JP4251920B2 - Socket for electrical parts - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electrical component socket including a component presser member that presses an electrical component, and more specifically, includes a flexure suppression protrusion that faces the inner side surface of each flexible leg formed on the component presser member. By projecting, the present invention relates to an electrical component socket that attempts to ensure the stable operation of the component pressing member as well as the ease of assembly work.
[0002]
[Prior art]
Conventionally, in this type of socket for electrical parts, a mounting part for mounting the electrical part is provided in the socket body part, and a latch member for pressing the electrical part is rotatable to the socket body part on both sides of the mounting part. In addition, there is a structure in which a plurality of contact pins that can contact a terminal of an electrical component are disposed in the mounting portion corresponding portion of the socket main body portion. As shown in FIG. 14, for example, the latch member 1 is formed with a pressing portion 1b for pressing an electric component on the main body 1a and a rotating shaft 1c integrally formed outward from the main body 1a. Protruding. On the other hand, the socket body 2 is formed with a holding recess 2b that rotatably holds the rotating shaft 1c inserted from the opening 2a, and is formed at one side in the orthogonal direction of the rotating shaft 1c. Thus, a locking piece 2d having a locking claw 2c is formed facing the rotating shaft portion 1c, and the locking piece 2d is inserted when the rotating shaft portion 1c is inserted from the opening 2a of the holding recess 2b. In the state shown in the figure, the spring receiving portion 1d of the latch member 1 is urged upward by a spring member not shown in the drawing after being elastically deformed in the direction of the arrow P and the insertion is completed, and the rotating shaft portion 1c is engaged with the locking claw 2c. To prevent the pivot shaft 1c from coming out of the holding recess 2b (see, for example, Patent Document 1).
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 2003-7416
[Problems to be solved by the invention]
However, in such a conventional socket for electrical components, in order to increase the pressing force for pressing the electrical component with the latch member 1, when the elastic force of the spring member that biases the latch member upward is increased, Due to the elastic force of the spring member, a strong upward force is applied to the rotating shaft portion 1c, and the rotating shaft portion 1c may spread the locking piece 2d in the direction of arrow P in FIG. 14 and come out of the holding recess 2b. is there.
[0005]
Further, in order to improve the assembly workability of the latch member 1 with respect to the holding recess 2b of the socket body 2, the pair of legs 1e are formed from the lower end to the vicinity of the upper end as shown in FIG. A latch member 1 having a configuration in which a rotation shaft portion 1c protrudes outward from a substantially central portion of each leg portion 1e is conceivable. Such a latch member 1 presses the leg portion 1e from the left and right directions as shown by arrows Q and R in FIG. 16 to bend inward, and the dimension L between both ends of the rotating shaft portion 1c shown in FIG. After being compressed so as to be smaller than the width W of the opening 2a of the holding recess 2b formed in the socket body 2 shown in FIG. 16, it is inserted into the opening 2a from above. Thereafter, when the pressure from the left and right directions on the leg 1e is released , the leg 1e returns to the original state. At this time, when the spring receiving portion 1d is urged by a spring member (not shown) in the direction of arrow S in FIG. 17, the latch member 1 rotates by locking the rotation shaft portion 1c with the upper side surface 2e of the holding recess 2b. It is held freely. However, even in such a latch member 1, when the elastic force of the spring member is increased, the end of the rotation shaft portion 1c is locked to the upper side surface 2e of the holding recess 2b. Due to the upward biasing force, an inward force is generated in the leg 1e, and the leg 1e is bent inward. As a result, the latch member 1 may come out of the holding recess 2b in the same manner as shown in FIG. In addition, when it is used in a state where it is partially pulled out, there is a risk that the leg 1e is damaged by a twisting force.
