CN114114543A

CN114114543A - Portable OPGW optical cable wire stripping instrument

Info

Publication number: CN114114543A
Application number: CN202111490137.6A
Authority: CN
Inventors: 吴永操; 蒋艳梅; 廖旭健; 蒋烨; 黄小夏; 宁进荣; 聂景锋; 何锦荣; 雷进达; 韩小兵; 戴鹏; 李朝荣; 梁胜浴; 陈凤
Original assignee: Yulin Power Supply Bureau of Guangxi Power Grid Co Ltd
Current assignee: Yulin Power Supply Bureau of Guangxi Power Grid Co Ltd
Priority date: 2021-12-08
Filing date: 2021-12-08
Publication date: 2022-03-01
Anticipated expiration: 2041-12-08
Also published as: CN114114543B

Abstract

The invention discloses a portable OPGW optical cable stripping tool, which comprises a battery pack, a grinder body, a starting switch, a cutting abrasive disc, an abrasive disc fixing shaft, a fixing device, a transmission device and an optical cable fixing clamp. The mill body is arranged on the transmission device through the fixing device, and the transmission device drives the mill body to reciprocate horizontally; the grinding sheet fixing shaft is arranged at the bottom of the other end of the grinder body; the cutting grinding sheet is rotatably arranged at one end of the grinding sheet fixing shaft far away from the grinder body; the optical cable fixing clamp is arranged at one end of the transmission device close to the cutting abrasive disc; the battery pack provides power for the rotation of the cutting abrasive disc. The portable OPGW optical cable wire stripping tool is small and portable, can be held by hands to move to perform circular cutting on the protective layer of the OPGW optical cable, and greatly improves the working efficiency of operating personnel.

Description

Portable OPGW optical cable wire stripping instrument

Technical Field

The invention relates to the technical field of optical cable stripping, in particular to a portable OPGW optical cable stripping tool.

Background

OPGW optical cable is also called optical fiber composite overhead ground wire. In the operation and maintenance work of power communication optical communication, the OPGW optical cable is widely applied to a power communication architecture as a common transmission medium. The OPGW optical cable which is spliced due to fault interruption and other reasons is also a troublesome problem for communication operation and maintenance personnel. During operation and maintenance of the OPGW optical cable, the OPGW optical cable generally needs to be stripped. In general, an operator manually fixes the OPGW optical cable and circularly cuts the metal protective layer of the optical cable by using a wire stripping tool at the same time, so that expensive tools are easily damaged, even the inner core of the optical cable is cut so that circular cutting needs to be carried out again, the working time is increased, and the working efficiency is low.

Disclosure of Invention

The invention aims to provide a portable OPGW optical cable stripping tool which can solve the problems that tools and appliances are easy to damage and the working efficiency is low when manual stripping is performed in the prior art.

The purpose of the invention is realized by the following technical scheme:

a portable OPGW optical cable stripping tool comprises a battery pack 101, a grinder body 102, a starting switch 103, a cutting abrasive disc 106, an abrasive disc fixing shaft 107, a fixing device, a transmission device and an optical cable fixing clamp 209; the mill body 102 is mounted on the transmission device through the fixing device, and the transmission device drives the mill body 102 to reciprocate horizontally; the battery pack 101 is installed at one end of the mill body 102, and the grinding plate fixing shaft 107 is installed at the bottom of the other end of the mill body 102; the cutting blade 106 is rotatably mounted on an end of the blade fixing shaft 107 remote from the mill body 102; the cable retaining clip 209 is mounted at an end of the actuator adjacent to the cutting blade 106; the battery pack 101 provides power for the rotation of the cutting grinding plate 106, and the starting switch 103 is arranged on the mill body 102 and controls the starting or the stopping of the battery pack 101.

Further, the driving mechanism comprises a horizontal sliding rail 208, a limiter 203, a rear sliding block 204, a front sliding block 205, a digital caliper 206, a cutting depth positioning fixer 207 and a locking sliding block 210; the front slide block 205 is slidably mounted on the horizontal slide rail 208 and adjacent to the cutting blade 106, and the rear slide block 204 is slidably mounted on the horizontal slide rail 208 distal from the cutting blade 106; the stopper 203 is installed at one end of the horizontal sliding rail 208 close to the rear sliding block 204, so as to prevent the rear sliding block 204 from sliding out of the horizontal sliding rail 208; the capture slide 210 is slidably mounted on the horizontal slide rail 208 between the rear slide 204 and the front slide 205; the cutting depth positioning fixer 207 is used for fixing the position of the locking slide block 210 on the horizontal slide rail 208; the digital caliper 206 is located above the locking slide block 210, one end of the digital caliper 206 is fixed on the rear slide block 204, and the other end of the digital caliper 206 is installed on the locking slide block 210 and used for displaying the distance between the locking slide block 210 and the starting point of the digital caliper 206.

