KR101782789B1 - Ducts for high voltage transmission lines - Google Patents

Abstract

The present invention relates to a line duct for ultra high voltage transmission. The line duct for ultra high voltage transmission includes a matrix block (10), an interval maintaining block (20), a transverse axis fixing protrusion part (30), a pillar part (40), and a through hole (50) as a main configuration, to firmly maintain structural safety by backfill soil pressure even if the line duct is enlarged by a cable support structure comprising a square section while obtaining high field workability by the double layer and row construction of a cable due to a lightweight assembly structure of the line duct.

Description

{Ducts for high voltage transmission lines}

The present invention relates to an ultra high-pressure transmission line duct, and more particularly, to a light duct of a line duct which is a trend of enlargement in order to improve a heat dissipation structure due to ultra high pressure of a line cable, And more particularly, to an ultra high-pressure transmission line duct in which structural stability is ensured due to ground subsidence and soil back pressure by increasing bonding force between line ducts.

The total line duct is an underground line that is embedded in the ground to house the transmission cable inside and protects the power generated from the power plant to the factory or the general household in the distance. In order to prevent other electromagnetic waves from being transmitted to the transmission cabin, most of the new cable is installed in the underground landfill system and the existing pylon tower type transmission line is also changed to the underground type. However, the burial of the cable is difficult and the safety is not ensured.

Conventionally, in Japanese Unexamined Patent Application Publication No. 08-168153, as a technique for reducing the amount of backfill and improving the strength against mechanical impact such as a pick and place in the construction of a conduit, the inner space of the trough is filled by the synthetic resin plate It is difficult to change the wire line due to the connection of the conduit pipes formed between the plate floors. Therefore, it is difficult to change the wire line, Due to the collection process, the traffic jam around the construction site is serious, and the construction cost due to the disposal of the soil is further increased.

Japanese Unexamined Patent Application Publication No. 2003-324834 discloses a structure in which a convex portion of a fixing means is hooked on a duct groove and is formed in a lateral direction so as to limit the upward feed, It is easy to fix it to a desired position without using it, but the side wall is easily damaged because the expansion force can not withstand in the width direction when the earth pressure acts inside the duct.

In order to solve the problems of the prior art, the applicant of the present invention has disclosed in Patent Registration No. 1582094 that the space is formed in the longitudinal direction so as to face each other on the inner wall of the duct body and both end portions of the space holding member are inserted and fitted in the longitudinal direction, The ducts for the transmission lines having the guide grooves supported so as to prevent the flow are preliminarily registered.

However, as shown in [Table 1] below, the existing transmission cable was planned to be expanded and installed with AC 154kv at 345kv, 765kv, and 500kv at ultra-high voltage. Most of these ultra-high voltage transmission cables are underground Construction. However, due to the increase in heat generation due to the increase in heat generation due to the characteristics of ultra-high voltage transmission, the spacing between the transmission cables constructed as double and multi layers is expanded by at least 20% in order to improve the heat dissipation structure. This resulted in poor workability due to the handling of pipe ducts with large weight in the field, and structural safety was not ensured due to duct wall side wall damage caused by back pressure.

[Table 1. Basic Plan for the Seventh Electricity Supply and Demand (2015 ~ 2029)]

Some excerpts of the transmission and transformation equipment plan by year

Accordingly, it is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to solve the above-mentioned problems, and to provide a cable re- And more particularly, to provide an ultra-high pressure transmission line duct in which structural stability by ground subsidence and soil back pressure can be ensured by increasing bonding force between line ducts.

A mattress block 10, which is connected in the longitudinal direction of the transmission cable 1 to form a line bottom on the ground and has at least two longitudinal fixed portions 12 on the upper surface thereof, ; A plurality of spacing retaining blocks (22) which are stacked on the mattress block (10) and assembled by being vertically stacked and assembled by the vertical axis fixing part (12) 20); A transverse axis fixing protruding portion 30 which is formed at the side of the uppermost gap maintaining block and which has a fastening hole 32 formed at a side surface of the gap maintaining block 20; A pair of the pair of left and right spaced-apart retaining blocks 20, which are extended in the longitudinal direction at both sides of the mattress block 10 corresponding to the gap retaining block and in which the transverse axis fixing grooves 42 are formed to be fitted into the transverse axis fixing protrusions 30 of the uppermost- A columnar portion 40; A through hole 50 formed in the column portion 40 corresponding to the fastening hole 32 of the transverse axis fixing protrusion 30 and adapted to fasten the fastener 52; And the spacing-maintaining block 20 assembled in a multilayer structure is configured to be constrained in a rectangular compartment of a combination of the mattress block 10, the pair of posts 40 and the uppermost spacing block 20 .

