CN210418712U

CN210418712U - Concentric winding mechanism applied to cable cutting and binding equipment

Info

Publication number: CN210418712U
Application number: CN201921442692.XU
Authority: CN
Inventors: 杨柳
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-08-30
Filing date: 2019-08-30
Publication date: 2020-04-28
Anticipated expiration: 2029-08-30

Abstract

The utility model discloses a be applied to concentric wire winding mechanism on cutting out cable equipment of bundling, include the wire reel with the optical cable coiling lapping of fixed length, be used for stopping that the optical cable throws away the outer fender drum of wire reel, be used for driving wire reel pivoted slewing mechanism, be used for driving the moving mechanism that fender drum reciprocated, fender drum articulates on moving mechanism, fender drum installs the top at the wire reel, wire reel and fender drum set up the motion on same axis, the last wire clamping mechanism that is used for taking out the optical cable from the wire reel that is equipped with of moving mechanism, wire clamping mechanism relatively fixed mounting is on moving mechanism, set up the wire clamping groove that is used for wire clamping mechanism clamp to get the optical cable on the fender drum.

Description

Concentric winding mechanism applied to cable cutting and binding equipment

Technical Field

The utility model relates to a cut out cable equipment of bundling, concretely relates to be applied to and cut out concentric winding 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 wire blocking disc in the existing wire winding mechanism needs to move up and down and back and forth when the equipment works, the concentricity between the wire winding disc and the wire blocking disc cannot be always kept when the equipment works, errors can occur when the wire winding disc and the wire blocking disc move and are matched, the wire winding quality is affected, and therefore the wire winding mechanism needs to be redesigned.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a concentric winding mechanism applied to a cable cutting and binding device.

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

the utility model provides a be applied to and cut out concentric wire winding mechanism on cable binding equipment, includes the wire reel with the optical cable coiling lapping of fixed length, be used for stopping that the optical cable throws away the outer fender drum of wire reel, be used for driving wire reel pivoted slewing mechanism, be used for driving the moving mechanism that keeps off the drum and reciprocate, it articulates on moving mechanism to keep off the drum, keep off the drum and install the top at the wire reel, the wire reel moves on same axis with keeping off the drum setting, the last wire clamping mechanism that is used for taking out the optical cable from the wire reel that is equipped with of moving mechanism, wire clamping mechanism relatively fixed mounting is on moving mechanism, set up the wire clamping groove that is used for wire clamping mechanism to press from both sides the optical cable on the fender drum.

The utility model discloses in, moving mechanism is including removing frame and motor, it articulates on removing the frame to keep off the drum, remove and adopt screw drive between frame and the motor.

The utility model discloses in, it has the mounting panel that is used for installing wire clamping mechanism to remove the relative fixed mounting on the frame.

The utility model discloses in, the back of mounting panel is equipped with and is used for adjusting thread tension mechanism position control mechanism, the mounting panel passes through adjustment mechanism and is connected with the removal frame.

The utility model discloses in, offer the wire bundling groove that is used for the mechanism of bundling to get into and bindes the optical cable on the wire reel.

The utility model discloses in, the thread clamping mechanism includes pneumatic finger and installs the clip on pneumatic finger clamping jaw, be equipped with on the clip and be used for detecting whether the optical cable bindes successful detection device.

The utility model discloses in, be equipped with slider and the guide rail that is used for reciprocating the direction on the removal frame.

The utility model has the advantages that: the utility model discloses an in the moving mechanism that will keep off the drum through only reciprocating, keep off the drum and only reciprocate and rotate along with the wire reel in the course of the work, the central axis that keeps off between drum and the wire reel is located same straight line all the time, guarantees the complex concentricity between the two, and the optical cable is neat on the wire reel, need not to keep off the axis adjustment between drum and the wire reel, reduces the fault rate of equipment work.

Drawings

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

FIG. 1 is a schematic view of the overall structure of the present embodiment;

FIG. 2 is an enlarged view of portion A of FIG. 1;

fig. 3 is an enlarged view of a portion B in fig. 1.

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.

Example (b):

as shown in fig. 1 to fig. 3, the embodiment discloses a concentric wire winding mechanism applied to a cable cutting and binding device, which includes a wire winding disc 1 for winding a fixed-length optical cable, a wire blocking disc 2 for preventing the optical cable from being thrown out of the wire winding disc 1, a rotating mechanism 3 for driving the wire winding disc 1 to rotate, and a moving mechanism 4 for driving the wire blocking disc 2 to move up and down, wherein the wire blocking disc 2 is hinged to the moving mechanism 4, the wire blocking disc 2 is installed above the wire winding disc 1, the wire winding disc 1 and the wire blocking disc 2 are arranged on the same axis to move, the moving mechanism 4 is provided with a wire clamping mechanism 5 for taking the optical cable out of the wire winding disc 1, the wire clamping mechanism 5 is relatively and fixedly installed on the moving mechanism 4, the wire blocking disc 2 is provided with a wire clamping groove 21 for clamping the wire clamping mechanism 5 to clamp the optical cable, and in the working process, the wire blocking disc 2 is driven by the moving mechanism, and keep off drum 2 and articulate on moving mechanism 4, and when keeping off drum 2 and wire reel 1 cooperation, keep off drum 2 and can rotate along with wire reel 1's rotation, and whole action in-process keeps off drum 2 and wire reel 1 and is located the same axis all the time and moves, and coaxial deviation can not appear, and wire reel mechanism's action is more accurate high-efficient.

