CN217112796U - Special sheath layer of ADSS optical cable strips instrument - Google Patents

Abstract

The utility model relates to a special sheath layer stripping tool for ADSS optical cables, belonging to the technical field of cutters; the shell comprises a shell body, wherein one side of the shell body is provided with an auxiliary component in a sliding manner, and one side adjacent to the auxiliary component is provided with a working through hole; an adjusting component is arranged on one side of the periphery of the working through hole, which deviates from the auxiliary component, a cutter component is arranged in the adjusting component, and the cutter component is matched with the adjusting component and used for controlling the moving distance of the cutter component in the horizontal direction, so that the optical cable to be processed is clamped between the cutter component and the auxiliary component; a steering through hole is formed in the side wall of the adjusting assembly, a fixing screw penetrates through the steering through hole and then is fixedly connected with one end of the cutter assembly, and the working direction of a cutter point on the cutter assembly can be controlled and fixed through the matching of the fixing screw and the steering through hole; the shell body is made of transparent materials. The utility model discloses small and exquisite nimble, labour saving and time saving, durable can not hinder the inner core to convenient to use.

Description

Special sheath layer of ADSS optical cable strips instrument

Technical Field

The utility model belongs to the technical field of the cutter, especially, relate to a special restrictive coating of ADSS optical cable strips instrument.

Background

In recent years, with the rapid development of automatic transmission, distribution and transformation services of national grid companies, the power communication optical cable becomes an indispensable important link for the safe and stable operation of a power grid, once the interruption time of an information network is too long, the danger of power grid paralysis caused by the fact that a substation system is disconnected is easy to occur, so that how to shorten the emergency repair time of optical cable accidents and realize the rapid recovery of power communication becomes a difficult problem which needs to be solved by communication operation and maintenance personnel urgently.

At present, the ADSS optical cable is the most commonly used for power communication, is a nonmetal optical cable which is completely composed of dielectric materials, contains a necessary supporting system and can be directly hung on a power tower, is mainly used for a communication line of an overhead high-voltage transmission system and can also be used for a communication line in an overhead laying environment such as a thunder and lightning multi-occurrence zone, a large span and the like.

In order to ensure the tensile strength of the electric ADSS optical cable, a polyethylene inner sheath layer and aramid fibers are structurally added, so that when the sheath layer needs to be stripped in fiber melting work, the sheath layer cannot be removed by a pulling method after the common optical cable is circularly cut, and the optical fiber can be separated only by adopting a mode of slightly scratching the inner sheath layer and the outer sheath layer of the optical cable by using an art knife at present. The mode of stripping the optical cable sheath layer has the advantages that the cutting force cannot be controlled manually, secondary reworking caused by accidents of incomplete peeling or fiber core cutting by a cutter point and the like is easy to occur, the working efficiency is influenced, and the repair time of power communication faults is greatly prolonged.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a special restrictive coating of ADSS optical cable strips instrument to solve the tradition mode work efficiency that strips the optical cable restrictive coating and hang down, and have to skin thoroughly inadequately or the knife tip draws the technical problem that accidents such as disconnected fibre core caused the secondary to do over again.

In order to achieve the above object, the utility model discloses a special restrictive coating of ADSS optical cable strips instrument's specific technical scheme as follows:

a special sheath layer stripping tool for an ADSS optical cable comprises a shell body, wherein an auxiliary component is arranged on one side of the shell body in a sliding mode, and a working through hole is formed in one side adjacent to the auxiliary component;

an adjusting component is arranged on one side of the periphery of the working through hole, which is far away from the auxiliary component, a cutter component is arranged in the adjusting component, and the cutter component is matched with the adjusting component and used for controlling the moving distance of the cutter component in the horizontal direction, so that the optical cable to be processed is clamped between the cutter component and the auxiliary component;

a steering through hole is formed in the side wall of the adjusting assembly, a fixing screw penetrates through the steering through hole and then is fixedly connected with one end of the cutter assembly, and the working direction of a cutter point on the cutter assembly can be controlled through the matching of the fixing screw and the steering through hole;

the shell body is made of transparent materials.

Furthermore, the tool nose of the tool assembly is of a streamline structure, and the two ends of the tool nose are sharpened at most.

Further, one end of the cutter component is in threaded connection with the adjusting component, the other end of the cutter component is provided with a cutter point, and the cutter point penetrates through the working through hole and then is in contact with the optical cable to be processed.

