KR100252113B1 - Module for transmitting and receiving light - Google Patents

Abstract

PURPOSE: An optical transmitting and receiving module is provided to simplify an assembly process by mounting a light emitting element and a light receiving element at an adaptor monolithic holder and assembling the adaptor monolithic holder at a housing. CONSTITUTION: A light emitting element(10) and a receiving element(20) are mounted at each of adaptor monolithic holder(30,40). Each safe receipt part(32) of an adaptor monolithic light emitting element(110) and an adaptor monolithic light receiving element(120) is positioned at a groove(63) having an arch shape, and a fixing projection(33) is positioned at a fixing groove(67). After this, the adaptor monolithic light emitting element(110) and the adaptor monolithic light receiving element(120) are mounted at a housing(60). Connection pins(51) of a printed circuit board(50) are fixed into penetration grooves(64). Next, the light emitting element(10) and the receiving element(20) are connected to the printed circuit board(50) electrically.

Description

Optical transmission module

The present invention relates to an optical transmission module, and more particularly, to an optical transmission module that enables high-speed transmission of optical signals in an optical transmission system.

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.

As shown in FIG. 1, a conventional light transmitting / receiving module includes a light emitting device 2 for emitting laser light, a light receiving device 3 for receiving incident laser light, and a light emitting device for driving the light emitting device. A printed circuit board 4 to which a detection signal is input, and a housing 1 in which the light emitting element 2, the light receiving element 3, and the printed circuit board 4 are installed.

Meanwhile, as shown in FIG. 2, the light output from the light emitting device 2 is transferred to an optical fiber (not shown) and a light signal input from an external optical fiber is received at the side end of the housing 1. An optical connector insertion hole 5 into which an optical connector (not shown) for supporting an optical fiber is inserted is provided.

Such a conventional optical transmission / reception module is used for a local area network or the like, and drives a built-in light emitting device 2 according to an electrical signal of the printed circuit board 4 for high-speed data transmission, and thus the emitted light is an optical connector. To be transmitted through the optical fiber installed in the. In addition, the light received by the light receiving element 3 is converted into an electrical signal through an optical fiber installed in the optical connector, and connected to an amplification device (not shown) installed in the printed circuit board 4 to amplify the weak information signal. It is prepared to do so.

However, such a conventional optical transmission / reception module has the printed circuit board 4 far from the optical connector insertion hole 5 on the upper surface of the housing so that the housing 1 can connect the optical transmission / reception module with a main board (not shown). ) Has a structure in which the light emitting element 2 and the light receiving element 3 are inserted into the groove from the open portion 7 side inwardly. In addition, the optical connector insertion hole 5 to which the optical connector can be coupled is fitted inward at the side of the optical transmission module. Then, the printed circuit board 4 is assembled to the housing 1 through the opening 7.

Therefore, the conventional optical transmitting and receiving module as described above requires many assembly processes such as the assembly process of the light emitting element 2 and the light receiving element 3, the assembly process of the optical connector insertion hole 5, and the assembly process of the printed circuit board 4. In addition, the assembly process is not continuously made and complicated, so the assembly work is difficult, thereby increasing the manufacturing cost.

The present invention has been made to solve the above problems, and in the assembling process, the light emitting element and the light receiving element are mounted in advance in the adapter-integrated holder, and then assembled into the housing to provide an optical transmission / reception module with a simplified assembly process. There is a purpose.

1 is a plan view schematically showing a conventional optical transmission module;

2 is a right side view of FIG. 1;

3 is an exploded perspective view schematically showing an optical transmission and reception module according to an embodiment of the present invention;

4 is a perspective view schematically showing an adapter-integrated holder in which the light emitting device and the light receiving device of FIG. 3 are mounted;

5 and 6 each show a plan view and a side view of the housing of FIG.

