KR100966048B1 - Mold-pin for connecting of printed circuit board - Google Patents

Abstract

The present invention relates to a mold pin for connecting a printed circuit board, which conventionally draws the shield wire surrounding the outer surface of the insulation inner shell to the outside and is difficult to weld to the grounding terminal pin. There are many.

Accordingly, in the present invention, the shielding wire 130 of the coaxial cable 100 and the welding portion of the grounding terminal pin 300 are embedded in the resin molding 400 to form a mold pin for connecting a printed circuit board. ), The shield wire 130 exposed by peeling off the ground terminal pin 300 for the signal terminal pin 200 or the inner conductor 110 and the printed circuit board while maintaining the state surrounding the outer circumferential surface of the insulation inner shell 120. Just by placing at intervals corresponding to the pin insertion holes 510 and 520 of (500), the protruding contact portion 302 at the bottom of the ground terminal pin directly directly to the shield wire 130 surrounding the insulation jacket 140. As it is in contact, solder welding can be performed immediately, so the characteristic value of the cable is maintained well, and since the shield wire does not need to be peeled off and pulled to one side of the insulation inner layer as in the prior art, the manufacturing process is quick and easy, resulting in cost reduction by improved productivity. have.

Printed board, mold pin, coaxial cable, signal terminal pin, ground terminal pin, shield wire

Description

Mold pin for connecting printed circuit board

The present invention is to provide a mold pin for a printed circuit board connection that can be easily manufactured so that the bonding force and stability at the contact portion and the maintenance of the unique characteristic value of the cable are good.

More specifically, a high speed cable used for a coaxial cable interface for high-speed data transmission in a probe unit and a hifix board among semiconductor test-related equipment includes a printed board ( The present invention relates to a mold board for connecting a printed circuit board, which maintains a bonding force and stability at a contact portion with a PCB) and maintains a unique characteristic value of a cable, and which is easy to manufacture, thereby increasing productivity.

In general, semiconductor test-related equipment such as probe units and high-fix boards mainly use high speed cables used for coaxial cable interfaces for high-speed data transmission. Only good cohesion and stability at the time of contact can maintain the characteristic value of coaxial cable.

To this end, in the semiconductor test equipment industry at home and abroad, the connection part is resin-molded while the signal terminal pin and the ground terminal pin inserted in the through hole of the printed board are connected to the inner conductor and shield wire of the coaxial cable, respectively. It is developing and using mold pin wrapped with sieve.

A representative example is "coaxial cable for board connection" of Japanese Patent Laid-Open No. 2001-291565 (published date: October 19, 2001). FIG. 2 illustrates a conventional mold pin structure disclosed in Japanese Laid-Open Patent Publication. And FIG. 3.

First, Figure 1 is a view showing a general structure of a coaxial cable for high-speed data transmission, the coaxial cable 10 wraps the inner conductor 11 to prevent leakage of data transmitted through the inner conductor (11) mostly The outer circumferential surface of the insulating inner shell 12 is wrapped around the shield wire 13 made of a metal mesh densely woven with a thin line, and the shielding wire 13 has a structure wrapped with the insulating outer shell 14. .

2 is a cross-sectional view showing a structure of a mold pin that has been conventionally developed and used, in which the inner conductor 11 and the shield line 13 of the coaxial cable 10 are peeled off to be exposed to the outside, respectively. 11) the terminal pin 20 for the signal is welded and bound, and the shield wire 13 of the metal mesh surrounding the outer circumferential surface of the insulation inner shell 12 is drawn out to one side of the insulation inner shell 12, and then united. (30) was welded and soldered, and a mold pin was formed by wrapping the resin molding 40 so that each welding part of the signal terminal pin 20 and the grounding terminal pin 30 were not exposed to the outside.

Here, reference numeral 50 in the drawing is a printed board, and 51 and 52 are pin insertion holes formed so that the terminal pins for signals and grounds can be inserted into the printed board 50.

3 is a cross-sectional view showing another conventionally developed mold pin structure, in which a shield wire 13 made of a metal mesh of the coaxial cable 10 is drawn out to one side of the insulation inner shell 12, and then grounded. The terminal pin 30 is welded and bound, and the inner conductor 11 is peeled off long so as to fit directly into the pin insertion hole 51 of the printed board 50, and then the insulation inner shell of the inner conductor 11 ( 12) and the soldering welding portion of the grounding terminal pins 30 are embedded together in the resin molding 40 to form a mold pin.

