CN210710077U - Wire cutting mechanism applied to cable cutting and bundling equipment - Google Patents

Abstract

The utility model provides a be applied to and cut out line mechanism on cable binding equipment, includes the optical cable coiling mechanism that becomes the dish with the fixed length, send the optical cable tip into wire feeding mechanism of wire feeding mechanism, cut off the wire cutting mechanism with the optical cable, be equipped with the wire feeding mouth that is used for controlling the optical cable to send out the position in the wire feeding mechanism, the wire cutting mechanism includes the shearing tool who cuts the optical cable and is used for driving the driving mechanism that the shearing tool got into the shearing position, and the optical cable passes and is cut off by the wire cutting mechanism behind the wire feeding mouth.

Description

Wire cutting mechanism applied to cable cutting and bundling equipment

Technical Field

The utility model relates to a cut out cable equipment of bundling, concretely relates to be applied to and cut out line mechanism on cable equipment of bundling.

Background

The cable cutting and binding equipment is mainly used for cutting optical cables (or similar materials), and has the working principle that the optical cables wound on a raw material barrel are unfolded, cut into sections according to the set length and the set number, the cut optical cables in the coiled form after being cut into the sections are wound into a coiled form, then the coiled optical cables are bound, and finally the bound optical cables are conveyed to a specified position for blanking, so that the common cable cutting and binding equipment in the market at present has the following problems:

1. the optical cable cutting position is arranged at the rear end of the wire feeding nozzle, and the optical cable cannot pass through the wire feeding nozzle due to bending deformation of an optical cable port after being cut, so that the wire feeding mechanism cannot complete wire feeding;

2. in order to make the inner diameters of the coiled optical cables uniform and tidy, the whole wire feeding mechanism needs to be moved up and down, the movement is heavy, and the working efficiency is not high;

3. when the bundled optical cables are conveyed to a designated position for blanking, the whole wire clamping mechanism needs to move outwards together for blanking, the wire clamping mechanism has large mass and cannot move for a long distance, the moving speed is slow, and the working efficiency is not high;

4. the wire blocking disc matched with the wire winding disc in the wire winding mechanism is arranged on the wire clamping mechanism, and can move along with the wire clamping mechanism in the feeding process, and the returned coaxial position of the wire blocking disc and the wire winding disc cannot be accurately positioned, so that the wire winding quality cannot be ensured;

5. the wire binding mechanism is arranged on the outer side of the wire winding mechanism, when the wire binding mechanism works, the wire binding mechanism needs to integrally move in two directions of an X axis and a Z axis, the movement is complex, and the working efficiency is not high.

The utility model discloses the inventor has invented a cut out cable equipment of bundling to above-mentioned problem, including the paying out machine who is used for placing bundle optical cable, send the optical cable tip into the wire feeding mechanism of wire winding mechanism, wind the mechanism of coiling the optical cable of fixed length, cut out the line mechanism with the optical cable of cutting off, the mechanism of bundling that bundles the optical cable of coiling, still include the thread clamping mechanism who takes out the optical cable of coiling in the mechanism, the unloading mechanism that the optical cable of coiling that takes out the thread clamping mechanism carries to cycloid mechanism and be used for neatly putting the cycloid mechanism of coiling the optical cable after will binding. However, the cutting position of the optical cable of the existing wire cutting mechanism is arranged at the rear end of the wire feeding nozzle, and the optical cable can be bent and deformed after being cut, so that the phenomenon that the port of the optical cable is bent and deformed and cannot penetrate through the wire feeding nozzle to normally feed the wire can occur, and the wire cutting mechanism needs to be redesigned aiming at the problem.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a be applied to and cut out the line mechanism on cable tie-up equipment.

The utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a be applied to and cut out line mechanism on cable binding equipment, includes the optical cable coiling mechanism that becomes the dish with the fixed length, send the optical cable tip into wire feeding mechanism of wire feeding mechanism, cut off the wire cutting mechanism with the optical cable, be equipped with the wire feeding mouth that is used for controlling the optical cable to send out the position in the wire feeding mechanism, the wire cutting mechanism includes the shearing tool who cuts the optical cable and is used for driving the driving mechanism that the shearing tool got into the shearing position, and the optical cable passes and is cut off by the wire cutting mechanism behind the wire feeding mouth.

