KR20230041536A - Girder it stops for the top down construction of the underground structure - Google Patents

Abstract

The present invention relates to a stopping girder for top-down construction of underground structures, and specifically to the stopping girder for top-down construction of underground structure capable of shortening a construction period while reducing material usage by using stopping girders in underground structures where top-down construction is performed. The stopping girder (A) has both ends of a horizontal bar (10) seated at an outer end of a slab hole (H) of a slab (S), and is provided with a height adjusting tool (20) provided to adjust the height and level of the horizontal bar (10) at both sides of the horizontal bar (10).

Description

Girder for top-down construction of underground structures {GIRDER IT STOPS FOR THE TOP DOWN CONSTRUCTION OF THE UNDERGROUND STRUCTURE}

This invention relates to a lift girder for top-down construction of an underground structure, and in particular, top-down construction of an underground structure that can shorten the construction period while reducing material usage by using a lift girder for an underground structure in which top-down construction is performed. It is about the dragon field girder.

In general, building an underground structure from top to bottom is called a top-down method, and this top-down method proceeds from the first floor to the first basement floor and the second basement floor, and at the same time, the ground floor is sequentially raised from the first floor. do.

In normal construction, an outer wall to block lateral earth pressure and water pressure is erected, foundation work and steel frame pillars are installed, and the floor plate is installed on the first floor, followed by excavation and ground/underground frame construction.

Figure 5 is a perspective view showing an embodiment of the top-down method according to the prior art, in the process of providing a pillar 510 at a certain height from the top of the floor slab 500, the pressure of the pillar 510 is applied to the lower layer. As a way to prevent conduction to the bottom slab 510, the support frame 540 is provided so that it spans in the horizontal and vertical directions around the opening hole 530 formed around the periphery of the floor slab 510, and the upper part of the spanned support frame 540 The yoke 560 is supported by a plurality of pipe supports 550, and a joist 570, a plywood 580, and a formwork not shown are provided on top of the yoke 560 so that the concrete to be poured is stable. It is equipped so that it can be hardened.

However, in order to obtain such a pillar 510, a support frame 540 spanning the periphery of the opening hole 530, a plurality of pipe supports 550, a yoke 560, a joist 570, and a plywood 580 are required. There was a problem in that the work was cumbersome and additional costs were incurred while the construction period was lengthened accordingly.

In addition, as the length of the pipe support 550 supported by the supporting frame 540 cannot be reduced beyond an acceptable limit, there is a problem in that the gap between the bottom slab 510 and the lower part of the column 510 widens.

Publication No. 10-2018-0015497 (2018.02.13.)

This invention provides a girder whose height and inclination can be adjusted at the top of the slab hole, which is an opening formed in the slab, so that joists or plywood work can be performed directly without installation work such as conventional support pipes and yokes. Pillars and slabs This is to reduce the gap between them.

In this invention, in the lift girder (A) for top-down construction of an underground structure provided across the slab hole (H) of the slab (S) in the horizontal direction, the lift girder (A) is a horizontal bar (10) Both ends of are seated at the outer end of the slab hole (H) of the slab (S), and the height adjustment tool (20) provided to adjust the height and level of the horizontal bar (10) is of the horizontal bar (10). It is characterized in that it is provided on both sides.

In addition, the horizontal bar 10 of the lifting girder (A) is provided with a welded joint in which unit horizontal bars 110 provided to have a rectangular hollow shape are vertically butted, and each unit horizontal bar 110 It is characterized in that the stopper piece 120 having a long hole 12 is inserted at both ends of the welded joint.

In addition, the height adjusting device 20 of the horizontal bar 10 is provided with control rod holes RH penetrating the bottom of both ends of the horizontal bar 10, and the height adjustment tool 20 is provided in the control rod hole RH. It is characterized in that the control rod 210 of the control tool 20 is inserted so as to be drawn in and out, and the control knob 220 is provided on the control rod 210.

In addition, the control rod 210 has a male screw part 211 formed on the outer periphery, and the control knob 220 has a knob handle 223 on the outer periphery of the knob body 222 on which the female screw part 221 is formed. It is characterized in that it is provided.

In addition, the control rod 210 of the height adjuster 20 is characterized in that a square support panel 230 is provided at the bottom.

In addition, it is characterized in that the reinforcing piece 240 having a rod through-hole 241 is provided around the adjusting rod hole (RH) provided on both sides of the lower side of the unit horizontal bar 110.

And, the control rod 210 of the height adjusting device 20 is provided with a hooking piece 212 at the top, and the hooking piece 212 is characterized in that it is provided with a diameter wider than the diameter of the control rod hole RH.

In this invention, by providing a lifting girder to the top of the slab hole, which is an opening formed in the slab, it is possible to obtain the effect that the joist or plywood work can proceed directly without the conventional installation work such as a support pipe and a yoke.

In addition, by allowing the height and inclination of the girder provided to the upper part of the slab hole to be adjusted through this, it is possible to obtain an effect that the work installed on the upper part can be performed stably.

In addition, through this, an effect of shortening the air as a whole can be obtained.

In addition, through this, it is possible to obtain an effect of reducing construction costs while reducing the occurrence rate of safety accidents during work.

And through this, the effect of reducing the gap between the column and the slab can be obtained.