[0006]
SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an electrical component socket that addresses such problems and attempts to ensure stable operation of the component pressing member together with ease of assembly work.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, an electrical component socket according to the present invention includes a socket body portion for placing and holding an electrical component on a placement portion, and a plurality of planting portions corresponding to the placement portion of the socket body portion. A contact pin, a component holding member that pivots and pivots on the socket main body and presses the electric component placed on the mounting portion to ensure contact between the terminal of the electric component and the contact pin, and the socket main body portion And an operation member for rotating the component presser member. The component presser member extends at the upper end to the mounting portion side of the socket body portion. A pressing portion that presses the electrical component, a flexible leg portion that is formed in two parts from the lower end to the vicinity of the upper end, and the socket body portion that protrudes outward from each leg portion. A pivot shaft that is pivotably held by the And a projecting been deflection suppressing projection facing the inside surface of each leg is obtained by the possible formation displacing the leg portions in a substantially perpendicular direction and the rotary shaft portion.
[0008]
With such a configuration, the flexible leg portion formed by separating the component pressing member into two parts from the lower end to the vicinity of the upper end is displaced in a direction substantially orthogonal to the rotating shaft portion, and further bent inward. The component presser member is pivotally attached to the socket main body with a pivot shaft that protrudes outward from each leg, and in a normal state, it is bent so as to face the inner surface of each leg. The restraining protrusion limits the inward bending of the leg, and the component pressing member is rotated by the operation member arranged to move up and down in the socket main body to place the component pressing member at the upper end of the component pressing member. The electric part placed on the placing part is pressed by the presser part extended to ensure contact between the terminal of the electric part and the contact pin. This facilitates the assembly work and ensures stable operation of the component pressing member.
[0009]
Moreover, the bending suppression protrusions provided on the respective leg portions are arranged to face each other so that only a part thereof faces each other. Thereby, each leg part is shifted in a substantially orthogonal direction with respect to the rotating shaft part by an amount corresponding to the part where the bending prevention projecting part faces, so that the deflection restraining projecting part is brought into a non-opposing state.
[0010]
Furthermore, a pair of the component pressing members are provided by locking the rotating shaft portions in holding recesses provided at both end portions of the socket main body portion. Thereby, it engages with the holding recessed part provided in the both-ends part of the socket main-body part by the rotating shaft part.
[0011]
Moreover, the said component pressing member forms the elastic member receiving part which always receives the upward urging | biasing force by an elastic member in the lower end part of at least one of each said leg part. Thereby, the elastic member receiving portion formed at the lower end portion of at least one of the leg portions receives the upward biasing force constantly by the elastic member.
[0012]
And the said component pressing member forms the to-be-pressed part which contact | abuts this operation member in the site | part on the opposite side to the said elastic member receiving part with the downward movement of an operation member. As a result, the pressed portion formed at the portion opposite to the elastic member receiving portion comes into contact with the operating member as the operating member descends.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
FIG. 1 is a plan view showing an embodiment of an electrical component socket according to the present invention. This electrical component socket is applied to, for example, a burn-in test of a BGA (Ball Grid Array) type electrical component, and includes a socket body 2, a contact pin 4, a latch member 1, an operation member 5, and the like. It is equipped with.
[0014]
The socket body 2 is made of synthetic resin and constitutes the body of the socket for electrical parts that holds and holds the electrical parts. As shown in FIG. 2, the top plate 6, the moving member 7, and the lever 8 and.
[0015]
A top plate 6 is fixedly provided at the center of the socket body 2. The top plate 6 has an upper surface portion formed as a placement portion 6a, and an electrical component can be placed and held on the placement portion 6a. As shown in FIG. 1, a guide portion 9 is provided so as to surround the placement portion 6 a, and the corner portion of the guide portion 9 is formed in a slope shape so that the electric component is placed on the placement portion 6 a. In addition, electrical parts can be guided. The mounting portion 6a is formed with an insertion hole 10 through which a contact pin 4 described later is inserted at a position corresponding to the terminal of the mounted electrical component.
[0016]
Further, as shown in FIG. 2, a moving member 7 is disposed below the top plate 6. The moving member 7 moves up and down to displace a contact pin 4 described later, and is biased upward by a spring member 11 and is held up and down with respect to the socket body 2.
