CN109239846B

CN109239846B - Intelligent cutting device integrating optical fiber coating layer-by-layer stripping and optical fiber cutting

Info

Publication number: CN109239846B
Application number: CN201811104744.2A
Authority: CN
Inventors: 邹辉; 戴可毅; 张靖远; 马福晓; 张云山; 蔡志匡
Original assignee: Nanjing University of Posts and Telecommunications
Current assignee: Nanjing University of Posts and Telecommunications
Priority date: 2018-09-21
Filing date: 2018-09-21
Publication date: 2020-08-28
Anticipated expiration: 2038-09-21
Also published as: CN109239846A

Abstract

The invention discloses a cutting device integrating intelligent optical fiber coating layer-by-layer stripping and optical fiber cutting, which comprises a controller and a cutting machine, wherein a wire is arranged between the controller and the cutting machine for connection, the cutting machine comprises a bottom plate, two vertical plates arranged at two free ends of the bottom plate, a slide rail, a motor, a clamp base, a clamp cavity, a mounting seat, a hand-pulling piece, a mounting block, a cutting knife, a heating cavity, a differential head, an electromagnetic valve, a hose and a vacuum valve, the clamp cavity is used for clamping optical fibers, and the heating cavity is used for generating the temperature required by coating layer stripping and stripping through a stripping piece; the controller comprises a temperature control unit for controlling the temperature value of the heating cavity, a displacement control unit for controlling the cutting or stripping length of the optical fiber and a central processing unit, wherein the temperature control unit and the displacement control unit are both connected with the central processing unit; the optical fiber cutting device integrates the stripping function of the optical fiber coating layer and the cutting function of the optical fiber, and effectively improves the processing efficiency of the optical fiber.

Description

Intelligent cutting device integrating optical fiber coating layer-by-layer stripping and optical fiber cutting

Technical Field

The invention belongs to the field of optical fiber cutting machinery, and particularly relates to an intelligent cutting device integrating optical fiber coating layer-by-layer stripping and optical fiber cutting.

Background

The optical fiber communication technology is a communication mode using optical fibers as transmission media, plays an important role in the information transmission category at present due to the characteristics of long transmission interval, large information capacity, high communication quality and the like, and is a foundation of an information highway. The optical transmission technology is to transmit light in a fiber made of glass by using the principle of total reflection. It is widely used in the field of communications as an important medium for photoelectric signal transmission, and plays an important role in promoting the development of aerospace industry, equipment manufacturing and electronic information. In general, in the step of preparing an optical fiber, a necessary step to be performed is to add a pre-coating layer to the bare optical fiber for protection. The coating layer has the functions of isolating external moisture, adding mechanical strength of the optical fiber, preventing bending loss of the optical fiber caused by external force and prolonging the service life of the optical fiber. When optical fiber is welded, on the premise of not damaging the internal structure of the fiber core, a section of outer sheath with a fixed length and a coating layer of an inner layer are firstly stripped to expose the optical fiber outside, so that the preparation of an optical fiber terminal and the welding of the fiber core of the optical fiber are facilitated.

When the prior art is used for stripping the optical fiber coating, most of the optical fibers are stripped by using an artificial optical fiber wire stripper, the stripping mode is easy to damage the internal structure of the optical fiber, so that the surface of the optical fiber is scratched and the fiber core is broken, the transmission interval of an optical link is shortened, the transmission accuracy is poor, the efficiency is low, the stripping size is limited, and the stripping of the optical fiber coating at a long distance is very difficult; meanwhile, the manual stripping of the optical fiber is difficult to realize the control of different micro-optical fiber cutting lengths; the traditional bevel optical fiber is cut under a microscope; the operator has the skillful skill to master the cutting tool, adjusts the optimal angle required by the non-maintained optical fiber and the cutting tool, aligns under the microscope, and then cuts to ensure the optical fiber oblique angle required by various detectors, and the method has the disadvantages of high operation cost and low cutting precision.

