CN220381314U - Metal wire and optical cable sheath cutting device of photoelectric flat optical cable - Google Patents

Abstract

The utility model discloses a metal wire and optical cable sheath dividing device of a photoelectric flat optical cable, which comprises a fixed bracket and a photoelectric flat optical cable body, wherein a front guide block and a rear guide block are respectively arranged at the rear parts of two sides of the fixed bracket. The beneficial effects are that: according to the utility model, the front guide block and the rear guide block are matched and limited, so that the photoelectric flat optical cable body can only be conveyed forwards or backwards along an internal fixed linear track by the power cable conveying mechanism, and meanwhile, the position height of the dividing blade is leveled with the lowest position of the metal wire of the photoelectric flat optical cable body, and then the front end of the photoelectric flat optical cable body is conveyed forwards by the power cable conveying mechanism to enable the metal wire of the photoelectric flat optical cable body and the outer skin of the optical cable body to be cut and separated by the dividing blade, so that the mechanical operation of cutting and separating the metal wire of the photoelectric flat optical cable body and the outer skin of the optical cable body is realized, and the manual operation mode of workers is replaced.

Description

Metal wire and optical cable sheath cutting device of photoelectric flat optical cable

Technical Field

The utility model relates to the field of auxiliary components for laying photoelectric flat optical cables, in particular to a metal wire and optical cable sheath dividing device for a photoelectric flat optical cable.

Background

The optical fiber is an optical fiber for short, is a fiber made of glass or plastic, and can be used as a light conducting medium, so that the optical fiber can play a role in transmitting information. The photoelectric flat optical cable is one kind of optical fiber, and is mainly applied to 5G optical networks, including various optical communication fields such as FTTH, communication machine room, base station, local area network, etc., the photoelectric flat optical cable structure is generally designed to be that the outside is the protective sheath, there is the protection pipe inside, there is cores or multicore optical fiber in the pipe, there is the reinforcement in the outside both sides of pipe. In the use process of the photoelectric flat optical cable structure, the length of the metal wire, the length of the optical fiber, the length of the reinforcing member, the length of the metal wire separated from the optical cable sheath and the like need to be controlled when the connector is prefabricated according to different use environments of the optical cable. However, at present, when the metal wire is separated from the outer sheath of the optical cable and the length is controlled, the cutting operation is usually performed by manually operating a cutter by a worker, and the efficiency of the operation is not high because the outer sheath of the optical fiber is relatively thick and hard, and the quality of the cutting is difficult to control stably.

Disclosure of Invention

The present utility model is directed to a device for dividing the metal wire and the cable sheath of a photoelectric flat cable, which is capable of ensuring that the photoelectric flat cable body can only be slidingly conveyed forward along an internal fixed linear track by a power cable feeding mechanism through the cooperation limitation of a front guide block and a rear guide block, and simultaneously realizing the mechanical operation of cutting and separating the metal wire and the cable sheath of the photoelectric flat cable body by the cutting blade in a manner that the position height of the cutting blade is equal to the lowest position of the metal wire of the photoelectric flat cable body, and then the front end of the photoelectric flat cable body passes through the cutting blade by the power cable feeding mechanism.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a metal wire and optical cable sheath cutting device of a photoelectric flat optical cable, which comprises a fixed bracket and a photoelectric flat optical cable body, wherein a front guide block and a rear guide block are respectively arranged at the rear parts of two sides of the fixed bracket;

the rear part of the fixed bracket is provided with a compressing mechanism used for compressing and fixing the photoelectric flat optical cable body at a position close to the front guide block, and the rear part of the fixed bracket is provided with a power cable feeding mechanism used for conveying the photoelectric flat optical cable body to slide forwards along a linear track at a position close to the rear guide block;

the rear part of the fixed support is provided with a cutter component for realizing the segmentation function at the position beside the outer side of the rear guide block.

Preferably, the upper and lower parts outside the photoelectric flat optical cable body are respectively metal wires and optical cable body sheaths.

Preferably, the metal wire and the outer sheath of the optical cable body pass through the front guide block and the rear guide block in a transversely sliding fit manner.

Preferably, the cutter assembly is specifically: the rear part of the fixed support is provided with a cutting knife rest at the position beside the outer side of the guide block, and the front part of the cutting knife rest is horizontally provided with a cutting blade for cutting the metal wire of the photoelectric flat optical cable body and the outer skin of the optical cable body.

Preferably, the height position of the dividing blade is equal to the height of the lowest position of the metal wire.

