CN110737055B - High-speed optical module for data transmission - Google Patents

Abstract

The invention discloses a high-speed optical module for data transmission, which comprises a body, wherein one end of the body is provided with a socket, the other end of the body is provided with a plug, fixed blocks are fixedly welded on the outer side of the body, a sliding rod is fixedly welded between the fixed blocks, the sliding rod is inserted in the middle of two ends of a first connecting ring and a second connecting ring, a first connecting pipe is fixedly welded on the outer side of the first connecting ring, a second connecting pipe is fixedly welded on the outer side of the second connecting ring, an inserting block is fixedly welded in the middle of one end of the first connecting ring, a slot is formed in one end of the second connecting ring close to the inserting block, springs are fixedly welded on the inner walls of two sides of the slot, one end of each spring is fixedly welded with the middle of one side of a clamping plate, a first closing block is fixedly glued at one end of the first connecting pipe, a second closing block is fixedly, can carry out waterproof dustproof, and protection plug and socket damage.

Description

High-speed optical module for data transmission

Technical Field

The invention relates to the technical field of optical modules, in particular to a high-speed optical module for data transmission.

Background

An optical communication product tends to be miniaturized and highly integrated, a transmitting-receiving integrated optical module is widely used gradually, the optical module is used by various major mainstream equipment merchants all over the world under the specification of SFPMSA (multi-protocol), but when the optical module is used, dust can be covered due to long-time placement, so that the service life of the optical module is influenced, and meanwhile, when the optical module is transported, an interface of the optical module is easy to damage.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a high-speed optical module for data transmission.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a high-speed optical module for data transmission, which comprises a body, the one end of body is provided with the socket, the other end of body is provided with the plug, the outside welded fastening of body has the fixed block, welded fastening has the slide bar between the fixed block, the slide bar is inserted and is established the middle part at first go-between and second go-between both ends, the outside welded fastening of first go-between has first connecting pipe, the outside welded fastening of second go-between has the second connecting pipe, the middle part welded fastening of the one end of first go-between has the inserted block, the slot has been seted up to the one end that the second go-between is close to the inserted block, the inner wall welded fastening of slot both sides has the spring, the middle part welded fastening of the one end of spring and one side of splint, the one end veneer of first connecting pipe is fixed with first closing piece.

Preferably, the two ends of one side of the first connecting ring, which is far away from the insertion block, are welded and fixed with the convex blocks, the two ends of one side of the second connecting ring, which is far away from the slot, are welded and fixed with the convex blocks, and one side of the fixing block, which is close to the convex blocks, is provided with the groove.

Preferably, a first fixing plate is fixedly glued to the top end of the inner wall of the first closing block, a groove is formed in the inner wall of the bottom end of the first closing block, the inner wall of the groove is connected with the outer wall of the first pulling plate in a sliding mode, the bottom end of the first pulling plate is fixed to one end of the first small spring in a welding mode, and the other end of the first small spring is fixed to the bottom wall of the groove in a welding mode.

Preferably, a second fixing plate is fixed to the top end of the inner wall of the second closing block in a gluing mode, a groove is formed in the inner wall of the bottom end of the second closing block, the inner wall of the groove is connected with the outer wall of the second pulling plate in a sliding mode, the bottom end of the second pulling plate is fixed to one end of the second small spring in a welding mode, and the other end of the second small spring is fixed to the bottom wall of the groove in a welding mode.

Preferably, the first pulling plate is in a circular ring shape, the middle of the bottom end of the first pulling plate and one end of the first pulling rod are welded and fixed, and the first pulling rod is inserted into the through hole at the bottom end of the first closing block.

Preferably, the second pulling plate is semicircular, the middle of the bottom end of the second pulling plate and one end of the second pulling rod are welded and fixed, and the second pulling rod is inserted into the through hole at the bottom end of the second closing block.

Preferably, the insert block is located in the middle of two sides of the first connecting ring, the slot is located in the middle of two sides of the second connecting ring, and the cross-sectional area of the slot is larger than that of the insert block.

The invention has the beneficial effects that:

1. according to the invention, when the optical module is used, the plug and the socket are respectively protected and isolated through the pull plate, so that the plug and the socket are prevented from being exposed, and water and dust can be prevented.

