KR101865266B1 - Optical cable recycling apparatus and method - Google Patents

Abstract

The objective of the present invention is to provide an optical cable recycling apparatus and a method thereof for cutting an outer surface of an optical cable in a state in which the outer surface of the optical cable is heated and softened so as to facilitate the cutting of the outer surface to protect a blade and extend the life of the apparatus, thereby easily separating the outer skin and an inner skin of the optical cable. According to the present invention, the optical cable recycling apparatus comprises: a transfer unit transferring a recovered optical cable; a cleaning unit cleaning the optical cable to remove a foreign matter adhering to the outside of the optical cable transferred by the transfer unit; a heating unit applying heat to the optical cable, which is cleaned by the cleaning unit and transferred, to soften the outer surface of the optical cable and an adhesive between the outer surface and the inner surface; a cutting unit cutting the outer surface of the optical cable softened by the heating unit; and a recovery unit separating the outer skin and the inner skin from the optical cable cut by the cutting unit, and separately winding and recovering the outer skin and the inner skin, wherein the heating unit heats the optical cable while maintaining a constant temperature of 60 to 90°C.

Description

TECHNICAL FIELD The present invention relates to an optical cable recycling apparatus and method,

The present invention relates to an apparatus and a method for recycling optical cables, and more particularly, to an apparatus and a method for recycling optical cables that can separate an outer skin and an inner skin of an optical cable so that both the outer skin and the inner skin can be recycled.

Generally, an optical cable is called an optical cable because it transmits a communication signal using light through an optical fiber.

The optical fiber is made of a core located at the center for transmitting light and a clad surrounding the core for preventing light from escaping outside. The diameter of the core is 9μ and the outer diameter of the clad is 125μ, which is about the thickness of a person's hair. Thousands of such thin fibers gather to form an optical cable. That is, the optical cable is composed of a core made of a metal material surrounding the optical fiber and an outer core made of PE or the like pressed around the core.

The most common function of optical cable is optical communication using laser light. The laser beam entered into the core at the central portion by the semiconductor laser proceeds while repeating total reflection at the boundary with the clad at the outer peripheral portion. When the voice or image information to be transmitted from the transmitting unit is changed to the intensity signal of the current, the laser converts it into the intensity signal of the light.

The optical cable transmits the light signal to the receiver through total reflection. The receiver changes it back into an electric signal and reproduces it with the original signal.

The optical cable has a great advantage that it is suitable for long-distance transmission because it has less energy loss than the copper wire used in the conventional wired communication, and does not suffer from electrical and magnetic disturbances from the nearby power cable or lightning. Also, there is a lot of information that can be transmitted, so it makes 12,000 lines of telephone with one strand of transparent fiber that is the thickness of hair. In the United States and Japan, since the mid 1980s, Korea has installed fiber optic cables in the late 1980s and used them in long-distance telephone communications.

Currently, submarine optical cable is installed between Japan and Korea. The higher the frequency of the radio waves, the larger the amount of information that can be received. The light is almost 1,000 times more capacity than the frequency of the currently used frequency, and the optical cable is expected to be a means of communication in the mass information age including image information.

Such optical cables are periodically replaced, and the replaced optical cables are discarded. In order to recycle the optical cables to be discarded, the outer shells of the materials such as PE are peeled off to separate the outer shell and the wick.

However, since the outer surface of the optical cable is firmly pressed around the core, it is not easy to separate the outer surface from the core.

Therefore, when the peeling of the discarded optical cable is manually performed by using a blade or the like, the workability is very low and the cost of processing the discarded optical cable is increased.

In addition, although it is possible to separate the outer surface of the optical cable by using a peeling machine of a waste wire with a circular blade, since the outer surface of the optical cable is firmly pressed on the wick, workability is lowered, It was difficult to apply to.

On the other hand, although the core of the discarded optical cable can be burned to collect only the wick, the environmental pollution problem due to the combustion of the outer shell is generated, and the outer shell can not be recycled, and only the core is recycled and the recycling efficiency is lowered.

In addition, it is possible to separate the core from the core by dissipating the heat by dissipating the heat to the melting point of the PE, which is a jacket, by using the pulsed electric wire peeling method using electric resistance heat. However, There is a difficult problem.

Therefore, in order to solve such a problem, the following patent documents are disclosed.

However, the following patent door hurdles have many problems in the peeling work because the outer surface of the optical cable is directly cut off when peeling the wick and the outer surface of the optical cable. For example, due to the nature of the PE material, it is difficult to perform the peeling work such as the shortening of the life of the blade for practically cutting the incised shell of the optical cable despite its hardness and rigidity and lack of workability.

