KR100450280B1 - Housing structure for an optical transceiver module - Google Patents

Abstract

The present invention relates to a housing structure of a light transmitting / receiving module, which is simplified by assembling a housing body using its own elasticity without requiring complicated processes such as precise bending process or fastening process for fabrication and assembly. And a housing body 1 having a light receiving element and a printed circuit board installed therein, a cover 2 covering the housing body 1, an optical connector insertion hole 3 installed at a front end of the housing body 1, And a connector (4) installed at the rear end of the housing body (1) and electrically coupled to the rear edge of the printed circuit board, wherein the housing body (1) is provided from one side upper end portion. A concave portion 1a extending from the outer surface thereof to a predetermined width through the bottom surface and to the other upper end portion thereof; The housing structure comprises a bracket rocker 10 which is made of a metallic plate member having a predetermined elasticity and elastically fits into the recess 1a of the housing body.

Description

Housing structure of optical transmission module {HOUSING STRUCTURE FOR AN OPTICAL TRANSCEIVER MODULE}

The present invention relates to a housing structure of an optical transmitting and receiving module, and more particularly, to a housing structure of an optical transmitting and receiving module configured to reliably mount and easily detach an optical transmitting and receiving module in an optical communication system on a network.

In general, an optical transmission system employs an optical transmission / reception module for transmitting an optical signal emitted from a light emitting element through an optical fiber and detecting an optical signal transmitted from the optical fiber to the light receiving element.

1 and 2, the conventional light transmitting / receiving module is basically a light emitting device for emitting a laser light, a light receiving device for receiving an incident laser light, and driving the light emitting device to detect the light receiving device. It includes a printed circuit board to which a signal is input, a housing body 100 in which the light emitting device, the light receiving device, the printed circuit board is installed, and a cover 200 covering the housing body 100. Here, the light emitting device, the light receiving device, and the printed circuit board are installed in the housing body 100 and are not shown in the drawings.

In addition, as shown in FIG. 1, the front end of the housing body 100 transmits the light output from the light emitting device to an optical fiber (not shown), and supports the optical fiber to receive an optical signal input from an external optical fiber. An optical connector insertion hole 300 into which an optical connector (not shown) is inserted is provided.

In addition, the rear end of the housing body 100 is provided with an SCA2 type connector 400 coupled to the rear edge of the printed circuit board is inserted into another optical communication module or optical communication system (not shown) and electrically coupled.

In addition, the outer surface of both side walls of the housing body 100 is provided with a guide groove (100b) for guiding when mounting and detaching the optical transmission and reception module in the optical communication system and a locker (110) for fixing the mounted state It is. In general, the rocker 110 is manufactured by bending thin metal having a substantially rectangular shape three to four times, and fixedly coupled to the outer surface of the housing by a fastening means 150 such as a screw, a rivet, or pressure point welding.

Such a conventional optical transmission / reception module is mounted in an optical communication system to be used in an optical communication network such as a Gigabit Ethernet (Gigabit Ethernet) or a storage network or a fiber channel of MAN (Matropolitan Area Network), a Wide Area Network (WAN), and high speed data transmission. In order to drive the built-in light emitting device according to the electrical signal of the printed circuit board, the emitted light is transmitted through the optical fiber installed in the optical connector. In addition, the light received by the light receiving element is converted into an electrical signal through an optical fiber connected to the optical connector, and is connected to an amplifier (not shown) installed on the printed circuit board to amplify the weak information signal.

By the way, when the conventional optical transmission module is inserted into the optical transmission module mounting portion of the optical communication system, the locker 110 installed in the housing body 100 of the conventional optical transmission module after the optical transmission module is mounted in the optical communication system It is formed to have a substantially right triangle shape through a bending process three or four times to form a portion 120 to prevent the movement or falling in the reverse direction. In addition, the rocker 110 is assembled to the outer surface of the optical transmission module by a fastening component 150 such as a screw or rivet.

Therefore, in the housing structure of the conventional optical transmitting and receiving module, the number of required parts is increased by the rocker 110, the productivity is lowered, and the manufacturing cost is increased, and the incidence of defective parts having an unstable structure is high because it includes several bending processes. there is a problem.

On the other hand, as another example of the rocker described above, a method of using a rocker manufactured by an injection process or a plastic integral rocker has been proposed, but such a conventional rocker has a problem of being broken or broken relatively easily during use.

