KR102338368B1 - Pogo pin - Google Patents

Abstract

The present invention relates to a pogo pin, and to a pogo pin in which electrical signal transmission efficiency is improved by maintaining a first plunger positioned on an upper portion and a second plunger positioned on a lower portion in surface contact at all times.

Description

POGO PIN {POGO PIN}

The present invention relates to a pogo pin, and to a pogo pin in which electrical signal transmission efficiency is improved by maintaining a first plunger positioned on an upper portion and a second plunger positioned on a lower portion in surface contact at all times.

In order to electrically connect various electrical members, such as a semiconductor device, to each other, a pressure-contact type connector such as a pogo pin is used.

In such a pogo pin, electrical contact between the plungers constituting the pogo pin is very important. If the reliability of the electrical contact between the plungers is not maintained or the contact area is small, the electrical signal transmission efficiency may be very poor.

Therefore, there is a need to develop a pogo pin that solves these problems and improves electrical signal transmission efficiency.

Patent Publication No. 10-2011-0048446

The present invention has been devised to solve the above-mentioned problems, and by maintaining a first plunger positioned on the upper side and a second plunger positioned on the lower part in surface contact at all times, providing a pogo pin with improved electrical signal transmission efficiency it has its purpose

Pogo pin according to an embodiment of the present invention, a first plunger located on the top; a second plunger located at a lower portion; and a spring that applies elasticity to the first plunger and the second plunger in a state in which at least a portion of the first plunger and the second plunger are interpolated, wherein the first plunger includes a first a body part and a first connection part, and a first neck part connecting between the first body part and the first connection part and extending downwardly and backwardly, wherein the first plunger is a second body part extending in an up-down direction and a second connection part, and a second neck part connecting between the second body part and the second connection part and extending in an upward and forward direction, wherein a first hole is formed in the first neck part, and the second neck part has A second hole is formed, and at least a portion of the first connection portion penetrates the second hole and extends further upward than the second hole, and at least one portion of the second connection portion penetrates the first hole. to extend further downward than the first hole.

According to an embodiment, the front surface of the first connection part and the rear surface of the second connection part are in close contact with each other, and when the first plunger and the second plunger move relative to each other in the vertical direction, the front surface of the first connection part and the The rear surface of the second connection part slides in close contact with each other.

According to an embodiment, a distance between the rear surface of the first body part and the front surface of the first connection part is equal to the thickness in the front-back direction of the second connection part.

According to an embodiment, a distance between the front surface of the second body part and the rear surface of the second connection part is equal to the thickness in the front-back direction of the first connection part.

According to an embodiment, the first body part has a first support part protruding in a lateral direction, the second body part has a second support part protruding in a lateral direction, and the spring is disposed between the first support part and the second support part. is located in

According to one embodiment, when the first plunger is viewed in the vertical direction, the front-rear width of the first hole is the same as the front-back direction thickness of the second connection part, and when the second plunger is viewed in the vertical direction, the second The front-rear width of the 2 holes is the same as the front-rear thickness of the first connection part.

The pogo pin according to the present invention may have improved electrical signal transmission efficiency compared to the pogo pin according to the prior art.

That is, since the first connection part and the second connection part are in surface contact with each other, the electrical signal transmission efficiency is improved.

In addition, since the front-back direction width of the first hole and the second hole through which the first connection part and the second connection part pass are the same as the front-back direction thickness of the first connection part and the second connection part, the first plunger and the second plunger are in surface contact with each other keep the status quo In addition, even though the first plunger and the second plunger are displaced relative to each other, the surface contact area may be maintained.

In addition, the inner radius of the spring may be the same as the width of the portion in which the first support groove portion and the second support groove portion into which the ends of the spring are fitted. Accordingly, the spring may support the first connecting portion of the first plunger and the second connecting portion of the second plunger to slide while maintaining a state in close contact with each other without deviation.

1 is a view showing the separation structure of the pogo pin according to an embodiment of the present invention.
2 is a view showing the overall structure of the pogo pin according to an embodiment of the present invention.
3 is a view showing the structure of the first plunger of the pogo pin according to an embodiment of the present invention.
4 is a view showing the structure of the second plunger of the pogo pin according to an embodiment of the present invention.
5 and 6 are views viewed from the side of the pogo pin according to an embodiment of the present invention.
FIG. 7 is an enlarged view of a portion of FIG. 6 .

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

Figure 1 is a view showing the separation structure of the pogo pin (1) according to an embodiment of the present invention, Figure 2 is a view showing the overall structure of the pogo pin (1) according to an embodiment of the present invention.

