WO2011021821A2

WO2011021821A2 - Spring-type ground terminal having an upper and lower electrical contact structure

Info

Publication number: WO2011021821A2
Application number: PCT/KR2010/005397
Authority: WO
Inventors: 이홍대
Original assignee: 주식회사 휴먼라이트; 엘피스 가부시키가이샤; 나카무라토시유키
Priority date: 2009-08-17
Filing date: 2010-08-16
Publication date: 2011-02-24
Also published as: TWI427863B; TW201108519A; WO2011021821A3

Abstract

The present invention relates to a spring-type ground terminal having an upper and lower electrical contact structure, to be used in components of an electrical machine and of an electronic machine. More particularly, the present invention relates to a spring-type ground terminal comprising an upper body (10), a lower body (20) and a coil spring unit (30) formed into a unitary body. The upper body (10) is formed from a resilient plate and is bent in the lengthwise direction so as to be formed into an upper ground portion (11). The lower body (20) is formed in the lengthwise direction so as to be formed into a lower ground portion (21). The coil spring unit (30) is formed by connecting upper and lower inclined connection portions (31, 32) which are arranged along the side surfaces of the upper body and the lower body and opposite each other in the vertical direction. The upper and lower inclined connection portions (31, 32) are wound into a spire around the outer surfaces of the upper ground portion (11) and the lower ground portion (21), respectively. The ground terminal resiliently contracts in the vertical direction when pressure is applied to the upper ground portion (11) and the lower ground portion (21), and is guided in the vertical direction by upper and lower guide portions (13, 23) arranged in the upper body (10) and the lower body (20), respectively. The ground terminal of the present invention can be simply produced by trimming and bending a resilient plate material, and is configured to resiliently contract in an effective manner when pressure is applied to the upper and lower ground portions, thus reducing manufacturing costs, and improving the productivity and operating reliability thereof.

Description

Spring-type ground terminal with vertical electrical contact structure

The present invention relates to a spring-type grounding terminal having a vertical electrical contact structure as an electrical, electromechanical component, and more specifically, by simply manufacturing by bending and bending a plate material having elastic force, The present invention relates to a spring-type ground terminal having an upper and lower electrical contact structure, which is provided to effectively reduce contraction and actuation as it is applied, thereby reducing manufacturing cost, improving manufacturing productivity, and operating reliability.

In general, spring-type ground terminals having electrical contact structures up and down in electrical and electromechanical parts are used.

For example, propene is widely used in test sockets for testing devices and semiconductor chip packages formed on wafers.

The spring-type ground terminal having the vertical electrical contact structure as described above is formed to have a ground portion above and below the coil spring, and is used to operate the contracted shot when the pressure is applied up and down.

The spring-type ground terminal having such a conventional vertical electrical contact structure was manufactured by winding a spring rod of an elastic material mainly.

That is, while forming a coil spring by winding the spring rod of the elastic material in a spiral, it was manufactured in a structure to form a ground portion up and down the coil spring.

However, when manufacturing using the spring rod material, the unit price of the spring rod is high, it is very inconvenient to manufacture the compression spring by cutting, banding the spring rod, and there is a problem that the manufacturing productivity is lowered.

In addition, it is not easy to form the ground portion in the upper and lower coil springs, of course, the form of the ground portion is limited, there is a problem that the durability of the use is reduced because it is difficult to keep the ground portion firmly connected.

In addition, as the vertical pressure of the coil spring up and down ground portion is applied, there is a problem that it is difficult to constantly contract up and down and the operation reliability is lowered.

The present invention has been invented to solve all the problems of the prior art as described above, by simply manufacturing the spring portion and the upper and lower ground portion integrally by the method of punching and bending the plate material having an elastic force, reducing manufacturing cost, improving production productivity The purpose is to provide excellent.

The present invention is intended to provide excellent operation reliability because it provides a contracted shot operation to the vertical ground portion when the pressure is applied up and down, and the contracted up and down constant operation up and down.

