JP4054238B2 - IC socket - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a socket for an electronic component that opens and closes a contact of a socket body and an external contact of an IC package that is a package of an electronic component, and more particularly, an elastic contact piece of the contact sandwiches an external contact of the IC package. It relates to an IC socket applied to connect.
[0002]
[Prior art]
Conventionally, an IC package or the like as an electronic component is attached to a socket body of an IC socket, and a movable plate formed in a lattice shape is moved in a lateral direction to open and close a pinch contact to be connected to the IC package. IC sockets are known.
[0003]
In such a conventional IC socket, the sandwiching contact is arranged so that the elastic contact piece on the fixed side and the elastic contact piece on the movable side extend substantially in parallel, and the movable contact side with respect to the elastic contact piece on the fixed side The elastic contact piece is formed so as to be opened and closed by moving horizontally and horizontally by a moving plate having a grid-like or comb-like partition wall so that the external contact of the IC package is sandwiched by the contact and connected. It is configured. (For example, refer to Patent Document 1).
[0004]
[Patent Document 1]
Japanese Unexamined Patent Publication No. 2000-48923 (2nd page, FIGS. 1 and 2)
[0005]
[Problems to be solved by the invention]
However, in such a conventional IC socket, when the contact is opened, the operation member as the cover member is pushed down and the one elastic contact piece of the contact is moved in the same direction as the opening direction via the cam mechanism. The contact is opened by moving. For this reason, the operation force of the operation member for opening the contact when the IC socket is opened is considerably increased, and a considerable pressing force is required.
[0006]
Accordingly, an object of the present invention is to alleviate the operation force by rotating the lever member with the operation member to push down the moving plate or pushing it up to open the contact in order to solve such a conventional problem. It is an object of the present invention to provide an IC socket in which the stress is reduced and the life is extended.
[0007]
[Means for Solving the Problems]
  In order to achieve the above-described object, an IC socket according to the present invention includes an operation member that can move up and down, a plurality of sandwiched contacts that form an electrical connection with a mounted IC package, and the contacts fixedly provided. In an IC socket having a socket main body and a moving plate for opening and closing the contact, a lever member for moving the moving plate up and down by the operating member to open and close the contactAnd the relay member, the relay member is provided between the lever member and the cam actuating portion of the movable plate, the lever member is pivotally supported near the middle lower end, the upper end is the operation It is formed so that it engages with the pressing cam member and the lower end engages with the relay member.It is characterized by that.
[0009]
Furthermore, the IC socket according to the present invention is characterized in that the lever member is rotated by the vertical movement of the operation member to open and close the contact by moving the movable plate up and down via a cam operating portion.
[0010]
Furthermore, the IC socket of the present invention is characterized in that the contact is provided with a grid-like partition wall of the moving plate between a pair of elastic contact pieces.
[0011]
The IC socket of the present invention is characterized in that the elastic contact piece of the contact is bent in a slightly narrowed shape inside and is formed so as to be spread by the partition wall of the moving plate.
[0012]
The IC socket of the present invention is characterized in that a partition wall of the movable plate is interposed between the pair of elastic contact pieces.
[0013]
  Further, in the IC socket of the present invention, the lever member is rotated by pushing down the operation member,Relay memberThrough the moving plateUp orIt is characterized by being moved downward.
[0015]
Another embodiment of the IC socket of the present invention is characterized in that it is elastically supported by a compression spring member so that the moving plate can be pushed down.
[0016]
Another embodiment of the IC socket of the present invention is characterized in that it is elastically supported by a tension spring member so that the movable plate can be pushed up.
[0017]
Other objects, features and advantages of the present invention will be apparent from the following detailed description of the IC socket embodiments of the present invention shown in the accompanying drawings.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Example 1
FIG. 1 and FIG. 2 are schematic explanatory views showing, for example, an embodiment of an IC socket as an electronic component socket according to the present invention. FIG. 1 is a central longitudinal section of the IC socket in a free state, that is, a closed state. 2 is a central longitudinal sectional view of the IC socket of FIG. 1 in a full stroke state, that is, in an open state.
[0019]
As shown in FIG. 1 and FIG. 2, an IC socket 1 as an electronic component socket in Embodiment 1 of the present invention is a sandwiched contact that mounts an IC package 10 as an electronic component to form an electrical connection. 4 is a type of IC socket having four.
[0020]
Such an IC socket 1 of the present invention has a socket body 2 and an operation member 3 that is elastically supported by the socket body 2 so as to move up and down by a plurality of spring members 14 such as coil springs. ing. Further, the IC socket 1 is fixed to the socket body 2 at the base end, and a plurality of sandwiched contacts 4 that form an electrical connection with the mounted IC package 10, and a plurality of sandwiched contacts 4 in the socket body 2. A movable plate 5 that is elastically supported by a spring member 15 such as a compression coil spring so as to be movable up and down and provided with a grid-like or comb-like partition wall 8 and a cam operating portion 9, and can be rotated within the socket body 2. And a pair of lever members 6.
[0021]
In such an IC socket 1 of the present invention, the socket body 2 has a box shape. A plurality of sandwiched contacts 4 are fixed to the bottom of the box-shaped socket body 2 at the base end thereof, and are electrically connected to the spherical or hemispherical external terminals 11 of the mounted IC package 10. It is configured to form a connection.
