JP6699812B1 - Probe pin, inspection jig, inspection unit and inspection device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a probe pin capable of reducing signal loss in a high frequency region while ensuring contact reliability with respect to an inspection object and an inspection device. A probe pin includes an elastic portion, a first contact portion, and a second contact portion. The elastic portion has a first straight portion whose one end in the extending direction is connected to the first contact portion, and a curve whose one end in the extending direction is connected to the other end of the first linear portion in the extending direction. And a second straight portion whose one end in the extending direction is connected to the other end in the extending direction of the bending portion, and the central angle of the bending portion is larger than 90 degrees and larger than 180 degrees. It is configured to be small. [Selection diagram] Figure 4

Description

  The present disclosure relates to a probe pin, an inspection jig including the probe pin, an inspection unit including the inspection jig, and an inspection device including the inspection unit.

  In an electronic component module such as a camera or a liquid crystal panel, a continuity test and an operation characteristic test are generally performed in the manufacturing process. In these inspections, probe pins are used to connect an FPC contact electrode for connecting to a main board installed in an electronic component module, or an electrode unit such as a mounted board-to-board connector to an inspection apparatus. It is done by

  An example of such a probe pin is described in Patent Document 1. This probe pin is provided with a pair of contacts capable of contacting the electrode terminal of the electronic component and the electrode terminal of the connected electronic component, respectively, and a meandering portion interposed between the pair of contacts to connect the pair of contacts. There is. In the probe pin, the meandering portion secures contact pressure between each contact and the electrode terminal of the electronic component and the electrode terminal of the connected electronic component, so that the electrode terminal of the electronic component and the electrode terminal of the connected electronic component are secured. Improves contact reliability.

JP, 2002-134202, A

  In recent years, along with an increase in the amount of information transmitted and received between electronic component modules, it is required that probe pins used for inspection of electronic component modules also support signals in a high frequency region.

  However, it cannot be said that the probe pin of Patent Document 1 is sufficiently compatible with the signal in the high frequency region, and the loss of the signal in the high frequency region flowing through the probe pin during the inspection of the electronic component module may be large. ..

  The present disclosure discloses a probe pin capable of reducing signal loss in a high frequency region while ensuring contact reliability with respect to an inspection target and an inspection device, an inspection jig including the probe pin, and an inspection unit including the inspection jig. And an inspection apparatus provided with this inspection unit.

An example probe pin of the present disclosure is
An elastic part that expands and contracts along the longitudinal direction,
A plate-shaped first contact portion connected to the longitudinal first end of the elastic portion;
A plate-shaped second contact portion arranged in series with respect to the first contact portion and connected to the second end portion in the longitudinal direction of the elastic portion,
The elastic portion is
A first linear portion extending in a direction intersecting the longitudinal direction and having one end in the extending direction connected to the first contact portion;
It extends in an arc shape projecting in a direction intersecting the longitudinal direction and away from the first contact portion, and one end portion in the extending direction is the other end portion in the extending direction of the first straight portion. A curved part connected to
While extending in a direction intersecting with the longitudinal direction, one end portion in the extending direction thereof has a second linear portion connected to the other end portion of the bending portion in the extending direction,
The central angle of the curved portion is configured to be larger than 90 degrees and smaller than 180 degrees.

Further, the inspection jig of the example of the present disclosure is
The probe pin,
A housing having an accommodating portion capable of accommodating the probe pin,
The probe pin is housed in the housing so that the central angle of the curved portion is larger than 90 degrees and smaller than 180 degrees.

Further, the inspection unit of the example of the present disclosure is
At least one inspection jig was provided.

In addition, the inspection device of an example of the present disclosure is
At least one inspection unit was provided.

  According to the probe pin, the elastic portion extends in the direction crossing the longitudinal direction of the probe pin, and the first linear portion having one end in the extending direction connected to the first contact portion and the longitudinal direction of the probe pin. A curved portion that extends in an arcuate shape that protrudes in a direction intersecting with and away from the first contact portion, and has one end portion in the extending direction connected to the other end portion in the extending direction of the first straight portion, and a probe pin. Has a second straight portion extending in a direction intersecting the longitudinal direction of the curved portion and having one end in the extending direction connected to the other end in the extending direction of the bending portion, and the central angle of the bending portion is 90 degrees. It is configured to be larger than 180 degrees and smaller than 180 degrees. This allows a distance to be provided between the first straight line portion and the second straight line portion in the longitudinal direction of the probe pin, so that, for example, the high frequency wave of the signal in the high frequency region flowing through the first straight line portion flowing through the second straight line portion. It is possible to reduce interference with the signal in the area. As a result, it is possible to realize a probe pin capable of reducing signal loss in the high frequency region while ensuring contact reliability with respect to the inspection target and the inspection device.

