CN215589298U - Optical cable bundling yarn forming paper tube bidirectional slotting device - Google Patents

Abstract

The utility model relates to a prick the treatment facility field of yarn in-process paper tube, specifically disclose an optical cable pricks two-way fluting device of yarn shaping paper tube, it runs through the removal cutting mechanism of steel wire one side and sets up the paper tube clamping mechanism who runs through the steel wire opposite side at the paper tube including setting up at the paper tube, removes the paper tube that cutting mechanism wore to establish on running through the steel wire to the paper tube at the in-process that removes and cuts one by one, cuts steadily and links up. The paper tube clamping mechanism is matched with the movable cutting mechanism for use, before the movable cutting mechanism works, the paper tube clamping mechanism enables the paper tube to penetrate through the steel wire and is clamped and fixed, when the movable cutting mechanism cuts the paper tubes one by one, the paper tubes cannot move, the paper tube clamping mechanism guarantees the stability of paper tube cutting, and the cutting efficiency is also improved.

Description

Optical cable bundling yarn forming paper tube bidirectional slotting device

Technical Field

The application relates to the field of processing equipment for paper tubes in a yarn binding process, in particular to a bidirectional slotting device for an optical cable yarn binding forming paper tube.

Background

In the process of manufacturing the optical cable, in order to keep the structure of the optical cable stable, a high-strength polyester yarn is used for bundling the cable core, and the bundling process is called optical cable bundling. The yarns used in the optical cable yarn binding process are coiled and wound on the paper tubes, the paper tubes are arranged on the steel wires in a penetrating mode, and the coiled paper tubes rotate relative to the steel wires in the machining process, so that the yarns are sent out and used for optical cable yarn binding machining.

In the actual processing process, the yarn that coils on the paper tube need be derived the paper tube from the steel wire after using up completely, because the paper tube that the cover was established on the steel wire is numerous, and the steel wire is very long, if derive the paper tube from the steel wire tip, can have the problem that wastes time and energy, consequently, need carry out the destructive demolition with the help of mechanical equipment with the paper tube on the steel wire. At present, in some optical cable yarn binding workshops, the destructive removal of the paper tube is mainly carried out in a mechanical cutting mode.

For the related technologies, the inventor thinks that, in the process of mechanical cutting, the paper tube is easy to move axially on the steel wire, the paper tube cannot be effectively fixed, and the actual cutting efficiency of the cutting equipment is not high.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that the yarn-binding paper tube is easy to move in the destructive removing process, the application provides a bidirectional slotting device for an optical cable yarn-binding forming paper tube.

The application provides a two-way fluting device of optical cable bundling shaping paper tube adopts following technical scheme:

the utility model provides a two-way fluting device of optical cable bundle yarn shaping paper tube, runs through the removal cutting mechanism of steel wire one side and sets up the paper tube clamping mechanism who runs through the steel wire opposite side at the paper tube including setting up at the paper tube, it is suitable for to cut the paper tube that wears to establish on running through the steel wire to the paper tube to remove cutting mechanism, paper tube clamping mechanism is suitable for right the paper tube runs through waiting to cut the paper tube and presss from both sides tightly fixedly on the steel wire.

By adopting the technical scheme, the movable cutting mechanism cuts the paper tubes penetrating through the steel wire and penetrating through the paper tubes one by one in the moving process, and the cutting is stable and continuous; the paper tube clamping mechanism is mainly used in cooperation with the movable cutting mechanism, before the movable cutting mechanism works, the paper tube clamping mechanism clamps and fixes the paper tube penetrating through the steel wire and penetrating through the paper tube, when the movable cutting mechanism cuts the paper tube one by one, the paper tube cannot move, the paper tube clamping mechanism ensures the stability of paper tube cutting, and the cutting efficiency is also improved.

Optionally, the movable cutting mechanism comprises a cutting assembly and a movement control assembly for controlling the horizontal movement of the cutting assembly.

Through adopting above-mentioned technical scheme, the mobile control subassembly mainly controls cutting assembly and carries out the level continuity and remove, guarantees that cutting assembly can remove the cutting, reaches the purpose that the paper tube cut one by one.

Optionally, the movement control assembly includes a horizontal guide rail, a driving trolley mounted on the horizontal guide rail, and a first driving member disposed at the bottom of the driving trolley;

the cutting assembly comprises a mounting frame, a cutting disc arranged on the inner side of the mounting frame, a rotating shaft fixedly connected with the center of the cutting disc and a driving motor connected with the end part of the rotating shaft, the end part of the mounting frame is connected with the output end of the first driving piece, and the rotating shaft is rotatably connected with the mounting frame.

