CN212874796U

CN212874796U - Superconducting structure for connecting contact spring of electronic equipment

Info

Publication number: CN212874796U
Application number: CN202022026045.XU
Authority: CN
Inventors: 雷群贵; 黄伟
Original assignee: Shenzhen 101 Electronic Technology Co ltd
Current assignee: Shenzhen 101 Electronic Technology Co ltd
Priority date: 2020-09-16
Filing date: 2020-09-16
Publication date: 2021-04-02
Anticipated expiration: 2030-09-16

Abstract

The utility model discloses an electronic equipment contact spring connects uses superconductive structure, lead to the groove including elasticity core, circular opening and hexagon heat dissipation, the intermediate position department of elasticity core one end is provided with circular opening, and the both sides of elasticity core all install conductive silica gel, conductive silica gel keeps away from the bottom of elasticity core one side and all is provided with electrically conductive recess. The utility model discloses install the cooperation of arc component sheet rubber and use, when the elasticity core part received great extrusion force or pulling force, through the arc structure of arc component sheet rubber, can be with extrusion force or pulling force homodisperse to arc compression sheet rubber, be favorable to making arc compression sheet rubber atress even, the elasticity effect through multiunit arc compression sheet rubber can help the elasticity core to recover, can avoid the local atress of elasticity core great and can't recover to can further improve the resistance to compression and the stretch-proofing effect of device.

Description

Superconducting structure for connecting contact spring of electronic equipment

Technical Field

The utility model relates to a superconductive adhesive tape technical field specifically is a superconductive structure is used in connection of electronic equipment contact spring.

Background

The superconductor is also called as a superconducting material, and refers to a conductor with zero resistance at a certain temperature, the superconductor has been subjected to a series of experimental applications and certain military and commercial applications, and can be used as a defective material of photonic crystals in the field of communication.

The superconducting structure for the connection of the contact spring of the existing electronic equipment is used, the round hole is used in the internal part of the elastic core, the superconducting rubber strip is compressed when extruded, the round hole is compressed, the restoration of the rubber material of the elastic core, however, the elastic core is limited in elastic size, the compression-resistant effect is limited, when the superconducting structure is under large pressure, the superconducting structure is difficult to restore, thereby the use is influenced, meanwhile, the superconducting structure for the connection of the contact spring of the existing electronic equipment lacks a corresponding heat dissipation structure, in the conductive process, the heat on the conductive rubber is difficult to discharge, the temperature of the metal foil layer and the conductive rubber is improved, the overall resistance of the device is easy to change, and the superconducting performance of the device is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electronic equipment contact spring connects and uses superconductive structure to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an electronic equipment contact superconductive structure for spring coupling, leads to the groove including elasticity core, circular opening and hexagon heat dissipation, the intermediate position department of elasticity core one end is provided with circular opening, and the both sides of elasticity core all install conductive silica gel, the bottom that elastic core one side was kept away from to conductive silica gel all is provided with electrically conductive recess, and the inside side of electrically conductive recess all is provided with the metal foil layer, the inside of elasticity core both sides all evenly is provided with the logical groove of hexagon heat dissipation, arc component rubber piece is evenly installed to the inboard of circular opening.

Preferably, solid rubber post is installed to the inside one end of circular opening, and evenly installs arc compression rubber piece in the outside of solid rubber post, the one end that solid rubber post was kept away from to arc compression rubber piece all is connected with arc component force rubber piece.

Preferably, the inner sides of the hexagonal heat dissipation through grooves are all provided with metal flexible sheets, and the inner sides of the metal flexible sheets are all uniformly provided with heat dissipation fins.

Preferably, the insulating rubber block is all evenly installed to the one end that the metal film is close to conductive silica gel, the insulating rubber block all passes the elasticity core, and the one end that the metal film was kept away from to the insulating rubber block all is connected with conductive silica gel.

Preferably, the one end that insulating rubber piece is close to the sheetmetal all is provided with mounting groove, and the inside one end of keeping away from heat radiation fins of mounting groove all installs heat conduction sheetmetal, the one end that insulating rubber piece was kept away from to heat conduction sheetmetal all is connected with the sheetmetal.

Preferably, four groups of arc-shaped force component rubber sheets are arranged, and the included angle between every two adjacent arc-shaped force component rubber sheets is ninety degrees.

