KR101656023B1 - Stripping device for cable coating - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cable sheathing apparatus, and more particularly, to a cable sheathing apparatus for automatically releasing a sheath of a cable while controlling the length of the sheath section by varying the length .

Description

STRIPPING DEVICE FOR CABLE COATING [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cable sheathing apparatus, and more particularly, to a cable sheathing apparatus for automatically releasing a sheath of a cable while controlling the length of the sheath section by varying the length .

Generally, a cable has a structure in which an electric wire is enclosed in an insulative cover, and is connected to a desired point through a connector to constitute a communication line or a power line.

In order to connect such a cable with a connector or the like, a skin removing process for forming an insulating portion must be performed. The skin removing process is usually performed manually by a human.

Conventional work of removing the insulating portion of the cable through manual work is performed by a skilled worker using a dissecting tool such as a knife, a scissors, a pliers, a nipper, etc. to cut the outer surface of the cable, .

However, since cables are treated with a large amount of water, if the process of removing the skin is dependent on the manpower, excessive labor expenses are incurred, the working time is delayed and the working efficiency is lowered. There are frequent problems.

In addition, defects such as twisting or cutting of the conductor inside the cable occur due to manual operation, and also there is a problem that it is difficult to obtain a good quality cable because the length of the stripping section of the insulating portion is uneven.

Korean Patent Publication No. 10-2015-142799 (December 23, 2015)

SUMMARY OF THE INVENTION The present invention has been devised to solve the problems described above, and it is an object of the present invention to provide a cable for automatically releasing a covering of a cable, a cable for controlling the length of the covering section, And to provide a clothes-removing apparatus.

The problems to be solved by the present invention are not limited to those mentioned above, and other solutions not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a portable terminal comprising: a seating part in which a cable supplied from the outside is seated in a rear end direction from a front end; A cover skin removing the covering of the cable from the front end portion to the rear end portion by a predetermined length; And a conveying unit located at a rear side of the seating unit, for conveying the cable to the cover removing unit.

The seat according to the present invention includes: a stopper for stopping the forward movement of the cable in contact with the front end of the cable in response to external pressure; A lower frame positioned at the rear of the stopper and guiding the lower portion of the cable to advance forward; The upper frame is positioned above the lower frame. The cable is pressed by the lower frame to prevent the cable from proceeding. When the cable is depressed and released, ; First elevating means for elevating and lowering the upper frame; And a second elevating means for blocking the front portion of the lower frame and blocking the progress of the cable introduced from the outside or blocking the front portion of the lower frame to allow the cable to proceed, Wherein the cable is transferred to the cover removing unit in a state in which the lower frame and the stopper are released and released in response to the driving of the first and second lifting units.

In addition, a sensing sensor, which is provided on the stopper, senses the cable. And a control unit for controlling the first and second elevating means, the conveying unit and the cover removing unit, wherein the control unit controls the first and second lifting and lowering units So that the transporting unit is stopped and the transporting unit is stopped when a predetermined covering length is transferred from the front end of the cable to the rear end of the cable so that the transporting unit is stopped, So that the cable is bound to the upper and lower frames, and the cover is released from the cable by driving the cover removal portion.

The transfer unit according to the present invention includes: an upper and a lower transfer assembly which are positioned at the rear of the seat portion and are disposed at upper and lower portions around the cable; Third elevating means for transferring the upper and lower transfer assemblies in opposite directions to come into contact with the cable, or to transfer the upper and lower transfer assemblies in opposite directions to be separated from the cable; And an upper motor and a lower motor for transmitting rotational force to the upper and lower transfer assemblies, wherein the third elevating means is configured such that the upper and lower transfer assemblies are separated from the cable and the cable is seated on the seat And the upper and lower transfer assemblies allow the cable to be transferred forward from the state in which the upper and lower transfer assemblies are in contact with the cable in accordance with the driving of the upper and lower motors, .

The cover removing unit according to the present invention includes: a body positioned in front of the seat portion and having a hollow through which the front end of the cable is inserted in the front and rear direction; Backward transport means for transporting the body in the longitudinal direction; And a cover cutting means located at the rear of the body for pressing the periphery of the cable to cut the cover, wherein the cover cutting means is moved forward with the body along with the driving of the front and rear conveying means, And then removing the coated cloth from the cable.

