CN113866886A

CN113866886A - Optical cable sheath stripping device

Info

Publication number: CN113866886A
Application number: CN202111063454.XA
Authority: CN
Inventors: 杨永峰; 许屹; 郑星; 黄炎阶; 周均易; 周茜; 杨安琪
Original assignee: Quzhou Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Current assignee: Quzhou Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Priority date: 2021-09-10
Filing date: 2021-09-10
Publication date: 2021-12-31
Anticipated expiration: 2041-09-10
Also published as: CN113866886B

Abstract

The invention discloses an optical cable sheath stripping device, and aims to provide an optical cable sheath stripping device which is convenient to operate, simple in structure, small in size, easy to carry and suitable for optical cable sheath stripping operation in an operation place where a field vehicle cannot reach. The outer skin peeling mechanism comprises an inner mounting opening arranged on the floating shaft sleeve, an outer mounting opening arranged on the inner wall of the driving shaft sleeve, a rotating blade arranged in the inner mounting opening in a rotating mode through a shaft rod, a strip-shaped opening arranged on the rotating blade, a driving rod arranged in the outer mounting opening, and a first cutter limiting part and a second cutter limiting part which are arranged on the inner wall of the outer mounting opening, wherein the driving rod is inserted in the strip-shaped opening, and an included angle between the axes of the rotating blade and the floating shaft sleeve is 70-89 degrees.

Description

Optical cable sheath stripping device

Technical Field

The invention relates to a sheath stripping device, in particular to an optical cable sheath stripping device.

Background

The cable jacket first needs to be stripped during the cable fusion process. The conventional cable sheath is stripped by manual operation. The sheath of the optical cable is stripped in a manual operation mode, so that the method is more suitable for the optical cable with small diameter; however, for the optical cable with a larger outer diameter, the manual peeling operation is more difficult, and not only the peeling efficiency is low, but also the labor intensity is high.

In order to solve the problem, a stripping machine is generally adopted to strip the optical cable with larger outer diameter; however, the existing stripping machine has a complex structure, a large volume and inconvenient carrying, and with the more and more common application of optical cables, most of optical cable line fusion operations are performed in the field and in the deep mountain and old forest, and vehicles cannot reach the bottom of a line pole tower, so that the existing stripping machine is difficult to be applied to the optical cable line fusion operations. This makes the field and the dark mountain old forest work place that the vehicle can not reach, and most of the operation of peeling off the sheath of optical cable still can only adopt traditional manual operation.

Disclosure of Invention

The invention aims to provide an optical cable sheath stripping device which is convenient to operate, simple in structure, small in size and easy to carry and carry so as to adapt to optical cable sheath stripping operation in an operation place where a field vehicle cannot reach.

The technical scheme of the invention is as follows:

an optical cable sheath stripping device comprises an operation table, a sheath stripping mechanism, a driving shaft sleeve rotationally arranged on the operation table, a rotary driving mechanism for driving the driving shaft sleeve to rotate and a floating shaft sleeve rotationally arranged in the driving shaft sleeve,

the outer skin stripping mechanism comprises an inner mounting opening, an outer mounting opening, a rotating blade, a strip-shaped opening, a driving rod and a first cutter limiting part and a second cutter limiting part, wherein the inner mounting opening is arranged on the floating shaft sleeve and penetrates through the inner side surface and the outer side surface of the floating shaft sleeve, the outer mounting opening is arranged on the inner wall of the driving shaft sleeve, the rotating blade is arranged in the inner mounting opening in a rotating mode through a shaft rod, the strip-shaped opening is arranged on the rotating blade, the driving rod is arranged in the outer mounting opening in a rotating mode, the first cutter limiting part and the second cutter limiting part are arranged on the inner wall of the outer mounting opening, the rotating blade is located between the first cutter limiting part and the second cutter limiting part, one end of the rotating blade extends into the outer mounting opening, the other end of the rotating blade is provided with a cutter point, the driving rod is parallel to the shaft rod, the driving rod is inserted into the strip-shaped opening, the shaft rod is perpendicular to the rotating blade, an included angle between the rotating blade and the axis of the floating shaft sleeve is 70-89 degrees, when the rotating blade is abutted against the first cutter limiting part, the tool nose of the rotating blade is positioned in the inner mounting opening, and when the rotating blade abuts against the second cutter limiting part, the tool nose of the rotating blade is positioned in the inner hole of the floating shaft sleeve.

