CN210724427U - Vibrating motor base with heat radiation structure - Google Patents

Vibrating motor base with heat radiation structure Download PDF

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Publication number
CN210724427U
CN210724427U CN201922262260.7U CN201922262260U CN210724427U CN 210724427 U CN210724427 U CN 210724427U CN 201922262260 U CN201922262260 U CN 201922262260U CN 210724427 U CN210724427 U CN 210724427U
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heat dissipation
working medium
assembled
plates
vibration motor
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CN201922262260.7U
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Chinese (zh)
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王保春
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Xinxiang Hongsheng Vibration Motor Co ltd
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Xinxiang Hongsheng Vibration Motor Co ltd
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Abstract

The utility model discloses a vibration motor frame with a heat dissipation structure, wherein two sides of a plurality of groups of assembled heat dissipation plates are assembled with each other to form a heat dissipation cylinder, the inner diameter of the heat dissipation cylinder is the same as the outer diameter of the shell of the vibration motor, and the outer surface of one group of assembled heat dissipation plates is fixedly connected with the upper surface of an installation base; the inside of assembling the heating panel has laid evenly distributed at the heat dissipation pipeline of heating panel, each group assembles the working medium import setting of heat dissipation pipeline on the heating panel in the same one end, each group assembles the working medium export setting of cooling tube on the heating panel in the same other end, a set of working medium distribution structure has all been assembled at heat dissipation drum both ends, working medium communicating pipe has been arranged in the working medium distribution structure, each group of working medium import all communicates on the working medium communicating pipe that corresponds working medium distribution mechanism and as the refrigerant import, each group of working medium export all communicates on the working medium communicating pipe that corresponds working medium distribution mechanism and exports as the heat medium. The utility model discloses have and to carry out high-efficient heat dissipation and beneficial effect of arranging easy to assemble to vibrating motor.

