KR200469760Y1 - Structure for detecting a patch cord end connection) - Google Patents

Abstract

The present invention relates to a patch cord connection detecting structure for detecting a patch cord connection, and more particularly, to install a wire connection terminal in the housing of the patch cord plug and to install a panel connection terminal bent in an S shape on the patch panel vertically. Thus, the present invention relates to a patch cord connection detecting structure for making a connection between the wire connection terminal and the panel connection terminal when the patch plug of the patch cord is inserted into the patch jack of the patch panel.

Description

STRUCTURE FOR DETECTING A PATCH CORD END CONNECTION}

The present invention relates to a patch cord connection detecting structure for detecting a patch cord connection, and more particularly, to install a wire connection terminal in the housing of the patch cord plug and to install a panel connection terminal bent in an S shape on the patch panel vertically. Thus, the present invention relates to a patch cord connection detecting structure for making a connection between the wire connection terminal and the panel connection terminal when the patch plug of the patch cord is inserted into the patch jack of the patch panel.

Patch cords are cords of constant length that connect between terminals, and plugs are provided at both ends.

9 to 11 show a patch cord connection detection structure according to the prior art. As shown, the patch cord 150 includes a patch plug 140 that is inserted into the patch jack 145 of the panel 130. The patch cord 150 includes a wire connection terminal 115 to which the sensing wire 110 is connected. When the patch plug 140 of the patch cord 150 is inserted into the patch book 145, the patch plug 140 is electrically connected to the patch jack 145, thereby from the patch cord 150 Allow communication to panel 130. In addition, when inserted, the wire connection terminal 115 is connected to the panel connection terminal 120.

As shown, the wire connection terminal 115 is inserted between the first portion 120a and the second portion 120b of the panel connection terminal 120. Upon insertion, the wire connection terminal 115 is electrically connected to the panel connection terminal 120. As a result of the electrical connection, the wire connection terminal 115 is electrically connected to the first transceiver 300. Similarly, the other end of the sensing wire 110 includes a second wire connection terminal. The second wire connection terminal 116 of the sensing wire 110 is inserted between the first portion 121a and the second portion 121b of the second panel connection terminal 121 connected to the second panel 131. . As a result of the electrical connection, the wire connection terminal 121 is electrically connected to the second transceiver 301.

As such, when both plugs 140 of patch cord 150 are inserted into their respective panels 130 and 131, an electrical circuit is formed and the transceivers 300 and 301 are able to communicate with each other. On the other hand, when any one of the plugs 140 of the patch cord 150 is removed from its corresponding patch jack 145, the sensing wire circuit is disconnected, and the transceivers 300 and 301 cannot communicate with each other. . Therefore, the connection of the patch cord 150 can be detected.

However, the patch cord connection detecting structure according to the related art has a structure in which the wire connection terminal 115 is inserted between the first portion 120a and the second portion 120b of the panel connection terminal 120 and the panel connection terminal 120. If the wire connection terminals 115 are not aligned in a line, the wire connection terminals may not be inserted. The first or second portions may be bent to one side by external force or repeated use, and thus the electrical connection with the wire connection terminals may occur. There was a problem that can not monitor the patch cord connection because this is not complete.

The present invention has been made to solve the problems of the prior art, the main object of the present invention is to provide a patch cord connection sensing structure that the coupling between the wire connection terminal and the panel connection terminal is stable.

In addition, the present invention provides a stable electrical connection between the wire connection terminal and the panel connection terminal by installing a wire connection terminal provided in the patch cord to the housing of the patch plug to prevent the wire connection terminal from being bent by external force or repeated use. It is to provide a patch cord connection detection structure consisting of.

In addition, the present invention is to provide a patch cord connection sensing structure in which the electrical connection between the wire connection terminal and the panel connection terminal is stably formed by forming a curved portion generating an elastic force at the bottom of the panel connection terminal.

As a means for achieving the object of the present invention described above, the patch cord connection detection structure according to the present invention,

A patch cord having a sensing wire installed therein and a patch plug at both ends thereof;

A patch panel provided with a plurality of patch jacks to which the patch plug is inserted and a connection sensing circuit board sensing the connection of the patch cords;

Two wire connection terminals connected to the sensing wire and embedded in an upper surface of the housing of the patch plug;

A panel connection terminal electrically connected to the connection sensing circuit board and having an upper end fixed vertically to the patch panel and a lower end bent in an S shape and a connection part forming a free end;

When the patch plug is inserted into the patch jack, an upper surface of the wire connection terminal is connected to a connection portion formed at the lower end of the panel connection terminal so that the connection sensing circuit board can detect the connection of the patch cord. do.

