KR20090025460A - Optical transceiver module - Google Patents

Abstract

An optical transceiver module including a release member is provided to manufacture a plug type optical transceiver module with minimum cost by omitting an assembly process or a manufacture of an additional part. An optical transceiver module structure comprises a housing(110), a module cover, and a module detachable part(300). The module detachable part is inserted in a socket inside a cage which is an external coupling structure, and detaches an optical transceiver module. A plurality of connection terminals is formed on an outer side and a top side of the module cover. The housing includes an electronic circuit part(130), an optical unit coupling part, and a body part. The electronic circuit part is formed by installing a PCB(Printed Circuit Board) on one end inside the housing. An electronic circuit is mounted inside the housing. The optical unit includes a light emitting device and a light receiving device. The body part guides the optical unit.

Description

Optical transceiver module

 The present invention relates to an optical transceiver module for use in optical communication, and more particularly, a plug having a release member that can easily and easily detach the module so that the module can be easily detached by a latch in a system port provided with a cage. It relates to a fluorescent transceiver module.

One type of such optical transceiver modules is a case structure having an optical unit including a light emitting element and a light receiving element, and is configured to be detachable in a cage provided on a substrate. And since the cage has a socket provided on the substrate, when the optical transceiver module is connected with the cage, the connection terminals thereof are connected with the socket. The optical transceiver module configured as described above may convert an optical signal into an electrical symbol and, conversely, convert an electrical signal into an optical signal to perform optical communication.

On the other hand, the industry standards organization has recently developed a standard called MultiSource Agreement (MSA) of small form-factor pluggable (SFP) transceivers, for example, in order to be compatible with optical transceiver modules provided by respective companies. . The MSA defines the shape and dimensions of the SFP transceiver and the cage that houses the SFP transceivers.

According to the SFP MSA standard, the optical transceiver module is provided with a protruding latch formed on the lower surface thereof, while the cage is provided with a spring plate formed with a catching hole for latching the latch, so that when the optical transceiver is inserted into the cage, the optical transceiver Latch is inserted into the catch hole of the cage to lock the optical transceiver into the cage.

Such optical transceiver modules are manufactured by various standards that define module specifications for miniaturization of electronic equipment for optical communication. For example, one of GBIC's standard form factors, the Small Form-Factor Pluggable (SFP), is a 12.6 mm high, 13.4 mm wide, 56.5 mm long enclosure with at least 20 electrical inputs / outputs. The condition is specified to have a contact (MSA).

In addition, an optical transceiver module is mounted in a predetermined host device, and a large number of cages or sockets are usually mounted in the host device to mount dozens or more optical transceiver modules. In other words, the host device includes a plurality of sockets arranged densely in a plurality of rows and columns in order to minimize the number of sockets installed per unit area. Each socket of such a host device has an optical transceiver module such as an SFP module inserted therein.

At this time, the optical transceiver module is also densely inserted in accordance with the arrangement of the sockets of the host device. Therefore, an appropriate release mechanism is required to easily remove the optical transceiver module that is densely inserted into the socket of the host device from the socket.

Note that when the optical transceiver module is detached and attached, if the module is detached from the cage during the operation of the module, the communication will be interrupted and the failure will occur. To prevent such a failure, the optical transceiver module must be securely fixed in the cage at least during its operation.

1 is a view illustrating a detachable structure of a conventional pluggable optical transceiver module.

As shown, the prior art has the disadvantage of assembling a plurality of parts in order to achieve the release mechanism.

