KR102349404B1 - Underground Cable Stacking Device - Google Patents

Abstract

The present invention relates to a cable stacking device for underground distribution, suitable for laying power cables in a honeycomb shape, comprising: an angle maintenance spacer (70) positioned between the intersection part of a V-angle (30) for cable support and a vertical angle (40) for cable side support and positioned between the intersection part of a cable cover angle (50) and the vertical angle (40) for cable side support; a diagonal slider (71) formed at one end of the angle maintenance spacer (70) and sliding in an oblique direction along inclined long holes (31, 54); an elevating slider (72) formed at the other end of the angle maintenance spacer (70) and sliding in the vertical direction along vertical long holes (41, 42); and a through hole (73) through which the diagonal slider (71) and the elevating slider (72) pass through the center of the angle maintenance spacer (70), and through which an intersection part fastening bolt (60) passes.

Description

Underground Cable Stacking Device

The present invention relates to a cable laminating apparatus for underground distribution, and more particularly, to a cable laminating apparatus for underground distribution suitable for laying power cables in a honeycomb shape.

Underground lines are mainly installed in areas where overhead line facilities are technically impossible and difficult to maintain to secure urban aesthetics. It is installed in places where it is technically difficult to secure a multi-line configuration.

As shown in the accompanying drawings 1 and 2, the conventional cable support device used for such an underground line has a vertical long hole 12 at an angle 11 installed vertically on the wall surface 10 of the electric power outlet is constant in the vertical direction. It is formed to form a gap, and a "T"-shaped latch 13 that is fitted and caught in the vertical long hole 12 is formed on the side of the cable support 14, and at the center of the lower end of the cable support 14, at a right angle When the bent hook 15 is formed and the cable support 14 is tilted upward, the lock 13 is inserted into the vertical long hole 12 and then the cable support 14 is lowered horizontally, the lock 13 is vertical At the same time being caught in the long hole 12 , the locking jaw 15 formed on the cable support 14 was to be caught on the end of the angle 11 .

That is, the locking member 13 formed on the cable support 14 acts to prevent it from being separated laterally, and the locking jaw 15 serves to keep the cable support 14 horizontal.

However, since the conventional cable support device can be installed only in a single layer when the power cable is installed on the cable support 14, there is a limit to the expansion of the cable installation capacity.

Domestic Registered Patent Publication No. 10-1019372 (published on March 7, 2011) Domestic Registered Patent Publication No. 10-0920148 (date of publication 2009.10.05.)

The present invention has been made in order to solve the above problems, and an object of the present invention is to provide a cable laminating apparatus for underground distribution which can greatly increase the cable laying capacity by allowing the power cables to be stacked and installed in multiple layers.

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A cable laminating device for underground distribution for achieving the object of the present invention includes: a wall fixing angle installed on a wall surface of an electric power outlet; V-angle for supporting the V-shaped cable installed horizontally on the wall fixed angle and supporting the lower part of the power cable; A pair of vertical angles for supporting cables, the lower part of which is alternately coupled to the V-angle for supporting cables, and supporting both sides of the power cable; A pair of cable cover angles that are alternately coupled to the upper part of the vertical angle for supporting the cable side, and are coupled to each other to form an inverted V-shape, covering the upper part of the power cable; Bolt fixing plates respectively formed on the upper end of the cable cover angle and in close contact with each other; a split bolt and a split nut for coupling the bolt fixing plate to each other; Vertical long hole formed in the vertical angle for supporting the side of the cable; Slanted long holes that are respectively formed in the V-angle and the cable cover angle for cable support and alternately intersect with the vertical long hole; Penetrates through the intersection of the long oblique hole formed in the V-angle for cable support and the vertical long hole formed in the vertical angle for cable side support, and penetrates through the intersection of the oblique long hole formed in the cable cover angle and the vertical long hole formed at the vertical angle for cable side support Intersecting part fastening bolts; In comprising a cross section fastening nut coupled to the end of the cross section fastening bolt,
an angle maintenance spacer positioned between the intersection of the vertical angle for supporting the cable and the V-angle for supporting the cable and positioned between the intersection of the cable cover angle and the vertical angle for supporting the side of the cable; a diagonal slider formed at one end of the angle maintenance spacer and sliding in an oblique direction along the inclined long hole; an elevation slider that is formed at the other end of the angle maintenance spacer and slides in the vertical direction along the vertical hole; Through the center of the angle maintaining spacer, the diagonal slider and the elevating slider are penetrated, and the cross section fastening bolt is characterized in that it includes a through hole.