[0017]
Further, as shown in FIGS. 1 and 2, a pair of levers 8 are pivotally attached to the vicinity of both side ends of the socket body 2 at substantially left-right symmetrical positions. The lever 8 rotates to move the moving member 7 up and down. The lever 8 is formed of a metal plate, and is integrally formed with the socket body 2 made of synthetic resin in the fitting hole 8b provided in the base end 8a. The boss 2 a is fitted so as to be rotatable, and the pressing portion 8 c is brought into contact with the upper surface of the moving member 7. Then, the pressed portion 8d provided at the upper end corner is rotated inward by being pressed downward by the operation member 5 described later, and the moving member 7 is pressed and moved downward by the pressing portion 8c. Yes.
[0018]
A set of latch members 1 is provided at both end portions of the mounting portion 6 a of the socket body portion 2. The latch member 1 is pivotally attached to the socket body 2 and rotates to press the electrical component placed on the placement portion 6a, thereby securing the contact between the terminal of the electrical component and the contact pin 4. It becomes a member and is integrally formed of a synthetic resin. As shown in FIGS. 4 and 5, the latch member 1 includes a holding portion 1 b that extends from the upper end to the mounting portion 6 a side of the socket body 2 and presses an electrical component, and a lower end portion near the upper end. A leg portion 1e which is formed to be divided into two and has flexibility, and a pivot shaft portion 1c which protrudes outward of each leg portion 1e and is rotatably held by the socket main body 2; Each of the leg portions 1e is provided with a deflection suppressing protrusion 1h that protrudes from the inner surface of the leg 1e. The leg 1e can be displaced in a direction substantially orthogonal to the rotation shaft 1c. And this deflection | deviation suppression protrusion 1h is arrange | positioned so that only one part may oppose, as shown with the oblique line in FIG.
[0019]
Furthermore, the latch member 1 is formed with a spring receiving portion 1d as an elastic member receiving portion at the lower end portion of the right leg portion 1e as shown in FIGS. 5 and 6, and as shown in FIG. Is inserted into the holding recess 2b provided in the upper end and is always urged by the spring member 12 in the direction of pressing the electrical component, and the rotary shaft 1c is locked to the upper side surface of the holding recess (not shown) and held rotatably. Has been.
[0020]
As shown in FIG. 4, the latch member 1 is provided with a pressed portion 1 g at a portion opposite to the spring receiving portion 1 d, and is pressed by the operation member 5 along with the lowering operation of the operation member 5 described later. To release the pressing of the electric parts and to open the mounting portion 6a.
[0021]
Further, a plurality of contact pins 4 are implanted in a portion corresponding to the placement portion 6 a of the socket main body portion 2. This contact pin 4 is for electrically connecting the terminal of the electrical component and the wiring part of the circuit board disposed at the lower part of the socket body part 2, and as shown in FIG. It is arranged in a matrix in a state where the insertion hole 10 is inserted and the tip end protrudes toward the mounting portion 6a and the opposite end protrudes from the lower surface of the socket body 2 (see FIG. 2). ing.
[0022]
This contact pin 4 is formed by pressing a plate material having elasticity and excellent conductivity. As shown in FIG. 7, a pair of elastic pieces 4a and 4b is formed on the upper side, and the lower side One solder tail portion 4c is formed. The pair of elastic pieces 4a and 4b are formed to face each other when the base portion 4d on the lower end side is bent into a substantially U shape as shown in FIG. Further, contact portions 4e and 4f, which are terminals of electrical components, for example, contact with one side of a solder ball, respectively, are formed on the upper end portions (tip portions) of the elastic pieces 4a and 4b. 4f, the solder balls are sandwiched and electrically connected.
[0023]
Further, the pair of elastic pieces 4a and 4b of the contact pin 4 is formed with a bent portion 4g bent in a substantially U shape, so that the moving member 7 is moved downward as shown in FIG. As shown in FIG. 9, the bent portions 4g are pressed by the cam portion 7a provided on the moving member 7 to open both contact portions 4e and 4f.
