KR960007970Y1 - Multi-pole connector with condenser - Google Patents

Abstract

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Description

Multi-pole connector with straight through type condenser

1 is a front view of the present invention

2 is a cross-sectional view of the present invention

3 is a partially enlarged cross-sectional view of the present invention.

4A is a perspective view of a straight through-condensate yarn used in the present invention.

(B) is a cross-sectional view of the straight through-condensate yarn used in the present invention

(C) is the cross section of the terminal pin inserted into the straight through-condensate used in the present invention

5A is a perspective view of a conventional straight through condenser.

(B) is a cross sectional view of a conventional straight through condenser.

(C) is a sectional view of the state inserted into the conventional straight through-condensate yarn

6 is a cross-sectional view of a connector in which a conventional through condenser is not inserted.

The present invention inserts a cylindrical straight through condenser into the connector terminal to prevent the influx of harmful electromagnetic waves from the outside. The present invention relates to a multipole connector having a metal layer of an angled pipe in an inner diameter of a straight through condenser so that the through condenser can be closely adhered to each other.

The connector specified in the present invention includes not only a connector for connecting power lines to each other but also a multipole connector for connecting a multi-core cable inserted in an electronic or telecommunication machine. In particular, in the multi-pole connector that is inserted into a conventional electronic or communication machine and connects the devices to each other, as shown in FIG. 6, no harmful electromagnetic wave shielding device is provided, and thus harmful electromagnetic waves flow directly into the connector or cable. Noise was generated in the instruments and communication machinery, and the S / N ratio was high. Therefore, conventionally, in order to prevent harmful electromagnetic waves from flowing into the connector or the cable, condensate is inserted in the middle of the cable to block the harmful electromagnetic waves. However, attaching a device that blocks electromagnetic waves in the middle of such a cable has a problem in mass production of the cable, and it is selectively used only when necessary because it cannot be installed in tens of thousands of cables (usually multi-core cables).

In view of the above, the present invention inserts a through condenser for blocking harmful electromagnetic waves into a connector connecting the cable to each other, thereby eliminating the need for a harmful electromagnetic shield such as condensate in the middle of the cable. Before describing the present invention, the structure of the universal connector connecting the multi-core cables to each other is as follows.

In other words, as shown in FIG. 6, the corrugator inserted into the end of the conventional multi-core cable is a metal for inserting and fixing the front and rear supports 3 and 4 having holes as many as the number of terminals inside the insulator (insulation handle). The edge 5 is inserted, and the terminals 2 inserted into the terminal holes of the front and rear supports 3 and 4 are connected to each other by a multicore cable and solder or by a pin structure. The metal rim 5 which inserts and fixes the inner and front supports 3 and 4 in the inner side is used as a means for connecting the earth means and the connector to another connector in addition to the insert fixing the terminal 2. .

The conventional connector having such a structure only has a structure that connects each multi-core cable to each terminal, and has a structure that easily connects the connector and the connector with each other, but means for blocking harmful electromagnetic waves flowing into the connector or cable is I couldn't come up.

However, the present invention can reduce the S / N ratio by suppressing the occurrence of noise in electronic and communication machinery by inserting a condenser in the connector that blocks harmful electromagnetic waves flowing into the connector or cable. The terminal inserted into the straight through condenser is firmly fastened so as not to be easily pulled out and described in detail with reference to the accompanying drawings.

The outside of the front support (3) and rear support (4) into which each terminal (2) connected to each cable (1) is inserted is wrapped with a metal rim (5), on the outside of which is an insulator (knob) (6) Is coated on the inner circumferential surface and the cucumber side, and each of the ordinary terminals 2 is inserted into the straight through-condensate 10 having the cylindrical ceramic 9 inserted therebetween. In the multi-pole condenser, the metal layer 11 is deposited on one side of the rear support 4, and the metal layer 11 of the rear support 4 is an outer circumferential surface of the normal straight through condensate 10. 8) to be integrally welded, and the metal layer 7 inside the straight through-condensate 10 is configured to have a square pipe shape with an angled surface.

In the figure, reference numeral 15 is a fastening bolt, 16 is a multi-core cable.

