CN217608173U - Auxiliary heat dissipation device for electromechanical equipment - Google Patents

Abstract

The utility model discloses an auxiliary heat dissipation device that electromechanical device used, including the heat dissipation case, be provided with the spring on the inner wall of one side of heat dissipation case, the one end of keeping away from the heat dissipation case on the spring is provided with the heat conduction pole, the one end of keeping away from the spring on the heat conduction pole is provided with the heat-conducting plate, scribble on the outer wall of one side of keeping away from the heat conduction pole on the heat-conducting plate and be equipped with heat conduction silica gel, the top and the bottom of heat dissipation case all are through bolt fixedly connected with fixed plate, the top of fixed plate closes soon through the screw thread and is connected with the screw rod. This supplementary heat abstractor that electromechanical device used through mutually supporting of fixed plate and screw rod, can fix the convenient installation of heat dissipation case on one side outer wall of electromechanical device, improves the convenience of supplementary heat abstractor installation dismantlement, simple structure, the simple operation to can be with heat transfer to the inside of heat dissipation case under the heat conduction through heat conduction pole, heat-conducting plate and heat conduction silica gel, and realize thermal effluvium through the air that flows.

Description

Auxiliary cooling device for electromechanical equipment

technical field

The utility model relates to the technical field of electromechanical equipment, in particular to an auxiliary heat dissipation device for electromechanical equipment.

Background technique

Electromechanical equipment is a mechanical equipment with a mechanical structure and an electrical structure. The electrical components in the electromechanical equipment will generate heat, which needs to be dissipated by a heat sink to ensure the stability of the movement of the electromechanical equipment.

In order to realize the heat dissipation protection of electromechanical equipment, the Chinese patent "A heat dissipation protection device for electromechanical equipment" (Patent No.: 202121137432.9) drives the left and right ends and the contact parts at the rear end to move inward through the connecting piece, so that it contacts the The outer wall of the electromechanical equipment is provided with a thermally conductive silica gel layer and fins in the contact parts, which can export the heat generated by the electromechanical equipment, and cooperate with the start of the exhaust fan to extract the heat through the corrugated pipe to the mesh plate to achieve stable Dissipate heat and improve the efficiency of heat dissipation. However, the heat dissipation device in the above patent needs to be installed and fixed at the bottom of the electromechanical equipment, which requires the heat dissipation device to have a high bearing capacity, which makes it difficult to manufacture, inconvenient for installation and fixation, and the fuselage equipment is scattered. The heat is absorbed by the air, and the hot air floods the outside of the electromechanical equipment, causing the problem of poor subsequent heat dissipation.

Utility model content

The purpose of this utility model is to provide an auxiliary heat dissipation device for electromechanical equipment, in order to solve the problem that the heat dissipation device in the above-mentioned patent needs to be installed and fixed on the bottom of the electromechanical equipment in the above-mentioned background technology, so that the heat dissipation device needs to have a higher bearing capacity, This makes it difficult to manufacture, inconvenient to install and fix, the heat dissipated by the body equipment is absorbed by the air, and the hot air floods the outside of the electromechanical equipment, resulting in poor subsequent heat dissipation.

In order to achieve the above purpose, the present invention provides the following technical solutions: an auxiliary heat dissipation device for electromechanical equipment, comprising a heat dissipation box, a spring is provided on one inner wall of the heat dissipation box, and one end of the spring away from the heat dissipation box is provided with a spring. There is a heat-conducting rod, the end of the heat-conducting rod away from the spring is provided with a heat-conducting plate, and the outer wall of the side of the heat-conducting plate far from the heat-conducting rod is coated with heat-conducting silica gel, and the top and bottom of the heat-dissipating box are fixedly connected by bolts There is a fixing plate, the top of the fixing plate is screwed and connected with a screw rod, one end of the screw rod is provided with a disc, and a heat dissipation rod is provided on the outer wall of one side of the heat conduction rod near the inner position of the heat dissipation box. A fan cover is fixedly connected to the bottom of the heat dissipation box by bolts, and a fan is fixedly connected to one inner wall of the fan cover by bolts.