[0024]
Then, as shown in FIGS. 8 and 9, the solder tail portion 4c and the base portion 4d of the contact pin 4 are press-fitted into the press-fitting hole 2f formed in the socket main body portion 2, and the removal formed in the base portion 4d. The stopper 4m bites into the socket body 2 to prevent the contact pin 4 from coming off upward. The solder tail 4c protruding downward from the socket body 2 is inserted into each through hole of a circuit board (not shown) and soldered.
[0025]
Further, as shown in FIG. 1, an operation member 5 is provided on the outer peripheral portion of the socket body 2 so as to be movable up and down. The operation member 5 moves up and down to drive the lever 8, moves the moving member 7 in the up and down direction, opens and closes the pair of contact portions 4 e and 4 f of the contact pin 4, and rotates the latch member 1. The mounting portion 6a is opened and closed, and is constantly urged upward by another spring member 13 as shown in FIG. As shown in the figure, the inner side surface of the operation member 5 is formed as a lever pressing portion 5a, and as shown in FIG. 3, the lower end portion is formed as a latch pressing portion 5b. And the to-be-pressed part 1g of the latch member 1 can be pressed now.
[0026]
Next, a method of assembling the latch member 1 to the socket body 2 will be described with reference to FIGS.
The latch member 1 is in a state shown in FIG. 6 in a steady state. At this time, as shown in FIG. 10, forces in opposite directions of arrows T and U are forcibly applied to the respective leg portions 1 e, and the leg portions 1 e are shifted until the deflection suppressing protrusions 1 h are in the non-opposing state. Further, while maintaining this state, as shown in FIG. 11, each leg portion 1e is pressed in the directions of arrows V and X from the left and right directions, and the lower end edge of the deflection suppressing projection 1h is the inner side surface 1f of the leg 1e. Bend until it touches. Thereby, the dimension L1 between both ends of the rotation shaft portion 1c becomes smaller than the width W of the opening 2a of the holding recess 2b provided in the socket main body 2, and the latch member 1 can be inserted into the holding recess 2b. And after inserting the latch member 1 in the holding | maintenance recessed part 2b, if all the force given to each leg part 1e is cancelled | released, each leg part 1e will return to the steady state shown in FIG. Next, when an upward elastic force is applied to the spring receiving portion 1d of the latch member 1 by a spring member (not shown), as shown in FIG. 12, the end portion of the rotating shaft portion 1c becomes the upper side surface of the holding recess 2b. The latch member 1 is held rotatably by being latched to 2e.
[0027]
In this case, if the elastic force in the direction of arrow Y shown in FIG. 13 is increased in order to increase the pressing force of the electric component by the latch member 1, both ends of the rotating shaft 1c are locked to the upper side 2e of the holding recess 2b. Therefore, the latch member 1 generates a force that bends the leg 1e inward. However, in this case, the deflection suppressing protrusion 1h formed facing the inner side surface 1f of the leg 1e is in contact with the leg 1e to limit the amount of deflection of the leg 1e. It does not become smaller than the width W of the opening 2a of the holding recess 2b. Therefore, the both end portions of the rotating shaft portion 1c are maintained in the state of being locked to the upper side surface 2e of the holding recess 2b.
[0028]
Next, the operation of the thus configured electrical component socket will be described.
First, when the operating member 5 is pressed downward, as shown in FIG. 3, the pressed portion 1g of the latch member 1 is pressed by the latch pressing portion 5b of the operating member 5, and the latch member 1 is centered on the rotating shaft portion 1c. Rotate clockwise in the figure to open the mounting portion 6a so that the electric component can be mounted. At the same time, the pressed portion 8 d of the lever 8 shown in FIG. 2 is pressed by the lever pressing portion 5 a of the operation member 5, and rotates inwardly about the boss 2 a formed integrally with the socket body 2. Then, the moving member 7 is pressed downward and moved by the pressing portion 8c. As a result, the bent portion 4g of the contact pin 4 shown in FIG. 8 is pressed by the cam portion 7a provided on the moving member 7, and the contact portions 4e and 4f of the contact pin 4 are opened as shown in FIG. Here, when the electrical component is dropped onto the mounting portion 6a from above, the solder balls 14a of the electrical component 14 are inserted as shown in FIG.
