KR101826445B1 - Heating type fiber-optic cables peeling method and device - Google Patents

Abstract

The present invention relates to a method and a device for effectively stripping a waste optical cable to recycle a sheathing of the waste optical cable. The method comprises: transferring a cut optical cable by using a conveyor to automatically supply the optical cable after cutting the optical cable by regular length; heating the optical cable by using a heater to reduce the hardness of a sheathing by plasticity and to soften the sheathing; and grabbing the optical cable by using three pairs of tongs of a pair of fixing tongs and two pairs of stripping tongs at both sides in the end of the conveyor, and moving the two pairs of stripping tongs at both sides to be away from each other thereafter so as to enable the pair of stripping tongs to forcibly strip the softened sheathing of the optical cable.

Description

TECHNICAL FIELD [0001] The present invention relates to a heating type fiber-optic cable peeling method and device,

The present invention relates to a method and an apparatus for removing a casing of an optical fiber to be recycled for recycling, and more particularly, to a method and an apparatus for separating a jacket of a waste optical cable, To a molten metal removing method.

In general, an optical fiber cable is also referred to as an optical fiber cable, and has a circular cross section, and is surrounded by a core at the center, a clad outside the core, and a jacket. The core is an optical fiber made of very thin glass or plastic. The clad is a kevlar fiber for enduring a strong force around the glass fiber. The envelope is the outermost layer around the optical fiber bundle to prevent moisture, abrasion, It is mainly PE material.

As such shells can be recycled naturally, much research has been done on the apparatus and method for removing the shell from the cables.

Until now, however, the removal of optical cables and wires has been largely dependent on chemical methods or cutting methods using blades. These chemical methods have a disadvantage that they require a large amount of material cost, have human and environmental risks, and take a long time. In addition, the cutting method has a disadvantage in that it requires a lot of manpower because it requires a long time for maintenance and replacement of the blades due to abrasion of the blade due to abrasion and consecutive operation of the long optical cable.

Patent Registration No. 10-1039209 (Publication: June 03, 2011) Open Patent Publication No. 10-2016-0120580 (published October 18, 2016)

In view of the above problems, it is an object of the present invention to provide a method of removing a coating of an optical cable by using a harmful material, thereby relieving the concern about environmental pollution while safely and quickly peeling off, And it is intended to enable automation of stable peeling work without consuming time and cost for maintenance.

In order to accomplish the above object, the present invention provides a method of cutting an optical cable with a predetermined length, transporting a cut optical cable using a conveyor so as to be automatically supplied, heating the optical cable using a heater in the process of transporting the optical cable, The optical fiber cable in a state of softening the outer shell is fixed to the center fixed clamp and the peeling off clamps on both sides of the optical fiber cable so that the optical fiber cable is automatically peeled off at the end of the conveyor. The two tongue clips on both sides are moved away from each other in the opposite direction so that the tongue tongue forces the skin of the softened optical cable to be peeled off.

According to the present invention as described above, since it is a forced degassing method by heating, there is less concern about environmental pollution and the loss of the coating is minimized, and the peeling work can be performed at a low cost by a simple constitution and the time and cost It is possible to save.

In addition, since the molten metal can be continuously removed by the molten metal removing unit while continuously supplying the optical cable, it is a useful invention that enables a very quick and efficient production.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
Fig. 2 is a detailed view of the state of the optical cable transporting state according to the present invention
3 is a side view of the skin of the present invention
4 is a front view of the skin of the present invention
Fig. 5 is a frontal state diagram of the molar gripper of the present invention
6 is a detailed view of the grip of the present invention
Fig. 7 is a side view showing the state
Fig. 8 is a graph showing an operational state of the open /

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

The molting method of the present invention will be described in order.

Cut the optical cable to a certain length.

And the cut optical cable is conveyed using a conveyor so that it can be supplied automatically.

The optical cable is heated by using a heater in the course of feeding the optical cable, so that the hardness is lowered and softened by plasticity.