In a preferred embodiment, the moving mechanism 4 includes a moving frame 41 and a motor 42, the wire blocking disc 2 is hinged on the moving frame 41, and screw transmission is adopted between the moving frame 41 and the motor 42. And a mounting plate 43 for mounting the wire clamping mechanism 5 is relatively and fixedly mounted on the moving frame 41. The back of the mounting plate 43 is provided with a position adjusting mechanism for adjusting the wire clamping mechanism 5, and the mounting plate 43 is connected with the moving frame 41 through the adjusting mechanism. The moving frame 41 is provided with a slide block and a guide rail for up-and-down moving and guiding. In this embodiment, the moving frame 41 is a Z-shaped structure, one end of the moving frame 41 is provided with a connecting shaft 44, the moving frame 41 is connected with the wire blocking disc 2 through the connecting shaft 44, the one-way disc can rotate through the connecting shaft 44, the other end of the moving frame 41 is connected with a slider mounting plate 45, the slider is mounted on the slider mounting plate 45, the moving frame 41 and the slider are mounted on the opposite side of the slider mounting plate 45, the slider mounting plate 45 is provided with a threaded hole in fit connection with the screw, the top of the slider mounting plate 45 is provided with a mounting top plate 46, the motor 42 is fixedly mounted on the mounting top plate 46, the motor 42 is in belt transmission connection with the screw, the moving frame 41 is driven to move up and down through the rotation of the screw, so that the wire blocking disc 2 and the wire clamping mechanism 5 move up and down synchronously, the adjusting, an adjustable connecting structure is arranged between the sliding plate and the mounting bottom plate, wherein the adjustable connecting structure can be a sliding adjustment structure or a multi-gear positioning adjustment structure, and the relative position between the wire clamping mechanism 5 and the wire blocking plate 2 can be adjusted.

In a preferred embodiment, the wire spool 1 is provided with a wire binding groove 11 for the wire binding mechanism to enter the binding optical cable. The cable clamping mechanism 5 comprises a pneumatic finger 51 and a clamp 52 arranged on a clamping jaw of the pneumatic finger 51, wherein a detection device for detecting whether the optical cable is successfully bound is arranged on the clamp 52, when the pneumatic finger 51 is in an open state, the clamp 52 is positioned above the cable binding groove 11, when the pneumatic finger 51 is in a clamping state, the clamp 52 enters the cable binding groove 11 to clamp the optical cable, when the clamp 52 clamps the optical cable, the detection device detects a clamping part of the optical cable and judges whether the optical cable is successfully bound, wherein the detection device can be a metal sensor or a color sensor, when the binding band has a metal inner core, the metal sensor is adopted to detect the optical cable, if the metal sensor detects a metal signal, the optical cable in a coiled form is successfully bound, the cable clamping mechanism 5 clamps the optical cable in a coiled form and takes out the wire coiling tray 1, and if the metal sensor does not detect the metal signal, the optical cable in, the binding mechanism enters the binding action again; when the binding belt is not provided with the metal inner core, the binding belt with the color different from that of the outer surface of the optical cable is adopted, and the working principle of the color sensor is the same as that of the metal sensor.

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

1. The utility model provides a be applied to concentric wire winding mechanism of cutting out on cable tie equipment which characterized in that: including wire reel (1) with the optical cable coiling of fixed length, be used for blockking that the optical cable throws away wire reel (1) outer fender drum (2), be used for driving wire reel (1) pivoted slewing mechanism (3), be used for driving moving mechanism (4) that keep off drum (2) and reciprocate, keep off drum (2) and articulate on moving mechanism (4), keep off drum (2) and install the top at wire reel (1), wire reel (1) and fender drum (2) set up the motion on same axis, be equipped with on moving mechanism (4) and be used for the cable from the wire clamping mechanism (5) of taking out in wire reel (1), wire clamping mechanism (5) relatively fixed mounting is on moving mechanism (4), it gets cable clamping groove (21) of getting the optical cable to offer on wire reel (2) and be used for wire clamping mechanism (5).

2. The concentric winding mechanism applied to the cable cutting and binding equipment as claimed in claim 1, wherein: the moving mechanism (4) comprises a moving frame (41) and a motor (42), the wire blocking disc (2) is hinged to the moving frame (41), and screw transmission is adopted between the moving frame (41) and the motor (42).

3. The concentric winding mechanism applied to the cable cutting and binding equipment as claimed in claim 2, wherein: and the movable frame (41) is relatively and fixedly provided with an installation plate (43) for installing the wire clamping mechanism (5).

4. The concentric winding mechanism applied to a cable tie cutting device according to claim 3, wherein: the back of mounting panel (43) is equipped with and is used for adjusting trapping mechanism (5) position control mechanism, mounting panel (43) are connected with removal frame (41) through adjustment mechanism.

5. The concentric winding mechanism applied to the cable cutting and binding equipment as claimed in claim 1, wherein: and a wire binding groove (11) for a wire binding mechanism to enter a binding optical cable is formed in the wire spool (1).

6. The concentric winding mechanism applied to the cable cutting and binding equipment as claimed in claim 1, wherein: the cable clamping mechanism (5) comprises a pneumatic finger (51) and a clamp (52) arranged on a clamping jaw of the pneumatic finger (51), and a detection device used for detecting whether the optical cable is successfully bound is arranged on the clamp (52).

7. The concentric winding mechanism applied to the cable cutting and binding equipment as claimed in claim 2, wherein: the moving frame (41) is provided with a sliding block and a guide rail which are used for moving up and down for guiding.