CN204585307U

CN204585307U - The cutting facility of aramid line after a kind of optical patchcord peeling

Info

Publication number: CN204585307U
Application number: CN201520104634.1U
Authority: CN
Inventors: 姚辉
Original assignee: CHANGZHOU NAKAMURA ENGINEERING Co Ltd
Current assignee: CHANGZHOU NAKAMURA ENGINEERING Co Ltd
Priority date: 2015-02-12
Filing date: 2015-02-12
Publication date: 2015-08-26
Anticipated expiration: 2025-02-12

Abstract

The utility model relates to the cutting facility of aramid line after a kind of optical patchcord peeling, comprise installing plate, installing plate is provided with the clamping device for grip optical fiber, for gathering and the wire-packing mechanism of fixed fiber peeling place aramid line and the thread cutting mechanism for cutting off aramid line; Described wire-packing mechanism comprises aspirating air pipe, line ball moves plate, line ball determines plate and line ball cylinder; Described aspirating air pipe is arranged on the below of optical fiber peeling place and moves plate and line ball is determined between plate at line ball; Described thread cutting mechanism comprises thread shearing cutter group and trimming cylinder; Described thread shearing cutter group is provided with can be close to optical fiber and from the trimming cutting edge of process below optical fiber.The utility model design is ingenious, can gather fixing to the aramid line of optical fiber peeling place voluntarily, and automatically cut off.The utility model automaticity is high, can effectively enhance productivity.

Description

The cutting facility of aramid line after a kind of optical patchcord peeling

Technical field

The utility model relates to optical fiber processing field, particularly the cutting facility of aramid line after a kind of optical patchcord peeling.

Background technology

Optical fiber is fibre-optic writing a Chinese character in simplified form, and is a kind of fiber be made up of glass or plastics, can be used as light conduction instrument.Optical fiber generally adds cushion by glass core, then the aramid line being wound around upper protection finally puts plastics protection skin and makes.Optical fiber processing is made optical patchcord (also known as the joints of optical fibre), is used for realizing light path and is flexibly connected.Two ends are all connector-equipped is optical patchcord, and one end is connector-equipped, is called tail optical fiber.Be widely used: communications equipment room, fiber to the home, LAN, optical fiber telecommunications system, the fields such as national defence war preparedness.And at two ends of optical fiber, a joint all can be set for connection.On optical fiber, the processing step of erection joint is generally 1, installs joint; 2, optical fiber head peeling; 3, the aramid line of optical fiber peeling place is wiped out; 4, anchor tip.

And when the aramid line of steps performed 3 optical fiber peeling place is wiped out, traditional manufacturing process relies on manually excision, but its human cost dropped into is very high, and because be manually wipe out, uniformity is difficult to ensure card, and its production efficiency neither be very high.

Utility model content

The purpose of this utility model is to provide the cutting facility of aramid line after a kind of optical patchcord peeling, and this plant automation degree is high, and trimming is effective, and uniformity is good, can effectively enhance productivity.

The technical scheme realizing the utility model object is: the utility model comprises installing plate, and installing plate is provided with the clamping device for grip optical fiber, for gathering and the wire-packing mechanism of fixed fiber peeling place aramid line and the thread cutting mechanism for cutting off aramid line; Described wire-packing mechanism comprises aspirating air pipe, line ball moves plate, line ball determines plate and line ball cylinder; Described aspirating air pipe is arranged on the below of optical fiber peeling place and moves plate and line ball is determined between plate at line ball; Described line ball moves plate and line ball to be determined plate and is positioned at the axial two ends of optical fiber peeling place and is in the below of optical fiber; One end that described line ball moves plate is fixedly connected with the output shaft of line ball cylinder, another rectify plate is determined to line ball, the output shaft axis of line ball cylinder and the axis being parallel of optical fiber; Described thread cutting mechanism comprises thread shearing cutter group and trimming cylinder; Described thread shearing cutter group is fixedly connected with the output shaft of trimming cylinder; The output shaft axis of described trimming cylinder is with the output shaft axes normal of line ball cylinder and plane residing is separately parallel; Described thread shearing cutter group is provided with can be close to optical fiber and from the trimming cutting edge of process below optical fiber.

