KR20210134467A - Fiber cable insulation gel treatment method - Google Patents

Abstract

The present invention relates to a method for treating an optical cable insulation gel. According to an example of the present invention, a method for treating an optical cable insulation gel includes: a coating peeling step (S10); an arrangement step (S20); an incision step (S30); a gel extraction step (S40); and a separation step (S50). It is possible to simply and quickly extract an outer sheath and optical fiber from a cable, and to dramatically increase the recovery rate of useful resources (recycled materials) from an abandoned optical cable.

Description

Fiber cable insulation gel treatment method

The present invention relates to a method for treating an optical cable insulation gel, and more particularly, when a plurality of cables twisted in a spiral are separated and recovered from an optical cable, the recovered cables are loosened and placed at a distance from each other, and the center of the arranged cables is cut and separated. After that, by spraying high-temperature water vapor into the separated cable to melt and separate only the insulating gel remaining in the cable, the sheath and optical fiber can be extracted from the cable very simply and quickly. It relates to an optical cable insulation gel treatment method that can dramatically increase the recovery rate of materials) so that useful resources are efficiently recycled, and at the same time, can prevent environmental pollution of the land through the recovery/treatment of abandoned optical cables nationwide.

In general, an optical cable simply means a cable in which an optical fiber is put in a protective sheath to withstand various external environments. Such an optical cable may be divided into ground use and submarine use depending on the place where it is installed, and may be classified into communication, image transmission, and detector according to use.

The usage of optical cables in Korea is continuously increasing. Since the replacement cycle of these optical cables is about 10 to 15 years, abandoned optical cables are continuously occurring. Until recently, more than 90% of abandoned optical cables for telecommunication were exported, and the rest was incinerated and buried.

These optical cables are composed of a plurality of cables containing optical fibers inside, and a covering that surrounds and protects the cables. Usually, a recycling company of abandoned optical cables separates and recovers only the PE material with a stripping device, and the cables are stored in the field. Or landfill/incineration. Therefore, these abandoned optical cables are scattered throughout the country and are left unattended, causing environmental pollution of the land.

That is, due to the difficult and difficult separation of the insulating gel remaining in the cable, the expensive optical fibers currently used in the outer sheath of the cable and the inside of the cable are not properly recovered, resulting in an increase in the overall loss of resources.

Therefore, there is an urgent need for a method for effectively separating and recovering the outer skin and the optical fiber from the cable extracted from the optical cable for the smooth recycling of resources.

The present invention has been proposed to solve the various problems as described above, and its purpose is to separate and recover a plurality of cables twisted in a spiral from an optical cable, loosen the recovered cables and arrange them spaced apart from each other, and the center of the arranged cables After cutting and separating the cable, high-temperature water vapor is sprayed into the separated cable to melt and separate only the insulating gel remaining in the cable. A method of treating optical cable insulation gel that can dramatically increase the recovery rate of useful resources (recycled materials) so that useful resources are efficiently recycled, and prevent environmental pollution of the land through the recovery/treatment of abandoned optical cables nationwide. is in providing.

Furthermore, since only a small amount of water vapor is used to melt and separate the insulating gel from the cable, the amount of waste collected together with the insulating gel can be greatly reduced, and an environmentally friendly optical cable insulating gel treatment method that can induce the extraction of recycled materials is to provide.

The optical cable insulation gel treatment method according to the present invention for achieving the above object is a coating peeling step (S10) of peeling the coating by cutting the outer surface of the optical cable at equal intervals in the longitudinal direction of the optical cable to peel the coating; and, the coating. When the coating is peeled off through the peeling step (S10), a plurality of cables twisted in a spiral are exposed. A disposing step (S20) of releasing the exposed cables and arranging the plurality of cables apart from each other; and, the disposing step ( A cutting step (S30) of inducing the cables spaced apart through S20) to enter and pass to the side of the blade so that the cables are separated from side to side while being cut based on the center (S30); and between the cables separated left and right through the cutting step (S30) A gel extraction step (S40) of separating and extracting the insulation gel from the cable by dissolving and liquefying the insulation gel formed inside the cable by spraying high-temperature water vapor and allowing it to fall freely; and, in the gel extraction step (S40), the When the insulating gel is extracted and separated from the cable, the cable sheath and the optical fiber formed inside the cable sheath are separated and recovered, respectively, and then wound to a predetermined size to complete the separation operation (S50). characterized.