The wire connection terminal is characterized in that the injection molding the patch plug is integrally formed by insert injection molding.

The patch connection terminal forms a horizontal portion connected to the connection sensing circuit board, a vertical portion which is bent downward from the front end of the horizontal portion, a curved portion and a free end extending from the lower end of the vertical portion and bent in an S shape. It is characterized by consisting of a connecting portion made of a U-shape.

Specifically, the curved portion is characterized by consisting of the first bent portion bent in the direction in which the patch plug is inserted, and the second bent portion bent in the opposite direction to the first bent portion.

According to the patch cord connection detecting structure of the present invention, since the wire connecting terminal is embedded in the housing of the patch plug, the wire connecting terminal can be prevented from being bent by external force or repeated use, and the lower end of the panel connecting terminal has an S shape. Since the elastic force is generated by forming a bent free end, the wire connection terminal can be easily inserted, and the electrical connection between the wire connection terminal and the panel connection terminal can be made stable.

1 is a block diagram showing a patch cord connection detection structure according to the present invention,
Figure 2 is a perspective view showing a patch plug with a wire connection terminal according to the present invention,
3 is a side view showing a panel connection terminal according to the present invention,
4 is a perspective view showing an example of a patch panel according to the present invention;
5 is an exploded perspective view of the patch panel shown in FIG. 4, FIG.
6 is a cross-sectional view of a patch panel according to the present invention,
Figure 7 is a rear view showing the structure of the upper body according to the present invention,
8 is an explanatory view showing a coupling structure of a panel connection terminal and a wire connection terminal according to the present invention;
9 to 11 is a block diagram showing a patch cord connection detection structure according to the prior art.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Before describing the present invention in detail, a detailed description of known techniques or configurations related to the present invention will be omitted if it is determined that the gist of the present invention may be unnecessarily obscured.

In addition, the following terms are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users or operators, and the definitions thereof describe the patchcode connection detecting structure according to the present invention. It should be made based on the contents.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the patch cord connection detection structure according to the present invention.

First, as shown in FIG. 1 and FIG. 2, the patch cord connection sensing structure 1 includes a sensing wire 20 provided in the patch cord 30 and a connection sensing circuit board 50 provided in the patch panel 60. By electrically connecting to the

To this end, a sensing wire 20 is installed in the patch cord 30, and a wire connection terminal 2 is provided in the patch plug 10 installed at both ends of the patch cord 30. The patch panel 60 is provided with a patch jack 80, and when the patch plug 10 is inserted into the patch jack 80, the panel connection terminal 5 is connected so that the wire connection terminal 2 is connectable. It is provided. The patch panel 60 is provided with a connection sensing circuit board 50 electrically connected to the panel connection terminal 5.

That is, when the patch plug 120 of the patch cord 30 provided with the wire connecting terminal 2 is inserted into the patch jack 80 provided in the patch panel 60, the wire connecting terminal 2 is connected to the panel. By connecting to the connection terminal 5, the sensing wire 20 and the two connection sensing circuit board 50 is connected to complete the patch cord connection sensing structure (1).

More specifically, in the patch cord connection sensing structure according to the present invention, the sensing wire 20 is installed inside the shell of the patch cord 30. And both ends of the patch cord 30 is provided with a patch plug 10, the patch plug 10 is made of a structure that is inserted into the patch jack 80 provided in the patch panel 60.

Referring to FIG. 2, two wire connection terminals 2 are installed in the housing 11 of the patch plug 10. The wire connecting terminal 2 is made of a conductive metal rod having a rectangular cross section and is embedded in the upper surface 12 of the housing 11.

To this end, an insertion groove 13 into which the wire connecting terminal 2 is inserted is formed on the upper surface 12 of the housing 11. The upper surface of the wire connecting terminal 2 inserted into the insertion groove 13 forms the same plane as the upper surface 12 of the housing 11. The jaw 14 formed at the rear of the housing 11 has a through hole 15 through which the wire connecting terminal 2 penetrates. The sensing wire 20 is connected to the rear end of the wire connecting terminal 2 penetrating the through hole 15. At this time, it is preferable that the wire connecting terminal 2 is integrally installed by insert molding when the housing 11 of the patch plug 10 is injection molded.

Subsequently, the panel connection terminal 5 provided in the patch panel 60 is a conductive metal rod having a predetermined length, and is installed perpendicular to the patch panel 60. The upper end of the panel connection terminal 5 is connected to the connection sensing circuit board 50, and the lower end forms a free end to be connected to the wire connection terminal 2.

