KR102097939B1 - Structure for underground cable wiring with high watertightness - Google Patents

Abstract

The present invention relates to a power cable for a civil engineering structure with improved watertightness. A plurality of unit boxes formed by precast concrete are connected so that the power cable for a civil engineering structure is formed. The box is provided in a waterproof sheet surrounding a connecting part in a shape in which a drain of an upper end and a drain of a side end are connected to each other so that a waterway (rainwater or underground water) introduced into the box is prevented in advance by the connecting part. In addition, the present invention further comprises a drain groove on a floor surface in the box so that generating residual water in the box generated from condensation or frost can be smoothly drained to the outside.

Description

{Structure for underground cable wiring with high watertightness}

In the present invention, a plurality of unit boxes made of PC (PC: Precast concrete) are connected to form a power supply for a civil engineering structure, but the box is provided in a form in which a top drain and a side drain are connected to each other inside a waterproof sheet surrounding the connecting portion. It relates to a power structure for civil engineering structures with enhanced water tightness, characterized in that the connecting portion to block the water path (such as excellent or ground water) entering the inside of the box in advance.

Accordingly, the present invention is characterized in that a drainage groove is further provided on the bottom surface of the box to smoothly drain the residual water generated inside the box generated from condensation or love.

In general, high-voltage power lines are largely classified into two types: underground lines, where overhead lines move to the ground through electric poles or underground through electric power spheres.

Accordingly, the electric power sphere is a concrete structure that forms an underground passage for constructing an underground line, and is mainly formed in a square box shape with both ends open to connect and connect the openings.

In the conventional electric power tool, various problems are generated after construction, such as a high load electric power tool being displaced from each other due to the self-load of the box, uneven floor compaction surface, and bad conditions including ground subsidence, such that the joints are opened or cracked. .

In order to solve this problem, in the past, the continuous wires were pierced through the steel wire and tensioned in one direction to increase the fastening force, but in this case, the tension was lost as time passed, resulting in a distortion or a gap between the connections between the boxes. A leak (a water seepage) problem occurs.

In order to improve this, in Patent Document No. 10-1358830 (2014.01.28.) Of Prior Art Document 1, the joints are protected by reinforcing the joints between the armature boxes through joint plates and reinforcement keys provided on the right side of the armature box. At the same time, a technique has been introduced in which structural strength is improved by maintaining the bonding force between armature boxes.

However, when assembled with the reinforcing key fitted, the construction becomes cumbersome, the clamping force against the longitudinal opening of the culvert box cannot be properly exhibited, and the joining plate becomes impossible to fasten when the bolt and nut groove do not match, as well as matching the hole To force the blow, the problem of bolt damage occurs.

On the other hand, as a method for enhancing water tightness, recently, a floor-based concrete panel is installed on an underground floor surface where an electric power tool (or arm or joint tool) is installed, and a waterproof sheet cover is provided around the upper surface of the floor-based concrete panel and the electric power tools. And the waterproof sheet protective cover is sequentially wrapped to prevent leakage (blocking water from entering the cavity).

However, the watertight structure using the waterproof sheet is in a state in which the soil is in direct contact with the waterproof sheet, and when it is used for a long time, the durability of the watertight structure is shortened due to damage or contamination due to weakened durability.

The present invention is to solve the above-mentioned problems, the technical point of which is that a plurality of unit-type boxes are connected to form a power structure for civil engineering structures, wherein the box is inside a waterproof sheet surrounding each connection part (combination jaws in the outer circumferential surface of the box) The purpose of the present invention is to provide a connection to the upper drainage channel and the side drainage channel in a vicinity adjacent to the coupling groove in a form in which the connecting portion is blocked in advance (blocks such as rainwater or groundwater) from entering the inside of the box. have.

In addition, it is an object of the present invention to provide a drain groove on the bottom surface of the box to smoothly drain the residual water generated inside the box generated from condensation or love.

In addition, an object of the present invention is to provide that the drainage performance is doubled by forming an inclination angle in which a downward slope is formed toward a side end drainage channel based on a central portion in the case of an upper drainage channel.

