KR20170058495A - separation system for optical fiber cable - Google Patents

Abstract

The present invention relates to a sheath separation system for an optical fiber cable. The sheath separation system comprises an incision device, a heating device, a separating device, a winding device, and a cutting device. The cutting device includes a first insertion shaft which is rotated by a chain so as to be in contact with and inserted into an outer sheath, a second insertion shaft formed in the lower part of the first insertion shaft and freely rotatable, a cutting shaft formed on the rear surface of the first insertion shaft and transmitting a rotational force, a cutting blade rotatably coupled to the cutting shaft and formed in the cutting shaft direction so as to cut the outer sheath of the optical cable, and a conveyor part for moving the outer sheath cut by the cutting blade. So, it is possible to recycle resources by separating the metal shield and the outer sheath of the optical cable.

Description

Separation system for optical fiber cable

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an optical cable covering / separating system, and more particularly, to an optical cable covering / separating system for separating an outer covering of a waste optical cable and a metal shield so as to be recyclable.

Generally, optical fiber refers to a thin metal fiber coated with a metal shield and a cloth for optical communication, which is a communication method of transmitting electrical signals by changing light signals into strong light and weak light.

As shown in Fig. 1, the structure of the optical cable includes an outer cover formed to mitigate an external impact by being exposed to the outside, a metal shield which is in close contact with the inside of the outer cover to shield the electromagnetic wave and protect the optical fiber, And an optical fiber for transmitting an electric signal.

These fiber optic cables are lighter and thinner than coaxial cables and do not take up much space, but they are 10 billion times wider in bandwidth than copper wires they used in the past.

In addition, the transmission speed is very fast, and the transmission error is only 1/10 billion, so it is frequently used in the field of data transmission requiring high-speed data transmission and high reliability. The transmission loss is very low, the lifetime is semi-permanent, Therefore, there is an advantage that the network security is high without receiving the electric interference, and the coaxial cable is being replaced with the optical cable.

However, unlike the coaxial cable, the optical fiber cable has a metal shield, which makes it difficult to recycle the optical fiber cable.

Korean Patent Laid-Open Publication No. 10-2012-0067857 for solving such a problem relates to a method and apparatus for peeling off a cover of a cable, in which a cable is guided and guided by a guide roller, A thermal expansion region for guiding the flaring of the cover in a state in which a curved line is formed on the cover by the blade of the blade holder portion and a thermal expansion region for passing through the thermal expansion region And removing the covering member of the recovered recovered wire in which the guide tube for guiding the cable to be automatically separated into the electric wire and the cover body is formed.

However, the above-described conventional technology has a problem in that it is difficult to store and transport the separated optical cable since the shell of the separated optical cable is long and occupies a large volume.

Korean Patent Publication No. 10-2012-0067857

An object of the present invention is to provide an optical fiber covering and separating system capable of separating an outer cover of an optical cable and a metal shield to recycle resources.

It is another object of the present invention to provide an optical cable covering / separating system for easily cutting and storing an outer cover, an inner cover and a metal shield of a separated optical cable.

It is another object of the present invention to provide an optical fiber covering / separating system which can cut an outer covering according to the diameter of an incoming optical cable, thereby reducing a preparation time.

In order to solve the above-described problems, an optical fiber covering and separating system of the present invention comprises a cutting device, a heating device, a separating device, a winding device, and a cutting device. The cutting device is rotated through a chain A first withdrawal shaft, a second withdrawal shaft formed at the bottom of the first withdrawing shaft and freely rotatable, a cutting shaft located at the rear surface of the first withdrawing shaft and configured to transmit a rotational force, And a conveyor portion for moving the outer cover cut by the cutting blade. The present invention relates to an optical fiber cable,

Further, the cutting device of the optical cable covering and separating system of the present invention may further include a gap adjusting block formed at both ends of the first receiving shaft so as to be vertically raised or lowered, Up or down.