Further, the auxiliary assembly comprises a wide auxiliary assembly and a narrow auxiliary assembly which are slidably arranged on the shell body, and the working through holes comprise a first working through hole and a second working through hole which are respectively arranged on two sides of the shell body;

the optical cables to be processed with different sizes are respectively clamped between the wide/narrow auxiliary assembly and the first/second working through holes.

Further, the shell body comprises a horizontal part, a sliding groove through hole is formed in the horizontal part, and an auxiliary assembly is arranged on the sliding groove through hole in a sliding mode;

the end part of the horizontal part is integrally provided with a V-shaped part, the opening of the V-shaped part is arranged towards the horizontal part, and a working through hole is arranged at the corner of the V-shaped part;

the V-shaped part is made of transparent material.

Furthermore, the wide auxiliary assembly comprises a fixing part, one end of the fixing part is in threaded connection with the matching part, and the shell body is clamped between the fixing part and the matching part;

one end of the matching part, which is far away from the fixing part, is rotated to be provided with a pressing roller, and an optical cable to be processed is clamped between the pressing roller and the shell body.

Further, the cutter assembly comprises a handheld part in threaded connection with the adjusting assembly, the handheld part is sleeved on the sliding part, a cutter is fixedly arranged at one end, facing the auxiliary assembly, of the sliding part, the end, facing away from the auxiliary assembly, of the sliding part is in threaded connection with the screwing part, and the handheld part is clamped between the screwing part and the sliding part;

the sliding part is provided with a threaded hole matched with the fixing screw.

Furthermore, the steering through hole is of a concave structure.

The utility model discloses a special restrictive coating of ADSS optical cable strips instrument has following advantage: the utility model is small, flexible, time-saving, labor-saving, durable, and convenient to use, and the inner core is not damaged;

this novel special restrictive coating of ADSS optical cable strips instrument will strip the time of four optical cable restrictive coatings and reduce to about 4 minutes by original 1 hour, improved accident and salvageed the ageing 56 minutes, played the positive effect to the quick recovery of power communication network, reduced the transformer substation system because of the long-time risk that leads to the electric wire netting paralysis of taking off the pipe, the economic and social benefit of production is huge.

Drawings

Fig. 1 is a diagram of a state of use of the special sheath layer stripping tool for ADSS optical cables of the present invention (in this diagram, the cutting edge of the tool nose is parallel to the end of the optical cable to be processed).

Fig. 2 is a second usage state diagram of the special sheath layer stripping tool for ADSS optical cable of the present invention.

Fig. 3 is a bottom view of the special sheath layer stripping tool for ADSS optical cable of the present invention.

Fig. 4 is the utility model discloses a shell body, adjusting part and the structural schematic diagram of work through-hole of special restrictive coating of ADSS optical cable stripping tool.

Fig. 5 is the utility model discloses a shell body, adjusting part and the structural schematic diagram of work through-hole that special restrictive coating of ADSS optical cable strips instrument two.

Fig. 6 is the utility model discloses a shell body, adjusting part and the structural schematic diagram of work through-hole of special restrictive coating of ADSS optical cable stripping tool are three.

Fig. 7 is the utility model discloses a wide auxiliary assembly's of special restrictive coating of ADSS optical cable stripping tool structural sketch.

Fig. 8 is the utility model discloses a special restrictive coating of ADSS optical cable strips width auxiliary assembly's of instrument split structure sketch map.

Fig. 9 is a schematic structural view of a narrow auxiliary assembly of the special sheath layer stripping tool for ADSS optical cable of the present invention.

Fig. 10 is a schematic structural view of a cutter assembly of the special sheath layer stripping tool for ADSS optical cables of the present invention.

Fig. 11 is a front view of a cutter assembly of the special sheath layer stripping tool for ADSS optical cable.

Fig. 12 is a sectional view in the direction a-a of fig. 9.

Fig. 13 is the utility model discloses a special restrictive coating of ADSS optical cable strips tool's cutter unit's split structure sketch map.

The notation in the figure is: 1. a housing body; 101. a horizontal portion; 102. a chute through hole; 103. a V-shaped portion; 2. an auxiliary component; 201. a wide auxiliary component; 2011. a fixed part; 2012. a fitting portion; 2013. pressing the roller; 202. a narrow auxiliary component; 3. a working through hole; 301. a first working through-hole; 302. a second working through hole; 4. an adjustment assembly; 5. a cutter assembly; 501. a knife tip; 502. a hand-held portion; 503. a sliding part; 504. a threaded hole; 505. a screwing part; 6. a steering through hole; 7. a set screw; 8. and (5) treating the optical cable.

