KR200157485Y1 - Optical cable connector in a self - Google Patents

Abstract

The present invention relates to an optical cable connection structure that is connected to the unit of self communication system from the outside for optical communication, the configuration is a self unit consisting of a printed circuit board 41, and the front plate 42 coupled to its tip A structure for connecting an optical cable (18) to (40), comprising: an optical cable (18) having a jack (18a) at the tip to transmit an optical signal; A hole 43 is formed in the front plate 42 and the connecting portion for connecting the jack 18a of the optical cable 18 to the outside is exposed to the outside and installed at the front end of the printed circuit board 41. An optical connector 50 directly connected to the pattern of 41); It consists of a housing (60) for supporting the optical connector (50) and the jack (18a) of the optical cable 18 is fixedly connected to the hole 43 formed in the front plate (42). With this configuration, the connection structure of the optical cable 18 is simple, the number of parts and assembly work is reduced, and since the connection part of the optical cable 18 is reduced, the loss of the optical signal can be greatly reduced. When the housing 60 is attached to the front plate 42 of the unit 40, it is easy to detach the hole 60 of the front plate 42 by using the hooks 63 installed at the upper and lower portions of the housing 60. In addition, there is an advantage that can effectively protect the connection.

Description

Self optical cable connection structure

The present invention relates to an optical cable connection structure that is connected from the outside for the optical communication to the unit of Self which is a communication system.

In general, optical communication is to exchange information by transmitting light, optical fiber made of glass fiber, that is, optical cable is a medium, and can transmit tens of thousands of times of information compared to current electric communication by coaxial cable. In addition, since the transmission state of the information is not affected by the radio waves from the outside and the electromagnetic at all, it is widely used in the communication field.

FIG. 1A is a front view of a main portion showing a state in which an optical cable is connected to a unit front plate of a shelf according to the prior art, and FIG. 1B is a side view illustrating a state in which an optical cable is connected to a unit of the shelf according to the related art. Likewise, the unit 10 forming a self is also connected to the optical cable 18 for optical communication from the outside.

The unit 10 is composed of a printed circuit board 11 having electronic components installed thereon and a front panel 12 installed at the front of the printed circuit board 11, which has a connector for connecting internal systems to each other. A connector 19 and an optical connector 14 for external signal transmission are provided. The connector 19 for circuit connection of the internal system is installed at the rear side of the printed circuit board 11, and the connector 14 for connection with an external system is connected to the printed circuit board 11 like other electronic components. It is installed on the side. Therefore, in order to connect the external optical cable 18 to the unit 10, the intermediate connector 15 is installed on the front plate 12 of the unit 10 to connect the external optical cable 18 to the jack 18a formed at the end. Connect via In addition, a separate optical cable 16 is also provided between the intermediate connector 15 and the optical connector 14 installed on the printed circuit board 11 to be connected to each other through jacks 16a and 16b provided at both ends. have.

In addition, the intermediate connector 15 is fixed to the front plate 12 of the unit 10 through the housing 20. The housing 20 is integrally protruded from the support piece 22 to protect the connection portion of the external optical cable 18 on the front, and the upper and lower ends are coupled to the front plate 12 by riveting or welding. When the housing 20 is installed on the unit front plate 12 as described above, the intermediate connector 15 is installed in the housing 20. The intermediate connector 15 contracts when inserted into the upper and lower surfaces, and self-elevates after the insertion is completed. Is detachably installed from the housing 20 by the elastic piece 15a which is opened by the opening and fixed to the upper and lower ends of the hole of the housing 20. Reference numeral 13 is an ejector for easily detaching the unit 10 from the shelf.

Thus, the conventional unit 10 to which the optical cable 18 is connected from the outside has to install the intermediate connector 15 to connect the external optical cable 18 with the optical connector 14 installed on the printed circuit board 11. And the housing 20 for fixing the intermediate connector 18, the optical cable 16 and the optical cable 16 connecting the intermediate connector 15 and the connectors 15 and 20 to the printed circuit board 11. Since the number of parts is increased by having a holder 17 or the like, the number of parts increases, and there is a closed end to increase the number of airborne parts by assembling the housing 20 to the front plate 12 and installing the intermediate connector 15 thereto. .