Preferably, the bottom of the heat dissipation box is connected with a first universal pipe by bolts, the bottom end of the first universal pipe is connected with an air intake pipe by bolts, and the top of the heat dissipation box is connected with a first universal pipe by bolts. Two universal pipes, the top of the second universal pipe is fixedly connected with an exhaust pipe by bolts, and an electromechanical device is arranged at one side of the thermally conductive silica gel.

Preferably, the heat-conducting rod passes through the heat-dissipating box.

Preferably, there are two fixed plates in total, and the two fixed plates are symmetrically arranged on the top and bottom of the heat dissipation box.

Preferably, an anti-skid groove is formed on one outer wall of the disc.

Preferably, the fan cover is communicated with the heat dissipation box.

Preferably, both the heat dissipation box and the exhaust pipe are in communication with the second universal pipe, and both the air intake pipe and the fan cover are in communication with the first universal pipe.

Preferably, a concave hole is formed on an outer wall of one side of the heat-conducting plate, and the heat-conducting silica gel is in contact with the electromechanical device.

Compared with the prior art, the beneficial effect of the present invention is that the auxiliary heat dissipation device for the electromechanical equipment can conveniently install and fix the heat dissipation box on one side outer wall of the electromechanical equipment by cooperating with the fixing plate and the screw rod. , to improve the convenience of installation and disassembly of the auxiliary cooling device, the structure is simple, the operation is convenient, and the heat can be transferred to the inside of the heat dissipation box through the heat conduction of the heat conduction rod, the heat conduction plate and the heat conduction silica gel, and the heat can be dissipated through the flowing air. Through the bending ability of the first gimbal and the second gimbal, the air intake pipe and the exhaust pipe are installed and guided to the far side of the electromechanical equipment, so as to guide the hot air to the far distance and avoid the hot air flooding around the electromechanical equipment. Causes the problem of poor heat dissipation.

Description of drawings

1 is a schematic diagram of the use of the utility model;

Fig. 2 is the front view of the utility model;

3 is a schematic diagram of the internal structure of the cooling box of the present invention;

Fig. 4 is the front view of the thermal conduction plate of the utility model;

FIG. 5 is a side view of the heat-conducting rod of the present invention.

In the picture: 1. Cooling box; 2. Spring; 3. Thermal rod; 4. Thermal plate; 5. Thermal silica gel; 6. Fixed plate; 7. Screw; 8. Disc; 9. Cooling rod; 10. Fan cover ; 11, the fan; 12, the first universal pipe; 13, the intake pipe; 14, the second universal pipe; 15, the exhaust pipe; 16, the electromechanical equipment.

Detailed ways

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. Obviously, the described embodiments are only a part of the embodiments of the present utility model, rather than all the implementations. example. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative work fall within the protection scope of the present invention.

Please refer to FIGS. 1-5, the present utility model provides a technical solution: an auxiliary heat dissipation device for electromechanical equipment, comprising a heat dissipation box 1, a spring 2 is arranged on one inner wall of the heat dissipation box 1, and the spring 2 is far away from the heat dissipation box. One end of 1 is provided with a heat-conducting rod 3, and the heat-conducting rod 3 runs through the heat-dissipating box 1, so as to facilitate the absorbed heat to the inside of the heat-dissipating box 1, so as to facilitate the subsequent cold and heat exchange, and the end of the heat-conducting rod 3 away from the spring 2 is set There is a heat-conducting plate 4, and the outer wall of the heat-conducting plate 4 is coated with heat-conducting silica gel 5 on the side away from the heat-conducting rod 3. The top and bottom of the heat-dissipating box 1 are fixedly connected with a fixing plate 6 by bolts. The fixing plate 6 is provided with two , and the two fixing plates 6 are symmetrically arranged on the top and bottom of the heat dissipation box 1, so that the heat dissipation box 1 can be installed and fixed on one side of the electromechanical device 16 through the two fixing plates 6, and the top of the fixing plate 6 is screwed and connected with a Screw 7, one end of screw 7 is provided with disc 8, one side outer wall of disc 8 is provided with a non-slip groove to facilitate the rotation of disc 8, one side outer wall of heat conduction rod 3 is close to the inner position of heat sink 1 A cooling rod 9 is provided, the bottom of the cooling box 1 is fixedly connected with a fan cover 10 by bolts, the fan cover 10 is connected with the cooling box 1 to ensure the flow of air, and a fan is fixedly connected to one side of the inner wall of the fan cover 10 by bolts. 11. The heat-conducting rod 3, the heat-conducting plate 4 and the heat-dissipating rod 9 are all made of copper.

