CN215263279U - Optical cable identification device - Google Patents

Abstract

The utility model discloses an optical cable recognition device, its simple structure, convenient to use, it is effectual. The utility model relates to an optical cable recognition device, be in including the installation body of rod with all setting up bundling subassembly and identification assembly on the installation body of rod, the bundling subassembly include the bundling area of prolate bar shape and with bundling area matched with first fixing base, the identification assembly include with optical cable matched with strike the head and with strike head matched with second fixing base, the end of striking the head is provided with vibration wave generator, works as when bundling area ties the optical cable, the position of striking the head is located bundling area bundling department the place ahead or rear, the second fixing base is located the below of first fixing base. The utility model relates to a technical field of optical cable equipment.

Description

Optical cable identification device

Technical Field

The utility model relates to a technical field of optical cable equipment especially relates to an optical cable recognition device.

Background

The optical cable superior performance range of application is wide, the optical cable is after using certain time, need carry out the loss detection to the optical cable, but the optical cable all is the bundle setting, and longer, which two of so many optical cable line heads of difficult direct identification are the both ends of same optical cable, current method is mostly simple one end at the optical cable and is done quick connector, then open with the red light pen and insert to the quick connector who has done on, then operating personnel bends the optical cable to the pipe shaft in, it is exactly the optical cable that you want to see through ruddiness. The optical cable is easy to excessively bend and damage, the service life of the optical cable is shortened, and the practicability is poor.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model provides an optical cable identification device, its simple structure, convenient to use, it is effectual.

The to-be-solved technical problem of the utility model is realized through following technical means: the optical cable identification device comprises an installation rod body, and a wire bundling assembly and an identification assembly which are arranged on the installation rod body, wherein the wire bundling assembly comprises a flat and long strip-shaped wire bundling belt and a first fixing seat matched with the wire bundling belt, the identification assembly comprises a knocking head matched with an optical cable and a second fixing seat matched with the knocking head, a vibration wave generator is arranged at the tail end of the knocking head, when the optical cable is tightly bundled by the wire bundling belt, the knocking head is positioned in front of or behind the wire bundling position of the wire bundling belt, and the second fixing seat is positioned below the first fixing seat.

In the scheme, the bundling belt is used for tightly bundling the optical cables, a plurality of optical cables are tightly bundled when the optical cables are multiple, and the bundling belt is a drawing type bundling belt. The wire bundling assembly can bundle a plurality of optical cables or optical cable bundles tightly, the optical cables are straightened after the optical cables are bundled tightly, the vibration effect is transmitted in a vibration wave mode through the vibration wave generator, the vibration effect can be detected by arranging the vibration detector at the other end of the optical cables, the purpose of identifying the optical cables is easily achieved, the effect is obvious, the red light mode in the prior art is replaced by vibration, the optical cables do not need to be bent excessively, and the performance of the optical cables is protected; the recognition component can knock the head to knock the optical cable, and the tail end of which optical cable is knocked to transmit vibration to determine that the end part and the knocked optical cable are the same optical cable.

Further, the first fixing seat is connected with the wire binding belt, and when the optical cable is tightly bound by the wire binding belt, the installation rod body is perpendicular to the optical cable.

Furthermore, the first fixing seat is fixedly connected with the installation rod body, and the installation rod body can be arranged in a rotating mode.

In the above scheme, the rotatable setting of the installation body of rod and first fixing base and installation body of rod fixed connection, so can realize pulling of the optical cable of being tied tightly through rotating the installation body of rod for the optical cable is more tight, provides the precision for the vibration transmission.

Furthermore, the second fixing seat is rotatably matched with the mounting rod body, the second fixing seat comprises an extension rod, the extension rod is perpendicular to the mounting rod body, and the knocking head is arranged at the tail end of the extension rod.

In above-mentioned scheme, strike the head and arrange the place ahead or the rear at wire bundling belt wire bundling department through the extension rod, avoid the part to prick and pile, lead to the structure confusion, the troublesome poeration.

Furthermore, the identification component comprises an arc-shaped rotating block, the knocking head is fixedly arranged on the rotating block, and when the optical cable is tightly bound by the cable binding belt, the arc-shaped center of the rotating block is positioned on the axis of the optical cable.