In the present invention as described above, since the V-angle 30 for cable support, the vertical angle 40 for cable side support, and the cable cover angle 50 are assembled in a hexagonal shape, the power cable 22 is It can be stacked in multiple layers and installed in a honeycomb shape, and at the same time, it has the effect of greatly increasing the cable installation capacity.

Since the interval of the vertical angle 40 for side support of the pair of cables can be adjusted, and the height of the cable cover angle 50 can also be adjusted, the size of the hexagon corresponding to the diameter of the power cable 22 has the effect of being able to freely control the

Angle maintenance spacer ( The diagonal slider 71 formed in 70 slides along the inclined long holes 31 and 54, and the ascending and descending slider 72 formed in the angle maintaining spacer 70 slides along the vertical long holes 41 and 42. Therefore, there is an effect that can always keep the angle of the vertical angle 40 and the cable cover angle 50 for side support of the cable constant.

Since the bolt fixing plate 51 formed on the cable cover angle 50 is freely separated/combined by the split bolt 52 and the split nut 53, it is possible to conveniently install the power cable 22. there is

1 is a front perspective view showing a conventional cable support device;
2 is a rear exploded perspective view showing a conventional cable support device;
3 is a perspective view according to the present invention;
Figure 4 is a rear perspective view of Figure 3;
5 is an exploded perspective view according to the present invention;
6 is an exploded perspective view showing a wall fixing angle and a V-angle for cable support according to the present invention;
7 is a perspective view showing an angle maintaining spacer according to the present invention;
8 is a partially enlarged view showing that the lift slider of the angle maintenance spacer according to the present invention moves along the vertical long hole;
9 is a front view according to the present invention;
10 is a plan view according to the present invention;

Hereinafter, an embodiment according to 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 is a wall fixing angle 21 that is installed on the wall 20 of the electric power outlet; It is installed horizontally on the wall fixing angle 21, and supports the lower portion of the power cable 22. V-angle for supporting the V-shaped (V)-shaped cable (30); The lower portion is alternately coupled to the V-angle 30 for supporting the cable, and a pair of vertical angles 40 for supporting the side of the cable supporting both sides of the power cable 22 are included.

The wall fixing angle 21 may be formed by using an L-shaped steel having an L-shaped cross-section or by bending a steel sheet having a certain thickness at a right angle.

To install the wall fixing angle 21 on the wall 20 of the electric power outlet, use a drill bit (not shown) to drill a hole (not shown) in the wall fixing angle 21, then concrete nails, anchor bolts, and concrete screws It can be installed using

As shown in FIGS. 3 to 6 and 9 , Ottogi holes 23 are formed in the wall fixing angle 21 in a left and right penetrating type, and the Ottogi holes 23 are arranged in a line at regular intervals along the vertical direction. can be formed

As shown in FIG. 6 , a pair of mushroom protrusions 32 coupled to the Ottogi hole 23 formed in the wall fixing angle 21 are vertically bent at the rear end of the V-angle 30 for cable support. ) can be formed on the side of

When the mushroom protrusion 32 enters the upper large hole of the Ottogi hole 23 and then the V-angle 30 for cable support is lowered, the head of the mushroom protrusion 32 is caught in the lower hole of the Ottogi hole 23. The V-angle 30 for cable support is coupled to the wall fixing angle 21 .