Description

Vibrating motor base with heat radiation structure
Technical Field
The utility model relates to a vibrating motor technical field, specific vibrating motor frame with heat radiation structure that says so.
Background
Vibrating motor can produce a large amount of heats at the working process, and traditional vibrating motor is difficult to guarantee to carry out high-efficient heat dissipation to it, also is difficult to guarantee vibrating motor's stable high-efficient work, and often too complicated to its incidental heat radiation structure of vibrating motor of high requirement, is difficult to high efficiency arranges it.
SUMMERY OF THE UTILITY MODEL
To the above-mentioned weak point that exists among the prior art, the utility model aims at providing a can carry out high-efficient heat dissipation and easy to assemble the vibrating motor frame of arranging to vibrating motor.
The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is: a vibration motor base with a heat dissipation structure comprises an installation base, an assembled heat dissipation plate and a working medium distribution structure, wherein the assembled heat dissipation plate comprises a plurality of groups of heat dissipation plates, the inner surfaces of the assembled heat dissipation plates are of arc structures, two sides of the assembled heat dissipation plates are assembled to form a heat dissipation cylinder, the inner diameter of the heat dissipation cylinder is the same as the outer diameter of a shell of the vibration motor, the inner surfaces of the assembled heat dissipation plates are closely contacted and embedded with the outer surface of the shell of the vibration motor and wrap the shell of the vibration motor, and the outer surface of one group of the assembled heat dissipation plates is fixedly connected to the upper; the heat dissipation device is characterized in that heat dissipation pipelines which are uniformly distributed on the heat dissipation plates are distributed inside the assembled heat dissipation plates, working medium inlets of the heat dissipation pipelines on the assembled heat dissipation plates are arranged at the same end, working medium outlets of the heat dissipation tubes on the assembled heat dissipation plates are arranged at the same other end, a group of working medium distribution structures are assembled at two ends of the heat dissipation cylinder, working medium communicating pipes are distributed in the working medium distribution structures, the working medium inlets of the working medium distribution structures are communicated with the working medium communicating pipes corresponding to the working medium distribution mechanisms and serve as refrigerant inlets, and the working medium outlets of the working medium distribution structures are communicated with the working medium communicating pipes corresponding to the working medium distribution mechanisms.
The outer surface of the assembled heat dissipation plate is evenly provided with heat dissipation plates, and the heat dissipation plates and the assembled heat dissipation plate are made of aluminum materials or copper materials.
The two sides of each group of assembled heat dissipation plates are assembled to form a structure that strip-shaped connecting plates are fixedly connected with the vertically assembled heat plates, and the adjacent two groups of assembled heat dissipation plates are assembled by fixedly connecting the two groups of strip-shaped connecting plates through fixing bolts.
The working medium distribution structure is of a disc structure, a circular through hole is clamped at the circle center of the working medium distribution structure, and a rotor shaft of the vibration motor is communicated with the circle center through hole and is arranged at the outer end of the circle center through hole.
The working medium communicating pipes arranged in the working medium heat dissipation plates are annular and tubular, the working medium communicating pipes are two groups of working medium communicating pipes, connectors are inwards arranged on the working medium communicating pipes, working medium inlets and working medium outlets corresponding to the spliced heat dissipation plates of each group are butted with the corresponding connectors, and the working medium communicating pipes of the two groups are connected with connecting pipes and are communicated with heat dissipation media.
The working medium distribution structure is characterized in that a fixed block is arranged at the edge of the working medium distribution structure and corresponds to the strip-shaped connecting plate on the assembled heat dissipation plate, and the fixed block is fixed on the strip-shaped connecting plate through a fixing bolt.
The utility model has the advantages that: arranging the vibration motor in the assembled heat dissipation plates, wrapping each group of assembled heat dissipation plates at the periphery of the shell of the vibration motor and tightly contacting the outer surface of the shell of the vibration motor, stably installing working medium distribution structures at two ends of the vibration motor and ensuring that each group of working medium inlets and working medium outlets are stably connected with corresponding working medium communicating pipes, thereby realizing the beneficial effect of convenient installation and arrangement;
when dispelling the heat, arrange the heat that produces vibrating motor work in the medium of will dispelling the heat through working medium import input heat dissipation pipeline outward to the medium of dispelling the heat after will exchanging the heat is discharged through the working medium export, guarantees to vibrating motor's lasting heat dissipation, realizes the high-efficient radiating beneficial effect of vibrating motor.
Drawings
Fig. 1 is a schematic structural view of the present invention;
fig. 2 is a schematic structural diagram of a working medium distribution structure.
In the figure: the heat dissipation device comprises an installation base 1, an assembled heat dissipation plate 2, a working medium distribution structure 3, a heat dissipation pipeline 4, a working medium communication pipe 5, a heat dissipation fin 6, a strip-shaped connecting plate 7, a circular through hole 8, a connector 9, a connecting pipe 10 and a fixing block 11.
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 and 2, a vibration motor base with a heat dissipation structure comprises an installation base 1, an assembled heat dissipation plate 2 and a working medium distribution structure 3, wherein the assembled heat dissipation plate 2 comprises a plurality of groups, the inner surfaces of the assembled heat dissipation plate 2 are arc-shaped structures, two sides of the assembled heat dissipation plate 2 are assembled with each other to form a heat dissipation cylinder, the inner diameter of the heat dissipation cylinder is the same as the outer diameter of a casing of the vibration motor, the inner surface of the assembled heat dissipation plate 2 is closely contacted and embedded with the outer surface of the casing of the vibration motor and wraps the casing of the vibration motor, and the outer surface of the assembled heat dissipation plate 2 is fixedly connected with; assemble the inside of heating panel 2 and laid evenly distributed at the heat dissipation pipeline 4 of heating panel, each group assembles on the heating panel 2 working medium import setting of heat dissipation pipeline 4 in same one end, each group assembles working medium export setting of heating panel 2 upper heat dissipation pipe at the same other end, a set of working medium distribution structure 3 has all been assembled at the heat dissipation drum both ends, working medium communicating pipe 5 has been arranged in working medium distribution structure 3, each group of working medium import all communicates on working medium communicating pipe 5 that corresponds working medium distribution mechanism and as the refrigerant import, each group of working medium export all communicates on working medium communicating pipe 5 that corresponds working medium distribution mechanism and exports as the heat medium.
In the utility model, the radiating fins 6 are uniformly distributed on the outer surface of the assembled radiating plate 2, and the radiating fins 6 and the assembled radiating plate 2 are made of aluminum materials or copper materials, so that the radiating efficiency of the vibrating motor is ensured;