Disclosure of Invention

The invention mainly aims to provide an intelligent cutting device integrating optical fiber coating layer-by-layer stripping and optical fiber cutting, which solves the problems that optical fibers are easy to scratch in optical fiber stripping, the efficiency is low, the optical fiber cutting cost is high and the cutting precision is low in the prior art, and has the following specific technical scheme:

the utility model provides an intelligent optical fiber coating layer strips and cuts cutting device of integration with optic fibre, cutting device includes a controller and a cutting machine, be provided with the wire between the controller with the cutting machine and link, wherein:

the cutting machine comprises a bottom plate, two vertical plates arranged at the two free ends of the bottom plate, a slide rail, a motor, a clamp base, a clamp cavity, a mounting seat, a hand-pulling piece, a mounting block, a cutting knife, a heating cavity, a differential head, an electromagnetic valve, a hose and a vacuum valve, two ends of the slide rail are respectively fixedly connected with the two vertical plates, the motor is arranged on one vertical plate, the motor is used for driving the optical fiber clamped by the clamp cavity to rotate, the mounting seat is fixedly arranged on the other vertical plate, the heating cavity is arranged above the mounting seat, the mounting block is connected with the mounting seat, the cutting knife is arranged on the mounting block, the hand-pull piece is connected with the tail part of the cutting knife, the differential head is connected with the mounting block and used for realizing the function of adjusting the height of the cutting knife by adjusting the height position of the mounting block; the electromagnetic valve is connected with the cutting knife and used for controlling the cutting operation of the cutting knife; the fixture base is arranged on the slide rail, the fixture base is arranged between the motor and the heating cavity, the slide rail is used for providing a moving track for the fixture base, the fixture cavity is arranged in a fixture groove formed in the fixture base, and the fixture cavity is used for clamping an optical fiber to be processed; and the clamp cavity is connected with the vacuum valve through the hose;

the controller is including being used for controlling the temperature control unit of heating chamber temperature value size for control optic fibre cutting or displacement control unit and the central processing unit of peeling off length size, the temperature control unit with the displacement control unit all with central processing unit connects.

Preferably, the clamp cavity comprises a clamp cavity base and a clamp cavity cover plate, and the clamp cavity cover plate is connected with the clamp cavity base through a shaft; and permanent magnets are arranged at the positions of the clamp cavity base corresponding to the clamp cavity cover plate.

Preferably, the clamp base is provided with a specified number of small holes on the surface connected with the clamp cavity, and the small holes are communicated with the hose.

Preferably, the mounting seat comprises a base body and a sliding table, the base body is in an L shape, and the mounting seat is connected with the vertical plate through the base body; the mounting block comprises a mounting block body, a mounting groove and a sliding groove, the mounting groove is formed in one end of the mounting block body, the sliding groove is formed in the opposite end of the mounting groove, and the mounting groove is used for mounting the cutting knife; and the sliding groove is matched with the sliding table in size, and the sliding table is used for providing a moving track for the mounting block and realizing the position adjustment of the cutting knife on the horizontal plane.

Preferably, the heating cavity comprises a heating cavity base, a heating cavity cover plate, a U-shaped groove, a heating copper sheet and a stripping piece, the heating cavity cover plate is connected with the heating cavity base through a shaft, the U-shaped groove is formed in the heating cavity base, and the heating copper sheet is arranged at the corresponding positions of the heating cavity base and the heating cavity cover plate; the stripping piece is fixedly arranged on the heating copper sheet.

Preferably, the stripping piece is provided with a second mounting hole and a cutting edge, the joint of the heating copper sheet and the stripping piece is correspondingly provided with a first mounting hole, the stripping piece and the heating copper sheet are fixed by arranging a fixing piece at the second mounting hole and the first mounting hole, and the cutting edge is used for stripping a coating layer of the optical fiber to be processed.

Preferably, the heating copper sheet is further provided with a temperature sensor for collecting the temperature value of the heating cavity in real time.

Preferably, the clamp cavity can be replaced in real time according to the size of the cut optical fiber core diameter.