The utility model discloses in, send line mechanism including being used for removing the moving mechanism who sends the line mouth, send the line mouth to install in moving mechanism.

The utility model discloses in, moving mechanism sends the winding displacement mechanism that the mouth reciprocated to carry out the winding displacement action and drive including the drive and send the translation mechanism that the mouth is close to or keeps away from winding mechanism.

The utility model discloses in, send the line mouth to be the toper structure, send to be equipped with the threading passageway that is used for the optical cable to pass in the line mouth.

The utility model discloses in, winding displacement mechanism is including the mounting bracket that is used for installing the line mouth of sending, be used for driving the mounting bracket and send the reciprocating mechanism that the line mouth reciprocated together, reciprocating mechanism installs in the mounting bracket below.

The utility model discloses in, wire winding mechanism is equipped with the optical cable anchor clamps of pressing from both sides tight optical cable tip on the wire reel.

The present invention provides an optical cable clamp, which comprises a tension plate and a clamp moving mechanism for moving the tension plate to clamp and loosen an end of an optical cable.

The utility model has the advantages that: the utility model discloses a position setting is tailor to the optical cable of cutting mechanism between sending line mouth and wire winding mechanism, and the optical cable tip is cut again after passing sending the line mouth, cuts the crooked deformation that back optical cable tip appears and can not lead to the fact the influence to sending line mouth work of preceding station, makes each part of equipment distribute more rationally, and the line work of sending of equipment is more smooth and easy.

Drawings

The invention will be further explained with reference to the drawings and the embodiments below:

FIG. 1 is a schematic overall structure diagram according to a first embodiment;

FIG. 2 is a front view of the first embodiment;

fig. 3 is a top view of the first embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments of the present invention.

The first embodiment is as follows:

as shown in fig. 1 to fig. 3, this embodiment discloses a wire cutting mechanism applied to a cable binding apparatus, which includes a wire winding mechanism 1 for winding a fixed length optical cable into a reel, a wire feeding mechanism 2 for feeding the end of the optical cable into the wire winding mechanism 1, and a wire cutting mechanism 3 for cutting the optical cable, and is characterized in that: the wire feeding mechanism 2 is provided with a wire feeding nozzle 21 for controlling the position of the optical cable to be fed out, the wire cutting mechanism 3 comprises a shearing cutter 31 for shearing the optical cable and a driving mechanism 32 for driving the shearing cutter 31 to enter the shearing position, and the optical cable is cut by the wire cutting mechanism 3 after passing through the wire feeding nozzle 21. The end part of the optical cable penetrates through the wire feeding nozzle 21 and then is cut off, and the bending deformation of the end part of the optical cable after cutting off cannot influence the work of the wire feeding nozzle 21 of the previous station, in the utility model, the cutting tool 31 is a pneumatic scissors, and the driving mechanism 32 is a guide rail cylinder; or the shearing cutter 31 is other shearing cutters 31 capable of shearing or cutting the optical cable, the driving mechanism 32 is the driving mechanism 32 capable of driving the shearing cutter 31 to enter the shearing position, the optical cable can be sheared, the wire feeding nozzle 21 is of a conical structure, the optical cable passes through the wire feeding nozzle 21 and then is fed into the winding mechanism 1 for winding, and the optical cable fed into the winding mechanism 1 can be accurately fed into the designated position through the limiting effect of the wire feeding nozzle 21 on the feeding of the optical cable.