In the above scheme, the fixed piece that revolves of striking the head can be with the coaxial rotation of optical cable axis for it is rotatory round the optical cable all the time to strike the head, makes to strike the head and can strike the optical cable of being tightened in turn, simple structure, and convenient to use can be applied to the purpose of many times of discernment in batches to many optical cables.

Furthermore, one side of the rotating block, which is close to the extension rod, is provided with an arc gear tooth groove body, the tail end of the extension rod is provided with a gear motor, and an output shaft of the gear motor is provided with a gear matched with the arc gear tooth groove body.

In above-mentioned scheme, can drive the gear through gear motor and rotate the piece that revolves, provide probably for knocking the head and can carry out step-by-step each optical cable of knocking automatically. The trouble of manually rotating the rotating block by an operator is avoided. The effect is better.

Furthermore, a knocking motor matched with the knocking head is arranged at the rear part of the rotating block.

In the scheme, the knocking motor is used for generating the front and back knocking actions and providing power for knocking the knocking head.

Furthermore, the tail end of the knocking head is provided with a red light pen point which is positioned on one side of the vibration wave generator.

Further, the knocking head points to the middle part of the optical cable bound by the cable binding belt.

In the scheme, the knocking head can radially knock the optical cable by pointing to the middle part of the optical cable, and an operator can identify the corresponding optical cable at the other end of the optical cable through vibration.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural view of another angle of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

As shown in fig. 1 and 2, the utility model discloses an installation body of rod 1 with all set up bundle line subassembly and identification assembly on the installation body of rod 1, the bundle line subassembly include the bundle line area 2 of prolate bar shape and with bundle line area 2 matched with first fixing base 3, the identification assembly include with optical cable matched with strike head 4 and with strike head 4 matched with second fixing base 5, the end of striking head 4 is provided with vibration wave generator 6, works as when 2 bundle optical cables in bundle line area, the position of striking head 4 is located the place ahead or the rear of 2 bundle lines departments in bundle line area, second fixing base 5 is located the below of first fixing base 3. The wire binding belt 2 is used for tightly binding optical cables, a plurality of optical cables are tightly bound when the optical cables are in a plurality, and the wire binding belt 2 is a drawing type wire binding belt. The wire bundling assembly can bundle a plurality of optical cables or optical cable bundles tightly, the optical cables are straightened after the optical cables are bundled tightly, the vibration effect is transmitted in a vibration wave mode through the vibration wave generator 6, the vibration effect can be detected by arranging the vibration detector at the other end of the optical cables, the purpose of identifying the optical cables is easily achieved, the effect is obvious, the red light mode in the prior art is replaced by vibration, the optical cables do not need to be bent excessively, and the performance of the optical cables is protected; the recognition component can knock the head 4 to knock the optical cable, and the tail end of the optical cable is knocked and driven to vibrate to determine that the end part and the knocked optical cable are the same optical cable. The vibration wave generator 6 may be a small inductor or an action part connected to an external generator.

In this embodiment, the first fixing seat 3 is connected to the cable-binding band 2, and when the cable is bound tightly by the cable-binding band 2, the mounting rod 1 is perpendicular to the cable.

In this embodiment, the first fixing seat 3 is fixedly connected to the mounting rod 1, and the mounting rod 1 is rotatably disposed. The rotatable setting of the installation body of rod 1 and first fixing base 3 and the 1 fixed connection of the installation body of rod, so can realize pulling of the optical cable of being tied tightly through rotating the installation body of rod 1 for the optical cable is more for straining, provides the precision for the vibration transmission.

In this embodiment, the second fixing seat 5 is rotatably engaged with the mounting rod 1, the second fixing seat 5 includes an extension rod 7, the extension rod 7 is perpendicular to the mounting rod 1, and the striking head 4 is disposed at the end of the extension rod 7. The knocking head 4 is arranged in front of or behind the binding position of the binding belt 2 through the extension rod 7, so that the phenomenon that parts are bound and piled to cause disordered structure and troublesome operation is avoided.

In this embodiment, the identification component includes an arc-shaped rotation block 8, the knocking head 4 is fixedly disposed on the rotation block 8, and when the optical cable is tightly bound by the cable binding tape 2, the arc-shaped center of the rotation block 8 is located on the axis of the optical cable. The fixed block 8 that revolves of beating head 4 can be with the coaxial rotation of optical cable axis for it is rotatory around the optical cable all the time to beat head 4, makes to beat head 4 and can strike the optical cable of being tightened in turn, simple structure, and convenient to use can be applied to the purpose of many times batch discernment to many optical cables.