Detailed Description

In order to better understand the purpose, structure and function of the present invention, the following figures are combined to further describe the special sheath layer stripping tool for ADSS optical cable.

As shown in fig. 1-13, the utility model discloses to the problem mentioned in the above-mentioned background art, develop a special restrictive coating of ADSS optical cable and strip the instrument, can strip in the polyethylene with crosscut and rip cutting mode, when the oversheath layer, observe the degree of depth that knife tip 501 was drawn into pending optical cable 8 through transparent shell body 1, the success strips the time with single pending optical cable 8's restrictive coating, shorten to 1 minute by original 15 minutes, consequently very big improvement optical cable accident and salvageed the ageing, quick recovery to the electric power communication net has played the positive role, the transformer substation system has been reduced because of the long-time risk that leads to the electric wire netting paralysis of taking off the pipe, the economic and social of production are huge.

Example 1:

a special sheath layer stripping tool for an ADSS optical cable comprises a shell body 1, wherein an auxiliary component 2 is arranged on one side of the shell body 1 in a sliding mode, and a working through hole 3 is formed in one side adjacent to the auxiliary component;

an adjusting component 4 is arranged on one side of the periphery of the working through hole 3, which is far away from the auxiliary component 2, a cutter component 5 is arranged in the adjusting component 4, and the cutter component 5 is matched with the adjusting component 4 to control the moving distance of the cutter component 5 in the horizontal direction, so that the optical cable 8 to be processed is clamped between the cutter component 5 and the auxiliary component 2;

a turning through hole 6 is formed in the side wall of the adjusting component 4, a fixing screw 7 penetrates through the turning through hole 6 and then is fixedly connected with one end of the cutter component 5, and the working direction of a cutter point 501 on the cutter component 5 can be controlled and fixed through the matching of the fixing screw 7 and the turning through hole 6;

the shell body 1 is made of transparent materials, when communication operation and maintenance personnel use the tool to strip the sheath layer of the optical cable 8 to be processed, the depth of the cutter point 501 penetrating into the optical cable can be observed through the transparent shell body 1 when the inner sheath layer and the outer sheath layer of the optical cable are stripped by a transverse cutting method and a longitudinal cutting method, the completeness of an inner fiber core after the sheath layer is stripped is ensured, and secondary reworking is avoided.

In the present embodiment, the tool assembly 5 includes a hand-held portion 502 in threaded connection with the adjustment assembly 4, the hand-held portion 502 is sleeved on a sliding portion 503, one end of the sliding portion 503 facing the auxiliary assembly 2 is detachably provided with a tool nose 501, one end of the sliding portion 503 facing away from the auxiliary assembly 2 is in threaded connection with a screwing portion 505, and the hand-held portion 502 is clamped between the screwing portion 505 and the sliding portion 503;

the sliding portion 503 is provided with a screw hole 504 to be engaged with the fixing screw 7.

In the present embodiment, the cutting edge 501 of the cutter unit 5 has a streamline structure, and is sharpened at most at both ends.

In this embodiment, one end of the cutter assembly 5 is connected with the adjusting assembly 4 by screw threads, the other end is provided with a cutter tip 501, and the cutter tip 501 passes through the working through hole 3 and then contacts with the optical cable 8 to be processed.

In the present embodiment, the steering through-hole 6 has a "concave" type structure.

Example 2:

the auxiliary assembly 2 comprises a wide auxiliary assembly 201 and a narrow auxiliary assembly 202 which are arranged on the shell body 1 in a sliding mode, and the working through hole 3 comprises a first working through hole 301 and a second working through hole 302 which are arranged on two sides of the shell body 1 respectively;

the optical cables 8 to be processed of different sizes are respectively sandwiched between the wide/narrow auxiliary members 201, 202 and the first/second working through holes 301, 302.

In the present embodiment, the housing body 1 includes a horizontal portion 101, a chute through hole 102 is formed on the horizontal portion 101, and the auxiliary assembly 2 is slidably disposed on the chute through hole 102;

a V-shaped part 103 is integrally formed at the end part of the horizontal part 101, the opening of the V-shaped part 103 is arranged towards the horizontal part 101, and a working through hole 3 is arranged at the corner of the V-shaped part 103;

the V-shaped portion 103 is made of a transparent material.