This invention,

The upper body is formed of a plate material having an elastic force to fold in the upper longitudinal direction to form an upper ground portion, the lower body to fold in the lower longitudinal direction to form a lower ground portion, and the inclined connection portion facing up and down is formed on the sides of the upper and lower bodies. The vertical inclined connection portion has a feature of integrally forming a coil spring portion bent in a spiral around the upper and lower ground portions to contract and contract the upper and lower ground portions up and down.

The present invention is to form a top and bottom guide body to form a top and bottom guide portion folded to the side in a state that the center is cut up and down in the upper and lower inner body of the upper and lower body, the upper guide portion is formed by inserting the end of the upper and lower guide portion Its feature is that the insertion guide operates.

The present invention is a plate material having an elastic force, the upper body to fold in the upper longitudinal direction to form the upper ground portion and the lower body to fold in the lower longitudinal direction to form the lower ground portion, and the center to form a sleeve rolled between the upper and lower body in the longitudinal direction The body and the upper inclined connection portion facing up and down on the upper body and the side of the sleeve and the lower inclined connection portion formed up and down on the lower body and the side of the sleeve are connected in plurality, wherein the vertical inclined connection is the outer side around the vertical ground portion The upper and lower coil springs each bent in a spiral shape are integrally formed at the upper and lower ground portions so as to contract the contraction up and down.

The sleeve is characterized in that at least one or more reinforcement steps are formed.

The present invention is a plate material having an elastic force, the upper body to fold in the upper longitudinal direction to form the upper ground portion and the lower body to fold in the lower longitudinal direction to form the lower ground portion, and the inclined connection portion facing up and down between the upper and lower body and the The upper and lower rectangular guide plates are formed to face left and right at the ends of the inclined connection portion, and the left and right inclined connection portions are formed by integrally forming the left and right coil springs spirally bent to the outside with respect to the guide plate so that the upper and lower ground portions contract and contract up and down. It has a feature.

The present invention is a plate material having an elastic force folded in the upper longitudinal direction to form an upper ground portion, a central body to form a guide sleeve rolled in the longitudinal direction on one side of the upper body, and folded in the longitudinal direction in the lower center A lower body forming a lower ground portion and an inclined connection portion facing up and down between the central body and the upper body, and integrally formed to insert the coil spring portion bent in a spiral manner into the guide sleeve to be inserted into the guide sleeve. It is characterized in that it allows the contraction operation.

The present invention is characterized in that at least one guide groove is formed to be guided up and down inside the guide sleeve, and protruding to form a guide protrusion guided to the guide groove on the outside of the upper ground portion.

The present invention simply manufactures the spring portion and the upper and lower ground portions integrally by punching and bending a plate material having elasticity as electric and electromechanical parts, thereby providing excellent manufacturing cost reduction and improving manufacturing productivity as well as the upper and lower portions. As the pressure is applied to the ground portion up and down, the contracted shots operate, but the contracted shots operate up and down uniformly, thereby providing an excellent operation reliability.

1 is an exploded view showing an embodiment of the present invention.

2 is a front view showing the grounding terminal manufactured by FIG.

3 is a perspective view of FIG. 2;

4 is a development view showing another embodiment of the present invention.

5 is a front view showing the grounding terminal manufactured by FIG.

6 is a perspective view of FIG. 5;

7 is a development view showing another embodiment of the present invention.

8 is a front view showing the grounding terminal manufactured by FIG.

9 is a perspective view of FIG. 8;

10 is an exploded view showing another embodiment of the present invention.

11 is a front view showing the manufacturing process according to FIG.

FIG. 12 is a front view illustrating the ground terminal manufactured by FIG. 10. FIG.

13 is a plan view of the ground terminal of FIG.

** Description of the symbols for the main parts of the drawings **

10,10 ', 100,300: upper body

11,11 ', 101,301: upper ground

20,20 ', 200,500: lower body

21,21 ', 201,501: Lower ground

40,400: center body

41,401: sleeve

42: reinforcement step

31,32,31 ', 32', 31 ", 32", 131,132,601,602: inclined connection

30,30 ', 130, 600: coil spring

135: Information plate

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the present invention will be described in detail.