Further, the cutting depth positioning fixture 207 is a bolt penetrating through the locking slider 210, and when the bolt is tightened, one end of the bolt moves towards the horizontal slide rail 208 and finally abuts against the horizontal slide rail 208, so that the locking slider 210 is locked on the horizontal slide rail 208; when the bolt is loosened, one end of the bolt, which is in contact with the horizontal sliding rail 208, is far away from the horizontal sliding rail 208, so that the locking slider 210 can freely slide along the horizontal sliding rail 208.

Further, the fixing device comprises a first body fixing ring 201 and a second body fixing ring 202, and the first body fixing ring 201 and the second body fixing ring 202 are respectively and fixedly installed on the front sliding block 205 and the rear sliding block 204 and used for fixing the mill body 102.

Further, the portable OPGW cable stripping tool further includes a self-locking switch 104 mounted on the mill body 102 near one end of the cutting blade 106 for locking the blade fixing shaft 107.

Further, the battery pack 101 is detachably mounted to one end of the mill body 102.

According to the portable OPGW optical cable stripping tool, when an operator needs to strip a protective layer of an OPGW optical cable, the operator holds the grinder body of the optical cable stripping tool, firstly clamps the optical cable by using the optical cable fixing clamp, then adjusts the reading of the digital display caliper to determine the cutting depth, then screws the cutting depth positioning fixer to lock the cutting depth, finally opens the starting switch of the grinder, and manually moves the tool to enable the cutting abrasive disc to rotate around the optical cable so as to perform circular cutting on the protective layer of the OPGW optical cable. The tool is small and portable, can be moved by hands to perform circular cutting on the protective layer of the OPGW optical cable, and greatly improves the working efficiency of operating personnel.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 and fig. 2 are schematic structural diagrams of the portable OPGW optical cable stripping tool of the present invention.

The reference numerals are explained below:

101-battery pack, 102-grinder body, 103-starting switch, 104-self-locking switch, 105-grinder head, 106-cutting grinding disc, 107-grinding disc fixing shaft, 201-first body fixing ring, 202-second body fixing ring, 203-limiting stopper, 204-rear sliding block, 205-front sliding block, 206-digital display caliper, 207-cutting depth positioning fixer, 208-horizontal sliding rail, 209-optical cable fixing clamp, 210-locking sliding block and 301-optical cable.

Detailed Description

The embodiments of the present disclosure are described in detail below with reference to the accompanying drawings.

The embodiments of the present disclosure are described below with specific examples, and other advantages and effects of the present disclosure will be readily apparent to those skilled in the art from the disclosure in the specification. It is to be understood that the described embodiments are merely illustrative of some, and not restrictive, of the embodiments of the disclosure. The disclosure may be embodied or carried out in various other specific embodiments, and various modifications and changes may be made in the details within the description without departing from the spirit of the disclosure. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

The portable OPGW optical cable stripping tool disclosed by the invention comprises a battery pack 101, a grinder body 102, a starting switch 103, a cutting abrasive disc 106, an abrasive disc fixing shaft 107, a fixing device, a transmission device and an optical cable fixing clamp 209, as shown in figures 1 and 2. The mill body 102 is mounted on a transmission device through a fixing device, and the transmission device drives the mill body 102 to reciprocate horizontally. The battery pack 101 is mounted at one end of the mill body 102, and the grinding blade fixing shaft 107 is mounted at the bottom of the other end of the mill body 102. The cutting blade 106 is rotatably mounted on an end of a blade fixing shaft 107 remote from the mill body 102. A cable retaining clip 209 is mounted on the end of the actuator adjacent the cutting blade 106. The battery pack 101 provides power for the rotation of the cutting grinding plate 106, and the starting switch 103 is installed on the mill body 102 and controls the starting or stopping of the battery pack 101.

The working principle of the optical cable stripping tool is as follows: the cable is secured to the cable retaining clip 209 and the drive mechanism is manually actuated such that the drive mechanism moves the mill body 102 horizontally and the mill body 102 moves to bring the cutting blade 106 mounted at one end thereof into proximity with the cable. The transmission device can define a displacement position, and when the set limiting position is reached, the transmission device can no longer move and the cutting blade 106 can no longer move forward. Pressing the starting switch 103 to start the battery pack 101 to supply power to the cutting abrasive disc 106, driving the cutting abrasive disc 106 to rotate, enabling the edge of the cutting abrasive disc 106 to be in friction cutting with the outer protective layer of the optical cable, and manually driving the mill body 102 to rotate for a circle around the optical cable to achieve circular cutting of the optical cable.

