (307), the heat dissipation plate (301) is fixedly mounted on the side wall of the mounting box (101), the first heat dissipation plate (302) is fixedly mounted on the heat dissipation plate (301), the heat dissipation plate (301) is further provided with a first heat dissipation water pipe (303), one end of the first heat dissipation water pipe (303) is communicated with the water tank (305) through the connection pipe (304), the second heat dissipation plate (306) and the second heat dissipation water pipe (307) are both arranged on the generator mounting rack (104), and the other end of the first heat dissipation water pipe (303) is communicated with one end of the second heat dissipation water pipe (307), the other end of the second heat dissipation water pipe (307) is communicated with a drain pipe (610).

9. The intelligent water-cooled heat sink for the generator as claimed in claim 8, wherein the first and second heat sinks (302, 306) are provided in plurality, the first heat sink water pipes (303) are uniformly coiled on the first heat sink (302), and the second heat sink water pipes (307) are uniformly coiled on the second heat sink (306).

10. The intelligent water-cooling heat dissipation device for the generator as claimed in claim 5, wherein a temperature sensor (7) is arranged on the generator mounting frame (104), a controller (8) is installed in the mounting box (101), and the controller (8) is electrically connected with the temperature sensor (7) and the electromagnet (502) respectively.