KR101027373B1 - Cable support structure for underground power lines - Google Patents

Abstract

PURPOSE: A cable support structure for an underground power line is provided to reduce a construction period by rapidly laying a cable through a cable support block and a locker arm. CONSTITUTION: An elastic hanging piece(80) is formed on the side of a cable support(40). A cable support block(50) with a cable receiving surface(51) is formed on the cable support. A part of vibration is absorbed in the elastic hanging piece. A band hanging groove(43) prevents a fixed band from being vertically pushed. A handle(75) is formed on the lower side of a locker arm(70).

Description

Cable support structure for underground power lines

The present invention relates to a cable support structure for underground distribution, and more particularly, to a cable support structure for underground distribution, which facilitates the binding operation of the cable and improves the dustproof performance.

Underground lines are mainly installed in areas where technological aesthetics and overhead line facilities are technically impossible and difficult to maintain. Especially, near underground substations where concentrated overhead lines are concentrated. It is installed in a place where a line configuration is technically difficult.

Conventional cable support structure used in such underground line is vertical vertical hole 12 is vertical in the vertical direction to the angle 11 is installed perpendicular to the power sphere wall surface 10 as shown in the accompanying drawings, Figs. It is formed so as to form an interval, and the "T" shaped latch 13 that is fitted to the vertical long hole 12 is formed on the side of the cable support 14, at a right angle to the center of the lower end of the cable support 14 When the bent hooking jaw 15 is formed and the latch 13 is inserted into the vertical slot 12 while the cable support 14 is inclined upwards, then the cable support 14 is lowered horizontally. The latching jaw 15 formed on the cable support 14 while being caught by the vertical long hole 12 was caught by the end of the angle 11.

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

However, such a conventional underground cable support structure for underground distribution requires the cable to be connected to the cable support 14 using a binding line in a state in which a cable is placed on the cable support 14, so that the cable is not detached and the air according to the binding work. There was a discomfort greatly extended.

In addition, since the conventional underground cable support structure for underground distribution does not have a separate dustproof structure, vibrations transmitted from the ground due to the passage of the vehicle are transmitted to the cable as it is through the wall surface 10, the angle 11, and the cable support 14 as it is. While the cable sheath portion in contact with the cable support 14 causes fatigue failure, there is a problem that the life of the cable is shortened.

The present invention has been made to solve the above problems, the object of which is to shorten the air by faster cable installation work, and to reduce the cable life shortening due to the vibration by absorbing the vibration transmitted to the cable in the middle The present invention provides a ground support cable support structure.

In order to achieve the object of the present invention, a plurality of fixing pins are formed in the same direction on both left and right ends of the cable pressing block having a semicircular pressing surface in close contact with the upper surface of the cable, and a pin hole for insertion of the fixing pin is formed. A plurality of sleeves having a plurality of sleeves are formed at the left and right ends of the cable support block, and the upper end of the rocker arm inserted between the rear end of the fixing pin and the sleeve is coupled between the hinge portion formed at the upper end of one side of the cable pressing block by a hinge pin, And a locking groove and a locking projection are formed on the close contact surface of the rocker arm, and an elastic locking piece that is caught on the end of the angle is formed on the side of the cable support to provide a cable support structure for underground distribution.

As described above, the present invention covers the upper surface of the cable with the cable pressing block in a state where the cable is placed on the cable support block, and then pushes it forward slightly to combine and then lowers the rocker arm to complete the cable fixing work, so the work is very fast. It is made quickly so that the construction period due to cable laying can be greatly shortened.

Furthermore, the present invention can absorb the vibration transmitted from the wall surface to the cable or the vibration transmitted from the cable to the angle by the elastic locking piece formed on the side of the cable support in the middle of the cable life that can be generated by the vibration There is also an effect that can greatly reduce the shortening.

1 is a front side perspective view showing a conventional cable support structure for underground distribution
Figure 2 is an exploded perspective view of the rear side showing a conventional cable support structure for underground distribution
Figure 3 is an exploded perspective view showing a cable support structure for underground distribution according to the present invention
Figure 4 is an exploded bottom view showing the underground cable distribution structure according to the present invention
Figure 5 is a perspective view of the combined state showing the cable support structure for underground distribution according to the present invention

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

3 to 5, the angle 30 has a vertical long hole 32 and a circular fastening hole 34 formed therein, and a wall surface (vertically formed through the vertical long hole 32 formed in the angle 30). An anchor bolt 25 fixed to 20 is inserted, and the angle 30 is fixed perpendicularly to the underground power tool wall surface 20 by the anchor nut 26 coupled to the anchor bolt 25. Have

In addition, the angle 30, the fastening hole 34 is formed to form a predetermined interval in the vertical direction can be installed a plurality of cable support 40 in the vertical direction, the cable support 40 is installed horizontally on the angle 30 The cable support 40 is angled by the bolt 90 and the nylon nut 92 in a state in which the centers of the fastening holes 34 formed in the circular holes 41 and the angles 30 formed at the rear ends of the angles 30 are aligned. ), And has a common structure.