[0022]
In addition, the operation member 3 is elastically supported on the upper portion of the socket body 2 by a spring member 14 such as one or a plurality of coil springs so that the operation member 3 can be moved up and down. A rust-shaped pressing cam member 7 is provided so as to hang downward, that is, protrude. Accordingly, when the operating member 3 is pushed downward, the contact 4 is opened by the moving plate 5 via the pressing cam member 7 and the lever member 6 as described later.
[0023]
In such an IC socket 1 of the present invention, the contact 4 is composed of a pair of elastic contact pieces 12a and 12b. These elastic contact pieces 12a and 12b are fixed to each other at the bottom of the socket body 2 at the base end so as to extend substantially parallel upward. Between the elastic contact piece 12a and the elastic contact piece 12b, a grid-like or comb-like partition wall 8 of the moving plate 5 is disposed, and the elastic contact pieces 12a and 12b are isolated from each other. Yes.
[0024]
The partition wall 8 of the moving plate 5 is formed in a long triangular shape, a wedge shape, or the like so that the pair of elastic contact pieces 12a, 12b of the contact 4 can be opened by being expanded to the left and right. Is preferred. Further, the elastic contact pieces 12a and 12b of the contact 4 are slightly bent inward so as to be squeezed at the lower portion of the tip portion, and are formed to have bent portions 12c and 12d.
[0025]
Accordingly, the elastic contact pieces 12a and 12b of the contact 4 are bent outwardly by the partition wall 8 of the moving plate 5 when the moving plate 5 is pressed downward, so that the bent portions 12c, At 12d, the distal ends of the elastic contact pieces 12a and 12b are pushed outward.
[0026]
Further, lever members 6 and 6 are rotatably provided in the socket body 2 on the left and right. Each lever member 6 is pivotally supported by a rotation shaft 16 at a middle position slightly below the middle. A pressing shaft 17 is provided at the upper end of each lever member 6, and an operating shaft 18 is provided at the lower end thereof. A pressing shaft 17 at the upper end of the lever member 6 is formed to be able to engage with the cam surface 13 of the pressing cam member 7 of the operating member 3, and an operating shaft 18 at the lower end thereof is a cam of the cam operating portion 9 of the moving plate 5. It is formed so that it can engage with the surface 19.
[0027]
The lever member 6 is determined such that the distance a between the rotating shaft 16 and the pressing shaft 17 is sufficiently larger than the distance b between the rotating shaft 16 and the operating shaft 18. Thus, in the lever member 6, the inter-axis distance is selected so that the force f applied to the pressing shaft 17 is enlarged by the lever principle to obtain a large force F applied to the operating shaft 18.
[0028]
Therefore, in the lever member 6, the relationship of the inter-axis distance that is a · f = b · F is obtained, and thereby, the relationship of F = f · a / b is obtained. As a result, the force f applied to the pressing shaft 17 at the upper end of the lever member 6 by the depression of the operating member 3 is increased, resulting in a large force F applied to the operating shaft 18. As a result, in this embodiment, a sufficiently large actuating force is applied to the actuating shaft 18 with a small pressing force, and the operating force can be reduced.
[0029]
According to the IC socket 1 of the present invention configured as described above, if the operation member 3 is pushed down in the socket free state shown in FIG. 1, the spring member 14 is compressed and pressed by the depression of the operation member 3. The cam surface 13 of the cam member 7 engages with the pressing shaft 17 of the lever member 6 and pushes the pressing shaft 17. As a result, in the IC socket 1, the lever member 6 is rotated about the rotation shaft 16, and the operating shaft 18 engages with the cam surface 19 of the cam operating portion 9 of the moving plate 5 to face the cam surface 19 inward. , And the cam operating part 9 is moved downward to compress the spring member 15. As a result, in this embodiment, the downward movement of the moving plate 5 causes the partition wall 8 to act so as to push the bent portions 12c and 12d of the elastic contact pieces 12a and 12b of the contact 4 outward. As shown in FIG. 2, the contact 4 is in an open state in which the tip portion is pushed open toward the outside and opened.
[0030]
At this time, the lever member 6 has a small force applied to the pressing shaft 17 according to the principle of the lever, corresponding to the ratio of the distance from the rotating shaft 16 of the lever member 6 to the pressing shaft 17 and the distance to the operating shaft 18. As a result, the force is expanded to a sufficiently large acting force, so that a large operating force can be obtained with a small acting force, and the operating force can be relaxed.
[0031]
Accordingly, in this open state shown in FIG. 2, the IC package 10 can be inserted from the opening of the operation member 3 and placed on the contact 4, or the already mounted IC package 10 is taken out. Will be able to.
[0032]
Thus, after the IC package 10 is inserted and mounted or removed, the pressing of the operation member 3 is stopped and the operation member 3 is freed to be in a free state as follows. That is, since the operating member 3 is pushed upward by the spring member 14 and the moving plate 5 is also pushed upward by the spring member 15, the cam surface 19 of the cam operating portion 9 is It acts to push the actuating shaft 18 outward. By this action, the lever member 6 is rotated about the rotation shaft 16, and the upper pressing shaft 17 is moved inward to move to the cam surface 13 of the pressing cam member 7 of the operating member 3 that rises. Then, the cam surface 13 of the pressing cam member 7 of the operation member 3 is completely separated from the pressing shaft 17 of the lever member 6 and returns to the free state of FIG.