In the present embodiment, the wide auxiliary assembly 201 includes a fixing portion 2011, one end of the fixing portion 2011 is screwed with the fitting portion 2012, and the housing body 1 is clamped between the fixing portion 2011 and the fitting portion 2012;

one end of the matching part 2012 far away from the fixing part 2011 is rotatably provided with a pressing roller 2013, and an optical cable 8 to be processed is clamped between the pressing roller 2013 and the shell body 1;

when the inner and outer sheath layers of polyethylene need to be stripped from the optical cable 8 to be processed, the fixing portion 2011 is rotated to enable the fixing portion 2011 and the matching portion 2012 to release the clamping operation on the shell body 1, the wide auxiliary assembly 201 is moved, and the optical cable 8 to be processed is tightly clamped between the pressing roller 2013 and the shell body 1.

In the present embodiment, the narrow assist assembly 202 has the same structure as the wide assist assembly 201 except that the size of the pinch rollers 2013 is different.

In the present embodiment, the fixing portion 2011 and the fitting portion 2012 are provided with cushion washers on both sides in contact with the case body 1.

Example 3:

in order to reduce the requirements of new employees on working experience, the special sheath layer stripping tool is provided with the millimeter graduated disc on the adjusting assembly 4, meanwhile, the corresponding mark is arranged on the handheld part 502 of the cutter assembly 5, and the new employees can continuously and repeatedly work only by remembering the numerical values of the optical cables 8 to be processed of several common ADSS, so that the rush repair speed of the power optical cables is further improved.

The working principle is as follows:

(1) when the outer sheath layer of the optical cable is stripped, firstly, the wide auxiliary assembly 201 is moved to be matched with a groove on one side of the shell body 1 to clamp the optical cable 8 to be treated, then the cutter assembly 5 is rotated clockwise to enter the adjusting assembly 4, then the fixing screw 7 is in threaded connection with the cutter assembly 5, so that the fixing screw 7 is in close contact with the shell body 1, the screw is positioned at the top of one side of the concave part of the steering through hole 6, and the opening end of the tool nose 501 is kept parallel to the end part of the optical cable 8 to be treated;

when the cutter component 5 is rotated, the depth of the cutter point 501 penetrating into the optical cable 8 to be processed is controlled through observation of the transparent shell body 1, and finally the shell body 1 is held by hands and rotated for 360 degrees around the optical cable 8 to be processed, so that the cutter component 5 cuts off the outer sheath layer of the optical cable 8 to be processed at the position, namely a transverse cutting method;

(2) after the transverse cutting is finished, the cutter assembly 5 is anticlockwise rotated out of the adjusting assembly 4 until the fixing screw 7 moves to the bottom of the concave part of the steering through hole 6, and the cutter assembly 5 cannot be continuously away from the adjusting assembly 4 due to the limitation between the fixing screw 7 and the steering through hole 6;

at the moment, the fixing screw 7 is held by hand and moved along the turning direction until the fixing screw 7 is positioned at the top of the other side of the concave part of the turning through hole 6, and the opening end of the tool nose 501 is perpendicular to the end part of the optical cable 8 to be processed;

screwing the fixing screw 7, rotating the cutter assembly 5, simultaneously, observing through the transparent shell body 1, controlling the depth of the cutter point 501 penetrating into the optical cable 8 to be processed, finally holding the shell body 1 by a hand, moving the special sheath layer stripping tool along the length direction of the optical cable 8 to be processed, and linearly cutting the optical cable outer sheath layer along the length direction of the optical cable 8 to be processed by the cutter point 501, wherein the method is a longitudinal cutting method;

(3) after the aramid fibers are cut off by breaking the outer sheath layer of the optical cable 8 to be processed with hands, the auxiliary assembly 2 is used for clamping the inner sheath layer of the optical cable 8 to be processed by matching with the groove on one side of the shell body 1, and the inner sheath layer of the optical cable 8 to be processed is subjected to a transverse cutting method or a longitudinal cutting method by using the same method;

and finishing all the stripping procedures of the ADSS optical cable 8 to be treated.

The special sheath layer stripping tool for the ADSS optical cable can easily cut the inner sheath layer and the outer sheath layer of the optical cable with the diameter of 4-28mm through field actual measurement, compared with the traditional method for separating the sheath layer of the optical cable by a fine art knife a little by a little, the novel tool successfully strips the sheath layer of a single optical cable, and shortens the original 15 minutes to 1 minute, so that the emergency repair time of optical cable accidents is greatly improved.