Above-mentioned wire-packing mechanism also comprises gassing pipe; Described gassing pipe is arranged on the top of optical fiber peeling place.

Upper described wire-packing mechanism also comprises line ball and tightens plate and the spring assembly moving plate and line ball cylinder for being connected line ball; Described spring assembly comprises connecting plate, dynamic plate connecting rod and back-moving spring; One end of described connecting plate is fixedly connected with the output shaft of line ball cylinder, and the other end is provided with blend stop; Described blend stop is provided with through hole, the axis of through hole and the output shaft axis being parallel of line ball cylinder; Described dynamic plate connecting rod slides and is located in through hole, and dynamic plate connecting rod one end is provided with washer, and the other end and line ball move plate and be fixedly connected with; Described back-moving spring to be set on dynamic plate connecting rod and to be arranged between washer and blend stop; Described line ball is tightened plate and is fixedly installed on connecting plate, and line ball is tightened plate and is positioned at line ball and moves the top of plate and be positioned at the below of optical fiber; Described line ball is determined the end face that plate moves plate towards line ball and is provided with upper groove and lower groove; Described line ball tightens the lower groove corresponding matching that plate and line ball are determined on plate; Described trimming cutting edge tightens the top of plate, the below process of optical fiber from line ball, and can run through the upper groove that line ball determines plate.

Above-mentioned thread shearing cutter group comprises fixed mount, motor and cutting blade; Described cutting blade is fixedly connected with the output shaft of motor, and motor is fixedly mounted on fixed mount, and fixed mount is fixedly connected with the output shaft of trimming cylinder; Described cutting blade is provided with trimming cutting edge.

Above-mentioned installing plate is provided with along the output shaft axis of trimming cylinder along the trimming slide rail stretched, and fixed mount is slidably arranged on trimming slide rail, and trimming cylinder is fixedly installed on a mounting board; Described installing plate is provided with along the output shaft axis of line ball cylinder along the line ball slide rail stretched, and connecting plate is slidably arranged on line ball slide rail, and line ball cylinder is fixedly installed on a mounting board.

The fixed mount that above-mentioned gassing pipe is fixedly installed on thread shearing cutter group is positioned at the front end of cutting blade.

Above-mentioned clamp assemblies comprises jaw, grips block, jaw tightens up block and gripper cylinder; The described plate that grips is provided with more than one optical fiber embedded groove, each optical fiber embedded groove place be equipped be oppositely arranged and for grip optical fiber jaw and grip block; Described jaw rotates to be arranged on and grips on plate; Described gripper cylinder is fixedly installed on and grips on plate, and output shaft and the jaw of gripper cylinder tighten up block and be fixedly connected with; Described jaw comprises clamping part and forced section; Described jaw tightens up block and is provided with more than one and coordinates the auxiliary section of rotating to control jaw with the forced section of corresponding jaw; The clamping part of described jaw is with to grip block corresponding.

The above-mentioned plate that grips is provided with two symmetrically arranged optical fiber embedded grooves; Described each optical fiber embedded groove place be equipped be oppositely arranged and for grip optical fiber jaw and grip block; The both sides that described jaw tightens up block are equipped with the auxiliary section coordinated with the forced section of corresponding jaw.

Above-mentioned clamp assemblies and line ball are determined plate and are separately positioned on the relative end face of two of gripping plate.

Above-mentioned cutting blade is circular shear blade.

The utility model has positive effect: (1) the utility model can realize gathering of aramid line by aspirating air pipe, move plate and line ball by line ball to determine plate and realize the fixing of aramid line, cutting off of aramid line is realized finally by thread cutting mechanism, whole technical process does not need manual operation, automaticity is high, has also liberated more labour while enhancing productivity; (2) aramid line can be gathered to aspirating air pipe by gassing pipe by the utility model better, improves and gathers effect; (3) the utility model tightens plate by line ball, spring assembly, line ball move plate and line ball is determined plate and realized tightening of aramid line, the favourable trimming effect with thread cutting mechanism; (4) clamping device design of the present utility model is ingenious, can clamp by multistation simultaneously, enhance productivity to optical fiber; (5) clamping device of the present utility model designs two optical fiber embedded grooves can carry out trimming to two of an optical fiber simultaneously, convenient and swift; (6) cutting blade of the present utility model is circular shear blade, and is driven by motor, and stability is high, good cutting effect; (7) in the utility model, the fixed mount of thread cutting mechanism and the connecting plate of wire-packing mechanism are separately positioned on trimming slide rail and line ball slide rail, can increase the stable degree of thread cutting mechanism and wire-packing mechanism, improve the effect of trimming and line ball.