The pogo pin 1 according to an embodiment of the present invention includes a first plunger 100 , a second plunger 200 , and a spring 300 .

In the following description, the front-back, left-right, and up-down directions will be described based on the direction shown in FIG. 1 . That is, the front-back direction is the X-axis direction, the left-right direction is the Y-axis direction, and the vertical direction is the Z-axis direction.

<First plunger 100>

3 is a view showing the structure of the first plunger 100 of the pogo pin (1) according to an embodiment of the present invention.

The first plunger 100 includes a first body portion 110 , a first connection portion 120 , a first neck portion 130 , a first hole 140 , and a first head portion 150 .

The first body portion 110 constitutes an upper portion of the first plunger 100 . The first body part 110 is erected in the vertical direction, extends in the vertical direction, and has a panel shape having a predetermined thickness in the front and rear directions. The first body part 110 has a front part and a rear part. A first support part 112 protruding laterally is provided at an upper end of the first body part 110 . A first support groove part 114 into which a portion of the spring 300 is fitted may be provided under the first support part 112 . In addition, a first support protrusion for supporting a portion of the spring 300 may be provided under the first support groove 114 .

The first connection part 120 is located under the first body part 110 , and constitutes a lower part of the first plunger 100 . The first connection part 120 has a panel-shaped configuration that has a predetermined length in the vertical direction, extends in the vertical direction, and has a predetermined thickness in the front-rear direction. The first connection part 120 may have a narrower width than that of the first body part 110 . The first connection part 120 has a front part and a rear part.

The first neck part 130 is positioned between the first body part 110 and the first connection part 120 , and connects between the first body part 110 and the first connection part 120 . The first neck portion 130 is inclined downwardly and backwardly. Accordingly, bent portions 132 and 134 are provided at the upper end (the portion connected to the first body portion 110) and the lower end (the portion connected to the first connecting portion 120) of the first neck portion 130, respectively.

In other words, two bent portions 132 and 134 are provided in one panel, the first neck portion 130 is provided between the bent portions 132 and 134 , and the bent portion 132 positioned on the upper portion is provided. ) may be described as constituting the first body portion 110 , and the lower portion of the bent portion 134 positioned at the lower portion constituting the first connecting portion 120 .

As the first neck part 130 is inclined downward and backward, the first connection part 120 is located at the rear of the first body part 110 . That is, the first body part 110 and the first connection part 120 are parallel to each other, and the front part of the first connection part 120 and the rear part of the first body part 110 have a predetermined distance from each other.

The first hole 140 is formed in the first neck portion 130 . The first hole 140 is a hole passing through the first neck part 130 . As described above, as the first neck portion 130 extends downward and obliquely to the rear, the first hole 140 is a hole penetrating the first neck portion 130 in the vertical and front-rear directions. .

When the first plunger 100 is viewed in the upward and downward directions, the first hole 140 may have a rectangular shape. In addition, even when the first plunger 100 is viewed in the front and rear directions, the first hole 140 may have a rectangular shape.

At this time, when the first plunger 100 is viewed in the up and down directions, the width in the front-rear direction of the rectangular shape formed by the first hole 140 is the same as the thickness in the front-rear direction of the second connection part 220 to be described later. can Here, the meaning of being identical is not necessarily limited to being completely identical, and may have a tolerance within a predetermined range.

The first head part 150 is located above the first body part 110 . The first head part 150 may have a predetermined crown so that the terminal part of the semiconductor chip may contact. A first connection neck 160 connecting the first head 150 and the first body 110 may be provided between the first head unit 150 and the first body unit 110 .

<Second plunger 200>

4 is a view showing the structure of the second plunger 200 of the pogo pin (1) according to an embodiment of the present invention.

The second plunger 200 includes a second body portion 210 , a second connection portion 220 , a second neck portion 230 , a second hole 240 , and a second head portion 250 .

The second body portion 210 constitutes a lower portion of the second plunger 200 . The second body portion 210 is erected in the vertical direction, extends in the vertical direction, and has a panel shape having a predetermined thickness in the front and rear directions. The second body portion 210 has a front portion and a rear portion. A second support part 212 protruding laterally is provided at a lower end of the second body part 210 . A second support groove 214 into which a portion of the spring 300 is fitted may be provided under the second support part 212 . In addition, a second support protrusion for supporting a portion of the spring 300 may be provided under the second support groove 214 .