The present invention has been made to solve the above problems, does not require a complicated process such as precise bending process or fastening process for manufacturing and assembly, and rarely damaged even if often used, simply to the housing body using its own elasticity The purpose of this is to provide a housing structure of a light transmitting / receiving module with a simplified assembly process.

1 is a perspective view showing an example of a conventional optical transmission module;

2 is a perspective view showing a housing body of a conventional optical transmission module;

Figure 3a is a perspective view showing an optical transmission module according to an embodiment of the present invention,

3B is a front view of the optical transmitting and receiving module of FIG. 3A;

Figure 3c is a bottom view of the optical transmitting and receiving module of Figure 3b,

4A is a perspective view showing a housing body according to an embodiment of the present invention;

4B is a front view of the housing body of FIG. 4A;

4C is a bottom view of the housing body of FIG. 4B;

5A is a plan view of a bracket rocker according to an embodiment of the present invention;

5B is an enlarged front view of the bracket rocker of FIG. 5A;

5C is an enlarged left side view of the bracket rocker of FIG. 5A.

Explanation of symbols on the main parts of the drawings

1 ... housing body 1a ... recess

1b ... guide groove 1c ... receptacle

2 ... cover 3 ... fiber optic connector

4 ... connector 10 ... bracket locker

11 ... body 12 ... extension

13a, 13b ... lock portion 14 ... distal end

15 ... forming part

The housing structure of the optical transmitting and receiving module according to the present invention for achieving the above object, the housing body is installed therein, the light emitting element, the light receiving element and the printed circuit board, the cover covering the housing body, the front end of the housing body In the housing structure of the optical transmitting and receiving module comprising an optical connector insertion hole is installed in the rear end of the housing body, the connector is electrically coupled to the rear edge of the printed circuit board, the housing body from the upper side of one side A concave portion extending from the outer surface thereof to a predetermined width through the bottom surface to the other upper side end portion thereof; The housing structure is characterized by comprising a bracket locker made of a metallic plate member having a predetermined elasticity and elastically fitting to a recess of the housing body.

In the above-described present invention, the bracket rocker includes a 'c' shaped body portion fitted to the recessed portion of the housing body; Both extension portions extending from one edge of the body portion in parallel with a bottom surface of the receiving portion of the housing body at a predetermined distance; A pair of lock portions each having a right triangle shape that is bent and protruded once to face the outward direction of the housing body from the extension portion; And it characterized in that it comprises two end portions that extend outward on the extension line of the extension.

In addition, in the present invention described above, it is preferable that the distal end portion of the bracket locker further includes a forming part, the edge portion of which is partially wrapped. It is formed primarily to protect the user from the sharpness of the distal end that occurs on the press process.

In addition, in the present invention described above, it is preferable that the housing body is provided with guide grooves on both outer surface surfaces thereof, respectively. This is responsible for guiding the optical transmission / reception module to be properly inserted and mounted in the optical transmission / reception module mounting portion of the optical communication system when the optical transmission / reception module is mounted in the optical communication system.

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

Figures 3a to 3c is a view showing the optical transmission module according to the present invention, Figures 4a to 4c is a view showing a housing body according to the present invention, Figures 5a to 5c is a view showing a bracket locker according to the present invention to be.

3A to 3C, the housing structure of the optical transmission / reception module according to the present invention is provided by a housing body 1 having a recess 1a and a bracket rocker 10 fitted to the recess 1a. Is characterized.

The recess 1a formed in the housing body 1 extends from its outer surface to a predetermined width from the upper surface of one side of the housing body 1 to the upper surface of the other side through the bottom.

4A to 4C, the recess 1a is formed from the front of the housing body 1, that is, from the upper left side of the left outer side of the housing body 1 at the side where the optical connector insertion hole 3 is disposed. It extends through the bottom outer surface of the housing body 1 to the upper end of the right outer side of the housing body 1 in parallel with the front side of the body 1.

At this time, the recess 1a has a predetermined width and recesses into the surface of the housing body 1 by a predetermined depth. The concave portion 1a has a shape corresponding to the body portion 11 so that the body portion 11 of the bracket rocker 10 to be described below will be formed in a substantially 'c' shape.

The housing body 1 also has guide grooves 1b formed on both outer surfaces thereof so as to slide smoothly when the optical transmission / reception module is inserted into the optical communication system.