Through adopting above-mentioned technical scheme, the cutting subassembly that the drive dolly can control the bottom carries out horizontal migration in the below of horizontal guide rail, and at the in-process of paper tube cutting, first driving piece control cutting subassembly is down and be close to the paper tube that waits to cut, and cutting assembly's driving motor starts and drives the high-speed rotation of cutting disc to cut the paper tube, the in-process of paper tube cutting, the cutting disc is along with the drive dolly axial coherent removal together at top, thereby realize cutting one by one of paper tube, and the cutting process links up, and is steady.

Optionally, the paper tube clamping mechanism includes a paper tube clamping assembly and a lifting and overturning control assembly for controlling the paper tube clamping assembly to lift and overturn.

By adopting the technical scheme, the paper tube clamping assembly mainly clamps and fixes the paper tube to be cut penetrating through the steel wire and penetrating through the paper tube, so that the paper tube is prevented from moving when the paper tube is cut by the cutting disc; and lift upset control subassembly main control paper tube clamping components realizes going up and down and overturning, before the paper tube is cut, lift upset control subassembly control paper tube clamping components is close to the paper tube, realize pressing from both sides tight of paper tube, after each paper tube is cut to accomplish, lift upset control subassembly control paper tube clamping components upset to the paper tube that will cut runs through the steel wire from the paper tube and demolishs and shifts to the garbage collection region of next door, and then realizes demolising and shifting of paper tube after the cutting.

Optionally, the paper tube clamping assembly comprises a supporting plate, two clamping plates hinged to one side of the supporting plate, and a clamping cylinder connected between the two clamping plates, wherein the clamping cylinder is suitable for controlling the two clamping plates to clamp and fix the paper tube to be cut penetrating through the steel wire;

the lifting and overturning control assembly comprises a base, an overturning plate arranged on one side of the base, a second driving piece fixed on the overturning plate and an overturning cylinder arranged on one side of the base, wherein the output end of the second driving piece is fixedly connected with the supporting plate;

the output end of the turnover cylinder is fixedly connected with the bottom of the turnover plate through a rotating arm, and the end part of the rotating arm is rotatably connected with the base.

Through adopting above-mentioned technical scheme, before cutting the paper tube at the cutting dish, second driving piece control paper tube clamping mechanism goes upward and is close to the paper tube, two clamp plates of die clamping cylinder control are received and are run through a plurality of paper tube centre grippings of wearing to establish on the steel wire with the paper tube and fix, the paper tube after the centre gripping is fixed is cut one by the cutting dish after, the paper tube clamping components of upset cylinder control top rotates certain angle, thereby the paper tube after will cutting runs through the steel wire from the paper tube and demolishs and shift to the garbage collection region on next door, and then realize demolising and shifting of paper tube after the cutting.

Optionally, the number of the cutting assemblies is two, and the two cutting assemblies are respectively located on two sides of the horizontal guide rail.

Through adopting above-mentioned technical scheme, after setting up two cutting assembly, when carrying out the paper tube cutting, two cutting assembly can run through the both sides relative movement at the steel wire top at the paper tube, realize the paper tube and place the both ends synchronous cutting of station, have improved the cutting efficiency of paper tube.

Optionally, the first driving part is a lifting cylinder or a push rod motor, and the second driving part is a lifting cylinder or a push rod motor.

Through adopting above-mentioned technical scheme, the lift cylinder is fit for the mechanical part of control end portion in the stroke of setting for and stretches out and draws back fast, and the push rod motor is fit for the mechanical part of control end portion and carries out the continuity and slowly stretch out and draw back and move. The selection of the lifting cylinder or the push rod motor is determined according to actual requirements.

Optionally, the side surface of the clamping plate is provided with an arc-shaped clamping opening, and the two clamping plates are symmetrical to each other.

Through adopting above-mentioned technical scheme, the tight mouthful design of arc clamp that the clamp plate side had is mainly that the clamp plate after being convenient for two receipts are closed can stabilize the centre gripping and wait to cut the paper tube, prevents that the tight paper tube of clamp from skidding.

