KR102404448B1 - Fixing device for underground cables - Google Patents

Abstract

Disclosed is a fixing device for an underground cable that can stably fix the cable even if the cable laid underground is stretched as the period of use elapses. To this end, for an underground cable comprising a cover member including a first cover member and a second cover member surrounding the outside of the cable to hold one or more cables, and a fastening member connecting the first cover member and the second cover member In the fixing device, the cover member has a central portion having a uniform inner diameter to block movement of the cable, and a first inner curved surface that provides a space for the cable to enter into the central portion and is gradually reduced toward the central portion. It provides a fixing device for an underground cable comprising a first end and a second end portion having a second inner curved surface that provides a space through which the cable passing through the central portion is discharged, and is gradually expanded while moving away from the central portion. According to the present invention, since the curved surface is formed in the portion in contact with the cable, damage to the cable due to expansion and contraction can be suppressed.

Description

FIXING DEVICE FOR UNDERGROUND CABLES

The present invention relates to a fixing device for an underground cable used to install a cable carrying power, and more particularly, to an underground cable that can stably fix the cable even if the cable laid underground is stretched as the period of use elapses. It's about fixtures.

In general, power distribution cables are buried underground or installed in underground power outlets, or installed on the ground using a pylon. In particular, since the underground power cable installed in the electric power tube conduit connects the power cable to an intermediate point at regular lengths, and the power cable rises to the terminal side, the power cable is installed in a horizontal part, an inclined part, and a standing part.

The laying of these power cables is arranged in three phases, and the power cables arranged in three phases are laid in multiple layers using trays.

When installing three-phase power cables, various types of installation such as equilateral triangle arrangement, horizontal arrangement, and vertical arrangement are made.

1 is a perspective view showing the installation of a horizontal arrangement for a conventional three-phase power cable. Referring to FIG. 1 , the three-phase power cables are laid in an equilateral triangle arrangement and are horizontally offset in a predetermined section to be laid in a horizontal arrangement.

Specifically, in the installation, the vertical tray 10 and the horizontal tray 20 are installed at a predetermined interval, and then the fixing clamp 30 is installed thereon to fix the power cable 40, and in some areas, the pedestal 50 is installed. It is installed and arranged in the form in which the power cable 40 is seated.

In the fixing clamp 30, a bolt 60 is inserted into the fastening hole 22 formed in the horizontal tray 20 to fix the power cable 40, and the pedestal 50 is of a type having a predetermined radius. The cable 40 is seated within the radius and a straight cutout is formed at the bottom to be fitted in the horizontal tray 20 .

2 is a perspective view showing a conventional installation form of an offset section of a three-phase power cable. Referring to FIG. 2 , the three-phase power cables 40 installed in an equilateral triangle arrangement are installed while being offset in a predetermined section. In this equilateral triangle arrangement, the three-phase power cable 40 is laid in an equilateral triangle by the triangular clamp 30, which is offset while the three-phase power cable 40 is spaced apart at a predetermined angle in the offset section. At this time, the offset power cable 40 is fixed by the vertical tray 10 and the 'L'-shaped horizontal tray 20 and the fulcrum 50 in the horizontal section.

The vertical tray 10 is fixed to the wall in the electric power pipe conduit, the horizontal tray 20 is fixed to the vertical tray 10 to form a level, and the fulcrum 50 is coupled to the upper part of the horizontal tray 20 to form the fulcrum. The upper offset of three power cables 40 of 50 are installed, respectively.

Power cables laid in this form are installed due to electrical and structural reviews according to the power system. In addition, in terms of stable supply of power, improvement of supply reliability, and beautification of power supply in densely populated downtown areas, undergroundization of power cables in all fields is essential and is continuously increasing.

However, it is also true that in the case of a cable fixing device using a clamp, etc., the edge of the power cable comes into contact with the power cable due to the movement of the power cable, damaging the power cable and causing a breakdown of the underground line.

Moreover, there are electrical accidents such as 1-wire ground fault, 2-wire ground fault, line-to-line short circuit, and 3-phase short circuit as underground line fault conditions, and thermal motion caused by fault current generated in these fault conditions has a huge impact on the underground line.

Heating motion caused by fault current in such a fault situation causes severe fluctuations and splashing of the power cable. It is often the case that strikes occur, and secondary accidents occur as a result.