strip-shaped connecting plates 7 are fixedly connected to two sides of each group of assembled heat dissipation plates 2 in a vertical assembled heat plate mode, and the assembled heat dissipation plates 2 are assembled by two groups of adjacent assembled heat dissipation plates 2 in a mode that the two groups of strip-shaped connecting plates 7 are fixedly connected through fixing bolts, so that the stability of assembling and fixing among the groups of assembled heat dissipation plates 2 is ensured;
the working medium distribution structure 3 is of a disc structure, a circular through hole 8 is clamped at the circle center of the working medium distribution structure 3, and a rotor shaft of the vibration motor is communicated with the circle center through hole and arranged towards the outer end, so that the arrangement of the rotor shaft of the vibration motor and the arrangement of the working medium distribution structure 3 are not interfered spatially;
working medium communicating pipes 5 arranged in the working medium heat radiating plates are annular and tubular, two groups of working medium communicating pipes 5 are internally provided with connectors 9, working medium inlets and working medium outlets corresponding to the spliced heat radiating plates of each group are butted with the corresponding connectors 9, the stable connection of the working medium inlets and the working medium outlets and the working medium communicating pipes 5 is ensured, and the two groups of working medium communicating pipes 5 are connected with connecting pipes 10 communicated with heat radiating media;
the edge of the working medium distribution structure 3 is provided with a fixed block 11 at a position corresponding to the strip-shaped connecting plate 7 on the assembled heat dissipation plate 2, and the fixed block 11 is fixed on the strip-shaped connecting plate 7 through a fixing bolt, so that stable and fixed installation of the working medium distribution structure 3 is ensured.
The utility model discloses a theory of operation is: when the vibration motor cooling structure is used, the vibration motor is arranged in the assembled cooling plates 2, each group of assembled cooling plates 2 are wrapped on the periphery of the shell of the vibration motor and are in close contact with the outer surface of the shell of the vibration motor, the working medium distribution structures 3 are stably arranged at two ends of the vibration motor, and each group of working medium inlets and working medium outlets are ensured to be stably connected with the corresponding working medium communicating pipes 5;
when heat dissipation is carried out, a heat dissipation medium is input into the heat dissipation pipeline 4 through the working medium inlet to discharge heat generated by the work of the vibration motor, and the heat dissipation medium after heat exchange is discharged through the working medium outlet, so that the continuous heat dissipation of the vibration motor is ensured;
the inner surface of the assembled heat dissipation plate 2 is not necessarily smooth, but is matched with the outer surface structure of the shell of the vibration motor; meanwhile, in order to ensure the stability of the installation of the vibration motor, the shell of the vibration motor can be fixedly connected with the installation base 1 through bolts.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The utility model provides a vibrating motor frame with heat radiation structure which characterized in that: the assembling heat dissipation plate comprises an installation base (1), assembling heat dissipation plates (2) and working medium distribution structures (3), wherein the assembling heat dissipation plates (2) comprise a plurality of groups, the inner surfaces of the assembling heat dissipation plates (2) are arc-shaped structures, two sides of the assembling heat dissipation plates (2) are assembled to form a heat dissipation cylinder, the inner diameter of the heat dissipation cylinder is the same as the outer diameter of a shell of the vibration motor, the inner surfaces of the assembling heat dissipation plates (2) are closely contacted and embedded with the outer surface of the shell of the vibration motor and wrap the shell of the vibration motor, and the outer surface of one group of assembling heat dissipation plates (2) is fixedly connected to the upper surface; the heat dissipation structure is characterized in that heat dissipation pipelines (4) which are uniformly distributed on the heat dissipation plates are distributed inside the assembled heat dissipation plates (2), working medium inlets of the heat dissipation pipelines (4) on the assembled heat dissipation plates (2) are arranged at the same end, working medium outlets of the heat dissipation plates (2) are arranged at the same other end, a group of working medium distribution structures (3) are assembled at two ends of each heat dissipation cylinder, working medium communicating pipes (5) are distributed in the working medium distribution structures (3), the working medium inlets are communicated with the working medium communicating pipes (5) corresponding to the working medium distribution mechanisms and serve as refrigerant inlets, and the working medium outlets are communicated with the working medium communicating pipes (5) corresponding to the working medium distribution mechanisms and serve as heat medium outlets.
2. The vibration motor base with the heat dissipation structure of claim 1, wherein: the outer surface of the assembled heat dissipation plate (2) is evenly provided with heat dissipation fins (6), and the heat dissipation fins (6) and the assembled heat dissipation plate (2) are made of aluminum materials or copper materials.
3. The vibration motor base with the heat dissipation structure of claim 2, wherein: the two sides of each group of assembled heat dissipation plates (2) are assembled to form a structure that strip-shaped connecting plates (7) are fixedly connected with the vertically assembled heat dissipation plates, and the adjacent two groups of assembled heat dissipation plates (2) are assembled by fixing the two groups of strip-shaped connecting plates (7) through fixing bolts.
4. The vibration motor base with the heat dissipation structure of claim 3, wherein: the working medium distribution structure (3) is of a disc structure, a circular through hole (8) is clamped at the circle center of the working medium distribution structure (3), and a rotor shaft of the vibration motor is communicated with the circular through hole and is arranged at the outer end of the circular through hole.
5. The vibration motor base with the heat dissipation structure of claim 4, wherein: the working medium communicating pipe (5) arranged in the working medium heat dissipation plate is in an annular tubular shape, the working medium communicating pipes (5) are two groups, connectors (9) are inwards arranged on the working medium communicating pipes (5), working medium inlets and working medium outlets corresponding to the spliced heat dissipation plates of each group are all in butt joint with the corresponding connectors (9), and the working medium communicating pipes (5) are two groups and are all connected with connecting pipes (10) to be communicated with heat dissipation media.
6. The vibration motor base with a heat dissipation structure of claim 5, wherein: the working medium distribution structure is characterized in that a fixed block (11) is arranged at the edge of the working medium distribution structure (3) and corresponds to the strip-shaped connecting plate (7) on the assembled heat dissipation plate (2), and the fixed block (11) is fixed on the strip-shaped connecting plate (7) through a fixing bolt.
CN201922262260.7U 2019-12-17 2019-12-17 Vibrating motor base with heat radiation structure Active CN210724427U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201922262260.7U CN210724427U (en) 2019-12-17 2019-12-17 Vibrating motor base with heat radiation structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201922262260.7U CN210724427U (en) 2019-12-17 2019-12-17 Vibrating motor base with heat radiation structure

Publications (1)

Publication Number Publication Date
CN210724427U true CN210724427U (en) 2020-06-09

Family

ID=70936884

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201922262260.7U Active CN210724427U (en) 2019-12-17 2019-12-17 Vibrating motor base with heat radiation structure

Country Status (1)

Country Link
CN (1) CN210724427U (en)

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