The V-angle 30 for cable support is constructed using an L-shaped steel whose cross section is formed in an L-shape, or a steel plate having a certain thickness is bent at a right angle, and then the part where the power cable 22 is supported is formed by using a V-angle. It can be formed by bending in a (V) shape, and a vertical bending part 33 coupled to the wall fixing angle 21 is formed at the rear end of the V-angle 30 for cable support.

The bending angle of the V-shaped bent portion formed in the V-angle 30 for cable support may be formed, for example, at 120 degrees.

The vertical angle 40 for supporting the cable side may be formed by using an L-shaped steel having an L-shaped cross section or by bending a steel plate having a certain thickness at a right angle.

In the present invention, a pair of cable covers are alternately coupled to the upper portion of the vertical angle (40) for supporting the side of the cable, and are coupled to each other to form an inverted V (V) shape, and cover the upper portion of the power cable (22). angle (50); Bolt fixing plates 51 formed on the upper ends of the cable cover angles 50 and in close contact with each other; It includes a split bolt 52 and a split nut 53 for coupling the bolt fixing plate 51 to each other.

The cable cover angle 50 may be formed by using an L-shaped steel having a cross-section formed in an L-shape or by bending a steel plate having a certain thickness at a right angle, and the cable cover angle 50 and the bolt fixing plate (51) can be molded integrally with each other.

The bolt holes 54 through which the split bolts 52 pass may be formed in the bolt fixing plates 51 on both sides so that their centers coincide with each other, and the tip of the split bolt 52 protrudes to the opposite side through the bolt hole 54 . Combine the split nut 53 to the cable cover angle 50 in a reverse V-shape.

The present invention is a vertical long hole (41) (42) formed in the vertical angle for supporting the side of the cable (40); It is formed in each of the V-angle 30 and the cable cover angle 50 for cable support, and includes long vertical holes 41 and 42 and inclined long holes 31 and 54 that alternately cross each other.

As shown in FIGS. 5 and 9, the vertical long holes 41 and 42 may be formed along the vertical direction of the vertical angle 40 for supporting the cable side, and the vertical long holes 41 and 42 are spaced apart from each other. It can be formed in two places, upper and lower.

The present invention penetrates through the intersection of the inclined long hole 31 formed in the V-angle 30 for cable support and the vertical long hole 42 formed in the vertical angle 40 for cable side support, and is formed in the cable cover angle 50 An intersection fastening bolt 60 passing through the intersection of the inclined long hole 54 and the vertical long hole 41 formed in the vertical angle 40 for supporting the side of the cable; It includes a cross section fastening nut 61 coupled to the end of the cross section fastening bolt (60).

The cross section fastening bolt 60 and the cross section fastening nut 61 serve to connect the lower part of the vertical angle 40 for cable side support to the V-angle 30 for cable support, and also the cross section fastening bolt 60 ) and the cross section fastening nut 61 serves to connect the upper portion of the vertical angle 40 for cable side support to the cable cover angle 50 .

The present invention is located between the intersection of the V-angle 30 for supporting the cable and the vertical angle 40 for supporting the cable side, and between the intersection of the cable cover angle 50 and the vertical angle 40 for supporting the side of the cable. Positioned angle maintaining spacer (70); a diagonal slider 71 formed at one end of the angle maintaining spacer 70 and sliding in an oblique direction along the inclined long holes 31 and 54; an elevation slider 72 formed at the other end of the angle maintenance spacer 70 and sliding in the vertical direction along the vertical long holes 41 and 42; It includes a through hole 73 through which the diagonal slider 71 and the elevating slider 72 pass through the center of the angle maintaining spacer 70, and through which the intersecting part fastening bolt 60 passes.