The spring-type ground terminal having the vertical electrical contact structure of the present invention is characterized in that it is manufactured to cut and bend a plate material having elastic force to integrally form the ground portion up and down the coil spring portion.

That is, in the embodiment of FIGS. 1 to 3, the upper body 10, which is folded in the upper longitudinal direction with the plate material having elastic force, forms the upper ground part 11, and the lower ground part 21 is folded in the lower longitudinal direction. The lower body 20 to be formed and the inclined connecting

portion

31, 32 facing up and down on the side of the upper and lower body to form a connection, the vertical inclined connecting

portion

31, 32 is the upper and lower ground portion 11 ( 21 is formed integrally with the coil spring portion 30 bent spirally on the outside to the upper and lower ground portion is contracted contracted up and down.

At this time, the upper and lower body (10, 20) to form the upper and lower guide body (12, 22) to form the upper and lower guides (13, 23) folded sideways in the state of the center is cut up and down, The upper guide portion 13 is configured such that the lower guide portion 23 operates by inserting the end portion of the upper guide portion 13 to be formed up and down.

The operation and action of the embodiment of the present invention described above will be described.

The present invention can be easily produced by the method of punching and bending a sheet material having elastic force.

That is, after punching to form the upper body 10, the lower body 20 and the upper and lower inclined connecting

portions

31, 32 integrally formed on the side of the upper body and the lower body with a plate material having an elastic force, the length of the upper body To fold the upper ground portion 11 and the lower body in the longitudinal direction to fold the lower ground portion 21 and the vertically

inclined connection portions

31 and 32 in a spiral manner to integrally form the coil spring portion 30. Done.

In the present invention as described above, the external connection terminal (not shown) is inserted into and connected to the upper and

lower ground portions

11 and 21.

The present invention using the connection as described above is a shock-absorbing operation as the shot contraction as the pressure is applied up and down the upper and lower ground portions (11, 21).

Particularly, the upper and

lower ground parts

11 and 21 are guided by the upper and

lower guide parts

13 and 23 positioned up and down inside the upper and

lower ground parts

11 and 21 at the time of the up and down shot contraction operation. The lower guide part 23 is guided to the insertion part 14 of the upper guide part 13 to guide the operation, so that the upper and

lower ground parts

11 and 21 are constantly buffered.

Alternatively, in another embodiment illustrated in FIGS. 4 to 6, when compared with the embodiments of FIGS. 1 to 3, an upper body (folded in the upper length direction with an elastic force to form an upper ground portion 11 ′) 10 ') and a lower body 20' which is folded in the lower longitudinal direction to form a lower ground portion 21 ', and a central body 40 which forms a sleeve 41 by rolling in the longitudinal direction between the upper and lower bodies, and A plurality of upper inclined connections 31 'and 32' facing up and down on the side of the upper body and the sleeve and lower inclined connections 31 " and 32 " But

The vertically inclined connection portions 31 ', 32', 31 ", 32" are vertically coiled spring portions 30 'that are spirally bent outwardly around the upper and lower ground portions 11', 21 ', respectively. ) 30 "is integrally formed so that the up-and-down ground portion contracts up and down.

At this time, the central body 40 is rolled by a roll mold to form a sleeve 41, the sleeve 41 is configured to form at least one or more reinforcement step 42.

This embodiment of the present invention is a plate material having an elastic force, the upper and lower body 10 ', 20' and the central body 40 and the upper and lower body and the inclined connection portion 31 '(32') on the side of the central body , (31 ", 32") to be integrally formed to form a connection, and then folded the upper body and the lower body in the longitudinal direction to the upper ground portion 11 ', lower ground portion 21', the central body Rolling the lengthwise direction, the sleeve 41, the vertically inclined joints 31 ', 32', and 31 " and 32 " are spirally bent to integrally form the upper and lower coil spring portions 30 'and 30 ". To make it.

