KR101337875B1 - Safety ladder for foundation construction of electric transmission steel tower - Google Patents

Abstract

A safety ladder for foundation construction of an electric transmission steel tower comprises a ladder part installed at a lower liner plate installed in a sphere part of a cylindrical foundation; and a safety bar combined to the ladder part by a hinge to be able to rotate, wherein a winch for coiling or uncoiling a rope, and a workbench having a pulley that the rope passes are installed outside the sphere part; the ladder part includes a scaffolding, first and second fixing units extending to both sides forming a specific angle to the scaffolding, and first and second hinge units installed at the first and second fixing units; the safety bar is bent into a U shape and includes third and fourth hinge units combined to the first and second hinge units and a rope sustenance hole installed between the third and fourth hinge units, each end of the first and second fixing units is fixed at a bottom horizontal coupling unit of an upper liner plate by first and second fixing plates that are screw-coupled through coupling holes of the upper liner plate and a lower liner plate; and the safety bar is able to rotate by operations of the first to fourth hinge units and, when the safety bar spreads, first and second supporting units forming both ends of the safety bar are supported by a top horizontal coupling unit of the lower liner plate; and a rope supporting unit is installed at the bottom end of the rope passing through the rope sustenance hole to rotate the safety bar by cooperating with the rope sustenance hole when the rope is raised by the winch.

Description

Safety Ladder For Foundation Construction Of Electric Transmission Steel Tower

The present invention relates to a safety ladder for power transmission tower basic construction, and more particularly, to a safety ladder for the installation of a transmission tower and for easy installation and dismantling as a ladder used during the foundation work for installing the transmission tower. will be.

The transmission tower installed in the mountain area is installed using a deep foundation with less excavation and working environment due to the narrow working space and the difficulty of transporting materials and machinery required for construction.

Such core foundation is made of reinforcement, concrete, etc., as disclosed in Republic of Korea Patent No. 627691.

1 is a step-by-step showing the foundation work for forming the core foundation, after excavation by selecting a point to be excavated (S10), the upper liner plate (10, Liner Plate) is installed on the part to form the main part, The bottom liner plate 20 is installed at a portion that will form a sphere. In the case of the lower liner plate 20, the outer portion is poured into concrete.

At this time, the upper and lower liner plates 10 and 20 to be installed have a shape as shown in FIG. 2 (a), and extend in a horizontal direction along the side wall portion 21 and the upper and lower side wall portions forming the corrugated side wall. The upper horizontal coupling portion 22-1 and the lower horizontal coupling portion 22-2 having the plurality of coupling holes 24 extend along the front and rear ends of the side wall portion 21, and the plurality of coupling holes ( It consists of a vertical coupling portion 23 having 24.

The liner plate as shown in FIG. 2 (a) is connected to each other by the vertical coupling portions 23 and connected by a screw inserted through the coupling hole 24 of the vertical coupling portion 23 to form a cylindrical shape as shown in FIG. This will act as a barrier to prevent the flow of surrounding soil into the excavation point.

After excavation is made below the uppermost liner plate of the lower liner plate forming the sphere, the upper horizontal engaging portion 22-1 of the next liner plate is fastened to the lower horizontal engaging portion 22-2 of the uppermost liner plate. , Connected liner plates are fastened by vertical coupling to form a cylindrical shape and excavation proceeds while preventing the inflow of surrounding soil.

When the excavation proceeds to a predetermined depth and the installation of the lower liner plate is completed, the reinforcing work for installing the reinforcing bar 30 to support the concrete part is performed.

When the reinforcing work is completed, the concrete insert 40 is poured into the concrete part and then the concrete is poured. (S50)

In general, in the case of a sphere, the diameter is about 2.5 ~ 5.5 m and the depth is made of about 7 m, the main body is made about 1 m larger than the sphere and the depth is formed about 1 to 2 m. In the case of a liner plate, the thing about 50cm in height is used.

Subsequently, the main body portion is reinforced by the reinforcement around the angle member 40, and then poured concrete to form the core 1 (figure 1) as shown in Figure 3 is used as the foundation of the transmission tower.