Preferably, a guide tube is installed at the rear part of the fixing support at a position beside the dividing knife rest, the metal wire separated by the dividing knife blade extends into the inner end part of the guide tube, and the outer end of the guide tube extends through a subsequent peeling and shearing functional mechanism.

Preferably, the inner end of the pipe wall of the guide pipe is at the same level as the dividing blade.

Preferably, an included angle between the inner end position of the guide tube and the wire forward feeding direction is an acute angle.

The metal wire and the cable sheath cutting device of the photoelectric flat cable can ensure that the photoelectric flat cable body can only be slidingly conveyed forwards or backwards along an internal fixed linear track by the power cable conveying mechanism through the cooperation limitation of the front guide block and the rear guide block in the process of cutting the metal wire and the cable sheath of the photoelectric flat cable body, then the photoelectric flat cable body can be driven to be conveyed forwards through the power cable conveying mechanism after sequentially passing through the front guide block and the rear guide block, the front end of the photoelectric flat cable body is conveyed to reach the cutting blade, and meanwhile, the position height of the cutting blade is leveled with the lowest position of the metal wire of the photoelectric flat cable body, the front end of the photoelectric flat cable body passes through the cutting blade, so that the metal wire and the cable body sheath of the photoelectric flat cable body can be cut and separated by the cutting blade, the mechanical operation of cutting and separating the metal wire and the cable body sheath of the photoelectric flat cable body is realized, the manual operation mode of workers is replaced, the cutting efficiency of the metal wire and the cable body sheath of the photoelectric flat cable body is improved, the photoelectric flat cable body drives the photoelectric flat cable body to retreat to the stripping position after the metal wire and the cable body sheath are cut and separated to the length required by the metal wire, then compress tightly by hold-down mechanism is fixed photoelectricity flat cable body and come to open through subsequent skinning shear function mechanism to the cable body crust is shelled the shearing, and because the lateral part of fixed bolster is installed and is provided with the pipe wall tip with cut apart the blade is in same level's stand pipe, and the outer end of stand pipe passes subsequent skinning shear function mechanism, then in photoelectricity flat cable body the wire with the cable body crust is separated the back through letting the wire passes the mode of stand pipe can protect the wire can not be broken, also can protect simultaneously the wire can not influence and interfere subsequent skinning shear function mechanism.

The beneficial effects are that: 1. according to the utility model, the front guide block and the rear guide block are matched and limited, so that the photoelectric flat optical cable body can only be conveyed forwards or backwards in a sliding way along an internal fixed linear track by the power cable conveying mechanism, and meanwhile, the position height of the dividing blade is leveled with the lowest position of the metal wire of the photoelectric flat optical cable body, and then the front end of the photoelectric flat optical cable body is conveyed forwards by the power cable conveying mechanism to enable the metal wire of the photoelectric flat optical cable body and the outer skin of the optical cable body to be cut and separated by the dividing blade, so that the mechanized operation of cutting and separating the metal wire of the photoelectric flat optical cable body and the outer skin of the optical cable body is realized, the manual operation mode of workers is replaced, and the efficiency of cutting the metal wire of the photoelectric flat optical cable body and the outer skin of the optical cable body is improved;

2. the lateral part installation at the fixed bolster is provided with the pipe wall tip and cuts apart the stand pipe that the blade is in same level to the outer end of stand pipe passes subsequent skinning and cuts functional mechanism, then after the metal wire of photoelectric flat optical cable body and optical cable body crust separate, can protect the metal wire not by the fracture through letting the mode that the metal wire passed the stand pipe, also can protect the metal wire can not influence simultaneously and interfere subsequent skinning and cut functional mechanism.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is an overall schematic of the present utility model;

fig. 2 is an enlarged view of a portion of fig. 1 according to the present utility model.

The reference numerals are explained as follows:

1. a photoelectric flat optical cable body; 101. a metal wire; 102. an outer skin of the optical cable body; 2. a compressing mechanism; 3. a power cable feeding mechanism; 4. a guide tube; 5. a cutter assembly; 501. dividing the tool rest; 502. a dividing blade; 6. a rear guide block; 7. a fixed bracket; 8. and a front guide block.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the technical solutions of the present utility model will be described in detail below. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, based on the examples herein, which are within the scope of the utility model as defined by the claims, will be within the scope of the utility model as defined by the claims.