The mold pin of FIG. 3 does not need to provide a separate signal terminal pin because the inner conductor 11 is directly inserted into the printed board 50 without the signal terminal pin, and the operation for soldering and welding the signal terminal pin is omitted. can do.

In addition, there is a "mold pin for a cable terminal" of Japanese Patent Laid-Open No. 2004-281068 (published date: 2004.10.07), which is shown in FIG.

That is, Figure 4 is a cross-sectional view showing a mold pin structure of another conventionally developed, and also the terminal pin 20 for the signal is welded to the peeled inner conductor 11 of the coaxial cable 10, and the insulation inner shell (12) The shield wire 13 of the metal mesh surrounding the outer circumferential surface is drawn out to one side of the insulation inner shell 12 and then agglomerated, and then bonded by soldering and welding the ground terminal pin 30, and the signal terminal pin 20 and Each welding part of the grounding terminal pin 30 is embedded in the resin molding 40 so that the soldering welding part is not exposed to the outside.

The mold pins of FIGS. 2 to 4 all lead out the shield wire 13 of the metal mesh surrounding the outer surface of the insulation inner shell 12 to the outside of one side of the insulation inner shell 12, and then the drawn shield wire ( 13) is welded and grounded terminal pin 30.

By the way, it is quite difficult and time-consuming for the workers to artificially carry out the work of drawing out and bonding the shield wire 13 of the metal mesh surrounding the outer surface of the insulation inner shell 12 to one side as described above. Due to inefficiency, productivity is low, which is the main reason for the cost increase.

In addition, expensive equipment cost is required to manufacture and equip the mechanical equipment that automatically performs the difficult task of drawing out the shield wire 13 made of metal mesh to one side, which is also a factor of cost increase. .

In particular, when withdrawing the shield wire 13 to the outside of one side of the insulating inner shell 12, there is a hassle of having to work differently withdrawal angle of the shield wire 13 depending on the shape of the grounding terminal pin 30, In the state where the shield wire 13 is drawn out, the work of inserting the tip into the connection part (indentation part) of the end of the grounding terminal pin 30 having a width of about 1 mm is also not so simple, so the productivity is considerably reduced. It is also a factor in the cost increase.

Accordingly, the present invention was developed in view of the above-described conventional problems, and an object of the present invention is to easily weld the grounding terminal by binding the outer surface of the insulating endothelial as it is wrapped, so that the manufacturing process is easy. It is also possible to mass-produce, and to provide a mold pin for the printed circuit board connection cost can be reduced because the cost is low when manufacturing automatic equipment for this.

In order to achieve the above object, the present invention peels the outer sheath and the inner sheath of the coaxial cable to expose the inner conductor, which is the shield wire and the signal wire (including the power line), which is a metal network, weld the terminal pin to the exposed conductor, and resin the molded part of the welded portion. The embedded pin is embedded in the sieve 40 to form a mold pin for connecting a printed circuit board, but the shield wire exposed by peeling off the insulation jacket is kept in the state surrounding the outer circumferential surface of the insulation shell. Simply by arranging the conductor at a predetermined distance (interval between the pin insertion hole of the printed circuit board), the contact portion is directly contacted directly with the shield wire surrounding the insulation shell, so that welding can be performed immediately.

In the present invention, the peeled shield wire of the coaxial cable covers the lower contact portion of the grounding terminal pin only by arranging the insertion portion of the grounding terminal pin at a predetermined interval with the signal terminal pin or the inner conductor in a state surrounding the outer peripheral surface of the insulation inner shell. Since the welding operation can be performed immediately as soon as the wire is in contact with the wire, there is no need to peel off the shield wire to one side of the insulation end as in the prior art, thereby facilitating the manufacturing process, which improves productivity.

In addition, the welding contact between the grounding terminal pin and the shield wire is stably maintained, and the unique characteristic value of the cable is maintained satisfactorily. It is easy to develop and equip with automatic equipment because work process is simple.

Hereinafter, the preferred configuration and operation for achieving the object of the present invention will be described with reference to the accompanying drawings.

Figure 5 is a view showing a molding pin of one embodiment according to the present invention, Figure 5a is a state diagram in which the terminal pins are respectively welded to the conductor and shield wire of the coaxial cable in the present invention, Figure 5b is a resin in Figure 5a state The molding is also covered.

According to the present invention, the outer sheath 140 and the inner sheath 120 of the coaxial cable 100 are peeled off to expose the shield wire 130, which is a metal network, and the inner conductor 110, which is a signal line. 130 and the internal terminal 110 and the ground terminal pin 300 and the signal terminal pin 200, respectively, and the welding portion is embedded in the resin molding body 400 to form a mold pin for the printed circuit board connection The thing can be said to be the same as before.