In the present invention as described above, the external connection terminal (not shown) is inserted into and connected to the upper and lower ground portions 11 'and 21'.

In the present invention using the connection as described above, the upper and lower coil springs 30 'and 30' positioned above and below the central sleeve 41 as pressure is applied to the upper and lower ground portions 11 'and 21'. Is contracting the shots, so that the buffer works.

That is, the upper and lower coil spring portions 30 'and 30 "provide a more effective shock absorbing operation by the contraction of the bullet.

In addition, in another embodiment illustrated in FIGS. 7 to 9, when compared with the embodiment of FIGS. 1 to 3, the upper body (folded in the upper length direction with an elastic force to form the upper ground portion 101) ( 100 and the lower body 200 which is folded in the lower longitudinal direction to form a lower ground part 201, and the

inclined connection parts

131 and 132 and the inclined connection part 131 facing up and down between the upper and lower bodies. Right and left rectangular guide plate 135 is formed to be opposite to the left and right at the end of the 132, the left and right inclined connecting

portion

131, 132 are respectively bent in the spiral around the guide plate 135 in the left and right coil spring portion The 130 and 130 are integrally formed to contract the contraction vertically up and down.

This embodiment of the present invention is formed by punching the plate material having an elastic force to form the upper body 100 and the lower body 200 and the upper and lower

inclined connections

131, 132 integrally opposite to the left and right sides of the upper body Then, the upper body is folded in the longitudinal direction, the upper ground portion 101, the lower body is folded in the longitudinal direction, the lower ground portion 201, the up and down inclined connecting

portion

131, 132 the center of the guide plate 135 Spirally bent to the outside to manufacture the coil spring 130 is formed integrally.

lower ground parts

101 and 201.

In the present invention using the connection as described above, as the pressure is applied to the upper and

lower ground parts

11 and 21, the left and right coil spring parts 130 are contracted in a plurality, so that the shock absorbing operation is effectively performed.

In particular, the left and right coil springs 130 are guided up and down uniformly while being guided up and down along the guide plate 135, respectively.

In addition, in another embodiment illustrated in FIGS. 10 to 13, when compared with the embodiments of FIGS. 1 to 3, the upper body folds in the upper length direction of the plate material having elastic force to form the upper ground part 301 ( 300, a lower body which forms a lower ground part 501 by folding in a longitudinal direction on one side of the upper body and forming a guide sleeve 401 in the longitudinal direction, and a lower ground portion 501 folded in the longitudinal direction in the lower center; 500 and the connection between the inclined connecting

portion

601 and 602 facing up and down between the central body and the upper body,

The coil spring part 600 helically bent in the

inclined connection parts

601 and 602 is integrally formed to be inserted into the guide sleeve 401 to contract and contract the upper and lower ground parts up and down.

At this time, at least one guide groove 402 is formed in the guide sleeve 401 to guide up and down, and protrudes the guide protrusion 302 guided to the guide groove on the outside of the upper ground portion 301. Formed.

The guide groove and the guide protrusion are configured to integrally form a plate material by a compression method.

This embodiment of the present invention is a plate material having an elastic force, the upper and

lower body

300, 500, the central body 400, the upper and lower inclined connection (601, 602) to the side of the upper body and the central body to face After punching molded to form a connection integrally, the upper body fold in the longitudinal direction, the upper ground portion 301, the lower body in the longitudinal direction to fold the lower ground portion 501, the central body in the longitudinal direction of the cylindrical guide sleeve 401 and the coil spring part 600 spirally bent in the vertically

inclined connection part

601 and 602 to be integrally formed.

In this case, the coil spring part 600 is positioned to be inserted into the guide sleeve 401.

lower ground portions

301 and 501.

lower ground parts

301 and 501, the left and right coil spring parts 600 are contracted and contracted.