Referring to fig. 1-2, the utility model provides a device for cutting metal wires 101 and cable sheaths of photoelectric flat cables, which comprises a fixed bracket 7 and a photoelectric flat cable body 1, wherein a front guide block 8 and a rear guide block 6 are respectively arranged at the rear parts of two sides of the fixed bracket 7, and the photoelectric flat cable body 1 sequentially passes through the front guide block 8 and the rear guide block 6 along a transverse straight line so as to limit the photoelectric flat cable body 1 to slide along a transverse straight line track only through the arrangement of the front guide block 8 and the rear guide block 6. The compressing mechanism 2 used for compressing and fixing the photoelectric flat optical cable body 1 is arranged at the rear part of the fixed support 7 at a position close to the front guide block 8, and the power cable feeding mechanism 3 used for conveying the photoelectric flat optical cable body 1 to slide forwards along a linear track is arranged at the rear part of the fixed support 7 at a position close to the rear guide block 6. The rear part of the fixed bracket 7 is provided with a cutter assembly 5 for realizing the cutting function at the position of the outer side of the rear guide block 6, specifically, the cutter assembly 5 is as follows: the rear part of the fixed bracket 7 is provided with a cutting tool rest 501 at the position of the outer side of the guide block, the front part of the cutting tool rest 501 is horizontally provided with a cutting blade 502 for cutting the metal wire 101 and the optical cable body sheath 102 of the photoelectric flat optical cable body 1, and the cutting tool 502 is convenient for cutting and separating the metal wire 101 and the optical cable body sheath 102 of the photoelectric flat optical cable body 1 in a mode that the photoelectric flat optical cable body 1 is conveyed forwards through the cutting blade 502.

As the scheme of the scheme preference, the outside upper and lower two parts of photoelectrical flat cable body 1 are metal wire 101 and optical cable body crust 102 respectively, so set up, be convenient for arrange the metal wire 101 of photoelectrical flat cable body 1 and optical cable body crust 102 respectively in upper and lower portion and make things convenient for segmentation blade 502 that the level set up to cut, metal wire 101 and optical cable body crust 102 all pass preceding guide block 8 and back guide block 6 with horizontal sliding fit's mode, so set up, be convenient for ensure that photoelectrical flat cable body 1 can keep the gesture of upper and lower two parts for metal wire 101 and optical cable body crust 102 respectively through preceding guide block 8 and back guide block 6's setting, can ensure simultaneously that photoelectrical flat cable body 1 slides with sharp orbit.

Meanwhile, the height position of the dividing blade 502 is leveled with the lowest position of the metal wire 101, so that the cutting position of the dividing blade 502 can be used for cutting and separating the metal wire 101 and the optical cable body sheath 102 of the photoelectric flat optical cable body 1, the guide tube 4 is arranged at the position beside the dividing knife rest 501 at the rear part of the fixing support 7, the metal wire 101 separated by the dividing blade 502 extends into the inner end part of the guide tube 4, the outer end of the guide tube 4 extends through a subsequent peeling and shearing functional mechanism, and the metal wire 101 and the optical cable body sheath 102 of the photoelectric flat optical cable body 1 are separated, so that the metal wire 101 can be protected from being broken in a mode of enabling the metal wire 101 to pass through the guide tube 4, and meanwhile, the metal wire 101 can be protected from affecting the subsequent peeling and shearing functional mechanism.

And the pipe wall inner end of the guide pipe 4 is at the same horizontal height with the dividing blade 502, so that the metal wire 101 and the optical cable body sheath 102 can be smoothly separated and then enter the guide pipe 4, the included angle between the inner end of the guide pipe 4 and the forward feeding direction of the metal wire 101 is an acute angle, and the guide pipe 4 is convenient to have a certain inclination angle, so that the metal wire 101 can be smoothly conveyed and slipped forward after entering the guide pipe 4.