In addition, when the optical cable 16 is connected between the intermediate connector 15 and the connector 14, when the optical cable 16 is bent below the limit curvature radius due to the characteristics of the optical cable, the optical fiber made of glass material is cut or damaged as the optical fiber is damaged. Loss may occur and cause communication failure. Therefore, in order to prevent this, the length of the optical cable 16 is lengthened by winding the optical cable 18 with a sufficient radius of curvature and connecting them smoothly, thereby limiting the installation space of the peripheral components and connecting them. There are many parts, which leads to poor communication due to the loss of many optical signals.

The present invention has been devised to solve such a conventional closure.

The object of the present invention is to connect the external optical cable directly to the connector of the printed circuit board, thereby simplifying the connection structure and reducing the number of parts. It is to provide a self-optic cable connection structure.

In addition, the optical connector installed in the unit is directly exposed to the connector portion formed on the front side, the housing structure to protect the exposed portion of the optical connector is exposed to the exposed portion of the optical connector and the jack portion of the external optical cable connected thereto. An object of the present invention is to provide a housing for connecting an optical cable that effectively protects and easily detaches from a front plate.

1A is a front view illustrating a main part of a state in which an optical cable is connected to a unit front plate of a shelf according to the related art.

1B is a side view illustrating a state in which an optical cable is connected to a unit of a shelf according to the related art.

Figure 2 is a perspective view of the main part showing a state in which the optical cable is connected to the unit of the shelf according to the present invention.

Figure 3 is an exploded perspective view of the optical cable connection of the unit of the shelf according to the present invention.

Figure 4 is a side view showing a state in which the optical cable is connected to the unit of the shelf according to the present invention.

*** Explanation of symbols for the main parts of the drawing ***

10: unit 18: optical cable

18a: Jack 41: printed circuit board

42: front panel 43: hole

50: optical connector 60: housing

61: body 62: support piece

63: hook 64: insertion portion

Means of the present invention for achieving the above object is in a structure for connecting an optical cable to a unit of self consisting of a printed circuit board comprising an electronic component, and a front plate coupled to the front end,

An optical cable having a jack at its tip to transmit an optical signal;

An optical connector installed in the front end of the printed circuit board so as to expose a connection portion for connecting the jack of the optical cable to the outside through a hole in the front panel and directly connected to the pattern of the printed circuit board;

It is achieved by consisting of a housing for supporting the jack and the optical connector of the optical cable connected and fixed to the hole formed in the front plate.

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

Referring to Figure 2, Figure 2 is a perspective view of the main portion showing the state in which the optical cable is connected to the unit of the shelf according to the present invention, the unit 40 forming the shelf is a printed circuit board 41 is installed with electrical components as shown And, the ejector 13 is installed on the upper and lower portions of the self frame (not shown in the figure) to be easily detached and consists of a front plate 42 coupled to the front portion of the printed circuit board 41. In addition, the front end of the printed circuit board 41 is fixed to the structure in which a plurality of optical connectors 50 are connected to the pattern of the printed circuit board 41 up and down, the optical connector 50 is connected to the optical cable 18 The front surface on which the connecting portion is formed is inclined downward in the diagonal direction of the printed circuit board 41. The front end of the connector 50 passes through the front plate 42 and is exposed to the outside, and the optical cable 18 is connected to the front surface of the exposed optical connector 50 by the jack 18a. The housing 60 is detachably coupled to the hole 43 of the front plate 42 to protect the tip of the optical connector 18 exposed to the outside and the jack 18a of the optical cable 18 connected thereto. It is.