[0029]
In such a state, the pressing of the operation member 5 is released. As a result, the pressing of the latch member 1 against the pressed portion 1g by the operating member 5 is released, and the latch member 1 rotates counterclockwise in FIG. . At the same time, the pressure on the lever 8 by the operating member 5 is also released, so that the moving member 7 rises, the cam portion 7a releases the pressure on the bent portion 4g of the contact pin 4, and both the contact portions 4e and 4f are closed. . As a result, the contact pin 4 can grasp the solder ball 14a of the electrical component 14 at both contact portions 4e and 4f and make electrical contact with the circuit board disposed on the lower surface of the socket body portion 2. To.
[0030]
As described above, the electrical component socket according to the present invention separates the latch member 1 into two pieces from the lower end to the vicinity of the upper end to form a pair of flexible leg portions 1e. Since the bending restraining protrusion 1h is provided so as to face the side surface 1f so as to partially overlap, even when the leg member 1e is bent inward due to the strong elastic force of the spring member 12, the bending restraining protrusion 1h. It is possible to prevent the latch member 1 from coming out of the holding recess 2b of the socket main body 2 by restricting the amount of bending by the portions 1h contacting each other. Thereby, stable operation of the latch member 1 can be ensured.
[0031]
In addition, the leg portion 1e is shifted in the direction orthogonal to the rotation shaft portion 1c until the bending suppression protrusion 1h is in a non-opposing state, and then bent inward to maintain the dimension L between both ends of the rotation shaft portion 1c. Since it can be made smaller than the width W of the opening 2a of 2b, the assembling work for mounting the latch member 1 to the holding recess 2b can be easily performed.
[0032]
In addition, the opposing state of the bending suppression protrusion 1h is not limited to the one arranged so as to overlap with each other as shown by hatching in FIG. 6, and the entire opposing portion of the bending suppression protrusion 1h overlaps. It may be. In this case, if the facing area is reduced, the shift amount of the rotating shaft 1c in the orthogonal direction can be reduced, and the ease of assembling work can be maintained.
[0033]
【The invention's effect】
Since the present invention is configured as described above, according to the first aspect of the present invention, the leg portion having flexibility is formed by separating the component pressing member into two parts from the lower end to the vicinity of the upper end. The component presser member is pivotally attached to the socket body with the pivot shaft that is displaced in a direction substantially orthogonal to the pivot shaft and further bent inward and protrudes outward of each leg. Restricts the inward bending of the leg by a deflection restraining projection that projects from the inner surface of each leg, and the component presser member is operated by an operation member that can be moved up and down on the socket body. The electrical component placed on the placement part is pressed by the holding part extended to the placement part side at the upper end of the part-holding member by rotating, and the contact between the terminal of the electrical part and the contact pin is secured. be able to. Therefore, it is possible to facilitate the assembling work of the component pressing member to the socket main body and to ensure the stable operation of the component pressing member.
[0034]
According to the second aspect of the present invention, each leg portion is shifted in a substantially orthogonal direction with respect to the rotation shaft portion by an amount corresponding to the opposed portion of the deflection suppressing projection, and the deflection suppressing projection is not opposed. Can be. Therefore, the work of assembling the component pressing member to the socket body can be made easier.
[0035]
Furthermore, according to the invention which concerns on Claim 3, it can be latched by the holding | maintenance recessed part provided in the both-ends part of the socket main-body part by the rotating shaft part. Therefore, the component pressing portion can be pivotally attached to the holding recess.
[0036]
Moreover, according to the invention which concerns on Claim 4, the upward biasing force by an elastic member can always be received by the elastic member receiving part formed in the at least one lower end part of each leg part. Therefore, the electric component can be pressed by turning around the turning shaft portion.