In addition, in the place where the power cable 40 is seated with the fulcrum 50, a phenomenon occurs in which the power cable 40 jumps upward due to the heat movement. In addition, in the section in which the power cable 40 is fixed by the fixing clamp 30, the above-described bouncing phenomenon does not occur, but this fixing structure cannot absorb the thermal motion when a fault current occurs, and the thrust 50 section There was a problem in that severe enumeration sinus occurred.

Similarly, since the triangular clamp 30 is also completely fixed so that there is no fluidity, heat motion is not absorbed when a fault current occurs, and there is a problem that severe heat motion occurs in the section of the thrust 50 .

Republic of Korea Patent Registration No. 10-1484722 (Announcement on January 20, 2015) Republic of Korea Patent Publication No. 10-2019-0045558 (published on May 3, 2019) Republic of Korea Patent No. 10-2077540 (announced on Feb. 14, 2020) Republic of Korea Patent Publication No. 10-2011-0077597 (published on July 7, 2011)

Therefore, an object of the present invention is to prevent damage to the cable even when the expansion and contraction phenomenon occurs when the cable is used, and to prevent a secondary accident even when the cable is heated by a fault current. is to provide

In order to achieve the above object of the present invention, in one embodiment of the present invention, a cover member including a first cover member and a second cover member surrounding the outside of the cable to hold one or more cables, and the first cover member In the fixing device for an underground cable comprising a fastening member connecting the and a second cover member, the cover member provides a central portion having a uniform inner diameter to block movement of the cable, and a space through which the cable enters the central portion and a first end portion having a first inner curved surface that is gradually reduced toward the center portion, and a second end portion having a second inner curved surface that provides a space through which the cable passing through the center portion is discharged and gradually expands away from the center portion It provides a fixing device for the underground cable including.

According to the present invention, since a curved surface is formed on the inner surface of the fixing device for an underground cable in contact with the cable, damage to the cable is inhibited even if friction occurs between the fixing device for an underground cable and the cable due to the expansion and contraction of the cable.

In addition, since the present invention can stably fix three cables and provide a space for movement of the cables, it absorbs thermal motion caused by a fault current to prevent secondary accidents caused by heat winter of the cable. can do.

1 is a perspective view showing the installation of a horizontal arrangement for a conventional three-phase power cable.
2 is a perspective view showing a conventional installation form of an offset section of a three-phase power cable.
Figure 3 is a front view showing a first embodiment of the fixing device for an underground cable according to the present invention.
4 is a plan view showing a first embodiment of a fixing device for an underground cable according to the present invention.
5 is a right side view showing a first embodiment of a fixing device for an underground cable according to the present invention.
6 is an exploded perspective view showing a second embodiment of a fixing device for an underground cable according to the present invention.
7 is a front view showing a second embodiment of the fixing device for an underground cable according to the present invention.
8 is a plan view showing a second embodiment of the fixing device for an underground cable according to the present invention.
9 is a right side view showing a second embodiment of a fixing device for an underground cable according to the present invention.
10 is an exploded perspective view showing a third embodiment of the fixing device for an underground cable according to the present invention.
11 is a cross-sectional view showing a fourth embodiment of a fixing device for an underground cable according to the present invention.
12 is an exploded perspective view showing a fourth embodiment of a fixing device for an underground cable according to the present invention.

Hereinafter, a fixing device for an underground cable according to preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a front view showing a first embodiment of the fixing device for underground cables according to the present invention, Figure 4 is a plan view showing a first embodiment of the fixing device for underground cables according to the present invention, Figure 5 is in the present invention It is a right side view showing a first embodiment of a fixing device for an underground cable according to the present invention.

3 to 5 , the fixing device for an underground cable according to the present invention includes a first cover member 110 and a second cover member 150 surrounding the outside of the cable 20 to hold one or more cables 20 . ) including a cover member 100, and fastening members 210 and 220 connecting the first cover member 110 and the second cover member 150, wherein the cover member 100 has its longitudinal direction Accordingly, it may be divided into a central portion 101 , a first end portion 102 , and a second end portion 103 .

Hereinafter, each component will be described in more detail with reference to the drawings.

3 to 5 , the fixing device for an underground cable according to the present invention includes a cover member 100 .

The cover member 100 binds one or more cables 20 installed underground so that one or more cables 20 installed in the ground can be stably fixed to the support frame 10 installed on the inner wall of the electric power outlet. As a connection, it includes a first cover member 110 that surrounds a portion of the one or more cables 20 from the outside, and a second cover member 150 that surrounds the rest of the one or more cables 20 from the outside. do.