  Further, according to the inspection jig, the probe pin has high contact reliability with respect to the inspection object and the inspection device, and the signal loss in the high frequency region is small when connected to the inspection object and the inspection device. Can be realized.

  Further, according to the inspection unit, the inspection jig has a high contact reliability with respect to the inspection object and the inspection device, and has a small loss of signals in a high frequency region when connected to the inspection object and the inspection device. realizable.

  Further, according to the inspection apparatus, the inspection unit realizes an inspection apparatus that has high contact reliability with respect to the inspection object and the inspection apparatus, and has less loss of signals in a high frequency region when connected to the inspection object and the inspection apparatus. it can.

The sectional perspective view showing the inspection unit of one embodiment of this indication. Sectional drawing which followed the II-II line of FIG. The perspective view showing the probe pin of one embodiment of this indication. The top view of the probe pin of FIG. FIG. 4 is an enlarged plan view of an elastic portion of the probe pin of FIG. 3. The figure which shows the measurement result of insertion loss and return loss which used the probe pin of a comparative example. The figure which shows the measurement result of insertion loss and return loss which used the probe pin of the probe pin of an Example. FIG. 6 is an enlarged plan view of an elastic portion showing a first modification of the probe pin of FIG. 3. The top view which shows the 2nd modification of the probe pin of FIG.

  Hereinafter, an example of the present disclosure will be described with reference to the accompanying drawings. In the following description, terms indicating a specific direction or position (for example, terms including “upper”, “lower”, “right”, and “left”) are used as necessary, but use of those terms Is for facilitating the understanding of the present disclosure with reference to the drawings, and the technical scope of the present disclosure is not limited by the meanings of the terms. In addition, the following description is merely exemplary in nature and is not intended to limit the present disclosure, the application thereof, or the application thereof. Furthermore, the drawings are schematic, and the ratios of the respective dimensions and the like do not always match the actual ones.

  A probe pin 10 according to an embodiment of the present disclosure has conductivity, and is used in a state of being housed in a socket 3, for example, as shown in FIGS. 1 and 2, and constitutes an inspection jig 2 together with the socket 3. To do. As an example, the inspection jig 2 accommodates a plurality of elongated thin plate probe pins 10.

  The inspection jig 2 constitutes a part of the inspection unit 1. As shown in FIG. 1, the inspection unit 1 includes, as an example, a substantially rectangular parallelepiped base housing 4 in which a plurality of inspection jigs 2 are incorporated. The base housing 4 is composed of a substantially rectangular plate-shaped first housing 5 and a second housing 6 stacked in the plate thickness direction of the first housing 5.

  As shown in FIG. 2, the socket 3 has a plurality of accommodating portions 7 capable of accommodating the probe pins 10, and is held by the first housing 5 and the second housing 6. Each accommodation portion 7 is surrounded by the socket 3 and the second housing 6 of the base housing 4, and the first contact portion 121 and the second contact portion 131 described later are exposed to the outside of the socket 3 and the base housing 4, respectively. In this state, each probe pin 10 can be housed.

  Note that, as shown in FIG. 2, the first contact portion 121 is configured to be capable of contacting a terminal provided on a substrate (for example, a PCB pad) 100 of the inspection device, as an example. In addition, the second contact portion 131 is configured to be capable of contacting the terminal 120 of the inspection object (for example, a board-to-board (BtoB) connector) 110, as an example.

  As shown in FIG. 3, each probe pin 10 is connected to an elastic portion 11 that expands and contracts along the longitudinal direction (that is, the vertical direction in FIG. 3) and a first end portion 111 of the elastic portion 11 in the longitudinal direction. The plate-shaped first contact portion 12 and the plate-shaped second contact portion 13 connected to the second end 112 in the longitudinal direction of the elastic portion 11 are provided. The probe pin 10 is formed by, for example, an electroforming method, and the elastic portion 11, the first contact portion 12, and the second contact portion 13 are integrally configured.

  As shown in FIG. 4, the elastic portion 11 has a meandering shape when viewed from the plate thickness direction of the first contact portion 12 (that is, the paper surface penetrating direction of FIG. 4) and is arranged with a gap 23 therebetween. Further, a plurality of strip-shaped elastic pieces (two strip-shaped elastic pieces in this embodiment) 21 and 22 are provided. Each strip-shaped elastic piece 21, 22 has an elongated strip shape, a first end 211 which is one end in the longitudinal direction of the probe pin 10 is connected to the first contact portion 12, and the other end in the longitudinal direction of the probe pin 10. The second end portion 212, which is a portion, is connected to the second contact portion 13.

