CN206148657U - Elasticity electric connector - Google Patents

Abstract

The utility model provides an elasticity electric connector, the utility model discloses relate to electric connector roughly, for the comparatively loaded down with trivial details problem of fixing form between solution section of thick bamboo core and the outer sleeve, the utility model discloses a following technical scheme: an elasticity electric connector, electric connector including the outer sleeve with locate the outer sleeve in and with the elastic tube core that meets of outer sleeve, section of thick bamboo core includes the drum, plays the drum and locate the drum and play the grid shell fragment between the drum, the outer sleeve combine with a section of thick bamboo core riveting fixed, the diameter of the section of thick bamboo core before the installation is a bit larger tham the diameter of urceolus bucket, a compression section of thick bamboo core earlier during the installation, after the installation section of thick bamboo core unfold with the interior surface contact of outer barrel. The beneficial effects of the utility model reside in that, the fixed mode reliable and simple of section of thick bamboo core and outer sleeve, section of thick bamboo core have elasticity, and the diameter before the installation is greater than for telescopic diameter a little, and elder generation's compression is installed again during the installation, and section of thick bamboo core is in slight compression state in the outer sleeve, can realize the fixed of section of thick bamboo core and outer sleeve.

Description

A kind of resilient electrical connector

Technical field

This utility model relates generally to electrical connector, is specifically a kind of resilient electrical connector.

Background technology

Electric connector is a kind of utility model electronic device widely, and the method for its manufacture is also various, tube filler Fixed form and outer sleeve between is also varied, but generally speaking, existing electric connector on the market, tube filler and outer Fixed form between sleeve is relatively complicated, and consumptive material is more during making, again relatively complicated when fixed, there is many drawbacks.

Utility model content

It is mentioned above to solve the problems, such as, a kind of following technical scheme of offer of the present utility model：

A kind of resilient electrical connector, described electric connector includes outer sleeve and in outer sleeve and and described outer The elastic tube filler that sleeve connects；Tube filler includes cylinder, lower cylinder and the grid bullet between upper cylinder and lower cylinder Piece；Described outer sleeve and tube filler rivets secure bond, and the diameter of the tube filler before installation is slightly larger than the diameter of outer tube bucket, during installation Tube filler is first compressed, tube filler is unfolded and contacted with the inner surface of outer cylinder body after installation.

Further, described grid shell fragment is hyperboloid structure or domes.

Further, described upper cylinder is provided with more than one upper through-hole, and the upper end of described outer sleeve is provided with Convex portion corresponding with upper through-hole, for fixing tube filler；Described lower cylinder is provided with more than one lower through-hole, described The lower end of outer sleeve be provided with convex portion corresponding with lower through-hole, for fixing tube filler.

A kind of manufacture method of the resilient electrical connector with domes, described manufacture method comprises the steps：

（1）Tube filler die mould：One or more grid shell fragment is stamped out having in the middle part of resilient square stamping, by grid bullet Piece is pressed into arch；Upper through-hole is formed then at grid shell fragment upper end, grid shell fragment lower end forms lower through-hole；Prepare described cylinder The material of core is the good beryllium copper of elasticity or phosphor-copper.

（2）Make cylinder：Resilient stamping is rolled into into cylindrical shape, after fixing the tube filler with domes is made；

（3）Outer sleeve die mould：Select square stamping else, formed respectively and step in the top and bottom of stamping（1）In Upper through-hole and lower through-hole are engaged the upper convex portion of utility model and lower convex portion；Formed respectively on two sides of stamping It is engaged the dovetail groove and dovetails of utility model；

（4）Prepare outer sleeve：Stamping is rolled into after cylindrical shape, dovetails are inserted into fixed in dovetail groove, form overcoat Cylinder, the diameter of outer sleeve is slightly less than the diameter of tube filler；

（5）Install：Compression tube filler is simultaneously fitted in outer sleeve, makes upper convex portion by upper through-hole, and lower convex portion is logical by bottom Hole, unfolds tube filler, that is, obtain the resilient electrical connector with domes.

A kind of manufacture method of the resilient electrical connector with hyperboloid structure, described manufacture method includes following step Suddenly：

（1）Tube filler die mould：One or more grid shell fragment is stamped out having in the middle part of resilient square stamping, then at grid Shell fragment upper end forms upper through-hole, and grid shell fragment lower end forms lower through-hole；The material for preparing described tube filler is that elasticity is good Beryllium copper or phosphor-copper.

（2）Make cylinder：Resilient stamping is rolled into into cylindrical shape, after fixing cylinder is made；

（3）Reverse cylinder：Cylinder is reversed, grid shell fragment upper end and grid shell fragment lower end is rotated against, is obtained and be there is bullet The tube filler of the hyperboloid structure of property；

（4）Outer sleeve die mould：Select square stamping else, formed respectively and step in the top and bottom of stamping（1）In Upper through-hole and lower through-hole are engaged the upper convex portion of utility model and lower convex portion；Formed respectively on two sides of stamping It is engaged the dovetail groove and dovetails of utility model；

（5）Prepare outer sleeve：Stamping is rolled into after cylindrical shape, dovetails are inserted into fixed in dovetail groove, form overcoat Cylinder, the diameter of outer sleeve is slightly less than the diameter of tube filler；

（6）Install：Compression tube filler is simultaneously fitted in outer sleeve, makes upper convex portion by upper through-hole, and lower convex portion is logical by bottom Hole, unfolds tube filler, that is, obtain the resilient electrical connector with hyperboloid structure.

The beneficial effects of the utility model are that the fixed form of tube filler and outer sleeve is simple, and tube filler has elasticity, Diameter before installation first compresses less times greater than the diameter for sleeve, during installation to be installed again, and tube filler is in outer sleeve in slight Compressive state, can realize the fixation of tube filler and outer sleeve.