That is, in the structure in which the optical transceiver module 10 and the socket 20, which are composed of a housing and a module cover, are coupled, the configuration of the module detachable portion 30 constituting the one end portion is at the center of the upper end of one side of the socket 20. A fixed tab 12 fitted to the formed locking hole 21, a slider 35 which serves to lift the fixed tab 12 in the horizontal direction and lifts it from the locking hole 21; and the slider 35 The latch propeller 41 which pushes the first, the first guide block 31 for guiding the horizontal movement of the slider 35, and the module detachable part 30 is spaced apart from the first guide block 31 by a predetermined distance. A fixing plate which covers the second guide block 32 formed on the upper end of the distal end and the upper surfaces of the first and second guide blocks 31 and 32 to limit the movement of the latch propeller 41 and the slider 35 ( 33, a plurality of fastening pins 34 for fixing the fixing plate 33, Group is composed of a latch consisting of a first guide block 31 and the second guide block fitting latch propeller 41 and the handle portion 42 and connecting portion 43 are between 32.

Accordingly, when the latch knob 42 is lifted in the counterclockwise direction, the latch propeller 41 pushes the slider 35 in a horizontal linear motion, and the fixing tab 12 engages the locking hole 21 by the force. Lifted from it, it is possible to detach the module from the socket 20.

The conventional configuration described above forms two guide blocks 31 and 32 having different side lengths by a predetermined distance, and forms a guide block fixing plate 33 and a separate fastening pin 34 having a shape covering the guide block from the top surface. A plurality of fastening members are required, such as an elastic plate. This configuration is to fix the latch propeller 41 and to form a predetermined space so that the latch propeller 41 can move forward and backward horizontally in the 90 ° range and to prevent lifting vertically.

As described above, in the conventional optical transceiver module detachable structure, when the module is separated from the cage equipped with the socket, a plurality of detachable members constituting the module detachable part 30 must be configured. The transceiver module had difficulty in manufacturing the module because it required the use of a large number of components to construct the release structure, and had the disadvantage of increasing the component cost and manufacturing cost.

In addition, the left and right widths of the first guide block 31 should be configured to be substantially the same as the width of the optical transceiver module.

In addition, when the latch 40 is rotated from the fixed position to the unlocked position to separate the optical transceiver module from the cage, the radius of rotation may not be limited, and the cage may be arranged up and down to cause interference with each other when the plurality of modules are removed. Possessed.

Accordingly, there is a need for a pluggable optical transceiver module with a release mechanism that is easy for the operator to operate and does not require any tools to install or manage.

The optical transceiver module according to the present invention has been devised to solve the above-mentioned problems. The optical transceiver module is very easy in mounting and detaching the optical transceiver module into the cage and allows the user to detach the module comfortably. Its purpose is to.

In addition, the plug-in optical transmission can be manufactured at minimal cost because the structure is improved so that the user can easily remove the rotation by 1/3, so that the release mechanism is practically not required to manufacture or assemble additional parts. Another purpose is to provide a receiver module.

The configuration of the present invention for solving the above technical problem, the housing and the internal configuration having an optical unit including a light emitting element and a light receiving element therein, having an electronic circuit portion on one side and a module detachable portion on the other side An optical transceiver module comprising a housing cover which mounts an element and shields it, and constitutes a plurality of terminals on an outer surface, wherein the module detachable part comprises an accommodating groove configured on the front end surface of the module and to which the optical unit is coupled. An optical unit coupling portion, a fixed tab formed at a center of the lower surface and fitted into a locking hole formed in a socket inside the cage, a guide block formed at a predetermined distance from the fixed tab, and fitted into the guide block. In the horizontal direction to lift the fixing tab fastened to the locking hole to detach the module from the cage. A slider having a movement, a latch fitted to both side grooves of the slider medium to directly mediate the slider movement, and a latch rotation shaft formed below both sides of the housing to form a central axis when the latch rotates. It features.

In addition, the latch is a "c" shaped structure, the handle portion of the straight shape, and extending integrally with the handle portion to form a locking groove that is fitted to the locking projection formed at a predetermined distance from the latch rotation axis and the rotation shaft and the Characterized in that the connection portion is fitted into the fitting groove.

