KR20190115981A - Circuit board - Google Patents

Abstract

The present invention relates to a circuit board and, more specifically, to a circuit board capable of improving the deformation of a substrate member and achieving stable contact and electrical connection between a connecting terminal of the substrate member and a contact member of a socket member by compressing socket bodies forming the socket member to each other as a clip member is positioned between screw connection positions of the socket member and making a gap between the socket bodies and a gap between the socket member and the substrate member adhere to each other.

Description

Circuit Board {CIRCUIT BOARD}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a circuit board, and more particularly, a clip member is positioned between screw connection positions of a socket member to compress the socket bodies constituting the socket member with each other, thereby between the socket body and the socket body and between the socket member and the substrate member. By closely contacting each other, the present invention relates to a circuit board capable of improving deformation of the substrate member and achieving stable contact and electrical connection between the connecting terminal of the substrate member and the contact member of the socket member.

In order to connect the semiconductor element and the circuit board with each other, the circuit board is provided with a socket member having a predetermined contact member. The socket member has a structure in which a semiconductor element can be mounted, and a structure in which the socket member can be fixedly connected to the substrate member.

In the case of a circuit board having a so-called vertical structure, the socket member is coupled to one side edge of the substrate member.

In a circuit board having such a vertical structure, a method of coupling a substrate member and a socket member to each other, for example, has a coupling portion in which a predetermined groove portion is provided at one side edge of the substrate member and the socket member is inserted into the groove portion. .

In addition, as another example, as shown in Figure 1, the socket member is composed of a combination of a predetermined socket body (20A, 20B) of a pair, a circuit board (between the pair of socket body (20A, 20B) 10 is positioned so that the socket bodies 20A and 20B overlap each other and may be coupled to each other so that the socket bodies 20A and 20B may be coupled to the front and rear surfaces of the substrate member 10, respectively. At the edge of the board member 10, a plurality of connection terminals are provided and arranged. In addition, a predetermined contact member 22 is provided inside the pair of socket bodies 20A and 20B in contact with the connection terminal 12 provided in the substrate member 10.

As described above, in the coupling form in which the substrate member 10 is positioned between the pair of socket bodies 20A and 20B, the coupling between the socket bodies 20A and 20B, and the socket bodies 20A and 20B and the substrate member 10. For coupling, means for coupling such as bolts 30 may be used. In the socket bodies 20A and 20B, predetermined bolt coupling holes 24 are formed to couple the bolts 30. 2 is a view showing a coupling method using such a bolt (30).

However, as shown in FIG. 3, the contact members 22A and 22B provided in the socket members 20A and 20B respectively contact the connection terminal 12 provided in the substrate member 10 while being in close contact with the substrate member 10. Forces (repulsive forces) are generated in both directions, and deformation such as warpage may occur in the substrate member 10. In particular, when the contact positions of the contact members 22A and 22B located on both sides of the substrate member 10 are different from each other, the positions at which these forces are applied are different across the both sides of the substrate member 10 such that such warpage is prevented. It can get worse.

When using a coupling means such as bolt 30, it is difficult to provide a bolt coupling structure for several positions (three or more) structurally, it is difficult to overcome such occurrence of warpage. In particular, as shown in FIG. 4, the amount of deformation due to this bending may be greatest at the central positions M and N between the portions where the bolts 30 are connected. Thus, by this bending, the electrical connection between the contact member 22 and the substrate member 10 in the socket member may become unstable.

However, the use of several bolts 30 is structurally difficult, and therefore, it is difficult to solve this problem. Therefore, there is a need for a means of preventing warpage from occurring and stably achieving an electrical connection between the substrate member 10 and the socket member.

Utility Model Registration No. 20-195084

DISCLOSURE OF THE INVENTION The present invention has been made to solve the above problems, and achieves close contact between the socket member and the substrate member and improves deformation of the substrate member, thereby providing stable contact and electrical connection between the connection member of the substrate member and the contact member of the socket member. Its purpose is to provide a circuit board that allows the connection to be achieved.

A circuit board according to the present invention includes: a substrate member having a plurality of connection terminals provided on at least one side edge thereof; A socket member electrically connected to the substrate member and disposed at an edge of one side of the substrate member; And a clip member, wherein the socket member includes: a socket body provided with a pair and positioned on the front and rear surfaces of the substrate member, respectively, and overlapping with each other in the front and rear directions; And an interpolation groove in which the pair of socket bodies are interpolated and inserted therebetween, so that at least a portion of the pair of socket bodies is interpolated in the interpolation groove so that the pair of socket bodies and the socket body are interposed therebetween. The substrate members positioned are in close contact with each other and fixed.

Preferably, the socket body has a plurality of connection holes so that a predetermined screw can be coupled, and the clip member has a configuration that is fixed to each position between the plurality of connection holes.

Preferably, the socket member has an extrapolated groove portion inserted into the clip member so that the clip member can be fixed.

Preferably, the extrapolation groove is formed at a central position between the fastening holes adjacent to each other.

Preferably, the pair of socket bodies have line portions extending in parallel to each other on tops of the surfaces facing each other, and at least one portion of the line portions is inserted into and inserted into the interpolation groove portion of the clip member.