Further, the cutting device of the optical cable covering / separating system of the present invention is characterized in that when the first pulling-in shaft is lifted by the gap adjusting block, it is compressed by the tensile force of the chain, And further comprising:

In addition, the first pulling-in shaft and the cutting shaft of the cutting device of the optical-fiber covering and separating system of the present invention can rotate at different speeds so that the first pulling-in shaft is faster or slower than the rotating speed of the cutting shaft, .

The conveyor portion of the cutting device of the optical cable covering and separating system of the present invention is characterized in that a "V" shaped protrusion is formed so that the cut optical cable does not flow down.

In addition, the cut-away shaft of the cutting device of the optical fiber covering and separating system of the present invention is characterized in that the inertial wheel is larger in diameter and heavier than the cutting shaft so that the rotational speed can be maintained uniformly.

As described above, according to the optical fiber covering and separating system of the present invention, the outer covering of the optical cable and the metal shield can be separated from each other, and resources can be recycled.

According to the optical fiber covering and separating system of the present invention, the outer cover, the inner cover, and the metal shield of the optical cable that has been completely separated can be finely cut to facilitate collection and storage.

According to the optical fiber covering / separating system of the present invention, since the outer covering can be cut according to the diameter of the optical cable, it is possible to reduce the preparation time.

1 is a perspective view showing a structure of a general optical cable;
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an optical fiber-
3 is a perspective view briefly showing a configuration of a cutting apparatus of an optical cable covering / separating system according to the present invention.
4 is a front view of the pressure roller of the incision apparatus of the optical cable covering / separating system according to the present invention when viewed from the front.
5 is a perspective view showing a heating apparatus for heating to separate a covering of an optical cable covering / separating system according to the present invention.
6 is a perspective view showing a state in which a cover of an optical cable and a metal shield are separated from each other in an optical cable covering / separating system according to the present invention.
7 is a perspective view showing a winding device of an optical cable covering / separating system according to the present invention.
8 is a perspective view showing a configuration of a cutting apparatus of an optical cable covering / separating system according to the present invention.
9 is a cross-sectional view showing the internal structure of a cutting apparatus of an optical cable covering / separating system according to the present invention.
10 is a side view showing a cutting device side of an optical cable covering / separating system according to the present invention.
11 is a perspective view showing a conveyor portion of a cutting apparatus of an optical cable covering / separating system according to the present invention.

Specific features and advantages of the present invention will be described in detail below with reference to the accompanying drawings. The detailed description of the functions and configurations of the present invention will be omitted if it is determined that the gist of the present invention may be unnecessarily blurred.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an optical cable covering / separating system, and more particularly, to an optical cable covering / separating system for separating an outer covering of a waste optical cable and a metal shield so as to be recyclable.

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

2 is a block diagram briefly showing the overall configuration of an optical fiber covering / separating system according to the present invention.

2, the optical fiber covering / separating system according to the present invention includes a lid 100 for pushing the upper and lower sides of an optical cable while cutting the outer cover when the optical cable is supplied, A heating device 200 for heating the optical cable to soften the outer covering, a separating device 300 for physically separating the metal sheath from the outer covering softened by the heating device 200, A winding device 400 for winding the metal shield so as to temporarily store the metal shield, and a cutting device 500 formed to finely cut the outer sheath or the metal shield separated by the separating device 300.

The apparatus further includes a power unit 600 that supplies power to operate the cut-off apparatus 100, the heating apparatus 200, the separating apparatus 300, the winding apparatus 400, and the cutting apparatus 500 do.

3 is a perspective view briefly showing a configuration of a cutting apparatus of an optical cable covering / separating system according to the present invention.

3, the incision apparatus 100 of the optical fiber covering and separating system according to the present invention includes an inlet 110 formed at a diameter different from that of the optical cable so as to supply the diameter of the optical cable, A pressing roller 120 for pulling the optical cable inward while pressing and cutting the upper and lower sides of the introduced optical cable, and a rotating shaft 130 configured to rotate the pressing roller 120.

The inlet 110 is formed with diameters of various sizes to receive optical cables having various diameters and should be formed to be 0.5 to 1 mm larger than the diameter of the optical cable so that the optical cable can move smoothly inward.