In the process that the driving shaft sleeve is driven to rotate clockwise by the rotary driving mechanism, the driving shaft sleeve drives the rotating blade to rotate around the shaft rod through the driving rod, so that the rotating blade abuts against the first cutter limiting part; in the process that the driving shaft sleeve is driven to rotate anticlockwise by the rotary driving mechanism, the driving shaft sleeve drives the rotating blade to rotate around the shaft rod through the driving rod, and the rotating blade is abutted to the second cutter limiting part.

The optical cable sheath stripping device of the scheme has the following specific operation,

firstly, the driving shaft sleeve is driven by the rotary driving mechanism to rotate clockwise, the driving shaft sleeve drives the rotating blade to rotate around the shaft rod through the driving rod, so that the rotating blade is abutted against the first cutter limiting part, and the cutter point of the rotating blade is positioned in the inner mounting opening; therefore, in the process that the optical cable is inserted into the floating shaft sleeve next time, the optical cable is prevented from being blocked by the rotating blade, and the optical cable can be smoothly inserted into the floating shaft sleeve;

secondly, inserting the optical cable into the floating shaft sleeve and enabling the end part of the optical cable to penetrate through the floating shaft sleeve, and then holding the optical cable by an operator to keep the optical cable from rotating;

thirdly, the driving shaft sleeve is driven by the rotary driving mechanism to rotate anticlockwise, and in the process, the driving shaft sleeve drives the rotating blade to rotate around the shaft rod through the driving rod, so that the tool tip of the rotating blade rotates into the floating shaft sleeve and abuts against the surface of the sheath of the optical cable; then, the driving shaft sleeve continues to drive the rotating blade to rotate around the shaft rod through the driving rod until the rotating blade abuts against the second cutter limiting part, and at the moment, the rotating blade cuts into the optical cable sheath; then, because the rotating blade is abutted against the second cutter limiting part, the driving shaft sleeve drives the floating shaft sleeve to synchronously rotate in the process that the driving shaft sleeve is driven to rotate by the rotary driving mechanism, so that the rotating blade is driven to rotate around the optical cable; in the process that the rotating blade rotates around the optical cable, because the included angle between the rotating blade and the axis of the floating shaft sleeve is 70-89 degrees, the cutting track of the rotating blade on the outer skin of the optical cable extends spirally along the axial direction of the optical cable, and meanwhile, because the outer skin stripping mechanism is arranged on the operating platform and does not translate, in the process, the optical cable gradually moves out of the shaft sleeve along the axial direction of the floating shaft sleeve until the outer skin at the end part of the optical cable is separated from the rotating blade, at the moment, the spiral cutting of the outer skin of the optical cable is completed, the optical cable is taken out, and then the cut spiral outer skin on the optical cable is cut. The optical cable sheath stripping device has the advantages of simple structure, small volume and easy carrying, and can be well adapted to the optical cable sheath stripping operation of an operation place where a field vehicle cannot reach; the operation is convenient and fast, and only the three steps are needed; more importantly, the optical cable sheath can be stripped by driving the driving shaft sleeve to rotate anticlockwise and clockwise through the same rotary driving mechanism, and the problem that the stripping fault or failure of the optical cable sheath is caused by the operation error of the front and back action sequence of a plurality of power mechanisms is solved.

Preferably, the longitudinal direction of the strip-shaped opening extends along the radial direction of the shaft.

Preferably, the floating shaft further comprises an elastic sheet and a friction block arranged on the elastic sheet, one end of the elastic sheet is fixed on the operating platform, and the friction block is pressed against one end face of the floating shaft sleeve under the elastic force of the elastic sheet. Therefore, in the process that the rotary driving mechanism drives the driving shaft sleeve to rotate anticlockwise, the floating shaft sleeve is kept not to rotate under the friction action of the friction block before the rotating blade abuts against the second cutter limiting piece; the driving shaft sleeve can smoothly drive the rotating blade to rotate around the shaft rod through the driving rod, so that the rotating blade is abutted against the second cutter limiting part, and the tool tip of the rotating blade can smoothly cut into the optical cable sheath. Similarly, in the process that the rotary driving mechanism drives the driving shaft sleeve to rotate clockwise, before the rotating blade abuts against the first cutter limiting part, the floating shaft sleeve is kept not to rotate under the friction action of the friction block; the driving shaft sleeve can smoothly drive the rotating blade to rotate around the shaft rod through the driving rod, so that the rotating blade is abutted against the first cutter limiting part, and the cutter point of the rotating blade can smoothly rotate into the inner mounting opening.