In addition, when the optical transceiver module is detached from the cage, the slider rotates in a counterclockwise direction when the knob portion of the latch rotates in a range of 25 to 40 ° so that the slider is close to the fixed tab so as to have a horizontal forward and backward movement along the guide block. It is characterized by the configuration.

In addition, the guide block is characterized in that it is provided with a guide groove on the lower surface of the module detachable portion to guide the horizontal linear motion of the slider driving unit having a predetermined thickness.

The present invention has been made to solve the above-mentioned conventional problems, it is very easy to mount and detach the plug-in optical transceiver module and has the effect of allowing the user to detach the module comfortably ergonomically.

In addition, the structure is improved so that the user can easily remove the latch by 1/3, so that the release mechanism does not require the manufacture or assembly of additional parts. There is an effect that can manufacture and provide an optical transceiver module that is a receiver module.

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

Figure 2 is a perspective view showing a module housing structure according to the present invention, Figure 3 is a front view showing the housing structure, Figure 4 is a plan view of the housing structure, Figure 5 is a front view of the optical unit coupling from the front, Figure 6 7 is a perspective view showing an upper portion of an optical transceiver module in which a cover and a housing are coupled, and FIG. 7 is a perspective view illustrating a lower portion of the optical transceiver module in which a cover and a housing are coupled.

The optical transceiver module 100 structure according to the present invention includes a housing 110, a module cover 190, and a module detaching part 300. Here, the module detachable part 300 is a member for inserting into a socket (not shown) inside a cage (not shown), which is an external coupling structure, to enable detachment and attachment of the optical transceiver module 100. In addition, the module cover 190 is provided with a plurality of connection terminals 191 on the outer surface and the upper surface.

First, the housing 110 includes a plurality of optical unit coupling parts 140 and modules for mounting and supporting the electronic circuit unit 130 and the optical unit (not shown) constituting the electronic circuit therein. It is a structure composed of a body portion 160 for mounting two optical elements.

In this case, the electronic circuit unit 130 is formed with a PCB 131 inside one end surface of the housing 110, and is configured by mounting the electronic circuit inside the housing 110. In addition, the optical band is electrically connected to the optical unit including the light emitting element and the light receiving element, and the wavelength band is adjusted to produce an appropriate light wavelength, and a connection connection part for connecting to the optical fiber side is provided.

The body 160 guides and receives an optical unit introduced into the inside. A plurality of optical units mounted in the structure of the body 160 and inside are well known and are the same as the existing modules, and thus detailed description thereof will be omitted.

On the other hand, the optical unit coupling portion 140 has two receiving grooves 150 having a semi-circle lower shape formed on the front end of the housing 110 to have a predetermined thickness from the bottom of the inner surface of the housing 110. In this case, it is preferable to prevent the flow of the optical unit by forming a plurality of locking jaws inwardly along the receiving groove 150 according to the shape of the optical unit of the coupled portion. In general, an optical unit coupled along the receiving groove means an optical connector.

In addition, the module detachable part 300 forms a structure for detaching from the cage (not shown) by detaching the optical transceiver module 100 attached to the socket inserted into the cage.

The module detachable part 300 may include a fixing tab 120 formed at a center of the bottom surface of the module detachable part 300 and fitted into a locking hole (not shown) formed in a socket (not shown) inside the cage, and The guide block 310 formed on the front end surface of the fixed tab 120 at a predetermined distance and the fixing tab 120 fitted to the guide block 310 and fastened to the engaging hole are raised to cage the module 100. A slider 400 having a horizontal movement to detach from the latch 350, a latch 400 fitted to both ends of the slider 350 at the distal end 353 of the slider 350 to mediate the movement of the slider 350, and the housing ( 110 has a configuration including a latch rotation shaft 360 formed on both sides of the upper side to form a rotation center axis of the latch 400.

That is, as shown in the drawing, the fixing tab 120 has a triangular structure having a tapered thickness, and the slider 350 is formed at the front end thereof in proximity to the fixing tab 120.

