CN215071995U - Motor equipment with high-efficient heat radiation structure - Google Patents

Abstract

The utility model relates to the technical field of motors, specifically be a electrical equipment with high-efficient heat radiation structure, the device comprises a device main part, the device main part includes motor main part and protecting crust, the fan has been placed to one side of protecting crust, the louvre has been seted up to one side of protecting crust, the inside of protecting crust is provided with heat dissipation mechanism the first fixed block of one side fixedly connected with of fan, one side fixedly connected with installation piece of protecting crust, the inside fixedly connected with telescopic link of installation piece, a telescopic cylinder has been cup jointed to the one end of telescopic link, one side fixedly connected with of a telescopic cylinder presses the briquetting. The utility model discloses a be provided with fan, block pole, block groove and sliding plate, through the mutual slip between block pole and the block groove, fix the fan, it is more stable at the in-process that carries out the heat dissipation with the device, stability when having increased the device and using, it is more high-efficient at the in-process that carries out the heat dissipation to make the device.

Description

Motor equipment with high-efficient heat radiation structure

Technical Field

The utility model relates to the technical field of motors, specifically be an electrical equipment with high-efficient heat radiation structure.

Background

The motor is an electromagnetic device for realizing electric energy conversion or transmission according to the electromagnetic induction law, mainly plays a role of generating driving torque and serving as a power source of electric appliances or various machines, and mainly plays a role of converting mechanical energy into electric energy.

However, the above-mentioned motor has the following drawbacks in use: in the process of using the motor, through long-time operation, the inside heat dissipation heat of the device can not be dissipated, so that the inside temperature of the motor is too high, and internal damage is caused.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electrical equipment with high-efficient heat radiation structure to solve the in-process that the motor that proposes in the above-mentioned background art was using, through long-time operation, the inside heat dissipation heat of device can not distribute, leads to the inside high temperature of motor, arouses the problem of internal damage.

In order to achieve the above object, the utility model provides a following technical scheme: a motor device with a high-efficiency heat dissipation structure comprises a device main body, wherein the device main body comprises a motor main body and a protective shell, a fan is placed on one side of the protective shell, heat dissipation holes are formed in one side of the protective shell, a heat dissipation mechanism is arranged in the protective shell, a first fixed block is fixedly connected to one side of the fan, an installation block is fixedly connected to one side of the protective shell, a telescopic rod is fixedly connected to the inside of the installation block, a telescopic cylinder is sleeved at one end of the telescopic rod, a pressing block is fixedly connected to one side of the telescopic cylinder, a second fixed block is fixedly connected to the inside of the installation block, a sliding plate is fixedly connected to one side of the second fixed block, a clamping rod is slidably installed in the sliding plate, a clamping groove is formed in one side of the first fixed block, the clamping groove and the clamping rod are mutually clamped, and a linkage rod is movably connected to one side of the clamping rod, one end of the linkage rod is movably connected to one side of the telescopic cylinder.

Preferably, a first sliding groove is formed in one side of the protective shell, a first sliding block is slidably mounted inside the first sliding groove, and one end of the first sliding block is fixedly connected to one side of the fan.

Preferably, the inside fixedly connected with slide rail of telescopic link, the one end fixedly connected with stopper of a flexible section of thick bamboo, stopper slidable mounting is on the slide rail.

Preferably, one side of the limiting block is fixedly connected with a first spring, and one end of the first spring extends into the telescopic rod.

Preferably, a second sliding groove is formed in one side of the motor main body, a second sliding block is arranged inside the second sliding groove in a sliding mode, the number of the second sliding blocks is two, a connecting rod is movably connected to one end of the second sliding block, a sliding sleeve is fixedly connected to the inside of the protective shell, sliding blocks are movably connected to one end of the connecting rod, and the number of the sliding blocks is two.

Preferably, the sliding blocks are slidably mounted inside the sliding sleeve, and a second spring is fixedly connected to one side close to each of the two groups of sliding blocks.