In addition, the gel extraction step (S40) is performed in a housing having a sealed inner space to stably prevent external separation of the insulating gel separated from the cable,

At both ends of the housing, a sheath transport path is formed in which the cable sheath cut left and right in the cutting step can be distributed and guided to the outside, and the optical fiber formed inside the cable sheath is provided in the center to be distributed and guided to the outside. An optical fiber transport path is formed to induce easy separation of the cable sheath and the optical fiber in the separation step,

In the gel extraction step (S40), the high-temperature steam sprayed between the left and right cables is sucked through the suction duct, and then the sucked steam is reheated to induce reuse in the gel extraction step (S40). (S60); characterized in that it further comprises.

In addition, high-temperature, high-pressure wind is sprayed on both sides of the outer sheath and optical fiber side of the cable that has undergone the gel extraction step (S40) to shake off moisture and a trace amount of insulating gel remaining in the cable sheath and optical fiber to shake off the cable sheath and optical fiber. It is characterized in that it further comprises a; at the same time, a drying step (S70) of cleaning cleanly while drying.

As described above, according to the optical cable insulation gel treatment method according to the present invention, when a plurality of cables twisted in a spiral are separated and recovered from the optical cable, the recovered cables are loosened and placed at a distance from each other, and the center of the arranged cables is cut and separated. After that, by spraying high-temperature water vapor into the separated cable to melt and separate only the insulating gel remaining in the cable, the sheath and optical fiber can be extracted from the cable very simply and quickly. material), so that useful resources are efficiently recycled, and at the same time, it has the effect of preventing environmental pollution of the land through the recovery/treatment of abandoned optical cables nationwide.

Moreover, since only a small amount of water vapor is used to melt and separate the insulating gel from the cable, the capacity of waste collected together with the insulating gel can be greatly reduced, thereby inducing the extraction of eco-friendly recycled materials.

1 is a block diagram of an optical cable insulation gel processing method according to an embodiment of the present invention;
2 is a view for explaining the optical cable insulation gel treatment method shown in FIG.

An optical cable insulation gel processing method according to a preferred embodiment of the present invention will be described in detail based on the accompanying drawings. Detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the gist of the present invention will be omitted.

1 and 2 show a method for treating an optical cable insulation gel according to an embodiment of the present invention, FIG. 1 is a block diagram of a method for treating an optical cable insulation gel according to an embodiment of the present invention, and FIG. The drawings for explaining the optical cable insulation gel treatment method are shown respectively.

As shown in the figure, the optical cable insulation gel treatment method 100 according to an embodiment of the present invention includes a coating peeling step (S10), an arrangement step (S20), a cutting step (S30), and a gel extraction step ( S40) and a separation step (S50).

As shown in Figures 1 and 2a, in the step of peeling the coating (S10), the coating (2) of the outer surface of the optical cable (1) is cut lengthwise in the longitudinal direction of the optical cable (1) at equal angular intervals to remove the coating (2). It is a peeling process.

Here, since the coating 2 peeled from the optical cable 1 is usually made of PE material, the coating 2 peeled and separated from the optical cable 1 is recovered and recycled, of course.

On the other hand, the peeling of the optical cable (1) sheath (2) for recycling the optical cable (1) is a process widely performed through a conventional peeling machine (not shown), and a detailed description thereof will be omitted.

As shown in FIG. 1 , in the disposing step (S20), when the coating (2) is peeled off through the coating peeling step (S10), a plurality of cables (3) twisted helically with each other are exposed, the exposed cables (3) is a process of arranging a plurality of cables (3) spaced apart from each other.

That is, as shown in FIG. 2B, when the coating is peeled off from the optical cable 1, the cables 3 in a spirally twisted state are exposed. In this state, the optical fibers 5 present in each of the cables 3 are exposed. Since it is difficult to separate and recover the cable 3 and the sheath 4 individually, the cable 3 is slowly rotated in the opposite direction to the twisted direction to release the twist of the cable 3, and then each cable 3 is connected to each other. spaced apart

Here, the reason for arranging the cables 3 apart is to easily separate and recover the optical fibers 5 and the sheath 4 recycled from each cable 3 , which will be described in detail below.

As shown in Figures 1 and 2c, the cutting step (S30) is the cable (3) spaced apart through the arrangement step (S20) through the entrance to the side of the blade 10, the cable 3 is the center This is the process of inducing left and right separation while incision is made based on the standard.

That is, the cable 3 spaced apart through the arrangement step (S20) is pulled toward the blade 10 through an external device (not shown), and at this time, the center of the cable 3 is naturally the blade 10 ), it is incised and separated on both sides to expose the inside.

Here, the reason for exposing the inside of the cable 3 by incision is to spray high-temperature steam to melt the insulating gel 6 inside the cable 3 in the gel extraction step (S40) described later. is to be easily sprayed into the insulating gel 6 inside the cable 3 .