Korean Patent Registration No. 10-1039209, Apparatus and method for removing optical fiber. Korean Patent Registration No. 10-1719333, optical cable peeling and recycling device assembly.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems of the prior art described above, and it is an object of the present invention to provide a method for cutting an optical fiber by cutting an outer surface of an optical cable by heat- Which can extend the service life of the optical fiber and facilitate separation of the outer surface of the optical cable and the inner surface of the optical cable.

In particular, the present invention provides an apparatus and method for recycling optical cables that can heat the optical cable while maintaining a constant temperature of 60 ° C to 90 ° C during heating, thereby further facilitating the separation of the outer skin and the inner skin.

According to an aspect of the present invention, there is provided an apparatus for recycling an optical cable, comprising: a transfer unit for transferring a recovered optical cable; A cleaning unit which cleans the optical cable to remove foreign matter adhering to the outside of the optical cable conveyed by the conveyance unit; A heating unit for applying heat to the optical cable that is cleaned and transferred by the cleaning unit to soften the adhesive on the outer surface of the optical cable and between the outer surface and the inner surface; A cutting unit for cutting the outer surface of the optical cable softened by the heating unit; And a recovery unit for separating the outer shell and the inner shell from the optical cable cut by the cut-off unit and winding up the outer shell and the inner shell separately, wherein the heating unit is configured to maintain the temperature of 60 ° C to 90 ° C constant It is preferable to heat the optical cable.

The heating unit includes: a passage portion through which the optical cable passes; And a heating part installed to wind the outside of the passage part in a coil shape to apply a constant heat to an optical cable passing through the passage part, wherein the heating part includes: a cooling water pipe through which cooling water flows; And a heating wire installed to tightly surround the outside of the cooling water pipe. By controlling the flow rate of the cooling water flowing through the cooling water pipe to control the temperature heated by the heating wire, the temperature heated by the heating wire is always 60 Deg.] C to 90 [deg.] C.

Wherein the transfer unit comprises: a pair of upper and lower optical cables disposed to be respectively disposed in the charging unit and the discharging unit of the heating unit and vertically opposed to transfer the optical cable, A supporting roller for supporting the installed optical cable; A transport roller disposed above the optical cable for rotating the optical cable to transport the optical cable; And a first motor for providing a driving force for rotating the conveying roller in place, wherein the supporting roller has a V-shaped cross-sectional structure, and the conveying roller comprises: an outer circumferential surface for conveying the optical cable, The gear teeth are formed to be inclined or serrated in the rotation direction of the transport roller. The gear teeth are formed to protrude along the circumferential direction.

Preferably, the conveying unit is provided with a pair of guide rollers provided adjacent to the conveying rollers and facing each other so as to guide the conveyed optical cable.

Wherein the cut-off unit comprises: a circular blade disposed orthogonally to be in contact with the optical cable so as to be rotated in place and to allow the outer casing to be cut while the transported optical cable passes; And a second motor for providing a driving force for rotating the circular blade in place.

Wherein the recovery unit is provided with: a direction changing roller for allowing the outer skin and the inner skin to be respectively transported from the optical cable with the outer skin cut by the cut-off unit to different paths, and the inner skin is transported by a path different from the outer skin by the direction changing roller So that the outer shell and the inner shell can be wound separately.

The cleaning unit may include: a spray nozzle installed to spray wash water onto the optical cable to be transferred; And a pump for supplying wash water to the spray nozzle.

Wherein the heating unit further includes a heating unit capable of heating the optical cable once more before the optical cable is conveyed to the collection unit, and before the optical cable cut by the cut-off unit is conveyed to the collection unit, And to soften the adhesive once placed between the outer skin and the inner skin of the optical cable.

According to another aspect of the present invention, there is provided a method of recycling an optical cable, comprising: a transferring step of transferring an optical cable by a pair of rollers vertically opposed to each other to transfer the recovered optical cable; A cleaning step of cleaning the optical cable by spraying washing water on the optical cable carried by the transferring step to remove foreign substances from the outside of the optical cable; A heating step of applying heat to the optical cable that is cleaned and transferred by the cleaning step to soften the adhesive on the outer surface of the optical cable and between the outer surface and the inner surface; A cutting step of cutting the outer surface of the optical fiber softened by the heating step by a circular blade which is rotated in place; And a direction changing roller for separating the outer skin and the inner skin from the optical cable cut by the cutting step. The inner skin is transported by a route different from the outer skin by the direction switching roller, and the outer skin and the inner skin are separately wound Wherein the heating step includes heating the optical cable by applying a predetermined heat to the optical cable by a heating part installed to wind the outside of the passage part through which the optical cable passes in a coil shape, Wherein the temperature of the hot water heated by the hot wire is controlled by adjusting the flow rate of the cooling water flowing through the cooling water pipe so that the temperature heated by the hot wire is always maintained at 60 ° C- It is preferable to heat the optical cable while maintaining 90 ° C constant.

