CN216058016U - Water-cooling heat dissipation device for electromechanical equipment - Google Patents

Abstract

The utility model discloses a water-cooling heat dissipation device for electromechanical equipment, which comprises a main body, an equipment body, a heat dissipation mechanism, a hollow bearing mechanism and an auxiliary heat dissipation mechanism, wherein the equipment body is assembled on one side of the middle part of the main body; the heat dissipation mechanism includes: the first operation room is arranged on one side of the middle part of the main body. This water-cooling heat abstractor that electromechanical device used, in order to guarantee inside water-cooling heat dissipation's comprehensiveness between its heat dissipation, the user can open the circulating pump at first, utilizes pump machine principle to make its inside coolant liquid of liquid cooling case can the circulation refrigeration and circulate in the water-cooling pipe under the running state to the water-cooling pipe sets up the inner wall all around in the heat dissipation room, can carry out water-cooling heat dissipation's beneficial effect to the periphery of equipment body is all-round.

Description

Water-cooling heat dissipation device for electromechanical equipment

Technical Field

The utility model relates to the technical field of electromechanical equipment, in particular to a water-cooling heat dissipation device for electromechanical equipment.

Background

The electromechanical equipment in an industrial state generally comprises power devices such as hydraulic pressure, electrical equipment and an engine, the existence of the electromechanical equipment ensures the normal production of the industry, as is well known, the electromechanical equipment can generate a large amount of heat in the operation process, especially in hot summer, although not a few electromechanical equipment are provided with a heat dissipation cooling device, the heat in the electromechanical equipment cannot be dissipated or discharged in time due to large heat generation amount under working conditions and limitation of an electromechanical shell, and finally the electromechanical equipment can be in a heating or even scalding state for a long time, which easily causes the failure of the electromechanical equipment and affects the working efficiency.

When the water-cooling heat dissipation device for electromechanical equipment in the market is used, most of traditional air-cooling heat dissipation devices are poor in heat dissipation effect and cannot discharge heat in time, and the use effect is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a water-cooling heat dissipation device for electromechanical equipment, which aims to solve the problems that most of the traditional air-cooling heat dissipation devices in the background art have poor heat dissipation effect, cannot discharge heat in time and reduce the use effect in the use process.

In order to achieve the purpose, the utility model provides the following technical scheme: a water-cooling heat dissipation device for electromechanical equipment comprises a main body, an equipment body, a heat dissipation mechanism, a hollow bearing mechanism and an auxiliary heat dissipation mechanism, wherein the equipment body is assembled on one side of the middle part of the main body, the heat dissipation mechanism is arranged on the other side of the middle part of the main body, the hollow bearing mechanism is supported below the equipment body, and the auxiliary heat dissipation mechanism is arranged on the side of the heat dissipation mechanism;

the heat dissipation mechanism includes:

a first working chamber provided at one side of the middle of the main body;

the liquid cooling box is arranged at the bottom end of the middle part of the first operating room;

the connecting pipe is connected to one side of the top end of the liquid cooling box;

a circulation pump connected to the other end of the connection pipe;

a support frame disposed below the circulation pump;

the threaded component is symmetrical to the middle end central axis of the support frame;

the water cooling pipe is connected to the middle end of the side of the circulating pump;

and the communicating pipe is arranged at the end head of the other end of the water-cooling pipe.

Preferably, the body comprises:

the chassis is arranged below the heat dissipation mechanism;

the heat dissipation room is arranged on one side above the underframe;

the maintenance room is arranged at the side of the heat dissipation room;

the door shaft is symmetrical to the middle part of the front end of the overhaul room;

an access door connected to one side of the door shaft;

and the hollow groove is arranged on one side of the middle end of the bottom frame.

Preferably, the hollow bearing mechanism comprises:

the bearing frame is arranged at the bottom end of the equipment body;

the communication notch is arranged in the middle of the bearing frame;

the supporting block, it set up in bear the bottom corner of frame.

Preferably, the communication notch is in the shape of a hollow notch, and the middle end size of the communication notch is smaller than the bottom middle end size of the equipment body.

Preferably, the auxiliary heat dissipation mechanism includes:

a second working room which is arranged at the side of the heat dissipation mechanism;

a porous partition frame arranged at one side of the second operation room;

a dust screen disposed on the other side of the second work room;

an electric motor mounted inside the porous spacer;

a transmission shaft provided at a side middle end of the electric motor;

and the heat dissipation fan is connected to the middle end of the transmission shaft.

Preferably, the heat dissipation fans and the electric motor form a transmission heat dissipation structure through transmission shafts, and three heat dissipation fans are vertically arranged along the inner side of the porous partition frame.

