TW200849746A - Socket and inspection apparatus using the same - Google Patents

Abstract

An object of this invention is to provide a socket capable of preventing two connection objects from being damaged when these connection objects are set to the socket and an inspection apparatus using the socket. According to this invention, a movable frame 3 is movably held on a base frame 2 via a coil spring (not shown). A lever 6 is attached to a cover 4 to be rotatable around a shaft 7 and urged by a coil spring 8 to be rotated counterclockwise. The lever 6 has an end portion 6a to be engaged with a step portion 2a of the base frame. In the engaged state, the cover 4 is kept in the rotated state. A device 26 is stored in a device receiving groove of the movable frame. The cover has a pressing portion 4a for bringing the device into press contact with a connector 24 disposed in (the inside of) the base frame.

Description

[Technical Field] The present invention relates to a socket for elastically connecting two connection objects and an inspection apparatus using the same. [Prior Art] A conventional socket in which two connection objects are elastically connected to each other is disclosed in Japanese Patent Laid-Open Publication No. Hei 6-140113. Regarding the conventional 1C socket, the above-mentioned r-'k publication issued before the present application is referred to with reference to Fig. 8. As shown in FIG. 8, the 1C socket 40 includes a socket substrate 41. The socket substrate 41 is formed of an insulating material in a square shape. A space 42 as a square window is formed in a central portion of the socket substrate 41. The 1C mounting table 44 is housed in the space 42 in a state where it can be raised and lowered by the coil spring 45. A positioning wall 44a and a plurality of positioning holes 44b are formed in the upper portion of the 1C mounting table 44. A pair of engaging legs 44c are formed on the lower portion of the 1C mounting table 44. A hook portion 44cl is formed at the front end of each of the engaging legs 44c, and the hook portion 44cl is elastically engaged with the segment portion 41a of the socket substrate 41. The coil spring 45 is wound around a pair of engaging legs 44c. A plurality of joints 43 respectively corresponding to the terminals 47 of the 1C package 46 to be described later are disposed on one or both sides of the socket substrate 4 1 as one connection object. The front end of each of the joints 43 bent is inserted into each of the positioning holes 44b. A 1C package pressing cover 48 is provided above the socket substrate 41, and a 1C pressing portion 48a is provided on the inner surface of the 1C sealing cover 48. 200849746 Here, a procedure in which a 1C package 46 as one connection object is inserted into a 1C socket' to be connected to a joint 43 as another connection object will be described. First, the 1C package 46 is inserted into the 1C mounting table 44 along the positioning wall 44a in the direction of the arrow. The bottom surface of the inserted 1C package 46 abuts against the inner surface 44d of the 1C mounting table 44. At this time, the terminals 47 of the 1C package 46 are opposed to each other at the front end portion 43a of each of the joints 43. Thereafter, when the pressing cover 48 is moved in the direction of the arrow, the pressing portion 48a of the 1C package pressing cover 48 presses the upper surface of the 1C package 46. The terminals 47 of the pressed 1C package 46 are: [The front end portion is in elastic contact with the front end portion 43a of each of the joints 43. In this way, the 1C socket 40 elastically connects the IC package 46 (the terminal 47) as one connection object to the joint 43 as one connection object. In the conventional 1C socket 40, when the 1C package 46 is inserted into the IC mounting table 44, the front end of each terminal 47 of the 1C package 46 is disclosed. The front end portion 43a of each of the joints 43 of the socket substrate 41 is strongly struck. Therefore, at least one of the front end portion of each of the terminals 47 or the front end portion 43a of each of the connectors 43 may be damaged by the impact at the time of impact. Accordingly, the present invention provides a modification of the above-mentioned conventional 1C socket. In any of the above, the third and the movable structure are additionally pressurized by the pressurization of the object portion 3c. When the two connected objects are placed in the socket of the 200849746 socket, the socket that prevents the two connected objects from being damaged and the inspection device using the socket are prevented. In order to solve the above problems, the present invention adopts the following measures. 