KR101064623B1 - Protector for underground cable - Google Patents

Abstract

The present invention relates to a underground line protective equipment, and does not cause ground subsidence by reducing its own weight, and aims to enable construction in accordance with the state of the ground without unreasonable determination.
Underground line protective device according to the present invention, the semicircular transmission line seating portion 11 is provided at the top and the first coupling groove 12 is formed in the bottom center both the second coupling grooves 13 are formed on both sides of the bottom, A support block (10) in which transmission lines (1) are seated and wired through the transmission line seating portions while being arranged at predetermined intervals from each other;
Bottom portion 21, a gear-shaped rotation guide groove (not shown) formed on the bottom of the bottom portion, protrudes in the upper center of the bottom portion and a screw groove is formed therein, the first coupling groove of the support block 10 The first coupling protrusion 22 is inserted into the fixed to the bolt 15, the protrusion is formed on both sides of the upper portion of the bottom and each of the second coupling protrusion 23 is coupled to the second coupling groove of the support block 10 Block mounting holes 20;
A base plate 41 having a linear guide rail 42 formed on an upper surface thereof, three legs 43 having an upper end connected to the bottom of the base plate so that angle adjustment is possible, and one of the three legs adjacent to each other. A support 40 made up of three turnbuckle-type support rods 44 connected to each other and fixed through the three legs while being disposed at regular intervals in the ground to support the support block 10;
A carrier 30 connected to the guide rail of the support so as to be moved forward and backward and a rotation guide gear 31 erected thereon so that the block mounting hole is angularly adjustable through the rotation guide gear 31;
It is formed in a curved cross section and is formed on both sides of the bottom and is coupled to the upper portion of the support block 10 through the cover mounting rod 51 that is fitted to the cover assembly hole 14 of the support block 10 to the support block ( A porous cover 50 covering the transmission line wired to 10);
Being disposed between the support blocks 10, both sides are configured to include a pressure plate 60 connected to the support blocks 10 through the connecting rod 61, respectively.

Description

Underground line protection {PROTECTOR FOR UNDERGROUND CABLE}

The present invention relates to underground line protective equipment, and more particularly, to reduce the weight itself does not cause ground subsidence, and relates to the underground line protective equipment so that construction can be made in accordance with the condition of the ground without unreasonable determination.

In general, underground lines in housing, commercial and industrial complexes are embedded with conduits, gas pipes, water and sewage pipes, etc., in which transmission and distribution wires are housed. The underground line is buried under ground due to safety and thermal insulation, and the underground line embedded in the ground for a long time should be repaired after a certain time due to corrosion due to breakage and infiltration water caused by its own aging. In addition, in addition to the causes such as aging and corrosion, such repairs may be performed for reasons such as expansion.

As such, in order to repair and replace the underground line, the underground line is excavated and the ground line is exposed to the outside, and then the repair and replacement work is performed.

The general excavation work is quick and easy by using an excavator, and the ground is excavated by the bucket installed in the excavator.

As such, in the course of the excavation work, the driver of the excavator does not see the underground line buried in the ground, so the excavation work is performed with the driver's sense.

When the driver senses the impact of the bucket on the underground track, the driver moves the bucket so that the bucket does not touch the underground track and proceeds with excavation.

However, when the excavator driver performs the excavation work without knowing the location of the underground line, the bucket of the excavator excessively presses the underground line, which sometimes causes the underground line to be destroyed.

In addition, since the excavator driver does not know the location of the underground line, it is difficult to set an accurate excavation position along the underground line, and thus, there is a problem in that the excavation work is performed while modifying the excavation progress direction from time to time.

In some cases, a protective plate for protecting a conventional underground line is provided, but such a protective plate is placed only on the underground line to prevent the underground line bucket from directly touching. However, such a protective plate has a problem that even if the bucket digs the soil just above the protective plate does not know the existence of the protective plate, the bucket breaks the underground line like the protective plate.

Thus, when the bucket of the excavator breaks the protection plate, the entire protection plate should be discarded and other protection plates have to be installed after construction.

Conventional underground line protector can prevent damage caused by excavators, but because it is usually a concrete block type, the weight is very heavy, which makes construction difficult and the settlement of the ground becomes severe due to the weight of the protector. There is a problem that the air is long and the construction cost is high.