Preferably, the clip member is configured such that the width of the inlet portion of the interpolation groove portion is smaller than the width of the other portion.

Preferably, the clip member has a protruding arm that protrudes outward in the width direction at an inlet portion of the interpolation groove.

In the circuit board according to the present invention, the clip members are positioned between the screw connection positions of the socket members so that the socket bodies constituting the socket members are compressed to each other so that the socket bodies and the socket bodies and the socket members and the substrate members are brought into close contact with each other. The deformation of the substrate member can be improved. Thus, stable contact and electrical connection between the connecting terminal of the substrate member and the contact member of the socket member can be achieved.

1 to 4 are views showing a coupling structure between a substrate and a socket member of a circuit board according to the prior art.
5 to 7 are views showing the structure of a circuit board according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

5 to 7 is a view showing a structure of a circuit board according to the present invention, Figure 5 is a view showing a coupling structure of a circuit board according to the present invention, Figure 6 is a substrate member 100 of a circuit board according to the present invention And an internal view showing contact between the contact member 212 in the socket member 200, and FIG. 7 is a view illustrating a state in which the clip member 300 is coupled to a circuit board according to the present invention.

The circuit board according to the present invention includes a substrate member 100; A socket member 200 electrically connected to the substrate member 100 and disposed at one side edge of the substrate member 100; And a clip member 300.

The substrate member 100 is configured in a plate shape having a predetermined area over the front and rear surfaces and having a predetermined thickness. At least one side edge of the substrate member 100 is provided with a connection terminal (not shown). Connection terminals are respectively located on the front and rear surfaces of the substrate member 100 and a plurality of connection terminals are arranged side by side along the edge. The connection terminal may be electrically connected to the contact member 212 provided in the socket body 210. In addition, the substrate member 100 may be provided with a through hole (not shown) penetrated in the front-rear direction so as to be connected to the socket member 200. In addition, the substrate member 100 may also have grooves and protrusions used to fix the socket member 200.

The socket member 200 is a member in which a semiconductor device is mounted to be electrically connected to the substrate member 100. The socket member 200 may be connected to and fixed to one side of the substrate member 100. In the socket member 200, a contact member 212 may be provided in contact with the connection terminal to be electrically connected to the socket member 200. An outer surface of the socket member 200 may include an extrapolated groove 214 for extrapolating the clip member 300 to be described later. Can be.

The socket member 200 is composed of a pair of socket bodies 210A, 210B; The contact member 212 is embedded in each socket body 210, and a portion of the contact member 212 is exposed in an inner surface direction in which the socket bodies 210 face each other to connect the substrate member 100. Can be in contact with the terminal.

The pair of socket bodies 210 are positioned on the front and rear surfaces of the substrate member 100, respectively, and are stacked in the front and rear directions and coupled thereto. At least one portion of the pair of socket bodies 210 may be in close contact with each other, and at the same time, an edge portion of the substrate member 100 may be positioned at at least one portion between the pair of socket bodies 210. At this time, the contact member 212 disposed in the socket body 210 is in contact with the connection terminal provided in the substrate member 100 to make an electrical connection. That is, as shown in FIG. 6, the contact members 212A and 212B provided in the pair of socket bodies 210A and 210B respectively contact the front and rear surfaces of the substrate member 100, respectively.

The socket member 200 has a connection hole 216 to which a predetermined screw member 220 can be connected. The connection hole 216 is configured to penetrate the socket member 200 in the front-rear direction. In addition, the connection hole 216 is positioned to overlap with the through hole formed in the substrate member 100. Therefore, the predetermined screw member 220 is connected through the connection hole 216 and the through hole, so that the socket body 210 and the socket body 210 overlapped with each other are fixedly coupled to each other, and at the same time, the socket member 200 And the substrate member 100 are fixedly coupled to each other. In this case, the connection holes 216 may be formed in plural but at predetermined intervals from each other. For example, one position of each of the connection holes 216 may be formed at both sides of the socket member 200, and one more may be formed at an intermediate position among the two connection holes 216. The connection holes 216 may be provided at equal intervals. Of course, it is not necessarily limited to this.

The extrapolation groove 214 is formed at one side edge of the socket member 200, and the extrapolation groove 214 is formed over the two socket bodies 210. For example, the extrapolation groove 214 may be a partially recessed portion such that at least one portion of the front surface and the rear surface of the socket member 200 has a thinner thickness than other portions.

The number and positions of the extrapolation grooves 214 are not limited, but may be preferably formed at the outer edge portion of the socket body 210. In addition, it may be formed at a position between the connection holes 216 described above. In addition, more preferably, it may be formed at a central position between the connection holes 216 adjacent to each other. For example, when three connection holes 216 are formed, the extrapolation groove 214 is formed at a position between the three connection holes 216, so that a total of two extrapolation grooves 214 may be formed. .