In summary, the present application includes at least one of the following beneficial technical effects:

1. according to the paper tube cutting device, the movable cutting mechanism is arranged on one side, penetrating through the steel wire, of the paper tube, the paper tube clamping mechanism is arranged on the other side, the movable cutting mechanism cuts the paper tubes penetrating through the steel wire on the paper tube one by one in the moving process, and cutting is stable and continuous; the paper tube clamping mechanism is matched with the movable cutting mechanism for use, before the movable cutting mechanism works, the paper tube clamping mechanism clamps and fixes the paper tubes penetrating through the steel wires, when the movable cutting mechanism cuts the paper tubes one by one, the paper tubes cannot move, the paper tube clamping mechanism ensures the stability of paper tube cutting, and the cutting efficiency is also improved;

2. the paper tube clamping mechanism comprises a paper tube clamping assembly and a lifting and overturning control assembly, wherein the paper tube clamping assembly is mainly used for clamping and fixing a paper tube to be cut penetrating through a steel wire by the paper tube, so that the paper tube is prevented from moving when the paper tube is cut by the cutting disc; the lifting and overturning control assembly mainly controls the paper tube clamping assembly to realize lifting and overturning, before the paper tube is cut, the lifting and overturning control assembly controls the paper tube clamping assembly to be close to the paper tube to realize the clamping of the paper tube, and after each paper tube is cut, the lifting and overturning control assembly controls the paper tube clamping assembly to overturn, so that the cut paper tube is detached from the paper tube penetrating steel wire and transferred to a waste collection area beside the paper tube, and then the detached and transferred paper tube after being cut is realized;

3. through the cooperation of paper tube clamping mechanism and removal cutting mechanism use, the device has realized that the paper tube destroys cutting one by one, presss from both sides the integration of fixing and demolish the transfer work after the cutting, and the paper tube is demolishd efficiently.

Drawings

FIG. 1 is a schematic structural diagram of the present application;

FIG. 2 is a schematic view of the present application after the clamping plates are fully opened;

FIG. 3 is a usage effect diagram of the present application;

FIG. 4 is a schematic structural diagram of a rear view of the present invention;

FIG. 5 is a schematic bottom view of the present invention.

Description of reference numerals: 1. the paper tube penetrates through the steel wire; 2. moving the cutting mechanism; 21. a movement control assembly; 22. a cutting assembly; 211. a horizontal guide rail; 212. driving the trolley; 213. a first driving member; 221. a mounting frame; 222. cutting the disc; 223. a rotating shaft 224 and a driving motor; 3. a paper tube clamping mechanism; 31. a paper tube clamping assembly; 311. a support plate; 312. a clamping plate; 313. a clamping cylinder; 32. a lifting and overturning control component; 321. a base; 322. a turnover plate; 323. a second driving member; 324. turning over the air cylinder; 325. a rotating arm; 4. a paper tube.

Detailed Description

The present application is described in further detail below with reference to figures 1 to 5.

The embodiment of the application discloses optical cable pricks two-way fluting device of yarn shaping paper tube, refer to fig. 1, fig. 2, and the two-way fluting device of optical cable pricks yarn shaping paper tube is including setting up at the paper tube and run through the removal cutting mechanism 2 of steel wire 1 one side and set up at the paper tube and run through the paper tube clamping mechanism 3 of steel wire 1 opposite side.

Under the normal condition, the optical cable is pricked the yarn in-process, and the paper tube 4 of lapping yarn generally all is direct cover and establishes on paper tube runs through steel wire 1, and the paper tube runs through the quantity of lapping yarn on the steel wire 1 and is a plurality of, and the last lapping yarn of paper tube is using up the back, need carry out destructive cutting to remaining paper tube through this device to the paper tube after will cutting is followed the paper tube and is run through and demolishs on the steel wire 1.

When the residual paper tubes are cut, the movable cutting mechanism 2 cuts the paper tubes 4 penetrating through the steel wire 1 one by one in the moving process, and the cutting is stable and continuous; paper tube clamping mechanism 3 mainly is the cooperation and removes cutting mechanism 2 and use, and before removing cutting mechanism 2 work, paper tube clamping mechanism 3 is fixed with the paper tube clamp that the paper tube runs through wearing to establish on steel wire 1, removes cutting mechanism 2 and when carrying out paper tube 4 and cut one by one, and paper tube 4 can not take place to remove, and paper tube clamping mechanism 3 has guaranteed the stability of paper tube cutting, has also improved cutting efficiency.

Further, remove cutting mechanism 2 and include movement control subassembly 21 and cutting component 22, movement control subassembly 21 mainly controls cutting component 22 and carries out horizontal continuity removal in the top that the paper tube runs through steel wire 1, guarantees that cutting component 22 can remove the cutting, reaches the purpose that the paper tube cut one by one. The quantity of cutting assembly 22 can be two, and two cutting assembly 22 are located the both sides that the paper tube runs through steel wire 1 top respectively, and when carrying out the paper tube cutting, two cutting assembly 22 can run through the both sides relative movement at steel wire 1 top at the paper tube, realize the paper tube and place the both ends synchronous cutting of station, have improved the cutting efficiency of paper tube.