At this time, the mattress block 10 has a rectangular frame 15 in which a hollow portion 14 is formed, and a rectangular frame 15 at both ends of the rectangular frame 15 to support the bottom of the spacer 20 in the hollow portion 14. [ And a pedestal portion 16 connected to the pedestal.

The mattress block 10 is joined by a joint pillar 44 formed at both ends in the longitudinal direction of the cable 1. The joint pillar 44 is spaced apart from the pillar 40, 46 are connected to each other to form a hollow earth pressure canceling part 48 inside.

An inclined hole 44a is formed in the joint column portion 44. The inclined hole 44a is formed at an inclination angle opposite to that of the inclined hole 44a of the adjacent joint column portion 44, And is tightened by the hook 60 provided with the pair of inclined lugs 62. [0033] As shown in FIG.

The inclined hole 44a is formed as a horizontally extended hole so that when the inclined lug 62 is inserted into the inclined hole 44a and the interval of the mattress block 10 is spaced apart, (44a) and an inner inclined surface (44a).

Further, a space between the mattress blocks 10 is filled with filler soil or a fitting member is provided.

According to the present invention, it is possible to reduce the weight of the line duct, which is a trend of enlargement in order to improve the heat dissipation structure due to the increase in line pressure of the line cable, and to improve the field constructionability of the line cable in a simple double- It is possible to secure the structural stability due to the ground subsidence and the soil back pressure.

1 to 3 are diagrams showing the entirety of an ultra high-pressure transmission line duct according to an embodiment of the present invention.
FIG. 4 is a longitudinal sectional view showing a cable double-layered arrangement structure of an ultra-high voltage transmission line duct according to an embodiment of the present invention; FIG.
5 is a configuration diagram showing a coupling structure by a loop of an ultra-high pressure transmission line duct according to an embodiment of the present invention;

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

The present invention relates to an ultra high-pressure transmission line duct. In this case, the ultra-high pressure transmission line duct is designed to reduce the weight of the line duct, which is an increasing trend in order to improve the heat dissipation structure, The spacing retaining block 20, the transverse axis fixing protrusions 30, and the column portions (not shown) are installed in order to secure the structural stability due to the ground subsidence and the back earth pressure by increasing the binding force between the line ducts. 40, and a through-hole 50, as shown in FIG.

The mattress block 10 according to the present invention is provided with at least two vertical axis fixing portions 12 on its upper surface. The mattress blocks 10 are installed in the longitudinal direction of the transmission cable 1 to form a line bottom on the ground. The mattress block 10 is configured to support a cable 1 to be installed in a double-layered and double-layer structure, which is connected to the ground where the ter- mination work is completed to fill the transmission cable. 2, the mattress block 10 includes a square portion 15 having a hollow portion 14 formed therein and a hollow portion 14 for supporting the bottom surface of the gap maintaining block 20 in the hollow portion 14 And a receiving portion 16 to which both ends are connected to the rectangular frame portion 15 is provided.

1, the mattress block 10 is connected to the mattress block 10 in an engaging manner, and in FIG. 1, the mattress block 10 has an 'a' type embossed portion at one end and an 'b' type embossed portion at the other end In another embodiment, a '' 'type embossed portion is formed at one end of the mattress block 10 and a' ㅓ 'type embossed portion is formed at the other end of the mattress block 10 so that the' ㅓ 'type embossed portion is inserted into the' The holding force is maintained such that the horizontal and initial line lines are maintained between the blocks 10, and the 'ㅓ' type emboss size is smaller than the 'ㄷ' type engraved portion so that the turning angle is controlled. For the obstacles such as gas pipes, wastewater pipes, communication lines, etc. installed in the line duct construction line, it is possible to bypass the line with the downward curved line and to construct it below the obstacle.

2, a hollow portion 14 is formed in the mattress block 10 as a combination of the mattress block and a column portion 40 described later. In order to improve the heat dissipation structure due to the increase in the ultra-high voltage of the cable, Even if it is manufactured, it is light in weight, and it is easy to carry and handle in the field, and in particular, the cable is exposed to the ground layer in the ground, so that heat generated during transmission is quickly released and cooled.

The vertical stabilizer 12 provided on the upper surface of the mattress block 10 is configured to provide a longitudinal force to the gap retaining block 20 to be described later and is provided not only on the upper surface of the mattress block 10, The interval holding block 20 is also formed in the same manner. Although the vertical axis 12 in FIGS. 1 to 4 shows the engagement structure in the form of a hole and a projection, the present invention is not limited to this.