In the above-described front plate 42, at least one or more rectangular holes 43 are drilled up and down so that the front end portion of the optical connector 50 coupled to the printed circuit board 41 is exposed as shown in FIG. 3. In addition, the housing 60 coupled to the hole 43 of the front plate 42 is provided with a body 61 in a rectangular shape penetrated back and forth in the form of the hole 43 of the front plate 42, the body 61 At the rear upper and lower ends of the hook 63 is protruded in the rearward direction. And both sides of the body 61 is integrally formed with the insertion portion 64 is inserted into the hole 43 of the front plate 42, the support portion 62 of the triangular shape on both sides of the front of the central portion of the body 61. ) Protrudes forward.

When the front plate 42 is coupled to the front surface of the printed circuit board 41, the front end portion of the optical connector 50 installed at the front end portion of the printed circuit board 41 is formed as shown in FIG. 4. 43) to the outside. At this time, the exposed end of the optical connector 50, the optical connector 50 is installed downward in the diagonal direction to the printed circuit board 41, one side edge portion is protruded in front of the front plate (42). In this state, when the housing 60 is inserted into the front plate 42 of the unit 40, the insertion portion 64 formed at both sides of the rear side of the body 61 of the housing is inserted into the hole 43, so that the housing 60 is In the front plate 42 of the unit 40, the housing 60 is prevented from flowing left and right, and the hooks 63 formed at the upper and lower rear sides of the body 61 are inserted into the holes 43 and then the holes 43 The housing 60 is firmly fixed to the front plate 42 by the rear upper and lower ends. When the front plate 42 coupled with the housing 60 is coupled to the front surface of the printed circuit board 41 to which the optical connector 50 is coupled, the optical connector 50 of the optical connector 18 to which the jack 18a of the optical cable 18 is connected is connected. The front face is located in the support piece 62 of the housing 60.

Therefore, when the external optical cable 18 is connected to the self unit 40 having such a structure, the connection is completed simply by plugging it into the optical connector 50 exposed on the front plate 42 of the unit 40. In addition, when the jack 18a formed at one end of the optical cable 18 is connected to the optical connector 50, the front end portion of the optical connector 50 and the jack 18a portion of the optical cable 18 are connected to the support piece of the housing 60 ( Positioned in the support 62 and supported by the support piece 62.

As described above, the present invention provides an optical connector 50 for connecting an external optical cable to the internal device of the unit 40, which is installed at the front end of the printed circuit board 41 to the front plate 42 of the unit 40. Since it is exposed, the external optical cable 18 is directly connected to the optical connector 50. Therefore, the connection structure of the optical cable 18 is simple, the number of parts and the number of assembly operations are reduced, and because the connection portion of the optical cable 18 is reduced can greatly reduce the phenomenon that the optical signal is lost through the connecting portion there is a certain advantage that the optical signal transmission.

In addition, when the housing 60 is attached to the front plate 42 of the unit 40, it is easy to attach or detach the hole 43 of the front plate 42 by using the hooks 63 installed at the upper and lower portions of the housing 60. In addition, there is an advantage that can effectively protect the connection.

Claims (2)

In a structure in which an optical cable 18 is connected to a printed circuit board 41 and a unit 40 of a shelf in which a front plate 42 is coupled to a front end thereof, An optical cable 18 having an jack 18a at its tip to transmit an optical signal; A hole 43 is formed in the front plate 42 and the connection portion for connecting the jack 18a of the optical cable 18 to the outside is installed at the tip of the printed circuit board 41 and exposed to the outside. An optical connector 50 directly connected to the pattern of 41); Self-connected optical cable connection comprising a housing (60) for supporting the optical connector (50) and the jack (18a) of the optical cable 18 is fixedly connected to the hole 43 formed in the front plate (42) rescue. According to claim 1, wherein the housing (60) and the body (61) for forming an edge in the shape of a hole (43) of the front plate (42); A hook (63) provided at the rear upper and lower ends of the body (61) and fixed to upper and lower ends of the holes (43) of the front plate (42); Self-providing optical cable comprising a support piece 62 protruding from both sides of the front center portion of the body 61 to protect the front end of the optical connector 50 and the jack 18a connected to the optical connector 50. Connection structure.