According to the apparatus and method for recycling an optical cable according to the present invention, the optical fiber can be easily separated into an inner skin and an outer skin, respectively, so that the inner skin can be recycled as an inner skin and the outer skin can be recycled as an outer skin.

Particularly, the present invention relates to a method of cutting an optical cable by cutting an optical fiber cable by heating an optical cable while maintaining a temperature of 60 ° C to 90 ° C at a constant temperature when separating the outer surface and the inner surface of the optical cable to soften the adhesive component between the outer skin and the outer skin, The life of the blade can be prolonged, and the separating operation between the outer skin and the inner skin can be further facilitated.

1 and 2 are photographs showing the structure of the optical cable,
3 is a schematic view of an optical cable recycling apparatus according to the present invention,
4 is a schematic view of an apparatus for recycling optical cables according to another embodiment of the present invention,
5 is a schematic view of a heating unit included in an optical cable recycling apparatus according to the present invention,
Fig. 6 is a view showing the structure of the heating unit in the heating unit shown in Fig. 5;

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

Prior to the description of the present invention, the following specific structure or functional description is merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms , And should not be construed as limited to the embodiments described herein.

In addition, embodiments according to the concept of the present invention can make various changes and have various forms, so that specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

4 is a schematic view showing an apparatus for recycling an optical cable according to another embodiment of the present invention. FIG. 5 is a schematic view of an optical cable recycling apparatus according to the present invention. Fig. 6 is a view showing the structure of the heating unit in the heating unit shown in Fig. 5. Fig.

As shown in these drawings, the optical cable recycling apparatus according to the present invention preferably includes a transfer unit 110, a cleaning unit 120, a heating unit 130, and a collecting unit 150.

The transfer unit 110 transfers the recovered optical cable 12. The transfer unit 110 will be described later in detail.

The cleaning unit 120 cleans the outside of the optical cable 12 in order to remove foreign substances from the outside of the optical cable 12. The cleaning unit 120 is provided on the optical cable 12 to be transported A pump 124 for supplying washing water to the injection nozzle 122 is installed so that the washing water supplied by the pump 124 is supplied to the spray nozzle 122 ) To clean the optical cable.

By cleaning the optical cable with the cleaning unit 120, the outer surface of the optical cable to be recycled, that is, the PE (polyethylene) portion is cleaned to remove foreign matter, thereby improving the quality of the recycled product.

Also, the cleaning by the cleaning unit 120 can simultaneously reduce the heat of the outer side of the PE component with respect to the heat when the heating unit 130, which will be described later, applies heat.

The heating unit 130 applies heat to the optical cable 12 which is cleaned and transported by the cleaning unit 120 so as to be placed between the outer surface 12a of the optical cable and the outer surface 12a of the optical cable and the inner surface 12b The heating unit 130 is characterized in that the optical cable is heated while maintaining a constant temperature of 60 ° C to 90 ° C.

The heating unit 130 includes a passageway 132 through which the optical cable passes, and a heating unit 130 installed to wind the outside of the passageway 132 in a coil shape to apply a constant heat to the optical cable passing through the passageway 132 And a heating unit 134.

The heating unit 134 is composed of a cooling water pipe 134a through which cooling water flows and a heating wire 134b tightly surrounding the cooling water pipe 134a. The temperature to be heated by the hot wire 134b is always kept constant at 60 ° C to 90 ° C by controlling the flow rate of the cooling water flowing through the hot wire 134b to control the temperature to be heated by the hot wire 134b.

More specifically, when the temperature of the optical cable is excessively increased by heating the optical cable by the hot wire 134b, the operation of rapidly flowing the cooling water through the cooling water pipe 134a to lower the heat of the hot wire is repeatedly performed The heating temperature by the hot wire can be always controlled constantly. At this time, the flow control of the hot wire and the cooling water can be automatically controlled by the sensor and the controller.

Accordingly, the heating unit 130 is provided with a heating device and a cooling device, which heats the heating wire by the heating device, and cools the cooling water by the cooling device.

It is preferable that the heating unit 130 is further provided with a heating unit having the same structure so that heating is performed once more before being transferred to a later-described collecting unit, and an optical cable conveyed to the collecting unit cut by the cutting unit It is preferable to further heat the adhesive so that the adhesive placed between the outer cover 12a of the optical cable and the outer cover 12a of the optical cable and the inner cover 12b is further softened and transferred to the recovery unit.

The cut-off unit 140 cuts the outer shell 12a of the optical fiber softened by the heating unit 130. The cut-off unit 140 is disposed orthogonally to contact the optical cable, 142 can be installed and the circular blade 142 rotated in place can be made to cut through the outer shell 12a while the optical cable to be fed passes through.