The gap holding block 20 according to the present invention is stacked on the mattress block 10 and assembled by the vertical axis fixing part 12 in the vertical direction so that the cable 1 is restrained in a double- Grooves 22 are formed. The spacing retaining block 20 is stacked in at least two stages to support the plurality of cables 1 at a spaced apart location in a double or multi-layer structure. In Figures 1-4, the spacing retaining block 20 has a four- So that nine cables 1 are spaced apart in a double-layered structure with a 3 * 3 structure.

1 to 4, among the four-stage structure of the gap maintaining block 20, the lowermost space maintaining block 20 is formed in a plane such that the bottom face is seated on the mattress block 10, and three seating grooves 22 are formed on the upper face thereof Three spacing grooves 22 are formed on the bottom surface and the top surface of the gap holding block 20 of the middle layer and the topmost gap holding block 20 has three seating grooves 22 on the bottom surface only, And each of the gap retaining blocks 20 is fitted in the longitudinal direction by the longitudinal axis fixing portion 12 of the conical shape to maintain the lamination fixing force.

 As the plurality of cables 1 are constructed in a double layer structure and a double layer structure, the space maintaining blocks 20 are laminated in the longitudinal direction and the vertical axis fixing portions 12 are engaged with each other. There is an advantage.

In addition, the transverse axis fixing protrusion 30 according to the present invention is extended and protruded at both ends of the uppermost gap maintaining block among the gap maintaining blocks 20, and a fastening hole 32 is formed at a side surface thereof. The transverse axis fixing recessed portion 30 is formed to have the same sectional shape as the transverse axis fixing recessed portion 42 so as to be inserted into and engaged with the transverse axis fixing recessed portion 42 of the post 40 described later, And a fastening hole 32 is formed on the side surface so as to be coupled by a fixture 52 described later.

The pillars 40 according to the present invention are arranged on both sides of the mattress block 10 corresponding to the gap retaining block 20 and extend in the direction perpendicular to the mattress block 10 surface, The transverse axis fixing groove portion 42 is formed to be fitted to the transverse axis fixing projection portion 30. The pair of pillars 40 are integrally formed with the mattress block 10, and are provided so as to confine both ends of the interval maintaining block 20, which is laminated and stacked in a multi-stage manner. A transverse axis fixing groove portion 42 is provided on the inner circumferential surface on the upper side of the column portion 40 so as to be engaged with the column portion 40 of the uppermost space interval holding block so that the longitudinal movement of the plurality of interval maintaining blocks 20, The simple restraint has the advantage of easy on-site assembly.

The through hole 50 is formed in the column portion 40 corresponding to the fastening hole 32 of the transverse axis fixing protrusion 30 so that the fastener 52 is coupled. The through hole 50 is a hole through which the fastener 52 is fastened to be described later so that the fastener 52 can be fastened even if the fastener 52 is not aligned with the fastener hole 32. [ It is preferable that the electrode is formed in an expanded size with respect to the diameter.

The gap holding block 20 assembled in the multiple layers is configured to be constrained in a rectangular partition formed by a combination of the mattress block 10, the pair of posts 40, and the uppermost spacing block 20. That is, the plurality of interval holding blocks 20 stacked in a multi-stage are held by the vertical axis fixing portion 12 and the horizontal axis fixing projections 30 of the uppermost gap maintaining block 20 are held by the vertical Since the laminated structure of the gap retaining block 20 is firmly held and the upper portions of the pair of the column portions 40 are connected to each other, There is an advantage that the durability due to the working earth pressure is maintained firmly.

3, the mattress block 10 is formed with joint pillar portions 44 at both ends thereof and the joint pillar portion 44 is provided to be engaged with the joint pillar portion 44 of the adjacent mattress block 10 The joint column 44 is spaced apart from the column 40 and connected to the upper side by a girder 46 to form a hollow earth pressure canceling part 48 therein. The joint column portion 44 is provided with a protrusion on one of the joint column portions 44 and the groove portion on the other joint column portion 44 so as to connect the mattress blocks 10 to be continuously constructed.

Since the joint column portion 44 is connected to the column portion 40 by the girder portion 46 to form a rectangular partition together with the mattress block 10, the overall durability of the duct duct is improved, Even when the back soil is filled in the duct duct due to the hollow earth pressure canceling part 48 opened between the bottom part 40 and the column part 40, the damage caused by the earth pressure is prevented, So that the transmission efficiency is improved.