The cutting device is constructed at the end of the conveyor so that the molten metal is automatically softened. Three soft grippers such as a fixed clamp at the center and a molar gripper at both sides of the optical cable are softened. So that the molten tongue is forcibly peeled off the outer surface of the softened optical cable.

It is more efficient to arrange a plurality of the fixed clamps and the molting tongs in a circular shape and then rotate the clamping and opening operation while rotating so that the peeling operation is continuously performed.

The removal apparatus of the present invention will be described.

The conveyor 1 is installed at one side of the conveying apparatus 1 and the optical cable C cut to a predetermined length is seated and conveyed toward the separating apparatus unit 10. The lengthwise direction of the optical cable C is conveyed to the conveyor 1, As shown in Fig.

A heater 2 is installed on the upper part of the conveyor 1 so that the optical cable C passing under the heater 2 is heated.

The upper portion of the conveyor 1 is provided with a press belt 3 which is elastically received in the direction of the lower conveyor 1 and is pressed against the optical cable C passing under the conveyor 1, ) Was allowed to rotate evenly during the movement.

The optical cable C moved to the end of the conveyor 1 is moved away from the conveyor 1 to enter the removing apparatus unit 10. The removing apparatus unit 10 is disposed around the central drum 20 A plurality of fixed clamps 30 and molting tongues 30 'are arranged in a rotating manner.

A plurality of guide rods 11 are installed at a position spaced apart from the center of the drum 20 by a predetermined distance so that the guide rods 11 are positioned around the drum 20 And three guide pins are installed in the respective guide rods 11, and a fixing pin 30 is provided at the center and a pinching pin 30 'is installed at both sides of the pin.

The fixing tongue 30 and the tongue removing tongue 30 'are arranged symmetrically with respect to the pincer 32 having an arc-shaped engaging portion 31 of a size smaller than the diameter of the optical cable C, A slanting hole 34 is formed at the rear end of each of the claws 32 so as to intersect with each other to form a long hole 34 The operation pin 35 at the tip of the working rod 33 is inserted into the operating rod 33 so that the claw 32 is engaged and opened by the forward and backward movement of the working rod 33.

A support block 36 is installed on the side surface of the operation rod 33 so as to be extensively inserted into the guide rod 11 so that the support block 36 and the tongs can be moved along the guide rod 11, One support pin 37 is supported by the support block 36 so as to be the center of operation. A tension spring 38 is installed between the two claws 32 and a compression spring 39 is installed on the working rod 33 so that the claw 32 in a widened state can strengthen the bite action. A ball 33 'is provided at the lower end of the operating rod 33 in preparation for friction with the drum 20.

The drum 20 is provided with a structure for operating the fixed clamp 30 and the peeling clamp 30 'and is provided with a protruding portion 21 (see FIG. 1) from a lower end of the drum 20 to a position slightly higher than a position close to the conveyor 1 And when the lower end ball 33 'of the working rod 33 of the releasing forceps 30' passes tightly through the protruding portion 21, the working rod 33 is pushed to be pinched 32 are opened and when the remainder is passed, the operating rod 33 is moved backward so that the claw 32 engages with the force of the compression spring 38 and the tension spring 39.

The drum 20 is provided with a guide rail 22 for symmetrically moving the guide rails 22 for moving the both side lift pins 30 '. The guide rail 22 is positioned at the center at the position where the projections 21 are formed, The guide rails 22 are gradually extended toward both ends of the drum 20 from the point where the fixed clamp 30 and the peeling clamp 30 'start to pick up the optical cable C The molten tongue 30 'picks up the optical cable (C) and spreads to both sides of the tongue tongue (30'), and then collects it again. The center fixed clamp 30 does not move but repeats only the bite and open operation at the same time as the molting tongue 30 '.