The second connection part 220 is located above the second body part 210 , and constitutes an upper part of the second plunger 200 . The second connection part 220 has a panel shape that has a predetermined length in the vertical direction, extends in the vertical direction, and has a predetermined thickness in the front-rear direction. The second connection part 220 may have a narrower width than that of the second body part 210 . The second connection part 220 has a front part and a rear part.

The second neck part 230 is positioned between the second body part 210 and the second connection part 220 , and connects between the second body part 210 and the second connection part 220 . The second neck portion 230 obliquely extends upwardly and forwardly. Accordingly, bent portions 232 and 234 are provided at the lower end (the portion connected to the second body portion 210) and the upper end (the portion connected to the second connecting portion 220) of the second neck portion 230 .

In other words, two bent parts 232 and 234 are provided in one panel, and the second neck part 230 is provided between the bent parts 232 and 234 , and the bent part 232 positioned below. ) may be described as constituting the second body portion 210 and the upper portion of the bent portion 234 positioned on the upper portion constituting the second connecting portion 220 .

As the second neck part 230 is inclined upward and forward, the second connection part 220 is positioned in front of the second body part 210 . That is, the second body portion 210 and the second connection portion 220 are parallel to each other, and the rear portion of the second connection portion 220 and the front portion of the second body portion 210 have a predetermined distance from each other.

The second hole 240 is formed in the second neck portion 230 . The second hole 240 is a hole passing through the second neck part 230 . As described above, as the second neck part 230 extends upward and forward obliquely, the second hole 240 is a hole penetrating the second neck part 230 in the vertical and front-rear directions. .

When the second plunger 200 is viewed in the upward and downward directions, the second hole 240 may have a rectangular shape. In addition, even when the second plunger 200 is viewed in the front and rear directions, the second hole 240 may have a rectangular shape.

At this time, when the second plunger 200 is viewed in the up and down directions, the width in the front-rear direction of the rectangular shape formed by the second hole 240 may be the same as the thickness in the front-rear direction of the first connection part 120 described above. can Here, the meaning of being identical is not necessarily limited to being completely identical, and may have a tolerance within a predetermined range.

The second head part 250 is located below the second body part 210 . The second head part 250 may have a predetermined tip so that the terminal part of the predetermined PCB can come into contact. A second connection neck 260 may be provided between the second head part 250 and the second body part 210 to connect the second head part 250 and the second body part 210 .

<Spring (300)>

The spring 300 may be a coil spring 300 through which the center is penetrated. The spring 300 may have a predetermined height in the vertical direction and a predetermined width (diameter) in the lateral direction.

At least a portion of the first plunger 100 and the second plunger 200 is interpolated into the spring 300 . That is, the spring 300 is wound with the first plunger 100 and the second plunger 200 in the middle.

Preferably, the inner radius of the spring 300 is a first support groove formed in the first body portion 110 and the second body portion 210 of the first plunger 100 and the second plunger 200 . 114 and the width of the second support groove portion 214 may be the same.

<Coupling relationship and operation of the first plunger 100, the second plunger 200, and the spring 300>

5 and 6 are views viewed from the side of the pogo pin 1 according to an embodiment of the present invention, and FIG. 7 is an enlarged view of a portion of FIG. 6 . In the pogo pin 1 according to the embodiment of the present invention, as shown in FIGS. 5 and 6 , the first plunger 100 and the second plunger 200 may be relatively displaced.

Hereinafter, the coupling relationship and operation of the first plunger 100 , the second plunger 200 , and the spring 300 will be described.

At least one portion of the first connection part 120 of the first plunger 100 penetrates the second hole 240 of the second plunger 200 and extends upward more than the second hole 240 . .

In addition, at least one portion of the second connection part 220 of the second plunger 200 penetrates the first hole 140 of the first plunger 100 to further downwardly than the first hole 140 . is extended

That is, as shown in FIG. 7 , the first plunger 100 and the second plunger 200 have a connection structure that crosses and penetrates each other. At this time, the first plunger 100 and the second plunger 200 may be displaced in the vertical direction with respect to each other. That is, the distance between the first head part 150 of the first plunger 100 and the second head part 250 of the second plunger 200 may be varied.

In addition, the spring 300 is positioned between the first support 112 of the first plunger 100 and the second support 212 of the second plunger 200 . The upper end of the spring 300 is fitted into the first support groove portion 114 of the first plunger 100 , and the lower end of the spring 300 is fitted into the second support groove portion 214 of the second plunger 200 . can get

As shown in FIG. 7 , the front-rear width P2 of the second hole 240 is the same as the thickness Q1 of the first connection part 120 , and the front-rear width P1 of the first hole 140 . may be equal to the thickness Q2 of the second connection part 220 . Here, the front-rear width of the first hole 140 and the second hole 240 means the first hole 140 when the first plunger 100 or the second plunger 200 is viewed in the vertical direction. , means a portion that is seen to be penetrated by the second hole 240 .