In this case, the slider 350 moves in the horizontal front and rear directions, not in the rotation direction of the latch 400. To this end, both ends of the latch connection part 430 are configured to be bent inwardly so as to be fastened to the fitting grooves 353 at both ends of the front end of the slider 350 so as to be integrally moved with the slider 350. It is desirable to facilitate this.

On the other hand, the guide block 310 is configured on the upper surface of the module detachable portion 300 as a structure for guiding the horizontal linear movement of the slider 350. In this case, the slider 350 has a “T” shaped structure, and a “ㅣ” shaped propulsion part 354 guided along the guide block 310 and the latch connection part 430 are fitted into the fitting groove. Is coupled to the (353) consists of a mediator 355 of the "-" shaped to mediate the interlocking movement of the latch 400 and the slider 350.

Therefore, it is possible to simply solve the complexity of the release member according to the existing guide block configuration. Accordingly, it is possible to form a module detachable portion very simply as compared to the structure of the existing guide block and latch propulsion.

On the other hand, it is preferable to form a guide groove 352 as the bottom of the guide block 310 so that the thickness of the slider pushing portion is received to guide the linear movement of the slider 350 to both bottoms of the slider 350.

In addition, both sides of the upper surface of the front end of the module detachable part 300 constituting the intermediate part 355 forms a fitting groove 353 of a predetermined depth to prevent lifting in the vertical direction through the fixing of the slider 350. It is preferable to guide the movement in the horizontal straight direction.

In addition, the guide groove 357 is preferably configured at the tip of the fitting groove 353. Since the guide groove 357 serves to guide the guide protrusion 356 formed at the bottom of the intermediate portion 355 of the slider 350, the guide groove 357 may be a groove forming a very thin space. Therefore, it is possible to implement a very simple module detachable portion 300 structure.

In addition, the housing 110 includes an assembly of various structures related to light transmission / reception, such as an adapter for coupling with an optical unit and an optical connector. Since the internal structure is not different from the known transceiver module, a detailed description thereof will be omitted.

On the other hand, the structure of the latch 400, the handle portion 420 of the straight shape, and the connecting portion 430 for supporting the latch rotation shaft 360 to mediate the rotational force of the latch 400 when the module 100 is attached and detached Configure. In addition, the upper end structure of the connection part 430 is bent by a predetermined depth in the inward direction from the top surface to engage the slider 350 and the fitting groove 353 through the latch 400 rotational movement and the slider 350 horizontal line It is desirable to directly mediate exercise.

In this case, the handle portion 420 and the connection portion 430 of the latch 400 is preferably made of a rigid material and configured to extend integrally.

Hereinafter, the release mechanism of the optical transceiver module and the cage according to the present invention having the configuration as described above are as follows.

The core of the mechanism according to the present invention is that the latch 400 of the latch 400 can be easily detached by the latch 400 at a system port (not shown) equipped with a plurality of cages (not shown). The latch connection part 430 formed at both ends is inserted into the latch rotation shaft 360 fixedly disposed at both sides of the module detachable part 300 to rotate the latch 400 in a counterclockwise direction.

That is, as a first step for detachment of the optical transceiver module 100, first, a user applies a force to the handle part 420 of the latch 400 to separate the latch connection part 430 from the locking protrusion 370. Subsequently, when a rotational force is applied in a counterclockwise direction by a predetermined angle, the latch 400 rotates accordingly to push the slider 350 configured on the upper surface of the fixed tab 120.

At this time, the slider 350 has a movement in a horizontal forward and backward direction instead of a rotation direction by the latch 400, which is coupled to a mechanism interlocked according to the structure of the slider 350 fitted with the latch connection part 430. Is caused. The slider 350 to which the horizontal force is applied may lift the fixing tab 120 of the optical transceiver module 100 inserted into the system port to separate the optical transceiver module 100 from the system port.