1 and 2D, the gel extraction step (S40) is formed inside the cable (3) by spraying high-temperature water vapor between the cables (3) separated on the left and right through the cutting step (S30). It is a process of separating and extracting the insulating gel (6) from the cable (3) by melting and liquefying the insulating gel (6) and allowing it to fall freely.

That is, high-temperature water vapor is sprayed into the insulating gel 6 located inside the cable 3 to induce rapid melting of the insulating gel 6, so that the insulating gel 6 is naturally generated by the cable 3 drop and peel from it.

Here, the insulating gel peeled from the cable is separated and treated as waste. In this case, the capacity of waste that can be included in addition to the insulating gel can be minimized because the insulating gel is separated through high-temperature steam. Therefore, it can induce the separation of very economical and eco-friendly insulating gel.

1 and 2e, when the insulating gel 6 is extracted and separated from the cable 3 in the gel extraction step S40 in the separation step S50, the cable sheath 4 and After separating and collecting the optical fibers 5 formed inside the cable sheath 4, each is wound to a predetermined size to complete the separation operation.

In addition, as shown in FIGS. 1 and 2D , the gel extraction step (S40) is performed in the housing 20 having a sealed inner space, and the insulating gel 6 separated from the cable 3 is separated from the outside. to reliably prevent

At both ends of the housing 20, a sheath transfer path 21 through which the cable sheath 4 cut left and right in the cutting step (S30) can be distributed and guided to the outside, respectively, is formed in the center of the cable sheath (4) An optical fiber transport path 22 is formed in which the optical fiber 5 formed therein can be distributed and guided to the outside, so that the cable sheath 4 and the optical fiber 5 are easily separated in the separation step (S50). Inducing separation and recovery,

In the gel extraction step (S40), the high-temperature steam sprayed between the cables 3 separated on the left and right is sucked through the suction duct 30, and then the sucked steam is reheated and reused in the gel extraction step (S40). and a water vapor recovery step (S60) leading to the above.

That is, in the gel extraction step (S40), high-temperature water vapor toward the cable 3 may be scattered around after contacting the cable 3, and the scattered water vapor falls and is free from the cable 3 As it is included in the dropped insulating gel 6 and becomes a cause to increase the capacity of the final waste, the capacity of the final waste is actively increased by sucking the vapor scattered through the suction duct 30 of the recovery step (S60). It is desirable to minimize the cost required to dispose of the waste by reducing it.

In addition, after reheating the steam collected by suction through the suction duct 30, the energy required to produce high-temperature steam can be greatly reduced by recycling it as high-temperature steam sprayed in the gel extraction step (S40). It is possible to economically induce the recycling of the optical cable (1).

On the other hand, as shown in FIGS. 1 and 2E, high-temperature, high-pressure wind is sprayed toward the outer shell 4 and optical fiber 5 on both sides of the cable 3 that has undergone the gel extraction step (S40). 4) and a drying step (S70) of cleaning the cable sheath 4 and the optical fiber 5 while simultaneously drying the cable sheath 4 and the optical fiber 5 by shaking off the remaining moisture and a trace amount of the insulating gel 6 in the optical fiber 5; made including

That is, when moisture and trace amounts of the insulating gel 6 are present in the cable sheath 4 and the optical fiber 5 from which the insulating gel 6 is removed through the gel extraction step (S40), the cable sheath (4) and the smooth recycling of the optical fiber (5) can be prevented, so through the drying step (S70) as described above, the moisture and insulating gel remaining in the cable sheath (4) and the optical fiber (5) are completely removed. It is desirable to induce smooth recycling of the cable sheath 4 and the optical fiber 5 .

In the optical cable insulation gel treatment method 100 of the present invention comprising the above process, when a plurality of cables 3 spirally twisted from the optical cable 1 are separated and recovered, the recovered cables 3 are released and placed apart from each other, , a method in which only the insulating gel 6 remaining in the cable 3 is melted and separated by cutting and separating the center of the arranged cable 3 and then spraying high-temperature steam into the separated cable 3 It is possible to extract the outer sheath 4 and optical fiber 5 from the cable 3 quickly and easily with At the same time, there is an effect that can prevent environmental pollution of the land through the recovery/treatment of the abandoned optical cables 1 nationwide.

Furthermore, since only a small amount of water vapor is used to melt and separate the insulating gel 6 from the cable 3, it is possible to significantly reduce the amount of waste collected together with the insulating gel 6, thereby improving the extraction of eco-friendly recycled materials. It has an inducing effect.

The optical cable insulation gel processing method 100 according to an embodiment of the present invention having the above configuration is performed as follows.