A feature of the present invention is to expose the inner conductor 110 and the shield wire 130 to the outside by peeling off the insulating inner shell 120 and the insulating outer shell 140, the shield wire 130 is wrapped around the outer peripheral surface of the insulating inner shell 120 It is in the state that the welding can be made to the terminal pin 300 for grounding as it is.

To this end, the present invention, the insertion portion 301 of the upper terminal pin 300 for grounding and the insertion portion 201 of the signal terminal pin 200 for the pin insertion holes 510, 520 will be arranged at intervals corresponding to the When the contact portion 302 is projected to the lower end of the terminal pin 300 for the ground so as to be in direct contact with the shield wire 130 surrounding the insulating sheath 140 so that the soldering welding can be performed immediately.

That is, the grounding terminal pin 300 only needs to maintain the insertion portion 301 of the upper end with the insertion portion 201 of the signal terminal pin 200 at a predetermined distance, and the contact portion 302 of the lower portion may form the insulation jacket 140. It is a structure in direct contact with the shielding wire 130 is wrapped.

In the drawing, reference numeral 202 denotes an inner conductor fitting portion formed at the lower end of the signal terminal pin 200 so that the exposed end of the inner conductor 110 can be soldered.

In the present invention, the upper insertion portion 301 of the grounding terminal pin 300 for soldering the grounding terminal pin 300 to the shield wire 130 is exposed insertion portion 201 of the terminal pin 200 for the signal. When arranged at intervals that can be inserted into the pin insertion holes 510 and 520 of the printed circuit board 500, the contact portion 302 that is bent and extended to the lower end side of the grounding terminal pin 300 is naturally insulated. In contact with the shield wire 130 surrounding the (120).

Therefore, even if you are not skilled, anyone can perform the soldering work more quickly and directly, and thus the workability is considerably good, thereby improving productivity.

6 is a partial cross-sectional view showing a state in which a pair of signal terminal pins and a ground terminal pin made of a mold pin in a state in which the terminal pin is continuously suspended on the connecting rod in the present invention.

According to the present invention, a pair of signal terminal pins 200 and a ground terminal pin 300 are repeatedly suspended on the connecting table 600, and the inner conductor 110 of each coaxial cable 100 is a signal terminal pin ( 200 and the shield wire 130 is embedded in the resin molding 400 so as not to be exposed to the outside after welding the ground terminal pin 300.

In this state, the mold pin of the present invention is completed by separating and disconnecting the connecting table 600 by the cutout 700 formed in the insertion parts 201 and 301 of each terminal pin 200 and 300.

Figure 7 is a perspective view showing a molding pin of another embodiment according to the present invention, Figures 8a and 8b is a cross-sectional view showing a state before the resin molded body covered with the resin molding body in order to make the molding pin of Figure 7 in order.

In the configuration of the present invention shown in the present invention, the outer sheath 140 and the inner sheath 120 of the coaxial cable 100 are peeled off to shield the shield wire 130, which is a metal network, and the inner conductor 110, which is a signal line, in order. It can be said that the terminal pin for ground is welded to the line 130, the welding part is embedded in the resin molding 400, and the mold pin for a printed circuit board connection is comprised as usual.

A configuration feature according to another embodiment of the present invention, the inner conductor 110 itself is exposed to the upper end long to be fitted directly into the pin insertion hole (510, 520) of the printed circuit board 500 insert 111 Formed with a) but the exposed shield wire 130 can be welded to the grounding terminal pin 300 as it is in the state surrounding the outer peripheral surface of the insulating endothelial 120.

To this end, the present invention, when the insertion portion 301 of the upper terminal pin 300 for grounding and the insertion portion 111 of the inner conductor 110 at a distance corresponding to the pin insertion holes (510, 520). Protruding contact portion 302 on the lower end side of the grounding terminal pin 300 so as to be in direct contact with the shield wire 130 surrounding the insulating sheath 140 so that the soldering welding can be performed immediately.

After the welding operation, the welding portion may be covered with the resin molding 400 together with the inner conductor 110 so as not to be exposed to the outside, and completed with a mold pin.

