KR100942724B1 - Guide pipe of underground cable for distributing electricity - Google Patents

Abstract

PURPOSE: An underground cable protection pipe is provided to protect an underground cable by preventing direct contact between a bucket of an excavator and an underground cable. CONSTITUTION: A cable(1) is received in a cable mounting groove of a cable support. A holder(20) is arranged under the cable support to support the cable support. A cover(30) covers the cable support to protect the cable. The holder and the cover have the semicircular section and are combined with the plurality of coupling units. A rotation induction pipe(40) is rotatably connected to the circumference of the cover and the holder. The rotation induction pipe is rotated by the external force including the bucket of the excavator.

Description

Transmission and distribution underground cable sheath {GUIDE PIPE OF UNDERGROUND CABLE FOR DISTRIBUTING ELECTRICITY}

The present invention relates to a transmission and distribution underground cable protective tube, and more particularly, to a transmission and distribution underground cable protective tube that can display the buried of the cable while preventing the bucket of the excavator from directly touching the cable buried in the ground.

In general, underground lines in housing, commercial, and industrial complexes include underground conduits, conduits containing gas distribution lines, gas pipelines, upper and lower water pipes, and the like. The underground line is buried under ground due to safety and thermal insulation. The underground line embedded in the ground for a long time should be repaired after a certain period of 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 driver performs the excavation work without knowing the location of the underground line, the excavator bucket often presses the underground line excessively and destroys the underground line. Since it is difficult to know the exact excavation position along the underground line, there is a problem that the excavation work must be 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.

The present invention is to solve the above problems, when the construction by using an excavator due to the road construction, such that the bucket of the excavator does not directly contact the cable buried in the ground, so that the cable is laid out, the cable buried The purpose is to provide a transmission and distribution underground cable sheath that can inform workers.

The transmission and distribution underground cable protective tube according to the present invention for achieving the above object is a cable support for receiving a plurality of cables, a support for supporting the cable support from the bottom, a cover for covering the cable support mounted on the support, the support and It is coupled to the periphery of the cover, characterized in that it comprises a rotary guide tube for sliding the bucket when the bucket of the excavator collides.

According to the transmission and distribution underground cable protection tube according to the present invention, when the construction by using an excavator due to the road construction, such that the bucket of the excavator does not directly contact the cable buried in the ground, the cable is separated through the rotary induction pipe In addition, the display powder filled inside the protective ring may be sprayed on the earth and sand to inform the operator of the laying of the cable, thereby inducing the protection of the cable.

In addition, by absorbing the impact energy transferred from the bucket by the elastic force of the cover, the cable support and the pedestal in a multi-stage, it is possible to more effectively protect the cable by blocking the bucket from touching the cable.

As shown in FIGS. 1 to 4, the transmission and distribution underground cable protective tube 100 according to the present invention is a plurality of cables 1 (preferably four cables 1), and a plurality of strands of cable lines inside the cable 1. To be safely inserted in the ground, and to a cable support 10 for accommodating four cables 1, a pedestal 20 for supporting the cable support 10 from the bottom, and a pedestal 20. Rotational induction coupled to the cover 30, the pedestal 20 and the periphery of the cover 30 to cover the raised cable support 10, so that the bucket (1) slips when the bucket (1) of the excavator collides It consists of the tube 40.

The cable support 10 has four radially-shaped blade pieces 11 formed integrally with each other to form a cross section having a "+" shape.

Four cable receiving grooves 12 in which the cables 1 are respectively wired are formed between the four blade pieces 11, that is, the four cables 1 are spaced apart from each other through the cable receiving grooves 12. It is wired in a state. The blade pieces 11 are preferably formed in a curved cross section so that the cable 1 of the circular cross section is in close contact with each other.

The cable support 10 may be made of rubber or synthetic resin absorbing external force by its elastic force, and a plurality of buffer holes may be provided therein.

The pedestal 20 supports the cable support 10 and the cable 1 accommodated in the cable support 10 (two cables disposed below one of the four cable seating grooves 12 of the cable support 10). , A semicircular cross section and two cable support grooves 21 are formed.

The pedestal 20 supports the cable 1 and the cable support 10 at the bottom thereof, and may be formed of rubber or synthetic resin to absorb external force by its elastic force, and a plurality of buffer holes may be formed therein.

The cover 30 has a semicircular cross section and has a cable cover groove 31 covering two cables 1 seated in the upper two cable seating grooves of the cable seating grooves 12 of the cable support 10.

The cover 30 of such a configuration is disposed symmetrically with the pedestal 20 with the cable support 10 therebetween to cover the upper portion of the cable support 10 and a plurality of fasteners 32 (bolts and nuts). Is fixed to the pedestal 20 to form a circle with the pedestal 20.

The cover 30 is an elastic body such as rubber or synthetic resin that can absorb loads and external forces imparted through soil and the like by its elastic force, and a plurality of buffer holes may be provided therein.

The rotary induction pipe 40 is rotatably coupled in the circumferential direction to the circumference of the pedestal 20 and the cover 30 to induce the bucket 1 to rotate when the bucket 1 of the excavator collides. It protects (1) and informs the laying of the cable (1) through the colored display powder (41).

The rotary induction pipe 40 is filled with the display powder 41 therein, and is made soft so that the display powder 41 spreads to the outside while being torn when the bucket 1 of the excavator collides. That is, when the bucket 1 of the excavator is plugged in, it is torn and the powder for display 41 is ejected to the outside, and the powder for display 41 is buried in the bucket 1 or spreads in underground soil. Make sure to check.