Next, referring to FIGS. 5A to 5C, the bracket locker 10 of the present invention includes a body portion 11, both extension portions 12, a pair of lock portions 13a and 13b on both sides, and both end portions 14. ) And the forming unit 15. In addition, the bracket rocker 10 is formed by a metallic thin plate member. Accordingly, the bracket rocker 10 of the present invention has a predetermined elastic force.

In addition, the body portion 11 is formed in a substantially 'c' shape so as to correspond to the above-described recessed portion 1a and fits into the recessed portion 1a. That is, when the body portion 11 is inserted into the recessed portion 1a, the body portion 11 is opened by its elastic force so that the opposite surfaces of the body portion 11 and the recessed portion 1a are substantially in contact with each other. Fully inserted and fitted

The extensions 12 extend from one edge of the distal end of the body 11, respectively. At this time, the extending direction extends in the front direction in which the optical connector insertion hole 3 is disposed. The extension 12 also extends in parallel with the outer surface of both outer surfaces of the housing body 1 indicated by reference 1c of FIG. 4A at a predetermined distance. At this time, the corresponding part of the housing body 1 becomes a receiving portion 1c which partially receives the extension portion 12 and the lock portions 13a and 13b.

The lock portions 13a and 13b are formed by bending only once in the extension portion 12 such that their right-angled triangular shaped portions protrude in the outward direction of the housing body 1. At this time, the right angled corner portions of the lock portions 13a and 13b are disposed to face the optical connector insertion opening 3 side.

Both end portions 14 of the bracket rocker 10 are formed to slightly open outward on the extension line of the extension 12. This serves to separate the optical transmission / reception module by pressing and closing both end portions 14 when the optical transmission / reception module having the bracket locker 10 of the present invention is removed from the optical transmission / reception module mounting portion of the optical communication system.

In addition, the distal end 14 may be provided with a forming part 15 that partially encloses an edge portion thereof to protect a user's hand and the like.

Finally, the manufacturing process of the bracket locker 10 of the present invention will be briefly described. First, a thin metal plate having a suitable size is pressed through a pressing process, such as a body part 11, an extension part 12, lock parts 13a and 13b, and a distal end part. 14 and the forming portion 15 are made into a predetermined shape. Then, the lock portions 13a and 13b are bent and formed in only one bending process.

As described above, the housing structure of the optical transmission / reception module according to the present invention can be easily manufactured by a press process and only one bending process, and because it uses a metallic member, almost no damage occurs even when frequently used, and the self-elasticity of the metal is reduced. Since the bracket locker is simply fitted to the housing body to be coupled through, there is an advantage that the manufacturing cost is low because the manufacturing and assembly process is simple.

In addition, through the bracket locker, there is an advantage in that the optical transmission / reception module can be repeatedly mounted or detached in another optical communication module or optical communication system more reliably.

Claims (4)

delete A housing body 1 having a light emitting element, a light receiving element, and a printed circuit board installed therein, a cover 2 covering the housing body 1, and an optical connector insertion hole provided at a front end of the housing body 1; (3) and a connector (4) installed at the rear end of the housing body (1) and electrically coupled to the rear edge of the printed circuit board, The housing body (1) has a recess (1a) extending in a predetermined width from its outer surface from one side upper end portion to the other side upper end portion through the bottom surface; The housing structure is made of a metallic plate member having a predetermined elasticity and an optical transmission module comprising a bracket locker (10) that is elastically fitted to the recess (1a) of the housing body (1) In the housing structure of, The bracket rocker 10 is A 'c' shaped body part fitted into the recessed part 1a of the housing body 1; Both extension portions 12 extending from one edge of the body portion 11 in parallel with the bottom surface of the receiving portion 1c of the housing body 1 at a predetermined distance; A pair of lock portions 13a and 13b each having a right triangle shape which is bent from the extension portion 12 toward the outside of the housing body 1 and protrudes; And Housing structure of the optical transmission module characterized in that it comprises two end portions (14) spread outwards on the extension line of the extension portion (12). The method of claim 2, The distal end portion (14) of the bracket rocker further comprises a forming part (15) in which an edge portion thereof is partially wrapped. The method of claim 2, The housing body (1) is a housing structure of a light transmitting and receiving module, characterized in that each having a guide groove (1b) on both outer surfaces thereof.