KR102245413B1 - Underground Cable Support Device - Google Patents

Abstract

The present invention provides a prefabricated cable support device for underground distribution that can improve the bearing capacity of a cable. The prefabricated cable support device includes a notch (32) formed at an upper end of a vertical channel (30); an upper clasp (44) formed on an upper portion of an assembly channel (40) located at the uppermost end, and fitted to the notch (32); a connecting plate (45) formed on the upper portion of the assembly channel (40) except for the assembly channel 40 located at the uppermost end; a step-shaped bent part (46) formed between the assembly channel (40) and the connecting plate (45); a through hole (45h) formed in the connecting plate (45); a protruding boss (47) formed on a lower front surface of the assembly channel (40) and protruding through the through hole (45h); a tap hole (47t) formed in the center of the protruding boss (47); a cap washer (50) covering a front end of the protruding boss (47) and pressing the connecting plate (45); and a connecting bolt (51) coupled to a tap hole (47t) through the cap washer (50).

Description

Assembled cable support device for underground power distribution {Underground Cable Support Device}

The present invention relates to a prefabricated cable support device for underground distribution, and more particularly, to an prefabricated cable support device for underground power distribution capable of improving the bearing capacity of the cable.

Underground lines are mainly installed in areas where overhead line facilities are technically impossible and maintenance is difficult, especially in areas where overhead lines are concentrated, high load density, and high-rise buildings to provide supply capacity. It is installed in places where it is technically difficult to configure multiple lines to secure.

In the conventional cable support device used in such an underground line, as shown in the accompanying drawings, FIGS. 1 and 2, the vertical long hole 12 is fixed in the vertical direction on the angle 11 installed perpendicularly to the wall surface 10 of the power tool. It is formed so as to form an interval, and a "T"-shaped stopper 13 that is inserted into the vertical hole 12 is formed on the side of the cable support 14, and at a right angle at the center of the lower end of the cable support 14 When the bent locking protrusion 15 is formed so that the cable support 14 is tilted upward, the catch 13 is inserted into the vertical long hole 12 and then the cable support 14 is lowered horizontally. At the same time, the locking projection 15 formed on the cable support 14 is caught on the end of the angle 11 at the same time that the vertical long hole 12 is caught.

That is, the latch 13 formed on the cable support 14 serves to prevent lateral separation, and the latch 15 serves to keep the cable support 14 horizontal.

However, in such a conventional cable support device, since the cable support 14 is in the form of a narrow straight line, there is a problem that the insulation coating of the cable is easily damaged as the load is concentrated on the insulation coating area of the cable.

Korean Registered Patent Publication No. 10-1019372 (announced 2011.03.07.) Korean Registered Patent Publication No. 10-0920148 (announcement date 2009.10.05.)

The present invention has been made to solve the above problems, and an object of the present invention is to provide an assembled cable support device for underground distribution that can evenly support a load applied from a cable sagging by its own weight.

The prefabricated cable support device for underground distribution for achieving the object of the present invention includes a vertical channel installed on a wall surface of an underground structure; Slide grooves formed on both sides of the vertical channel; An assembly channel in close contact with the front and both sides of the vertical channel and connected in series along the longitudinal direction of the vertical channel; A locking step formed in a direction facing each other at the rear end of the assembly channel and caught in the slide groove; A curved support plate installed in front of the assembly channel and supporting a cable that is bent by its own weight; Including a reinforcing rib formed on the front side of the assembly channel to support the lower portion of the curved support plate,
A notch portion formed at an upper end of the vertical channel; An upper clasp formed on the top of the assembly channel positioned at the top end, and fitted to the notch portion; A connection plate formed on the top of the remaining assembly channels except for the assembly channel located at the top; Step-shaped bent portion formed between the assembly channel and the connection plate; A through hole formed in the connection plate; A protruding boss formed on the lower front surface of the assembly channel and protruding through the through hole; A tap hole formed in the center of the protruding boss; A cap washer that covers the tip of the protruding boss and presses the connection plate; It is characterized by including a connection bolt that is coupled to the tapped hole through a cap washer.

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In the present invention as described above, since the curved support plate 42 is formed with a curvature corresponding to the curvature of the cable 22 bent by its own weight, it is possible to support the load applied from the cable 22 widely and evenly. have.

Since the number of assembly channels 40 assembled in series can be arbitrarily changed, there is an effect that can respond quickly and conveniently according to the amount of cable 22 installed.

Since the locking projection 41 formed at the rear end of the assembly channel 40 is caught in the slide groove 31 formed in the vertical channel 30, the assembly channel 40 is prevented from being separated from the vertical channel 30 There is an effect that can be done.