In a preferred embodiment, the wire feeding mechanism 2 includes a moving mechanism 22 for moving the wire feeding nozzle 21, and the wire feeding nozzle 21 is mounted in the moving mechanism 22. The moving mechanism 22 comprises a wire arranging mechanism 221 for driving the wire feeding nozzle 21 to move up and down to perform wire arranging action and a translation mechanism 222 for driving the wire feeding nozzle 21 to be close to or far away from the winding mechanism 1, the wire arranging mechanism 221 drives the wire feeding nozzle 21 to move up and down, so that optical cables fed into the winding mechanism 1 are arranged layer by layer, the winding is neat and uniform, the wire winding quality is improved, the translation mechanism 222 drives the wire feeding nozzle 21 to move back and forth, the wire feeding nozzle 21 enters the winding mechanism 1 to feed wires, or the wire cutting mechanism 3 withdraws from the winding mechanism 1 to cut the optical cables, and a sliding block and a sliding rail are arranged at the bottom of the translation mechanism 222 in a movable fit mode to perform moving guide. When sending line mechanism 2 to send fixed length optical cable into winding mechanism 1, need will send line mechanism 2 to remove and be close to winding mechanism 1, make send line mouth 21 to be close to in the wire reel of winding mechanism 1, make the optical cable can accurately send into winding mechanism 1, the optical cable is sent into winding mechanism 1 and is twined into the dish at winding mechanism 1 after, send line mechanism 2 to remove backward and keep away from winding mechanism 1, then cut out the line at drive wire cutting mechanism 3, consequently, cut out the line and accomplish the back, shearing tool 31 need avoid sending the removal orbit of line mechanism 2, prevent that the action each other from taking place to interfere.

In a preferred embodiment, the traverse mechanism 221 includes a mounting block 2211 for mounting the wire feeding nozzle 21, and an up-down moving mechanism 2212 for driving the mounting block 2211 to move up and down together with the wire feeding nozzle 21, and the up-down moving mechanism 2212 is mounted below the mounting block 2211. The driving mechanism 31 is mounted on the supporting plate 33, and the cutting tool 31 and the thread feeding nozzle 21 are arranged perpendicular to each other.

In a preferred embodiment, the winding mechanism 1 is provided with a cable clamp for clamping the cable end to the spool. The cable clamp includes a tension plate 41 and a clamp moving mechanism 42 for moving the tension plate 41 to clamp and unclamp the cable end.

The above description is only the preferred embodiment of the present invention, and the technical solutions of the objects of the present invention are all within the protection scope of the present invention as long as the objects are achieved by the substantially same means.

Claims (7)

1. The utility model provides a be applied to and cut out line mechanism on cable equipment of bundling, includes winding mechanism (1) that winds the optical cable of fixed length into the dish, send optical cable tip into send line mechanism (2) of winding mechanism (1), cut out line mechanism (3) that the optical cable was cut off, its characterized in that: the optical cable cutting device is characterized in that a wire feeding nozzle (21) used for controlling the sending position of an optical cable is arranged in the wire feeding mechanism (2), the wire cutting mechanism (3) comprises a shearing cutter (31) used for shearing the optical cable and a driving mechanism (32) used for driving the shearing cutter (31) to enter the shearing position, and the optical cable is cut by the wire cutting mechanism (3) after passing through the wire feeding nozzle (21).

2. The wire cutting mechanism applied to the cable binding equipment according to claim 1, wherein: the wire feeding mechanism (2) comprises a moving mechanism (22) for moving the wire feeding nozzle (21), and the wire feeding nozzle (21) is installed in the moving mechanism (22).

3. The wire cutting mechanism applied to the cable binding equipment according to claim 2, wherein: the moving mechanism (22) comprises a wire arranging mechanism (221) for driving the wire feeding nozzle (21) to move up and down to perform wire arranging action and a translation mechanism (222) for driving the wire feeding nozzle (21) to be close to or far away from the wire winding mechanism (1).

4. The wire cutting mechanism applied to the cable binding equipment according to claim 1, wherein: the wire feeding nozzle (21) is of a conical structure, and a threading channel for the optical cable to pass through is arranged in the wire feeding nozzle (21).

5. The wire cutting mechanism applied to the cable binding equipment according to claim 3, wherein: the wire arranging mechanism (221) comprises a mounting frame (2211) for mounting the wire feeding nozzle (21) and an up-down moving mechanism (2212) for driving the mounting frame (2211) to move up and down together with the wire feeding nozzle (21), wherein the up-down moving mechanism (2212) is mounted below the mounting frame (2211).

6. The wire cutting mechanism applied to the cable binding equipment according to claim 1, wherein: the wire winding mechanism (1) is provided with an optical cable clamp for clamping the end part of an optical cable on the wire winding disc.

7. The wire cutting mechanism applied to the cable binding equipment according to claim 6, wherein: the cable clamp comprises a tension disc (41) and a clamp moving mechanism (42) for moving the tension disc (41) to clamp and unclamp the cable end.

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