Accompanying drawing explanation

In order to make content of the present utility model more easily be clearly understood, below according to specific embodiment also by reference to the accompanying drawings, the utility model is described in further detail, wherein

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the structural representation of thread cutting mechanism in the utility model

Fig. 3 is the structural representation of clamping device in the utility model;

Fig. 4 is the structural representation of spring assembly in the utility model.

Detailed description of the invention

See Fig. 1 to Fig. 4, the utility model comprises installing plate, and installing plate is provided with the clamping device 1 for grip optical fiber, for gathering and the wire-packing mechanism 2 of fixed fiber peeling place aramid line and the thread cutting mechanism 3 for cutting off aramid line; Described wire-packing mechanism 2 comprises aspirating air pipe 21, line ball moves plate 22, line ball determines plate 23, line ball cylinder 24, gassing pipe 25, line ball tighten plate 26 and spring assembly; Described aspirating air pipe 21 is arranged on the below of optical fiber peeling place and moves plate 22 and line ball is determined between plate 23 at line ball; Described line ball moves plate 22 and line ball to be determined plate 23 and is positioned at the axial two ends of optical fiber peeling place and is in the below of optical fiber; Described spring assembly comprises connecting plate 27, dynamic plate connecting rod 28 and back-moving spring; One end of described connecting plate 27 is fixedly connected with the output shaft of line ball cylinder 24, and the other end is provided with blend stop; Described blend stop is provided with through hole, the axis of through hole and the output shaft axis being parallel of line ball cylinder 24; Described dynamic plate connecting rod 28 slides and is located in through hole, and dynamic plate connecting rod 28 one end is provided with washer, and the other end and line ball move plate 22 and be fixedly connected with; Described line ball moves plate 22 and just determines plate 23 to line ball; Described back-moving spring to be set on dynamic plate connecting rod 28 and to be arranged between washer and blend stop; Described line ball is tightened plate 26 and is fixedly installed on connecting plate 27, and line ball is tightened plate 26 and is positioned at line ball and moves the top of plate 22 and be positioned at the below of optical fiber; Described line ball is determined the end face that plate 23 moves plate 22 towards line ball and is provided with upper groove and lower groove; Described line ball tightens plate 26 is determined on plate 23 lower groove corresponding matching with line ball; The output shaft axis of described line ball cylinder 24 and the axis being parallel of optical fiber; Described gassing pipe 25 is arranged on the top of optical fiber peeling place; Described thread cutting mechanism 3 comprises thread shearing cutter group 31 and trimming cylinder 32; Described thread shearing cutter group 31 comprises fixed mount 31-1, motor 31-2 and cutting blade 31-3; Described cutting blade 31-3 is fixedly connected with the output shaft of motor 31-2, and motor 31-2 is fixedly mounted on fixed mount 31-1, and fixed mount 31-1 is fixedly connected with the output shaft of trimming cylinder 32; Described cutting blade 31-3 is circular shear blade and is provided with trimming cutting edge 31-4; The output shaft axis of described trimming cylinder 32 is with the output shaft axes normal of line ball cylinder 24 and plane residing is separately parallel; Described trimming cutting edge 31-4 tightens the top of plate 26, the below process of optical fiber from line ball, and can run through the upper groove that line ball determines plate 23.

Described installing plate is provided with along the output shaft axis of trimming cylinder 32 along the trimming slide rail stretched, and fixed mount 31-1 is slidably arranged on trimming slide rail, and trimming cylinder 32 is fixedly installed on a mounting board; Described installing plate is provided with along the output shaft axis of line ball cylinder 24 along the line ball slide rail stretched, and connecting plate 27 is slidably arranged on line ball slide rail, and line ball cylinder 24 is fixedly installed on a mounting board.