[0033]
Thus, in the IC socket 1 for the ball grid array type IC package 10 of the present invention, a novel configuration including the lever member 6 for moving the moving plate 5 for opening the contact 4 is obtained. The operating force can be suitably reduced by the lever member 6 utilizing the lever principle.
[0034]
(Example 2)
FIGS. 3 and 4 are schematic explanatory views showing Example 2 of an IC socket as an electronic component socket according to the present invention, and FIG. 3 is a central longitudinal sectional view of the IC socket in a free state, that is, in a closed state, 4 is a central longitudinal sectional view of the IC socket of FIG. 3 in a full stroke state, that is, in an open state.
[0035]
As shown in FIGS. 3 and 4, the IC socket 20 as the electronic component socket in the second embodiment of the present invention is also an IC socket having a sandwiched contact 24 similar to the first embodiment. . In the second embodiment, the basic configuration is substantially the same as that of the first embodiment, and the relay member 21 includes the cam surface 39 of the cam operating portion 29 of the moving plate 25 and the operating shaft of the lever member 26. 38 is different from that of 38.
[0036]
The IC socket 20 according to the second embodiment of the present invention includes a socket body 22, an operation member 23 that is elastically supported by the plurality of spring members 34 with respect to the socket body 22 so as to move up and down, and the socket body 22. Is fixed at the base end. The IC socket 20 is moved up and down by a plurality of sandwiched contacts 24 that form an electrical connection with the mounted IC package 30 and a plurality of spring members 35 such as compression coil springs in the socket body 22. A movable plate 25 provided with a lattice-like or comb-like partition wall 28 and a cam actuating portion 29 supported elastically and capable of rotating, and a pair of lever members 26 provided rotatably in the socket body 22. is doing. Further, the IC socket 20 is provided with a relay member 21 having a wedge-shaped cross section between the cam surface 39 of the cam operating portion 29 of the moving plate 25 and the operating shaft 38 of the lever member 26 on the outer side. .
[0037]
In such an IC socket 20 of the present invention, the socket body 22 has a box shape, and a plurality of sandwiching contacts 24 are fixed to the bottom portion at the base end portion, and the IC package 30 is mounted. The spherical or hemispherical external terminal 31 is configured to form an electrical connection. Further, an operating member 23 is elastically supported by a plurality of spring members 34 on the upper portion of the socket body 22 so as to be movable up and down, and a flat, wedge-shaped pressing cam member 27 is downwardly provided on the bottom surface of the operating member 23. It is provided to hang down, that is, to protrude. Accordingly, when the operation member 23 is pushed downward, the contact 24 is opened by the partition wall 28 of the moving plate 25 via the pressing cam member 27, the lever member 26, and the relay member 21, as will be described later.
[0038]
In such an IC socket 20 of the present invention, the contact 24 is composed of a pair of elastic contact pieces 32a and 32b. These elastic contact pieces 32 a and 32 b are fixed to each other at the bottom of the socket body 22 at the base end so as to extend substantially parallel upward. Between the elastic contact piece 32a and the elastic contact piece 32b, a lattice-like or comb-like partition wall 28 of the moving plate 25 is disposed so that the elastic contact pieces 32a and 32b are isolated from each other. Yes. The partition wall 28 of the moving plate 25 is formed in an elongated triangular shape, a wedge shape, or the like so that the pair of elastic contact pieces 32a, 32b of the contact 24 can be widened and opened to the left and right. Is preferred.
[0039]
Further, the elastic contact pieces 32a and 32b of the contact 24 are formed so as to have a bent portion 32c and 32d that are slightly bent inward so as to be squeezed at the lower portion of the tip portion.
[0040]
Accordingly, the elastic contact pieces 32a and 32b of the contact 24 are pressed outward by the partition wall 28 of the moving plate 25 when the moving plate 25 is pressed downward. At 32d, the distal end portions of the elastic contact pieces 32a and 32b are pushed outwardly, respectively.
[0041]
In addition, lever members 26 are provided in the socket body 22 so as to be pivotable on the left and right. Each lever member 26 is pivotally supported by a rotation shaft 36 at a middle position slightly below the middle, and a pressing shaft 37 is provided at the upper end. An operating shaft 38 is provided at the lower end of the lever member 26, and a pressing shaft 37 at the upper end is formed so as to be able to engage with the cam surface 33 of the pressing cam member 27 of the operating member 23. The operating shaft 38 at the lower end of the lever member 26 is formed so as to be able to engage with the cam surface 39 of the cam operating portion 29 of the moving plate 25 via the relay member 21.
[0042]
Further, the relay member 21 is formed in a wedge shape as shown in the drawing, and is provided with a cam surface 21a corresponding to the cam surface 39 of the cam operating portion 29, and slides on the cam surfaces 39, 21a. It is in contact engagement so that it can.
[0043]
Furthermore, in the lever member 26, the distance between the rotation shaft 36 and the pressing shaft 37 is sufficiently larger than the distance between the rotation shaft 36 and the operation shaft 38. Therefore, as described in the first embodiment, the rotating force is applied so that the small acting force applied to the pressing shaft 37 according to the principle of the lever is greatly enlarged and becomes the large operating force applied to the operating shaft 38. The distance between the moving shaft 36 and the pressing shaft 37 and the distance between the rotating shaft 36 and the operating shaft 38 are selected. Accordingly, the operating force applied to the pressing shaft 37 at the upper end of the lever member 26 is increased by the depression of the operating member 23, resulting in a large operating force applied to the operating shaft 38, and a sufficient operating force is obtained by the small pressing-down operating force. Acting on the operating shaft 38, the operating force can be reduced.