According to the cutting device integrating the intelligent optical fiber coating layer-by-layer stripping and optical fiber cutting, the heating cavity, the clamp cavity, the cutter, the motor and the stripping piece are integrated together, the optical fiber is heated to a set temperature through the heating cavity, and then the coating layer of the optical fiber is stripped through the stripping piece; the cutting operation of the specified length of the optical fiber can be realized by the matching use of the clamp cavity, the cutting knife and the motor, namely, the integration of the functions of optical fiber coating layer-by-layer peeling and fixed-length optical fiber cutting is realized; compared with the prior art, the invention can realize the fixed-length cutting of the optical fiber according to the setting of different optical fiber cutting lengths so as to meet the requirements of different products; the clamp cavity can be replaced according to actual requirements, and cutting and stripping operations of optical fibers with different core diameters are realized; the optical fiber is subjected to bending rotation operation through the rotation of the motor, so that the cutting operation with different angle requirements of a cutting surface in the optical fiber cutting process is realized; the rotation speed of the optical fiber and the distance between the optical fiber and the cutter are accurately controlled, so that tiny uniform cracks are generated on the surface of the optical fiber, and the optical fiber is naturally broken by using the axial stress of the optical fiber, so that the optimal cutting efficiency is achieved; and the automatic processing of the optical fiber can be realized through the controller, and the automatic intelligent processing of the optical fiber is realized.

Drawings

Fig. 1, fig. 2 and fig. 3 are schematic structural components of an intelligent cutting device integrating optical fiber coating layer stripping and optical fiber cutting according to the present invention;

FIG. 4 is a schematic of a structural view of the fixture cavity of the present invention;

FIG. 5 is a schematic diagram of a configuration of the heating chamber of the present invention;

FIG. 6 is a schematic view of the construction of the mounting base of the stripper of the present invention;

FIG. 7 is a schematic view of a mounting block of the stripper member of the present invention;

FIG. 8 is a schematic view of the structure of the heating copper sheet according to the present invention;

FIG. 9 is a schematic of a construction of the stripper of the present invention;

fig. 10 is a block diagram of the controller according to the present invention.

And (4) marking and explaining: 1-a bottom plate, 2-a vertical plate, 3-a slide rail, 4-a motor, 5-a fixture base, 6-a fixture cavity, 7-a mounting seat, 8-a hand-pulling piece, 9-a mounting block, 10-a cutting knife, 11-a heating cavity, 12-a differential head, 13-an electromagnetic valve, 14-a hose and 15-a vacuum valve;

61-clamp cavity base, 62-clamp cavity cover plate; 71-base, 72-slide; 91-mounting block, 92-mounting groove and 93-sliding groove; 111-heating cavity base, 112-heating cavity cover plate, 113-U-shaped groove, 114-heating copper sheet and 115-stripping piece;

1141-a first mounting hole; 1151-blade, 1152-second mounting hole.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

Referring to fig. 1 to 10, a cutting device for intelligently stripping a coating layer of an optical fiber and cutting the optical fiber according to the present invention is specifically described, in an embodiment of the present invention, the cutting device includes a controller and a cutting machine, a wire is connected between the controller and the cutting machine, where, as can be seen from fig. 1, 2 and 3, the cutting machine includes a bottom plate 1, two vertical plates 2 installed at two free ends of the bottom plate, a slide rail 3, a motor 4, a fixture base 5, a fixture cavity 6, an installation seat 7, a hand-pulling member 8, an installation block 9, a cutting knife 10, a heating cavity 11, a differential head 12, an electromagnetic valve 13, a hose 14 and a vacuum valve 15, two ends of the slide rail 3 are respectively and fixedly connected to the two vertical plates 2, the motor 4 is installed on one of the vertical plates 2, the motor 4 is used for driving the optical fiber clamped by the fixture cavity 6 to rotate, the installation seat 7 is fixedly installed on the other vertical plate, the heating cavity 11 is arranged above the mounting seat 7, and the mounting block 9 is connected with the mounting seat 7; the cutting knife 10 is arranged on the mounting block 9, the hand-pulling piece 8 is connected with the tail part of the cutting knife 10, and the differential head 12 is connected with the mounting block 9 and used for realizing the function of adjusting the height of the cutting knife 10 by adjusting the height position of the mounting block 9; the electromagnetic valve 13 is connected with the cutting knife 10 and used for controlling the cutting operation of the cutting knife 10; the fixture base 5 is arranged on the slide rail 3, the fixture base 5 is arranged between the motor 4 and the heating cavity 11, the slide rail 3 is used for providing a moving track for the fixture base 5, the fixture cavity 6 is arranged in a fixture groove (not shown) formed in the fixture base 5, the fixture cavity 6 is used for clamping an optical fiber to be processed, in a specific embodiment, the fixture cavity 6 can be replaced according to the core diameter of the optical fiber, and the optical fiber can be clamped conveniently through the fixture cavity 6; the clamp cavity 6 is connected with the vacuum valve 15 through the hose 14, a plurality of small holes are formed in the connecting position of the clamp cavity 6 and the hose 14, and the small holes are communicated with the hose 14, so that air at the small holes can be pumped out through the vacuum valve 15, the small holes are vacuum, and the optical fibers are fixed; referring to fig. 10, the controller includes a temperature control unit for controlling the temperature value of the heating cavity, a displacement control unit for controlling the cutting or stripping length of the optical fiber, and a central processing unit, and both the temperature control unit and the displacement control unit are connected to the central processing unit.