The angle maintenance spacer 70 functions to constantly maintain the cross angle between the V-angle 30 for cable support and the vertical angle 40 for cable side support, and the cable cover angle 50 and the vertical angle for cable side support. (40) acts to keep the angle of intersection constant.

The positioning angle by the angle maintaining spacer 70 may be set to 120 degrees as shown in FIG. 9, for example, in this case, the diagonal slider 71 and the lifting slider 72 formed in the angle maintaining spacer 70 ) forms the same angle as 120 degrees.

If the positioning angle by the angle maintaining spacer 70 is set to 120 degrees, the cross section of the power cable 22 can be laid in a honeycomb shape.

Unexplained reference numeral 62 denotes a washer fitted to the cross section fastening bolt 60 .

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

As shown in the accompanying drawings 3 to 10, the wall fixing angle 21 is vertically installed on the electric power outlet wall 20, and then the mushroom protrusion formed in the vertical bending part 33 of the V-angle 30 for supporting the cable. When the 32 is inserted into the Ottogi hole 23 formed in the wall fixing angle 21 , the V-angle 30 for cable support is installed horizontally on the wall fixing angle 21 .

After positioning the angle maintenance spacer 70 between the vertical angle 40 for supporting the cable side of the pair of cables and the V-angle 30 for the support, the elevation slider 72 formed in the angle maintenance spacer 70 is the cable side Inserted in the vertical long hole 42 formed in the vertical angle 40 for support, and the diagonal slider 71 formed in the angle maintenance spacer 70 is inserted into the inclined long hole 31 formed in the V-angle 30 for cable support, A pair of vertical angles 40 for supporting the cables are assembled to the V-angles 30 for supporting cables while forming a constant distance from each other.

At this time, the intersecting part fastening bolt 60 fitted with the washer 62 is inserted into the through hole 73 formed in the angle maintenance spacer 70 through the inclined long hole 31, and then passed through the vertical long hole 42, and to the opposite side. After inserting another washer 62 on the tip of the protruding cross section fastening bolt 60, the cross section fastening nut 61 is combined with the cross section fastening bolt 60 and tightened, then the vertical angle 40 for cable side support is It is fixed to the V-angle 30 for cable support.

After that, the power cable 22 is laminated in a honeycomb shape on the V-angle 30 for cable support, and then loosened by loosening the intersecting part fastening bolt 60 and the crossing part fastening nut 61, and the vertical angle for supporting the cable side (40). ) by pushing the vertical angle 40 for supporting the cable side in a direction that is close to each other and in close contact with the power cable 22, the cable side by the diagonal slider 71 and the lifting slider 72 formed in the angle maintaining spacer 70 The vertical angle for supporting 40 is moved while maintaining a constant angle with the V-angle 30 for supporting the cable, and the vertical angle 40 for supporting the cable is in close contact with both sides of the power cable 22 .

Then, when the loosened cross section fastening bolt 60 and cross section fastening nut 61 are tightened again, the vertical angle 40 for cable side support is fixed to the V-angle 30 for cable support.

At this time, the elevation slider 72 formed in the angle maintenance spacer 70 while positioning the angle maintenance spacer 70 between the pair of cable cover angle 50 and the vertical angle 40 for cable side support is for cable side support. Inserted into the long vertical hole 41 formed in the vertical angle 40, and the diagonal slider 71 formed in the angle maintenance spacer 70 is inserted into the inclined long hole 54 formed in the cable cover angle 50, the cable cover angle ( 50) is assembled while forming a predetermined angle with the vertical angle 40 for cable side support.

Thereafter, while matching the centers of the bolt holes 54 formed in the bolt fixing plate 51 of the cable cover angle 50 to each other, the bolt fixing plates 51 on both sides are brought into close contact, and then the split bolt 52 is passed through the bolt hole 54. When combined with the split nut 53 and tightened, a pair of cable cover angles 50 are symmetrical and assembled in an inverted V (V) shape.