[0044]
According to the IC socket 20 of the present invention configured as described above, if the operation member 23 is pushed down in the socket free state shown in FIG. 3, the spring member 34 is compressed and pressed by the depression of the operation member 23. The cam surface 33 of the cam member 27 engages with the pressing shaft 37 of the lever member 26 and pushes the pressing shaft 37 outward. As a result, the lever member 26 is rotated about the rotation shaft 36 and the operation shaft 38 pushes the relay member 21 inward. As a result, the cam surface 21a of the relay member 21 is engaged with the cam surface 39 of the cam operating portion 29 of the moving plate 25 and pushes the cam surface 39. As a result, the cam surface 21a of the relay member 21 is Then, the cam surface 39 of the cam operating portion 29 of the moving plate 25 is pushed inward. By this action, the relay member 21 is configured such that the cam surface 21 a slides in the horizontal direction along the cam surface 39 of the cam operating portion 29.
[0045]
Accordingly, the horizontal sliding of the relay member 21 causes the moving plate 25 to move downward because the cam actuating portion 39 is pushed downward, thereby compressing the spring member 35.
[0046]
In this way, the movable plate 25 is configured such that the cam actuating portion 29 is moved downward to compress the spring member 35, and the partition wall 28 is elastically contacted by the contact 24 by the downward movement of the movable plate 25. It acts to push open the bent portions 32c and 32d of 32a and 32b outward. By this action, as shown in FIG. 4, the contact 24 is in an open state in which the tip end portion is pushed open toward the outside and opened.
[0047]
At this time, the lever member 26 has a small force applied to the pressing shaft 37 according to the principle of the lever to the ratio of the distance from the rotating shaft 36 of the lever member 26 to the pressing shaft 37 and the distance to the operating shaft 38. Correspondingly, it is expanded to a sufficiently large acting force. As a result, a large operating force can be obtained with a small operating force, and the operating force can be reduced.
[0048]
Furthermore, by inserting the relay member 21 between the cam operating portion 29 of the moving plate 25 and the operating shaft 28 of the lever member 26, the vertical displacement amount of the moving plate 25 can be changed. Accordingly, it is possible to determine the amount of displacement of the movable plate 25 by appropriately selecting the size and shape of the relay member 21.
[0049]
Therefore, in this open state shown in FIG. 4, the IC package 30 can be inserted from the opening of the operation member 23 and placed on the contact 24, or the already mounted IC package 30 is taken out. Will be able to. After the IC package 30 is inserted and mounted or taken out in this way, the pressing of the operating member 23 is stopped and the operating member 23 is freed so that the operating member 23 is moved upward by the spring member 34. Since the moving plate 25 is also pushed up by the spring member 35 at the same time, the cam surface 39 of the cam actuating portion 29 pushes the actuating shaft 38 of the lever member 26 outward via the relay member 21. become. As a result, the lever member 26 is rotated about the rotation shaft 36, and the upper end pressing shaft 37 is moved inward, along the cam surface 33 of the pressing cam member 27 of the operating member 23 that rises. 3 and eventually the cam surface 33 of the pressing cam member 27 of the operating member 23 is completely separated from the pressing shaft 37 of the lever member 26 and returns to the free state of FIG.
[0050]
Thus, in the IC socket 20 for the ball grid array type IC package 30 of the present invention, the lever member 26 for moving the moving plate 25 for opening the contact 24, and the lever member 26 are engaged. Accordingly, a new configuration including the relay member 21 and the like that can change the vertical displacement amount of the moving plate 25 is obtained, and the operating force in the operating member 23 is suitably reduced by the lever member 26 using the lever principle. be able to.
[0051]
(Example 3)
FIGS. 5 and 6 are schematic explanatory views showing Embodiment 3 of an IC socket as an electronic component socket according to the present invention, and FIG. 5 is a central longitudinal sectional view of the IC socket in a free state, that is, a closed state, 6 is a central longitudinal sectional view of the IC socket of FIG. 5 in a full stroke state, that is, in an open state.
[0052]
As shown in FIGS. 5 and 6, the IC socket 40 as the electronic component socket in the third embodiment of the present invention is a sandwiched contact that mounts an IC package 50 as an electronic component to form an electrical connection. IC socket of the type having 44. However, the third embodiment is different from the first and second embodiments in that the moving plate 45 is pushed up to open the contact 44, and the operating direction of the moving plate 45 is upside down. The basic configuration is substantially the same as that of the first and second embodiments.
[0053]
Such an IC socket 40 of the present invention has a socket body 42 and an operation member 43 that is elastically supported by the plurality of spring members 54 so as to move up and down with respect to the socket body 42. Further, the IC socket 40 has a plurality of sandwiched contacts 44 that are fixed to the socket body 42 at the base end portion and form an electrical connection with the mounted IC package 50. The IC socket 40 is elastically supported in the socket main body 42 so as to be vertically moved so as to be pulled downward by a plurality of spring members 55 such as a tension coil spring, and has a lattice-like or comb-like partition. A movable plate 45 provided with a wall 48 and a cam actuating portion 49 and a pair of lever members 46 rotatably provided in the socket main body 42 are provided.
