KR101029532B1 - The case connect structure to protect optical fiber cable - Google Patents

Abstract

PURPOSE: The combining structure of a protecting box and a photo coupled cable ground box is provided to prevent a cable from being damaged by completely blocking the external side of the ground box. CONSTITUTION: A ground box connects photo coupled cable. A ground terminal is extracted through one side of the ground box. A pair of protecting box implements flange combination to surround the ground box. One side of the protecting box is composed of a cable closing unit(31), a taper connecting unit(32), and a main body(33). The cable closing unit corresponds to the diameter of the photo coupled cable.

Description

The case connect structure to protect optical fiber cable

The present invention relates to a protective box fastening structure of an optical composite cable grounding box for protecting a grounding box connecting the optical composite cable to each other. In particular, when the ground box is buried in the ground or installed in the water, a pair of left and right shields are used to prevent water from seeping into the inside of the ground box to prevent abnormality in current flow or power loss. The present invention relates to a protective lock fastening structure of an optical composite cable grounding box which is installed to the outside and tightly surrounds the grounding box through a flange coupling with each other.

In general, an optical composite power cable is a cable manufactured by storing an optical fiber in a power cable that delivers electric power. It is a product that transmits electric power in addition to communication, control or temperature measurement detection of power cable between substations.
The most common form of the optical composite power cable 1 is provided with a conductor 10 at the center of the cable, as shown in FIG. 1, and the inner semiconductive layer 11, the insulator 12, and the outside as it goes to the outside. The semiconducting layer 13, the shielding layer 17, and the anticorrosive layer 18 are sequentially provided. In particular, near the shielding layer 17, an optical unit 19 having a structure in which a filling such as a jelly compound or silicone oil is filled outside thereof and a pair of optical fibers surrounded by a protective tube is arranged.
By the way, the optical composite power cable is connected to the two power cables using a grounding box to extend the length of the current to communicate the current. In other words, the ground as shown in the figure of the present invention is a method of wrapping and connecting the optical composite power cable at both ends. As a result, the optical composite power cable is connected to a plurality of cables are installed underground or in the water. In this case, the conventional power cable grounding box has the following problems.
There was a lot of concern that the strong pressure of the ground applied in the underground, the shape will be distorted or disturb the communication of the current. In addition, when water is sometimes absorbed in the ground and water penetrates into the ground box, there is a hassle of having to bury it again because power is not flowed out and current is not smooth.

The present invention is to provide a protective box fastening structure of the optical composite cable grounding box for protecting the grounding box for connecting the optical composite cable to each other.
Particularly, the present invention provides a pair of left and right protections in order to prevent an abnormality in the movement of current or loss of power when the ground box is buried in the ground or installed in the water, thereby preventing abnormality in current movement or loss of power. To the outside of the grounding box, and to provide a protective box fastening structure of the optical composite cable grounding box to securely wrap the grounding box through the flange coupling with each other.

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The protective box fastening structure of the optical composite cable grounding box according to the present invention includes: a grounding box 20 for connecting the optical composite cable 10 at both ends to each other, and connecting the grounding terminal 21 to one side thereof; The flange is coupled to the left and right pairs so as to surround the ground box 20 as a whole, one side of the cable contact portion 31 corresponding to the diameter of the optical composite cable 10, and the tapered connection portion 32 and the tapered end of the cross section is cylindrical Left and right pair of protection box 30 consisting of a main body portion 33 to accommodate the ground box 20 as a whole; is coupled to the bolt through one side of the flange portion 34 of the main body portion 33 to the inner ground To protect the box (20).

In addition, according to the protective box fastening structure of the optical composite cable grounding box of the present invention, the protective box 30 is made of FRP (glass reinforcing fiber): the cable tight portion 31 of the protective box 30, the stepped groove in its inner peripheral surface To form a (36) to improve the watertightness through the O-ring 40: to the upper end of the protective box 30, the main body portion 33, to form a horizontal support space 50 for expanding the inner peripheral surface to the top, One side forms an injection hole 51 penetrating up and down.