The cover cutting means according to the present invention includes upper and lower cutting blades which are connected to the rear portion of the body so as to be movable upward and downward and press the periphery of the cable to cut the cover from the cable, Cutting frame; And the upper and lower cutting frames are transported in opposite directions so that the upper and lower cutting blades press the cable to cut the covering from the cable or the upper and lower cutting frames are transported in the opposite directions opposite to each other, And a fourth elevating means for releasing the second elevating means.

The cover cutting means according to the present invention further comprises upper and lower pressing members which are located in front of the upper and lower cutting edges and which press and grasp or release the cable in accordance with the driving of the fourth elevating means And the upper and lower pressing members are configured to peel off the sheathed cloth from the cable as the body is forwardly transported by the driving of the front and rear transport means while the cable is held under pressure.

The apparatus may further include support means for horizontally supporting the cable that is drawn in the hollow.

And a guide tube having front and rear ends opened and a rear end thereof inserted into the hollow from the front of the body.

The supporting means according to the present invention may further include a binding means for binding the guide tube to the body, wherein the body is formed with a single or a plurality of binding holes communicating with the hollow, .

According to the present invention, not only the cable can be automatically lifted, but also the length of the covering section can be variably controlled according to the application in which the cable is used and the like.

The effects of the present invention are not limited to those mentioned above, and other solutions not mentioned may be clearly understood by those skilled in the art from the following description.

1 is a side view of a cable sheathing apparatus according to the present invention.
Fig. 2 is a plan view showing a seat part, a skin removing part and a conveying part in Fig. 1;
FIG. 3 is a rear view showing a transfer unit in the cable sheathing apparatus according to the present invention. FIG.
4 is a side view showing a seat part, a skin removing part and a conveying part in a cable covering removing device according to the present invention.
FIG. 5 is a rear view showing a covering removing portion in the cable covering removing apparatus according to the present invention. FIG.
FIG. 6 is a perspective view showing a cover removing portion in the cable covering removing apparatus according to the present invention. FIG.
7 is a use state view showing a cable jacketing apparatus according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 7, a cable sheathing apparatus 1 according to the present invention includes a seat portion 10 to which a cable 100 supplied from the outside is seated in a rear end direction from a front end portion, (20) for transferring the cable (100) from the front end portion to the rear end portion and for transferring the cable (100) to the covering skins (20) (30).

The cable jacket removing apparatus 1 may further include a support portion 40 for supporting the seating portion 10, the covering skins 20 and the conveying portion 30.

The conveying part 30 is located behind the seating part 10 and the covering skins 20 are disposed on the supporting part 40 so as to be positioned in front of the seating part 10.

Here, it is preferable that the front-back direction of the cable cladding apparatus 1 is understood based on the traveling direction of the cable 100.

The cable 100 has a general shape having front and rear ends and a cover, and is transported by hand by hand or the like, and is seated in the seating part 10. [

At this time, the cable 100 is transferred to the covering skins 20 according to the driving of the conveying unit 30 while the front end of the cable 100 is seated on the seating unit 10 with the front end facing forward.

The mounting portion 10 includes a stopper 11 for stopping forward movement of the cable 100 when the front end of the cable 100 is transported by artificially transporting, A lower frame 12 on which a lower portion of the lower frame 12 is accommodated in a longitudinal direction and a lower groove 12a in which a lower portion of the lower frame 12 is received in a longitudinal direction; An upper frame 13 for stopping the movement of the cable 100 and a first elevating means 14 for moving the upper frame 13 up and down.

The lower groove 12a allows the lower portion of the cable 100 to be horizontally received while being accommodated in the longitudinal direction, while allowing the lower portion of the cable 100 to proceed to the covering skins 20 while maintaining the horizontal.

The seating part 10 further includes second elevating means 15 for moving the stopper 11 up and down.

The first and second elevating means 14 and 15 are preferably made of a pneumatic cylinder of a general type.

The upper frame 13 pushes the cable 100 to the lower frame 12 to prevent the cable 100 from proceeding or to release the cable 100 by lifting the cable 100 So that the cable 100 is advanced.

The stopper 11 cuts off the front portion of the lower frame 12 in accordance with the driving of the tongue second elevating means 15 and blocks the progress of the cable 100 flowing from the outside, So that the cable 100 can be moved forward.

The cable jacket lifting device 1 includes a sensing sensor 40 provided on the stopper 11 and sensing the cable 100 and a second sensing means 40 for sensing the cable 100, 14 and 15 are driven to descend.