[0054]
In such an IC socket 40 of the present invention, the socket body 42 has a box shape. A plurality of sandwiching contacts 44 are fixed at the base end of the bottom of the box-shaped socket body 42, and are electrically connected to the spherical or hemispherical external terminals 51 of the mounted IC package 50. It is configured to form a connection. An operation member 43 is elastically supported on the upper portion of the socket body 42 by a spring member 54 such as one or a plurality of coil springs so as to be movable up and down. On the bottom surface of the operating member 43, a flat and wedge-shaped pressing cam member 47 is provided so as to hang downward, that is, protrude. Therefore, the contact 44 is opened as will be described later when the operation member 43 is pushed downward.
[0055]
In such an IC socket 40 of the present invention, the contact 44 comprises a pair of elastic contact pieces 52a and 52b. These elastic contact pieces 52a and 52b are fixed to each other at the bottom of the socket main body 42 at the base end so as to extend substantially parallel upward. Between the elastic contact piece 52a and the elastic contact piece 52b, a grid-like or comb-like partition wall 48 of the moving plate 45 is disposed, and the elastic contact pieces 52a and 52b are isolated from each other. .
[0056]
The grid-like or comb-like partition wall 48 of the moving plate 45 has an elongated triangular or wedge shape in cross-sectional shape. The tip is formed so as to face upward, and when the partition wall 48 is moved upward, the elastic contact pieces 52a and 52b of the contact 44 are respectively outward in the left and right directions by the partition wall 48. It is formed so that it is pressed and opened.
[0057]
Further, the elastic contact pieces 52a and 52b of the contact 44 are formed so as to be bent slightly inward and to have bent portions 52c and 52d so as to be squeezed at the lower portion of the tip portion. Accordingly, the elastic contact pieces 52a and 52b of the contact 44 are pressed outward by the partition wall 48 of the moving plate 45 when the moving plate 45 is pushed upward. By this pressing, the tip ends of the elastic contact pieces 52a and 52b are pushed outward at the bent portions 52c and 52d.
[0058]
Furthermore, lever members 46 are provided in the socket body 42 so as to be pivotable on the left and right. Each lever member 46 is pivotally supported by a rotation shaft 56 at an intermediate position slightly below the middle. A pressing shaft 57 is provided at the upper end of the lever member 46, and an operating shaft 58 is provided at the lower end. A pressing shaft 57 at the upper end of the lever member 46 is formed so as to be able to engage with the cam surface 53 of the pressing cam member 47 of the operating member 43, and the operating shaft 58 at the lower end is a cam of the cam operating portion 49 of the moving plate 45. It is formed so that it can engage with the surface 59.
[0059]
Further, in the lever member 46, the inter-axis distance between the rotation shaft 56 and the pressing shaft 57 is sufficiently larger than the inter-axis distance between the rotation shaft 56 and the operation shaft 58, and the first embodiment is first described. 2, the distance between the axes is selected so that the small force applied to the pressing shaft 57 is enlarged to become the large force applied to the operating shaft 58.
[0060]
Therefore, the operating force acting on the pressing shaft 57 at the upper end of the lever member 46 is increased by the depression of the operating member 43, resulting in a large operating force acting on the operating shaft 58, and a sufficient operating force is obtained by the small depressing action force. The operating force is applied to the operating shaft 58, and the operating force can be reduced.
[0061]
According to the IC socket 40 of the present invention configured as described above, if the operation member 43 is pushed down in the socket free state shown in FIG. 5, the spring member 54 is compressed and pressed by the depression of the operation member 43. The cam surface 53 of the cam member 47 engages with the pressing shaft 57 of the lever member 46 to press the pressing shaft 57 outward. Accordingly, in this embodiment, the lever member 46 is rotated about the rotation shaft 56, and the operation shaft 58 is engaged with the cam surface 59 of the cam operation portion 49 of the moving plate 45 to push the cam surface 59. As a result, the cam operating portion 49 of the moving plate 45 is pushed upward, and the spring member 55 is pulled. Since the partition wall 48 acts to push open the bent portions 52c and 52d of the elastic contact pieces 52a and 52b of the contact 44 outward from the lower side by pushing the moving plate 45 upward, the contact 44 As shown in FIG. 6, the tip portion is opened to the outside and opened.
[0062]
At this time, as described in the first and second embodiments, the lever member 46 has a small force applied to the pressing shaft 57 by the lever principle from the rotating shaft 56 of the lever member 46 to the pressing shaft 57. Corresponding to the ratio between the distance and the distance to the operating shaft 58, the force is expanded to a sufficiently large acting force. As a result, in this embodiment, a large operating force can be obtained with a small operating force, and the operating force can be reduced.
[0063]
Therefore, in this open state shown in FIG. 6, the IC package 50 can be inserted from the opening of the operation member 43 and placed on the contact 44, or the already mounted IC package 50 is taken out. Will be able to.
[0064]
Thus, after the IC package 50 is inserted and mounted or taken out, the pressing of the operating member 43 is stopped to make the operating member 43 free and free. As a result, the operating member 43 is pushed upward by the spring member 54, and at the same time, the moving plate 45 is pulled downward by the spring member 55 of the tension spring. For this reason, the cam surface 59 of the cam operating portion 49 pushes the operating shaft 58 of the lever member 46 outward, so that the lever member 46 is rotated about the rotating shaft 56 and the upper pressing shaft 57. Is moved inward. As a result, the pressing shaft 57 of the lever member 46 moves along the cam surface 53 of the pressing cam member 47 of the operating member 43 that moves up. Eventually, the cam surface 53 of the pressing cam member 47 of the operating member 43 is completely separated from the pressing shaft 57 of the lever member 46, and the movable plate 45 returns to the free state of FIG.