At this time, it is preferable that the second motor 144 is installed to provide a driving force for rotating the circular blade 142 in place.

The recovery unit 150 separates the outer skin 12a and the inner skin 12b from the optical cable cut by the cutout unit 140 and winds the outer skin 12a and the inner skin 12b separately and collects them. The unit 150 is preferably provided with a direction switching roller 152 for allowing the outer skin 12a and the inner skin 12b to be transported from the optical cable in which the outer skin 12a is cut by the cut- Do.

The inner skin 12b may be transported by a different path from the outer skin 12a by the direction changing roller 152 so that the outer skin 12a and the inner skin 12b may be wound separately.

Here, the separated and recovered inner skin 12b and outer skin 12a can be cut and crushed to a predetermined size and taken out as required.

In addition, the transfer unit 110 is preferably installed to be disposed in the charging unit and the discharging unit of the heating unit 130, respectively, and is formed as a pair which is vertically opposed to transfer the optical cable.

At this time, it is preferable that a support roller 112 is disposed at the lower portion of the optical cable and is rotated in place to support an optical cable conveyed by the support roller 112, and the support roller 112 has a V- Structure.

In addition, it is preferable that a conveying roller 114 is disposed on the optical cable so as to be rotated in place so that the optical cable can be conveyed by the conveying roller 114.

At this time, it is preferable that a first motor 116 is installed to provide a driving force for rotating the feed roller 114 in place.

In addition, the feed roller 114 is formed so that gear teeth protrude along the circumferential direction on the outer circumferential surface so that the optical cable can be cut and conveyed.

Here, the gear teeth may be inclined or serrated in the direction of rotation of the feed roller 114.

It is preferable that a guide roller 118 is provided adjacent to the conveying roller 114 so as to guide the optical cable conveyed by the guide roller 118, As shown in FIG.

The transfer unit 110 can transfer the optical cable to pass through the cleaning unit 120, the heating unit 130 and the cut-off unit 140 while separating the outer skin 12a and the inner skin 12b.

A method for recycling an optical cable according to the present invention includes a transfer step of transferring an optical cable by a pair of rollers vertically opposed to each other so as to transfer a recovered optical cable, a step of injecting washing water into an optical cable transferred by the transfer step, A heating step of applying heat to the optical cable to be cleaned and washed by the cleaning step to soften the adhesive on the outer surface of the optical cable and between the outer surface and the inner surface of the optical cable, A cutting step of cutting the outer surface of the optical fiber softened by the heating step by a circular blade which is rotated in place and a direction changing roller for separating the outer skin and the inner skin from the optical cable cut by the cutting step, The inner surface of the outer skin is conveyed by a path different from that of the outer skin by the switching roller, It comprises a recovering step of recovering each winding separately are preferred.

At this time, in the heating step, the optical cable is heated by applying a constant heat to the optical cable by a heating unit installed to wind the outer portion of the passage portion through which the optical cable passes in a coil shape, And controlling the flow rate of the cooling water flowing through the cooling water pipe so as to control the temperature heated by the heating wire so that the temperature heated by the heating wire is constantly maintained at 60 ° C to 90 ° C and the optical cable is heated .

According to the present invention, it is preferable to precede preparation for separating the optical cable by size before separating the outer skin and the inner skin for recycling of the optical cable. That is, quality can be improved and work efficiency can be improved by separating the optical cable by size.

Although the present invention has been fully described in connection with the preferred embodiments thereof with reference to the accompanying drawings, it is to be understood that the present invention is not limited thereto. It is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

110 - transfer unit 120 - cleaning unit
130 - heating unit 140 - cutting unit
150 - recovery unit

Claims (9)

A transfer unit for transferring the recovered optical cable;
A cleaning unit which cleans the optical cable to remove foreign matter adhering to the outside of the optical cable conveyed by the conveyance unit;
A heating unit for applying heat to the optical cable that is cleaned and transferred by the cleaning unit to soften the adhesive on the outer surface of the optical cable and between the outer surface and the inner surface;
A cutting unit for cutting the outer surface of the optical cable softened by the heating unit; And
And a recovery unit for separating the outer skin and the inner skin from the optical cable cut by the cutting unit and separately winding up the outer skin and the inner skin,
The heating unit comprises:
An optical cable recycling apparatus for heating an optical cable while maintaining a constant temperature of 60 ° C to 90 ° C,
The heating unit comprises:
Further comprising another heating unit capable of heating the optical cable once more before the optical cable is conveyed to the collection unit, wherein before the optical cable cut by the cut-off unit is conveyed to the collection unit, the outer surface of the optical cable, And the adhesive disposed between the inner film and the inner film is softened once more.
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