Preferably, the support frame and the main body form a threaded assembly type structure through a threaded assembly, and the threaded assembly is symmetrically distributed along a vertical central axis of the support frame.

Preferably, the water-cooling pipe forms a circulating cooling mechanism with the communicating pipe through the liquid cooling tank, the connecting pipe, the circulating pump and the communicating pipe, and the water-cooling pipe, the liquid cooling tank, the connecting pipe, the circulating pump and the communicating pipe are communicated with one another.

Compared with the prior art, the utility model has the beneficial effects that: this water-cooling heat abstractor that electromechanical device used, in order to guarantee inside water-cooling heat dissipation's comprehensiveness between its heat dissipation, the user can open the circulating pump at first, utilizes pump machine principle to make its inside coolant liquid of liquid cooling case can the circulation refrigeration and circulate in the water-cooling pipe under the running state to the water-cooling pipe sets up the inner wall all around in the heat dissipation room, can carry out water-cooling heat dissipation's beneficial effect to the periphery of equipment body is all-round.

When the cooling device is used, an operator can place the device body in the middle of a heat dissipation room, in order to guarantee the comprehensiveness of the water-cooling heat dissipation of the main body of the cooling device, a user can firstly open the circulating pump, the cooling liquid inside the liquid cooling box can be circularly refrigerated and circulated in the water-cooling pipes under the operating state, the water-cooling pipes are arranged on the inner walls around the heat dissipation room, and when the device body is placed to the middle, the water-cooling pipes can carry out the beneficial effect of the water-cooling heat dissipation on the periphery of the device body in an all-round mode.

Bear the frame middle part in the below of equipment body and be the mesolot form, make it bear the frame not only can play when bearing the effect of equipment body also can play better bottom to the bottom middle-end part of equipment body and remove heat, avoid forming between the bottom of equipment body and the main part and closely laminate and lead to the heat to increase the difficult bad phenomenon of heat dissipation and take place.

The pump machine and the mechanical elements assembled by the pump machine are arranged in the first operation room, when the water cooling operation is carried out in the operation state, the poor phenomena of high temperature and the like caused by heating of part of the elements due to mechanical starting are caused, the holes reserved in the porous partition frame arranged on the side of the first operation room are large, the dustproof net with the ventilation effect is arranged on the opposite surface of the porous partition frame, then a user opens the electric motor to enable the heat dissipation fan to rotate, and the heat in the first operation room can be extracted by utilizing the ventilation property of the second operation room, so that the beneficial effect of auxiliary heat dissipation is achieved.

Drawings

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

FIG. 2 is a schematic front view of the internal structure of the present invention;

FIG. 3 is a schematic structural view of the heat dissipation chamber in a perspective state;

FIG. 4 is a schematic perspective view of the hollow bearing mechanism of the present invention;

FIG. 5 is a front view of a main body according to the present invention.

In the figure: 1. a main body; 101. a chassis; 102. a heat dissipation chamber; 103. a maintenance room; 104. a door shaft; 105. an access door; 106. a hollow groove; 2. an apparatus body; 3. a heat dissipation mechanism; 301. a first operation room; 302. a liquid cooling tank; 303. a connecting pipe; 304. a circulation pump; 305. a support frame; 306. a threaded assembly; 307. a water-cooled tube; 308. a communicating pipe; 4. a hollow bearing mechanism; 401. a carrier; 402. a communication notch; 403. a support block; 5. an auxiliary heat dissipation mechanism; 501. a second operation room; 502. a porous shelf; 503. a dust screen; 504. an electric motor; 505. a drive shaft; 506. a heat dissipation fan.