In addition, according to the protective box fastening structure of the optical cable ground box of the present invention, the urethane (60) is filled between the inner peripheral surface of the protective box 30 in the outer portion of the ground box 20 of the ground box 20 during the curing of the urethane To improve the robust protection and watertightness: the left and right pair of protection box 30 is coupled to the flange coupled, injecting the urethane 60 through the inlet 51 of the one side, the inlet 51 of the other side is By controlling the urethane 60 is ejected, to improve the solid protection and watertightness of the ground box 20 during the curing of the urethane 60: one side of the protective box 30 or one side of the horizontal support space 50 In order to form a ground wire lead-out hole 65 of the ground terminal 21 so that the ground wire 63 of the ground box 20 can be pulled out.

In addition, according to the protective box fastening structure of the optical cable ground box of the present invention, the inner peripheral surface of the protective box (30), by forming a pedestal (65) protruding upward to the ground box 20 having a smaller diameter than the protective box (30) To support them.

According to the present invention, by forming a protective shield to completely block the outside of the ground box for connecting the optical composite cable, there is an advantage that can prevent the cable breakage.
In addition, according to the present invention, the moisture penetrates into the inside of the ground box has the advantage that can completely prevent the phenomenon of blocking the movement of current and leakage of power.
In addition, according to the present invention, the urethane is filled between the protective box and the grounding box to reinforce the elasticity against impact, and there is an advantage in that moisture does not penetrate according to the watertightness of the urethane.

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1 is a cross-sectional view of a typical optical composite cable,
Figure 2 is a cross-sectional view showing a protective box surrounding the ground box of the present invention,
3 is a view showing the side and the cross section of the protective box of the present invention,
4 is a partial view showing the protector parts of the present invention,
5 is a perspective view of the protective box of the present invention;
6 is a view showing a state that the ground box is seated in the protective box of the present invention.