[0065]
Thus, in the IC socket 40 for the ball grid array type IC package 50 of the present invention, the novel configuration including the lever member 46 that moves the moving plate 45 for opening the contact 44 upward is provided. Thus, the operating force can be suitably reduced by the lever member 46 utilizing the lever principle.
[0066]
Example 4
7 and 8 are schematic explanatory views showing an embodiment 4 of an IC socket as an electronic component socket according to the present invention. FIG. 7 is a central longitudinal sectional view of the IC socket in a free state, that is, in a closed state. FIG. 8 is a central longitudinal sectional view of the IC socket of FIG. 7 in a full stroke state, that is, in an open state.
[0067]
As shown in FIGS. 7 and 8, the IC socket 60 as the electronic component socket according to the fourth embodiment of the present invention is a sandwich-type contact in which an IC package 70 as an electronic component is mounted to form an electrical connection. 64 is an open top type IC socket. However, in the fourth embodiment, the moving plate 65 is pushed up to open the contact 64, which is different from the first and second embodiments, and the operating direction of the moving plate 65 is upside down. The basic configuration is substantially the same as that of the first, second, and third embodiments. Furthermore, in addition to this, the relay member 61 is newly added between the cam surface 79 of the cam operating portion 69 of the moving plate 65 and the operating shaft 78 of the lever member 66. It is different from three.
[0068]
The IC socket 60 according to the fourth embodiment of the present invention includes a socket body 62 and an operation member 63 that is elastically supported by the plurality of spring members 74 so as to move up and down with respect to the socket body 62. Yes. Further, the IC socket 60 has a plurality of sandwiched contacts 64 that are fixed to the socket main body 62 at the base end and form an electrical connection with the mounted IC package 70. Further, the IC socket 60 is provided in the socket body 62 so as to be elastically supported by a plurality of spring members 75 such as tension coil springs so as to move up and down, and to be rotatable in the socket body 62. And a lever member 66. The moving plate 65 is provided with a grid-like or comb-like partition wall 68 and a cam operating portion 69. Furthermore, the IC socket 60 is provided with a relay member 61 between the cam surface 79 of the cam operating portion 69 of the moving plate 65 and the operating shaft 78 of the lever member 66.
[0069]
In such an IC socket 60 of the present invention, the socket main body 62 has a box shape, and a plurality of sandwiching contacts 64 are fixed to the bottom portion at the base end portion, and the IC package 70 is mounted. The spherical or hemispherical external terminal 71 is electrically connected. An operation member 63 is elastically supported on the upper portion of the socket body 62 by a plurality of spring members 74 such as coil springs so as to be movable up and down. Further, a flat and wedge-shaped pressing cam member 67 is provided on the bottom surface of the operation member 63 so as to hang downward, that is, protrude. Therefore, the contact 64 is opened as will be described later by pushing the operating member 63 downward.
[0070]
In such an IC socket 60 of the present invention, the contact 64 includes a pair of elastic contact pieces 72a and 72b. These elastic contact pieces 72a and 72b are fixed to each other at the bottom of the socket body 62 at the base end so as to extend substantially in parallel upward. Between the elastic contact piece 72a and the elastic contact piece 72b, a grid-like or comb-like partition wall 68 of the moving plate 65 is disposed so that the elastic contact pieces 72a and 72b are isolated from each other. Has been.
[0071]
In addition, the grid-like or comb-like partition wall 68 of the moving plate 65 is formed so that the cross-sectional shape is an elongated triangle or a wedge shape, and the tip is directed upward. Thereby, when such a partition wall 68 is moved upward, the elastic contact pieces 72a and 72b of the contacts 64 are pressed outward in the left and right directions by the partition wall 68 so as to be opened. Is formed.
[0072]
Further, these elastic contact pieces 72a and 72b of such a contact 64 are formed so as to be bent slightly inward and to have bent portions 72c and 72d so as to be squeezed at the lower portion of the tip portion. . Therefore, the elastic contact pieces 72a and 72b of the contact 64 are pressed outward from the lower side by the partition wall 68 of the moving plate 65 when the moving plate 65 is pushed upward. As a result, the elastic contact pieces 72a, 72b are pushed open toward the outside at the bent portions 72c, 72d, respectively.
[0073]
Furthermore, lever members 66 are provided in the socket body 62 so as to be pivotable to the left and right. Each lever member 66 is pivotally supported by a rotation shaft 76 at a middle position somewhat below the middle, and a pressing shaft 77 is provided at the upper end. An operating shaft 78 is provided at the lower end of the lever member 66, and the pressing shaft 77 at the upper end is formed so as to be able to engage with the cam surface 73 of the pressing cam member 67 of the operating member 63. The operating shaft 78 at the lower end of the lever member 66 is formed so as to be able to engage with the cam surface 79 of the cam operating portion 69 of the moving plate 65 via the relay member 61.