The present invention is a printed circuit board 500 with the inner conductor 110 exposed the upper insertion portion 301 of the grounding terminal pin 300 to solder the grounding terminal pin 300 to the shield wire 130 Simply arranged at intervals that can be fitted into the pin insertion holes 510 and 520 of the contact portion 302 bent long to one side at the bottom of the grounding terminal pin 300 naturally wraps the insulation endothelial 120 Since it is in contact with the shield wire 130 which can be welded immediately, the workability is good.

Therefore, the present invention can reduce the labor cost burden and productivity is improved, since anyone can perform the soldering operation of the shield wire 130 and the grounding terminal pin 300 more quickly and easily.

5 to 8, the solder receiving groove 303 is preferably formed in the contact portion 302 of the ground terminal pin 300. Then, even though the ground terminal pin 300 and the shield wire 130 are in surface contact, a part of the solder surrounding the contact portion enters into the solder receiving groove 303 and is hardened, so that the ground terminal pin 300 and the shield wire are hardened. It is possible to maintain a good soldering state of the 130.

1 is a partial cross-sectional view showing the structure of a coaxial cable for high-speed data transmission

Figure 2 is a cross-sectional view showing the structure of a mold pin conventionally developed and used

Figure 3 is a cross-sectional view showing another conventional mold pin structure developed

Figure 4 is a cross-sectional view showing a mold pin structure of another conventionally developed

Figure 5a is a cross-sectional view of the terminal pin welded to the conductor of the coaxial cable in the present invention

FIG. 5B is a cross-sectional view of the resin molding body in the FIG. 5A state; FIG.

FIG. 6 is a partial cross-sectional view showing a state in which a pair of signal terminal pins and a ground terminal pin are made of a mold pin in a state in which the terminal pin is continuously suspended on the connecting rod in the present invention; FIG.

Figure 7 is a perspective view showing a molding pin of one embodiment according to the present invention

8A and 8B are cross-sectional views of a state before the resin molding body is covered and the resin molding body is covered to make the molding pin of FIG.

Explanation of symbols for main parts of the drawings

100: coaxial cable 110: inner conductor

130: shield wire 200: signal terminal pin

300: grounding terminal pin 302: grounding portion

303: solder receiving groove 400: resin molding

500: printed circuit board 510, 520: pin insertion hole

600: connecting rod

Claims (4)

Stripping the insulation jacket 140 and the insulation jacket 120 of the coaxial cable 100 to expose the shield wire 130, which is a metal network, and the inner conductor 110, which is a signal line, but the shield wire 130 is formed of the insulation inner shell 120. Signal terminal pins 200 and ground terminal pins 300 provided with insertion parts 201 and 301 in the inner conductor 110 and the shield wire 130 while being exposed to maintain the state surrounding the outer circumferential surface. In the case of welding the respective welding parts, and embedding the welding part in the resin molding body 400 to form a mold pin for connecting a printed circuit board, At the lower end of the ground terminal pin 300, the insertion portion 301 and the insertion portion 201 of the signal terminal pin 200 are spaced at intervals corresponding to the pin insertion holes 510 and 520 of the printed board 500. When arranged, the contact portion 302 is directly formed in a protruding shape to directly contact the shield wire 130 surrounding the insulation shell 140. The contact portion 302 forms a solder accommodating groove 303 into which a part of the solder surrounding the contact portion enters to improve the binding state. A mold pin for a printed circuit board connection, wherein soldering welding between the shield wire 130 and the grounding terminal pin 300 can be performed immediately. delete Peeling the insulation shell 140 and the insulation inner shell 120 of the coaxial cable 100 to expose the shield wire 130, which is a metal network, and the inner conductor 110, which is a signal line, but the shield wire 130 is an outer circumferential surface of the insulation inner shell 120. The exposed portion of the inner conductor 110 is formed by the insertion portion 111 directly inserted into the pin insertion holes 510 and 520 of the printed circuit board 500, and the exposed portion of the inner conductor 110 is exposed. In the shield wire 130 is welded to the grounding terminal pin 300 with the insertion portion 301 and then embedded in the resin molded body 400 to form the mold pin for the printed circuit board connection, Place the insertion portion 301 and the insertion portion 111 of the inner conductor 110 at the bottom of the ground terminal pin 300 at intervals corresponding to the pin insertion holes 510 and 520 of the printed board 500. If only the contact portion 302 in direct contact with the shield wire 130 surrounding the insulating sheath 140 to form a protruding shape, The contact portion 302 forms a solder accommodating groove 303 into which a part of the solder surrounding the contact portion enters to improve the binding state. A mold pin for a printed circuit board connection, wherein soldering welding between the shield wire 130 and the grounding terminal pin 300 can be performed immediately. delete

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