The pressure roller 120 has a cylindrical shape and is formed on the upper side and the lower side of the optical cable so as to press the upper side and the lower side of the introduced optical cable. At this time, the pressure roller 120 has a semi-circular groove 140 formed on the circumferential surface thereof in accordance with the radius of the optical cable introduced through the inlet 110 so as to supply the introduced optical cable in a straight line, .

The grooves 140 formed in the pressing roller 120 are formed to have the same radius as that of the inlet 110 formed with various diameters so that the optical cable supplied through the inlet 110 can be normally pushed and supplied to the inside.

The rotating shaft 130 is powered by the power unit 600 of FIG. 2 and rotates the pressure roller 120. An elastic member (not shown) is formed at the end of the rotating shaft 130, The interval between the rollers 120 may be changed elastically.

4 is a front view of the pressure roller of the incision apparatus of the optical cable covering / separating system according to the present invention, viewed from the front.

4, the pressure roller 120 of the cut-off apparatus 100 of the optical cable covering and separating system according to the present invention is characterized in that a cutting edge 121 is formed in the center of a groove 140 formed in a semi- do.

When the optical cable is inserted into the circular blade formed on the circumferential surface of the groove 140 formed in the pressing roller 120, the incision blade 121 is inserted into the groove 140 of the pressing roller 120, The outer cover of this optical cable is pierced.

If the pressing roller 120 rotates to draw the optical cable inward, the incision blade 121 can continuously cut the outer cover of the optical cable, so that the uncut portion is not generated.

5 is a perspective view showing a heating apparatus for heating to separate a covering of an optical fiber covering and separating system according to the present invention.

5, the heating apparatus 200 of the optical cable covering / separating system according to the present invention is characterized in that the metal shield formed inside the optical cable is softened by using the high frequency induction heating apparatus 200 .

The heating device 200 includes a high frequency generator 210 for generating high frequency waves, a coil 220 mounted on the high frequency generator 210 so as to allow a high frequency current to pass therethrough, And an inflow pipe 230 formed thereon.

In the high-frequency induction heating, a metal conductor serving as an object to be heated is placed in the coil 220, and when a high-frequency current is passed through the coil, an eddy current is generated near the surface of the metal conductor.

Since a metallic shield formed of a metal is formed inside the coating of the optical cable, when the optical cable with the outer coating is cut into the inflow pipe 230, a high frequency current generated in the high frequency generator 210 flows through the coil 220, The metal shield of the optical cable passing through the inflow pipe 230 formed inside the metal shield is heated so that the outer cover which is in close contact with the metal shield is heated and softened.

The softened outer cover is easily separated from the metal shield and the upper and lower optical cables cut by the cut-off device 100 of FIG. 2 are separated along the cut portion while the outer cover is softened.

6 is a perspective view showing a state in which a cover of the optical cable and a metal shield are separated from each other in the optical cable covering / separating system according to the present invention.

6, the optical cable separating apparatus 300 of the optical cable covering / separating system according to the present invention includes a pair of supply rollers 310 for supplying the optical cable to the inside, an outer cover 11 of the optical cable, A cover separating tube 320 for physically separating the shield 12 and allowing only the metal shield 12 to pass therethrough and a cover induction tube 320 for moving the outer cover 11 divided into two bands after the metal shield 12 is separated, A pipe 330, a metal shield 12, and a discharge roller 340 for moving the outer cover 11.

The coating separating tube 320 is formed so as to allow the metal shield 12 to flow in and the end thereof is tapered to separate the outer covering 11.

The outer covering 11 is pushed by the end of the coating separating tube 320 to enter the coated induction pipe 330 formed on both sides of the separating separating tube 320 so that the outer covering 11 and the metal shield 12 So that it can be physically separated and discharged.

7 is a perspective view showing a winding device of an optical cable covering / separating system according to the present invention.

As shown in FIG. 7, the winding device 400 of the optical cable covering / separating system according to the present invention is characterized in that the metal shield separated by the separating device 300 is wound in a circular shape for easy storage.

The winding device 400 includes a fixed shaft 420 having a fixing hole 430 formed therein for fixing a metal shield and a power supply unit 600 formed below the fixed shaft 420 to supply power through the power unit 600 of FIG. And a rotary plate (410) which is rotated to receive the rotary plate (410).