Compared with the prior art, the beneficial effects of the utility model are that:

1. through being provided with fan, block pole, block groove and sliding plate, through the mutual slip between block pole and the block groove, fix the fan, it is more stable to carry out radiating in-process with the device, stability when having increased the device and using, makes the device carry out radiating in-process more high-efficient.

2. Through being provided with second spout, connecting rod, second slider and sliding sleeve, when using the device and producing vibrations, will cushion between the device through the sliding action between the structure, make the device more high-efficient when using.

Drawings

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

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

fig. 3 is a partially enlarged cross-sectional view of the structure at a in fig. 1 according to the present invention;

fig. 4 is a schematic enlarged sectional view of a portion of the structure at B in fig. 3 according to the present invention.

In the figure: 100. a device main body; 110. a motor main body; 111. a protective shell; 112. a fan; 113. heat dissipation holes; 200. a heat dissipation mechanism; 210. a first chute; 211. a first slider; 212. a first fixed block; 213. mounting blocks; 214. a telescopic cylinder; 215. a telescopic rod; 216. a slide rail; 217. a limiting block; 218. a first spring; 219. a pressing block; 220. a second fixed block; 221. a sliding plate; 222. a clamping rod; 223. a clamping groove; 224. a second chute; 225. a second slider; 226. a connecting rod; 227. a sliding sleeve; 228. a slider; 229. a second spring; 230. a linkage rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides an embodiment:

a motor device with a high-efficiency heat dissipation structure comprises a device main body 100, the device main body 100 comprises a motor main body 110 and a protective shell 111, a fan 112 is placed on one side of the protective shell 111, a heat dissipation hole 113 is formed in one side of the protective shell 111, a heat dissipation mechanism 200 is arranged inside the protective shell 111, a first fixed block 212 is fixedly connected to one side of the fan 112, a mounting block 213 is fixedly connected to one side of the protective shell 111, an expansion link 214 is fixedly connected to the inside of the mounting block 213, an expansion cylinder 215 is sleeved at one end of the expansion link 214, a pressing block 219 is fixedly connected to one side of the expansion cylinder 215, a second fixed block 220 is fixedly connected to the inside of the mounting block 213, a sliding plate 221 is fixedly connected to one side of the second fixed block 220, a clamping rod 222 is slidably mounted inside the sliding plate 221, a clamping groove 223 is formed in one side of the first fixed block 212, the clamping groove 223 and the clamping rod 222 are clamped with each other, one side swing joint of block pole 222 has linkage rod 230, and one end swing joint of linkage rod 230 is in one side of telescopic cylinder 215, slides each other through block pole 222 and block groove 223, fixes fan 112, and is more stable carrying out radiating in-process with the device, and the stability when having increased the device and using makes the device more high-efficient when dispelling the heat.

Further, first spout 210 has been seted up to one side of protecting crust 111, and the inside slidable mounting of first spout 210 has first slider 211, and the one end fixed connection of first slider 211 is in one side of fan 112, and through the slip between first spout 210 and the first slider 211, it is more convenient to carry out the in-process of installing fan 112, and is more convenient when installing between the device.

Further, the inside fixedly connected with slide rail 216 of telescopic link 214, the one end fixedly connected with stopper 217 of flexible section of thick bamboo 215, stopper 217 slidable mounting are on slide rail 216, through the linkage nature between the device, it is more convenient at the in-process that carries out the linkage with the device, make the device more high-efficient when using.

Furthermore, one side of the limiting block 217 is fixedly connected with a first spring 218, one end of the first spring 218 extends into the telescopic rod 214, and the devices are rebounded through the connection function of the first spring 218 and the elastic function of the first spring 218.

Furthermore, a second sliding groove 224 is formed in one side of the motor main body 110, a second sliding block 225 is slidably mounted inside the second sliding groove 224, the number of the second sliding blocks 225 is two, one end of each of the second sliding blocks 225 is movably connected with a connecting rod 226, a sliding sleeve 227 is fixedly connected inside the protective shell 111, one end of each of the connecting rods 226 is movably connected with a sliding block 228, and the number of the sliding blocks 228 is two.