2. According to the invention, when the optical module is idle or transported, the optical module can be protected and isolated through the first connecting pipe and the second connecting pipe as well as the first closing block and the second closing block, so that the plug and the socket are prevented from being exposed, water and dust can be prevented, and the plug and the socket are protected from being damaged.

Drawings

Fig. 1 is a schematic structural diagram of a high-speed optical module for data transmission according to the present invention;

fig. 2 is a schematic structural diagram of a slot of a high-speed optical module for data transmission according to the present invention;

fig. 3 is an enlarged view of a high-speed optical module a for data transmission according to the present invention;

fig. 4 is a schematic structural diagram of a first closing block of a high-speed optical module for data transmission according to the present invention;

fig. 5 is a schematic structural diagram of a second closing block of a high-speed optical module for data transmission according to the present invention.

In the figure: the device comprises a body 1, a socket 2, a plug 3, a first closing block 4, a second closing block 5, a first connecting pipe 6, a second connecting pipe 7, a sliding rod 8, an inserting block 9, a slot 10, a clamping plate 11, a spring 12, a first fixing plate 13, a first pulling plate 14, a first pulling rod 15, a second pulling rod 16, a protruding block 17, a groove 18, a fixing block 19, a second fixing plate 20 and a second pulling plate 21.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, a high-speed optical module for data transmission includes a body 1, a socket 2 is disposed at one end of the body 1, a plug 3 is disposed at the other end of the body 1, a fixing block 19 is welded and fixed to the outer side of the body 1, a slide bar 8 is welded and fixed between the fixing blocks 19, the slide bar 8 is inserted and disposed in the middle of two ends of a first connection ring and a second connection ring, a first connection pipe 6 is welded and fixed to the outer side of the first connection ring, a second connection pipe 7 is welded and fixed to the outer side of the second connection ring, an insertion block 9 is welded and fixed to the middle of one end of the first connection ring, an insertion slot 10 is formed at one end of the second connection ring close to the insertion block 9, the insertion block 9 is located in the middle of two sides of the first connection ring, the insertion slot 10 is located in the middle of two sides of the second connection ring, the, one end of a spring 12 is welded and fixed with the middle part of one side of a clamping plate 11, two ends of one side of a first connecting ring far away from an inserting block 9 are welded and fixed with a convex block 17, two ends of one side of a second connecting ring far away from an inserting groove 10 are welded and fixed with a convex block 17, one side of a fixing block 19 close to the convex block 17 is provided with a groove 18, one end of a first connecting pipe 6 is glued and fixed with a first closing block 4, one end of a second connecting pipe 7 is glued and fixed with a second closing block 5, the top end of the inner wall of the first closing block 4 is glued and fixed with a first fixing plate 13, the bottom end inner wall of the first closing block 4 is provided with a groove, the inner wall of the groove is in sliding connection with the outer wall of a first pulling plate 14, the bottom end of the first pulling plate 14 is welded and fixed with one end of a first small spring, the other end of the first small spring is welded and fixed with the bottom wall of the, the inner wall of the groove is connected with the outer wall of the second pulling plate 21 in a sliding mode, the bottom end of the second pulling plate 21 is welded and fixed with one end of a second small spring, the other end of the second small spring is welded and fixed with the bottom wall of the groove, the first pulling plate 14 is annular, the middle of the bottom end of the first pulling plate 14 is welded and fixed with one end of the first pull rod 15, the first pull rod 15 is inserted into a through hole in the bottom end of the first closing block 4, the second pulling plate 21 is semicircular, the middle of the bottom end of the second pulling plate 21 is welded and fixed with one end of the second pull rod 16, and the second pull rod 16 is inserted into the through hole in the bottom end of the second closing block 5.