In other words, the distance between the rear surface of the first body part 110 and the front surface of the first connection part 120 is the same as the front-back direction thickness of the second connection part 220 , and the thickness of the second body part 210 is The distance between the front surface and the rear surface of the second connection part 220 may be the same as the thickness in the front-rear direction of the first connection part 120 .

Accordingly, when the first connection part 120 passes through the second hole 240 and when the second connection part 220 penetrates through the first hole 140 , the front surface of the first connection part 120 and the The rear surface of the second connection part 220 may maintain a state in close contact with each other.

In addition, when the first plunger 100 and the second plunger 200 move relative to each other in the vertical direction, the front surface of the first connection part 120 and the rear surface of the second connection part 220 are in close contact with each other You can slide in the state.

<Effect of the present invention>

Hereinafter, the effects of the present invention will be described.

The pogo pin 1 according to the present invention may have improved electrical signal transmission efficiency compared to the pogo pin 1 according to the prior art.

That is, since the first connection part 120 and the second connection part 220 are in surface contact with each other, the electrical signal transmission efficiency is improved.

In addition, the front and rear widths of the first hole 140 and the second hole 240 through which the first connection part 120 and the second connection part 220 respectively pass are the first connection part 120 and the second connection part 220 . Since it is the same as the front-back direction thickness of the first plunger 100 and the second plunger 200 maintains a state in which surface contact with each other. In addition, although the first plunger 100 and the second plunger 200 are displaced relative to each other, the surface contact area can be maintained.

In addition, the inner radius of the spring 300 may be the same as the width of the portion in which the first support groove portion 114 and the second support groove portion 214 into which the ends of the spring 300 are fitted. Accordingly, the spring 300 is supported so that the first connecting portion 120 of the first plunger 100 and the second connecting portion 220 of the second plunger 200 slide while maintaining a state in close contact with each other without deviation. can do.

Although preferred embodiments have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and common knowledge in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims is not limited. Various modifications are possible by the possessor, of course, and these modifications should not be individually understood from the technical spirit or prospect of the present invention.

1: pogo pin
100: first plunger
110: first body part
112: first support
114: first support groove portion
116: first support protrusion
120: first connection part
130: first neck portion
132: bent part
134: bend
140: first hole
150: first head part
160: first connection neck
200: second plunger
210: second body part
212: second support
214: second support groove portion
216: second support protrusion
220: second connection part
230: second neck portion
232: bend
234: bend
240: second hole
250: second head part
260: second connection neck
300: spring

Claims (6)

In the pogo pin,
a first plunger positioned above;
a second plunger located at a lower portion; and
a spring for applying elasticity to the first plunger and the second plunger in a state in which at least a portion of the first plunger and the second plunger are interpolated; and
The first plunger includes a first body portion and a first connection portion extending in the vertical direction, and a first neck portion connecting between the first body portion and the first connection portion and extending obliquely downward and backward,
The second plunger includes a second body part and a second connection part extending in the vertical direction, and a second neck part connecting between the second body part and the second connection part and extending obliquely upward and forward,
A first hole is formed in the first neck portion,
A second hole is formed in the second neck portion,
At least one portion of the first connection part penetrates the second hole and extends upward more than the second hole,
At least a portion of the second connection part penetrates the first hole and extends further downward than the first hole,
The front surface of the first connection part and the rear surface of the second connection part are in close contact with each other,
When the first plunger and the second plunger move relative to each other in the vertical direction,
The front surface of the first connection part and the rear surface of the second connection part slide in close contact with each other, pogo pins. delete According to claim 1,
The distance between the rear surface of the first body part and the front surface of the first connection part is the same as the thickness of the second connection part in the front-back direction of the pogo pin. According to claim 1,
The distance between the front surface of the second body part and the rear surface of the second connection part is the same as the thickness of the first connection part in the front-back direction of the pogo pin. According to claim 1,
The first body portion has a first support portion protruding in the lateral direction,
The second body portion has a second support portion protruding in the lateral direction,
The spring is a pogo pin positioned between the first support and the second support. According to claim 1,
When the first plunger is viewed in the vertical direction,
The front-rear width of the first hole is the same as the front-back direction thickness of the second connection portion,
When the second plunger is viewed in the vertical direction,
The front-rear width of the second hole is the same as the front-back direction thickness of the first connector pogo pin.

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