In particular, the left and right coil spring portion 600 is guided to the guide sleeve 401, and the guide protrusion 302 formed on the upper ground portion 301 is guided along the inner guide groove 402 of the guide sleeve to be constantly It will be a contraction of shots.

Claims

In the spring-type ground terminal having an electrical contact structure up and down,

The upper body 10 is formed of a plate material having an elastic force to fold in the upper longitudinal direction to form the upper ground portion 11, the lower body 20 to fold in the lower longitudinal direction to form the lower ground portion 21, and the upper and lower parts The inclined connecting portion 31, 32 facing up and down on the side of the body is formed to form a connection, wherein the vertical inclined connecting portion 31, 32 is bent outward spirally around the upper and lower grounding portions (11, 21) Spring-type grounding terminal having a vertical electrical contact structure, characterized in that the coil spring portion 30 is formed integrally so that the upper and lower ground portion is contracted up and down.
The method of claim 1,

The upper and lower body (10, 20) is formed in the upper and lower guide body 12, 22 to form the upper and lower guides (13, 23) folded sideways in the state that the center is cut up and down, The upper guide portion 13 is a spring-type ground terminal having a vertical electrical contact structure, characterized in that the end portion is formed by the insertion portion 14 is opened up and down so that the lower guide portion 23 is inserted guide operation.
In the spring-type ground terminal having an electrical contact structure up and down,

An upper body 10 'that is formed of a plate material having elastic force and folded in the upper length direction to form the upper ground portion 11', and a lower body 20 'that is folded in the lower length direction to form the lower ground portion 21'. A central body 40 formed in the longitudinal direction between the upper and lower bodies to form a sleeve 41, and an upper inclined connection portion 31 'and 32' facing up and down on the upper body and the sleeve side and the lower body; A plurality of lower inclined connections 31 "and 32" facing up and down on the side of the sleeve and the sleeve,

The vertically inclined connection portions 31 ', 32', 31 ", 32" are vertically coiled spring portions 30 'that are spirally bent outwardly around the upper and lower ground portions 11', 21 ', respectively. Spring type ground terminal having a vertical electrical contact structure characterized in that the (30 ") integrally formed so that the upper and lower ground portion is contracted up and down.
The method of claim 3,

Spring-type ground terminal having a vertical electrical contact structure, characterized in that formed in the sleeve (41) at least one or more reinforcing stepped portion (42).
In the spring-type ground terminal having an electrical contact structure up and down,

The upper body 100 is formed of a plate material having an elastic force to fold in the upper longitudinal direction to form the upper ground portion 101 and the lower body 200 to fold in the lower longitudinal direction to form the lower ground portion 201, and the upper and lower bodies Vertically opposite guide plate 135 of the inclined connecting portion 131, 132 and the inclined connecting portion 131, 132 and the left and right facing each other between the left and right facings, the left and right inclined connecting portion 131 132 is the upper and lower electrical contacts, characterized in that the upper and lower ground portion is formed by the contraction operation up and down by integrally forming the left and right coil springs 130, 130 spirally bent outwardly around the guide plate 135, respectively Spring type ground terminal with structure.
In the spring type ground terminal having an electrical contact structure up and down,

An upper body 300 is formed of a plate material having an elastic force to fold in the upper longitudinal direction to form the upper ground portion 301, and the central body 400 to form a guide sleeve 401 rolled longitudinally on one side of the upper body. And, the lower body 500 to form a lower ground portion 501 is folded in the longitudinal direction at the center lower portion, and the inclined connecting portion 601, 602 facing up and down between the central body and the upper body to form a connection,

The coil spring part 600, the spirally bent connecting portion 601, 602 is formed integrally to be inserted into the guide sleeve 401 to vertically contract the up and down ground portion is characterized in that the contracting operation up and down Spring type ground terminal with contact structure.
The method of claim 6,

At least one guide groove 402 is formed to be guided up and down inside the guide sleeve 401, and the guide protrusion 302 guided to the guide groove is formed outside the upper ground part 301. Spring type ground terminal having a vertical electrical contact structure, characterized in that made.