The present invention relates to a protective box fastening structure of the optical composite cable ground box. Therefore, the configuration and operation of the present invention will be described in detail with reference to FIGS.
As shown, the present invention is connected to the optical composite cable 10 at both ends of the left and right, there is a grounding box (20) for connecting so that the ground terminal 21 is pulled to one side, and surrounds the grounding box 20 as a whole The flanges are coupled to the left and right pairs, and one side accommodates the cable contact portion 31 suitable for the diameter of the optical composite cable 10, the tapered connection portion 32 and the cylindrical grounding box 20 that are tapered in cross section. There is a pair of left and right protection box 30 made of a main body portion 33. Therefore, they are bolted through one side flange portion 34 of the body portion 33 to protect the inner box 20.
The optical composite cable 10 is connected to each other in the ground box 20 is wrapped around the outer peripheral surface with a mechanism to communicate the current. This ground box 20 is already known, the ground box 20 has been exposed to a lot of problems, such as power is lost when exposed to moisture or strong pressure. Therefore, the present invention is provided to solve this problem.
In the present invention, as shown in Figures 2 to 6, the protection box 30 is provided in a left and right pair is provided with a flange portion 34 is formed on one side end of the protection box 30, the flange portion They can be connected to each other by facing 34 and bolting them together. The inner side of the protective box 30 is an empty space, and is composed of a cable tight portion 31, a tapered connecting portion 32 and the main body portion (33).
When the inner diameter of the cable tight portion 31 is pushed into the outer diameter of the optical composite cable 10, the inner and outer circumferential surfaces may be in close contact with each other. After all, the protective box 30 of the present invention is to completely surround the outer box of the ground box 20 to surround the ground box 20 to prevent the impact or moisture penetrates. In order to connect the two optical composite cables 10, a grounding box 20 connecting them is necessary, and the grounding box 20 for such a connection must have watertightness and impact resistance, but the conventional grounding box 20 Could not do this perfectly, the present invention (30) is to do this.
When explaining the fastening method in more detail as follows. When the two optical composite cables 10 are connected through the ground box 20, the shield 30 is inserted so that the optical composite cables 10 pass through, and the flange portion 34 of the body portion 33 is Join in the direction of interviewing each other. At this time, the cable tight portion 31 of the protective box 30 wraps around the outer circumferential surface of the cable 10 in its inner diameter, and the tapered connection portion 32 so as to gently wrap the ground box 20 while expanding the diameter thereof. And, through the body portion 33 to completely protect the ground box (20). And the flange portion 34 of the protective box 30 is coupled to each other by a bolt so as to secure a fastening, so that the ground box 20 can be wrapped without being separated. At this time, since the grounding terminal 21 is formed on the outside of the grounding box 20, the grounding wire 63 connected to the grounding terminal 21 is pulled outward, and the outside of the protective box 30 is provided. It is important to ensure that the ground is fully grounded and grounded.
Then look at a more detailed embodiment of the protective box 30 fastening structure of the present invention.
That is, the protective box 30 according to the present invention is preferably made of FRP (glass reinforcing fiber). Glass-reinforced fibers are strong and tough and do not tear easily. Compared with the manufacture of the protective box 30 using metal, it is not only hard to withstand the load, but also has high usability because it is not torn even in friction with stones or rocks of high hardness, and in the case of metal, rust occurs when interviewed with moisture. The phenomenon occurs, it is advantageous to be used as the material of the protective box 30 as the present invention because the glass reinforcing fiber can avoid such a problem.
In addition, the cable tight portion 31 of the protective box 30 shown in Figures 2, 3, 4 and 5 to form a stepped groove 36 in its inner peripheral surface to improve the water tightness through the O-ring 40. .
The protective box 30 of the present invention may be buried underground in the state of protecting the optical composite cable, or may be buried in accordance with the change of environment in the laid state. In some cases, it may be buried under water, and floods or moisture may penetrate the landfills. At this time, the water is delivered to the ground box 20 which is the inner side of the protective box 30, a phenomenon occurs that the leakage of power occurs. In order to prevent this, in the present invention, stepped grooves 36 are formed on the inner circumferential surface of the cable contact part 31, and the O-ring 40 is inserted into the stepped grooves 36 to prevent water from penetrating. will be.
Next, in the present invention, at the upper end of the main body 33 of the protective box 30, a horizontal support space 50 is formed to expand the inner circumferential surface upward, and an injection hole 51 penetrating up and down is formed at one side. Protective box 30 of the present invention body portion 33 is preferably provided with a horizontal support space 50, a portion of which rises to the top rather than making a perfectly cylindrical. As will be described later, a method for inserting and curing the urethane 60 through the injection hole 51 formed in the horizontal support space 50 is also proposed in the present invention. It is good to have 50.
In other words, in the present invention by filling the urethane 60 between the inner circumferential surface of the protective box 30 in the outer portion of the ground box 20 to improve the solid protection and watertightness of the ground box 20 during the curing of the urethane To help. 6 shows a state of filling the urethane 60, the protective box 30 is mounted to the outside of the ground box 20, and then filled with the urethane 60 through the inlet 51. Separate injection holes 51 are formed in the protective box 30 formed in the left and right pairs, respectively. One side is filled with the urethane 60, the other side is to be an air ball through which air escapes. Which inlet 51 to use for filling the urethane 60 may vary depending on the work site. When the urethane 60 is filled and cured as described above, the urethane 60 is completely filled between the ground box 20 and the protective box 30, even though the protective box 30 is sometimes pressed through a strong pressure. (20) can be completely protected. Urethane (60) inside the protection box (30) has a strong elasticity and the protection box (30) surrounding the outer is tough and strong, perfect ground even in the ground (20) and optical composite cable (10) It can be protected.
In addition, since the urethane 60 has watertightness, it completely blocks the problem of moisture penetration into the inner side of the ground box 20. Occasionally, even if moisture penetrates into the inside of the protective box 30, the uratan 60 layer prevents further water penetration to block the leakage of the ground box.
In other words, the left and right pairs of protection box 30 is flange-coupled and fastened, and the urethane 60 is injected through the inlet 51 of one side, and the inlet 51 of the other side is ejected urethane 60. By controlling), it is possible to improve the robust protection and watertightness of the ground box 20 during the curing of the urethane (60).
The method of filling the urethane 60 is described to inject and cure the liquid urethane 60 into the inlet.
There is an important point here. That is, one side of the protective box 30 or one side of the horizontal support space 50 to form a ground line lead-out hole 65 of the ground terminal 21 to pull out the ground line 63 of the ground box 20 to the outside It is desirable to be able to.
Most optical and power cables have a separate ground wire. It is a line to discharge leakage power to the outside. The optical composite cable 10 according to the present invention also has a separate ground terminal 21 and a ground line 63, which is preferably grounded by being pulled out to the outside of the protective box 30. The conventional grounding box 20 also has a grounding terminal 21 as shown in the drawing, and the grounding terminal 21 is connected to the grounding wire 63 is to come out to the outside, in the present invention the ( 30) By forming a separate ground wire drawing hole 65 to one side of the horizontal support hole (50) is to pull out the ground line 63 to the drawing hole (65).
The outlet hole 65 can be formed in any of the protective box 30 or the horizontal support hole 50, but as shown in the figure to pass through the side of the horizontal support space 50 to remove the ground line 63 Most preferred.
Finally, on the inner circumferential surface of the protective box 30, a pedestal 65 protruding upward is formed to support the ground box 20 having a smaller diameter than the protective box 30. The diameter of the protective box 30 is wider than the outer circumferential diameter of the ground box (20). This is because the protective box 30 must accommodate the ground box 20, and the size of the diameter varies depending on the type of the cable 10 and the ground box 20. Therefore, when the optical composite cable and the ground box 20 is seated inside the protective box 30, the ground box 20 by gravity acts on the ground and falls down to the inner circumferential surface of the protective box 30 so that it is not accurately centered. . Therefore, to solve this problem is to support the grounding box 20 by protruding the pedestal 65 supporting the grounding box 20 from below.