That is, the cable 100 is drawn into the seating part 10 by artificially conveying the worker, and when the front end contacts the stopper 11, the forward movement of the cable 100 is blocked.

The sensing sensor 40 senses this and controls the first and second elevating means 14 and 15 to be driven downward under the control of the controller 60.

The cable 100 is bound so as not to be detached from the seating portion 10 due to the pressing of the upper frame 13 in accordance with the downward driving of the first elevating means 14, (20) in accordance with the driving of the conveying unit (30) while keeping the conveying unit (15) in a horizontal direction.

The control unit 60 causes the first lifting unit 14 to be lifted and lowered at the same time as the transport unit 30 is driven so that the cable 100 is lifted up and down by the transporting unit 30, . ≪ / RTI >

The conveying unit 30 is positioned behind the seating unit 10 so that the cable 100 seated on the seating unit 10 can be advanced to the covering skins 20 upon driving.

The transfer unit 30 is disposed at the rear of the seat 10 and is disposed at the upper and lower sides of the cable 100 so as to move the upper and lower transfer assemblies The third elevating means 33 for pressing or releasing the cable 100 by moving the upper and lower conveying assemblies 31 and 32 in opposite directions or moving them in the opposite directions opposite to each other, And upper and lower motors 34 and 35 for transmitting rotational force to the upper and lower transfer assemblies 31 and 32.

The upper and lower transport assemblies 31 and 32 include a plurality of pulleys 31a and 32a and conveyance belts 31b and 32b coupled to the plurality of pulleys 31a and 32a.

Since the upper and lower transport assemblies 31 and 32 are formed in a known general shape, a detailed description thereof will be omitted.

As the upper and lower transport assemblies 31 and 32 are moved in the direction opposite to each other by the driving of the third lifting means 33, the transport belts 31b and 32b are in contact with the cable 100, And is spaced apart from the cable 100 by driving.

The upper motor 34 transmits rotational force to the upper transfer assembly 31 in a rearward direction and the lower motor 35 transmits rotational force to the lower transfer assembly 32 in a forward direction, So that the cable 100 positioned between the assemblies 31 and 32 can advance in the forward direction.

The third elevating means 33 is preferably composed of a pneumatic cylinder of a general type and is formed as a pair so that the upper and lower conveying assemblies 31 and 32 are simultaneously raised and lowered in the opposite direction or in opposite directions do.

The controller 60 controls the upper and lower motors 34 and 35 and the third elevating means 33 to prevent the cable 100 from being driven until the cable 100 is seated on the seat 10 .

When the cable 100 is seated in the seating part 10, the controller 60 drives the third elevating unit 33 so that the upper and lower conveying assemblies 31 and 32 move the cable 100 The upper and lower motors 34 and 35 are driven to drive the upper and lower transport assemblies 31 and 32 so that the cable 100 contacts the skin 20 So that it can proceed.

When the upper and lower transport assemblies 31 and 32 are brought into contact with the cable 100 in accordance with the driving of the third lifting unit 33, The upper frame 13 is moved up and down according to the control of the controller 60 so that the cable 100 can smoothly proceed.

The covering skins 20 include a body 21 positioned in front of the seat 10 and having a hollow 21a penetrating in the front and rear direction so that the front end of the cable 100 is drawn in, And a cover cutting means 23 located behind the body 21 for pressing the periphery of the cable 100 to cut the cover.

The front and rear conveying means 22 includes a ball screw 24, a drive motor 25 for transmitting a rotational force to the ball screw 24, and the body 21 to the ball screw 23, And a guide member 26 which is moved in the longitudinal direction along the longitudinal direction of the ball screw 24 by driving of the motor 25.

The cover cutting means 23 is movably connected to the rear portion of the body 21 so as to be located behind the rear end of the hollow 21a and includes upper and lower cutting edges 27a and 28a And a fourth elevating means 29 for raising and lowering the upper and lower cutting frames 27 and 28 and the upper and lower cutting frames 27 and 28. [

The fourth elevating means 29 is preferably composed of a pneumatic cylinder of a general type and is constituted by a pair so that the upper and lower cutting frames 27 and 28 are simultaneously raised or lowered in opposite directions or opposite directions do.