[0074]
Further, the lever member 66 is formed such that the distance between the rotation shaft 76 and the pressing shaft 77 is sufficiently larger than the distance between the rotation shaft 76 and the operation shaft 78. Accordingly, as described in the first to third embodiments, the operating force applied to the pressing shaft 77 is greatly enlarged by the lever principle so that the operating force applied to the operating shaft 78 is increased. It is formed so that the distance is selected.
[0075]
Accordingly, when the operating member 63 is pushed down, the acting force applied to the pressing shaft 77 at the upper end of the lever member 66 is increased, and a large operating force is applied to the operating shaft 78. As a result, a sufficient actuating force is applied to the actuating shaft 78 by the small depressing action force, and the operating force can be reduced.
[0076]
According to the IC socket 60 of the present invention configured as described above, the operation member 63 is pushed downward in the socket free state shown in FIG. When the operating member 63 is pushed down, the spring member 74 is compressed and the cam surface 73 of the pressing cam member 67 engages with the pressing shaft 77 of the lever member 66 to push the pressing shaft 77. As a result, the lever member 66 is rotated about the rotation shaft 76, and the operating shaft 78 is engaged with the cam surface 79 of the cam operating portion 69 of the moving plate 65 via the relay member 61. Press 79. As a result, the cam operating part 69 is pushed upward, and the spring member 75 is pulled. By pushing the moving plate 65 upward, the partition wall 68 acts to push open the bent portions 72c and 72d of the elastic contact pieces 72a and 72b of the contact 64 outward from the lower side. As a result, the contact 64 is in an open state in which the tip is opened outward as shown in FIG.
[0077]
At this time, in the lever member 26, as described in the first to third embodiments, a small force applied to the pressing shaft 77 by the lever principle is applied from the rotating shaft 76 of the lever member 66 to the pressing shaft 77. Corresponding to the ratio between the distance and the distance to the operating shaft 78, the force is expanded to a sufficiently large force. As a result, in this embodiment, a large operating force can be obtained with a small operating force, and the operating force can be reduced.
[0078]
Furthermore, by inserting the relay member 61 between the cam operating portion 69 of the moving plate 65 and the operating shaft 78 of the lever member 66, the vertical displacement amount of the moving plate 65 can be changed. By appropriately selecting the size and shape of the member 61, it is possible to determine the amount of displacement of the moving plate 65 as required.
[0079]
Therefore, in this open state shown in FIG. 8, the IC package 70 can be inserted from the opening portion of the operation member 63 and placed on the contact 64, or the already mounted IC package 70 is taken out. Will be able to.
[0080]
Thus, after the IC package 70 is inserted and mounted or taken out, the pressing of the operation member 63 is stopped to make the operation member 63 free. Thereby, the operation member 63 is pushed upward by the spring member 74, and at the same time, the moving plate 65 is pulled downward by the spring member 75 such as a tension spring. For this purpose, the cam surface 79 of the cam operating portion 69 pushes the operating shaft 78 of the lever member 66 outward through the relay member 61. As a result, the lever member 66 is rotated about the rotation shaft 76, and the pressing shaft 77 at the upper end is moved inward, along the cam surface 73 of the pressing cam member 67 of the operating member 63 that rises. Move. Eventually, the cam surface 73 of the pressing cam member 67 of the operating member 63 is completely separated from the pressing shaft 77 of the lever member 66 and returns to the free state of FIG. 7 where the moving plate 65 is pulled downward.
[0081]
As described above, in the IC socket 60 for the ball grid array type IC package 70 of the present invention, the lever member 66 for moving the moving plate 65 for opening the contact 64 and the lever member 66 are engaged. Accordingly, a new configuration including the relay member 61 and the like that can change the vertical displacement amount of the moving plate 65 is obtained, and the operating force can be suitably reduced by the lever member 66 using the lever principle.
[0082]
Thus, in the IC socket of the present invention, the contact is a double-opening sandwiching type, both of which can be opened with the same amount of displacement, the amount of displacement per elastic contact piece of the contact can be halved, and the operation member With a small acting force that pushes down, a large operating force can be obtained through the lever member using the lever principle of the lever member, the operating force can be suitably reduced, the stress is reduced and the life is extended.
[0083]
Therefore, in the IC socket of the present invention configured as described above, the opening / closing operation of the contact can be easily performed, the contact can be satisfactorily brought into contact with the external contact of the IC package, and the moving plate can be separated by being opened. It can be performed well, and the IC package can be easily taken out, the efficiency of the mounting operation can be improved, and the life can be extended by improvement.
[0084]
【The invention's effect】
  As described above, the IC socket according to claim 1 of the present invention includes an operation member that can move up and down, a plurality of sandwiched contacts that form an electrical connection with the mounted IC package, and the contacts An IC socket having a socket body fixed and a moving plate for opening and closing the contact has a lever member for moving the moving plate up and down by the operating member to open and close the contact. By applying the lever principle, operation force can be reduced, stress can be reduced, and life can be extended.
  Further, in the IC socket according to claim 1 of the present invention, the relay member is provided between the lever member and the cam operating portion of the movable plate. The amount of vertical displacement can be effectively changed, and can be suitably manufactured with an additional simple configuration of the relay member.
  Furthermore, the IC socket according to claim 1 of the present invention isThe lever member is pivotally supported near the middle lower end, and is formed so that the upper end engages with the pressing cam member of the operation member and the lower end engages with the relay member. The principle of Choshi can be used effectively.