With the structure, particularly in the process of dividing the metal wire 101 of the photoelectric flat optical cable body 1 and the outer skin 102 of the optical cable body, the photoelectric flat optical cable body 1 can be ensured to be conveyed forwards or backwards by the power cable conveying mechanism 3 only along an internal fixed linear track by the cooperation limitation of the front guide block 8 and the rear guide block 6, then the photoelectric flat optical cable body 1 can be driven to be conveyed forwards by the power cable conveying mechanism 3 after the photoelectric flat optical cable body 1 sequentially passes through the front guide block 8 and the rear guide block 6, the front end of the photoelectric flat optical cable body 1 is conveyed to reach the dividing blade 502, and meanwhile, the position height of the dividing blade 502 is leveled with the lowest position of the metal wire 101 of the photoelectric flat optical cable body 1, the front end of the photoelectric flat cable body 1 can be cut and separated by the cutting blade 502 through the mode that the front end passes through the cutting blade 502 by the power cable feeding mechanism 3, so that the mechanical operation that the metal wire 101 and the cable body sheath 102 of the photoelectric flat cable body 1 are cut and separated is realized, the manual operation mode of workers is replaced, the cutting efficiency of the metal wire 101 and the cable body sheath 102 of the photoelectric flat cable body 1 is improved, the photoelectric flat cable body 1 is driven by the power cable feeding mechanism 3 to back to the stripping position after the metal wire 101 and the cable body sheath 102 are cut and separated to the length required by the metal wire 101, then the photoelectric flat cable body 1 is pressed and fixed by the pressing mechanism 2, the cable body sheath 102 is stripped and sheared by the follow-up stripping and shearing function mechanism, the guide tube 4 with the tube wall end at the same level as the cutting blade 502 is arranged at the side part of the fixed support 7, and the outer end of the guide tube 4 passes through the subsequent peeling and shearing function mechanism, so that the metal wire 101 of the photoelectric flat optical cable body 1 and the outer sheath 102 of the optical cable body are separated, the metal wire 101 can be protected from being damaged in a mode of allowing the metal wire 101 to pass through the guide tube 4, and meanwhile, the metal wire 101 can be protected from being interfered with the subsequent peeling and shearing function mechanism.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (8)

1. The utility model provides a metal wire and optical cable sheath cutting device of photoelectric type flat optical cable, includes fixed bolster (7) and photoelectric type flat optical cable body (1), its characterized in that: a front guide block (8) and a rear guide block (6) are respectively arranged at the rear parts of the two sides of the fixed support (7), and the photoelectric flat optical cable body (1) sequentially passes through the front guide block (8) and the rear guide block (6) along a transverse straight line so as to limit the photoelectric flat optical cable body (1) to slide along a transverse straight line track only through the arrangement of the front guide block (8) and the rear guide block (6);

the rear part of the fixed support (7) is provided with a pressing mechanism (2) used for pressing and fixing the photoelectric flat optical cable body (1) at a position close to the front guide block (8), and the rear part of the fixed support (7) is provided with a power cable feeding mechanism (3) used for conveying the photoelectric flat optical cable body (1) to slide forwards along a linear track at a position close to the rear guide block (6);

the rear part of the fixed support (7) is provided with a cutter component (5) for realizing the segmentation function at the position of the outer side of the rear guide block (6).

2. The device for splitting a metal wire and a cable sheath of a photovoltaic flat cable according to claim 1, wherein: the upper part and the lower part of the outer part of the photoelectric flat optical cable body (1) are respectively a metal wire (101) and an optical cable body sheath (102).

3. The device for splitting a metal wire and a cable sheath of a photovoltaic flat cable according to claim 2, wherein: the metal wire (101) and the optical cable body sheath (102) pass through the front guide block (8) and the rear guide block (6) in a transversely sliding fit manner.

4. A wire and cable jacket splitting apparatus for an optoelectronic flat cable as recited in claims 1, 2 or 3, wherein: the cutter assembly (5) is specifically: the rear part of the fixed support (7) is provided with a cutting tool rest (501) at the position beside the outer side of the guide block, and the front part of the cutting tool rest (501) is horizontally provided with a cutting blade (502) for cutting the metal wire (101) and the optical cable body sheath (102) of the photoelectric flat optical cable body (1).

5. The device for separating a metal wire from a cable sheath of an optoelectronic flat cable according to claim 4, wherein: the height position of the dividing blade (502) is leveled with the lowest position height of the metal wire (101).

6. The device for separating a metal wire from a cable sheath of an optoelectronic flat cable according to claim 5, wherein: the rear part of the fixed support (7) is provided with a guide tube (4) at the position beside the dividing knife rest (501), the metal wire (101) separated by the dividing knife blade (502) extends into the inner end part of the guide tube (4), and the outer end of the guide tube (4) extends through a subsequent peeling and shearing functional mechanism.

7. The device for separating a metal wire from a cable sheath of an optoelectronic flat cable according to claim 6, wherein: the inner end part of the pipe wall of the guide pipe (4) and the dividing blade (502) are positioned at the same horizontal height.

8. The device for splitting a metal wire and a cable sheath of an optoelectronic flat cable according to claim 6 or 7, wherein: the included angle between the inner end part of the guide tube (4) and the forward feeding direction of the metal wire (101) is an acute angle.