  Specifically, as shown in FIG. 5, each strip-shaped elastic piece 21, 22 has four strip-shaped linear portions (that is, first linear portions 31, 32, second linear portions 51, 52, and third linear portions). 71, 72, fourth straight portions 91, 92), and three strip-shaped curved portions (that is, first curved portions 41, 42, second curved portions 61, 62, and third curved portions 81, 82). And have.

  The first linear portions 31 and 32 extend in a direction intersecting the longitudinal direction of the probe pin 10 (for example, an orthogonal direction), and one end portion in the extending direction is connected to the first contact portion 12, The one end portions 211 and 221 are configured. The first straight line portions 31 and 32 are connected to the first contact portion 12 from a direction intersecting the longitudinal direction of the probe pin 10 (for example, a direction orthogonal to each other).

  The first curved portions 41, 42 project in a direction intersecting with the longitudinal direction of the probe pin 10 and away from the first contact portion 12, and are arcs with respect to a central angle θ1 larger than 90 degrees and smaller than 180 degrees. Running along. In addition, one end of the first bending portions 41 and 42 in the extending direction is connected to the other end of the first straight portions 31 and 32 in the extending direction.

  The second linear portions 51, 52 extend in a direction intersecting the longitudinal direction of the probe pin 10, and one end portion in the extending direction thereof is at the other end portion of the first bending portions 41, 42 in the extending direction. It is connected. The second linear portions 51, 52 extend in the longitudinal direction of the probe pin 10 from the one end portion in the extending direction toward the other end portion (that is, as the distance from the first curved portions 41, 42 increases). It extends in a direction away from the portions 31 and 32.

  The second curved portions 61 and 62 project in a direction that intersects the longitudinal direction of the probe pin 10 and in a direction that approaches the first contact portion 12, and are arcs with respect to a central angle θ2 that is larger than 90 degrees and smaller than 180 degrees. Extends along. In addition, the second curved portions 61 and 62 are connected at one end in the extending direction to the other ends in the extending direction of the second linear portions 51 and 52.

  The third linear portions 71, 72 extend in a direction intersecting the longitudinal direction of the probe pin 10, and one end portion in the extending direction thereof is the other end portion of the second curved portions 61, 62 in the extending direction. It is connected. The third linear portions 71, 72 extend in the longitudinal direction of the probe pin 10 from the one end portion in the extending direction toward the other end portion (that is, as the distance from the second curved portions 61, 62 increases). It extends in a direction away from the parts 51 and 52.

  The third curved portions 81, 82 project in a direction that intersects the longitudinal direction of the probe pin 10 and away from the first contact portion 12, and are arcs with respect to a central angle θ3 that is larger than 90 degrees and smaller than 180 degrees. Running along. In addition, one end of the third bending portions 81 and 82 in the extending direction is connected to the other end of the third straight portions 71 and 72 in the extending direction.

  The fourth straight line portions 91, 92 extend in a direction intersecting the longitudinal direction of the probe pin 10 (for example, an orthogonal direction), and one end portion in the extending direction thereof extends of the third bending portions 81, 82. It is connected to the other end of the direction. The fourth straight line portions 91, 92 extend in the longitudinal direction of the probe pin 10 from the one end portion in the extending direction toward the other end portion (that is, as the distance from the third curved portions 81, 82 increases). It extends in a direction away from the parts 71, 72. The other ends of the fourth linear portions 91 and 92 in the extending direction are connected to the second contact portion 13 to form the second end portions 212 and 222. The fourth linear portions 91 and 92 are connected to the second contact portion 13 from the longitudinal direction of the probe pin 10.

  In the probe pin 10, the first straight line portions 31 and 32 and the fourth straight line portions 91 and 92 pass through the centers of curvature of the second curved portions 61 and 62 and extend in a direction orthogonal to the longitudinal direction of the probe pin 10. They are arranged symmetrically with respect to. Further, the second straight line portions 51, 52 and the third straight line portions 71, 72 are arranged symmetrically with respect to the straight line L1, and the first bending portions 41, 42 and the third bending portions 81, 82 are with respect to the straight line L1. Are arranged symmetrically.

  The width of each strip-shaped elastic piece 21, 22 (that is, in the width direction orthogonal to the extending direction of the path between the first end portions 211, 221 and the second end portions 212, 222 of each strip-shaped elastic piece 21, 22). The lengths W1 and W2 are smaller than the shortest distance W3 between the adjacent strip-shaped elastic pieces 21 and 22. In addition, in FIG. 5, as an example, the linear distance between the first bending portions 41 and 42 is shown as the shortest distance W5.