The metal shield separated by the separating device 300 of FIG. 2 is drawn into the winding device 400 and passes through the fixing hole 430 formed in the fixing shaft 420, The power unit 600 of FIG. 2 supplies power to the rotating plate 410 to rotate.

The inserted metal shield is wound in a circular shape by the rotating plate 410, and the metal shield wound by the winding device 400 is collected separately and is easily collected and stored.

A ball caster (not shown) may be formed on the lower surface of the turntable 410 to reduce the frictional force when the turntable 410 rotates. The ball caster may be wound around the turntable 410 So that the load is not applied to the power unit 600 of FIG.

8 is a perspective view showing a configuration of a cutting apparatus of an optical cable covering / separating system according to the present invention.

8, the optical fiber covering / separating system according to the present invention includes a first pulling-in shaft 520 rotated through a chain so as to be inwardly in contact with an outer covering, a second pulling- A cutting shaft 540 formed on the rear surface of the first drawing shaft 520 and configured to transmit a rotational force, and a cutting shaft 540 formed on the cutting shaft 540 A cutting blade 541 that rotates in combination and forms a blade in the direction of the cutting axis 540 to cut the optical cable and a conveyor portion 560 that moves the outer coating cut by the cutting blade 541 .

The cutting device is to cut off the outer covering of the optical cable after it has been separated so that it can be easily collected and stored.

The first pulling-in shaft 520 is rotated through a rotational force supplied from the power unit 600 of FIG. 2, and is brought into close contact with an incoming optical cable to draw the optical cable into the inside of the apparatus.

The front end of the first inlet shaft 520 is formed with an inlet guide 510 inclined toward the center of the first inlet shaft 520. The optical cable supplied from the side of the first inlet shaft 520 is connected to the first inlet shaft 520, To the center of the frame.

The optical cable drawn into the center of the first drawing shaft 520 through the drawing guide 510 is drawn inward by the rotational force of the first drawing shaft 520 and is driven at a speed that is drawn in accordance with the speed of the first drawing shaft 520 .

The second inlet shaft 530 (see FIG. 9) formed at the lower portion of the first inlet shaft 520 is not connected to the power unit 600 of FIG. 2 and is freely rotatable, 520 are formed so that the optical cable moving inwardly can be smoothly drawn.

The cutter blade 541 is coupled to the cutting shaft 540 located at the rear of the first inlet shaft 520 and the cutter blade 541 is cut so that the optical cable drawn through the first inlet shaft 520 can be cut to a predetermined length. .

The cutting blade 541 is formed with a blade in the direction of the cutting axis 540 so as to cut the incoming optical cable and the blade is symmetrical with respect to the cutting axis 540 to cut the incoming optical cable alternately.

The conveyor unit 560 includes a moving belt 561 configured to move the cut optical cable, a driving shaft 563 that is in close contact with the moving belt 561 to rotate the moving belt 561, And is formed as an auxiliary shaft 564 that is freely rotatable by the moving belt 561.

9 is a cross-sectional view showing the internal structure of a cutting apparatus of an optical cable covering / separating system according to the present invention.

9, the first withdrawal shaft 520 and the cut shaft 540 of the optical cable covering / separating system according to the present invention can rotate at different speeds, so that the first withdrawing shaft 520 is separated from the cut shaft 540, the length at which the optical cable is cut can be adjusted.

The power transmission shaft 550 is formed below the second drawing shaft 530 so that the first drawing shaft 520 rotates at a speed different from that of the cutting shaft 540, The first gear 580 receiving the rotational force from the power unit 600 of FIG. 2 is coupled, and the second gear 581 is coupled to the other side.

The first chain 586 is engaged with the third gear 582 formed on the other side of the first pulling-in shaft 520 and the second gear 581 of the power transmitting shaft 550 to rotate the first pulling shaft 520 .