Preferably, the elastic piece is fixed to the console by a bolt. Thus, the actual installation of the elastic sheet is facilitated.

Preferably, the friction block is fixed to the elastic piece by a bolt. Therefore, the friction block is convenient to actually install.

Preferably, the angle between the rotating blade and the axis of the floating bushing is 80 degrees.

Preferably, the rotary driving mechanism comprises a driven gear sleeved on the driving shaft sleeve, a driving gear meshed with the driven gear and a driving motor arranged on the operating platform and used for driving the driving gear to rotate, and the driven gear is fixedly connected with the driving shaft sleeve.

Preferably, the driven gear has an outer diameter larger than an outer diameter of the driving gear.

Preferably, the number of the skin peeling mechanisms is plural, and the skin peeling mechanisms are uniformly distributed around the circumferential direction of the floating bushing.

Preferably, the driving shaft sleeve is rotatably arranged on the operating platform through a bearing or a bearing seat.

The invention has the beneficial effects that: the cable sheath stripping device has the advantages of convenience in operation, simple structure, small volume and easiness in carrying and carrying, and is suitable for cable sheath stripping operation of operation places where field vehicles cannot reach.

Drawings

Fig. 1 is a partial sectional view schematically showing a cable sheath stripping apparatus according to the present invention.

Fig. 2 is a rear view of fig. 1.

Fig. 3 is a partial structural view of the optical cable sheath stripping device of the present invention in actual use.

In the figure:

an operation table 1;

a driving shaft sleeve 2;

a floating shaft sleeve 3;

a rotary driving mechanism 4, a driven gear 4.1 and a driving gear 4.2;

the outer skin stripping mechanism comprises an outer skin stripping mechanism 5, an inner mounting opening 5.1, a shaft rod 5.2, a rotating blade 5.3, a strip-shaped opening 5.4, a driving rod 5.5, a first cutter limiting piece 5.6, a second cutter limiting piece 5.7 and a cutter point 5.8;

a bearing seat 6;

an elastic sheet 7;

and a friction block 8.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention are clearly explained and illustrated below with reference to the accompanying drawings, but the following embodiments are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative effort belong to the protection scope of the present invention.

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present scheme, and are not construed as limiting the scheme of the present invention.

These and other aspects of embodiments of the invention will be apparent with reference to the following description and attached drawings. In the description and drawings, particular embodiments of the invention have been disclosed in detail as being indicative of some of the ways in which the principles of the embodiments of the invention may be practiced, but it is understood that the scope of the embodiments of the invention is not limited thereby. On the contrary, the embodiments of the invention include all changes, modifications and equivalents coming within the spirit and terms of the claims appended hereto.

In the description of the present invention, it is to be understood that the terms "thickness", "upper", "lower", "horizontal", "top", "bottom", "inner", "outer", "circumferential", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., and "several" means one or more 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 first embodiment is as follows: as shown in fig. 1, 2 and 3, the optical cable sheath stripping device includes an operation table 1, a sheath stripping mechanism 5, a driving shaft sleeve 2 rotatably disposed on the operation table, a rotary driving mechanism 4 for driving the driving shaft sleeve to rotate, and a floating shaft sleeve 3 rotatably disposed in the driving shaft sleeve. The driving shaft sleeve is rotatably arranged on the surface of the operating platform through a bearing or a bearing seat 6. The floating shaft sleeve and the driving shaft sleeve are coaxially distributed.

The rotary driving mechanism 4 comprises a driven gear 4.1 sleeved on the driving shaft sleeve, a driving gear 4.2 meshed with the driven gear and a driving motor arranged on the operating platform and used for driving the driving gear to rotate. The driven gear is fixedly connected with the driving shaft sleeve. The outer diameter of the driven gear is larger than that of the driving gear.