  As shown in FIG. 4, the first contact portion 12 extends along the longitudinal direction of the probe pin 10, and one end portion in the extending direction is connected to the first end portion 111 of the elastic portion 11. A first contact portion 121 is provided at the other end of the first contact portion 12 in the extending direction. Further, as shown in FIG. 4, the second contact portion 13 extends along the longitudinal direction of the probe pin 10, and one end portion in the extending direction is connected to the second end portion 112 of the elastic portion 11. A second contact portion 131 is provided at the other end of the second contact portion 13 in the extending direction.

  Each of the first contact portion 12 and the second contact portion 13 is arranged in series along a virtual straight line L2 extending along the longitudinal direction of the probe pin 10. That is, as shown in FIG. 5, the linear portions 31, 32, 51, 52, 71, 72, 91, 92 of the elastic portion 11, the first bending portions 41, 42 and the third bending portions 81, 82 are The second curved portions 61 and 62 are arranged on the same side with respect to the virtual straight line L2 (that is, one side in the width direction of the first contact portion 12), and the second curved portions 61 and 62 are provided between the first contact portion 12 and the second contact portion 13. Further, they are arranged in series along the virtual straight line L2.

  As shown in FIG. 4, the support portion 122 is provided on one side in the width direction of the intermediate portion of the first contact portion 12 in the extending direction. When viewed from the plate thickness direction of the first contact portion 12, the support portion 122 is in a direction intersecting the longitudinal direction of the probe pin 10 from the first contact portion 1 (for example, an orthogonal direction) and a first straight line with respect to the virtual straight line L3. It projects toward the portions 31 and 32.

  As shown in FIG. 2, when the probe pin 10 is accommodated in the accommodating portion 7 of the socket 3, the support portion 122 of the first contact portion 12 has a surface on the first contact portion 121 side in the longitudinal direction of the probe pin 10, It is configured to abut on a surface of the second housing 6 that constitutes the housing portion 7 that faces the first housing 5. Further, in the probe pin 10, the fourth linear portion 91 of the strip-shaped elastic piece 21 is provided on the surface of the probe pin 10 on the side of the second contact portion 131 in the longitudinal direction that faces the second housing 6 of the socket 3 forming the housing portion 7. It is configured to abut. That is, the probe pin 10 is configured to be supported inside the accommodation portion 7 by the support portion 122 of the first contact portion 12 and the fourth straight portion 91 of the strip-shaped elastic piece 21.

  Even when housed in the housing portion 7 of the socket 3, the central angles θ1, θ2, and θ3 of the curved portions 41, 42, 61, 62, 81, and 82 are set to be larger than 90 degrees and smaller than 180 degrees. Is configured.

  The support portion 122 of the first contact portion 12 may be omitted, and the first linear portion 31 of the strip-shaped elastic piece 21 may be configured to contact the surface of the second housing 6 that faces the first housing 5. Good. That is, the probe pin 10 may be configured to be supported inside the housing portion 7 by the first straight line portion 31 and the fourth straight line portion 91 of the strip-shaped elastic piece 21.

  Further, as shown in FIG. 4, a through hole portion 132 penetrating the second contact portion 13 in the plate thickness direction is provided at an end portion of the second contact portion 13 on the elastic portion 11 side in the longitudinal direction of the probe pin 10. Has been. The through-hole portion 132 extends in the longitudinal direction of the probe pin 10 and is connected to the gap 23 between the strip-shaped elastic pieces 21, 22. The through hole portion 132 disperses the stress generated in the second contact portion 13.

  By the way, when the central angle θ1 of the first bending portions 41 and 42 is 90 degrees or less, the first contact portion 12 and the second contact portion 13 cannot be arranged in series, and the inspection object Also, it becomes difficult to obtain the elastic portion 11 having an elastic force capable of ensuring contact reliability with the inspection device.

  If the central angle θ1 of the first curved portions 41 and 42 is 180 degrees or more, a sufficient distance cannot be provided between the first linear portions 31 and 32 and the second linear portions 51 and 52. Therefore, for example, the signal in the high frequency region flowing through the first linear portions 31 and 32 interferes with the signal in the high frequency region flowing through the second linear portions 51 and 52, and it is difficult to reduce the loss of the signal in the high frequency region. become.