Detailed Description

As shown in fig. 1 to 3, a water-cooled heat dissipating apparatus for an electromechanical device includes: a main body 1; the middle part one side of main part 1 is equipped with equipment body 2, and the middle part opposite side of main part 1 is provided with heat dissipation mechanism 3, and the below of equipment body 2 bears the cavity and bears mechanism 4, and the avris of heat dissipation mechanism 3 is provided with supplementary heat dissipation mechanism 5, and main part 1 includes: a base frame 101 provided below the heat dissipation mechanism 3; a heat dissipation chamber 102 disposed on one side of the upper portion of the bottom chassis 101; a maintenance room 103 provided at a side of the heat radiation room 102; a door shaft 104 symmetrical to the middle of the front end of the service room 103; an access door 105 connected to one side of the door shaft 104; a hollow groove 106 provided on the middle end side of the chassis 101; the heat dissipation mechanism 3 includes: a first working room 301 provided at one side of the middle of the main body 1; a liquid cooling tank 302 disposed at the bottom end of the middle portion of the first work room 301; a connection pipe 303 connected to the top end side of the liquid cooling tank 302; a circulation pump 304 connected to the other end of the connection pipe 303; a support frame 305 provided below the circulation pump 304; the threaded component 306 is symmetrical to the central axis of the middle end of the support frame 305, the support frame 305 and the main body 1 form a threaded assembly type structure through the threaded component 306, the threaded component 306 is symmetrically distributed along the vertical central axis of the support frame 305, and the water cooling pipe 307 is connected to the middle end of the side of the circulating pump 304; the communicating pipe 308 is arranged at the other end of the water-cooling pipe 307, the water-cooling pipe 307 forms a circulating cooling mechanism through the liquid-cooling tank 302, the connecting pipe 303, the circulating pump 304 and the communicating pipe 308, and the water-cooling pipe 307, the liquid-cooling tank 302, the connecting pipe 303, the circulating pump 304 and the communicating pipe 308 are communicated with each other, when the cooling device is used, an operator can place the device body 2 in the middle of the heat dissipation room 102, in order to ensure the water-cooling heat dissipation comprehensiveness of the main body 1, the user can firstly turn on the circulating pump 304, the cooling liquid in the liquid-cooling tank 302 can be circularly refrigerated and circulated in the water-cooling pipe 307 under the operation state, the water-cooling pipe 307 is arranged on the peripheral inner wall of the heat dissipation room 102, and when the device body 2 is placed in the middle, the water-cooling pipe 307 can carry out the water-cooling heat dissipation all around on the periphery of the device body 2.

As shown in fig. 4, a water-cooling heat dissipation device for an electromechanical device, a hollow bearing mechanism 4 includes: a carrier 401 provided at a bottom end of the apparatus body 2; a communication slot 402 provided in the middle of the carrier 401; supporting shoe 403, it sets up in the bottom corner that bears frame 401, intercommunication notch 402 is cavity notch form, and the middle-end size of intercommunication notch 402 is less than the bottom middle-end size of equipment body 2, the below of equipment body 2 bears the frame 401 middle part and is the middle trough-shaped, make it bear frame 401 not only can play when bearing the effect of equipment body 2 also can play better bottom to the bottom middle-end part of equipment body 2 and remove heat, form between the bottom of avoiding equipment body 2 and the main part 1 and closely laminate and lead to the heat to increase the difficult bad phenomenon of heat dissipation and take place.

As shown in fig. 5, the auxiliary heat dissipation mechanism 5 of the water-cooled heat dissipation device for electromechanical devices includes: a second work room 501 provided on the side of the heat radiation mechanism 3; a porous partition 502 provided at one side of the second work room 501; a dust screen 503 provided on the other side of the second work booth 501; an electric motor 504 mounted inside the porous spacer 502; a drive shaft 505 provided at the side middle end of the electric motor 504; the heat dissipation fan 506 is connected to the middle end of the transmission shaft 505, the heat dissipation fan 506 forms a transmission heat dissipation structure through the transmission shaft 505 and the electric motor 504, three heat dissipation fans 506 are vertically arranged along the inner side of the porous partition frame 502, a pump machine and mechanical elements matched with the pump machine and the mechanical elements are arranged inside the first operating room 301, when the water cooling operation is carried out in the operating state, the poor phenomena of high temperature and the like caused by heating of partial elements due to mechanical starting are caused, at the moment, holes reserved in the porous partition frame 502 arranged on the side of the first operating room 301 are large, the dustproof net 503 with a ventilation effect is arranged on the opposite surface of the porous partition frame 502, and then a user opens the electric motor 504 to enable the heat dissipation fan 506 to rotate, so that heat inside the first operating room 301 can be extracted by utilizing the ventilation performance of the second operating room 501, and the beneficial effect of auxiliary heat dissipation is achieved.

