CN219780148U - Clamping type multi-electric-port optical fiber transceiver - Google Patents

Abstract

The present utility model relates to transceivers, and more particularly, to a clamp-type multi-port optical fiber transceiver. The utility model provides a clamping type multi-electric-port optical fiber transceiver which comprises a multi-electric-port optical fiber transceiver, a mounting block, a fixing rod, an upper clamping plate, a first elastic piece, a limiting block and the like, wherein the mounting block is arranged on one side of the multi-electric-port optical fiber transceiver, the limiting block and the fixing rod are fixedly connected to the side surface of the mounting block, which is far away from the multi-electric-port optical fiber transceiver, of the fixing rod, the first elastic piece is wound in the middle of the fixing rod, the upper clamping plate is connected to the fixing rod, the limiting block is fixedly connected to the position, close to the fixing rod, of the upper clamping plate, and two ports of the first elastic piece are fixedly connected to the limiting block. Pushing the mounting block to move the upper clamping plate on the side face of the multi-electric-port optical fiber transceiver, opening the upper clamping plate after the upper clamping plate moves to a proper position, and clamping the appointed position to achieve the effect of clamping and fixing the device.

Description

Clamping type multi-electric-port optical fiber transceiver

Technical Field

The present utility model relates to transceivers, and more particularly, to a clamp-type multi-port optical fiber transceiver.

Background

Multi-port optical fiber transceiver: the optical signal is converted into an optical signal or is converted into an electrical signal by the equipment, the optical signal is transmitted out through an optical fiber, and the optical signal is converted into the electrical signal at the other end and then is connected into equipment such as a router, a switch and the like; the multi-electric-port optical fiber transceiver is generally placed on a plane, and is not provided with a fixing device, so that in many working environments, the moved multi-electric-port optical fiber transceiver frequently has the condition of interface falling off due to no fixing, so that some terminals have no signals, and the multi-electric-port optical fiber transceiver needs to be disassembled again, connected and fixed again, and the production life is affected.

Therefore, there is a particular need for a clamp-on multi-port fiber optic transceiver that addresses the problems of the prior art.

Disclosure of Invention

The utility model aims to overcome the defect that a multi-electric-port optical fiber transceiver is not provided with a fixing device and an interface falls off during operation, and aims to provide a clamping type multi-electric-port optical fiber transceiver.

In order to solve the technical problems, the utility model provides the clamping type multi-electric-port optical fiber transceiver which comprises a multi-electric-port optical fiber transceiver, a mounting block, a fixing rod, an upper clamping plate, a first elastic piece and a limiting block, wherein the mounting block is arranged on one side of the multi-electric-port optical fiber transceiver, the limiting block and the fixing rod are fixedly connected to the side surface of the mounting block, far away from the multi-electric-port optical fiber transceiver, of the multi-electric-port optical fiber transceiver, the first elastic piece is wound in the middle of the fixing rod, the upper clamping plate is connected to the fixing rod, the limiting block is fixedly connected to the position, close to the fixing rod, of the upper clamping plate, and two ports of the first elastic piece are fixedly connected to the limiting block.

Preferably, the multi-electric-port optical fiber transceiver further comprises an installation cavity, a convex block, a third elastic piece, a sliding block, a second elastic piece and a pull rod, wherein two identical wedge-shaped grooves are formed in the side face, contacted with the installation block, of the multi-electric-port optical fiber transceiver, the installation block is connected in the wedge-shaped grooves in a sliding mode, the installation cavity is formed between the two wedge-shaped grooves of the multi-electric-port optical fiber transceiver, a plurality of clamping grooves are symmetrically formed in two sides of the installation cavity, the pull rod penetrates through the installation block, the second elastic piece is wound on the outer side of the pull rod, a plurality of sliding blocks penetrate through the middle portion of the pull rod, the sliding blocks are connected on the pull rod in series, a plurality of convex blocks penetrate through the two sides of the pull rod symmetrically, the side faces, close to the convex blocks, of the symmetric convex blocks are connected with the third elastic piece, and the convex blocks are in movable insertion fit with the clamping grooves.