  On the other hand, in the probe pin 10, the elastic portion 11 extends in the direction intersecting the longitudinal direction of the probe pin 10, and the one end portion 111 in the extending direction is connected to the first contact portion 12 to form the first linear portion. 31, 32 and one end portion in the extending direction of the first linear portion 31, 32 extending in an arc shape protruding in a direction intersecting the longitudinal direction of the probe pin 10 and away from the first contact portion 12. The first curved portions 41 and 42 connected to the other end portion in the present direction, and one end portion in the extending direction extending in the direction intersecting the longitudinal direction of the probe pin 10 extends from the first curved portions 41 and 42. The second straight portions 51 and 52 connected to the other end of the direction, and the central angle θ1 of the first curved portions 41 and 42 is configured to be larger than 90 degrees and smaller than 180 degrees. There is. Thereby, since a distance can be provided between the first straight line portions 31 and 32 and the second straight line portions 51 and 52 in the longitudinal direction of the probe pin 10, for example, a high frequency region flowing through the first straight line portions 31 and 32. It is possible to reduce the interference of the signal with the signal in the high frequency region flowing through the second linear portions 51 and 52. As a result, it is possible to realize the probe pin 10 that can reduce the loss of signals in the high frequency region while ensuring the contact reliability with respect to the inspection target and the inspection device.

  Here, each of the bending portions 41, 42, 61, 62, 81, 82 has a probe pin 10 (hereinafter referred to as a probe pin of a comparative example) whose central angles θ1, θ2, θ3 are all 180 degrees, and each bending portion 41, Insertion loss and return loss were measured with respect to the probe pin 10 (hereinafter referred to as the probe pin of the example) in which the central angles θ1, θ2, and θ3 of 42, 61, 62, 81, and 82 are all 150 degrees.

  As shown in FIG. 6, in the probe pin of the comparative example, an insertion loss of -1 dB occurred for a signal of 14.28 Gbps, and a return loss of -10 dB occurred for a signal of 13.40 Gbps. On the other hand, as shown in FIG. 7, in the probe pin of the example, an insertion loss of -1 dB was generated for a signal of 30.60 Gbps, and a return loss of -10 dB was generated for a signal of 30.24 Gbps. .. That is, by configuring the probe pin 10 so that the central angle θ1 of the first bending portions 41 and 42 is larger than 90 degrees and smaller than 180 degrees, it was possible to reduce signal loss in the high frequency region.

  Further, according to the probe pin 10, the elastic portion 11 is composed of a plurality of strip-shaped elastic pieces arranged with a gap 23 therebetween, and the widths W1 and W2 of the strip-shaped elastic pieces 21 and 22 are adjacent to each other. It is configured to be smaller than the shortest distance W3 between the strip-shaped elastic pieces 21 and 22. Thereby, for example, when the first contact portion 121 and the second contact portion 131 respectively contact the inspection object and the inspection device and the respective strip-shaped elastic pieces 21 and 22 are compressed in the longitudinal direction of the probe pin 10. However, the contact between the strip-shaped elastic pieces 21 and 22 can be prevented, and the probe pin 10 that can ensure high contact reliability can be realized.

  According to the inspection jig 2, the probe pin 10 has high contact reliability with respect to the inspection object and the inspection device, and the signal loss in the high frequency region is small when connected to the inspection object and the inspection device. The tool 2 can be realized.

  Further, according to the inspection unit 1, the inspection jig 2 has high contact reliability with respect to the inspection object and the inspection device, and the signal loss in the high frequency region is small when connected to the inspection object and the inspection device. 2 can be realized.

  The inspection unit 1 can form a part of the inspection device. According to such an inspection apparatus, the inspection unit 1 realizes an inspection apparatus that has high contact reliability with respect to the inspection object and the inspection apparatus, and has less loss of signals in the high frequency region when connected to the inspection object and the inspection apparatus. it can.

  The elastic portion 11 has first linear portions 31, 32, first curved portions 41, 42 and second linear portions 51, 52, and the central angle of the first curved portions 41, 42 is greater than 90 degrees and 180 degrees. It suffices if it is configured to be smaller than the above.

  For example, as shown in FIG. 8, the elastic portion 11 may be composed of only the first linear portions 31, 32, the first curved portions 41, 42 and the second linear portions 51, 52.

  Further, the elastic portion 11 is not limited to the case where the elastic portion 11 has the two strip-shaped elastic pieces 21 and 22 arranged with the gap 23 therebetween. The elastic portion 11 may have, for example, four strip-shaped elastic pieces 21, 22, 24, 25 arranged with a gap between each other as shown in FIG. You may have one strip-shaped elastic piece.

  The widths W1 and W2 of the strip-shaped elastic pieces 21 and 22 are not limited to being smaller than the shortest distance W3 between the adjacent strip-shaped elastic pieces 21 and 22, and may be large.