Further, the driving mechanism comprises a horizontal sliding rail 208, a limiter 203, a rear sliding block 204, a front sliding block 205, a digital caliper 206, a cutting depth positioning fixer 207 and a locking sliding block 210; the front shoe 205 is slidably mounted on the horizontal slide rail 208 adjacent the cutting blade 106, and the rear shoe 204 is slidably mounted on the horizontal slide rail 208 distal the cutting blade 106. The stopper 203 is installed at one end of the horizontal sliding rail 208 close to the rear slider 204 to prevent the rear slider 204 from sliding out of the horizontal sliding rail 208. The capture slide 210 is slidably mounted on the horizontal slide rail 208 between the rear slide 204 and the front slide 205. The cutting depth positioning holder 207 is used to fix the position of the capture slide 210 on the horizontal slide 208. The digital display caliper 206 is positioned above the locking slide block 210, one end of the digital display caliper is fixed on the rear slide block 204, and the other end of the digital display caliper is installed on the locking slide block 210. And is used for displaying the distance of the locking slide block 210 relative to the starting point of the digital caliper 206, which is the distance that the cutting blade can advance, i.e. the cutting depth of the cutting blade.

Further, the cutting depth positioning fixture 207 is a bolt penetrating through the locking slide block 210, and when the bolt is tightened, one end of the bolt moves toward the horizontal slide rail 208 and finally abuts against the horizontal slide rail 208, so that the locking slide block 210 is locked on the horizontal slide rail 208. When the bolt is loosened, one end of the bolt, which is in contact with the horizontal sliding rail 208, is far away from the horizontal sliding rail 208, so that the locking slider can freely slide along the horizontal sliding rail 208.

Further, the fixing device comprises a first body fixing ring 201 and a second body fixing ring 202, and the first body fixing ring 201 and the second body fixing ring 202 are respectively fixedly installed on the front sliding block 205 and the rear sliding block 204 and used for fixing the mill body 102.

Further, the portable OPGW cable stripping tool further includes a self-locking switch 104 mounted on the mill body 102 near one end of the cutting blade 106 for locking the blade securing shaft 107 and further locking the cutting blade 106 against rotation even when energized. In order to prevent the cutting abrasive disc from being replaced, the cutting abrasive disc is rotated by misoperation, and the personal safety of replacement workers is ensured.

The function and the working principle of each component of the portable OPGW optical cable stripping tool are as follows:

the battery pack 101 is used for supplying power for the working operation of the cutting abrasive disc 106 and can be detached for charging.

Switch 103 is activated to cut the power switch of blade 106.

The self-locking switch 104 is positioned at the part of the mill body 102 close to the cutting abrasive disc, and when the cutting abrasive disc is replaced or installed, the self-locking switch is pressed to lock the abrasive disc fixing shaft 107, so that the abrasive disc fixing shaft cannot rotate, and the replacement or installation of the cutting abrasive disc is facilitated.

A cutting blade 106 is mounted on a blade fixing shaft 107 below one end of the mill body 102. When the grinder works, the grinding sheet fixing shaft 107 rotates at a high speed to drive the cutting grinding sheets to cut articles.

The mill

body fixing rings

201 and 202 are mainly used for clamping and fixing the mill body, so that the mill can work and operate stably when cutting objects.

The stopper 203 is fixed at the tail end of the horizontal sliding rail by screws and mainly used for preventing the rear sliding block from derailing when the horizontal sliding rail slides.

And the rear sliding block 204 is fixedly connected with the machine body fixing ring 201 and can slide on a horizontal sliding rail.

The front sliding block 205 is fixedly connected with the body fixing ring 202 and can slide on the horizontal sliding rail.

The front sliding block and the rear sliding block bear the mill body together, so that the mill can slide along the horizontal sliding rail.

And a digital display caliper 206 for setting the cutting depth. The upper measuring claw of the caliper is fixed on the rear sliding block, and the lower measuring claw is fixed on the locking sliding block.

When the cutting depth is set, a lower measuring claw of the caliper is stirred by a hand, the numerical value displayed by a digital display screen of the caliper is seen at the same time, the cutting depth is determined, and then the cutting depth positioning fixer 207 is screwed down by the hand to lock the locking slide block 210;

the locking sliding block 210 is fixedly connected with the lower measuring claw of the digital display caliper 206, a cutting depth positioning fixer 207 is arranged on the locking sliding block, and the locking sliding block can slide on a horizontal sliding rail. The cutting depth positioning fixer is screwed down, so that the locking sliding block is fixed on the horizontal sliding rail, namely, the cutting depth is locked. When the mill operates, the front sliding block 205 is prevented from sliding forwards, and the accuracy of the cutting depth is ensured.