Preferably, the inside of each socket body 210, that is, a pair of socket bodies 210A, 210B protrudes upwards and is parallel to each other in the plane direction of the substrate member 100. A predetermined line part 230 configured to extend may be provided. That is, the line part 230 may be formed at the center of the socket member 200 formed by combining the pair of socket bodies 210A and 210B with each other and may extend in the longitudinal direction. Meanwhile, the contact member 212 may be exposed to the outside of the front and rear directions of the line part 230, and for this purpose, a contact hole 240 may be formed to which the contact member 212 may be exposed. .

In addition, the extrapolation groove 214 may be provided in the line part 230. That is, the extrapolation groove 214 may be a portion formed in the line portion 230 but recessed in an outer surface thereof compared to other portions of the line portion 230. Of course, the present invention is not necessarily limited thereto, and the extrapolation groove 214 may have a structure suitable for fitting and fixing the clip member 300 described later.

The clip member 300 is a member that is extrapolated to the extrapolation groove 214 of the socket member 200. The clip member 300 is configured to apply a tightening force to the socket member 200 fitted in the interpolation groove 310. The clip member 300 has an interpolated groove portion 310 that is extrapolated to the extrapolated groove portion 214 and has a predetermined width and depth so that the extrapolated groove portion 214 can be inserted therein. It may be made of a material having elasticity as a whole. Preferably, the clip member 300 may be elastically deformed, such as stainless steel, and may be made of a material having a restoring force.

Accordingly, the clip member 300 may be configured as a C-shape as a whole, and may include a clip body 302 and clip arms 304 provided at both sides of the clip body 302. In addition, preferably, the width of the inlet portion of the interpolation groove 310 may be configured to be smaller than the width of the inner portion so as to apply a tightening force in the inward direction. In addition, preferably, the inlet portion of the interpolation groove 310 is provided with a protruding arm 306 protruding outward in the width direction as compared with the other portion, so that the inner restoring force can be more strongly applied.

With such a configuration, when the clip member 300 is fitted to the socket member 200, the clip member 300 is tightened by tightly fixing the socket body 210 and the socket body 210 in the front and rear direction.

At this time, as described above, since the extrapolation groove 214 is formed at a position between the positions where the screw hole is formed, the tightening force generated by the clip member 300 is between the positions fixed by the screw member 220. Will be added. Therefore, the clamping force is applied to the position where the deformation width of the substrate member 100 generated by the repulsive force of the contact member 212 is greatest, and the adhesion between the socket body 210 and the substrate member 100 and the socket member ( The adhesion between the 200) can be achieved. Accordingly, the deformation of the substrate member 100 due to the repulsive force of the contact member 212 is canceled to maintain the shape of the substrate member 100, and the contact between the contact member 212 and the connection terminal is stably made. Can be.

Therefore, in the circuit board according to the present invention, the clip member 300 is positioned between the screw connection positions of the socket member 200 to compress the socket bodies 210 constituting the socket member 200 to each other to compress the socket body 210. ) And the socket body 210 and between the socket member 200 and the substrate member 100 may be in close contact with each other, thereby improving deformation of the substrate member 100. Accordingly, stable contact and electrical connection between the connection terminal of the substrate member 100 and the contact member 212 of the socket member 200 may be achieved.

Although the preferred embodiments have been illustrated and described above, the invention is not limited to the specific embodiments described above, and does not depart from the gist of the invention as claimed in the claims. Various modifications can be made by the vibrator, and these modifications should not be understood individually from the technical idea or the prospect of the present invention.

100: substrate member
200: socket member
210: socket body
212: contact member
214: extrapolation groove
216: connection hole
220: screw member
230: line part
240: contact hole
300: clip member
302: clip body
304: clip arm
306: protruding arm
310: interpolation groove

Claims (7)

A substrate member having a plurality of connection terminals on at least one side edge thereof;
A socket member electrically connected to the substrate member and disposed at an edge of one side of the substrate member; And
A clip member;
The socket member,
A pair of socket bodies disposed at front and rear surfaces of the substrate member, respectively, which are stacked in a front-rear direction and coupled to each other; And
The pair of socket bodies have interpolation grooves interposed therebetween,
At least a portion of the pair of socket bodies is inserted into the interpolation groove so that the pair of socket bodies and the substrate member positioned between the socket bodies are fixed to each other in close contact with each other. The method according to claim 1,
The socket body,
Has a plurality of connecting holes so that a predetermined screw can be engaged,
The clip member,
And a socket coupling structure of a vertical board fixed to positions between the plurality of connection holes, respectively. The method according to claim 2,
The socket member,
A circuit board having extrapolation grooves interpolated in the clip member so that the clip member can be fixed. The method according to claim 3,
The extrapolation groove portion,
A circuit board formed at a central position between fastening holes adjacent to each other. The method according to claim 1,
The pair of socket body has a line portion extending in parallel to each other on top of the surface facing each other,
At least a portion of the line portion is inserted into and inserted into the interpolation groove of the clip member. The method according to claim 1,
The clip member,
And a width of the inlet portion of the interpolation groove portion is smaller than that of the other portion. The method according to claim 1,
The clip member,
A circuit board having a protruding arm that protrudes outward in the width direction at an inlet portion of the interpolation groove portion.