The bottom of the heat dissipation box 1 is fixedly connected with a first universal pipe 12 through bolts, the bottom end of the first universal pipe 12 is connected with an air intake pipe 13 through bolts, and the top of the heat dissipation box 1 is connected with a second universal pipe through bolts. 14. The top end of the second universal pipe 14 is fixedly connected with an exhaust pipe 15 by bolts. The heat dissipation box 1 and the exhaust pipe 15 are connected with the second universal pipe 14. The universal pipe 12 is connected to facilitate the entry of the external air intake pipe 13 and the first universal pipe 12 into the fan cover 10, and the air containing heat is discharged from the heat dissipation box 1 through the second universal pipe 14 and the exhaust pipe 15. An electromechanical device 16 is provided at one side, and a concave hole is formed on one side of the outer wall of the thermally conductive plate 4. The thermally conductive silica gel 5 is in contact with the electromechanical device 16 to improve the contact area between the thermally conductive silica gel 5 and the thermally conductive plate 4, thereby increasing the thermal conductivity.

Working principle: When in use, place the heat dissipation box 1 on one side of the electromechanical device 16, and squeeze the heat dissipation box 1 to the electromechanical device 16, the fixing plate 6 is located on one side of the electromechanical device 16, rotate the disc 8, the disc 8 drives the screw 7 to rotate, through the screw connection of the screw 7 and the fixing plate 6, one end of the screw 7 is extruded on the outer wall of the electromechanical equipment 16, and the heat dissipation box 1 is fixed on the electromechanical equipment 16 through the extrusion of the screw 7. The heat dissipation box 1 During the extrusion process, the spring 2 is compressed by force, and the thermal conductive plate 4 on the thermal conductive rod 3 makes the thermal conductive silica gel 5 in close contact with the outer wall of the electromechanical device 16, and the thermal conductive silica gel 5 is filled between the thermal conductive plate 4 and the electromechanical device 16. The electromechanical device 16 The heat generated by the work is transferred to the inside of the heat dissipation box 1 through the thermal conductive silica gel 5, the heat conductive plate 4 and the heat conduction rod 3. The fan 11 in the fan cover 10 works to draw the external air into the heat dissipation box through the air intake pipe 13 and the first universal pipe 12. 1. The air in the heat dissipation box 1 is in full contact with the heat conduction rod 3 and the heat dissipation rod 9. Through the exchange of cold and heat, the heat is transferred to the air, and the air containing heat is discharged through the second universal pipe 14 and the exhaust pipe 15 to realize electromechanical operation. The heat dissipation of the equipment 16, through the bending ability of the first gimbal 12 and the second gimbal 14, installs and guides the intake pipe 13 and the exhaust pipe 15 far from the electromechanical equipment 16, so as to guide the hot air to the far side. At this point, the problem of poor heat dissipation caused by hot air flooding around the electromechanical device 16 is avoided.

To sum up: the auxiliary heat sink for electromechanical equipment, through the mutual cooperation of the fixing plate 6 and the screw 7, the heat sink 1 can be conveniently installed and fixed on the outer wall of one side of the electromechanical equipment 16, and the installation of the auxiliary heat sink can be improved. The disassembly is convenient, the structure is simple, the operation is convenient, and the heat can be transferred to the inside of the heat dissipation box 1 through the heat conduction of the heat conduction rod 3, the heat conduction plate 4 and the heat conduction silica gel 5, and the heat can be dissipated through the flowing air, and the heat can be dissipated by the flowing air. The bending ability of the first gimbal 12 and the second gimbal 14 guides the intake pipe 13 and the exhaust pipe 15 to the far side of the electromechanical device 16, so as to divert the hot air to the far place and prevent the hot air from flooding in the The surroundings of the electromechanical device 16 cause a problem of poor heat dissipation.