  The shape and the like of the first contact portion 12 and the second contact portion 13 can be appropriately changed according to the design of the probe pin 10 and the like. For example, as shown in FIG. 9, the second contact portion 13 may be provided on each of the distal end portions of the pair of leg portions 133 and 134 extending along the longitudinal direction of the probe pin 10. That is, each of the first contact portion 121 and the second contact portion 131 can be appropriately changed in shape and position according to various aspects of the inspection device or the inspection object.

  The structures of the inspection jig 2 and the base housing 4 can be appropriately changed according to various aspects of the inspection device or the inspection object. That is, the inspection jig 2 and the base housing 4 can be generalized to improve the productivity of the inspection unit 1 (and thus the inspection device).

  Although various embodiments of the present disclosure have been described above in detail with reference to the drawings, finally, various aspects of the present disclosure will be described. Note that, in the following description, reference numerals are also attached as an example.

The probe pin 10 of the first aspect of the present disclosure is
An elastic portion 11 that expands and contracts along the longitudinal direction,
A plate-shaped first contact portion 12 connected to the first end portion 111 in the longitudinal direction of the elastic portion 11,
A plate-shaped second contact portion 13 arranged in series with respect to the first contact portion 12 and connected to the second end portion 112 in the longitudinal direction of the elastic portion 11,
The elastic portion 11 is
A first straight line portion 31 extending in a direction intersecting the longitudinal direction and having one end portion in the extending direction connected to the first contact portion;
It extends in an arc shape protruding in a direction intersecting with the longitudinal direction and away from the first contact portion 12, and one end portion in the extending direction of the first straight portion 31 is different from the extending direction of the first linear portion 31. A curved portion 41 connected to the end,
While extending in a direction intersecting the longitudinal direction, one end portion in the extending direction thereof has a second linear portion 51 connected to the other end portion of the bending portion 41 in the extending direction,
The central angle θ1 of the curved portion 41 is configured to be larger than 90 degrees and smaller than 180 degrees.

  According to the probe pin 10 of the first aspect, since a distance can be provided between the first straight line portion 31 and the second straight line portion 51 in the longitudinal direction of the probe pin 10, for example, the first straight line portion 31 flows. The interference of the signal in the high frequency region with the signal in the high frequency region flowing through the second linear portion 51 can be reduced. As a result, it is possible to realize the probe pin 10 that can reduce the loss of signals in the high frequency region while ensuring the contact reliability with respect to the inspection target and the inspection device.

The probe pin 10 of the second aspect of the present disclosure is
The elastic portion 11 is composed of a plurality of strip-shaped elastic pieces 21 and 22 arranged with a gap 23 therebetween,
The widths W1 and W2 of the plurality of elastic strips 21, 22 are smaller than the shortest distance W3 between the adjacent elastic strips 21, 22.

  According to the probe pin 10 of the second aspect, for example, each of the first contact portion 121 and the second contact portion 131 comes into contact with the inspection object and the inspection device, and the strip-shaped elastic pieces 21 and 22 are connected to the probe pin 10. Even when compressed in the longitudinal direction, the contact between the strip-shaped elastic pieces 21 and 22 can be prevented, and the probe pin 10 that can ensure high contact reliability can be realized.

The inspection jig 2 of the third aspect of the present disclosure is
The probe pin 10,
A socket 3 having an accommodating portion 7 capable of accommodating the probe pin 10,
The probe pin 10 is housed in the housing portion 7 such that the central angle of the bending portion 41 is larger than 90 degrees and smaller than 180 degrees.

  According to the inspection jig 2 of the third aspect, the probe pin 10 ensures high contact reliability with respect to the inspection target and the inspection device, and causes little signal loss in the high frequency region when connected to the inspection target and the inspection device. The jig 2 can be realized.

The inspection unit 1 of the fourth aspect of the present disclosure is
At least one inspection jig was provided.

  According to the inspection unit 1 of the fourth aspect, the inspection jig 2 has high contact reliability with respect to the inspection object and the inspection device, and the signal loss in the high frequency region is small when connected to the inspection object and the inspection device. The unit 2 can be realized.

The inspection apparatus according to the fifth aspect of the present disclosure is
At least one inspection unit 1 was provided.

  According to the inspection apparatus of the fourth aspect, the inspection unit 1 can provide an inspection apparatus that has high contact reliability with respect to the inspection object and the inspection apparatus, and has little loss of signals in the high frequency region when connected to the inspection object and the inspection apparatus. realizable.

  By properly combining the arbitrary embodiments or modifications of the various embodiments or modifications, the effects possessed by them can be produced. Further, the embodiments may be combined with each other, the embodiments may be combined with each other, or the embodiments may be combined with each other, and the features of the different embodiments or examples may be combined with each other.

