KR100767746B1 - Structure for wiring underground power cable - Google Patents

Abstract

A structure for wiring an underground power cable is provided to eliminate unnecessary repair or exchange of cables due to deformation and damage by sustaining the original form of the cable even when external forces such as natural phenomena or filling by an excavator are exerted. A structure for wiring an underground power cable includes a ground flattening aggregate layer(10), a cable supporting frame(20), a cable cover(30), and a fixing unit(40). The fixing unit(40) includes a number of anchors(22,32), a cover(41), a number of fixing brackets(42) and a number of nuts(43). The ground flattening aggregate layer(10) forms a flat plane by being spread on a drill ship underground. The cable supporting frame(20) is installed on the ground flattening aggregate layer(10) and wires the cable. The cable cover(30) fixes and protects the cable by covering the cable supporting frame(20), and the fixing unit(40) fixes the cable supporting frame(20) and the cable cover(30).

Description

Underground distribution cable installation structure {STRUCTURE FOR WIRING UNDERGROUND POWER CABLE}

1 is a cross-sectional view showing an underground distribution cable installation structure according to the present invention.

Figure 2 is an exploded perspective view of the underground distribution cable installation structure according to the present invention.

<Description of Main Configuration of Drawing>

10: bottom pulp aggregate layer, 20: cable support frame

30: cable cover, 40: fixing means

41: cover, 42: fixing bracket

43: nut, 50: elastic pad

The present invention relates to an underground distribution cable installation structure, and more particularly, an underground distribution cable installation structure that can prevent deformation of a cable by preventing external forces such as compaction pressure and dynamic load of a vehicle from being buried in the underground. It is about.

In general, in the housing, commercial, agricultural, and industrial complexes, high-voltage cables are buried mainly in consideration of the safety and insulation of high-voltage cables, and in order to embed such high-voltage cables in the ground, Excavate the trench to a suitable depth (as determined by legislation), place the flexible cable tube on the excavated ground, and then return to the excavated soil, or before refilling, Manhole and manhole section) is made of a method of introducing a high-voltage cable.

Flexible cable pipes buried in such a process, besides the purpose of protecting high voltage cables passing through them, assist in the underground laying of high voltage cables and the replacement and repair of high voltage cables after installation.

The reason why the cable tube is made of flexible material to protect the high voltage cable is to prevent corrosion by the moist moisture distributed in the ground. Due to this advantage, the cable tube is inevitably flexible when laying the cable underground. It is supposed to use.

The flexible cable pipe used for this purpose should be kept intact even after a long time when it is buried in the ground, and heavy equipment vehicles that pass frequently for the construction of this section or the load of soil filled up as time passes. The ground subsidence occurs due to the pressure of the earthquake load of the workbench of the heavy-duty vehicle, for example, the excavator bucket, and the like.

This settlement causes cable deformation, which makes it difficult to repair or replace, for example, due to obsolescence of cables buried for a long time in the ground, or to add other high voltage cables. In order to recover this, a huge budget recovery cost is required.

In view of the importance of such a cable, a conventional method for protecting a cable has been proposed in the related art. As an example, Patent Publication No. 10-0626148 has been disclosed as a method of using a flexible connection tube.

This prior art has a synthetic corrugated pipe in which the underground cable is located inside, a pair of protective pipes located at both ends of the synthetic resin corrugated pipe, a fastening ring fixed to both ends of the synthetic resin corrugated pipe, and one inside of the synthetic corrugated pipe. There is provided a technology of underground cable protective tube composed of a fastening long bolt for fastening the pair of protective tube and a flexible connecting tube wrapped around the outer side of the synthetic resin corrugated tube.

However, this invention can prevent the cable connector from being crushed even if the ground load occurs due to the natural settlement of soil or ground compaction work. Since the airtightness is not enhanced every time, the infiltration water can easily flow into the cable.

As another embodiment of the prior art, Korean Patent Registration Nos. 10-0596459 and 10-0659207 also disclose a technique for protecting a cable tube.

However, the invention of the patent registration No. 10-0596459 has a structure that supports the underground line pipe (a term corresponding to the cable pipe) in the hollow state in the pipeline, which has formed a plurality of layers of pipelines, but the lower mounting bracket Not only does it cost a lot of construction costs, such as a significant depth of the trench to be installed, and a two-stage refilling of the earth and sand after the installation of the mounting stage. Has the disadvantage.

In addition, the invention of Patent Registration No. 10-0659207 is to prevent the damage of underground lines by stacking a porous foam lightweight cover with a plurality of shock-absorbing springs on the upper part of the underground line (corresponding to cable protection tube or cable tube) Although this is not a problem for the ground load sinking due to natural phenomena, it is not only a underground line but also the whole protection medium when the excavation equipment is grounded with considerable pressing force. .

The present invention is to solve the above problems, to provide a underground distribution cable installation structure for embedding the cable in the ground through an easy construction process, so that the cable is not deformed even if an external force is applied to the cable buried in the ground The purpose is.