The outer skin stripping mechanisms are multiple, and the outer skin stripping mechanisms are uniformly distributed around the circumference of the floating shaft sleeve. In this embodiment, the number of the outer skin peeling mechanisms is 3. The outer skin stripping mechanism 5 comprises an inner mounting opening 5.1 which is arranged on the floating shaft sleeve and penetrates through the inner side surface and the outer side surface of the floating shaft sleeve, an outer mounting opening which is arranged on the inner wall of the driving shaft sleeve, a rotating blade 5.3 which is arranged in the inner mounting opening in a rotating mode through a shaft rod 5.2, a strip-shaped opening 5.4 which is arranged on the rotating blade, a driving rod 5.5 which is arranged in the outer mounting opening, and a first cutter limiting part 5.6 and a second cutter limiting part 5.7 which are arranged on the inner wall of the outer mounting opening. The opening of the outer mounting opening faces the mounting opening. The length direction of the inner strip-shaped opening extends along the radial direction of the shaft rod. The driving rod is parallel to the shaft rod and inserted in the strip-shaped opening.

The rotating blade is positioned between the first cutter limiting part and the second cutter limiting part, one end of the rotating blade extends into the outer mounting opening, the other end of the rotating blade is provided with a cutter point 5.8, and the cutter point of the rotating blade faces to the axis of the floating shaft sleeve. The shaft lever is perpendicular to the rotating blade. The axis of the floating shaft sleeve is parallel to the surface of the operating platform. The included angle between the rotating blade and the axis of the floating shaft sleeve is 70-89 degrees, and in the embodiment, the included angle between the rotating blade and the axis of the floating shaft sleeve is 80 degrees. The rotating blade is used for cutting the cable sheath, and in the process of cutting the cable sheath by the rotating blade, the cutting track of the rotating blade on the cable sheath extends spirally along the axial direction of the optical cable.

As shown in fig. 1, when the rotating blade abuts against the first blade-limiting member, the blade tip of the rotating blade is located in the inner mounting opening. As shown in fig. 3, when the rotating blade abuts against the second cutter limiting member, the tip of the rotating blade is located in the inner hole of the floating bushing.

As shown in fig. 1, in the process that the driving shaft sleeve is driven by the rotation driving mechanism to rotate clockwise, the driving shaft sleeve drives the rotating blade to rotate around the shaft rod through the driving rod, so that the rotating blade abuts against the first cutter limiting part. As shown in fig. 3, in the process that the driving shaft sleeve is driven by the rotation driving mechanism to rotate counterclockwise, the driving shaft sleeve drives the rotating blade to rotate around the shaft rod through the driving rod, so that the rotating blade abuts against the second cutter limiting part.

thirdly, the driving shaft sleeve is driven by the rotary driving mechanism to rotate anticlockwise, and in the process, the driving shaft sleeve drives the rotating blade to rotate around the shaft rod through the driving rod, so that the tool tip of the rotating blade rotates into the floating shaft sleeve and abuts against the surface of the sheath of the optical cable; then, the driving shaft sleeve continues to drive the rotating blade to rotate around the shaft rod through the driving rod until the rotating blade abuts against the second cutter limiting part, and at the moment, the rotating blade cuts into the optical cable sheath; then, because the rotating blade is abutted against the second cutter limiting part, the driving shaft sleeve drives the floating shaft sleeve to synchronously rotate in the process that the driving shaft sleeve is driven to rotate by the rotary driving mechanism, so that the rotating blade is driven to rotate around the optical cable; in the process that the rotating blade rotates around the optical cable, because the included angle between the rotating blade and the axis of the floating shaft sleeve is 80 degrees, the cutting track of the rotating blade on the outer skin of the optical cable extends spirally along the axial direction of the optical cable, and meanwhile, because the outer skin stripping mechanism is arranged on the operating table and does not translate, in the process, the optical cable gradually moves out of the shaft sleeve along the axial direction of the floating shaft sleeve until the outer skin at the end part of the optical cable is separated from the rotating blade, at the moment, the spiral cutting of the outer skin of the optical cable is completed, the optical cable is taken out, and then the cut spiral outer skin on the optical cable is cut off. The optical cable sheath stripping device has the advantages of simple structure, small volume and easy carrying, and can be well adapted to the optical cable sheath stripping operation of an operation place where a field vehicle cannot reach; the operation is convenient and fast, and only the three steps are needed; more importantly, the optical cable sheath can be stripped by driving the driving shaft sleeve to rotate anticlockwise and clockwise through the same rotary driving mechanism, and the problem that the stripping fault or failure of the optical cable sheath is caused by the operation error of the front and back action sequence of a plurality of power mechanisms is solved.