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

1. the superconducting structure for connecting the contact spring of the electronic equipment is provided with the arc-shaped compressed rubber sheets and the solid rubber columns, when the elastic core body is extruded or stretched by external force, the arc-shaped compressed rubber sheets are stressed and deform, and the elastic core body can be restored under the elastic action of the plurality of groups of arc-shaped compressed rubber sheets, so that the compression resistance effect of the device can be improved, and the use stability of the device is improved;

2. the superconducting structure for connecting the contact spring of the electronic equipment is provided with the arc component rubber sheets for matching use, when the local part of the elastic core body is subjected to larger extrusion force or pulling force, the extrusion force or the pulling force can be uniformly dispersed to the arc compression rubber sheets through the arc structure of the arc component rubber sheets, so that the arc compression rubber sheets are uniformly stressed, the elastic core body can be helped to recover through the elastic action of a plurality of groups of arc compression rubber sheets, the situation that the local part of the elastic core body is stressed more and cannot recover can be avoided, and the compression and stretch resistant effects of the device can be further improved;

3. this superconductive structure for electronic equipment contact spring coupling is provided with the logical groove of hexagon heat dissipation, heat radiation fins, the metal film, insulating rubber piece and heat conduction sheetmetal, insulating rubber piece is with conductive silica gel's heat transfer to heat conduction sheetmetal, with heat transfer to the metal film through the heat conduction sheetmetal, dispel the heat through heat radiation fins and metal film, can increase heat radiating area, make the heat run off fast, be favorable to making metal foil layer and conductive silica gel temperature keep invariable, thereby can guarantee the superconductivity of device, the hexagon structure that the logical groove of hexagon heat dissipation also easily produces deformation when the atress, still can help the logical groove of hexagon heat dissipation to recover through the elastic action of metal film, thereby can further improve the resistance to compression and the stretch-proofing nature of device.

Drawings

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

FIG. 2 is a schematic side cross-sectional view of the present invention;

fig. 3 is an enlarged view of a structure in fig. 1 according to the present invention.

In the figure: 1. an elastic core; 2. a metal foil layer; 3. a circular through opening; 4. an arc component force rubber sheet; 5. a hexagonal heat dissipation through groove; 6. arc-shaped compressed rubber sheets; 7. a solid rubber column; 8. conductive silica gel; 9. a conductive groove; 10. heat dissipation fins; 11. a metal flexible sheet; 12. an insulating rubber block; 13. a heat conductive metal sheet; 14. and installing a groove.

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. 1-3, the present invention provides an embodiment: the utility model provides an electronic equipment contact superconductive structure for spring coupling, including elasticity core 1, circular opening 3, lead to groove 5 with the hexagonal heat dissipation, the intermediate position department of 1 one end of elasticity core is provided with circular opening 3, and the both sides of elasticity core 1 all install conductive silica gel 8, the bottom that elastic core 1 one side was kept away from to conductive silica gel 8 all is provided with electrically conductive recess 9, and the inside side of electrically conductive recess 9 all is provided with metal foil layer 2, the inside of 1 both sides of elasticity core all evenly is provided with the logical groove 5 of hexagonal heat dissipation, arc component rubber piece 4 is evenly installed to circular opening 3's inboard.

In this implementation:

further, solid rubber post 7 is installed to the inside one end of circular opening 3, and arc compression rubber piece 6 is evenly installed in the outside of solid rubber post 7, the one end that solid rubber post 7 was kept away from to arc compression rubber piece 6 all is connected with arc component rubber piece 4, when elasticity core 1 part received great extrusion force or pulling force, through the arc structure of arc component rubber piece 4, can be with extrusion force or pulling force homodisperse to arc compression rubber piece 6, be favorable to making arc compression rubber piece 6 atress even, can help elasticity core 1 reconversion through the elastic action of multiunit arc compression rubber piece 6, can avoid elasticity core 1 part atress great and unable the recovering, thereby can further improve the resistance to compression and the tensile effect of device.

Furthermore, the inner sides of the hexagonal heat dissipation through grooves 5 are all provided with the metal flexible sheets 11, the inner sides of the metal flexible sheets 11 are all uniformly provided with the heat dissipation fins 10, heat dissipation area can be increased through heat dissipation of the heat dissipation fins 10 and the metal flexible sheets 11, heat can be rapidly lost, the temperature of the metal foil layer 2 and the temperature of the conductive silica gel 8 can be kept constant, and therefore superconductivity of the device can be guaranteed.

Further, insulating rubber block 12 is all evenly installed to the one end that flexible metal sheet 11 is close to conductive silica gel 8, and insulating rubber block 12 all passes elastic core 1, and insulating rubber block 12 keeps away from flexible metal sheet 11's one end and all is connected with conductive silica gel 8, can derive conductive silica gel 8's heat through insulating rubber block 12, can be with heat transfer to flexible metal sheet 11 to can play insulating effect.