In the excavation step such as the step S30 and the reinforcing step such as the step S40, the worker should enter and exit the concrete part. It is common to use a curved scaffold to form a ladder.

However, the worker who climbs and descends such a ladder has various tools and parts, which are inconvenient to move, and are attached by welding.

As a conventional safety ladder that can be used in the concrete portion may be considered a fire escape ladder disclosed in Republic of Korea Patent No. 917145 as shown in Figure 4, such a ladder is possible to function as a ladder only to expand the entire folding. There is a problem that it is impossible to extend the ladder. In addition, since the safety stand 200 is supported only by the hinge coupling to the slide body 50, it is difficult to safely support a worker carrying heavy materials, and has a structure in which it is impossible to fold the safety stand only to insert various parts into the concrete part. Not suitable for use in foundation work of transmission towers.

KR 10-0627691 B, September 25, 2006, drawing 1a KR 10-0917145 B, September 15, 2009, drawing 2

The present invention allows the operator to safely enter the concrete part in the transmission tower construction, and also to easily fold the safety belt according to the working conditions, and to provide a safety ladder that is easy to extend the length of the ladder and dismantling It is done.

Safety ladder for transmission tower construction of the present invention

A ladder portion installed on the bottom liner plate installed in the sphere portion;

In the safety ladder for the transmission line tower public construction made of a safety belt that is hinged to the ladder unit is installed to enable rotational movement,

A work bench having a winch for winding or unwinding the rope and a pulley through which the rope passes is installed outside the concrete portion;

The ladder part comprises a scaffolding part, first and second fixing parts extending from both sides at a predetermined angle with the scaffolding part, and first and second hinge parts installed on the first and second fixing parts;

The safety belt is bent into a U-shape, and includes a third and fourth hinge portions coupled to the first and second hinge portions, and a rope retaining hole installed between the third and fourth hinge portions;

Each end of the first and second fixing parts is fixed to the lower horizontal coupling part of the upper liner plate by first and second fixing plates which are screwed through the coupling holes of the upper liner plate and the lower liner plate;

The harness is rotatable by operation of the first to fourth hinges, and when unfolded, allows the first and second support portions forming both ends of the harness to be supported by the upper horizontal engaging portion of the lower liner plate;

The lower end of the rope penetrating the rope holding hole is characterized in that the rope support is provided so that when the rope is raised in accordance with the operation of the winch to cooperate with the rope holding hole to rotate the safety belt.

According to the safety ladder of the transmission tower construction of the present invention, the operator can safely enter the concrete portion, and also can easily fold the safety belt according to the working conditions, the length of the ladder is easy to extend and dismantle.

1 is a diagram showing the procedure of the transmission tower construction.
2 shows the shape of a liner plate.
3 shows the shape of a core foundation;
4 is a view showing a conventional safety ladder.
Figure 5 is a view showing the form of the ladder portion and the safety zone of the embodiment of the present invention.
6, 7 is a view showing the operation relationship of the embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings in accordance with embodiments thereof.

Figure 5 (a) is a plan view showing a ladder unit and a safety belt installed on the lower liner plate, Figure 5 (b) is a front view.

The ladder part 100 includes a scaffolding part 110, first and second fixing parts 121 and 122 formed extending from both sides at a predetermined angle with the scaffolding part 100, and the first and second fixing parts 121 and 122. It consists of the first and second hinges (131, 132) installed in.

The ladder part 100 may be manufactured by bending a rebar or steel pipe, and in order to prevent sliding, the auxiliary footrest part 111 may be installed in parallel with the footrest part 110 between the first and second fixing parts 121 and 122. It is also preferable.

Each end of the first and second fixing parts 121 and 122 is welded to the first and second fixing plates 141 and 142, and the first and second fixing plates 141 and 142 are screwed into coupling holes of the upper liner plate and the lower liner plate. It is fixed to the lower horizontal coupling portion 22-2 of the upper liner plate.