Further, as shown in fig. 2, the cable sheath stripping device further includes an elastic sheet 7 and a friction block 8 disposed on the elastic sheet. One end of the elastic sheet is fixed on the operating platform, and the friction block is pressed on one end face of the floating shaft sleeve under the elastic action of the elastic sheet. Therefore, in the process that the rotary driving mechanism drives the driving shaft sleeve to rotate anticlockwise, the floating shaft sleeve is kept not to rotate under the friction action of the friction block before the rotating blade abuts against the second cutter limiting piece; the driving shaft sleeve can smoothly drive the rotating blade to rotate around the shaft rod through the driving rod, so that the rotating blade is abutted against the second cutter limiting part, and the tool tip of the rotating blade can smoothly cut into the optical cable sheath. Similarly, in the process that the rotary driving mechanism drives the driving shaft sleeve to rotate clockwise, before the rotating blade abuts against the first cutter limiting part, the floating shaft sleeve is kept not to rotate under the friction action of the friction block; the driving shaft sleeve can smoothly drive the rotating blade to rotate around the shaft rod through the driving rod, so that the rotating blade is abutted against the first cutter limiting part, and the cutter point of the rotating blade can smoothly rotate into the inner mounting opening.

The elastic sheet is fixed on the operating platform through bolts. Thus, the actual installation of the elastic sheet is facilitated.

The friction block is fixed on the elastic sheet through a bolt. Therefore, the friction block is convenient to actually install.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and all simple modifications, alterations and equivalents of the above embodiments according to the technical spirit of the present invention are still within the protection scope of the technical solution of the present invention.

Claims

1. An optical cable sheath stripping device is characterized by comprising an operation table, a sheath stripping mechanism, a driving shaft sleeve rotationally arranged on the operation table, a rotary driving mechanism used for driving the driving shaft sleeve to rotate and a floating shaft sleeve rotationally arranged in the driving shaft sleeve,

2. The optical cable sheath stripping device according to claim 1, wherein in the process that the rotary driving mechanism drives the driving shaft sleeve to rotate clockwise, the driving shaft sleeve drives the rotary blade to rotate around the shaft rod through the driving rod, so that the rotary blade abuts against the first cutter limiting part; in the process that the driving shaft sleeve is driven to rotate anticlockwise by the rotary driving mechanism, the driving shaft sleeve drives the rotating blade to rotate around the shaft rod through the driving rod, and the rotating blade is abutted to the second cutter limiting part.

3. The optical cable sheath stripping apparatus as claimed in claim 1, wherein the strip-shaped opening extends in a longitudinal direction of the shaft.

4. The optical cable sheath stripping device as claimed in claim 1, 2 or 3, further comprising an elastic sheet and a friction block arranged on the elastic sheet, wherein one end of the elastic sheet is fixed on the operating platform, and the friction block is pressed against one end face of the floating shaft sleeve under the elastic force of the elastic sheet.

5. The optical cable sheath stripping apparatus as claimed in claim 4, wherein the elastic piece is fixed to the operating table by a bolt.

6. The optical cable sheath stripping apparatus as claimed in claim 4, wherein the friction block is fixed to the elastic piece by a bolt.

7. The optical cable sheath stripping apparatus as claimed in claim 1, 2 or 3, wherein the angle between the rotary blade and the axis of the floating bushing is 80 degrees.

8. The optical cable sheath stripping device as claimed in claim 1, 2 or 3, wherein the rotary driving mechanism comprises a driven gear sleeved on the driving shaft sleeve, a driving gear engaged with the driven gear, and a driving motor arranged on the operating platform for driving the driving gear to rotate, and the driven gear is fixedly connected with the driving shaft sleeve.

9. The optical cable sheath stripping apparatus as claimed in claim 8, wherein the driven gear has an outer diameter larger than an outer diameter of the driving gear.

10. The optical cable sheath stripping apparatus as claimed in claim 1, 2 or 3, wherein the sheath stripping mechanism is provided in plurality, and each of the sheath stripping mechanisms is uniformly distributed around the circumference of the floating collar.