1 . A base member 2 in which a connection object 24 is connected to the socket and a connection object 24 is disposed at a predetermined position, and the connection member 24 and 26 are connected to each other. a seat member, a movable member for accommodating the other connection object 26 is rotatably held by the pressing member 4 of the base member; the foregoing member is capable of imparting potential energy at a predetermined position by the elastic member 10, and has One connection object 26 is housed in the accommodating portion 3a at a predetermined position, and the member has a pressurizing portion 4a that presses the other connection object, and the pressing member is operated to oppose the potential energy of the elastic member, and the member will The other connection object is pressurized to connect the two connection pairs. 2. The socket according to the above 1, wherein the pressing member has a predetermined length 4a, and the movable member has a positioning portion that engages with the positioning portion, and when the pressing member is operated, the positioning portion is positioned and engaged with the positioning portion. In the socket described in the above 1, the one of the base member or the front member is provided with a key 2d, and the other member is provided with the other member. The aforementioned keyway 3d. 4. An inspection apparatus using any of the above 1, 2 or 3 sockets. As apparent from the description of the specification, the present invention exerts the following effects. 200849746 1. Since the movable member is movably held by the base member due to the presence of the elastic member, it is possible to prevent the two connected objects from being severely hit. 2. Since the pressing member has the positioning portion, the movable member has the positioned portion that engages with the positioning portion, so that the integration of the pressing member and the movable member can be improved. 3. Since one of the base member or the movable member is provided with a key, and the other is provided with a key groove that engages with the key, the two connection objects can be appropriately connected. 4. Since the inspection device has one, two or three sockets, it can prevent the connection between the connection portion of the inspection object and the socket from being severely hit when the inspection is performed. [Embodiment] A socket according to an embodiment of the present invention will be described. [First Embodiment] First, the outline of the socket 1 will be briefly described with reference to the perspective views shown in Fig. 1. Here, the socket 1 is a socket for inspecting an inspection device for a device 26 such as a connection object or a connector for FPC ~ (Flexible Printed Circuits). As shown in FIG. 1(A), the socket 1 includes a substrate 21. A frame-like base frame 2 on which a connector 24 (described later) of another connection object is placed is mounted on the substrate 2 1 . The movable frame 3 is held by the base frame 2 in a state of being movable in the vertical direction. At the both end portions of the movable frame 3, a pressing portion to be positioned and a positioning portion 3c having a concave shape of the portion of the spring 200889746 portion 4a are provided. In the movable frame 3, a device housing groove 3a in which the device 26 as one object to be connected is disposed is formed. The substrate 21 is supported on the base plate 22. The cover 4 is hinged 5 to be rotatable about 90. The state is attached to the base frame 2' by about 90 degrees to the left from the state of the first (A). (Rotate in the direction of F1), it is in the state of the first (B). The convex portion of the cymbal 4 facing the movable frame 3 is provided with a convex pressing portion and positioning portion 4a that is in contact with the positioned portion 3c. A rod 6 that engages with the base frame 2 is provided on the cover 4. Further, behind the cover 4, an I/O connector 23 is provided on the substrate 21. Next, each structural member of the socket 1 will be described in more detail with reference to Figs. 1 to 5 . First, the details of the construction of the base frame 2 and the movable frame 3 will be described. As shown in Fig. 1(A), the base frame 2 is fixed to the base plate 22 by the six screws 9 penetrating the base plate 21. As shown in the second (A) and second (B) diagrams, four coil springs 10 are provided in the vicinity of the positioned portion 3c of the movable frame 3 (two of which are not shown). The movable frame 3 is held by the base frame 2 in a state where it can be moved in the vertical direction by the coil spring 10. The details of the structure in the vicinity of the coil spring 10 will be described later. The movable frame 3 is movable relative to the base frame 2 by a gap amount in both the X direction and the Y direction in Fig. 3 . 