In embodiment 1, when the optical module is used, when the socket 2 is connected, the first pull rod 15 is pulled downward to move the first pull plate 14 downward, the plug wire is inserted into the socket 2, then the pull rod 15 is released, the first pull plate 14 springs back the first pull plate 14 under the restoring force of the first small spring, the plug wire is inserted between the first fixing plate 13 and the first pull plate 14, when the plug 3 is connected, the second pull rod 16 is pulled downward to move the second pull plate 21 downward, then the second connecting pipe 7 is pushed toward the inner side of the body 1, the second connecting pipe 7 moves along the slide rod 8 until the slot 10 on the second connecting ring is inserted into the plug block 9, so as to fix the second connecting pipe 7, so as to insert the plug 3 onto the circuit board, then the pull rod 16 is released, at this time, the second pull plate 21 springs back the second pull plate 21 under the restoring force of the second small spring, the plug 3 is sandwiched between the second fixing plate 20 and the second pulling plate 21, thereby enabling the socket 2 and the plug 3 to be dustproof and waterproof in use.

In this embodiment 2, when the optical module is being carried or is idle, when the first connecting tube 6 and the second connecting tube 7 slide along the sliding rod 8 to the outside, the protruding blocks 17 on the first connecting ring and the second connecting ring are inserted into the grooves 18 of the fixing block 19, so that the first connecting tube 6 and the second connecting tube 7 are fixed, and the first closing block 4 and the second closing block 5 are both in a closed state, thereby enabling dust-proof and water-proof.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (5)

1. A high-speed optical module for data transmission comprises a body (1) and is characterized in that a socket (2) is arranged at one end of the body (1), a plug (3) is arranged at the other end of the body (1), fixed blocks (19) are welded and fixed on the outer side of the body (1), sliding rods (8) are welded and fixed between the fixed blocks (19), the sliding rods (8) are inserted in the middle of two ends of a first connecting ring and a second connecting ring, a first connecting pipe (6) is welded and fixed on the outer side of the first connecting ring, a second connecting pipe (7) is welded and fixed on the outer side of the second connecting ring, an inserting block (9) is welded and fixed in the middle of one end of the first connecting ring, a slot (10) is formed in one end of the second connecting ring close to the inserting block (9), a spring (12) is welded and fixed on the inner walls of two sides of the slot (10), one end of the spring (, a first closing block (4) is glued and fixed at one end of the first connecting pipe (6), a second closing block (5) is glued and fixed at one end of the second connecting pipe (7), a first fixing plate (13) is fixedly glued at the top end of the inner wall of the first closing block (4), a groove is formed in the inner wall of the bottom end of the first closing block (4), the inner wall of the groove is connected with the outer wall of a first pulling plate (14) in a sliding manner, the bottom end of the first pulling plate (14) is fixedly welded with one end of a first small spring, the other end of the first small spring is fixedly welded with the bottom wall of the groove, the top end of the inner wall of the second closing block (5) is glued and fixed with a second fixing plate (20), the inner wall of the bottom end of the second closing block (5) is provided with a groove, the inner wall of the groove is connected with the outer wall of a second pulling plate (21) in a sliding mode, the bottom end of the second pulling plate (21) is welded and fixed with one end of a second small spring, and the other end of the second small spring is welded and fixed with the bottom wall of the groove.

2. The high-speed optical module for data transmission according to claim 1, wherein the two ends of the first connecting ring on the side away from the insert block (9) are welded and fixed with the bumps (17), the two ends of the second connecting ring on the side away from the slot (10) are welded and fixed with the bumps (17), and the side of the fixing block (19) close to the bumps (17) is provided with the groove (18).

3. A high-speed optical module for data transmission according to claim 1, wherein the first pulling plate (14) is in a circular ring shape, a middle portion of a bottom end of the first pulling plate (14) and one end of the first pulling rod (15) are welded and fixed, and the first pulling rod (15) is inserted into the through hole of the bottom end of the first closing block (4).

4. A high-speed optical module for data transmission according to claim 1, wherein the second pulling plate (21) is semicircular in shape, and the middle of the bottom end of the second pulling plate (21) and one end of the second pulling rod (16) are welded and fixed, and the second pulling rod (16) is inserted into the through hole of the bottom end of the second closing block (5).

5. A high-speed optical module for data transmission according to claim 1, wherein the plug-in block (9) is located in the middle of both sides of the first connection ring, the slot (10) is located in the middle of both sides of the second connection ring, and the cross-sectional area of the slot (10) is larger than that of the plug-in block (9).

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