As shown in FIG. 3, the panel connection terminal 5 is horizontally extended 51 so as to be connected to the connection sensing circuit board 50, and bent downward from the tip of the horizontal part 51. It consists of an extended vertical portion 53 and a curved portion 55 bent in an S shape at the tip of the vertical portion 53. In particular, the curved portion 55 includes a first bent portion 57 bent forward, a second bent portion 59 bent backwards, and a connecting portion 59 formed in a U shape.

Therefore, the panel connection terminal 50 according to the present invention has the curved portion 55 is fixed to the front and rear and up and down while the horizontal portion 51 and the vertical portion 53 is fixed to the inside of the patch panel 60. The elasticity and the free end of the connecting portion 59 are rotated relatively easily, so that not only the coupling with the wire connecting terminal 2 is hard but also the coupling and release are easy.

On the other hand, as shown in Figures 4 to 5, the patch panel 60 according to the present invention is largely the front plate 61, the lower body 62 and the upper body 63 and the connection sensing circuit board 50 It consists of a protective cap 64 to receive.

In detail, the front plate 61 is a metal plate, and coupling holes 611 are formed at both edges thereof so as to be coupled to a predetermined rack. In addition, the front plate 61 is formed with a first insertion hole 612 for coupling the lower body 62. The first insertion hole 612 has a size that can be inserted into the body portion of the lower body 62.

And a plurality of brackets 615 for coupling the protective cap 613 is formed to protrude rearward at the top of the rear surface of the front plate (61). The bracket 615 is provided with a protective cap 613 of the '' 'shape. The connection sensing circuit board 50 is mounted inside the protective cap 613. The connection sensing circuit board 50 is a conventional PCB, and is provided with a plurality of transceivers not shown. The transceiver is connected to the panel connection terminal 5.

5 and 6 again, the lower body 62 is a plastic injection molding, and a plurality of second insertion holes 621 are formed to allow a plurality of patch jacks 80 to be inserted therein. The second insertion hole 621 has a size that can be inserted into the body of the patch jack (80).

In addition, a plurality of coupling jaws 625 are formed at predetermined intervals on the front surface of the lower body 62. The coupling jaw 625 is formed to protrude to the front and protrudes a predetermined length also to the upper to allow the upper body 63 to be described later to be combined.

Subsequently, the upper body 63 is made of plastic injection molding, and is inserted into and fixed to the coupling jaw 625 formed on the lower body 62. To this end, the upper body 63 has a coupling groove 636 to the coupling jaw 625 is formed at a predetermined interval on the lower surface.

Preferably, the upper body 63 may be divided into a plurality of blocks to fix the panel connection terminal 50. That is, as shown in Figure 6 and 7, the upper body 63 is a front block 633 is formed with a mounting groove 632 on the front to attach the name plate 631, and the front block 633 A rear block 635 coupled to a coupling groove 634 formed at a rear surface of the panel connection terminal 5 to fix the horizontal portion 51 and the vertical portion 53 of the panel connection terminal 5, and a lower end of the rear block 635; The inner space 637 is formed so that the curved portion 55 of the panel connection terminal 5 can move freely back and forth and up and down, and the lower end of the connection portion 59 is exposed to the outside so as to be connected to the wire connection terminal. And a lower block 639 formed with a through hole 638 so as to be connected to the upper surface of (2).

Accordingly, the plurality of panel connection terminals 5 connected to the connection sensing circuit board 50 are inserted into the coupling groove 634 formed on the rear surface of the front block 633, and the rear block 635 is connected to the connection sensing circuit board 50. When coupled to the coupling groove 634, the horizontal portion 51 and the vertical portion 53 of the panel connection terminal 5 is firmly fixed. Then, when the lower block 639 is inserted and fixed from below, the lower end of the connecting portion 59 is installed to be exposed to the outside so as to be connected to the wire connecting terminal 3. In addition, the curved portion 55 of the panel connection terminal 5 is located in the internal space 637 to be able to move up and down and left and right when an external force is applied.

The upper block 63 to which the panel connection terminal 5 is fixed is coupled to the upper end of the lower block 61, and the upper block 63 and the lower block 61 are coupled to the front surface of the front plate 61. . At this time, the lower body 62 is inserted into the first insertion hole 612, the lower bracket 628 and the upper bracket 627 formed on the rear surface of the upper body 63 is provided on the back of the lower body 61 is It is installed to protrude backward through the first insertion hole (612).