First, as shown in Figure 2a, the outer surface of the optical cable (1) to be recycled (2) is cut lengthwise in the longitudinal direction of the optical cable (1) at equal intervals, and the coating (2) is peeled to remove the cable (3). exposed to the outside. (S10)

Thereafter, as shown in FIG. 2B , the cables 3 exposed to the outside are rotated in the opposite direction to the twisted direction to release the twist, and then each cable 3 is disposed to be spaced apart from each other. (S20)

Then, as shown in FIG. 2c, the cable 3 is passed through the knife blade 10 side so that the cable 3 is cut with respect to the center to be separated from left and right. (S30)

Then, as shown in FIG. 2D, high-temperature water vapor is sprayed between the cables 3 separated from left and right as described above so that the insulating gel 6 formed inside the cable 3 is melted and freely fallen. Let the insulating gel (6) be separated from the cable (3). (S40)

Then, as shown in Fig. 2e, high-temperature, high-pressure wind is sprayed toward both the outer sheath 4 and the optical fiber 5 of the cable 3, and the moisture remaining in the cable sheath 4 and the optical fiber 5 and A small amount of insulating gel (6) is shaken off to dry and clean the cable sheath (4) and optical fiber (5). (S70)

Thereafter, as shown in FIG. 2E , the cable sheath 4 and the optical fiber 5 formed inside the cable sheath 4 are separated and recovered, respectively, and then wound to a predetermined size to complete the separation operation. (S50)

Although the present invention has been described with reference to the embodiments shown in the accompanying drawings, which are illustrative and not limited to the above-described embodiments, those of ordinary skill in the art will realize that various modifications and equivalent embodiments are possible therefrom. point can be understood. In addition, it is a matter of course that modifications by those skilled in the art are possible within the scope that does not impair the spirit of the present invention. Accordingly, the scope of claiming the right in the present invention will not be defined within the scope of the detailed description, but will be limited by the following claims and the technical spirit thereof.

1. Optical cable 2. Shield
3. cable 4. cable sheath
5. Optical fiber 6. Insulation gel
10. Blade 20. Housing
21. Outer sheath conveyance 22. Fiber optic conveying path
30. Suction duct
S10. Coating peeling step S20. deployment stage
S30. Incision step S40. Gel extraction step
S50. Separation step S60. recovery phase
S70. drying stage
100. Optical cable insulation gel treatment method

Claims (3)

A coating peeling step (S10) of peeling the coating (2) by cutting the optical cable (1) long in the longitudinal direction of the optical cable (1) at equal angular intervals (2) of the outer surface of the optical cable (1);
When the coating (2) is peeled off through the coating peeling step (S10), a plurality of cables (3) twisted spirally are exposed, and the plurality of cables (3) are separated from each other by releasing the exposed cables (3). arranging the arrangement step (S20);
A cutting step (S30) of inducing the cables (3) spaced apart through the disposing step (S20) to enter and pass to the blade 10 side so that the cables 3 are cut with respect to the center and separated from side to side;
The cable (3) by spraying high-temperature water vapor between the cables (3) separated on the left and right through the cutting step (S30) to melt and liquefy the insulating gel (6) formed inside the cable (3) and let it fall freely A gel extraction step of separating and extracting the insulating gel 6 from (S40); and
When the insulating gel 6 is extracted and separated from the cable 3 in the gel extraction step (S40), the cable sheath 4 and the optical fiber 5 formed inside the cable sheath 4 are separated and recovered, respectively. After winding to a predetermined size, the separation step (S50) to complete the separation operation; Optical cable insulation gel processing method comprising the.
The method of claim 1,
The gel extraction step (S40) is performed in the housing 20 having a sealed inner space to stably prevent the external separation of the insulating gel 6 separated from the cable 3,
At both ends of the housing 20, a sheath transfer path 21 through which the cable sheath 4 cut left and right in the cutting step (S30) can be distributed and guided to the outside, respectively, is formed in the center of the cable sheath (4) An optical fiber transport path 22 is formed in which the optical fiber 5 formed therein can be distributed and guided to the outside, so that the cable sheath 4 and the optical fiber 5 are easily separated in the separation step (S50). Inducing separation and recovery,
In the gel extraction step (S40), the high-temperature steam sprayed between the cables 3 separated on the left and right is sucked through the suction duct 30, and then the sucked steam is reheated to be reused in the gel extraction step (S40). Optical cable insulation gel treatment method, characterized in that it further comprises;
The method of claim 1,
Moisture remaining in the cable sheath 4 and the optical fiber 5 by spraying high-temperature and high-pressure wind toward the outer sheath 4 and optical fiber 5 on both sides of the cable 3 that has undergone the gel extraction step (S40) and Drying step (S70) of wiping off a small amount of the insulating gel (6) to dry the cable sheath (4) and the optical fiber (5) and cleanly at the same time (S70); .

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