In addition, a cable support block 50 having a concave semicircular cable seating surface 51 for seating the cable 22 is installed on the cable support 40, the cable to the support 42 formed in the cable support 40 The support block 50 is caught, the cable support 40 is inserted into the slot portion 57 formed in the cable support block 50, the cable support 40 and the side of the cable support block 50 fixed band overlapping The holes 48 and 58 are formed to have a conventional structure in which the fixing band 100 is wound and bound through the band fixing holes 48 and 58.

The plurality of fixing pins 62, 63, 64, 65 are all in the same direction at the left and right ends of the cable pressing block 60 having the semicircular pressing surface 61 in close contact with the upper surface of the cable 22. A plurality of sleeves 52, 53, 54 having pin holes 52h, 53h, 54h, 55h for insertion of the fixing pins 62, 63, 64, 65 thereof; 55 is formed at left and right ends of the cable support block 50.

In addition, the hinge portion 66 formed at the upper end of the cable pressing block 60 by the hinge pin 72 is the upper end of the rocker arm 70 is inserted between the rear end of the fixing pin 62 and the sleeve 52 ( 67 and the cable support block 50 and the cable pressing block coupled to each other by forming a locking groove (62g) and the locking projection (70g) on the contact surface of the fixing pin 62 and the rocker arm (70), respectively ( 60) is not to be separated by the rocker arm (70).

In addition, the lower end of the rocker arm 70 is formed with a handle 75 so that it can be conveniently used when the finger is pulled up or pressed.

Meanwhile, a part of the vibration transmitted from the wall surface 20 and the angle 30 to the cable support 40 is formed by forming the elastic locking piece 80 caught on the end of the angle 30 on the side of the cable support 40. It is to be absorbed by the elastic locking piece (80).

The elastic fastening piece 80 is the upper part is connected to the side of the cable support 40 and the other lower end is bent in the free state because the elastic deformation is possible when contacting the end of the cable support 40 It works.

In addition, the fixing band 100 is horizontal when fixing the cable support block 50 to the cable support 40 using the fixing band 100 by forming a band engaging groove 43 at the lower end of the cable support 40. Prevent it from pushing in the direction.

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

3 to 5 of the long hole 32 formed in the angle 30 by using an electric drill having a hammer function to install the angle 30 on the underground power outlet wall surface 20 as shown in FIG. A hole identical to the center is drilled in the wall surface 20, and then anchor bolt 25 is inserted into the hole, and the centers of the long holes 32 formed in the angles 30 and the anchor bolt 25 coincide with each other. When the angle 30 is in close contact with the wall surface 20, the anchor bolt 25 is protruded through the long hole 32, when the anchor bolt 26 is coupled to the protruding anchor bolt 25 and tightened, the angle 30 is fixed perpendicular to the wall surface 20.

Then, the center of the circular hole 41 formed at the rear of the cable support 40 and the center of the fastening hole 34 formed at the angle 30 are matched with the matched circular hole 41. When the bolt 90 is inserted into the ball 34 and coupled with the nylon nut 92 from the opposite side, the elastic engaging piece 80 formed on the side of the cable support 40 is caught by the end of the angle 30. The cable support 40 is kept horizontal.

Thereafter, the cable support block 50 is connected to the cable support block 50 in a state in which the support member 42 formed at the upper end of the cable support 40 and the slot portion 57 formed at the bottom of the cable support block 50 are matched. When coupled toward 40, a portion of the lower end of the cable support block 50 is inserted into the support jaw 42 and a portion of the upper end of the cable support 40 is inserted into the slot 57.

At this time, the band fixing hole 58 formed in the cable support block 50 and the band fixing hole 48 formed in the cable support 40 overlap, and are fixed through these band fixing holes 48 and 58. When the band 100 is passed through and then tightened, the cable support block 50 is fixed to the cable support 40.

Then, the fixing pins 62 and 63 formed at the lower end of the cable pressing block 60 while the cable 22 is placed on the semicircular cable seating surface 51 formed on the cable support block 50. 64 and 65 are positioned between the sleeves 52, 53, 54 and 55 which are formed on the upper end of the cable support block 50. When the cable pressing block 60 is brought into close contact with the upper surface of the cable 22 while the sleeves 52, 53, 54, 55 are slightly shifted in the front-rear direction, they are formed in the lower part of the cable pressing block 60. The pressing surface 61 is in close contact with the upper surface of the cable 22.