[0037]
According to the fifth aspect of the present invention, the operation member can be brought into contact with the pressed portion formed at the portion opposite to the elastic member receiving portion as the operation member is lowered. Therefore, as the operation member is lowered, the operation member presses the pressed portion to rotate the component pressing member, thereby releasing the pressing of the electrical component and opening the mounting portion.
[Brief description of the drawings]
FIG. 1 is a plan view showing an embodiment of an electrical component socket according to the present invention.
FIG. 2 is a cross-sectional view taken along the line AB in FIG.
FIG. 3 is a cross-sectional view taken along line B-C in FIG.
FIG. 4 is a right side view of a latch member of the electrical component socket according to the present invention.
FIG. 5 is a front view of FIG. 4;
6 is a bottom view of FIG. 5. FIG.
7A and 7B are diagrams showing contact pins, where FIG. 7A is a front view, FIG. 7B is a left side view of FIG. 7A, FIG. 7C is a plan view of FIG. FIG.
FIG. 8 is a cross-sectional view showing a state in which a contact portion of a contact pin is closed.
FIG. 9 is a cross-sectional view showing a state in which a contact portion of a contact pin is opened.
10 is a bottom view showing a state in which a leg portion of the latch member of FIG. 6 is shifted in a direction substantially orthogonal to a rotation shaft portion.
11 is a front view showing a state in which a force in a direction parallel to the rotation shaft portion is further applied to the leg portion from the state shown in FIG.
FIG. 12 is a front view showing a state where the latch member is held in the holding recess of the socket main body.
13 is a front view showing a deformed state of the latch member when a strong elastic force directed upward is applied to the spring receiving portion in the state of FIG.
FIG. 14 is an explanatory view showing an assembled state of a conventional latch member.
FIG. 15 is a front view showing another configuration of the latch member conceived for facilitating the assembling work based on the conventional latch member.
16 is a front view for explaining a method of assembling the latch member shown in FIG.
17 is a front view showing a state where assembly of the latch member shown in FIG. 15 is completed. FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Latch member 1b ... Pressing part 1c ... Rotary shaft part 1d ... Spring receiving part 1e ... Leg part 1f ... Inner side surface 1h ... Deflection suppression protrusion 2 ... Socket main-body part 4 ... Contact pin 5 ... Operation member 6a ... Mounting Part

Claims (5)

A socket main body for mounting and holding electrical components on the mounting section, a plurality of contact pins implanted corresponding to the mounting section of the socket main body, and pivotally mounted on the socket main body for rotation. The component pressing member that presses the electrical component placed on the mounting portion to ensure the contact between the terminal of the electrical component and the contact pin, and the operation that pivots the component pressing member that is disposed on the socket body so as to be movable up and down. A socket for an electrical component having a member,
The component pressing member is formed to be separated into two parts from the lower end to the vicinity of the upper end, and the pressing portion that extends to the mounting portion side of the socket main body at the upper end and presses the electrical component. A leg portion having a pivot, a pivot shaft portion protruding outward of each leg portion and rotatably held by the socket body portion, and a flexure projecting from the inner surface of each leg portion. An electrical component socket, comprising: a restraining protrusion, wherein each leg portion can be displaced in a direction substantially orthogonal to the rotation shaft portion. The electrical component socket according to claim 1, wherein the deflection suppressing protrusions provided on the respective leg portions are arranged so that only a part thereof is opposed. 2. The socket for an electrical component according to claim 1, wherein a pair of the component pressing members are provided by locking the rotating shaft portions in holding recesses provided at both end portions of the socket main body portion. 2. The electrical component socket according to claim 1, wherein the component pressing member is formed with an elastic member receiving portion that receives an upward biasing force by an elastic member at least at one lower end portion of each leg portion. 5. The electric component according to claim 4, wherein the component pressing member is formed with a pressed portion that comes into contact with the operation member in accordance with a lowering operation of the operation member at a portion opposite to the elastic member receiving portion. Socket for parts.

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