And, the object of the present invention is to provide a water path connected in a form in which the upper drainage channel and the side drainage channel are connected to each other, so that the drainage flow is smoothly induced without breaking.

In order to achieve this object, the present invention provides a waterproof sheet 300 on the circumferential surface of the connecting portion J during the continuous assembly of the boxes 10 with the coupling jaws 11 and the coupling grooves 12 formed at both ends of the opening. Winding or covering so that the inflow of rainwater or groundwater into the box 10 is blocked, but on the upper and side surfaces other than the lower surface of the outer circumferential surface near the connecting portion (J) where the engaging jaw 11 and the engaging groove 12 abut. The upper drainage channel 100 and the side end drainage channel 200 are respectively formed to prevent the inflow of rainwater or groundwater into the box 10 in advance.

Accordingly, the waterproof sheet 300 formed to be wrapped or wrapped or covered with the connecting portion is to be accommodated in a separate storage groove (shallow groove: not shown) while being accommodated so as not to flow or escape, but the gap between the waterproof sheets ( D2) is formed to be wider than the gap (D1) between the upper drainage channel (100) and the gap (D1) between the side ends of the drainage pipe (200), so that water is formed through each top and side drains even if water seeps through the watertight side sides It is preferred.

At this time, the top drainage channel 100 and the side end drainage channel 200 are preferably connected to each other at the corners of the upper end portion of the cross-section, so that water flowing from the upper drainage channel flows down to the ground through the side drainage channel.

Thus, the box 10 is such that the mortar filling groove 13 is further formed so that the non-shrinking mortar is filled between the engaging jaw 11 and the engaging groove 12, one side based on the mortar filling groove 13 And it is preferable that one or more of the sealing material 14, the water-resistant material 15, and the backing agent 16 are combined on the other side to be filled between the connection parts.

In addition, the box 10 is provided with a mounting hole 19 on one side of the surface where the engaging jaw 11 and the engaging groove 12 are in contact, so that the strand 20 branched through the through hole 18 is a two-way anchorage ( 30).

Accordingly, the upper drainage channel 100 is preferably formed with an inclination angle 110 to be inclined downward toward the side of the box 10 based on the upper center portion.

At this time, the box 10 is preferably provided with a drain groove 400 for drain on the inner bottom surface.

As described above, the present invention is such that a plurality of unit-type boxes are connected to form a power supply for civil engineering structures, wherein the box is further provided with an upper drainage channel and a side drainage channel for each open connection when connected to an adjacent box through both open ends. Furnace is formed to prevent the inflow of water (such as excellent or ground water), the upper drain and the side drain is connected to each other has an effect to promote the smooth drainage of water.

Accordingly, the present invention has an effect that a drain groove is further provided on the bottom surface of the box to smoothly drain the residual water generated inside the box generated from condensation or love.

1 is an exemplary perspective view showing a power tool box according to the present invention,
Figure 2 is an exemplary installation construction according to Figure 1,
Figure 3 is a front view of Figure 1,
Figure 4 is a cross-sectional view taken along line AA of Figure 3,
Figure 5 is a cross-sectional view taken along line BB of Figure 3,
6 is an exemplary view showing that the box according to the present invention is tension-bonded by a stranded wire and a bidirectional anchorage.

Next, the present invention will be described in more detail with reference to the accompanying drawings.

As shown in Figures 1 to 6, the present invention is waterproof to the circumferential surface of the connecting portion (J) during the continuous assembly construction of the box (10) with a coupling jaw (11) and a coupling groove (12), respectively, at both open ends. Winding or covering the sheet 300 is formed to block the inflow of rainwater or groundwater into the box 10.

Accordingly, the upper drainage channel 100 and the side drainage channel 200 are respectively formed on the upper and side surfaces of the remaining outer surface except the lower surface among the outer circumferential surfaces of the connecting portion J in which the engaging jaw 11 and the engaging groove 12 contact each other. (10) It is formed so that the inflow of rainwater or groundwater into the interior is blocked in advance.

At this time, the box 10 is preferably provided with a drain groove 400 for drain on the inner bottom surface.