The working principle is as follows: for the water-cooling heat dissipation device for electromechanical equipment of this kind, firstly, an operator can place the equipment body 2 in the middle of the heat dissipation chamber 102 when using the device, in order to ensure the comprehensiveness of the water-cooling heat dissipation of the main body 1, a user can first turn on the circulating pump 304, under the operating state, the cooling liquid in the liquid cooling tank 302 can be circulated and refrigerated and circulated in the water cooling pipe 307 by using the pump principle, and the water cooling pipe 307 is arranged on the peripheral inner wall of the heat dissipation chamber 102, when the equipment body 2 is placed in the middle, the water cooling pipe 307 can carry out the beneficial effect of water-cooling heat dissipation on the periphery of the equipment body 2 in all directions, however, the inside of the first operation chamber 301 is provided with the pump and its own assembled mechanical elements, when carrying out the water-cooling operation under the operating state, the bad phenomena of high temperature caused by the heat generation of the mechanical start-up of some elements, and the holes reserved in the porous partition frame 502 arranged at the side of the first operation chamber 301 are large, and the opposite side of the porous partition 502 is provided with a dust screen 503 with ventilation effect, then the user turns on the electric motor 504 to rotate the heat dissipation fan 506, and the heat inside the first working room 301 can be extracted by utilizing the ventilation property of the second working room 501, so as to achieve the beneficial effect of auxiliary heat dissipation.

Claims (8)

1. The utility model provides a water-cooling heat abstractor that electromechanical device used, includes main part (1), equipment body (2), heat dissipation mechanism (3), cavity and bears mechanism (4) and supplementary heat dissipation mechanism (5), its characterized in that: an equipment body (2) is assembled on one side of the middle of the main body (1), a heat dissipation mechanism (3) is arranged on the other side of the middle of the main body (1), a hollow bearing mechanism (4) is loaded below the equipment body (2), and an auxiliary heat dissipation mechanism (5) is arranged on the side of the heat dissipation mechanism (3);

the heat dissipation mechanism (3) includes:

a first work room (301) provided on the middle side of the main body (1);

a liquid cooling box (302) arranged at the bottom end of the middle part of the first working room (301);

a connection pipe (303) connected to the top end side of the liquid cooling tank (302);

a circulation pump (304) connected to the other end of the connection pipe (303);

a support frame (305) disposed below the circulation pump (304);

a threaded assembly (306) symmetrical about a mid-end central axis of the support bracket (305);

a water-cooling pipe (307) connected to the side middle end of the circulation pump (304);

and a communicating pipe (308) arranged at the other end of the water-cooling pipe (307).

2. The water-cooled heat dissipation device for electromechanical equipment according to claim 1, wherein: the main body (1) comprises:

a chassis (101) provided below the heat dissipation mechanism (3);

a heat dissipation chamber (102) which is arranged on one side above the bottom frame (101);

a maintenance room (103) which is provided on the side of the heat dissipation room (102);

a door shaft (104) which is symmetrical to the middle part of the front end of the service room (103);

an access door (105) connected to one side of the door shaft (104);

and a hollow groove (106) provided on the middle end side of the chassis (101).

3. The water-cooled heat dissipation device for electromechanical equipment according to claim 1, wherein: the hollow bearing mechanism (4) comprises:

a carrier (401) provided at a bottom end of the apparatus body (2);

a communication slot (402) provided in a middle of the carrier (401);

and the supporting blocks (403) are arranged at the bottom corners of the bearing frame (401).

4. The water-cooled heat dissipation device for electromechanical equipment according to claim 3, wherein: the communication notch (402) is in a hollow notch shape, and the size of the middle end of the communication notch (402) is smaller than that of the bottom middle end of the equipment body (2).

5. The water-cooled heat dissipation device for electromechanical equipment according to claim 1, wherein: the auxiliary heat dissipation mechanism (5) includes:

a second work room (501) provided on the side of the heat dissipation mechanism (3);

a porous partition (502) disposed at one side of the second work room (501);

a dust screen (503) provided on the other side of the second work room (501);

an electric motor (504) mounted inside the porous spacer (502);

a drive shaft (505) provided at the side center of the electric motor (504);

and a heat dissipation fan (506) connected to the middle end of the transmission shaft (505).

6. The water-cooled heat dissipation device for electromechanical equipment according to claim 5, wherein: the heat dissipation fans (506) form a transmission heat dissipation structure with the electric motor (504) through the transmission shaft (505), and the number of the heat dissipation fans (506) is three along the inner side of the porous partition frame (502).

7. The water-cooled heat dissipation device for electromechanical equipment according to claim 1, wherein: the support frame (305) and the main body (1) form a threaded assembly type structure through a threaded component (306), and the threaded component (306) is symmetrically distributed along the vertical central axis of the support frame (305).

8. The water-cooled heat dissipation device for electromechanical equipment according to claim 1, wherein: the water-cooling pipe (307) forms a circulating cooling mechanism through the liquid-cooling box (302), the connecting pipe (303), the circulating pump (304) and the communicating pipe (308), and the water-cooling pipe (307), the liquid-cooling box (302), the connecting pipe (303), the circulating pump (304) and the communicating pipe (308) are communicated with one another.

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