The upper and lower cutting edges 27a and 28a are disposed on upper and lower sides with respect to the hollow 21a and the upper and lower cutting frames 27 and 28 are driven by the fourth elevating means 29, And presses the circumference of the cable 100 to cut the covering from the cable 100. [

The upper cutting edge 27a cuts an upper portion of the cover from the cable 100 while the upper cutting edge 27a has a semicircular shape recessed upward and the lower cutting edge 28a has a semicircular shape that is recessed downward, 100). ≪ / RTI >

The upper and lower cutting edges 27a and 28a are preferably staggered in the longitudinal direction so as to cut the upper and lower portions of the covering from the cable 100.

Accordingly, the cable 100 can be cut into a predetermined length from the front end toward the rear end.

The upper and lower cutting frames 27 and 28 are located in front of the upper and lower cutting edges 27a and 28a and press the cable 100 according to the driving of the fourth elevating means 29, It is preferable to further include upper and lower pressing members 27b and 28b for releasing the pressure.

Upper and lower inlet grooves 27c and 28c are formed in the upper and lower pressing members 27b and 28b to receive the cable 100. The upper and lower inlet grooves 27c and 28c are semicircular Is most preferable.

The upper and lower pressing members 27b and 28b press and grip the cable 100 while being lifted or lowered in a direction opposite to the pressing direction of the fourth lifting means 29.

The cable sheathing removing apparatus 1 is configured such that the body 21 is moved forwardly by driving the front and rear conveying means 22 in a state in which the upper and lower pressing members 27b and 28b press the cable 100, So that the cut cloth is removed from the cable 100.

The control unit 60 controls the first and second lifting units 14 to move down by the upper and lower frames 12 and 13 when a certain length of the cable 100 is drawn into the covering skins 20, So that the rear end of the cloth to be cut at the cloth removal skin 20 can be pressed and bound.

When the upper and lower frames 12 and 13 are bound to the cable 100, the control unit 60 drives the fourth elevating means 29 to move the upper and lower cutting frames 27, 28 are moved in opposite directions, the cover of the cable 100 can be cut by the upper and lower cutting edges 27a, 28a.

The controller 60 cuts the cover of the cable 100 and presses the cable 100 against the upper and lower pressing members 27b and 28b so that the front and rear conveying means 22 are moved in the forward direction So that the cut cloth moves forward with the body 21 to be released from the cable 100.

The cover is released from the cable 100 and the front and rear conveying means 22 are moved backward so that the body 21 is returned to the win position.

The fourth elevating means 29 is driven to move in the direction opposite to the direction in which the upper and lower cutting frames 27 and 28 are opposed to each other and the third elevating means 33 is elevated and lowered and the first elevating means 14 are driven to move in the opposite direction to the direction in which the upper and lower transport assemblies 31, 32 are opposed, and the second elevating means 15 is driven to ascend and descend.

Accordingly, the cable sheathing removing apparatus 1 can extend the length of the covering section through the same operation of the cable 100 in a state in which the covering is removed, and can continue the covering operation for other cables have.

The cable sheathing apparatus 1 may further include support means 70 for horizontally supporting the cable 100 drawn into the hollow 21a.

The supporting means 70 includes a guide tube 71 whose front and rear ends are opened and a rear end thereof is drawn into the hollow 21a from the front of the body 21. [

The supporting means 71 further includes a coupling 72 such as a screw or a bolt for coupling the guide tube 71 to the body 21. The body 21 has the hollow 21a, And a single or a plurality of binding holes 21b in which the binding holes 72 are screwed are formed.

The binding port 72 presses or releases the guide pipe 71 while being pulled into the hollow 21a or pulled out from the hollow 21a in accordance with the rotation of the clamping or unwinding.

Accordingly, the cable sheathing apparatus 1 can variably adjust the length of the sheath portion to be separated from the cable 100 while stably supporting the cable 100 in a horizontal state.