The present invention is to solve the problems as described above, and to reduce the weight itself does not cause ground subsidence, it is an object of the present invention to provide a underground line protective equipment that can be installed in accordance with the state of the ground without unreasonable determination.

Underground line protection device according to the present invention for achieving the above object, the upper half is provided with a semicircular transmission line seating portion is provided with a first coupling groove in the bottom center and the second coupling groove is formed on both sides of the bottom And a support block 10 in which transmission lines are seated and wired through the transmission line seating portions while being arranged at predetermined intervals from each other; A bottom portion, a gear-shaped rotation guide groove (not shown) formed at the bottom of the bottom portion, protruding from the upper center of the bottom portion, and a screw groove is formed therein so as to fit into the first coupling groove of the support block 10 to be bolted. A block mounting hole formed of a first coupling protrusion fixed to the second coupling protrusion and a second coupling protrusion formed on both sides of the upper portion of the bottom and coupled to the second coupling groove of the support block 10; A base plate having a linear guide rail formed on an upper surface thereof, three legs each of which has an upper end connected to the bottom of the base plate so as to be angularly adjustable, and three turnbuckle-type supporting rods connected to adjacent ones of the three legs. And made of a predetermined interval in the ground and is fixed through the three legs and the support for supporting the support block 10; A carrier which is connected to the guide rail of the support so as to be moved forward and backward and a rotation guide gear 31 is erected thereon, so that the block mounting hole is angularly adjustable through the rotation guide gear 31; A porous cover coupled to an upper portion of the support block 10 to cover a transmission line wired to the support block 10; It is characterized in that it comprises a pressure plate that is disposed between the support blocks 10, both sides are respectively connected to the support blocks 10 through a connecting rod.

According to the underground line protector according to the present invention, the support for supporting the support block 10 on which the transmission line is seated is composed of three legs and the three legs are set at an angle to increase the bearing capacity, and in the state of the ground Therefore, it is possible to install without adjusting the ground force by being adjusted to different heights. In addition, after fixing the support to the ground can move the block mounting holes back and forth and adjust the angle so that the wiring work of the transmission line is also very easy.

In addition, the support block 10 is small and the pressure plate between the support blocks 10 exerts a force against the ground subsidence to prevent the subsidence of the transmission line due to the ground subsidence, even if partial subsidence is not settled The support of can prevent the settlement of transmission line.

1 is an exploded perspective view of the underground line protective equipment according to the present invention.
Figure 2 is a side view of the underground line protective equipment according to the present invention.
3 is a front view of the underground line protective equipment according to the present invention.
4 is a plan view of the underground line protective equipment according to the present invention.

As shown in Fig. 1 to Fig. 4, the underground line protective device according to the present invention is provided with an excavator or the like without being folded due to ground subsidence of the transmission line 1 (internally referred to as a state in which the transmission line is infiltrated into the protective tube). By not being damaged by, a plurality of support blocks 10, the block mounting holes 20 for mounting the support block 10, respectively, the carrier 30 for enabling forward and backward adjustment of the block mounting holes 20 , A cover 50 for fixing the support block 10 to the ground through the carrier 30, a cover 50 to cover and protect the upper portion of the transmission line 1 wired to the support block 10, and the support block 10. Along with connecting them to the pressure plate 60 to prevent the settlement of the support block (10).

It is provided with a semi-circular transmission line seating portion 11 at the top, the first coupling groove 12 is formed in the center of the bottom surface, the second coupling groove 13 is formed on both sides of the bottom, respectively, with a predetermined distance from each other A support block 10 arranged and seated and wired by the transmission line 1 through the transmission line seating portion;

Bottom portion 21, a gear-shaped rotation guide groove (not shown) formed on the bottom of the bottom portion, protrudes in the upper center of the bottom portion and a screw groove is formed therein, the first coupling groove of the support block 10 The first coupling protrusion 22 is inserted into the fixed to the bolt 15, the protrusion is formed on both sides of the upper portion of the bottom and each of the second coupling protrusion 23 is coupled to the second coupling groove of the support block 10 Block mounting holes 20;