At this time, when the cable pressing block 60 is pushed forward, the pin holes 52h in which the fixing pins 62, 63, 64, 65 are formed in the sleeves 52, 53, 54, 55. Inserted into (53h) (54h) (55h) is a cable pressing block 60 is coupled to the cable support block (50).

When the rocker arm 70 hinged to the cable pressing block 60 is rotated downward in the above state, the rocker arm 70 is formed into a space formed between the rear end of the fixing pin 62 and the sleeve 53. This interlocking operation prevents the cable press block 60 from being separated, and at the same time, the locking protrusion 70g formed on the rocker arm 70 is caught by the locking groove 62g formed on the rear end of the fixing pin 62. The jammed state of 70 is maintained firmly.

At this time, by using the handle 75 formed on the bottom of the rocker arm 70, it is possible to move the rocker arm 70 more easily.

Then, the vibration transmitted from the ground or the ground is transmitted to the cable support 40 through the wall surface 20 and the angle 30 or vice versa, the vibration transmitted from the cable 22 is transmitted to the angle 30 through the cable support 40. In the case where it is transmitted to), while the shaking of the cable support 40 is absorbed by the elastic locking piece 80 formed on the side of the cable support 40, a buffering action occurs.

That is, the bolt 90 and the nylon nut 92 connecting the cable support 40 and the angle 30 must be coupled in a slightly loose state so that the cable support 40 can rotate slightly up and down. At this time, the cushioning action of the elastic locking piece 80 occurs.

At this time, since the elastic catching piece 80 is curved, the end of the angle 30 and the elastic catching piece 80 are in line contact, and such a line contact makes the cable support 40 move more smoothly during vibration. It works.

On the other hand, when removing the cable 22 from the cable support block 50 to repair or replace the cable 22, when the handle 75 formed on the lower end of the rocker arm 70 is pulled upward, the rocker As the arm 70 rotates about the hinge pin 72, the arm 70 is released from the space between the fixing pin 62 and the sleeve 53 to release the latch.

At this time, when the cable pressing block 60 is pushed to the rear side, pin pins 52h formed with fixing pins 62, 63, 64 and 65 in the sleeves 52, 53, 54 and 55. The cable press block 60 can be separated from the 53 h, 54 h and 55 h.

20: wall 22: cable
25: anchor bolt 26: anchor nut
30: angle 32: vertical long hole
34: fastening hole 40: cable support
41: round hole 43: band locking groove
42: base jaw 48,58: band fixing hole
50: cable support block 51: cable seating surface
52, 53, 54, 55: sleeve 52h, 53h, 54h, 55h: pin hole
57: slot 60: cable compression block
61: pressing surface 62,63,64,65: fixing pin
62g: Hanging Groove 66,67: Hinge
70: rocker arm 70g: locking projection
72: hinge pin 75: handle
80: elastic locking piece 90: bolt
92: nylon nut 100: fixing band

Claims (1)

The cable support block 40 is installed horizontally at an angle 30 installed perpendicular to the underground power tool wall 20, and has a concave semicircular cable seating surface 51 for seating the cable 22. 50 is installed on the cable support 40, the cable support block 50 is caught on the support base 42 formed in the cable support 40, the cable support in the slot portion 57 formed in the cable support block 50 In the cable support structure for underground distribution, in which 40 is inserted, band fixing holes 48 and 58 overlapping with each other when coupled to the side of the cable support 40 and the cable support block 50 are formed.
The plurality of fixing pins 62, 63, 64, 65 are all in the same direction at the left and right ends of the cable pressing block 60 having the semicircular pressing surface 61 in close contact with the upper surface of the cable 22. A plurality of sleeves 52, 53, 54 having pin holes 52h, 53h, 54h, 55h for insertion of the fixing pins 62, 63, 64, 65 thereof; 55 is formed at the left and right ends of the cable support block 50, and the upper end of the rocker arm 70 inserted between the rear end of the fixing pin 62 and the sleeve 52 is pressed by the hinge pin 72. Coupling between the hinge portion 66, 67 formed on the upper end of one side of the block 60, the locking groove 62g and the locking projection (70g) on the contact surface of the fixing pin 62 and the rocker arm 70, respectively The cable support structure for underground distribution, characterized in that formed on the side of the cable support 40 is formed by the elastic engaging piece (80) caught on the end of the angle (30).

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