A driving shaft 563 for rotating the moving belt 561 is formed below the cutting shaft 540 so that the cutting shaft 540 rotates at a speed different from that of the first drawing shaft 520, And a fourth gear 583 for receiving a rotational force from the power unit 600 of FIG. 2 and a fifth gear 584 for coupling with the second chain 587 and transmitting a rotational force are coupled to the other side.

The second chain 587 is coupled to a sixth gear 585 formed on the other side of the cutting axis 540 to transmit the rotational force of the drive shaft 563 to the cutting axis 540.

2 is received by the power transmission shaft 550 and the cutting shaft 540 is driven by the drive shaft 563 to rotate the power shaft 600 of FIG. The first input shaft 520 and the cutting shaft 540 can be rotated at different speeds by controlling the rotational speeds supplied from the power unit 600 of FIG. 2 by receiving the rotational force of the first input shaft 520 and the cutting shaft 540, respectively .

Therefore, when the rotation speed of the first drawing-in shaft 520 is high, the speed of the drawn-out optical cable is increased, the length of the optical cable cut by the cutting blade 541 becomes long, and the rotation speed of the first drawing- If it is slow, the speed of the incoming optical cable is slowed down and the optical cable can be cut short.

The moving belt 561 moves the optical cable cut by the cutting edge 541 so as to be easily picked up and closely contacts the driving shaft 563 and rotates through the rotational force of the driving shaft 563. [

At this time, since the driving shaft 563 is increased or decreased in the same manner as the rotational speed of the cutting shaft 540, the speed of the moving belt 561 is also increased or decreased in accordance with the cutting speed of the cutting blade 541.

The spacing adjusting block 570 may be vertically raised or lowered at both ends of the first lead-in shaft 520. The spacing adjusting block 570 may be raised or lowered according to the diameter or size of the incoming optical cable. Or can be lowered.

A gap adjusting block 570 is formed at both ends of the first receiving shaft 520 to raise or lower the first receiving shaft 520 according to the diameter of the optical cable to be brought into close contact with the optical cable, An adjusting bolt 571 is formed on the upper portion of the adjusting bolt 570 so that the interval adjusting block 570 can be moved up or down according to the rotation of the adjusting bolt 571.

In addition, it is preferable that a bearing is formed in the interval adjusting block 570 so that less frictional force is generated when the first drawing shaft 520 rotates.

The cut shaft 540 further includes an inertia wheel 542 having a greater diameter and weight than the cut shaft 540 so as to maintain a uniform rotational speed.

The cutting blade 541 coupled to the cutting axis 540 cuts the optical cable and a load is generated in the cutting axis 540 to cause irregular rotation so that the cutting axis 540 is provided with a cutting axis 540 The inertial wheel 542 having a larger diameter and heavy weight can be used to make the rotational force uniform.

The inertia wheel 542 stores the rotational kinetic energy to prevent the cut shaft 540 from being stopped or the rotational force is damped due to the load generated when the cutter blade 541 cuts the optical cable, .

A fastener 543 is formed on both sides of the cutter blade 541 coupled to the cutter shaft 540 and is screwed on both sides of the cutter blade 541 and the fastener 543 is fastened to the cutter shaft 540 So that the rotational force of the cutting shaft 540 is transmitted to the cutting blade 541.

Therefore, when the cutting blade 541 is damaged and the optical cable can not be cut normally, the cutting blade 541 can be replaced and used.

10 is a side view showing a cutting apparatus side of an optical cable covering / separating system according to the present invention.

10, when the first pulling-in shaft 520 of the optical fiber covering and separating system according to the present invention is lifted by the gap adjusting block 570, it is compressed by the tensile force of the chain. When the first pulling shaft 520 is lowered, And a tension adjusting device 555 for keeping the tension constant.

The tension adjusting device 555 includes a tension shaft 557 formed to contact the first chain 586 and allowing the tension adjusting device 555 to rotate, And a spring 556 formed so as to maintain the tension of the spring 586.

The first pulling-in shaft 520 can be raised or lowered by the adjusting bolt 571 along the diameter of the optical cable, so that the tension of the chain also needs to be adjusted accordingly.