The fixed mount 31-1 that described gassing pipe 25 is fixedly installed on thread shearing cutter group 31 is positioned at the front end of cutting blade 31-3.

Described clamping device 1 comprises clamp assemblies 11 and grips plate 12; Described clamp assemblies 11 and line ball are determined plate 23 and are separately positioned on the relative end face of two of gripping plate 12; Described clamp assemblies 11 comprises jaw 11-1, grips block 11-2, jaw tightens up block 11-3 and gripper cylinder 11-4; The described plate 12 that grips is provided with two symmetrically arranged optical fiber embedded groove 12-1, each optical fiber embedded groove 12-1 place be equipped be oppositely arranged and for grip optical fiber jaw 11-1 and grip block 11-2; Described jaw 11-1 rotates to be arranged on and grips on plate 12; Described gripper cylinder 11-4 is fixedly installed on and grips on plate 12, and output shaft and the jaw of gripper cylinder 11-4 tighten up block 11-3 and be fixedly connected with; Described jaw 11-1 comprises clamping part and forced section; The both sides that described jaw tightens up block 11-3 are equipped with and coordinate the auxiliary section of rotating to control jaw 11-1 with the forced section of corresponding jaw 11-1; The clamping part of described jaw 11-1 is corresponding with gripping block 11-2.

Above-described specific embodiment; the purpose of this utility model, technical scheme and beneficial effect are further described; be understood that; the foregoing is only specific embodiment of the utility model; be not limited to the utility model; all within spirit of the present utility model and principle, any amendment made, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims

1. the cutting facility of aramid line after an optical patchcord peeling; It is characterized in that: comprise installing plate, installing plate is provided with the clamping device (1) for grip optical fiber, for gathering and the wire-packing mechanism (2) of fixed fiber peeling place aramid line and the thread cutting mechanism (3) for cutting off aramid line; Described wire-packing mechanism (2) comprises aspirating air pipe (21), line ball moves plate (22), line ball determines plate (23) and line ball cylinder (24); Described aspirating air pipe (21) is arranged on the below of optical fiber peeling place and is positioned at line ball and moves plate (22) and line ball is determined between plate (23); Described line ball moves plate (22) and line ball to be determined plate (23) and is positioned at the axial two ends of optical fiber peeling place and is in the below of optical fiber; One end that described line ball moves plate (22) is fixedly connected with the output shaft of line ball cylinder (24), another rectify plate (23) is determined to line ball, the output shaft axis of line ball cylinder (24) and the axis being parallel of optical fiber; Described thread cutting mechanism (3) comprises thread shearing cutter group (31) and trimming cylinder (32); Described thread shearing cutter group (31) is fixedly connected with the output shaft of trimming cylinder (32); The output shaft axis of described trimming cylinder (32) is with the output shaft axes normal of line ball cylinder (24) and plane residing is separately parallel; Described thread shearing cutter group (31) is provided with can be close to optical fiber and from the trimming cutting edge (31-4) of process below optical fiber.

2. the cutting facility of aramid line after a kind of optical patchcord peeling according to claim 1, is characterized in that: described wire-packing mechanism (2) also comprises gassing pipe (25); Described gassing pipe (25) is arranged on the top of optical fiber peeling place.