This is to ensure that the residual water generated inside the box generated from condensation or sexual love is drained out smoothly.

Accordingly, the waterproof sheet 300 formed to be wrapped or wrapped or covered with the connecting portion is formed to be accommodated in a separate storage groove (shallow groove: not shown) so as not to flow or escape.

At this time, the gap (D2) of the waterproof sheet is formed to be wider than the gap (D1) between the gap (D1) between the top drainage channel (100) and the side Ditch (200), even if water permeates through the gap between the sides of the waterproof sheet. It is desirable that a water path is formed through a drainage channel.

In addition, the top drainage channel 100 and the side end drainage channel 200 are preferably connected to each other at the corners of the upper end of the cross-section, so that water flowing from the upper drainage channel flows down to the ground through the side drainage channel.

Thus, the box 10 is such that the mortar filling groove 13 is further formed so that the non-shrinking mortar is filled between the engaging jaw 11 and the engaging groove 12, one side based on the mortar filling groove 13 And on the other side, it is preferable that one or more of the sealing material 14, the water-resistant material 15, and the backing agent 16 are combined to be filled between the connection parts.

In addition, the box 10 is provided with a mounting hole 19 on one side of the surface where the engaging jaw 11 and the engaging groove 12 are in contact, so that the strand 20 branched through the through hole 18 is a two-way anchorage ( 30).

Accordingly, the upper drainage channel 100 is preferably formed with an inclination angle 110 to be inclined downward toward the side of the box 10 based on the upper center portion.

The present invention is not limited to the specific preferred embodiments described above, and various modifications can be carried out by anyone who has ordinary skill in the art to which the subject design pertains without departing from the gist of the invention as claimed in the claims. Of course, such changes are within the scope of the claims.

10 ... box 11 ... mating jaw
12 ... Coupling groove 13 ... Mortar filling groove
14 ... sealing material, 15 ... indexing material
16 ... Backup agent 17 ... Square irregularities
18 ... through hole 19 ... mounting hole
20 ... Steel wire 30 ... Bidirectional anchorage
100 ... Top Drain 200 ... Side Drain
300 ... Waterproof sheet 400 ... Drain groove

Claims (5)

During the continuous assembly and construction of the boxes 10 with the engaging jaws 11 and the engaging grooves 12 formed at both ends of the opening, the waterproof sheet 300 is wound or covered on the circumferential surface of the connecting portion J to the inside of the box 10. The inflow of rainwater or groundwater is to be blocked, but among the outer circumferential surfaces of the connecting portion (J) where the engaging jaw 11 and the engaging groove 12 abut, except for the lower surface, the upper drainage channel 100 and the lateral drainage channel 200 except for the lower surface ) Is formed in each of the box 10, the power supply for civil engineering structures with enhanced water tightness to prevent the inflow of rainwater or groundwater into the box in advance,
The upper drainage channel 100 is formed with an inclination angle 110 to be inclined downward toward the side of the box 10 based on the center portion of the upper surface, and the drain groove 400 for draining is further provided on the inner bottom surface of the box 10 It is formed so as to be provided, the top drainage channel 100 and the side end drainage channel 200 are connected to each other at the corners of the upper end of the cross-section, so that water flowing from the upper drainage channel 100 flows down through the side drainage channel 200 toward the ground. Power tool for civil engineering structures with enhanced water tightness, characterized in that. The method of claim 1, wherein the box 10 is such that the mortar filling groove 13 is further formed so that the non-shrinking mortar is filled between the engaging jaw 11 and the engaging groove 12, the mortar filling groove (13) Based on the one side and the other side of the sealing material (14), the water-resistant material (15), one or more of the backing agent (16) is combined, the water-tightness reinforced civil engineering structure characterized in that to be filled between the connection portion. The method of claim 1, wherein the box 10 is formed with a mounting hole (19) formed on one side of the contact surface of the engaging jaw (11) and the engaging groove (12), and the strand (20) branched through the through hole (18). Power structure for civil engineering structures with enhanced water tightness, characterized in that to be fixed by the bidirectional anchorage (30). delete delete

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