<Description of the symbols for the main parts of the drawings>

10 ... light emitting element 20 ... light emitting element

30, 40 holder 32 seat

33.Fixed jaw 35 ... Adapter

50 ... printed circuit board 60 ... housing

62 ... Bulkhead 63 ... Home

65.Medium wall 66

67.Fixed groove 68 Guide groove

70 Cover element 71 Jam groove

According to an aspect of the present invention, there is provided a light transmitting / receiving module, comprising: a light emitting device for generating and emitting light to convert an electrical signal into an optical signal; A light receiving element that receives incident light and converts an optical signal into an electrical signal; A pair of holders on which the light emitting element and the light receiving element are mounted; A printed circuit board driving the light emitting element and receiving a detection signal of the light receiving element; A housing having a groove in which the pair of holders are installed, and the printed circuit board mounted on one side thereof; And a cover member slidably coupled to the housing so that the housing is sealed.

Here, the partition wall is provided in an adjacent portion of the region in which the printed circuit board is mounted in the housing, and the pair of grooves are formed in the partition wall in an arch shape.

In addition, each holder is seated in the groove and the outer periphery of the seating portion and the adapter is coupled to the optical connector for supporting the optical fiber is integrally provided.

In this case, the holder is further provided with a fixing jaw at the boundary between the seating portion and the adapter, the housing is provided with an intermediate wall portion extending from the approximately center of the partition wall, the fixing jaw on both sides of the partition and the intermediate wall portion adjacent It is preferable that the fixing groove to be inserted is provided.

On the other hand, the housing is preferably provided with a guide groove in the longitudinal direction along both side walls so that the cover member is slid and fitted.

In addition, it is preferable that a locking protrusion is provided at one of the housing and the cover member so that the cover member slidingly fitted to the housing can be caught by the housing, and a locking groove is provided at the other side to which the locking protrusion is fitted.

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

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

Referring to the drawings, the light transmission and reception module generates and emits light to convert the electrical signal into an optical signal 10, a light receiving element 20 for receiving incident light to convert the optical signal into an electrical signal, the light emitting device ( 10) and a pair of holders 30 and 40 on which the light receiving element 20 is mounted, a printed circuit board 50 electrically connected to the light emitting element 10 and the light receiving element 20, and the pair of holders ( 30 and 40 have a pair of grooves 63 respectively installed therein and a housing 60 on which the printed circuit board 50 is mounted and a cover member 70 slidably fitted to the housing 60. It is configured to include).

The light emitting device 10 is a semiconductor laser that emits laser light. The light emitting device 10 is electrically connected to the printed circuit board 50 to be driven and outputs an optical signal. Light output from the light emitting element 10 is transmitted through an optical fiber (not shown) supported by an optical connector (not shown). The light receiving element 20 is electrically connected to the printed circuit board 50 and receives an optical signal input from an external optical fiber supported by an optical connector to detect the optical signal.

An optical device, that is, the light emitting device 10 and the light receiving device 20 are mounted on the holders 30 and 40, respectively. As shown in FIG. 4, the holders 30 and 40 according to the present invention have a seating portion 32 seated in the groove 63 formed in the housing 60 and an adapter to which an optical connector is coupled. 35). A fixing jaw 33 for stably mounting the holders 30 and 40 is provided at the boundary between the seating part 32 and the adapter 35.

The seating part 32 is formed with a hollow 32a in the longitudinal direction to mount the optical device, that is, the light emitting device 10 and the light receiving device 20, and the outer circumference thereof is provided in an arch shape.

The adapter 35 is integrally formed with the seating portion 32, and the snap coupling portion 37 and the optical fiber and the ferrule mounted in the ferrule (not shown) of the optical connector are inserted to elastically couple the optical connector. And an optical coupling part 31 to be close to the optical device.

The holders 30 and 40 provided as described above are adapter-integrated holders 30 and 40 in which the adapter 35 for coupling with the optical connector is integrally provided. Hereinafter, the light emitting device 10 and the light receiving device 20 mounted and mounted on the adapter integrated holder 30 and 40, respectively, are referred to as an adapter integrated light emitting device 110 and an adapter integrated light receiving device 120. .