And the horizontal sliding rail 208 is used for the front sliding block 205, the rear sliding block 204 and the locking sliding block 210 to slide linearly.

The optical cable fixing clamp 209 can clamp an optical cable, and the manual movable optical cable stripping tool can enable the cutting abrasive disc to rotate around the optical cable, so that the optical fiber composite overhead ground wire (OPGW) optical cable protective layer can be circularly cut.

In the description of the present invention, it is to be understood that the terms "intermediate", "length", "upper", "lower", "front", "rear", "vertical", "horizontal", "inner", "outer", "radial", "circumferential", and the like, indicate orientations and positional relationships that are based on the orientations and positional relationships shown in the drawings, are used for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the first feature may be "on" the second feature in direct contact with the second feature, or the first and second features may be in indirect contact via an intermediate. "plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The above description is for the purpose of illustrating embodiments of the invention and is not intended to limit the invention, and it will be apparent to those skilled in the art that any modification, equivalent replacement, or improvement made without departing from the spirit and principle of the invention shall fall within the protection scope of the invention.

Claims

1. A portable OPGW optical cable stripping tool is characterized by comprising a battery pack (101), a grinder body (102), a starting switch (103), a cutting abrasive disc (106), an abrasive disc fixing shaft (107), a fixing device, a transmission device and an optical cable fixing clamp (209); the mill body (102) is mounted on the transmission device through the fixing device, and the transmission device drives the mill body (102) to reciprocate horizontally; the battery pack (101) is installed at one end of the mill body (102), and the grinding plate fixing shaft (107) is installed at the bottom of the other end of the mill body (102); the cutting blade (106) is rotatably mounted on an end of the blade-fixing shaft (107) remote from the mill body (102); the cable fixing clamp (209) is arranged at one end of the transmission device close to the cutting abrasive disc (106); the battery pack (101) provides power for the rotation of the cutting abrasive disc (106), and the starting switch (103) is installed on the mill body (102) and controls the starting or the stopping of the battery pack (101).

2. The portable OPGW cable stripping tool of claim 1, wherein the drive mechanism comprises a horizontal slide rail (208), a stop (203), a rear slide block (204), a front slide block (205), a digital caliper (206), a depth of cut positioning fixture (207), and a capture slide block (210); the front slider (205) is slidably mounted on the horizontal slide rail (208) and adjacent to the cutting blade (106), and the rear slider (204) is slidably mounted on the horizontal slide rail (208) away from the cutting blade (106); the limiter (203) is arranged at one end of the horizontal sliding rail (208) close to the rear sliding block (204) to prevent the rear sliding block (204) from sliding out of the horizontal sliding rail (208); the locking slide block (210) is slidably arranged on the horizontal slide rail (208) and is positioned between the rear slide block (204) and the front slide block (205); the cutting depth positioning fixer (207) is used for fixing the position of the locking slide block (210) on the horizontal slide rail (208); the digital display caliper (206) is positioned above the locking slide block (210), one end of the digital display caliper is fixed on the rear slide block (204), and the other end of the digital display caliper is installed on the locking slide block (210) and used for displaying the distance between the locking slide block (210) and the starting point of the digital display caliper (206).

3. The portable OPGW cable stripping tool of claim 2, wherein the cut depth positioning fixture (207) is a bolt that penetrates the lock slide (210), and when the bolt is tightened, a head of the bolt moves in a direction toward the horizontal slide (208) and finally abuts against the horizontal slide (208) to lock the lock slide (210) to the horizontal slide (208); when the bolt is loosened, one end of the bolt, which is in contact with the horizontal sliding rail (208), is far away from the horizontal sliding rail (208), so that the locking sliding block (210) can freely slide along the horizontal sliding rail (208).

4. The portable OPGW cable stripping tool of claim 2, wherein the securing device comprises a first body securing ring (201) and a second body securing ring (202), the first body securing ring (201) and the second body securing ring (202) being fixedly mounted on the front slider (205) and the rear slider (204), respectively, for securing the mill body (102).

5. A portable OPGW cable stripping tool as claimed in any one of claims 1 to 4, further comprising a self-locking switch (104) mounted on the mill body (102) and adjacent one end of the cutting blade (106) for locking the blade securing shaft (107).

6. The portable OPGW cable stripping tool of claim 1, wherein the battery pack (101) is removably mounted at one end of the mill body (102).