It should be noted that, in this document, relational terms such as first and second are used only to distinguish one entity or operation from another entity or operation, and do not necessarily require or imply any relationship between these entities or operations. any such actual relationship or sequence exists. Moreover, the terms "comprising", "comprising" or any other variation thereof are intended to encompass a non-exclusive inclusion such that a process, method, article or device that includes a list of elements includes not only those elements, but also includes not explicitly listed or other elements inherent to such a process, method, article or apparatus.

The electrical components appearing in this article are all connected with the external main controller and 220V mains, and the main controller can be a conventional known device controlled by a computer or the like.

Although the embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes and modifications can be made to these embodiments without departing from the principles and spirit of the present invention , alternatives and modifications, the scope of the present invention is defined by the appended claims and their equivalents.

Claims (8)

1. An auxiliary heat dissipation device for electromechanical equipment, comprising a heat dissipation box (1), characterized in that: a spring (2) is provided on one side inner wall of the heat dissipation box (1), and the spring (2) is far away from the A heat-conducting rod (3) is provided at one end of the heat-dissipating box (1), and a heat-conducting plate (4) is provided on the end of the heat-conducting rod (3) away from the spring (2), and the heat-conducting plate (4) is far away from the heat-conducting rod ( 3) One side outer wall is coated with thermally conductive silica gel (5), the top and bottom of the heat dissipation box (1) are fixedly connected with a fixing plate (6) by bolts, and the top of the fixing plate (6) is threaded A screw (7) is screwed and connected, one end of the screw (7) is provided with a disc (8), and one side outer wall of the heat-conducting rod (3) is provided with a heat dissipation device at an inner position close to the heat dissipation box (1). A rod (9), a fan cover (10) is fixedly connected to the bottom of the heat dissipation box (1) by bolts, and a fan (11) is fixedly connected to one inner wall of the fan cover (10) by bolts. 2. An auxiliary heat dissipation device for electromechanical equipment according to claim 1, characterized in that: the bottom of the heat dissipation box (1) is fixedly connected with a first universal pipe (12) by bolts, and the first universal pipe (12) is fixedly connected to the bottom of the heat dissipation box (1). The bottom end of the universal pipe (12) is fixedly connected with an air intake pipe (13) by means of bolts, and the top of the heat dissipation box (1) is fixedly connected with a second universal pipe (14) by means of bolts. The top end of (14) is fixedly connected with an exhaust pipe (15) by bolts, and an electromechanical device (16) is arranged at one side of the thermally conductive silica gel (5). 3 . The auxiliary heat dissipation device for electromechanical equipment according to claim 1 , wherein the heat conduction rod ( 3 ) penetrates through the heat dissipation box ( 1 ). 4 . 4. The auxiliary heat dissipation device for electromechanical equipment according to claim 1, characterized in that: there are two said fixing plates (6) in total, and the two fixing plates (6) are symmetrically arranged on the cooling box (6). 1) top and bottom. 5 . The auxiliary heat dissipation device for electromechanical equipment according to claim 1 , wherein a non-slip groove is formed on one outer wall of the disk ( 8 ). 6 . 6 . The auxiliary heat dissipation device for electromechanical equipment according to claim 1 , wherein the fan cover ( 10 ) is communicated with the heat dissipation box ( 1 ). 7 . 7. The auxiliary heat dissipation device for electromechanical equipment according to claim 2, wherein the heat dissipation box (1) and the exhaust pipe (15) are both communicated with the second universal pipe (14), The air intake pipe (13) and the fan cover (10) are both communicated with the first universal pipe (12). 8. An auxiliary heat dissipation device for electromechanical equipment according to claim 1, characterized in that: a concave hole is formed on one side outer wall of the heat conducting plate (4), and the heat conducting silica gel (5) and electromechanical equipment are provided with a concave hole. (16) CONTACT.

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