Although the accompanying drawings show a multipole connector having a rectangular cross section, the same configuration may be applied to a multipole connector having a circular cross section. In addition, shown in Figure 6 is a cross-sectional view of a conventional multi-pole connector and the same parts as the present invention used the same reference numerals.

Looking at the present invention having such a structure in more detail and at the same time look at the operation and effects as follows.

As shown in FIG. 6, the conventional connector is an insulator, and the connector inserting each other into the innermost shell used as the handle 6 and another connector are inserted with the letter D-shaped metal rim 5 and the metal rim ( 5) A front support 3 and a rear support 4 are inserted into which each terminal 2 is inserted, and the rear end of the terminal 2 is connected to each cable 1 by soldering or to a connecting pin. It has a structure connected to each other by. Such a conventional multi-pole connector has only a role of connecting the multi-core cables to each other by the terminal 2 and has no means of blocking harmful electromagnetic waves flowing into or from the connector. The present invention inserts a straight through condenser 10 on the outside of the terminal 2 in order to block harmful electromagnetic waves flowing from the connector or cable in addition to the original purpose of connecting the multi-core cable to each other.

That is, the metal layer 11 is deposited on one side of the rear support 4 into which the terminal 2 is inserted, and the holes are drilled therein, and then each has the metal layers 7 and 8 on the inner and outer circumferential surfaces, respectively. A multi-pole in which a straight through-condensate 10 having a cylindrical ceramic 9 inserted therein is inserted, and the inner circumferential surface metal layer 7 of the straight through-condensate 10 and the terminal 2 inserted therein are integrally fused together. In the connector, the metal layer 11 deposited on the rear support 4 and the metal layer 8 on the outer circumferential surface of the straight through-condensate 10 can be grounded more reliably by welding the conductive materials together such as soldering. At the same time, the terminal 2 inserted into the inner circumferential surface of the straight through-condensed yarn 10 can be more firmly inserted.

That is, the metal frame (5) is inserted into the inside, the front support (3) and the rear support (4) of the rear support (4) for inserting each terminal (2) to be deposited to the metal layer (11), the The metal layer 11 is integrated with the metal rim 5 so as to have a reliable grounding. The metal layer 11 has metal layers 7 and 8 on the inner circumferential surface and the outer pole surface, and a cylindrical ceramic 9 is inserted therebetween. In inserting the terminal 2 into the straight through condensate yarn 10, as shown in FIG. 5, the inner peripheral surface metal layer 7 of the conventional straight through condensate yarn 10 has a circular cross section. The cross section of the terminal (2) inserted into this has a rectangular shape, so that the play is made when integrally fastened with each other, and the play becomes widened and loosened with use for a long time.

The present invention has a metal layer (7) on the inner circumferential surface of the conventional straight through condensate yarn 10 as described above, and the inner circumferential surface thereof has a circular shape. To this end, the metal layer 7 of the inner circumferential surface of the cylindrical condensate 10 is formed to have an angular edge shape so that the terminals of the starting cross section inserted into the cylindrical condensate 10 are in close contact with each other.

As such, the present invention can block harmful electromagnetic waves flowing from the connector or cable to minimize the possibility of noise generation and malfunction in electronic devices and communication machinery, and at the same time, the terminal inserted in the straight through condenser can be easily It is a very useful design to have a solid structure that does not fall out.

Claims (1)

The outside of the front support (3) and the rear support (4), into which each terminal (2) connected to each cable (1) is inserted, is wrapped with a metal frame (5), on the outside of which is an insulator (knob) (6) Is coated, and the ordinary terminals 2 are respectively inserted into the straight through-condensate 10 having the metal layers 7 and 8 on the inner and outer surfaces thereof, and the cylindrical ceramic 9 inserted therebetween. In the multi-pole condenser, the metal layer 11 is deposited on one side of the rear support 4, and the metal layer 11 of the rear support 4 is an outer circumferential surface of the normal straight through condensate 10. 8) to be integrally fused and the multi-layered connector inserted into the straight through-condensate, characterized in that the metal layer (7) inside the straight through-through condensate (10) is configured in a square pipe shape of the angled surface. .