In addition, it is preferable to configure the latching projection 370 on the upper side of the module detachable portion 300, and to configure the latch rotation shaft 360 to be upward at a predetermined distance to limit the rotation radius of the latch 400.

Therefore, in the detachment process, the optical transceiver module 100 can be easily detached by providing only about 1/3 of the existing rotation radius. That is, in the past, the latch propulsion was interlocked while pushing the slider 350 in the forward and backward direction of lying down, but in the present invention, the latch 400 is directly engaged with the slider 350 to be interlocked so as to be rotated in a range of 25 to 40 °. The optical transceiver module 100 may be detachable.

This is an effective structure that can eliminate mutual interference and influence between the module 100 and the cage, which are detached when the optical transceiver module 100 is detached from the plurality of cages stacked up and down.

Of course, the attachment process of the optical transceiver module 100 may be operated in the opposite manner to the detachment process. That is, when the knob 420 of the latch is rotated in the clockwise direction, the slider 350 and the fixed tab 120 are in a predetermined interval due to the pulling operation of the latch connection part 430. 120 is fixed while being fitted in the locking hole 210 of the socket.

At this time, in the locked position of the latch 400, the handle portion 420 is located close to the housing 110, in the unlocked position of the latch 400, the handle portion 420 is the housing 110 ) Away from

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

1 is a perspective view showing a conventional optical transceiver module structure.

Figure 2 is a perspective view showing the optical transceiver module housing structure according to the present invention.

3 is a front view showing the housing structure.

4 is a plan view of the housing structure.

5 is a front view of the optical unit coupling unit seen from the front.

Figure 6 is a perspective view of the top of the optical transceiver module coupled cover and housing.

Figure 7 is a perspective view of the lower part of the optical transceiver module coupled cover and housing.

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

100: optical transceiver module 110: housing

120: fixed tab 130: electronic circuit portion

131: PCB 140: optical unit coupling portion

150: receiving groove 190: cover

210: engaging hole 300: module detachable part

310: guide block 350: slider

352: guide groove 353: fitting groove

354: driving unit 355: intermediary

360: latch rotation shaft 370: locking projection

380: locking groove 400: latch

420: handle portion 430: connection portion

Claims (4)

It is equipped with an optical unit including a light emitting element and a light receiving element therein, and has a housing and an internal component having an electronic circuit part on one side and a module detachable part on the other side, and then shields it. In the optical transceiver module composed of a housing cover to constitute, The module detachable portion, An optical unit coupling part configured at a front end surface of the module and including an accommodation groove to which the optical unit is coupled; A fixing tab formed at a center of the lower surface and fitted into a locking hole formed in a socket inside the cage; A guide block formed on a front end surface of the fixed tab at a predetermined distance; A slider having a horizontal movement to fit the guide block and lift the fixing tab fastened to the engaging hole to detach the module from the cage; A latch fitted to both side grooves of the mediar of the slider to directly mediate the slider movement; And And a latch rotation shaft formed on both side surfaces of the module detachable portion and constituting a central axis when the latch rotates. The method of claim 1, The latch is a "c" shaped structure, the handle portion of the straight shape, and extending integrally with the handle portion to form a locking groove that is fitted to the locking projection formed at a predetermined distance from the latch rotation axis and the rotation shaft and the fitting groove Optical transceiver module, characterized in that consisting of the connection portion fitted to fit. The method of claim 1, The slider has a "c" shape, and when the optical transceiver module is detached from the cage, the slider is interlocked with the latch part in a counterclockwise direction in a range of 25 to 40 °, and horizontally along the guide block. And an optical transceiver module configured to be proximate to the fixed tab to have movement. The method of claim 3, wherein The guide block is an optical transceiver module, characterized in that provided with a guide groove on the lower surface of the module detachable portion to guide the horizontal linear motion of the slider driving unit having a predetermined thickness.

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