  The probe pin of the present disclosure can be applied to, for example, an inspection jig used for inspecting a liquid crystal panel.

  The inspection jig of the present disclosure can be applied to, for example, an inspection unit used for inspecting a liquid crystal panel.

  The inspection unit of the present disclosure can be applied to, for example, a liquid crystal panel inspection device.

  The inspection device of the present disclosure can be used for inspection of a liquid crystal panel, for example.

DESCRIPTION OF SYMBOLS 1 inspection unit 2 inspection jig 3 socket 4 base housing 5 first housing 6 second housing 7 accommodating portion 10 probe pin 11 elastic portion 111 first end portion 112 second end portion 12 first contact portion 121 first contact portion 13 Second contact portion 131 Second contact portion 132 Through hole portions 133, 134 Leg portions 21, 22, 24, 25 Belt-shaped elastic pieces 211, 221 First end portion 212, 222 Second end portion 23 Gap 31, 32 First straight line Part 41, 42 1st curved part 51, 52 2nd linear part 61, 62 2nd curved part 71, 72 3rd linear part 81, 82 3rd curved part 91, 92 4th linear part 100 Substrate 110 Inspection object 120 Terminals θ1, θ2, θ3 Center angles L1, L2 Straight lines W1, W2 Width W3 Shortest distance

Claims (15)

