CN113223819B

CN113223819B - Current-limiting reactor heat radiation structure

Info

Publication number: CN113223819B
Application number: CN202110415560.3A
Authority: CN
Inventors: 李国亮; 刘玉娇; 王坤; 李森; 代二刚; 杨凤文; 韩锋; 燕重阳; 郑国伟
Original assignee: Zaozhuang Power Supply Co of State Grid Shandong Electric Power Co Ltd; State Grid Corp of China SGCC
Current assignee: Zaozhuang Power Supply Co of State Grid Shandong Electric Power Co Ltd; State Grid Corp of China SGCC
Priority date: 2021-04-19
Filing date: 2021-04-19
Publication date: 2022-09-27
Anticipated expiration: 2041-04-19
Also published as: CN113223819A

Abstract

The invention discloses a heat dissipation structure of a current-limiting reactor, comprising an equipment casing, a support leg, a shock-absorbing pad, a water-cooled heat dissipation bin, a rainwater collection device, an adjusting support rod, a solar panel, and a wind power generation device. The equipment casing is cylindrical. Cavity structure and four equally spaced symmetrically distributed support legs are installed at the bottom, shock-absorbing pads are installed at the bottom of the support legs, and a fixed water-cooled heat dissipation bin is installed at the bottom of the surface of the equipment shell. The rainwater collection device is connected and fixed by adjusting support rods, a conical solar panel is installed in the middle of the top of the rainwater collection device, and a hinged and fixed wind power generation device is installed on the inner side of the top of the solar panel. The invention effectively improves the heat dissipation efficiency of the reactance device through rational design, and effectively utilizes clean resources and protects the environment through the integrated independent energy supply of solar power generation and wind power generation.

Description

Current-limiting reactor heat radiation structure

Technical Field

The invention relates to a reactor, in particular to a heat dissipation structure of a current-limiting reactor.

Background

The reactor that uses at present mostly adopts the radiating mode of air natural cooling, if adopt the heat dissipation fan to accelerate the circulation of air heat dissipation often need additionally insert the power and increase equipment and use pure cost, very inconvenient, so need a novel current-limiting reactor heat radiation structure that can self-power and radiating efficiency are higher.

Disclosure of Invention

The invention aims to provide a heat radiation structure of a current-limiting reactor to solve the technical problem.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a current-limiting reactor heat radiation structure, includes equipment shell, supporting leg, shock pad, water-cooling heat dissipation storehouse, rainwater collection device, adjusts bracing piece, solar panel, wind power generation set, equipment shell installs four equidistance symmetric distribution's supporting leg for cylindrical cavity structure and bottom, the shock pad is installed to the supporting leg bottom, fixed water-cooling heat dissipation storehouse is installed to equipment shell surface bottom, water-cooling heat dissipation storehouse is connected with the rainwater collection device on top and is fixed through adjusting the bracing piece, rainwater collection device top mid-mounting has toper solar panel, articulated fixed wind power generation set is installed to solar panel top inboard.

On the basis of the technical scheme, the water-cooling heat dissipation bin comprises a heat dissipation box body, an accommodating cavity, copper pipes and a water conveying pipe, wherein the heat dissipation box body is provided with a cavity for a hollow circular ring structure and the inner side, the inner side of the cavity is provided with three equal-distance copper pipes distributed, the middle part of the top end of the heat dissipation box body is provided with the water conveying pipe and is connected with a rainwater collection cavity in the inner side of the rainwater collection device, the rainwater collection cavity is internally provided with a porous filter screen distributed in a rectangular shape at the top end of the inner side of the rainwater collection cavity, the filter screen is distributed at the bottom of the outer wall of the collection tank at the top end of the rainwater collection device, and the bottom of the collection tank is provided with a water collection inclined plate.

On the basis of the technical scheme, the reactor is installed to wind power generation set bottom, the liquid cooling device is installed in the reactor outside, the liquid cooling device passes through the pipeline and is connected with the liquid cooling circulating pump of bottom, four connecting rods of equidistance and symmetric distribution are installed on liquid cooling circulating pump top and install in equipment shell bottom through the bolt, wind cooling device is installed on liquid cooling circulating pump top right side and passes through the bolt fastening.