Preferably, the multi-port optical fiber transceiver further comprises a fixing plate, and the fixing plate is arranged on the side face, parallel to the mounting block, of the multi-port optical fiber transceiver.

Preferably, the anti-slip device also comprises an anti-slip pad, and the contact part of the mounting block and the upper clamping plate is stuck with the anti-slip pad.

Preferably, a plurality of heat dissipation grooves are formed in two symmetrical sides of the multi-electric-port optical fiber transceiver.

The beneficial effects are that: pushing the mounting block to move the upper clamping plate on the side face of the multi-electric-port optical fiber transceiver, opening the upper clamping plate after the upper clamping plate moves to a proper position, and clamping the appointed position to achieve the effect of clamping and fixing the device.

Drawings

Fig. 1 is a schematic perspective view of components such as a multi-port optical fiber transceiver and a fixing plate of the present utility model.

Fig. 2 is a schematic perspective view of the parts such as the upper clamping plate and the first elastic member.

Fig. 3 is a schematic perspective view of the bump, slider and other parts of the present utility model.

Fig. 4 is a schematic perspective view of the present utility model.

The marks in the drawings are: the optical fiber transceiver comprises a 1-multi-port optical fiber transceiver, a 2-fixing plate, a 3-mounting block, a 301-fixing rod, a 4-upper clamping plate, a 5-first elastic piece, a 6-limiting block, a 7-wedge-shaped groove, an 8-mounting cavity, a 9-protruding block, a 901-clamping groove, a 902-third elastic piece, a 10-sliding block, a 11-second elastic piece, a 12-pull rod and a 13-anti-skid pad.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Example 1

The utility model provides a many electric mouthfuls of optical fiber transceiver of centre gripping formula, as shown in fig. 1, fig. 2 and fig. 3, including many electric mouthfuls of optical fiber transceiver 1, installation piece 3, dead lever 301, punch holder 4, first elastic component 5, stopper 6, installation cavity 8, lug 9, third elastic component 902, slider 10, second elastic component 11 and pull rod 12, many electric mouthfuls of optical fiber transceiver 1 one side is equipped with installation piece 3, installation piece 3 is kept away from many electric mouthfuls of optical fiber transceiver 1's side rigid coupling has stopper 6 and dead lever 301, the middle part of dead lever 301 twines has first elastic component 5, first elastic component 5 is for spring or elastic rubber, and here is the torsional spring, and rotation is connected with punch holder 4 on the dead lever 301, and punch holder 4 is close to dead lever 301 department rigid coupling has stopper 6, and stopper 6 on punch holder 4 is fixed to one port, and stopper 6 on another port rigid coupling is on punch holder 3, and install two same 7 are opened to wedge 3 and install side that the slider 3 contacted has two wedge 3, wedge 7 is equipped with wedge 7 and install 3 and draw rod 12 and stretch into two sides and stretch into groove 12, and install two sides of wedge 3, and draw-bar 9 are equipped with the opposite to draw-bar 9 and install two sides at the slider 3, and two opposite sides of wedge 3 are equipped with 7 and draw-bar 1, and draw-bar 9 is equipped with the lug 9 and two opposite sides of wedge 3, and two sides of draw-bar 9 have a plurality of wedge-bar 9 and 3 and two sides and 3.

The pull rod 12 is pulled outwards, the second elastic piece 11 is compressed and deformed to generate elasticity, the pull rod 12 drives the sliding block 10 to move outwards, the sliding block 10 leaves the protruding block 9, the protruding block 9 moves towards each other under the action of the elasticity of the third elastic piece 902, the protruding block 9 retreats back into the installation block 3 from the clamping groove 901, the installation block 3 is pushed to the other side, the installation block 3 moves along the wedge-shaped groove 7 to the end part of the multi-electric port optical fiber transceiver 1, the upper clamping plate 4 close to the fixing rod 301 is pressed downwards, the first elastic piece 5 deforms to generate elasticity, the end part of the upper clamping plate 4 far away from the fixing rod 301 moves outwards away from the installation block 3, the fixing position stretches into the space between the upper clamping plate 4 and the installation block 3, the upper clamping plate 4 is loosened, the first elastic piece 5 is reset to drive the upper clamping plate 4 to be close to the installation block 3, and the multi-electric port optical fiber transceiver 1 is clamped and fixed.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, the multi-port optical fiber transceiver further comprises a fixing plate 2, and the fixing plate 2 is arranged on the side surface of the multi-port optical fiber transceiver 1 parallel to the mounting block 3.