In this embodiment, the ends of the first and second fixing parts 121 and 122 are welded to the first and second fixing plates 141 and 142 and fixed to the lower horizontal coupling part 22-2 of the upper liner plate. In order to fix each end of the first and second fixing portions between the lower horizontal coupling portion of the upper liner plate by using a separate fixing plate screwed with the coupling hole, any method may be used.

The safety belt 200 is manufactured by bending a reinforcing steel or steel pipe in a U-shape, the third and fourth hinge parts 231 and 232 coupled to the first and second hinge parts 131 and 132 of the ladder part 100, and Rope holding holes 220 are installed between the 3, 4 hinge portions 231, 232.

The first and third hinge parts 131 and 231 and the second and fourth hinge parts 132 and 232 are respectively coupled to rotatably support the safety rest 200. When the safety belt 200 is extended, the first and second support parts 211 and 212 forming both ends of the safety belt 200 touch the bottom surface of the upper horizontal coupling part 22-1 of the lower liner plate to form a shape as shown in FIGS. 5 (b) and 6. To be supported.

In addition, a workbench 400 having a winch 410 for winding or unwinding the rope 300 and a pulley 420 passing through the rope is installed outside the sphere where the lower liner plate 20 is installed. The rope 300 released from the winch 410 is inserted into the rope holding hole 220 and extends below the spherical portion. When the safety belt 200 is folded as shown in FIG. 7 when the rope 300 is wound from the winch, a rope support 310 is installed on the rope at the bottom of the rope holding hole 220, and the rope support 310 installed on the rope is The rope holding hole 220 may not pass through.

In this embodiment, the rope support 310 was used to be mounted to the rope with a screw coupled to the 'C' shaped clipper.

As described in FIG. 1, as the excavation is performed, the lower liner plate is installed under the lower liner plate that is pre-installed. In this case, the ladder part coupled with the safety guard of the present embodiment is installed on the lower liner plate, and the rope support part fastened to the rope. Loosen the rope to move to the next stage, and then tighten the rope support in a predetermined position.

In addition, even during excavation, when the lower liner plate 20 is transferred to the concrete part, the winch 410 is operated to wind up the rope 300, so that the safety belt 200 is folded as shown in FIG. .

If the worker does not need to descend into the concrete after finishing the steel frame work, the safety ladder can be removed by dismantling from the bottom ladder, and the ladder can be recycled later.

10: upper liner plate 20: lower liner plate 21: side wall
22-1: upper horizontal coupling portion 22-2: lower horizontal coupling portion 23: vertical coupling portion
24: coupling hole 30: reinforcing bar 40: corner material 50: slide body
Reference Signs List 100 ladder part 110 footrest part 121,122 first and second fixing part
131,132: 1st, 2nd hinge part 200: Safety belt 211,212: 1st, 1st and 2nd support part
220: rope holding hole 231, 232: third and fourth hinge portion 300: rope
310: rope support 400: work table 410: winch 420: pulley

Claims (1)

A ladder portion installed on the bottom liner plate installed in the sphere portion;
In the safety ladder for the transmission line tower public construction made of a safety belt that is hinged to the ladder unit is installed to enable rotational movement,
A work bench having a winch for winding or unwinding the rope and a pulley through which the rope passes is installed outside the concrete portion;
The ladder part comprises a scaffolding part, first and second fixing parts extending from both sides at a predetermined angle with the scaffolding part, and first and second hinge parts installed on the first and second fixing parts;
The safety belt is bent into a U-shape, and includes a third and fourth hinge portions coupled to the first and second hinge portions, and a rope retaining hole installed between the third and fourth hinge portions;

Each end of the first and second fixing parts is fixed to the lower horizontal coupling part of the upper liner plate by first and second fixing plates which are screwed through the coupling holes of the upper liner plate and the lower liner plate;

The harness is rotatable by operation of the first to fourth hinges, and when unfolded, allows the first and second support portions forming both ends of the harness to be supported by the upper horizontal engaging portion of the lower liner plate;

The lower end of the rope penetrating the rope holding hole is a rope ladder, characterized in that the rope support is installed so as to rotate the safety belt in cooperation with the rope holding hole when the rope is raised in accordance with the operation of the winch. .

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