For example, the cover member 100 used for a single cable 20 may be formed to have a cylindrical shape as a whole as shown in FIG. 3 .

Figure 6 is an exploded perspective view showing a second embodiment of the fixing device for an underground cable according to the present invention, Figure 7 is a front view showing a second embodiment of the fixing device for an underground cable according to the present invention, Figure 8 is the present invention It is a plan view showing a second embodiment of the fixing device for an underground cable according to, Figure 9 is a right side view showing a second embodiment of the fixing device for an underground cable according to the present invention.

6 to 9 , the cover member 100 used for the three-phase cable 20 may be formed to have a triangular prism shape as shown in FIGS. 6 and 7 as a whole.

The first cover member 110 and the second cover member 150 have one or more cables 20 , preferably three cables 20 , to be fixed to the support frame 10 , and thus have a cable bundling function and a Provides a fixed function.

As for the first cover member 110 and the second cover member 150, assembly blocks are formed on both sides, respectively, and a fastening hole through which the fastening member is assembled is formed in these assembling blocks.

The first cover member 110 and the second cover member 150 are formed of a fire-resistant synthetic resin that does not burn.

If necessary, a fixing groove (not shown) may be formed in the lower portion of the second cover member 150 to be smoothly installed on the support frame 10 . At this time, since the fixing groove has a structure to be caught by being inserted into the support frame 10 , the second cover member 150 is safely supported through the support frame 10 , and the second cover member 150 and the first cover member ( No interference with the fixed cable 20 between 110 ) occurs.

In this way, the first cover member 110 and the second cover member 150 are assembled with each other through the fastening members 210, 220, 230, and 240, and are fastened to the support frame 10 while being fastened to a power transmission/distribution cable installed in an underground power outlet ( 20) is fixed to the support frame (10).

In addition, the through hole 12 formed in the support frame 10 supporting the cable 20 while supporting the cable 20 is fastened with a bolt passing through the fastening hole of the first cover member 110 and the second cover member 150 . When the member is accommodated and the nut is coupled with the bolt, the cover member 100 is firmly fixed to the support frame 10 .

On the other hand, the cover member 100 composed of the first cover member 110 and the second cover member 150 has a central portion 101 and a first distal portion 102 and It may be divided into a second distal end 103 . At this time, the central portion 101, the first end portion 102, and the second end portion 103 are formed in a state in which the first cover member 110 and the second cover member 150 are in close contact with each other.

Specifically, the central portion 101 constituting the cover member 100 according to the present invention is a portion having a constant inner diameter to block the movement of the cable 20, the first cover member 110 and the second cover member 150 ) is formed in the center of The central portion 101 may be formed to have the same inner diameter, or may be formed to have an inclination angle within 5 to 10° along the longitudinal direction.

The central portion 101 is formed to have a uniform internal space along the longitudinal direction of the cover member 100 so that one or more, preferably three, cables 20 are stably bundled and independent movement is blocked. For example, in the central portion 101, a cable passage having a cross-sectional area of a certain size is formed therein.

This central portion 101 is composed of the central portion 101 of the first cover member 110 and the central portion 101 of the second cover member 150, since there is no free space in which the cable 20 can move. It is unnecessary to install a buffer pad to absorb the shock caused by the expansion or contraction of the cable 20 or the opening movement.

The first end portion 102 constituting the cover member 100 according to the present invention provides a space for the cable 20 to enter the central portion 101, and the first end portion 102 is gradually reduced toward the central portion 101. 1 has an inner curved surface. The first end portion 102 is formed at the front end of the first cover member 110 and the second cover member 150 positioned in front of the central portion 101 .

The first end portion 102 is the one or more cables 20 bundled with the cover member 100, even if movement occurs in the vertical, left, and right directions due to expansion and contraction or opening movement, the edge portion of the front of the cover member 100 is the cable 20 ), a curved surface is formed in a portion in contact with the cable 20 from the front of the cover member 100 so as not to come into contact with it. For example, the first end portion 102 is formed with a cable passage having a fallopian tube structure therein.

In other words, as shown in FIG. 4 , the first distal portion 102 has the widest internal cross-sectional area at the position farthest from the central portion 101 in the opposite direction to the central portion 101 , and the inner cross-sectional area closely adhered to communicate with the central portion 101 . This is the narrowest form. In addition, the first distal end portion 102 is formed to have an internal cross-sectional area closely contacted with the central portion 101 to have the same cross-sectional area as the inner cross-sectional area of the central portion 101 .