When the conventional method for handling the damage of an optical cable line by external force is adopted, communication operation and maintenance personnel generally adopt a mode of replacing the damaged optical cable by a pole tower at intervals of 1-3 levels to handle the fault. In the process of emergency repair, the inner jacket layer and the outer jacket layer of 4 optical cables need to be stripped, and the whole work takes about 1 hour; after the novel tool is used, the work of stripping the inner and outer sheath layers of the 4 optical cables can be completed in only 4 minutes, the working efficiency is improved by 56 minutes, the rapid recovery of power communication faults is realized, and the danger of power grid paralysis caused by long-time pipe removal of a transformer substation system is reduced.

It is to be understood that the present invention has been described with reference to certain embodiments, and that various changes or equivalents may be substituted for elements thereof by those skilled in the art without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, the present invention is not limited to the specific embodiments disclosed herein, and all embodiments falling within the scope of the claims of the present application are intended to be covered by the present invention.

Claims (8)

1. A special sheath layer stripping tool for an ADSS optical cable comprises a shell body (1), and is characterized in that an auxiliary component (2) is arranged on one side of the shell body (1) in a sliding mode, and a working through hole (3) is formed in one side adjacent to the auxiliary component;

an adjusting component (4) is arranged on one side of the periphery of the working through hole (3) which is far away from the auxiliary component (2), a cutter component (5) is arranged in the adjusting component (4), the cutter component (5) is matched with the adjusting component (4) and used for controlling the moving distance of the cutter component (5) in the horizontal direction, and the optical cable (8) to be processed is clamped between the cutter component (5) and the auxiliary component (2);

a turning through hole (6) is formed in the side wall of the adjusting component (4), a fixing screw (7) penetrates through the turning through hole (6) and then is fixedly connected with one end of the cutter component (5), and the working direction of a cutter point (501) on the cutter component (5) can be controlled through the matching of the fixing screw (7) and the turning through hole (6);

the shell body (1) is made of transparent materials.

2. The tool for stripping the sheath layer special for ADSS optical cables according to claim 1, wherein the tip (501) of the cutter assembly (5) has a streamline structure, and both ends of the tip are sharpened at most.

3. The tool for stripping the sheath layer special for ADSS optical cables according to claim 1, wherein one end of the cutter assembly (5) is in threaded connection with the adjusting assembly (4), the other end is provided with a cutter tip (501), and the cutter tip (501) is in contact with the optical cable (8) to be processed after passing through the working through hole (3).

4. The tool for stripping the sheath layer special for ADSS cable according to claim 1, wherein the auxiliary assembly (2) includes a wide auxiliary assembly (201) and a narrow auxiliary assembly (202) slidably disposed on the case body (1);

the working through hole (3) comprises a first working through hole (301) and a second working through hole (302) which are respectively arranged at two sides of the shell body (1);

the cables (8) to be treated of different sizes are respectively clamped between the wide/narrow auxiliary members (201, 202) and the first/second working through holes (301, 302).

5. The tool for stripping the sheath layer special for ADSS optical cables according to claim 1, wherein the shell body (1) comprises a horizontal portion (101), a chute through hole (102) is formed in the horizontal portion (101), and the auxiliary assembly (2) is slidably arranged on the chute through hole (102);

the end part of the horizontal part (101) is integrally provided with a V-shaped part (103), the opening of the V-shaped part (103) is arranged towards the horizontal part (101), and the corner of the V-shaped part (103) is provided with a working through hole (3);

the V-shaped part (103) is made of transparent material.

6. The tool for stripping the sheath layer special for the ADSS optical cable according to claim 1, wherein the wide auxiliary assembly (201) comprises a fixing part (2011), one end of the fixing part (2011) is in threaded connection with the matching part (2012), and the shell body (1) is clamped between the fixing part (2011) and the matching part (2012);

one end, far away from the fixing portion (2011), of the matching portion (2012) is rotatably provided with a pressing roller (2013), and an optical cable (8) to be processed is clamped between the pressing roller (2013) and the shell body (1).

7. The tool for stripping the sheath layer special for the ADSS optical cable according to claim 1, wherein the cutter assembly (5) comprises a handheld portion (502) in threaded connection with the adjusting assembly (4), the handheld portion (502) is sleeved on a sliding portion (503), a tool nose (501) is detachably arranged at one end, facing the auxiliary assembly (2), of the sliding portion (503), a screwing portion (505) is in threaded connection with one end, facing away from the auxiliary assembly (2), of the sliding portion (503), and the handheld portion (502) is clamped between the screwing portion (505) and the sliding portion (503);

the sliding part (503) is provided with a threaded hole (504) matched with the fixing screw (7).

8. The tool for stripping the sheath layer special for ADSS optical cable according to claim 3, wherein the turning through hole (6) is a concave structure.

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