Description of the drawings

Fig. 1 is three-dimensional rough schematic of the present utility model；

Fig. 2 is another three-dimensional rough schematic of the present utility model；

Fig. 3 is cylinder schematic diagram of the present utility model；

Fig. 4-Fig. 8 is method flow schematic diagram of the present utility model.

Specific embodiment

Embodiment 1

A kind of resilient electrical connector, described electric connector includes outer sleeve 1 and in the outer sleeve 1 and and described The elastic tube filler 2 that outer sleeve 1 connects；Tube filler 2 includes cylinder 21, lower cylinder 23 and located at upper cylinder 21 and lower cylinder 23 Between grid shell fragment 22, described grid shell fragment 22 can be hyperboloid structure as shown in Figure 1-Figure 3, or such as Fig. 4 In domes；Described upper cylinder 21 is provided with more than one upper through-hole 211, and the upper end of 1 described, overcoat sets There is upper convex portion 111 corresponding with upper through-hole 211, for fixing tube filler；Described lower cylinder 23 is provided with more than one Lower through-hole 212, the lower end of described outer sleeve 1 is provided with lower convex portion corresponding with lower through-hole 212, for fixing tube filler 112。

Embodiment 2

A kind of manufacture method of the resilient electrical connector with domes, described manufacture method comprises the steps：

（1）Tube filler die mould：Fig. 4 is refer to, having in the middle part of resilient square stamping one or more grid bullet is stamped out Piece 3, by grid shell fragment 3 arch is pressed into；Upper through-hole 211 is formed then at the upper end of grid shell fragment 3, grid shell fragment lower end forms bottom Through hole 212；The material for preparing described tube filler is the good beryllium copper of elasticity or phosphor-copper.

（2）Make cylinder：Fig. 5 is refer to, resilient stamping is rolled into into cylindrical shape, made after fixing with arch knot The tube filler of structure；

（3）Outer sleeve die mould：Refer to Fig. 6, select square stamping else, formed respectively in the top and bottom of stamping and Step（1）Middle and upper part through hole 211 and lower through-hole 212 are engaged the upper convex portion 111 of utility model and lower convex portion 112；In punching press Form the dovetail groove 4 and dovetails 5 for being engaged utility model on two sides of piece respectively；

（4）Prepare outer sleeve：Fig. 7 is refer to, stamping is rolled into after cylindrical shape, dovetails 4 are inserted into solid in dovetail groove 5 It is fixed, outer sleeve is formed, the diameter of outer sleeve is slightly less than the diameter of tube filler；

（5）Install：Compression tube filler is simultaneously fitted in outer sleeve, makes upper convex portion 111 by upper through-hole 211, and lower convex portion 112 leads to Lower through-hole 212 is crossed, unfolds tube filler, that is, obtain the resilient electrical connector with domes.

Embodiment 3

A kind of manufacture method of the resilient electrical connector with hyperboloid structure, described manufacture method includes following step Suddenly：

（1）Tube filler die mould：Fig. 4 is refer to, having in the middle part of resilient square stamping one or more grid bullet is stamped out Piece 3；Upper through-hole 211 is formed then at the upper end of grid shell fragment 3, grid shell fragment lower end forms lower through-hole 212；Prepare described cylinder The material of core is the good beryllium copper of elasticity or phosphor-copper.

（2）Make cylinder：Fig. 5 is refer to, resilient stamping is rolled into into cylindrical shape, made after fixing with arch knot The tube filler of structure；

（3）Reverse cylinder：Refer to Fig. 8 and reverse cylinder, rotate against grid shell fragment upper end and grid shell fragment lower end, revolve The angle for turning be generally 15-45 degree, or between it is arbitrarily angled, the cylinder of the resilient hyperboloid structure of tool is obtained Core；

（4）Outer sleeve die mould：Refer to Fig. 6, select square stamping else, formed respectively in the top and bottom of stamping and Step（1）Middle and upper part through hole 211 and lower through-hole 212 are engaged the upper convex portion 111 of utility model and lower convex portion 112；In punching press Form the dovetail groove 4 and dovetails 5 for being engaged utility model on two sides of piece respectively；

（5）Prepare outer sleeve：Fig. 7 is refer to, stamping is rolled into after cylindrical shape, dovetails 4 are inserted into solid in dovetail groove 5 It is fixed, outer sleeve is formed, the diameter of outer sleeve is slightly less than the diameter of tube filler；

（6）Install：Compression tube filler 2 is simultaneously fitted in outer sleeve 1, makes upper convex portion 111 by upper through-hole 211, lower convex portion 112 By lower through-hole 212, unfold tube filler, that is, obtain the resilient electrical connector with hyperboloid structure.

Claims (3)

1. a kind of resilient electrical connector, it is characterised in that described electric connector include outer sleeve and in outer sleeve simultaneously The elastic tube filler connected with described outer sleeve；Tube filler include cylinder, lower cylinder and located at upper cylinder and lower cylinder it Between grid shell fragment；Described outer sleeve and tube filler rivets secure bond.

2. resilient electrical connector as claimed in claim 1, it is characterised in that described grid shell fragment be hyperboloid structure or Domes.

3. resilient electrical connector as claimed in claim 1, it is characterised in that described upper cylinder is provided with more than one Portion's through hole, the upper end of described outer sleeve is provided with upper convex portion corresponding with upper through-hole, for fixing tube filler；Described lower circle Cylinder is provided with more than one lower through-hole, the lower end of described outer sleeve be provided with it is corresponding with lower through-hole, for fixed cylinder The lower convex portion of core.