Further, the one end that insulating rubber block 12 is close to sheetmetal 11 all is provided with mounting groove 14, and mounting groove 14 is inside to be kept away from the one end of heat radiation fins 10 and all to install heat conduction sheetmetal 13, and the one end that insulating rubber block 12 was kept away from to heat conduction sheetmetal 13 all is connected with sheetmetal 11, and heat conduction sheetmetal 13's heat conductivity is better, is favorable to transmitting insulating rubber block 12's heat to sheetmetal 11 fast.

Further, four groups of arc-shaped component force rubber sheets 4 are arranged, and the included angle between every two adjacent arc-shaped component force rubber sheets 4 is ninety degrees.

The working principle is as follows: when in use, the metal foil layer 2 is connected with the contact spring, the metal foil layer 2 can conduct electricity, when the elastic core body 1 is subjected to pulling force or extrusion force, the elastic core body 1 deforms and transmits the extrusion force or the pulling force to the arc component force rubber sheet 4, the extrusion force or the pulling force can be uniformly dispersed to the arc compression rubber sheet 6 through the arc structure of the arc component force rubber sheet 4, the arc compression rubber sheet 6 is uniformly stressed and deforms, the arc compression rubber sheet 6 can be restored through the elastic action of the arc compression rubber sheet 6, the elastic core body 1 can be restored through the elastic action of a plurality of groups of arc compression rubber sheets 6, the metal foil layer 2 is electrified to generate heat in the use process, the heat of the conductive silica gel 8 is increased, and the insulating rubber block 12 transmits the heat of the conductive silica gel 8 to the heat conducting metal sheet 13, through heat conduction sheetmetal 13 with heat transfer to metal film 11, carry out the heat exchange heat dissipation through heat radiation fins 10 and metal film 11 and air, can increase heat radiating area, make the heat run off fast, be favorable to making metal foil layer 2 and conductive silica gel 8 temperature keep invariable, thereby can guarantee the superconductivity of device, the hexagon structure that the groove 5 was led to in the hexagonal heat dissipation also easily produces deformation when the atress, still can help the groove 5 of hexagonal heat dissipation to recover through the elastic action of metal film 11, thereby can further improve the resistance to compression and the tensile resistance of device.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides an electronic equipment contact spring connects uses superconductive structure, includes elasticity core (1), circular opening (3) and hexagonal heat dissipation logical groove (5), its characterized in that: the utility model discloses a spring core body, including elasticity core body (1), the intermediate position department of elasticity core body (1) one end is provided with circular opening (3), and the both sides of elasticity core body (1) all install conductive silica gel (8), the bottom that elastic core body (1) one side was kept away from in conductive silica gel (8) all is provided with electrically conductive recess (9), and the inside side of electrically conductive recess (9) all is provided with metal foil layer (2), the inside of elasticity core body (1) both sides all evenly is provided with the logical groove of hexagon heat dissipation (5), arc component rubber piece (4) are evenly installed to the inboard of circular opening (3).

2. The superconducting structure for contact spring connection of electronic equipment according to claim 1, wherein: solid rubber post (7) are installed to the inside one end of circular opening (3), and arc compression rubber piece (6) are evenly installed in the outside of solid rubber post (7), the one end that solid rubber post (7) were kept away from in arc compression rubber piece (6) all is connected with arc component rubber piece (4).

3. The superconducting structure for contact spring connection of electronic equipment according to claim 1, wherein: the inner sides of the hexagonal heat dissipation through grooves (5) are all provided with metal flexible sheets (11), and the inner sides of the metal flexible sheets (11) are all uniformly provided with heat dissipation fins (10).

4. A superconducting structure for contact spring connection of electronic equipment according to claim 3, characterized in that: insulating rubber piece (12) are all evenly installed to the one end that metal film (11) are close to conductive silica gel (8), elastic core body (1) is all passed in insulating rubber piece (12), and insulating rubber piece (12) keep away from the one end of metal film (11) and all are connected with conductive silica gel (8).

5. The superconducting structure for contact spring connection of electronic equipment according to claim 4, wherein: insulating rubber piece (12) are close to the one end of metal film (11) and all are provided with mounting groove (14), and mounting groove (14) inside one end of keeping away from heat dissipation fin (10) all installs heat conduction sheetmetal (13), the one end that insulating rubber piece (12) were kept away from in heat conduction sheetmetal (13) all is connected with metal film (11).

6. The superconducting structure for contact spring connection of electronic equipment according to claim 1, wherein: the arc-shaped force component rubber sheets (4) are provided with four groups, and the included angle between every two adjacent arc-shaped force component rubber sheets (4) is ninety degrees.