A base plate 41 having a linear guide rail 42 formed on an upper surface thereof, three legs 43 having an upper end connected to the bottom of the base plate so that angle adjustment is possible, and one of the three legs adjacent to each other. A support 40 made up of three turnbuckle-type support rods 44 connected to each other and fixed through the three legs while being disposed at regular intervals in the ground to support the support block 10;

A carrier 30 connected to the guide rail of the support so as to be moved forward and backward and a rotation guide gear 31 erected thereon so that the block mounting hole is angularly adjustable through the rotation guide gear 31;

It is formed in a curved cross section and is formed on both sides of the bottom and is coupled to the upper portion of the support block 10 through the cover mounting rod 51 that is fitted to the cover assembly hole 14 of the support block 10 to the support block ( A porous cover covering the transmission line wired in 10);

It is disposed between the support blocks 10 and both sides are to include a pressure plate 60 connected to the support blocks 10 through the connecting rod 61, respectively.

Looking at this in detail with respect to the assembly state of the main parts,

The support block 10 is provided with a semi-circular transmission line seating portion 11 at the top and the first and second coupling grooves 12 and 13 for coupling with the block mounting holes 20. The first coupling groove 12 is formed in the center of the bottom surface, the second coupling groove 13 is formed on both sides of the bottom, respectively.

In addition, a cover assembly hole 14 is formed at an upper portion of the support block 10 to couple the cover 50 to the support block 10.

The block mounting hole 20 is a bottom portion 21, a gear-shaped rotation guide groove (not shown) formed at the bottom of the bottom portion 21, protrudes in the upper center of the bottom portion 21 and a screw groove therein The first coupling protrusion 22 and the first coupling protrusion 22 fixed to the first coupling groove 12 of the support block 10 and fixed to the bolt 15 are formed to protrude on both sides of the upper portion 21 and the support block 10, respectively. It consists of a second coupling protrusion 23 is coupled to the second coupling groove (13).

Carrier 30 is a plate-like structure is configured to change the angle and the front and rear position of the block mounting hole 20, it is connected to the guide rail of the support 40 to be described later, and the block mounting hole 20 in the upper portion Rotation guide gear 31 is coupled to the gear-type rotation guide groove (not shown) of the). That is, in the state in which the carrier 30 is fixed, the rotation guide gear 31 is fitted into the gear-type rotation guide groove (not shown) of the block mounting hole 20 and the carrier 30 in accordance with the angle of the block mounting hole 20. As a result, the angle of the block mounting opening 20 can be adjusted.

Bolts may be installed at both front and rear openings of the guide rail 42 so that the carrier 30 does not fall out of the guide rail 42.

The support 40 has a base plate 41 having a linear guide rail 42 formed on its upper surface, and three legs 43 and 3 whose upper ends are hingedly connected to the bottom of the base plate 41 by hinges, respectively. It consists of three turnbuckle-type support rods 44 each connected to two adjacent legs of the four legs 43.

The legs 43 are each configured to be adjustable in length, so that the first rod 43a and the bottom of the first rod 43a hinged to the base plate 41 so as to be firmly fixed to the ground even if the height of the ground is different. The second rod 43c is fastened and adjusted in length, and a wing plate 43b is formed at a circumference thereof.

The second rod 43c is sharply formed so that the lower end thereof is firmly fixed to the ground, and the wing plate 43b serves to prevent settlement by ground pressure.

The support 40 of such a configuration is supported by three legs 43 independently of the length of the ground regardless.

The turnbuckle-type support rods 44 are connected to the legs 43 having end portions close to each other, and are screwed to the first and second rods and the first and second rods having opposite threads formed on the outer circumferential surface thereof. It consists of a nut for adjusting the length, so that the angle of the leg 43 is maintained.

The cover 50 is formed in a curved cross section and has four cover mounting rods 51 formed on both sides of the bottom.

In addition, the cover 50 protects the power transmission line 1 by preventing equipment such as an excavator from directly contacting the power transmission line 1.

The pressure plate 60 is disposed between the support blocks 10 and both sides are connected to the support blocks 10 through the connecting rods 61, respectively.

In addition, the pressure plate 60 may be configured to be connected to the connecting rod 61 is stretchable so that it can be applied to the curved section. The connecting pipe has a diameter larger than that of the connecting rod 61 and is formed to a length such that the connecting rod 61 does not fall out.