10; Optical composite cable 20; Ground box
21; Ground terminal 30; Protection
31; Cable tightness 32; Taper connection
33; Main body portion 34; Flange part
36; Step groove 40; O-ring
50; Horizontal support space 51; Inlet
60; Urethane 63; Ground wire
65; Withdrawal ball

Claims (8)

A ground box 20 for connecting the optical composite cables 10 at both ends thereof to each other, and connecting the ground terminal 21 to one side thereof to be pulled out;
The flange is coupled to the left and right pairs so as to surround the ground box 20 as a whole, one side of the cable contact portion 31 corresponding to the diameter of the optical composite cable 10, and the tapered connection portion 32 and the tapered end of the cross section is cylindrical Left and right pair of protection box 30 consisting of a main body portion 33 to accommodate the ground box 20 as a whole; is coupled to the bolt through one side of the flange portion 34 of the main body portion 33 to the inner ground Protective box fastening structure of the optical cable grounding box, characterized in that to protect the box (20).
The method of claim 1,
Protective box 30 is a protective box fastening structure of the optical cable grounding box, characterized in that made of FRP (glass reinforcing fiber).
The method of claim 2,
The cable contact portion 31 of the protective box 30,
Protector fastening structure of the optical composite cable grounding box, characterized in that to form a stepped groove 36 to the inner peripheral surface to improve the watertightness through the O-ring (40).
The method of claim 1,
At the upper end of the main body 33 of the protective box 30, a horizontal support space 50 is formed to expand the inner circumferential surface to the upper side, and one side is formed with an injection hole 51 penetrating up and down. Protective box fastening structure of cable ground box.
The method of claim 4, wherein
Light is characterized in that the urethane 60 is filled between the inner circumferential surface of the protective box 30 in the outer portion of the ground box 20 to improve the robust protection and watertightness of the ground box 20 when the urethane is cured. Protector fastening structure of composite cable ground box.
The method of claim 4, wherein
Left and right pair of protection box 30 is coupled to the flange is coupled, injecting urethane 60 through the inlet 51 of the one side, the inlet 51 of the other side to control the urethane 60 is ejected, urethane Protector fastening structure of the optical composite cable grounding box, characterized in that to improve the tight protection and watertightness of the grounding box (20) during the curing of (60).
The method according to claim 1 or 4,
One side of the protective box 30 or one side of the horizontal support space 50 forms a ground line lead-out hole 65 of the ground terminal 21 so that the ground line 63 of the ground box 20 can be pulled outward. Protective box fastening structure of the optical cable grounding box, characterized in that.
The method of claim 1,
On the inner circumferential surface of the protective box 30,
Protector fastening structure of the optical composite cable grounding box, characterized in that to support the grounding box (20) having a smaller diameter than the protective box (30) by forming a pedestal (65) protruding upwards.

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