Referring to fig. 1 and 3, the paper tube clamping mechanism 3 includes a paper tube clamping assembly 31 and a lift-and-tilt control assembly 32. The paper tube clamping assembly 31 is mainly used for clamping and fixing the paper tube 4 to be cut, which penetrates through the steel wire 1, so that the paper tube 4 does not move when the cutting assembly 22 cuts the paper tube 4; and lift upset control assembly 32 mainly controls paper tube clamping assembly 31 and realizes going up and down and overturning, before the paper tube is cut, lift upset control assembly 32 controls paper tube clamping assembly 31 and is close to paper tube 4, realize the clamp of paper tube 4, after each paper tube 4 is cut, lift upset control assembly 32 controls paper tube clamping assembly 31 and overturns, thereby penetrate steel wire 1 from the paper tube and demolish and transfer to the garbage collection region next door paper tube 4 after will cutting, and then realize demolising and shifting of paper tube 4 after the cutting.

The working principle of the present application is further explained with reference to specific structures as follows:

referring to fig. 1 and 4, the movement control assembly 21 includes a horizontal rail 211, a driving carriage 212 mounted on the horizontal rail 211, and a first driving member 213 disposed at the bottom of the driving carriage 212; the first driving member 213 is a lifting cylinder or a push rod motor, the lifting cylinder is suitable for controlling the mechanical component at the end to be quickly stretched and contracted within a set stroke, the push rod motor is suitable for controlling the mechanical component at the end to be continuously and slowly stretched and contracted to move, and the selection of the lifting cylinder or the push rod motor is determined according to actual requirements.

The cutting assembly 22 includes a mounting bracket 221, a cutting disc 222 disposed inside the mounting bracket 221, a rotation shaft 223 fixedly connected to the center of the cutting disc 222, and a driving motor 224 connected to the end of the rotation shaft 223, wherein the end of the mounting bracket 221 is connected to the output end of the first driving member 213, and the rotation shaft 223 is rotatably connected to the mounting bracket 221.

The paper tube clamping assembly 31 comprises a supporting plate 311, two clamping plates 312 hinged to one side of the supporting plate 311 and a clamping cylinder 313 connected between the two clamping plates 312, wherein the clamping cylinder 313 is suitable for controlling the two clamping plates 312 to clamp and fix the paper tube to be cut 4 penetrating through the steel wire 1. In this embodiment, the side surfaces of the clamping plates 312 are provided with arc-shaped clamping openings, the two clamping plates 312 are symmetrical to each other, and the arc-shaped clamping openings formed in the side surfaces of the clamping plates 312 are designed to facilitate the two folded clamping plates 312 to stably clamp the paper tube 4 to be cut, so as to prevent the clamped paper tube 4 from slipping.

Referring to fig. 5, the lifting and overturning control assembly 32 includes a base 321, an overturning plate 322 installed at one side of the base 321, a second driving member 323 fixed on the overturning plate 322, and an overturning cylinder 324 installed at one side of the base 321, an output end of the second driving member 323 is fixedly connected with the supporting plate 311, an output end of the overturning cylinder 324 is fixedly connected with the bottom of the overturning plate 322 through a rotating arm 325, and an end of the rotating arm 325 is rotatably connected with the base 321;

the second driving member 323 is a lifting cylinder or a push rod motor, the lifting cylinder is suitable for controlling the mechanical part at the end to stretch quickly in a set stroke, the push rod motor is suitable for controlling the mechanical part at the end to continuously and slowly stretch and move, and the selection of the lifting cylinder or the push rod motor is determined according to actual requirements.

The working principle of the application is as follows:

before the paper tube 4 is cut by the cutting disc 222, the second driving part 323 controls the paper tube clamping mechanism to move upwards and to be close to the paper tube 4, the clamping cylinder 313 controls the two clamping plates 312 to retract and clamp the paper tube through the paper tubes 4 penetrating the steel wire 1, the driving trolley 212 can control the cutting assembly 22 at the bottom to horizontally move below the horizontal guide rail 211, in the paper tube cutting process, the first driving part 213 controls the cutting assembly 22 to move downwards and to be close to the paper tube 4 to be cut, the driving motor 224 of the cutting assembly is started and drives the cutting disc 222 to rotate at a high speed, so that the paper tube 4 is cut, in the paper tube 4 cutting process, the cutting disc 222 axially and continuously moves together with the driving trolley 212 at the top, so that the paper tubes 4 are cut one by one, and the cutting process is continuous and stable;

after the clamped and fixed paper tubes 4 are cut one by the cutting disc 222, the turning cylinder 324 controls the paper tube clamping assembly 31 above to rotate for a certain angle, after the paper tubes 4 are clamped and transferred, the clamping cylinder 313 controls the two clamping plates 312 to open, so that the cut paper tubes 4 are removed from the paper tube penetrating steel wire 1 and transferred to a nearby waste collection area, and then the removal and transfer of the cut paper tubes are realized.