Underground distribution cable installation structure according to the present invention for achieving the above object, the bottom pulp aggregate layer laid on the bottom of the excavation of the underground, the cable support frame seated on the bottom pulp aggregate layer, the cable seated on the cable support frame Cable cover for fixing the cover, characterized in that it comprises a fixing means coupled to the cable support frame and the width direction both sides of the cover, respectively.

Hereinafter, the underground distribution cable installation structure according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, and may be changed according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the specification.

As shown in Fig. 1 and Fig. 2, the underground distribution cable installation structure according to the present invention, the bottom even aggregate layer 10 is laid flat on the excavation line of the ground (1) to form a flat surface; A cable support frame 20 seated on the bottom even aggregate layer 10 and to which the cable 2 is wired; A cable cover 30 which covers the cable support frame 20 to fix and protect the cable 2; It comprises a fixing means 40 for fixing the cable support frame 20 and the cable cover 30, each component will be described in detail below.

The bottom even aggregate layer 10 is to flatten the bottom of the excavation part after excavating the ground in order to embed the cable 2 in the ground. That is, the excavation line may not be flat depending on the rock condition of the ground, the structure of the excavator when the ground is excavated, and in this case, the cable support frame 20 may not be stably supported, so that even if the bottom of the excavation line is uneven, the cable support frame In order to stably install (20) on a flat bottom, the aggregate is laid on the bottom of the excavation line to form the bottom pulp aggregate layer 10.

The cable support frame 20 is a structure that separates the plurality of cables 2 from the excavation line to a certain height so that the groundwater does not penetrate the cable 2, and a plurality of cable seats having a semi-circular cross-section opened upward on the upper surface thereof. The grooves 21 are formed at regular intervals with the flat portion 21a therebetween in the width direction, and are formed in a rectangular box shape having a flat bottom surface, and are seated on the upper pulp aggregate layer 10. The cable support frame 20 is made of a concrete structure and is seated on the bottom puddle aggregate layer 10 without shaking by its own weight when it is seated on the bottom puddle aggregate layer 10.

The cable cover 30 is provided with a cable seating groove 21 of the cable support frame 20 and a cable cover recess 31 having a vertically symmetrical cable, which is seated in the cable seating groove 21 of the cable support frame 20. In addition, the cable 2 is not bent and deformed even when an external force (dynamic load, etc.) is applied.

The cable cover 30 is preferably a concrete structure with a large support rigidity against the cable support frame 20 and the external force.

Fixing means 40, the cable support frame 20 and the plurality of anchors 22, 32, the cable support frame 20 is embedded so as to protrude the screw portion spaced apart from each other at regular intervals on both sides in the longitudinal direction of the cable support frame (20) And the cover 41 and the cover 41 which are disposed on both sides in the width direction of the cable cover 30 and fixed to the anchors 22 and 32, and close between the cable support frame 20 and the cable cover 30. A plurality of fixing brackets 42 fixed to the anchors 22 and 32 and screw portions of the anchors 22 and 32 penetrating the fixing brackets 42 to cover the fixing brackets 42. It may be made of a nut 43 tightened to the side.

The anchors 22 and 32 may be pre-inserted and manufactured when the cable support frame 20 and the cable cover 30 are made of concrete.

The cover 41 is a plate blocking the space between the cable support frame 20 and the cable cover 30 to prevent groundwater and foreign matter through the gap between the cable support frame 20 and the cable cover 30, the cable support frame 20 and Irrespective of the size of the gap between the cable cover 30 is preferably made of an elastic material in the form of a pleat film so as to prevent the gap, the anchor hole (41a, 41b) is formed in the upper and lower portions, respectively.

The fixing bracket 42 is provided with one anchor hole 42a, 42b at each of the upper and lower sides thereof so that the anchors 22 and 32 embedded in the upper and lower rows are fitted to each other so that the cable support frame 20 and the cable cover 30 are provided. Integrate so as not to open.

The nut 43 is fastened to the screw portions of the anchors 22 and 32 passing through the fixing bracket 42 to fix the cover 41 and the fixing bracket 42 toward the cable support frame 20 and the cable cover 30.

A positioning groove 23 is formed in the cable support frame 20 so that the anchors 22 and 32 are naturally arranged in a line when the cable cover 30 is coupled to the cable support frame 20, and the bottom of the cable cover 30 is formed on the cable support frame 20. A positioning protrusion 33 inserted into the positioning groove 23 may be formed.

In addition, in the underground distribution cable installation structure according to the present invention, an elastic pad 50 for absorbing the load transferred from the cable cover 30 may be further applied.

The elastic pad 50 is bent at the lower left and right sides of the curved cable covering portion 51 and the cable covering portion 51, respectively, and wing portions 52 respectively seated on the upper surface of the flat portion 21a of the cable support frame 20. ), The bottom of the wing portion 52 may be formed to protrude downward to be fitted into the fastening protrusions 53 to be fitted into the fastening groove 21b formed in the cable support frame 20. A plurality of elastic pads 50 may be used having one cable covering 51 or one having a plurality of cable covering 51.