On the basis of the technical scheme, wind power generation device includes wind wing, water conservancy diversion transmission, generator, support frame, lithium cell, integrated control ware, bearing bar, the water conservancy diversion transmission is installed and is connected with the generator through the transmission shaft to the wind wing bottom, the generator is installed at support frame top middle part and is connected with the lithium cell through the electric wire, the lithium cell passes through the electric wire and is connected with the integrated control ware at positive terminal surface middle part, the support frame divide into about two-layer and connect fixedly through the bearing bar.

On the basis of the technical scheme, water conservancy diversion transmission includes bearing, turbine, drive worm, second transmission scroll bar, turbine transfer line, protective housing, turbine guide arm, flabellum, water conservancy diversion shell, bearing and bottom installation have been cup jointed to transmission shaft circumference surface, the turbine passes through the key-type connection fixed and is connected with the drive worm meshing, the protective housing is connected and the outside is installed in the turbine transfer line meshing of drive worm and right-hand member, turbine transfer line bottom and second drive worm meshing, the second drive worm is connected with the turbine guide arm meshing of one side, turbine guide arm bottom is installed the flabellum and is fixed through the key-type connection, the water conservancy diversion shell is installed in the second drive worm, the turbine guide arm outside.

Compared with the prior art, the invention has the following advantages: the heat dissipation structure of the invention completes independent power supply to the heat dissipation device in most of weather by adding the solar panel and the wind power generation device, effectively improves the utilization efficiency of natural energy and protects the environment, meanwhile, the wind power generation device drives the fan blades to rotate through the diversion transmission device and then is matched with the air cooling device, the air circulation efficiency is increased, the heat dissipation is accelerated, then the reactor is efficiently dissipated through the liquid cooling circulating pump and the liquid cooling device, and then the cooling liquid is dissipated by rainwater in the heat dissipation water tank, thereby not only improving the heat dissipation efficiency, but also saving water resources.

Drawings

Fig. 1 is a schematic view of the external structure of the present invention.

Fig. 2 is a schematic view of a connection structure of the water-cooling heat dissipation chamber of the present invention.

Fig. 3 is a schematic view of the internal structure of the housing of the apparatus of the present invention.

FIG. 4 is a schematic structural view of a wind power generator according to the present invention.

FIG. 5 is a schematic view of the structure of the diversion transmission device of the present invention.

In the figure: 1. the device comprises a device shell, 2, supporting legs, 3, a shock pad, 4, a water-cooling heat dissipation bin, 5, a rainwater collection device, 5-1, a collection tank, 6, an adjusting support rod, 7, a solar panel, 8, a wind power generation device, 9, a heat dissipation box body, 10, a containing cavity, 11, a copper pipe, 12, a water delivery pipe, 13, a rainwater collection cavity, 14, a filter screen, 15, a water collection inclined plate, 16, a reactor, 17, a liquid cooling device, 18, a liquid cooling circulating pump, 19, a connecting rod, 20, an air cooling device, 21, a wind wing, 21-1, a transmission shaft, 22, a flow guide transmission device, 23, a generator, 24, a support frame, 25, a lithium battery, 26, an integrated controller, 27, a bearing rod, 28, a bearing, 29, a turbine, 30, a transmission worm, 30-1, a second transmission worm rod, 31, a turbine transmission rod, 32, a protective shell, 33, a turbine rod, 34 and fan blades, 35. a flow guide shell.

Detailed Description

The invention is explained in further detail below with reference to the figures and the specific embodiments.

As shown in fig. 1-5, a current-limiting reactor heat radiation structure, including equipment shell 1, supporting leg 2, shock pad 3, water-cooling heat dissipation storehouse 4, rainwater collection device 5, adjust bracing piece 6, solar panel 7, wind power generation set 8, equipment shell 1 installs four spinal branch legs 2 of equidistance symmetric distribution for cylindrical cavity structure and bottom, shock pad 3 is installed to 2 bottoms of supporting leg, fixed water-cooling heat dissipation storehouse 4 is installed to 1 surperficial bottom of equipment shell, water-cooling heat dissipation storehouse 4 is connected with the rainwater collection device 5 on top and is fixed through adjust

bracing piece

6, 5 top mid-mounting of rainwater collection device have toper solar panel 7, articulated fixed wind power generation set 8 is installed to solar panel 7 top inboard.