The printed circuit board 50 drives the light emitting device 10 according to an electrical signal for high speed data transmission, and thus emits light, that is, an optical fiber installed in an optical connector to which an optical signal is coupled to the adapter 35. To be transmitted through. In addition, a signal detected by the light receiving element 20 is input to the printed circuit board 50 through an optical fiber installed in an optical connector, and is connected to an amplifying device (not shown) installed in the printed circuit board 50. To amplify the weak information signal. Connection pins 51 protrude from the printed circuit board 50, and the connection pins 51 are electrically connected to a main board (not shown).

As shown in FIGS. 5 and 6, the housing 60 includes a first area in which the adapter integrated light emitting device 110 and the adapter integrated light receiving device 120 are mounted, and the printed circuit board 50 is mounted. It is divided into a second area 61 that is. A partition wall 62 is provided in a first area adjacent to the second area 61, and the partition wall 62 is formed with an arch-shaped seating portion 32 of the adapter-integrated holder 30 and 40. A pair of grooves 63 are provided. At this time, the groove 63 is preferably the cross-sectional shape of the arch shape so that the outer periphery of the arch shape of the seating portion 32 can be mounted in close contact.

In addition, the housing 60 has an intermediate wall portion extending from an approximately center of the partition 62 to spatially separate the adapter-integrated light emitting device 110 and the adapter-integrated light-receiving device 120 mounted in the groove 63, respectively. 65) is provided. In this case, fixing grooves 67 are provided at both adjacent portions of the partition wall 62 and the intermediate wall part 65 to fit the fixing jaw 33 of the adapter integrated light emitting device 110 and the adapter integrated light receiving device 120. .

As described above, in the adapter integrated light emitting device 110 and the adapter integrated light receiving device 120, a seating portion 32 is seated in the groove 63, and a fixing jaw 33 is fitted in the fixing groove 67 to provide a housing 60. Because it is seated in the) it can be installed stably in the housing (60).

On the other hand, the guide member 68 is formed in the longitudinal direction along both side walls of the housing 60 so that the cover member 70 slides into the housing 60.

In addition, the housing 60, that is, the upper surface of one side of the intermediate wall 65 is provided with a locking projection 66 so that the cover member 70, which is slid into the housing 60, can be engaged. In addition, a locking groove 71 to which the locking protrusion 66 is inserted and coupled is provided at a position corresponding to the locking protrusion 66 on the bottom surface of the cover member 70. Here, the locking groove may be provided in the housing 60 and the locking protrusion may be provided on the lower surface of the cover member 70.

In addition, the bottom surface of the second region 61 of the housing 60 is provided with a through groove 64 for protruding the connecting pin 51 of the printed circuit board 50 to the outside of the optical transmission module. The substrate 50 can be easily mounted, whereby the connection between the printed circuit board 50 and the main board is convenient.

Optical transmission module according to the present invention provided as described above is assembled in the following process.

First, the light emitting device 10 and the light receiving device 20 are mounted in the adapter integrated holders 30 and 40, respectively. Position the mounting portion 32 of the adapter-integrated light-emitting device 110 and adapter-integrated light-receiving device 120 to the arched groove 63 and the fixing jaw 33 to fit the fixing groove 67. The adapter integrated light emitting device 110 and the adapter integrated light receiving device 120 are mounted in the housing 60. In addition, the printed circuit board 50 is positioned so that the connecting pins 51 are fitted into the through groove 64 and is mounted in the second area 61 of the housing 60.

The light emitting device 10 and the light receiving device 20 are electrically connected to the printed circuit board 50, and optionally, the connection pins 51 are connected to the main board.

Then, when the cover member 70 is inserted along the guide groove 68 so that the housing 60 is sealed, the locking projection 66 and the locking groove 71 are engaged, and the cover member 70 is connected to the housing 60. It is coupled to, and the assembly of the optical transmission module is completed.