The process of underground distribution cable installation structure according to the present invention is as follows.

(S10) excavation. Excavate the ground using equipment such as fork lanes. The excavation portion may have a light-lower narrowing structure in which the cross-sectional area becomes wider toward the inlet of the ground to facilitate the embedding of the cable 2.

(S20) Floor leveling. The excavation part may be uneven due to the rocky state of the ground, and when the excavation line is rock, the cable support frame 20 may be damaged, so that aggregate (sand) is installed on the excavation line in the underground to prevent this. A floor pus aggregate layer 10 is constructed.

(S30) Cable support frame (20) installation. The cable support frame 20 is placed on the bottom pulp aggregate layer 10. In this case, the cable support frame 20 is buried in the bottom puddle aggregate layer 10 by the weight of the cable support frame 20 and stabilized.

(S40) Cable Wiring. Cables 2 are inserted into the cable seating grooves 21 of the cable support frame 20 and wired.

(S50) Install the cable cover (30). When the positioning projection 33 of the cable cover 30 is inserted into the positioning groove 23 of the cable support frame 20, the cable covering groove 31 is aligned with the cable 2 seated on the cable support frame 20. As the cover 30 is coupled to the cable support frame 20, the upper and lower anchors 22 and 32 maintain a straight line. When the elastic pad 50 is applied, the elastic pad 50 is installed first, and then the cable cover 30 is coupled.

(S60) Fixing means (40) fixed. Inserting the upper and lower anchors 22 and 32 into the upper and lower anchor holes 41a and 41b of the cover 41, the cover 41 is installed on both sides of the cable support frame 20 and the cable cover 30, respectively, and the cover 41 ), The fixing bracket 42 is inserted into the anchors 22 and 32 in the same manner as the cover 41, and then the nut 43 is fastened so that the cover 41 of the cable support frame 20 and the cable cover 30 is fixed. Make sure it is in close contact with the outer surface.

(S70) Backfill. Soil is filled in the upper part of the cable cover 30, and the backfill layer 3 is formed through the compacting operation. At this time, the pressure due to the backfilling soil and the compaction operation is applied, but the cable cover 30 is not deformed by the pressure imparted through its own strength and maintains the manufacturing state, and the external force is attenuated by the elastic pad 50. Therefore, no external force is transmitted to the cable 2.

When the vehicle passes through the section where the cable 2 is embedded by the underground distribution cable installation structure configured as described above, the dynamic load of the vehicle is transferred to the cable 2 through the backfill layer 3. When the cable cover 30 is coupled to the cable support frame 20 and is not deformed by its rigidity, the load transferred to the cable cover 30 is attenuated by the elastic force of the elastic pad 50. (2) is not bent or broken.

As described above, according to the underground distribution cable installation structure according to the present invention, even if the natural phenomenon, the cable embedded in the ground even if the physical press due to backfilling, compaction and dynamic load of the vehicle using the excavation equipment Since it can maintain its original state without being deformed and broken, there is an effect of eliminating unnecessary cable repair or replacement work due to the deformation and breakage of the cable.

As those skilled in the art would realize, the described embodiments may be modified in various ways, all without departing from the spirit or scope of the present invention. It is to be understood, however, that the present invention is not limited to the specific forms referred to in the description, but rather includes all modifications, equivalents, and substitutions within the spirit and scope of the invention as defined by the appended claims. Should be.

Claims (2)

A bottom pulp aggregate layer laid flat on the excavation line of the ground to form a flat surface; A plurality of cable seating grooves having a semicircular cross-section open to the upper side on the upper surface are formed at regular intervals in the width direction with the flat portion interposed therebetween, and the positioning grooves are provided, and the bottom pulp aggregate layer has a flat bottom surface. A cable support frame seated on an upper surface thereof; A cable cover having a positioning protrusion inserted into the positioning groove and covering the distribution cable seated in the cable seating groove of the cable support frame, the cable seating groove of the cable support frame being vertically symmetrical; Fixing means for fixing the cable support frame and the cable cover, The fixing means, A plurality of anchors embedded in the cable support frame and the cable cover at both sides in a longitudinal direction to be spaced apart from each other at a predetermined interval, so as to protrude a screw part; Covers formed between the cable support frame and the cable cover while being coupled to the anchor through the anchor hole is formed in the form of a pleated membrane with a plurality of anchor holes in the longitudinal direction on both sides, respectively, Fixing brackets fitted to the anchor through the anchor hole while covering the cover is provided with one anchor hole in each of the upper and lower sides, Underground distribution cable installation structure, characterized in that consisting of a screw screwed to the screw portion of the anchor penetrating the fixing bracket to tighten the fixing bracket to the cover side. According to claim 1, wherein the curved cable covering portion, the wing portion is bent at the lower left and right sides of the cable covering portion respectively seated on the upper surface of the flat portion of the cable support frame, protruding downwardly formed on the bottom of the wing portion Underground distribution cable installation structure characterized in that it further comprises an elastic pad provided with a fastening projection fixed to the fastening groove formed in the cable support frame.

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