Referring to fig. 4, in the embodiment of the present invention, the fixture cavity 6 includes a fixture cavity base 61 and a fixture cavity cover plate 62, the fixture cavity cover plate 62 is connected to the fixture cavity base 61 through a shaft, and the fixture cavity cover plate 62 is opened and closed with the fixture cavity base 61 through a shaft; and the corresponding positions of the clamp cavity base 61 and the clamp cavity cover plate 62 are provided with permanent magnets to realize the tight closing of the two, so that the optical fiber is clamped for processing operation.

Referring to fig. 5, 8 and 9, in the embodiment of the present invention, the heating cavity 11 includes a heating cavity base 111, a heating cavity cover plate 112, a U-shaped groove 113, a heating copper sheet 114 and a stripping element 115, the heating cavity cover plate 112 and the heating cavity base 111 are connected by a shaft, and the opening and closing operation between the heating cavity cover plate 112 and the heating cavity base 111 is realized by the shaft; the U-shaped groove 113 is formed in the heating cavity base 111, the heating copper sheets 114 are arranged at the positions, corresponding to the heating cavity cover plate 112, of the heating cavity base 111, and the heating copper sheets 114 are arranged at the corresponding positions, in the invention, the heating operation on the heating copper sheets 114 is realized through a temperature control system, so that the heating copper sheets 114 can be in a proper temperature range, and the stripping operation on an optical fiber coating layer through the stripping piece 115 is facilitated after the optical fiber is heated; the stripping element 115 is fixedly mounted on the heating copper sheet 114, as can be seen from fig. 8 and 9, a first mounting hole 1141 is formed in one side of the heating copper sheet 114, and a second mounting hole 1151 with a size adapted to the first mounting hole 1141 is formed at a connection position of the stripping element 115 and the heating copper sheet 114, and the stripping element and the heating copper sheet are fastened by a fastening element, for example, a fastening manner of a screw and a nut, for this reason, the present invention is not limited and fixed, and can be selected according to actual situations; when the stripping part 115 is fixed on one side of the heating copper sheet 114, if the optical fiber is heated to a temperature range convenient for stripping through the heating copper sheet 114, at this time, the clamp base 5 can be controlled by the displacement control unit to move on the slide rail, and the optical fiber is clamped by the clamp cavity 6, and the coating layer of the optical fiber can be stripped through the cutting edge 1151 in the moving process of the clamp base 5.

Further, a temperature sensor is further mounted on the heating copper sheet 114 for collecting a temperature value of the heating cavity 11 in real time, that is, a peeling temperature value after the heating copper sheet 114 is heated; preferably, the temperature sensor is provided with a display screen, for example, a liquid crystal display screen, to display the magnitude of the temperature value acquired by the temperature sensor in real time, so as to facilitate adjustment; preferably, the temperature sensor is a sheet-pressing temperature sensor, and the sheet-pressing temperature sensor is attached to the heating copper sheet 114, so that the temperature of the heating copper sheet 114 can be monitored more accurately and timely, and a countermeasure can be taken according to the temperature value; of course, other types of temperature sensors may be used, and the present invention is not limited to a piezo-type temperature sensor, but is described as a preferred embodiment.