To sum up, the paper tube clamping mechanism 3 of the device cooperates with the movable cutting mechanism 2 to use, before the movable cutting mechanism 2 works, the paper tube clamping mechanism 3 clamps and fixes the paper tube 4 penetrating through the steel wire 1 by the paper tube, when the movable cutting mechanism 2 cuts the paper tube 4 one by one, the paper tube 4 can not move, the paper tube clamping mechanism 3 ensures the stability of the paper tube 4, and the cutting efficiency is also improved.

Through the cooperation of paper tube clamping mechanism 3 and removing cutting mechanism 2 and use, the device has realized that the paper tube 4 destroys cutting one by one, presss from both sides the integration of fixing and removing the transfer work after the cutting, and the paper tube is demolishd efficiently.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a two-way fluting device of optical cable bundle yarn shaping paper tube, runs through removal cutting mechanism (2) of steel wire (1) one side and sets up paper tube clamping mechanism (3) that run through steel wire (1) opposite side at the paper tube including setting up, its characterized in that: the movable cutting mechanism (2) is suitable for cutting a paper tube (4) penetrating through the steel wire (1) of the paper tube, and the paper tube clamping mechanism (3) is suitable for clamping and fixing the paper tube to be cut penetrating through the steel wire (1) of the paper tube.

2. The optical cable binding yarn forming paper tube bidirectional grooving device according to claim 1, characterized in that: the movable cutting mechanism (2) comprises a movable control assembly (21) and a cutting assembly (22), and the movable control assembly (21) controls the cutting assembly (22) to move horizontally.

3. The optical cable binding yarn forming paper tube bidirectional grooving device according to claim 2, characterized in that: the movement control assembly (21) comprises a horizontal guide rail (211), a driving trolley (212) arranged on the horizontal guide rail (211) and a first driving piece (213) arranged at the bottom of the driving trolley (212);

cutting assembly (22) include mounting bracket (221), set up cutting dish (222) inboard at mounting bracket (221), with cutting dish (222) center fixed connection's axis of rotation (223) and with axis of rotation (223) end connection's driving motor (224), the tip of mounting bracket (221) with the output of first driving piece (213) is connected, axis of rotation (223) with mounting bracket (221) are rotated and are connected.

4. The optical cable binding yarn forming paper tube bidirectional grooving device according to claim 1 or 2, wherein: the paper tube clamping mechanism (3) comprises a paper tube clamping component (31) and a lifting and overturning control component (32) for controlling the paper tube clamping component (31) to lift and overturn.

5. The optical cable binding yarn forming paper tube bidirectional grooving device according to claim 4, wherein: the paper tube clamping assembly (31) comprises a supporting plate (311), two clamping plates (312) hinged to one side of the supporting plate (311) and a clamping cylinder (313) connected between the two clamping plates (312), wherein the clamping cylinder (313) is suitable for controlling the two clamping plates (312) to clamp and fix the paper tube to be cut penetrating through the steel wire (1).

6. The optical cable binding yarn forming paper tube bidirectional grooving device according to claim 5, wherein: the lifting and overturning control assembly (32) comprises a base (321), an overturning plate (322) arranged on one side of the base (321), a second driving piece (323) fixed on the overturning plate (322) and an overturning cylinder (324) arranged on one side of the base (321), wherein the output end of the second driving piece (323) is fixedly connected with the supporting plate (311);

the output end of the turnover cylinder (324) is fixedly connected with the bottom of the turnover plate (322) through a rotating arm (325), and the end part of the rotating arm (325) is rotatably connected with the base (321).

7. The optical cable binding yarn forming paper tube bidirectional grooving device according to claim 3, wherein: the number of the cutting assemblies (22) is two, and the two cutting assemblies (22) are respectively positioned on two sides of the horizontal guide rail (211).

8. The optical cable binding yarn forming paper tube bidirectional grooving device according to claim 3, wherein: the first driving piece (213) is a lifting cylinder or a push rod motor.

9. The optical cable binding yarn forming paper tube bidirectional grooving device according to claim 6, wherein: the second driving piece (323) is a lifting cylinder or a push rod motor.

10. The optical cable binding yarn forming paper tube bidirectional grooving device according to claim 5, wherein: the side surface of the clamping plate (312) is provided with an arc-shaped clamping opening, and the two clamping plates (312) are symmetrical to each other.

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