10 is an exploded perspective view showing a third embodiment of a fixing device for an underground cable according to the present invention, and FIG. 11 is a cross-sectional view showing a fourth embodiment of the fixing device for an underground cable according to the present invention.

10 and 11 , the cover member 100 according to the present invention may further include a first elastic member 104 . This first elastic member 104 is closely attached to the cable 20 so that the cable 20 is not bent when the movement of the cable 20 in the vertical, horizontal, left and right directions does not occur due to expansion or contraction or heat movement. It is provided on the first inner curved surface to support it.

In other words, the first inner curved surface can prevent damage to the surface of the cable 20 by forming a curved surface on the inner surface to which the cable 20 comes into contact when the cable 20 is moved by expansion or contraction or heat movement, but However, when the same enumeration does not occur, it may cause a problem of forming a free space in which the cable 20 can move.

The above-described first elastic member 104 is provided to compensate for the disadvantage of the first inner curved surface that it is difficult to stably support the cable 20 in a state where there is no expansion or contraction or heat movement.

To this end, the first elastic member 104 is preferably formed to have a smaller inner space than the central portion (101). This is because the inner space of the first elastic member 104 is expanded to the level of the central portion 101 by the elastic force of the first elastic member 104 when the cable 20 is inserted into the first end portion 102 . .

In other words, a cable passage having a reduced cross-sectional area than that of the central portion 101 is formed inside the first elastic member 104 .

12 is an exploded perspective view showing a fourth embodiment of the fixing device for an underground cable according to the present invention.

Referring to FIG. 12 , the first distal portion 102 according to the present invention may be configured to be detachable from the central portion 101 . And the rear end of the first distal portion 102 is formed to have an inner diameter corresponding to the outer diameter of the central portion 101 so as to be assembled to the central portion (101).

This first end portion 102 may be used in a conventional fixing device for an underground cable when the central portion 101 is configured to be the same as the conventional fixing device for an underground cable.

The second end portion 103 constituting the cover member 100 according to the present invention provides a space through which the cable 20 passing through the central portion 101 is discharged, and is gradually expanded as it moves away from the central portion 101 . It has a second inner curved surface. The second end portion 103 is formed at rear ends of the first cover member 110 and the second cover member 150 .

The second end portion 103 is formed at the rear end of the first cover member 110 and the second cover member 150 positioned at the rear of the central portion 101 .

The second end portion 103 is the one or more cables 20 bundled with the cover member 100, even if movement occurs in the vertical, left, right, and left directions due to expansion and contraction or heat movement, the edge portion of the rear of the cover member 100 is the cable 20 ) to form a curved surface in a portion in contact with the cable 20 from the rear of the cover member 100 so as not to contact the cable 20 . For example, the second end portion 103 is formed with a cable passage having a fallopian tube structure therein.

In other words, as shown in FIG. 4 , the second end portion 103 has the widest internal cross-sectional area at the position farthest from the central portion 101 in the opposite direction to the central portion 101 , and has an internal cross-sectional area closely contacted to communicate with the central portion 101 . This is the narrowest form. In addition, the second distal portion 103 is formed to have an internal cross-sectional area in close contact with the central portion 101 to have the same cross-sectional area as the inner cross-sectional area of the central portion 101 .

10 and 11 , the cover member 100 according to the present invention may further include a second elastic member 105 . The second elastic member 105 is closely attached to the cable 20 so that the cable 20 is not bent when the movement of the cable 20 in the vertical, horizontal, left and right directions does not occur due to expansion or contraction or heat movement. It is provided on the second inner curved surface to support it.

In other words, the second inner curved surface can prevent damage to the surface of the cable 20 by forming a curved surface on the inner surface to which the cable 20 is in contact when the cable 20 is moved by expansion and contraction or heat movement. However, when the same enumeration does not occur, it may cause a problem of forming a free space in which the cable 20 can move.

The above-described second elastic member 105 is provided to compensate for the disadvantage of the second inner curved surface that it is difficult to stably support the cable 20 in a state where there is no expansion or contraction or heat movement.

To this end, the second elastic member 105 is preferably formed to have a smaller inner space than the central portion (101). This is because, when the cable 20 is inserted into the inside of the second end portion 103 , the inner space of the second elastic member 105 is expanded to the level of the central portion 101 by the elastic force of the second elastic member 105 . .