The water-cooling heat dissipation bin 4 comprises a heat dissipation box body 9, an accommodating cavity 10, copper pipes 11 and a water conveying pipe 12, wherein the heat dissipation box body 9 is of a hollow circular ring structure, the inner side of the heat dissipation box body 9 is provided with a cavity 10, the inner side of the cavity 10 is provided with three copper pipes 11 which are equidistant and distributed, the middle part of the top end of the heat dissipation box body 9 is provided with the water conveying pipe 12 and is connected with a rainwater collection cavity 13 on the inner side of a rainwater collection device 5, the inner side top end of the rainwater collection cavity 13 is provided with a porous filter screen 14 which is distributed in a rectangular shape, the filter screen 14 is distributed at the bottom of the outer wall of a collection groove 5-1 on the top end of the rainwater collection device 5, and the bottom of the collection groove 5-1 is provided with a water collection inclined plate 15.

Reactor 16 is installed to 8 bottoms of wind power generation set, liquid cooling device 17 is installed in the reactor 16 outside, liquid cooling device 17 passes through the pipeline and is connected with the liquid cooling circulating pump 18 of bottom, connecting rod 19 of four equidistance and symmetric distribution is installed on 18 tops of liquid cooling circulating pump and just installs in 1 bottom of equipment shell through the bolt, air cooling device 20 is installed on 18 top right sides of liquid cooling circulating pump and just passes through the bolt fastening.

Wind power generation set 8 includes wind wing 21, water conservancy diversion transmission 22, generator 23, support frame 24, lithium cell 25, integrated control ware 26, bearing bar 27, water conservancy diversion transmission 22 is installed and is connected 23 with the generator through transmission shaft 21-1 to wind wing 21 bottom, generator 23 installs at support frame 24 top middle part and is connected with lithium cell 25 through the electric wire, lithium cell 25 passes through the electric wire and is connected with the integrated control ware 26 at positive terminal surface middle part, support frame 24 divide into about two-layer and connect fixedly through bearing bar 27.

The guide transmission device 22 comprises a bearing 28, a turbine 29, a transmission worm 30, a second transmission worm 30-1, a turbine transmission rod 31, a protective shell 32, a turbine guide rod 33, fan blades 34 and a guide shell 35, the circumferential surface of the transmission shaft 21-1 is sleeved with a bearing 28, the bottom of the transmission shaft is provided with a turbine 29, the worm wheel 29 is fixedly connected with a key and is meshed with a transmission worm 30, the transmission worm 30 is meshed with a worm wheel transmission rod 31 at the right end, a protective shell 32 is arranged on the outer side of the transmission worm 30, the bottom of the turbine transmission rod 31 is meshed with a second transmission worm 30-1, the second transmission worm 30-1 is meshed and connected with a turbine guide rod 33 on one side, the fan blades 34 are installed at the bottom of the turbine guide rod 33 and are fixedly connected through keys, and the flow guide shell 34 is installed on the outer sides of the second transmission worm 30-1 and the turbine guide rod 33.

The working principle of the invention is as follows: the solar panel converts sunlight into electric energy and transmits the electric energy to the lithium battery through the electric wire, meanwhile, the wind wing rotates through natural wind and transmits power to the generator through the transmission shaft to generate electricity and transmits the electricity to the inside of the lithium battery through the electric wire to be stored, then a part of energy of the rotation of the transmission shaft is transmitted by the diversion transmission device to finally drive the fan blades to rotate and guide the air to flow for heat dissipation, meanwhile, the liquid cooling circulating pump conveys cooling liquid on the inner side of the next water tank to the liquid cooling device through a pipeline and dissipates heat of the reactor through a one-way circulating structure, and the air cooling device on the right side of the top end of the liquid cooling circulating pump can dissipate heat of the reactor by means of recorded air blast.