200849746 On the other hand, as shown in the first (C) and the first (D), the predetermined position (below the device housing groove 3a) of the base frame 2 (in the frame) is arranged as one connection object. Connector 24. As shown in Fig. 4(A) and Fig. 4(B), the connector 24 is connected to the device 26 as one object to be inspected. Further, the connector 24 can be connected to an inspection device (not shown) by an I/O connector 23 or the like. Next, the configuration of the cover 4 will be described. r ^ As shown in Figs. 1(A) and 3, the cover 4 is attached to the end of the base frame 2 by the hinge 5 so as to be rotatable in the range of about 90°. As shown in Fig. 3, the hinge 5 is composed of a shaft 5a and a coil spring 5b. The cover 4 is given a potential energy by the coil spring 5b, and is rotated to the right with the shaft 5a as a fulcrum (toward the direction F2 of Fig. 4). On the other hand, as shown in Fig. 4(C), the lever 6 is attached to the cover 4 in a state where the lever 7 is pivoted in the direction of F1 and F2. A coil spring 8 is disposed between the rod 6 and the cover 4, and the rod 6 is biased by the coil spring 8 and rotated to the left (rotating in the direction of F1). As shown in Fig. 4(C), the front end portion 6a of the rod 6 has a hook shape, and the base portion 2 is provided with a segment portion 2a. Therefore, in the state shown in Fig. 4(C), the front end portion 6a of the rod 6 is engaged with the segment portion 2a of the base frame 2. In this state, the front end portion 6a is engaged with the segment portion 2a to prevent the cover 4 from rotating in the direction of F2. Therefore, the state shown in Fig. 4(C) is maintained, and the device 26 as one connection object is provided. As shown in the second (C)-10-200849746, the device housing groove 3a accommodated in the movable frame 3. When the device 26 is housed in the movable frame 3, the pressurizing portion and positioning portion 4a of the cover 4 is in the state shown in Fig. 4(C), as shown in Figs. 4(A) and 4(B). The device 26 is crimped to a connector 24 disposed within the frame of the base frame 2. Next, the structure of the base frame 2 and the vicinity of the coil spring 10 of the movable frame 3 will be described in more detail with reference to Figs. 1 to 7 . As shown in FIGS. 6(A) to 6(D), in the susceptor frame 2, four pairs of protruding portions 2b and recesses 2c are formed in the vicinity of the positioned portion 3c. On the other hand, in the movable frame 3 The concave portion 3b is formed at a position facing each of the four protruding portions 2b and the concave portion 2c. Each of the coil springs 10 is housed in each of the protruding portions 2b and accommodated in each of the concave portions 2c to cover each of the concave portions 3b. When the cover 4 is closed In the state of the figure (B), the pressing portion and the positioning portion 4a of the lid 4 pressurize the positioned portion 3c of the movable frame 3. Thus, in the state of the first (B) diagram, the movable frame 3 compresses each The screw k turns the spring 10 and approaches the base frame 2. On the other hand, the movable frame 3 in the state of the first (A) is not pressed by the pressing portion and the positioning portion 4a, but as shown in Fig. 7, Each of the coil springs 10 is expanded away from the base frame 2. That is, the movable frame 3 can be attached to the connector 24 disposed on the base frame 2 by the coil springs 10 and the pressurizing portion and the positioning portion 4a. The distance Η in the fifth frame (D) is moved in the vertical direction in the base frame 2. Further, the pressing portion and the positioning portion 4a of the cover 4 can be opposite to the body of the cover 4, -11-200849746 The X direction and the Y direction of the third figure are slightly moved. Further, the movable frame 3 can slightly move the gap with respect to the base frame 2. Therefore, by providing the positioned portion 3c to the movable frame 3, the movable frame 3 and the cover can be realized. Further, as shown in Fig. 3, a key 2d is provided on the base frame 2, and a key groove 3d that is engaged with the key 2d is provided in the movable frame 3. Therefore, the movable frame 3 can be opposed to the key frame 3d. The base frame 2 is moved at a predetermined position. Therefore, the connector 24 and the device 26 can be appropriately connected. Here, the procedure of the device 26 when the socket is attached or detached will be described. First, referring to Fig. 1 Fig. 7 is a view showing a procedure for mounting the device 26 to the socket. First, the cover 4 is in the state of Fig. 1 (A). Further, when the