In other words, a cable passage having a reduced cross-sectional area than that of the central portion 101 is formed inside the second elastic member 105 .

As a specific aspect, the second distal portion 103 according to the present invention may be configured to be detachable from the central portion 101 as shown in FIG. 7 . And the front end of the second end portion 103 is formed to have an inner diameter corresponding to the outer diameter of the central portion 101 so as to be assembled to the central portion (101).

The second end portion 103 may be used in the existing fixing device for the underground cable when the central portion 101 is configured to be the same as the existing fixing device for the underground cable.

On the other hand, the first cover member 110 and the second cover member 150 are first injection-molded, and then the first cover member 110 and the second cover member 150 are secondarily formed by the first elastic member 104 . ) and the second elastic member 105 may be integrally attached through the extrusion molding operation.

3 to 9 , the fixing device for an underground cable according to the present invention includes fastening members 210 , 220 , 230 , and 240 .

The fastening members 210 , 220 , 230 , and 240 connect the first cover member 110 and the second cover member 150 , and the first cover member 110 and the second cover member 150 are the assembly blocks formed on both sides of the assembly block. It may be composed of a bolt inserted into the fastening hole, and a nut coupled to an end of the bolt.

As a specific aspect, the fastening member according to the present invention may include a first bolt 210 , a first nut 220 , a second bolt 230 , and a second nut 240 .

The first bolt 210 passes through the fastening hole of the first assembly block 120 formed on the left side of the first cover member 110, and then a second cover member ( After passing through the fastening hole of the third assembly block 160 formed on the left side of 150), the ends are coupled to the first nut 220 so that the left sides of the first cover member 110 and the second cover member 150 are removed. fasten

The second bolt 230 passes through the fastening hole of the second assembly block 130 formed on the right side of the first cover member 110 , and then a second cover member ( After passing through the fastening hole of the fourth assembly block 170 formed on the right side of 150 , the ends are coupled to the second nut 240 , and the right side of the first cover member 110 and the second cover member 150 . fasten

If necessary, in order to couple the first cover member 110 and the second cover member 150 to the support frame 10 installed on the wall in the electric power supply pipe, the end of the first bolt 210 is After passing through 110 and the second cover member 150 and passing through the through hole 12 formed in the support frame 10 , it is coupled to the first nut 220 , and the end of the 2 bolts is the first cover member 110 . ) and the second cover member 150 and may be coupled to the second nut 240 after passing through the through hole 12 formed in the support frame 10 .

Although described above with reference to preferred embodiments of the present invention, those skilled in the art can variously modify and change the present invention within the scope without departing from the spirit and scope of the present invention as set forth in the following claims. You will understand that you can.

100: cover member 101: central part
102: first end 103: second end
104: first elastic member 105: second elastic member
110: first cover member 120: first assembly block
130: second assembly block 150: second cover member
160: third assembly block 170: fourth assembly block
210: first bolt 220: first nut
230: second bolt 240: second nut
10: support frame 12: through hole
20: cable

Claims (4)

A fixing device for an underground cable comprising a cover member including a first cover member and a second cover member surrounding the outside of the cable to hold one or more cables, and a fastening member connecting the first cover member and the second cover member In
The cover member is
A central portion having a uniform inner diameter to block the movement of the cable;
a first distal end portion having a first inner curved surface of a fallopian tube structure that provides a space for the cable to enter the central portion and is gradually reduced toward the central portion so that the edge portion of the front of the cover member does not come into contact with the cable;
a second end portion having a second inner curved surface of a fallopian tube structure that provides a space through which the cable passing through the central portion is discharged, and gradually expands away from the central portion so that the edge portion of the rear of the cover member does not come into contact with the cable;
A first elastic member provided to support the cable by being in close contact with the cable on the first inner curved surface, and
A fixing device for an underground cable comprising a second elastic member provided to support the cable by being in close contact with the cable on the second inner curved surface. delete According to claim 1, wherein the first elastic member and the second elastic member
A fixing device for an underground cable, characterized in that it is formed to have an internal space smaller than that of the central part. According to claim 1,
The first end portion and the second end portion are configured to be detachable from the central portion, and the rear end of the first end portion is formed to have an inner diameter corresponding to the outer diameter of the central portion so as to be assembled to the central portion, and the front end of the second end portion is A fixing device for an underground cable, characterized in that it is formed to have an inner diameter corresponding to the outer diameter of the central portion so as to be assembled in the central portion.

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