Assembly work because assembly is completed by sliding the assembly channel 40 along the longitudinal direction of the vertical channel 30 and then inserting the upper clasp 44 of the assembly channel 40 located at the top of the notch 32 into the notch 32 There is an effect that can be done quickly and conveniently.

After inserting the protruding boss (47) into the through hole (45h) formed in the connection plate (45), several assembly channels (40) are assembled in series using the cap washer (50) and the connection bolt (51). Therefore, there is an effect that the assembly work becomes convenient.

There is an effect that the connection plate 45 can be brought into close contact with the front of the assembly channel 40 by the stepped bent portion 46 formed between the connection plate 45 and the assembly channel 40.

Since the end of the protruding boss 47 protruding through the connection plate 45 is covered with a cap washer 50 and fixed with a connection bolt 51, there is an effect of preventing separation between the assembly channels 40. have.

1 is a front perspective view showing a conventional cable support device
Figure 2 is a rear exploded perspective view showing a conventional cable support device
3 is an exploded perspective view according to the present invention
Figure 4 is an exploded perspective view showing an assembly channel according to the present invention
5 is an exploded perspective view of the bottom side of FIG. 4
6 is a front view according to the present invention
7 is a cross-sectional view taken along line A-A' of FIG. 6
8 is a cross-sectional view taken along line B-B' of FIG. 6
9 is a perspective view according to the present invention
10 is a rear perspective view of FIG. 9

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

As shown in the accompanying drawings 3 to 10, the present invention includes a vertical channel 30 installed on the wall surface 21 of the underground structure 20; Slide grooves 31 formed on both sides of the vertical channel 30; An assembly channel 40 in close contact with the front and both sides of the vertical channel 30 and connected in series along the length direction of the vertical channel 30; It is formed in a direction facing each other at the rear end of the assembly channel 40, and includes a locking projection 41 that is caught in the slide groove 31.

The vertical channel 30 may be formed by bending a metal plate having a certain thickness, and the slide groove 31 formed in the vertical channel 30 may be formed to form a symmetrical shape in a U shape as shown in FIG. 7. I can.

The assembly channel 40 may be formed by bending a metal plate having a certain thickness, and may be connected in a plurality of vertical directions.

The present invention is installed in front of the assembly channel 40, the curved support plate 42 for supporting the cable 22 bent by its own weight; A reinforcing rib 43 formed on the front side of the assembly channel 40 to support the lower portion of the curved support plate 42; A notch 32 formed at the upper end of the vertical channel 30; It is formed on the top of the assembly channel 40 located at the top, and includes an upper clasp 44 that is fitted to the notch 32.

The curved support plate 42 is formed to have a curvature corresponding to the curvature of the cable 22 sagging by its own weight, as shown in FIGS. 6, 9 and 10, and has a semicircular cross section to match the cross section of the cable 22 It is configured to have.

The reinforcing rib 43 is for transmitting the load applied from the cable 22 to the curved support plate 42 to the assembly channel 40.

As shown in the enlarged view of FIG. 9, the notch 32 may be formed in a U shape on the upper end of the vertical channel 30, and the upper clasp 44 is reversed as shown in FIGS. 4 and 8. ) It can be formed in a U shape.

The present invention is a connection plate 45 formed on the top of the assembly channel 40 except for the assembly channel 40 located at the top; Step-shaped bent portion 46 formed between the assembly channel 40 and the connection plate 45; It includes a through hole (45h) formed in the connection plate (45).

The bent part 46 is for further forming the connection plate 45 at a distance corresponding to the thickness of the assembly channel 40 so that the connection plate 45 is in close contact with the front of the assembly channel 40.

The present invention is formed on the lower front of the assembly channel 40, the protruding boss 47 protruding through the through hole (45h); A tap hole 47t formed in the center of the protruding boss 47; A cap washer 50 that covers the tip of the protruding boss 47 and presses the connection plate 45; It includes a connection bolt 51 coupled to the tap hole (47t) through the cap washer (50).

As shown in FIG. 7, when the cap washer 50 is fitted to the tip of the protruding boss 47, the connection bolt 51 is made so that the tip of the protruding boss 47 is spaced apart from the inside of the hole formed in the cap washer 50. The compression force transmitted from the cap washer 50 so that it is directly transmitted to the connection plate 45.

The present invention is a welding rib 33 that is bent in a direction away from each other at the rear end of the vertical channel 30; It includes a wall fixing bracket 34 to be welded to the rear surface of the welding rib (33).