external force does not particularly act on the cover 4, the cover 4 is the aforementioned The coil spring 5b is in the state of the first (A). The device 26 is housed (installed) in the device housing groove 3a of the movable frame 3 (see Fig. 2). The frame 3 is held by the coil spring 1 〇 'the movable frame 3 is separated from the base frame by the coil spring 10, Therefore, the device 26 does not come into contact with the connector 24 when it is stored. Therefore, when the device 26 is placed in the socket 1, it can prevent damage to any of the device 26 and the connector 24. When the device 26 is housed, The cover 4 is rotated to the left by about 90° (rotating in the direction of F1 of FIGS. 1-12 to 200849746). When the cover 4 is rotated to the left, the pressing portion and the positioning portion 4a and the positioned portion 3c of the movable frame 3 are The contact is engaged and pressurized. The pressurized movable frame 3 compresses the respective coil springs 1 〇 and receives the reaction of the coil springs 10 and slowly descends. When the movable frame 3 is lowered, as shown in the fourth (A), (B) diagram, the connector 24 is crimped to the device 26, and the two are electrically connected. At this time, as shown in Fig. 4(C), the front end portion 6a of the rod 6 of the cover 4 is engaged with the segment portion 2a of the base frame 2. When the front end portion 6a is engaged with the segment portion 2a, as shown in Fig. 4(C), the state in which the connector 24 and the device 26 are crimped is maintained. In this way, the connector 24 is electrically connected to the device 26 to maintain the connected state. Next, the case where the device 26 is taken out from the state of the fourth (C) diagram will be described. First, the lever 6 of the cover 4 is rotated to the right (the direction of F2 in Fig. 4) to release the engagement between the distal end portion 6a and the segment portion 2a of the base frame 2. When the engagement is released, the coil spring 5b (see Fig. 3) rotates the cover 4 to the right (direction F2). When the cover 4 is rotated to the right (direction of F2), the pressing portion and the positioning portion 4a are away from the positioned portion 3c, so that the movable frame 3 is released from the pressed state. When the pressed state is released, each of the coil springs 10 is expanded, the movable frame 3 is away from the base frame 2, and the socket 1 is in the state of Fig. 2 . Finally, in the state of Fig. 2, the device 200849746 is taken out from the device storage groove 3a. As described above, according to the present embodiment, the socket 1 has the base frame 2 on which the connector 24 is disposed and the movable frame 3 of the holding device 26, and the movable frame 3 is held by the base frame 2 by the coil spring 10 so as to be movable up and down. Therefore, when the device 26 is mounted on the socket 1 (movable frame) 3, the connector 24 does not come into contact with the device 26, and the two can be prevented from being damaged. By mounting the socket 1 to the inspection device of the device 26, the connector 24 does not come into contact with the device 26 when the device 26 is inspected, and the damage of both can be prevented. The present invention has been described above based on the above embodiments, and the present invention is not limited thereto. For example, in the present embodiment, although the key 2 d is provided in the base frame 2, the key groove 3d that engages with the key 2d is provided in the movable frame 3, but it may be modified to provide the key to the movable frame 3, and the keyway is set. On the base frame 2. It is also possible to change the design to interchange the positioning portion with the positioned portion. / Further, the pressing portion and the positioning portion 4a can also press the device 26 and the movable frame

I frame 3 both. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a socket according to a first embodiment of the present invention, and FIG. 1(A) is a perspective view showing a state in which the socket 1 is mounted on a substrate, and FIG. 1(B) shows a cover. 4 A perspective view rotated 90° to the left from the position of the 1st (A) diagram (rotated in the direction of F1 in Fig. 1), and the 1st (C) diagram is displayed in the direction of the arrow to view the section of the 1st (A) diagram. A perspective view of A1-A1, the first (D) is a partially enlarged perspective view of the-14-200849746 centered on the connector 24 at the center of the front side of the first (C) diagram. Fig. 2 is a perspective view showing a cross section of a main portion of a socket 1 according to a first embodiment of the present invention, and Fig. 2(A) is a perspective view showing a section A2-A2 of the first (A) diagram in the direction of an arrow, 2nd (B) The figure is a partial enlarged view of the coil spring 10 of the movable frame 3 of FIG. 2(A), and the second (C) diagram is attached to the connector 24 of the 2nd (A) figure in the direction of the arrow. A perspective view of a section A3-A3 in the vicinity of the device (the connector attached to the FPC, etc.) 26 of the inspection object. f - k Fig. 3 is a plan view showing a portion of the cover 4 of the socket 1 in the first (B) diagram. 