In addition, the connecting rod 61 may be fastened with a bolt and a nut to bosses protruding on both sides of the support block 10, respectively.

The action of underground line protective equipment according to the present invention is as follows.

After arranging the wiring section of the power transmission line 1, the legs 43 of the support 40 are opened and fixed in the ground. At this time, the height of the legs may be different from each other due to the rock on the ground on which the three legs 43 are supported, or other reasons, and the three legs 43 are firmly fixed to the ground by adjusting the length of the legs 43, respectively. can do.

The leg 43 can be changed at various angles and can be fixed regardless of the state of the ground, and the legs 43 are fixed without being folded or unfolded by the turnbuckle-type support rod 44.

In this way, a plurality of supports 40 are installed in the wiring section of the power transmission line 1.

The carrier 30 is installed on the guide rail 42 of the support 40, and the block mounting hole 20 is connected to the carrier 30.

After fitting the first and second coupling protrusions 22 and 23 of the block mounting hole 20 to the first and second coupling grooves 12 and 13 of the support block 10, the bolt 15 is first coupled Fasten by fixing to the projection (22).

In this process, the angle of the block mounting hole 20 is set in accordance with the wiring direction of the transmission line 1, and the front and rear positions are set through the carrier 30.

That is, as shown in Figure 4, the installation of the support 40 is easy because the angle and the front and rear positions of the block mounting holes 20 can be adjusted without reinstalling the support 40 in a state in which the support 40 is fixed to the ground. And, the reinstallation of the support 40 according to the ground conditions can be eliminated.

It is disposed between the support blocks 10 and both sides include a pressure plate 60 connected to each of the support blocks 10 through a connecting rod 61,

When the installation of the support blocks 10 is completed, the support plate 10 is connected by connecting the pressure plate 60. The connecting rod 61 of the acupressure plate 60 may be elastically connected to the acupressure plate 60 to be connected to the support block 10 regardless of the distance between the support blocks 10.

1: transmission line, 10: support block
20: block mounting hole, 30: carrier
40: support, 50: cover
60: pressure plate,

Claims (3)

The semicircular transmission line seating part 11 is provided at the upper part, and the first coupling groove 12 is formed at the center of the bottom surface, and the second coupling groove 13 is formed at both sides of the bottom, and is arranged at a predetermined interval from each other. A support block 10 through which the transmission line 1 is seated and wired through the transmission line seating part;
Bottom portion 21, a gear-shaped rotation guide groove (not shown) formed on the bottom of the bottom portion, protrudes in the upper center of the bottom portion and a screw groove is formed therein, the first coupling groove of the support block 10 The first coupling protrusion 22 is inserted into the fixed to the bolt 15, the protrusion is formed on both sides of the upper portion of the bottom and each of the second coupling protrusion 23 is coupled to the second coupling groove of the support block 10 Block mounting holes 20;
A base plate 41 having a linear guide rail 42 formed on an upper surface thereof, three legs 43 having an upper end connected to the bottom of the base plate so that angle adjustment is possible, and one of the three legs adjacent to each other. A support 40 made up of three turnbuckle-type support rods 44 connected to each other and fixed through the three legs while being disposed at regular intervals in the ground to support the support block 10;
A carrier 30 connected to the guide rail of the support so as to be moved forward and backward and a rotation guide gear 31 erected thereon so that the block mounting hole is angularly adjustable through the rotation guide gear 31;
It is formed in a curved cross section and is formed on both sides of the bottom and is coupled to the upper portion of the support block 10 through the cover mounting rod 51 that is fitted to the cover assembly hole 14 of the support block 10 to the support block ( A porous cover covering the transmission line wired in 10);
The underground line protective equipment, characterized in that it comprises a pressure plate (60) connected to each of the support blocks (10) through a connecting rod (61) while being disposed between the support blocks (10). According to claim 1, The legs of the support, the first rod (43a) hinged to the base plate, the length is adjusted by screwing the bottom of the first rod and the wing plate (43b) is formed in the circumference Underground line protective equipment, characterized in that consisting of a second rod (43c). According to claim 1,
Underground line, characterized in that the installation of the support 40 is made easy because the angle and the front and rear positions of the block mounting holes 20 can be adjusted without reinstalling the support 40 in a state in which the support 40 is fixed to the ground. Protection.

Images