A guide plate 4 is provided between the end of the conveyor 1 and the peeling apparatus 10 so that the optical cable C can be easily introduced into the fixing tongue 30 and the peeling tongue 30 ' The opening and closing plate 6 for controlling the entrance of the optical cable C is constituted while being close to or spaced from the guide plate 4 while being bent by the action of the cylinder 5 so that only one optical cable C is fixed to one position (30) and the molten tongue (30 ').

In the figure, reference numeral 8 denotes an optical cable cutting device.

Hereinafter, the operation of the present invention will be described in order.

When the optical cable (C) cut to a predetermined length is placed on the conveyor (1), it is heated by the heater (2) while being moved by the conveyor. Since the optical cable (C) is pressed by the press belt (3) in the process of movement, the optical cable (C) moves while being rotated, and the whole is heated evenly.

And is introduced into the forceps through the guide plate 4 while being heated and softened. In this process, the opening / closing plate 6 is opened in accordance with the conveyance speed of the forceps, so that only one optical cable is introduced.

The fixing tongue 30 and the tongue removing tongue 30 'are initially assembled in the center with the nippers 32 being open. When the optical cable C is inflowed, the tongue tongue 30' When the ball 33 'of the operating rod 33 is moved out of the projection 21, the compression spring 39 expands and the tension spring 38 ) Is contracted, the claw 32 is dislocated. Therefore, the engaging portion 31 inside the claw 32 strongly attracts the optical cable.

In this state, the molten tongue 30 'moves along the guide rail 22 formed on the outer surface of the drum 20, and moves along the position where the guide rail 22 described above is formed. The tongue 30 'is opened from the center and the outer surface J of the heated optical cable C is squeezed in the process of being opened.

When the removing tongue 30 'further rotates in the state where the outer skin is peeled off, the action of collecting the centering point again by the guide rail 22 starts. At this time, the ball 33' of the working rod 33 moves up the projection 21 The operating rod 33 is pushed in, and the claw 32 is opened like the initial position. Accordingly, the core material C 'of the optical cable C falls down. In this process, the compression spring 39 is compressed and the tension spring 38 is expanded.

1: Conveyor
2: Heater
3: Press belt
4: guide plate
5: Cylinder
6: opening and closing plate
10:
11: guide rod
20: Drums
21:
22: Guide rail
30: Fixed forceps
31:
32: Nipples
33: Working rod
33 ': Ball
34: Long hole
35: Operation pin
36: Support block
37: Support plate
38: Tension spring
39: Compression spring

Claims (3)

After the optical cable is cut to a certain length, the cut optical cable is conveyed using a conveyor to enable automatic supply,
The optical fiber is heated by using a heater in the course of feeding the optical cable, so that the hardness is lowered and softened by the plasticity of the outer skin,
The optical fiber cable with the softened outer shell is sandwiched between the central fixed clamp and the peel off clamps on both sides of the optical cable so that the peeling off device is automatically formed at the end of the conveyor. So that the molten tongue is forcibly peeled off the outer surface of the softened optical cable. The method according to claim 1, wherein a plurality of the fixed clamps and the molten tongue are arranged in a circular shape, and the molten and opened operation is performed while rotating so that the molten work is continuously carried out. A conveyor 1 is installed on one side, and an optical cable C cut to a predetermined length is seated and transported toward the stripper unit 10,
A heater 2 is installed on the upper part of the conveyor 1 so that the optical cable C passing under the heater 2 is heated,
A plurality of guide rods 11 are installed around the drum 20 at the center of the stripping apparatus unit 10 formed at the end of the conveyor 1 at a position spaced from the center of the drum 20 by a predetermined distance, The drum type washing machine according to the present invention is characterized in that the drum type washing machine according to the present invention is constructed such that the drum type washing machine is rotated about the drum 20, And,
The fixing tongs are operated to pick up and release the optical cable at the center, and the two tong clips move the optical cable in the opposite direction while the optical cable is being picked up or released, thereby separating the softened cloth J Wherein the heating device is a heating device.

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