It is to be understood that the present invention is not limited to the above-described embodiments, but may be modified and changed without departing from the spirit and scope of the present invention as defined in the appended claims. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

1: cable sheathing apparatus 10:
11: stopper 12: lower frame
12a: Lower groove 13: Upper frame
14: first elevating means 15: second elevating means
20: skin removal 21: body
21a: hollow 21b: joint ball
22: forward / backward conveying means 23: cutting means
24: ball screw 25: drive motor
26: guide member 27: upper cutting frame
27a: upper cutting edge 27b: upper pressing member
27c: upper inlet groove 28: lower cutting frame
28a: lower cutting edge 28b: lower pressing member
28c: lower inlet groove 29: fourth elevating means
30: transfer part 31: upper transfer assembly
32: Lower conveying assembly 33: Third elevating means
34: upper motor 35: lower motor
40: support part 50: detection sensor
60: control unit 70: support means
71: guide tube 72:
100: Cable

Claims (10)

A seating portion in which a cable supplied from the outside is seated from the front end portion toward the rear end portion;
A cover skin removing the covering of the cable from the front end portion to the rear end portion by a predetermined length; And
And a conveying portion located behind the seating portion and conveying the cable to the cover removing portion,
The seat (1)
A stopper for stopping the forward movement of the cable in contact with the front end of the cable in response to external pressure;
A lower frame positioned at the rear of the stopper and guiding the lower portion of the cable to advance forward;
The upper frame is positioned above the lower frame. The cable is pressed by the lower frame to prevent the cable from proceeding. When the cable is depressed and released, ;
First elevating means for elevating and lowering the upper frame; And
And a second elevating means for blocking the front portion of the lower frame to block the progress of the cable introduced from the outside or to unblock the front portion of the lower frame to allow the cable to proceed,
The transfer unit
And the cable is transferred to the cover removing unit in a state in which the lower frame and the stopper are released in pressure and unblocked by the driving of the first and second lifting means. delete The method according to claim 1,
A sensing sensor provided on the stopper for sensing the cable; And
Further comprising a control unit for controlling the first and second elevating means, the conveying unit, and the cover removing unit,
Wherein,
Wherein the control unit controls the first and second lifting units to move the cable so that the transport unit is driven according to a detection signal of the detection sensor,
When the predetermined covering length is transferred from the front end portion of the cable to the rear end portion of the cable, the transporting portion is stopped and the cable is bound to the cable in the upper and lower frames by driving the first lifting means And the cover is detached from the cable by driving the cover removing unit. The method according to claim 1,
The transfer unit
An upper and a lower transport assembly positioned at the rear of the seating portion and disposed at upper and lower portions around the cable;
Third elevating means for transferring the upper and lower transfer assemblies in opposite directions to come into contact with the cable, or to transfer the upper and lower transfer assemblies in opposite directions to be separated from the cable; And
And upper and lower motors for transmitting rotational force to the upper and lower transfer assemblies,
The third elevating means includes:
The upper and lower transport assemblies are brought into contact with the cable by driving as the cable is seated on the seat from the state where the upper and lower transport assemblies are separated from the cable,
The upper and lower transfer assemblies include:
And the cable is transferred forward from the state in which it is in contact with the cable in accordance with the driving of the upper and lower motors. The method according to claim 1,
The cover-
A body positioned in front of the seat portion and having a hollow through which the front end portion of the cable is inserted in the front and rear direction;
Backward transport means for transporting the body in the longitudinal direction; And
A cover cutting means located behind the body and pressing the circumference of the cable to cut the cover,
Wherein the coating-
Wherein the cable is removed from the cable while being transported forward with the body along with the driving of the forward and backward transporting means. 6. The method of claim 5,
Wherein the coating-
An upper and a lower cutting frame connected to the rear portion of the body so as to be movable up and down and including upper and lower cutting blades for pressing the periphery of the cable to cut the cover from the cable; And
The upper and lower cutting frames are transported in the opposite directions so that the upper and lower cutting blades press the cable to cut the cover from the cable or the upper and lower cutting frames are transported in the opposite directions opposite to each other, And a fourth elevating means for releasing the cable sheathing means. The method according to claim 6,
Wherein the coating-
Further comprising upper and lower pressing members which are positioned in front of the upper and lower cutting edges and which press and grasp or release the cable in accordance with the driving of the fourth elevating means,
Wherein the upper and lower pressing members
Wherein the cable is peeled off from the cable as the body is forwardly transported by driving the front and rear conveying means while the cable is held under pressure. 6. The method of claim 5,
Further comprising support means for horizontally supporting said cable in said hollow. 9. The method of claim 8,
Wherein the front and rear ends are opened and a rear end thereof is inserted into the hollow from the front of the body. 10. The method of claim 9,
Wherein the support means comprises:
Further comprising a binding means for binding the guide tube to the body,
In the body,
And a single or a plurality of binding holes communicating with the hollow, wherein the binding holes are screwed, are formed.

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