The tension of the first chain 586 causes the tension adjuster 555 to rotate toward the spring 556 with respect to the tension axis 557 to compress the spring 556 When the first drawing shaft 520 is lowered, the compressed spring 556 pushes the tension adjusting device 555 with the restoring force to maintain the tension of the first chain 586.

Accordingly, regardless of the upward or downward movement of the first intake shaft 520, the rotational force generated in the power transmission shaft 550 can be transmitted to the first intake shaft 520, and the height of the first intake shaft 520 can be adjusted So that it becomes possible to cut regardless of the diameter of the optical cable.

11 is a perspective view showing a conveyor unit 560 of the cutting apparatus of the optical cable covering / separating system according to the present invention.

11, the moving belt 561 of the conveyor unit 560 of the optical cable covering / separating system according to the present invention has a "V" -shaped protrusion 562 formed to prevent the cut optical cable from flowing down .

The protrusion 562 formed on the moving belt 561 may be formed so that the cut short optical cable does not roll down due to the inclined moving belt 561. The shape of the protrusion 562 is " V "character or in the form of a " U" character or across the moving belt 561.

The optical cable cut by the cutting edge 541 of Figure 10 is seated on the moving belt 561 due to the rotation of the cutting edge 541 and is able to move by the protrusion 562 formed on the moving belt 561. [

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken as a limitation of the scope of the present invention. Or modify it. The scope of the invention should, therefore, be construed in light of the claims set forth to cover many of such variations.

10: Optical cable 11: Outer cloth
12: metal shield 13: optical fiber
100: incision device 110: inlet
120: pressure roller 121: incision blade
130: rotation shaft 140: groove
200: Heating device 210: High frequency generator
220: coil 230: inlet pipe
300: separator 310: feed roller
320: cloth separating pipe 330: covering induction pipe
340: discharge roller 400: winding device
410: spindle 420: fixed shaft
430: Fixing hole 500: Cutting device
510: incoming guide 520: first incoming axis
530: 2nd take-in shaft 540:
541: cutting blade 542: inertia wheel
543: Fixture 550: Power transmission shaft
555: tension adjusting device 556: spring
557: tension shaft 560: conveyor part
561: moving belt 562:
563: drive shaft 564:
570: Spacing adjustment block 571: Adjustment bolt
580: first gear 581: second gear
582: Third gear 583: Fourth gear
584: fifth gear 585: sixth gear
586: first chain 587: second chain
600:

Claims (6)

An optical fiber coating separating system comprising a cutting device, a heating device, a separating device, a winding device, and a cutting device,
A first inlet shaft rotatable through the chain so as to be inwardly in contact with the outer cover;
A second inlet shaft formed under the first inlet shaft and freely rotatable;
A cutting axis formed on the rear surface of the first drawing shaft and configured to transmit a rotational force;
A cutting blade coupled to the cutting axis and having a blade cut in the cutting axis direction to cut an outer cover of the optical cable;
And a conveyor section for moving the outer covering cut by the cutting edge
Fiber optic cable cladding separation system.
The method according to claim 1,
And a gap adjusting block formed at both ends of the first drawing shaft so as to be vertically raised or lowered,
Wherein the interval adjusting block is capable of rising or falling according to a diameter or a size of an incoming optical cable
Fiber optic cable cladding separation system.
3. The method of claim 2,
And a tension adjusting device which compresses the first drawing shaft by the tensile force of the chain when the first drawing shaft is raised by the gap adjusting block and pushes the chain when the first drawing shaft is lowered to keep the tension of the chain constant.
Fiber optic cable cladding separation system.
The method according to claim 1,
The first pulling-in shaft and the cut-off shaft can rotate at different speeds, so that the first pulling-in shaft can be made faster or slower than the rotating speed of the cutting shaft,
Fiber optic cable cladding separation system.
The method according to claim 1,
Characterized in that the conveyor portion is formed with a protruding portion of a "V" shape so that the cut optical cable does not flow down
Fiber optic cable cladding separation system.
The method according to claim 1,
Wherein the cut shaft further comprises an inertia wheel having a larger diameter and a larger weight than the cut axis so that the rotational speed can be maintained uniformly
Fiber optic cable cladding separation system.

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