3. the cutting facility of aramid line after a kind of optical patchcord peeling according to claim 1 and 2, is characterized in that: described wire-packing mechanism (2) also comprises line ball and tightens plate (26) and the spring assembly moving plate (22) and line ball cylinder (24) for being connected line ball; Described spring assembly comprises connecting plate (27), dynamic plate connecting rod (28) and back-moving spring; One end of described connecting plate (27) is fixedly connected with the output shaft of line ball cylinder (24), and the other end is provided with blend stop; Described blend stop is provided with through hole, the axis of through hole and the output shaft axis being parallel of line ball cylinder (24); Described dynamic plate connecting rod (28) slip is located in through hole, and dynamic plate connecting rod (28) one end is provided with washer, and the other end and line ball move plate (22) and be fixedly connected with; Described back-moving spring is set in dynamic plate connecting rod (28) and goes up and be arranged between washer and blend stop; Described line ball is tightened plate (26) and is fixedly installed on connecting plate (27), and line ball is tightened plate (26) and is positioned at line ball and moves the top of plate (22) and be positioned at the below of optical fiber; Described line ball is determined the end face that plate (23) moves plate (22) towards line ball and is provided with upper groove and lower groove; Described line ball is tightened plate (26) join rw corresponding to the lower groove that line ball is determined on plate (23) and is closed; Described trimming cutting edge (31-4) tightens the top of plate (26), the below process of optical fiber from line ball, and can run through the upper groove that line ball determines plate (23).

4. the cutting facility of aramid line after a kind of optical patchcord peeling according to claim 3, is characterized in that: described thread shearing cutter group (31) comprises fixed mount (31-1), motor (31-2) and cutting blade (31-3); Described cutting blade (31-3) is fixedly connected with the output shaft of motor (31-2), motor (31-2) is fixedly mounted on fixed mount (31-1), and fixed mount (31-1) is fixedly connected with the output shaft of trimming cylinder (32); Described cutting blade (31-3) is provided with trimming cutting edge (31-4).

5. the cutting facility of aramid line after a kind of optical patchcord peeling according to claim 4, it is characterized in that: described installing plate is provided with along the output shaft axis of trimming cylinder (32) along the trimming slide rail stretched, fixed mount (31-1) is slidably arranged on trimming slide rail, and trimming cylinder (32) is fixedly installed on a mounting board; Described installing plate is provided with along the output shaft axis of line ball cylinder (24) along the line ball slide rail stretched, and connecting plate (27) is slidably arranged on line ball slide rail, and line ball cylinder (24) is fixedly installed on a mounting board.

6. the cutting facility of aramid line after a kind of optical patchcord peeling according to claim 2, is characterized in that: it is upper and be positioned at the front end of cutting blade (31-3) that described gassing pipe (25) is fixedly installed on the fixed mount (31-1) of thread shearing cutter group (31).

7. the cutting facility of aramid line after a kind of optical patchcord peeling according to claim 5, is characterized in that: described clamping device (1) comprises clamp assemblies (11) and grips plate (12); Described clamp assemblies (11) comprises jaw (11-1), grips block (11-2), jaw tightens up block (11-3) and gripper cylinder (11-4); The described plate (12) that grips is provided with more than one optical fiber embedded groove (12-1), each optical fiber embedded groove (12-1) place be equipped be oppositely arranged and for grip optical fiber jaw (11-1) and grip block (11-2); Described jaw (11-1) rotates to be arranged on and grips on plate (12); Described gripper cylinder (11-4) is fixedly installed on and grips on plate (12), and output shaft and the jaw of gripper cylinder (11-4) tighten up block (11-3) and be fixedly connected with; Described jaw (11-1) comprises clamping part and forced section; Described jaw tightens up block (11-3) and is provided with more than one and coordinates the auxiliary section of rotating to control jaw (11-1) with the forced section of corresponding jaw (11-1); The clamping part of described jaw (11-1) is corresponding with gripping block (11-2).

8. the cutting facility of aramid line after a kind of optical patchcord peeling according to claim 7, is characterized in that: described in grip plate (12) and be provided with two symmetrically arranged optical fiber embedded grooves (12-1); Described each optical fiber embedded groove (12-1) place be equipped be oppositely arranged and for grip optical fiber jaw (11-1) and grip block (11-2); The both sides that described jaw tightens up block (11-3) are equipped with the auxiliary section coordinated with the forced section of corresponding jaw (11-1).

9. the cutting facility of aramid line after a kind of optical patchcord peeling according to claim 8, is characterized in that: described clamp assemblies (11) and line ball are determined plate (23) and be separately positioned on the relative end face of two of gripping plate (12).

10. the cutting facility of aramid line after a kind of optical patchcord peeling according to claim 9, is characterized in that: described cutting blade (31-3) is circular shear blade.