Referring to fig. 6 and 7, in the embodiment of the present invention, the mounting base 7 includes a base 71 and a sliding table 72, the base 71 is L-shaped, and the mounting base 7 is connected to the vertical plate 2 through the base 71; the mounting block 9 comprises a mounting block body 91, a mounting groove 92 and a sliding groove 93, wherein the mounting groove 92 is formed in one end of the mounting block body 91, the sliding groove 93 is formed in the end opposite to the mounting groove 92, and the mounting groove 92 is used for mounting the cutting knife 10; the sliding groove 93 and the sliding table 72 are arranged in a size matching manner, and the sliding groove 93 can slide on the sliding table 72, so that the cutting knife 10 can be adjusted on the horizontal plane, and when the height position of the installation block 9 is adjusted through the differential head 12 by matching with the differential head 12 connected with the installation block 9, the height adjustment of the position of the bisection cutting knife 10 can be realized; namely, in the invention, the position of the cutting knife 10 in three dimensions can be adjusted by the sliding of the differential head 12 and the mounting block 9 on the mounting seat 7; meanwhile, the operation of rotating and driving the clamped optical fiber by combining the rotation of the motor 4 can realize the cutting of the optical fiber at different angles so as to meet various production requirements.

Preferably, in the present invention, a hand pulling member 8 connected to the tail of the cutting knife 10 is provided, and the position of the cutting knife 10 can be manually adjusted by the hand pulling member 8, which is used as an alternative of the present invention, so as to be convenient for coping with various application scenarios.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing detailed description, or equivalent changes may be made in some of the features of the embodiments described above. All equivalent structures made by using the contents of the specification and the attached drawings of the invention can be directly or indirectly applied to other related technical fields, and are also within the protection scope of the patent of the invention.

Claims

1. Intelligent optical fiber coating layer is peeled off layer upon layer and is cut cutting device of integration with optic fibre, its characterized in that, cutting device includes a controller and a cutting machine, the controller with be provided with the wire between the cutting machine and link, wherein:

the clamp cavity can be replaced in real time according to the size of the cut optical fiber core diameter;

the mounting seat comprises a base body and a sliding table, wherein the base body is L-shaped, and the mounting seat is connected with the vertical plate through the base body; the mounting block comprises a mounting block body, a mounting groove and a sliding groove, the mounting groove is formed in one end of the mounting block body, the sliding groove is formed in the opposite end of the mounting groove, and the mounting groove is used for mounting the cutting knife; the sliding groove is matched with the sliding table in size, and the sliding table is used for providing a moving track for the mounting block and realizing the position adjustment of the cutting knife on the horizontal plane;

2. The cutting device integrated with intelligent optical fiber coating layer stripping and optical fiber cutting as claimed in claim 1, wherein the clamp cavity comprises a clamp cavity base and a clamp cavity cover plate, the clamp cavity cover plate is connected with the clamp cavity base through a shaft; and permanent magnets are arranged at the positions of the clamp cavity base corresponding to the clamp cavity cover plate.

3. The cutting device for intelligently stripping coating layers of optical fibers and cutting optical fibers according to claim 1, wherein a designated number of small holes are formed in the surface, connected with the clamp cavity, of the clamp base, and the small holes are communicated with the hose.

4. The cutting device for intelligently stripping coated optical fibers and cutting optical fibers integrally according to claim 1, wherein the heating cavity comprises a heating cavity base, a heating cavity cover plate, a U-shaped groove, a heating copper sheet and a stripping piece, the heating cavity cover plate is connected with the heating cavity base through a shaft, the U-shaped groove is formed in the heating cavity base, and the heating copper sheet is arranged at the positions of the heating cavity base corresponding to the heating cavity cover plate; the stripping piece is fixedly arranged on the heating copper sheet.

5. The cutting device for intelligently stripping coating layers of optical fibers and cutting optical fibers according to claim 4, wherein the stripping piece is provided with a second mounting hole and a cutting edge, the joint of the heating copper sheet and the stripping piece is correspondingly provided with a first mounting hole, the stripping piece and the heating copper sheet are fixed by arranging a fixing piece at the second mounting hole and the first mounting hole, and the cutting edge is used for stripping the coating layer of the optical fiber to be processed.

6. The cutting device for integrated stripping and cutting of optical fiber coating layer and optical fiber according to claim 4, wherein a temperature sensor is further installed on the heating copper sheet for real-time collection of temperature value of the heating cavity.