[0086]
  Claims of the invention2In the described IC socket, the lever member is rotated by the vertical movement of the operation member, and the movable plate is moved up and down via the cam operating part to open and close the contact, so that the principle of cam action and lever is useful. Can be used in combination, and can be manufactured in a simple configuration.
[0087]
  Claims of the invention3In the described IC socket, since the grid-like partition wall of the moving plate is disposed between the elastic contact pieces, the contact can be opened and closed easily and satisfactorily.
[0088]
  Claims of the invention4The described IC socket is formed so that the elastic contact piece of the contact is bent slightly inward and is pushed and spread by the partition wall of the moving plate. Can be operated.
[0089]
  Claims of the invention5Since the IC socket described is arranged with the partition wall of the moving plate sandwiched between the elastic contact pieces, the elastic contact piece of the contact can be effectively opened and closed by the moving plate, and is easily manufactured. be able to.
[0090]
  Claims of the invention6 orIn the IC socket according to 7, the lever member is rotated by pushing down the operation member,Relay memberThrough the moving plateAbove orSince it is moved downward, the contact can be suitably opened and closed by a useful combined action of the cam mechanism and the lever mechanism.
[Brief description of the drawings]
FIG. 1 is a central longitudinal sectional view of an IC socket as a socket for electronic parts according to the first embodiment of the present invention in a free state, that is, in a closed state.
FIG. 2 is a central longitudinal sectional view of the IC socket of the present invention of FIG. 1 in a full stroke state, that is, in an open state.
FIG. 3 is a central longitudinal sectional view of the IC socket according to the second embodiment of the present invention in a free state, that is, in a closed state.
4 is a central longitudinal sectional view of the IC socket of the present invention of FIG. 3 in a full stroke state, that is, in an open state.
FIG. 5 is a central longitudinal sectional view of the IC socket according to the third embodiment of the present invention in a free state, that is, in a closed state.
6 is a central longitudinal sectional view of the IC socket of the present invention of FIG. 5 in a full stroke state, that is, in an open state.
FIG. 7 is a central longitudinal sectional view of the IC socket according to the fourth embodiment of the present invention in a free state, that is, in a closed state.
8 is a central longitudinal sectional view of the IC socket of the present invention of FIG. 7 in a full stroke state, that is, in an open state.
[Explanation of symbols]
1 IC socket
2 Socket body
3 Operation members
4 Contact
5 Moving plate
6 Lever member
7 Pressing cam member
8 Partition wall
9 Cam actuator
10 IC package
11 External terminal
12a Elastic contact piece
12b Elastic contact piece
12c bent part
12d bent part
14 Spring member
15 Spring member
16 Rotating shaft
17 Press shaft
18 Actuating shaft
19 Cam surface
20 IC socket
21 Relay member
22 Socket body
23 Operation members
24 contacts
25 Moving plate
26 Lever member
27 Pressing cam member
28 partition wall
29 Cam actuator
30 IC package
31 External terminal
32a Elastic contact piece
32b Elastic contact piece
32c bent part
32d bent part
34 Spring member
35 Spring member
36 Rotating shaft
37 Pressing shaft
38 Operating shaft
39 Cam surface
40 IC socket
42 Socket body
43 Operating members
44 contacts
45 Moving plate
46 Lever member
47 Pressing cam member
48 partition wall
49 Cam actuator
50 IC package
51 External terminal
52a Elastic contact piece
52b Elastic contact piece
52c bent part
52d bent part
54 Spring member
55 Spring member
56 Rotating shaft
57 Pressing shaft
58 Operating shaft
59 Cam surface
60 IC socket
61 Relay member
62 Socket body
63 Operation member
64 contacts
65 Moving plate
66 Lever member
67 Pressing cam member
68 partition wall
69 Cam actuator
70 IC package
71 External terminal
72a Elastic contact piece
72b Elastic contact piece
72c bent part
72d bent part
74 Spring member
75 Spring member
76 Rotating shaft
77 Press shaft
78 Actuating shaft
79 Cam surface

Claims (7)

An operation member capable of moving up and down, a plurality of sandwiched contacts that form an electrical connection with the mounted IC package, a socket body on which the contacts are fixed, and a moving plate that opens and closes the contacts In IC socket,
A lever member and a relay member for moving the moving plate up and down by the operation member to open and close the contact ;
The relay member is provided between the lever member and the cam operating portion of the movable plate,
The lever member is pivotally supported near an intermediate lower end, and is formed such that an upper end engages with a pressing cam member of the operation member and a lower end engages with a relay member. IC socket. 2. The IC socket according to claim 1, wherein the lever member is rotated by a vertical movement of the operation member to open and close the contact by moving the movable plate up and down via a cam operating portion. 2. The IC socket according to claim 1, wherein the contact is provided with a grid-like partition wall of the moving plate between a pair of elastic contact pieces. 4. The IC socket according to claim 3, wherein the elastic contact piece of the contact is bent into a slightly squeezed shape on the inner side and formed so as to be spread by the partition wall of the moving plate. 4. The IC socket according to claim 3, wherein a partition wall of the moving plate is interposed between the pair of elastic contact pieces. 2. The IC socket according to claim 1, wherein the lever member is rotated by pushing down the operation member, and the moving plate is moved upward via the relay member. 2. The IC socket according to claim 1, wherein the lever member is rotated by pushing down the operation member, and the moving plate is moved downward via the relay member .

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