The foregoing is a preferred embodiment of the present invention, and it will be apparent to those skilled in the art that variations, modifications, substitutions and alterations can be made in the embodiment without departing from the principles and spirit of the invention.

Claims

1. The utility model provides a current-limiting reactor heat radiation structure, includes equipment shell (1), supporting leg (2), shock pad (3), water-cooling heat dissipation storehouse (4), rainwater collection device (5), adjusts bracing piece (6), solar panel (7), wind power generation set (8), its characterized in that: the equipment comprises an equipment shell (1), a damping pad (3) is installed at the bottom of the supporting leg (2), a fixed water-cooling heat dissipation bin (4) is installed at the bottom of the surface of the equipment shell (1), the water-cooling heat dissipation bin (4) is connected with a rainwater collection device (5) at the top end and is fixed through an adjusting support rod (6), a tapered solar panel (7) is installed in the middle of the top end of the rainwater collection device (5), a wind power generation device (8) fixed in a hinged mode is installed on the inner side of the top end of the solar panel (7), the water-cooling heat dissipation bin (4) comprises a heat dissipation box body (9), an accommodating cavity (10), a copper pipe (11) and a water conveying pipe (12), the heat dissipation box body (9) is of a hollow circular ring structure, a cavity (10) is formed in the inner side of the cavity (10), three equal distances are installed on the inner side of the cavity (10), and the copper pipe (11) is distributed, the rainwater collecting device is characterized in that a water delivery pipe (12) is arranged in the middle of the top end of the heat dissipation box body (9) and is connected with a rainwater collecting cavity (13) on the inner side of the rainwater collecting device (5), a pore-shaped filter screen (14) distributed in a rectangular shape is arranged on the top end of the inner side of the rainwater collecting cavity (13), the filter screen (14) is distributed at the bottom of the outer wall of a collecting tank (5-1) on the top end of the rainwater collecting device (5-1), a water collecting inclined plate (15) is arranged at the bottom of the collecting tank (5-1), an electric reactor (16) is arranged at the bottom of the wind power generation device (8), a liquid cooling device (17) is arranged on the outer side of the electric reactor (16), the liquid cooling device (17) is connected with a liquid cooling circulating pump (18) on the bottom through a pipeline, four connecting rods (19) which are equidistantly and symmetrically distributed are arranged at the top end of the liquid cooling circulating pump (18) and are arranged at the bottom end of the equipment shell (1) through bolts, liquid cooling circulating pump (18) top right side is installed wind cooling device (20) and is passed through the bolt fastening, wind power generation set (8) are including wind wing (21), water conservancy diversion transmission (22), generator (23), support frame (24), lithium cell (25), integrated control ware (26), bearing bar (27), wind wing (21) bottom is installed water conservancy diversion transmission (22) and is connected with generator (23) through transmission shaft (21-1), generator (23) are installed at support frame (24) top middle part and are connected with lithium cell (25) through the electric wire, lithium cell (25) are connected with integrated control ware (26) at positive terminal surface middle part through the electric wire, support frame (24) divide into about two-layer and connect fixedly through bearing bar (27), water conservancy diversion transmission (22) include bearing (28), turbine (29), Drive worm (30), second transmission scroll bar (30-1), turbine transmission pole (31), protective housing (32), turbine guide arm (33), flabellum (34), water conservancy diversion shell (35), bearing (28) and bottom have been cup jointed on transmission shaft (21-1) circumference surface and turbine (29) are installed, turbine (29) are fixed through the key-type connection and are connected with drive worm (30) meshing, drive worm (30) are connected and the outside is installed protective housing (32) with turbine transmission pole (31) meshing of right-hand member, turbine transmission pole (31) bottom and second transmission worm (30-1) meshing, second transmission worm (30-1) are connected with turbine guide arm (33) meshing of one side, turbine guide arm (33) bottom is installed flabellum (34) and is fixed through the key-type connection, water conservancy diversion shell (35) are installed and are installed in second transmission worm (30-1) Outside the turbine guide rod (33).