The rotary induction pipe 40 is rotatably coupled to the circumference of the pedestal 20 and the cover 30 and through the connection 43 to the circumference of the bearing 42, one or more bearings 42 having a ring shape It consists of a circular protective ring 44 to be connected.

A plurality of rotation induction pipes 40 are arranged in a row so as to be rotated by the bucket (1). This is because, if the length of the rotation induction pipe 40 is too long, it does not rotate by the bucket (1).

The rotary induction pipe 40 protrudes along the longitudinal direction of the protection ring 44 at the periphery of the protection ring 44 and is caught by the bucket 1 of the excavator to induce rotation of the rotation induction pipe 40. Rotational induction part 45 is included. If the outer circumferential surface of the protective ring 44 is flat, the rotation induction pipe 40 may not be rotated by the bucket (1).

Rotational induction pipe 40 may be separated into two separate top and bottom for assembly.

The action of the transmission and distribution underground cable protective tube according to the present invention is as follows.

When embedding the cable (1) in the ground, the two cables (1) and the cable support (10) is seated on the pedestal 20, and after wiring the two cables (1) on the upper side of the cable support (10) Cover the cover 30, the pedestal 20 and the cover 30 through the fastener 32 is coupled.

Subsequently, the bearings 42 of the rotary induction pipe 40 are fitted in a line to the periphery of the pedestal 20 and the cover 30, and then embedded in the ground.

As such, when the underground cable protection pipe 100 is used to dig the ground using an excavator, when the bucket 1 of the excavator collides with the protection ring 44 of the rotary induction pipe 40, the protection ring 44 As a result, the bucket 1 rotates and slides, and the display powder 41 is ejected to the outside.

Specifically, the plurality of rotating induction pipe 40 is rotatable in the periphery of the pedestal 20 and the cover 30 through the bearing 42, respectively.

When the bucket 1 of the excavator digs the ground, the bucket 1 operates while drawing a circle from the outside to the inner side with respect to the excavator, and is inserted into the protection ring 44 or the protection ring 44. Press and the protective ring 44 is rotated with the bearing 42 by the force applied through the bucket (1).

That is, the cable 1 can be protected by preventing the bucket 1 from directly touching the cable 1 when the bucket 1 faces the cable 1.

As the bucket 1 is inserted into the protection ring 44, the protection ring 44 may be torn, and thus, the marking powder 41 filled in the protection ring 44 is external to the protection ring 44. Is blown into the bucket 1 or spread to the soil.

Therefore, the operator sees the display powder 41 on the bucket 1 and the display powder 41 on the earth and sand and knows that the cable 1 is buried in the ground, and therefore, the cable 1 Check the ground for protection.

On the other hand, when the bucket (1) pierces the protective ring 44, the cover 30 absorbs the impact energy transferred from the bucket (1) by its own elastic force and the bucket (1) is the cable (1) The bucket 1 is prevented from facing away.

In addition, the cable support 10 and the pedestal 20 absorbs the impact energy imparted from the cover 30 by its elastic force to prevent the bucket 1 from progressing.

Therefore, according to the present invention, the cover 1 and the cable support 10 and the pedestal 20 itself, while protecting the cable 1 by the rotation and the display powder 41 of the rotary induction pipe 40. The cable 1 is protected by blocking the bucket 1 while absorbing the external force by the elastic force.

1 is a perspective view of a transmission and distribution underground cable protective tube according to the present invention.

Figure 2 is an exploded perspective view of the transmission and distribution underground cable protective tube according to the present invention.

Figure 3 is a front view of the transmission and distribution underground cable protective tube according to the present invention.

Figure 4 is a side view of a transmission and distribution underground cable protective tube according to the present invention.

<Description of Signs for Main Parts of Drawings>

1 cable, 10 cable support

20: pedestal, 30: cover

40: rotary induction pipe,

Claims (2)

Four wing pieces 11 formed in a radial shape are integrally formed so that a cable seating groove 12 is formed between the four wing pieces, and a cable support of an elastic body for separately accommodating the cables 1 in the cable seating grooves, respectively. 10; A cable support groove 21 having a semi-circular cross section and receiving a cable seated in the lower two cable seating grooves of the cable seating recess of the cable support is formed and is installed under the cable support to support the cable support. Pedestal 20; A cable cover groove 31 having a semi-circular cross section and covering the cable seated in the upper two cable seating grooves of the cable seating grooves of the cable supporter is formed, and is disposed symmetrically with the pedestal to cover the upper portion of the cable supporter. An elastic cover 30 fixed to the pedestal through a fastener 32 to protect the cable while forming a circle with the pedestal; It is connected to the circumference of the pedestal and the cover to be rotatable in the circumferential direction includes a rotary induction pipe 40 to rotate by an external force including a bucket (1) of the excavator to protect the cable, The rotary induction pipe is rotatably coupled to the circumference of the pedestal and the cover, one or more bearings 42 formed in a ring shape, connected to the circumference of the bearing via a connecting rod 42 and colored therein for display. Transmission and distribution underground cable protective tube, characterized in that consisting of a circular protective ring (44) filled with a powder (41), the plurality are arranged in a line along the longitudinal direction of the pedestal and the cover. According to claim 1, The rotary induction pipe, protruding along the longitudinal direction of the protective ring in the periphery of the protective ring is caught by the bucket of the excavator includes a rotary induction part 45 for inducing rotation of the protective ring Transmission and distribution underground cable sheath.

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