4 is a cross-sectional view of the socket 1 of the first embodiment of the present invention, and FIG. 4(A) is a view showing a section DD of the 4th (C) diagram in the direction of the arrow, and the 4th (B) diagram 4(A) is a magnified view of the frame in the frame, the 4th (C) is in the direction of the arrow to see the section BB in Figure 3, and the 4th (D) is shown in the 4th (C) A magnified view of the circle. Figure 5 is a cross-sectional view of the socket 1 of the first embodiment of the present invention, and Figure 5 (A) is shown in the direction of the arrow to view the section DD of Figure 4 (C) (where the cover 4 is from the 4th (C) The state of the graph is in the state of being rotated in the direction of F2, that is, the state of the first (A) diagram, and the fifth (B) diagram is showing the enlargement in the frame of the frame of the fifth (A) and the figure. Fig. 5(C) shows the section BB of Fig. 3 in the direction of the arrow (where the cover 4 is in the state of the first (A)), and the fifth (D) shows the fifth (C). An enlarged picture within the circle of the figure. Fig. 6 is a cross-sectional view showing the socket 1 of the first embodiment of the present invention, and Fig. 6(A) is a view showing the section EE of the sixth (C) diagram in the direction of the arrow, -15-200849746. The figure shows the enlarged view in the frame of the frame of Figure 6(A), and the figure 6(C) shows the section c_c of Figure 3 in the direction of the arrow, and the figure 6(D) shows An enlarged view of the circle in Figure 6(c). Figure 7 is a cross-sectional view of the socket 1 of the third embodiment of the present invention, and Figure 7 (A) is shown in the direction of the arrow to view the section EE of Figure 6 (C) (where 'the cover 4 is the first (a) In the state of the figure, the 7th (B) diagram shows an enlarged view of the frame in the frame of Figure 7(A), and the 7th ((:) diagram is displayed in the direction of the arrow to see Figure 3. Section CC (where the cover 4 is in the state of the 1st (A) f % diagram), and the 7th (D) diagram shows an enlarged view in the circle of the 7th (C) diagram. Figure 8 is a conventional 1C socket. Cross-section of the main part of 40. [Main component symbol description] 1 Socket 2 Base frame (base member) 2a Segment 2b Projection 2c Recess 2d Key 3 Movable frame (movable member) 3 c Positioned portion 4 Cover (pressurizing member) 4 a Pressurizing part pressurizing part and positioning part 5 Hinge 6 rod-16- 200849746 6 a Front end part 7 Shaft 8 Coil spring 9 Screw 10 Coil spring 21 Substrate 22 Base plate 23 I/O Connector 24 connector 26 device

Claims (1)

200849746 X. Patent application scope: 1 . A socket for connecting a socket between two connected objects, characterized in that: one of the two connection objects is connected; the base member is disposed at a predetermined position a connection object; the movable member movably held by the base member for accommodating another connection object among the two connection objects; and the pressing member rotatably held by the base a member; the movable member normally imparts potential energy at a predetermined position by the elastic member, and has a housing portion for housing the other connection object at a predetermined position, and the pressing member has the other connection object The pressurizing portion pressurizes against the potential of the elastic member by operating the pressing member, and the pressing member pressurizes the other connecting object to connect the two connecting objects. [2] The socket of claim 1, wherein the pressing member has a positioning portion, and the movable member has a positioned portion that is engaged with the positioning portion. When the pressing member is operated, the positioning portion is The positioned portion is engaged, and one of the movable member or the pressing member is positioned to the other one. 3. The socket of claim 1, wherein one of the base member or the movable member is provided with a key, and the other is provided with a key groove that engages with the aforementioned key. -18- 200849746 4. An inspection apparatus characterized by using the socket of any one of the above-mentioned claims, item 1, item 2 or item 3. (