The holes on two sides of the fixing plate 2 are used for fixing the multi-port optical fiber transceiver 1 on a plane.

As shown in fig. 4, the anti-slip mat 13 is also included, and the anti-slip mat 13 is stuck at the contact position of the mounting block 3 and the upper clamping plate 4.

The anti-slip pad 13 on the mounting block 3 plays a role in increasing friction and clamping the device.

As shown in fig. 4, a plurality of heat dissipation grooves are formed on two symmetrical sides of the multi-port optical fiber transceiver 1.

The heat dissipation groove on the side surface of the multi-electric-port optical fiber transceiver 1 plays a role in dissipating heat of the multi-electric-port optical fiber transceiver 1.

The foregoing examples have shown only the preferred embodiments of the utility model, which are described in more detail and are not to be construed as limiting the scope of the utility model. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (5)

1. The utility model provides a many electric mouthfuls of fiber optic transceiver of centre gripping formula, including many electric mouthfuls of fiber optic transceiver (1) and installation piece (3), many electric mouthfuls of fiber optic transceiver (1) one side is provided with installation piece (3), a serial communication port, still including dead lever (301), punch holder (4), first elastic component (5) and stopper (6), the side rigid coupling that many electric mouthfuls of fiber optic transceiver (1) was kept away from to installation piece (3) has stopper (6) and dead lever (301), the winding of dead lever (301) middle part has first elastic component (5), be connected with punch holder (4) on dead lever (301), punch holder (4) are close to dead lever (301) department rigid coupling and have stopper (6), two ports of first elastic component (5) all rigid coupling on stopper (6).

2. The clamping type multi-port optical fiber transceiver of claim 1, further comprising a mounting cavity (8), a protruding block (9), a third elastic piece (902), a sliding block (10), a second elastic piece (11) and a pull rod (12), wherein two identical wedge-shaped grooves (7) are formed in the side face, in contact with the mounting block (3), of the multi-port optical fiber transceiver (1), the mounting block (3) is connected in the wedge-shaped grooves (7) in a sliding mode, the mounting cavity (8) is formed between the two wedge-shaped grooves (7) in the multi-port optical fiber transceiver (1), a plurality of clamping grooves (901) are symmetrically formed in two sides of the mounting cavity (8), a pull rod (12) penetrates through the mounting block (3), the second elastic piece (11) is wound on the outer side of the pull rod (12), a plurality of sliding blocks (10) penetrate through the middle of the mounting block (3), the sliding blocks (10) are connected in series on the pull rod (12), the two sides of the pull rod (12) are symmetrically penetrated through the protruding block (9), and the protruding block (9) is symmetrically inserted into the protruding block (902) in a mode, and the protruding block (9) is symmetrically arranged on the side face, and the protruding block (9) is adjacent to the protruding block.

3. A clamp-on multi-port optical fiber transceiver as claimed in claim 2, further comprising a fixing plate (2), wherein the fixing plate (2) is mounted on a side of the multi-port optical fiber transceiver (1) parallel to the mounting block (3).

4. A clamp type multi-port optical fiber transceiver as claimed in claim 3, further comprising an anti-slip pad (13), wherein the anti-slip pad (13) is adhered to the contact part of the mounting block (3) and the upper clamping plate (4).

5. The clamp type multi-port optical fiber transceiver of claim 4, wherein a plurality of heat dissipation grooves are formed on two symmetrical sides of the multi-port optical fiber transceiver (1).