Further, the sliding blocks 228 are slidably installed inside the sliding sleeves 227, and a second spring 229 is fixedly connected to a side close to each of the two sets of sliding blocks 228, so that the devices are connected and damped by the elastic potential energy of the sliding blocks 228.

The working principle is as follows: when in use, the fan 112 slides in the first chute 210 through the first slider 211 connected to one side, so that the fan 112 is installed in the protective shell 111, the telescopic cylinder 215 connected to one side is retracted in the telescopic rod 214 through the sliding pressing block 219, the connected stopper 217 slides on the first spring 218, the engaging rod 222 connected to one end is slid on the sliding plate 221 through the connecting action of the linkage rod 230, and the engaging rod 222 and the engaging groove 223 are engaged with each other.

During the operation of the device, the second slider 225 slides inside the second slide groove 224 to move the connecting rod 226 connected at one end, the slide block 228 connected at one end slides inside the slide sleeve 227 to press the second spring 229, and the devices are connected to each other by the elastic potential energy of the slide block 228 to absorb the shock between the devices.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. An electric machine apparatus having a highly efficient heat dissipation structure, comprising an apparatus main body (100), characterized in that: the device main body (100) comprises a motor main body (110) and a protective shell (111), a fan (112) is placed on one side of the protective shell (111), a heat dissipation hole (113) is formed in one side of the protective shell (111), a heat dissipation mechanism (200) is arranged inside the protective shell (111), a first fixed block (212) is fixedly connected to one side of the fan (112), an installation block (213) is fixedly connected to one side of the protective shell (111), an expansion link (214) is fixedly connected to the inside of the installation block (213), an expansion cylinder (215) is sleeved at one end of the expansion link (214), a pressing block (219) is fixedly connected to one side of the expansion cylinder (215), a second fixed block (220) is fixedly connected to the inside of the installation block (213), a sliding plate (221) is fixedly connected to one side of the second fixed block (220), and a clamping rod (222) is slidably installed inside the sliding plate (221), a clamping groove (223) is formed in one side of the first fixing block (212), the clamping groove (223) and the clamping rod (222) are clamped with each other, a linkage rod (230) is movably connected to one side of the clamping rod (222), and one end of the linkage rod (230) is movably connected to one side of the telescopic cylinder (215).

2. The electric machine apparatus having a high-efficiency heat dissipation structure according to claim 1, characterized in that: first spout (210) have been seted up to one side of protecting sheathing (111), the inside slidable mounting of first spout (210) has first slider (211), the one end fixed connection of first slider (211) is in one side of fan (112).

3. The electric machine apparatus having a high-efficiency heat dissipation structure according to claim 1, characterized in that: the inside fixedly connected with slide rail (216) of telescopic link (214), the one end fixedly connected with stopper (217) of telescopic cylinder (215), stopper (217) slidable mounting is on slide rail (216).

4. The electric machine apparatus with a high-efficiency heat dissipation structure according to claim 3, characterized in that: one side of the limiting block (217) is fixedly connected with a first spring (218), and one end of the first spring (218) extends into the telescopic rod (214).

5. The electric machine apparatus having a high-efficiency heat dissipation structure according to claim 1, characterized in that: second spout (224) have been seted up to one side of motor main part (110), the inside slidable mounting of second spout (224) has second slider (225), the quantity of second slider (225) is two, the one end of second slider (225) all swing joint has connecting rod (226), the inside fixedly connected with sliding sleeve (227) of protecting crust (111), the one end swing joint of connecting rod (226) has sliding block (228), the quantity of sliding block (228) is two.

6. The electric machine apparatus with a high-efficiency heat dissipation structure according to claim 5, wherein: the sliding blocks (228) are slidably arranged in the sliding sleeve (227), and a second spring (229) is fixedly connected to one side close to each of the two groups of sliding blocks (228).

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