Then, insert the intersecting part fastening bolt 60 fitted with the washer 62 into the through hole 73 formed in the angle maintenance spacer 70 through the inclined long hole 54, and then pass it through the vertical long hole 41, and the opposite side After inserting another washer 62 on the tip of the intersecting part fastening bolt 60 protruding by It is fixed to the vertical angle 40 for support.

At this time, by loosening the cross section fastening bolt 60 and the cross section fastening nut 61 and lowering the cable cover angle 50, the cable cover angle 50 can be brought into close contact with the upper part of the power cable 22. When the cross section fastening bolt 60 and the cross section fastening nut 61 are strongly tightened again, the cable cover angle 50 is fixed to the vertical angle 40 for supporting the cable side.

As such, when the cable cover angle 50 is raised and lowered in the vertical direction, the cable cover angle 50 and the vertical angle for supporting the cable side by the diagonal slider 71 and the lifting slider 72 formed in the angle maintenance spacer 70 ( The angle formed by 40) does not change, and the cable cover angle 50 is lifted up and down in the vertical direction.

20: power sphere wall 21: wall fixing angle
22: power cable 23: Ottogi hole
30: V-angle for cable support 31,54: slanted long hole
32: mushroom projection 33: vertical bending part
40: vertical angle for cable side support 41,42: vertical long hole
50: cable cover angle 51: bolt fixing plate
52: split bolt 53: split nut
54: bolt hole 60: cross section fastening bolt
61: cross section fastening nut 62: washer
70: angle maintenance spacer 71: diagonal slider
72: elevating slider 73: through hole

Claims (2)

delete The wall fixing angle 21 installed on the electric power outlet wall 20;
a V-angle 30 for supporting a V-shaped cable installed horizontally on the wall fixing angle 21 and supporting the lower portion of the power cable 22;
A pair of vertical angles 40 for supporting the cable side, the lower portions are alternately coupled to the V-angle 30 for supporting the cable, and supporting both sides of the power cable 22;
A pair of cable cover angles that are alternately coupled to the upper portion of the vertical angle for supporting the cable side (40), are coupled to each other to form an inverted V (V) shape, and cover the upper portion of the power cable (22) (50);
a bolt fixing plate 51 formed on the upper end of the cable cover angle 50 and in close contact with each other;
a split bolt 52 and a split nut 53 for coupling the bolt fixing plate 51 to each other;
Vertical long holes (41, 42) formed in the vertical angle (40) for supporting the side of the cable;
Slanted long holes 31 and 54 respectively formed in the V-angle 30 and the cable cover angle 50 for supporting the cable and alternately intersecting the vertical long holes 41 and 42;
Penetrated at the intersection of the inclined long hole 31 formed in the V-angle 30 for supporting the cable and the vertical long hole 42 formed in the vertical angle 40 for supporting the side of the cable, formed in the cable cover angle 50 an intersection fastening bolt 60 penetrating through the intersection of the inclined long hole 54 and the vertical long hole 41 formed in the vertical angle 40 for supporting the side of the cable;
a cross section fastening nut (61) coupled to an end of the cross section fastening bolt (60);
In the cable laminating apparatus for underground distribution comprising a,

It is located between the intersection of the V-angle 30 for supporting the cable and the vertical angle 40 for supporting the side of the cable, and between the intersection of the cable cover angle 50 and the vertical angle 40 for supporting the side of the cable an angle maintaining spacer (70) located in the;
an oblique slider 71 formed at one end of the angle maintaining spacer 70 and sliding in an oblique direction along the oblique long holes 31 and 54;
a lifting slider 72 formed at the other end of the angle maintaining spacer 70 and sliding in the vertical direction along the vertical long hole 41 and 42;
a through hole 73 passing through the diagonal slider 71 and the elevating slider 72 through the center of the angle maintaining spacer 70, and through which the intersecting part fastening bolt 60 passes;
Cable lamination device for underground distribution, characterized in that it comprises a.

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