An elastic part that expands and contracts along the longitudinal direction,
A first contact portion of the one longitudinal end portion connected to the plate-like the elastic portion,
The serially arranged with respect to the first contact portion, and a said longitudinal direction of the second contact portion of the connected plate to the other end of the elastic portion,
The elastic part is arranged along a virtual straight line extending along the longitudinal direction from the second contact part and arranged on the same side with respect to the virtual straight line, or arranged along the virtual straight line and A part of the elastic portion is arranged so as to be located on the virtual straight line, in the probe pin,
The elastic portion is
Having a plurality of strip-shaped elastic pieces arranged with a gap between each other,
Each of the plurality of elastic strips,
It extends along the direction crossing before Symbol longitudinally, has connected a straight line portion to the second contact portion one end before Symbol of the extending direction,
The straight line portion, the probe pin has been configured contactable to the inside of the socket in the longitudinal direction when housed in the socket, the probe pins. Each of the plurality of band-like elastic pieces,
A first linear portion extending in a direction intersecting the longitudinal direction and having one end in the extending direction connected to the first contact portion;
A second linear portion extending in a direction intersecting the longitudinal direction and having one end in the extending direction connected to the second contact portion;
Have
The probe pin according to claim 1, wherein the first straight line portion and the second straight line portion are configured to be capable of abutting inside the socket in the longitudinal direction when housed in the socket . The first contact portion is
Further comprising a support portion projecting toward the linear portion side with respect to the virtual straight line in a direction intersecting the longitudinal direction,
The probe pin according to claim 1 , wherein the support portion and the linear portion are configured to be capable of contacting the inside of the socket in the longitudinal direction when housed in the socket . An elastic part that expands and contracts along the longitudinal direction,
A plate-shaped first contact portion connected to the first end of the elastic portion in the longitudinal direction,
A plate-shaped second contact portion arranged in series with respect to the first contact portion and connected to the second end portion in the longitudinal direction of the elastic portion;
Equipped with
The elastic portion is arranged along a virtual straight line extending from the first contact portion along the longitudinal direction and is arranged on the same side with respect to the virtual straight line, or is arranged along the virtual straight line and In the probe pin arranged so that a part of the elastic portion is located on the virtual straight line,
The elastic portion is
Having a plurality of strip-shaped elastic pieces arranged with a gap between each other,
Each of the plurality of elastic strips,
While extending in a direction intersecting the longitudinal direction, one end portion in the extending direction has a linear portion connected to the second contact portion,
The probe pin is configured such that the linear portion can come into contact with the inside of the socket in the longitudinal direction when the probe pin is housed in the socket . Each of the plurality of elastic strips,
A first linear portion extending in a direction intersecting the longitudinal direction and having one end in the extending direction connected to the first contact portion;
A second linear portion extending in a direction intersecting the longitudinal direction and having one end in the extending direction connected to the second contact portion;
Have
The probe pin according to claim 4 , wherein the first straight line portion and the second straight line portion are configured to be capable of contacting the inside of the socket in the longitudinal direction when housed in the socket . The first contact portion is
Further comprising a support portion projecting toward the linear portion side with respect to the virtual straight line in a direction intersecting the longitudinal direction,
The probe pin according to claim 4 , wherein the support portion and the linear portion are configured to be capable of abutting inside the socket in the longitudinal direction when housed in the socket . An elastic part that expands and contracts along the longitudinal direction,
A plate-shaped first contact portion connected to one end of the elastic portion in the longitudinal direction,
A plate-shaped second contact portion arranged in series with the first contact portion and connected to the other end portion of the elastic portion in the longitudinal direction;
Equipped with
The elastic portion is arranged on one side in the width direction of the first contact portion intersecting the longitudinal direction, or is arranged along a virtual straight line extending from the first contact portion along the longitudinal direction, and A part of the elastic part is arranged so as to be located on the virtual straight line. In the probe pin,
The elastic portion is
Having a plurality of strip-shaped elastic pieces arranged with a gap between each other,
Each of the plurality of elastic strips,
While extending in a direction intersecting the longitudinal direction, one end portion in the extending direction has a linear portion connected to the second contact portion,
The probe pin is configured such that the linear portion can come into contact with the inside of the socket in the longitudinal direction when the probe pin is housed in the socket. Each of the plurality of elastic strips,
A first straight portion that extends in a direction intersecting the longitudinal direction and has one end in the extending direction connected to the first contact portion;
A second linear portion extending in a direction intersecting the longitudinal direction and having one end in the extending direction connected to the second contact portion;
Have
The probe pin according to claim 7, wherein the first straight line portion and the second straight line portion are configured to be capable of abutting inside the socket in the longitudinal direction when housed in the socket. The first contact portion is
In a direction intersecting the longitudinal direction and having a supporting portion that projects toward the straight line portion side with respect to the virtual straight line,
The probe pin according to claim 7, wherein the support portion and the linear portion are configured to be capable of contacting the inside of the socket in the longitudinal direction when housed in the socket. An elastic part that expands and contracts along the longitudinal direction,
A plate-shaped first contact portion connected to the longitudinal first end of the elastic portion;
A plate-shaped second contact portion arranged in series with the first contact portion and connected to the second end portion in the longitudinal direction of the elastic portion;
Equipped with
The elastic portion is arranged on one side in the width direction of the first contact portion intersecting the longitudinal direction, or is arranged along an imaginary straight line extending from the first contact portion along the longitudinal direction, and A part of the elastic part is arranged so as to be located on the virtual straight line, in the probe pin,
The elastic portion is
Having a plurality of strip-shaped elastic pieces arranged with a gap between each other,
Each of the plurality of elastic strips,
While extending in a direction intersecting the longitudinal direction, one end portion in the extending direction has a linear portion connected to the first contact portion,
The probe pin is configured such that the linear portion can come into contact with the inside of the socket in the longitudinal direction when the probe pin is housed in the socket. Each of the plurality of elastic strips,
A first straight portion that extends in a direction intersecting the longitudinal direction and has one end in the extending direction connected to the first contact portion;
A second linear portion extending in a direction intersecting the longitudinal direction and having one end in the extending direction connected to the second contact portion;
Have
The probe pin according to claim 10, wherein the first straight line portion and the second straight line portion are configured to be capable of abutting inside the socket in the longitudinal direction when housed in the socket. An elastic part that expands and contracts along the longitudinal direction,
A plate-shaped first contact portion connected to the first end of the elastic portion in the longitudinal direction,
A plate-shaped second contact portion arranged in series with the first contact portion and connected to the second end portion in the longitudinal direction of the elastic portion;
Equipped with
The elastic portion is arranged on one side in the width direction of the first contact portion intersecting the longitudinal direction, or is arranged along a virtual straight line extending from the first contact portion along the longitudinal direction, and A part of the elastic portion is arranged so as to be located on the virtual straight line, in the probe pin,
The elastic portion is
Having a plurality of strip-shaped elastic pieces arranged with a gap between each other,
Each of the plurality of strip-shaped elastic portions,
While extending in a direction intersecting the longitudinal direction, one end portion in the extending direction has a linear portion connected to the second contact portion,
The first contact portion is
In a direction intersecting the longitudinal direction and having a support portion protruding toward the straight line portion side with respect to the virtual straight line,
The probe pin, wherein the linear portion and the support portion are configured to be able to contact the inside of the socket in the longitudinal direction when the probe pin is housed in the socket. A probe pin according to any one of claims 1, 4, 7, 10 and 12, and
A socket having an accommodating portion capable of accommodating the probe pin ,
An inspection jig configured such that, when the probe pin is accommodated in the socket, the linear portion is in contact with the inner surface of the socket in the longitudinal direction . An inspection unit comprising at least one inspection jig according to claim 13 . An inspection apparatus comprising at least one inspection unit according to claim 14 .

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