In this embodiment, one side of the rotating block 8 close to the extension rod 7 is provided with an arc gear tooth groove 9, the tail end of the extension rod 7 is provided with a gear motor, and an output shaft of the gear motor is provided with a gear matched with the arc gear tooth groove 9. Can drive the gear through gear motor and rotate rotatory piece 8, provide probably for knocking head 4 can carry out step-by-step each optical cable of knocking automatically. The trouble of manually rotating the rotating block 8 by an operator is avoided. The effect is better.

In this embodiment, a knocking motor 10 matched with the knocking head 4 is disposed at the rear of the rotation block 8. The knocking motor 10 is used for generating a back-and-forth knocking action and providing power for knocking the knocking head 4.

In this embodiment, a red light pen point 11 is disposed at the end of the knocking head 4, and the red light pen point 11 is located on one side of the vibration wave generator 6.

In this embodiment, the striking head 4 is directed toward the middle of the optical cable bound by the binding band 2. The center of the optical cable is pointed to enable the knocking head 4 to knock the optical cable in the radial direction, and an operator can recognize the corresponding optical cable through vibration at the other end of the optical cable.

The utility model discloses an use flow does: an operator tightly bundles the optical cable by using the wire binding belt 2, and simultaneously rotates the installation rod body 1 according to needs to tighten the optical cable; then, the knocking motor 10 is turned on as required to enable the knocking head 4 to perform knocking work or enable the knocking head 4 to collide with the optical cable without repeated knocking; the vibration wave generator 6 and the red light pen point 11 execute work; then, the gear motor is turned on as required to rotate the rotating block 8, so that the knocking head 4 can change the position and knock different optical cables.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (9)

1. The optical cable identification device is characterized by comprising an installation rod body (1), and a wire bundling assembly and an identification assembly which are arranged on the installation rod body (1), wherein the wire bundling assembly comprises a flat long strip-shaped wire bundling belt (2) and a first fixing seat (3) matched with the wire bundling belt (2), the identification assembly comprises a knocking head (4) matched with an optical cable and a second fixing seat (5) matched with the knocking head (4), the tail end of the knocking head (4) is provided with a vibration wave generator (6), when the optical cable is tightly bundled by the wire bundling belt (2), the knocking head (4) is positioned in front of or behind the wire bundling position of the wire bundling belt (2), and the second fixing seat (5) is positioned below the first fixing seat (3).

2. The cable identification device according to claim 1, wherein the first fixing base (3) is connected to the cable-bundling strap (2), and the mounting rod body (1) is perpendicular to the cable when the cable-bundling strap (2) bundles the cable.

3. An optical cable identification device as claimed in claim 1, wherein the first fixing seat (3) is fixedly connected to the mounting rod body (1), and the mounting rod body (1) is rotatably disposed.

4. The optical cable identification device according to claim 1, wherein the second fixing seat (5) is rotatably engaged with the mounting rod body (1), the second fixing seat (5) comprises an extension rod (7), the extension rod (7) is perpendicular to the mounting rod body (1), and the knocking head (4) is disposed at a distal end of the extension rod (7).

5. The cable identification device according to claim 1, wherein the identification component comprises an arc-shaped rotating block (8), the knocking head (4) is fixedly arranged on the rotating block (8), and when the cable is tightly bound by the cable binding band (2), the arc-shaped center of the rotating block (8) is positioned on the axis of the cable.

6. The optical cable identification device according to claim 5, wherein an arc-shaped gear tooth groove body (9) is arranged on one side, close to the extension rod (7), of the rotating block (8), a gear motor is arranged at the tail end of the extension rod (7), and a gear matched with the arc-shaped gear tooth groove body (9) is arranged on an output shaft of the gear motor.

7. Optical cable identification device according to claim 5, characterized in that the rear part of the turning block (8) is provided with a tapping motor (10) cooperating with the tapping head (4).

8. Optical cable identification device according to claim 1, characterized in that the striking head (4) is provided at its end with a red light pen point (11), said red light pen point (11) being located on one side of said vibration wave generator (6).

9. The cable identification device according to claim 1, wherein the striking head (4) is directed towards the middle of the cable which is bound by the cable-binding band (2).

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