An inclined hole 44a is formed in the joint column portion 44. The inclined hole 44a is formed at an inclination angle opposite to that of the inclined hole 44a of the adjacent joint column portion 44, And is coupled by a ring portion 60 provided with a pair of inclined lugs 62. 5, the inclined holes 44a are formed as elongated holes extending in the transverse direction. When the inclined lugs 62 are inserted into the inclined holes 44a and the intervals of the mattress blocks 10 are spaced apart, the inclined lugs 62 And is engaged with the inner inclined surface of the inclined hole 44a. At this time, the extended size of the inclined hole 44a is formed to have an expanded size with respect to the insertion width in consideration of the insertion width L according to the inclination angle of the inclined lug 62.

5 (a), the slant lugs 62 of the hook 60 are inserted into the slant holes 44a of the stern posts 44 adjacent to each other while the mattress block 10 is extended in the cable longitudinal direction 5 (b), the inclined surface of the inclined lug 62 is engaged with the inclined inner surface of the inclined hole 44a. At this time, the angle of inclination of the pair of inclined lugs 62 Since the structure becomes narrower toward the end, the phenomenon of easy separation is prevented.

Since the coupling force between the pipe ducts is maintained by the simple operation of continuously inserting the pipe 60 after the pipeline duct is installed, the construction period is greatly shortened and the pipe can be assembled by the non-welded pipe.

On the other hand, due to the flow distance between the inclined holes 44a and the inclined lugs 62, the flow duct due to the change of the connecting angle is ensured so that the duct ducts connected in the installation direction of the cable 1 are not aligned on a straight line, There is an advantage of excellent workability even in the presence of the topography and obstacles of the buried installation position of the cable (1).

In addition, the space separated between the mattress blocks 10 is filled with backfill soil or a fitting member is provided. In this case, the shim member is selectively applied as a block, a wedge, a filler hardening agent, or a screw type expansion member, so that even when an external force such as ground subsidence and earthquake is applied after construction, the gap between the mattress blocks 10 is firmly maintained in the initial state, (60) and the structural stability are secured.

10: mattress block 20: interval maintaining block
30: transverse axis fixing protrusion 40:
50: through hole 60:

Claims (6)

A plurality of mattress blocks (10) having at least two vertical axis fixing portions (12) on an upper surface thereof;
The mattress blocks 10 are installed in the longitudinal direction of the transmission cable 1 to form a line bottom on the ground,
A plurality of spacing retaining blocks (22) which are stacked on the mattress block (10) and assembled by being vertically stacked and assembled by the vertical axis fixing part (12) 20);
A transverse axis fixing protruding portion 30 which is formed at the side of the uppermost gap maintaining block and which has a fastening hole 32 formed at a side surface of the gap maintaining block 20;
A pair of pillars 40 extending in a direction perpendicular to the surface of the mattress block 10 on both sides of the mattress block 10 corresponding to the interval holding block 20;
A transverse axis fixing groove portion 42 formed at an upper end of the pair of column portions 40 and fitted to the transverse axis fixing protrusion 30 of the uppermost gap maintaining block 20;
A through hole 50 formed in the column portion 40 corresponding to the fastening hole 32 of the transverse axis fixing protrusion 30 and adapted to fasten the fastener 52; And
The spacing-maintaining block 20, which is assembled in the multi-layer structure, is arranged to be confined in a rectangular section formed by a combination of the mattress block 10, the pair of posts 40 and the uppermost spacing block 20,
The mattress block 10 is formed with joint pillars 44 at both ends thereof and the joint pillars 44 are provided to be engaged with the joint pillars 44 of the adjacent mattress block 10, And a hollow earth pressure canceling part (48) is formed on the upper part by being connected to each other by a girder part (46) spaced apart from the rod part (40) Track duct. The method according to claim 1,
The mattress block 10 includes a rectangular frame 15 in which a hollow portion 14 is formed and a rectangular frame 15 having both ends connected to the rectangular frame 15 to support the bottom surface of the spacer 20 in the hollow portion 14. [ And a receiving part (16) for receiving the ultrasonic wave. delete The method according to claim 1,
The inclined hole 44a is formed in the joint column portion 44 and the inclined hole 44a is formed at an inclined angle mutually opposite to the inclined hole 44a of the adjacent joint column portion 44, , And are coupled to each other by an annulus (60) provided with a pair of inclined lugs (62). 5. The method of claim 4,
The inclined hole 44a is formed as a horizontally extended hole so that when the inclined lug 62 is inserted into the inclined hole 44a and the interval of the mattress block 10 is spaced apart, ) Of the duct (10). 6. The method of claim 5,
Wherein a space between the mattress blocks (10) is filled with filler soil or a fitting member is provided.

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