A long hole (34h) is formed in the wall fixing bracket (34), and the wall fixing bracket (34) can be fixed to the wall surface (21) using concrete nails (signs omitted).

Hereinafter, the operation according to the present invention will be described in detail with reference to the accompanying drawings.

3 to 10, the protruding boss 47 formed at the bottom of the assembly channel 40 is inserted into the through hole 45h of the connection plate 45 formed on the assembly channel 40, as shown in FIGS. Next, when the protruding boss 47 protruding outward is covered with a cap washer 50 and the connecting bolt 51 is coupled to the tap hole 47t formed in the protruding boss 47 through the cap washer 50, several assembly channels ( 40) can be connected in a line.

Thereafter, before installing the vertical channel 30 on the wall surface 21, the assembly channel 40 is in a state in which the locking protrusion 41 formed in the assembly channel 40 located at the bottom is aligned with the upper end of the slide groove 31. When sliding along the vertical channel 30 and fitting, the assembly channel 40 is assembled while sliding along the surface of the vertical channel 30.

At this time, when the upper clasp 44 formed on the top of the assembly channel 40 located at the top is inserted into the notch 32 formed in the vertical channel 30 and fastened, the assembly channel 40 is the front of the vertical channel 30 The locking projections 41 which are in close contact with the side and the assembly channel 40 are caught in the slide groove 31.

In order to install the vertical channel 30 to which the assembly channel 40 is coupled to the wall surface 21 of the underground structure 20, the vertical channel 30 is vertically in close contact with the wall surface 21 of the underground structure 20. In the state that the concrete nail is inserted into the wall surface 21 of the underground structure 20 through the long hole 34h formed in the wall fixing bracket 34, the vertical channel 30 is installed vertically on the wall surface 21.

On the other hand, when the cable 22 is placed on the curved support plate 42 of the assembly channel 40 assembled on the vertical channel 30 installed on the wall surface 21 of the underground structure 20, Figs. 6, 9 and As shown in FIG. 10, the portion of the cable 22 that was not supported by the curved support plate 42 is drooped down by its own weight, and the cable 22 is laid in a wave shape, at this time, the curved support plate 42 formed in a curved shape. ) Will evenly support the load applied from the cable 22.

At this time, when the load is transmitted from the cable 22 to the assembly channel 40 through the curved support plate 42, it has a load transmission path that is transmitted to the vertical channel 30 through the upper clasp 44 and the notch part 32. do.

In addition, the assembly channels 40 connected in series support each other by the protruding boss 47 and the connection plate 45, and all vertical loads are concentrated and transmitted to the upper clasp 44 at the top.

20: underground structure 21: wall
22: cable 30: vertical channel
31: slide groove 32: notch
33: welding rib 34: wall fixing bracket
34h: long hole 40: assembly channel
41: locking jaw 42: curved support plate
43: reinforcing rib 44: upper clasp
45: connecting plate 45h: through hole
46: bent part 47: protruding boss
47t: tapped hole 50: cap washer
51: connecting bolt

Claims (2)

A vertical channel 30 installed on the wall surface 21 of the underground structure 20;
Slide grooves 31 formed on both sides of the vertical channel 30;
An assembly channel 40 in close contact with the front and both sides of the vertical channel 30 and connected in series along the longitudinal direction of the vertical channel 30;
A locking protrusion 41 formed in a direction facing each other at the rear end of the assembly channel 40 and caught in the slide groove 31;
A curved support plate 42 installed in front of the assembly channel 40 and supporting a cable 22 that is bent by its own weight;
A reinforcing rib 43 formed in front of the assembly channel 40 to support a lower portion of the curved support plate 42;
In the prefabricated cable support device for underground distribution comprising a,

A notch 32 formed at an upper end of the vertical channel 30;
An upper clasp 44 formed on the top of the assembly channel 40 positioned at the uppermost end and fitted to the notch 32;
A connection plate 45 formed on the top of the assembly channel 40 other than the assembly channel 40 located at the top;
A stepped bent portion 46 formed between the assembly channel 40 and the connection plate 45;
A through hole (45h) formed in the connection plate (45);
A protruding boss 47 formed on the lower front surface of the assembly channel 40 and protruding through the through hole 45h;
A tap hole (47t) formed in the center of the protruding boss (47);
A cap washer (50) covering the tip of the protruding boss (47) and pressing the connection plate (45);
A connection bolt 51 coupled to the tap hole 47t through the cap washer 50;
Prefabricated cable support device for underground distribution, characterized in that it comprises a. delete

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