As described above, the optical transmission / reception module according to the present invention outputs an optical signal by driving the light emitting device 10 by the printed circuit board 50 according to the information signal of the main board. It is transmitted through the optical fiber in the optical connector coupled to the adapter 35 of the. In addition, the optical signal transmitted through the optical fiber in the optical connector coupled to the adapter 35 of the adapter-integrating light receiving element 120 is detected by the light receiving element 20, the detection signal is the printed circuit board 50 After passing through a predetermined circuit in the main board is transmitted.

Here, the reason for providing the outer periphery of the seating portion 32 and the groove 63 in the form of an arch is as follows. When the seating part 32 and the groove 63 have a square shape, after the adapter integrated light emitting device 110 and the adapter integrated light receiving device 120 are mounted in the groove 63, the coupling state is stably maintained. In the process of inserting the seating portion 32 into the groove 63, there is a difficulty in accurately positioning the seating portion 32 and then combining them.

In addition, when the outer circumference and the groove 63 of the seating portion 32 are semi-circular, the adapter-integrated light emitting device 110 and the adapter-integrating light receiving device 120 may rotate to be twisted. When the outer circumference and the groove 63 of the seating portion 32 are made into triangles, problems of positioning and rotational problems due to rotation at the time of coupling are eliminated, but an optical element, that is, a light emitting element 10 and a light receiving element 20 therein. There is a problem that the cross-sectional area of the hollow (32a) for accommodating the smaller the size of the adapter-integrated holder 30, 40 and the groove 63, that is, the size of the housing (60).

Therefore, when the outer circumference and the groove 63 of the seating portion 32 are arched, there is an advantage in that a sufficient space for accommodating the optical device can be secured, but the coupling process is simple and the torsion is prevented.

The optical transmission / reception module according to the present invention as described above mounts the adapter-integrated light emitting device and the light-receiving device, each of which is pre-mounted in the adapter-integrated holder, into the groove in the housing, and the printed circuit board in the housing, and then the cover member of the housing. Since it is assembled by inserting along the guide grooves formed along both side walls to seal the housing, the assembling process can be made simple and continuous, resulting in low manufacturing costs.

In addition, since the outer periphery of the seating portion and the groove of the adapter integrated holder are each arched, the adapter integrated light emitting device and the light receiving device can be easily mounted.

Claims (6)

A light emitting device for generating and emitting light to convert electrical signals into optical signals; A light receiving element that receives incident light and converts an optical signal into an electrical signal; A pair of holders on which the light emitting element and the light receiving element are mounted; A printed circuit board driving the light emitting element and receiving a detection signal of the light receiving element; A housing having a pair of grooves in which the pair of holders are installed, and the printed circuit board mounted on one side thereof; And a cover member slidably coupled to the housing such that the housing is hermetically sealed. The optical transmission / reception module according to claim 1, wherein a partition is provided at an adjacent portion of a region in which the printed circuit board is mounted in the housing, and the pair of grooves are formed in an arch shape in the partition. The optical transmission / reception module according to claim 1 or 2, wherein each of the holders is mounted in the groove, and a seating portion having an outer circumference of the holder and an adapter to which the optical connector for supporting the optical fiber is integrally provided. . According to claim 3, The holder further comprises a fixing jaw on the boundary of the seating portion and the adapter, The housing is provided with an intermediate wall portion extending from an approximately center of the partition wall, the optical transmission module, characterized in that the fixing groove is provided with the fixing jaw is inserted into both adjacent portions of the partition wall and the intermediate wall portion. The optical transmission module according to claim 1, wherein the housing is provided with a guide groove in a longitudinal direction along both side walls of the housing to slide the cover member. According to claim 1 or 5, wherein one of the housing and the cover member is provided with a locking projection so that the cover member which is slid into the housing is caught in the housing, and the locking projection is fitted and coupled to the other Optical transmission module characterized in that the locking groove is provided.

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