In addition, a plurality of protective caps 64 are installed on the front plate 61 to surround and protect the connection sensing circuit board 50. And the name plate 631 is attached to the front of the upper body (63).

The patch jack 80 is inserted into and coupled to the second insertion hole 621 of the lower body 62. The patch jack 80 is the same as the conventional one and will not be described in detail herein.

The patch panel 60 configured as described above is installed in a predetermined rack using a coupling hole 611 formed in the front plate 61.

Then, when the patch plug 10 installed at both ends of the patch cord 30 according to the present invention is inserted into the insertion port of the patch jack 80 of the patch panel 60, the patch cord connection detection structure (1) ) Will be connected.

That is, when the plug plug 10 is installed, the sensing plug 20 is inserted into the insertion port of the patch jack 80 of the patch panel 60, the panel is installed perpendicular to the upper body 63 of the patch panel 60 The lower end of the connection terminal 5 is in contact with the upper surface of the wire connection terminal 10. At this time, when the wire connecting terminal 2 is inserted from the front to the rear, the curved connecting portion 55 and the connecting portion 59 of the panel connecting terminal 5 moves backward and upward, so that the wire connecting terminal 2 is smooth. Is inserted.

When the curved portion 55 is moved backward and upward, a constant elastic restoring force is generated, so that the coupling between the wire connection terminal 2 and the panel connection terminal 5 is made stable. In addition, since the connecting portion 59 of the panel connecting terminal 5 forms a free end and is curved in a U shape, the connecting portion 59 rotates upward and backward when connected to the wire connecting terminal 2 so as to connect the wire connecting terminal 2. The insertion is made smoothly and the connection is made stable by its elastic force.

 In addition, since the wire connecting terminal 2 is buried in the upper surface so as to coincide with the upper surface 12 of the housing 11 of the patch plug 10, the connection with the panel connecting terminal 5 is always smooth and external force or repetitive The shape of the wire connection terminal 2 is not deformed by use. Accordingly, the present invention has the effect of not causing problems such as poor connection. In addition, since the panel connection terminal 5 according to the present invention also has a free end and a curved portion and has its own elastic force, its shape is not deformed by external force or repeated use, and thus does not cause problems such as poor connection.

In the above described the technical idea of the present invention with reference to the accompanying drawings and preferred embodiments, but the scope of the present invention is not limited to these drawings and embodiments, it is obvious that the matter set forth in the claims described below, It is natural that the design which can be easily implemented by those skilled in the art based on the technology described in the specification is within the scope of the present design.

1: patch cord connection detection structure 2: wire connection terminal
5: Panel connection terminal 10: Patch plug
11: housing 13: insertion groove
15: through hole 20: wire connection terminal
30: patch cord 50: connection detection circuit board
51: horizontal portion 53: vertical portion
55: curved portion 57: first bent portion
58: second bend portion 59: connection portion
60: patch panel 61: front panel
62: lower body 63: upper body
611: coupling hole 612: first insertion hole
613: protective cap 615: bracket
621: second insertion hole 625: coupling jaw
631: name plate 632: mounting groove
633: front block 635: rear block
637: internal space 638: through hole
639: lower block

Claims (4)

A patch cord having a sensing wire installed therein and a patch plug at both ends thereof;
A patch panel provided with a plurality of patch jacks to which the patch plug is inserted and a connection sensing circuit board sensing the connection of the patch cords;
Two wire connection terminals connected to the sensing wire and embedded in an upper surface of the housing of the patch plug;
A panel connection terminal electrically connected to the connection sensing circuit board and having an upper end fixed vertically to the patch panel and a lower end bent in an S shape and a connection part forming a free end;
When the patch plug is inserted into the patch jack, an upper surface of the wire connection terminal is connected to a connection portion formed at the lower end of the panel connection terminal so that the connection sensing circuit board can detect the connection of the patch cord. Patch cord connection detection structure.
The method of claim 1,
The wire connection terminal is a patch cord connection sensing structure, characterized in that made by insert injection molding when the injection molding the patch plug.
The method according to any one of claims 1 to 3,
The panel connection terminal forms a horizontal portion connected to the connection sensing circuit board, a vertical portion bent downward from the front end of the horizontal portion, a curved portion and a free end extending from the lower end of the vertical portion and bent in an S shape. Patch cord connection detection structure, characterized in that consisting of the U-shaped connection portion.
The method of claim 3, wherein
The curved portion is a patch cord connection detection structure, characterized in that consisting of the first bent portion bent in the direction in which the patch plug is inserted, and the second bent portion bent in the opposite direction to the first bent portion.

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