1 is a perspective view showing a girder for top-down construction of an underground structure according to this invention.
Figure 2 is a perspective view showing a detached girder for top-down construction of an underground structure according to this invention.
Figure 3 is a longitudinal cross-sectional view showing a girder for top-down construction of an underground structure according to this invention.
Figure 4 is a longitudinal cross-sectional view showing a state in which the hanging girder for top-down construction of an underground structure according to this invention is installed on the upper part of the slab hole of the slab.
Figure 5 is a perspective view showing an embodiment of a top-down method according to the prior art.

An embodiment of the present invention will be described with reference to the accompanying drawings.

Figure 1 is a perspective view showing a lift girder for top-down construction of an underground structure according to the present invention, Figure 2 is a perspective view showing a lift girder for top-down construction of an underground structure according to the present invention, Figure 3 is a longitudinal cross-sectional view showing a hanging girder for top-down construction of an underground structure according to the present invention, and FIG. It is a cross section.

The hanging girder (A) according to the present invention is provided at the top of the slab hole opened in the slab so that it can be easily installed directly on the joist and plywood without the conventional pipe support, yoke, etc., FIGS. As shown in FIG. 4, it is provided across the slab hole H, which is an opening formed in the slab S, in a horizontal direction while being spaced apart at a certain height from the bottom to the top.

Although only one of these lifting girders (A) has been cited as an example, by having the same structure spaced apart at regular intervals in the slab hole (H), it is provided repeatedly in the transverse direction, so that a plurality of yokes are not required. It is provided so that it can be put on.

The lifting girder (A) is provided with a horizontal bar 10 having a square tube shape as a way to reduce the amount of material used and the load, and height adjustment devices 20 are provided at both ends of the horizontal bar 10 As a result, the height and level of the horizontal bar 10 can be adjusted in a state where the lower portion of the height adjusting device 20 is seated at the outer end of the slab hole H of the slab S.

The horizontal bar 10 is provided so that sufficient strength can be maintained by the unit horizontal bar 110 provided to have a rectangular hollow shape facing up and down and providing a welded joint, and each unit horizontal bar As the plug pieces 120 having long holes 12 are inserted into both ends of the 110 and provided as welded joints, both ends of the unit horizontal bar 110 are protected from external impact during manufacturing, storage, transportation, installation, and disassembly. is prevented from being deformed or damaged, so that the life span can be extended.

The height adjuster 20 is provided at the bottom, which is both ends of the horizontal bar 10, and is adjusted so that a predetermined height can be maintained while the horizontal bar 10 is installed so that the level is maintained.

The height adjuster 20 is provided with a control rod hole RH having a predetermined diameter passing through from the lower end of both ends of the horizontal bar 10 toward the upper part, and the control rod (RH) in the control rod hole (RH). 210) is inserted so as to be drawn in and out.

The adjusting rod 210 is provided with an adjusting knob 220 so that the horizontal bar 10 can move from the top to the bottom or from the bottom to the top according to the rotation of the control knob 220 .

To this end, the control rod 210 has a male screw portion 211 formed on the outer periphery, and the control knob 220 has a knob handle 223 on the outer periphery of the knob body 222 on which the female screw portion 221 is formed. is provided. At this time, the control rod 210 of the height adjuster 20 maintains a wide cross-sectional area as the square supporting panel 230 is provided at the bottom, so that the load acting from the top to the bottom can be dispersed and sufficiently supported. do. At this time, the square supporting panel 230 is provided with an embossed reinforcing portion 231, so that sufficient supporting strength can be maintained.

On the other hand, by providing a reinforcing piece 240 having a rod through hole 241 around the adjustment rod hole RH provided on both sides of the lower side of the unit horizontal bar 110, by the load acting from the top to the bottom It is possible to further prevent deformation or damage around the adjusting rod hole RH.

The control rod 210 is provided with a hooking piece 212 at the upper end, so that the control rod 210 can be prevented from coming out of the control rod hole RH and being separated during manufacturing, storage, transportation, and installation. .

To this end, it is preferable that the engaging piece 212 is provided wider than the diameter of the adjusting rod hole RH.

In order to couple the control rod 210 to the control rod hole RH provided in the unit horizontal bar 110, the stopper pieces 120 are inserted into both ends of the unit horizontal bar 110, and the support panel before welding. The lower part of the control rod 211 to which 230 is not coupled is inserted into the control rod hole RH, and then the control rod 210 is provided with a support panel 230, and then the unit horizontal bar 110 It is preferable that the stopper piece 120 is inserted into each end of the welded joint.

In this invention, the lifting girder is provided at the top of the slab hole, which is an opening formed in the slab, so that the joist or plywood work proceeds directly without installation work such as a support pipe and a yoke, reducing the number of work steps. The lifting girder (A) As the height of is adjusted within the length of the adjusting rod 210, it is possible to reduce the distance between the column and the slab due to the low height, thereby reducing costs.

This invention is not limited to the specific embodiments and descriptions described above, and various modifications can be made by anyone skilled in the art without departing from the gist of the present invention claimed in the claims. It is possible, and such modifications fall within the protection scope of the present invention.

10: horizontal bar 20: height control
110: unit horizontal bar 120: stopper
121: long hole 210: adjusting rod
211: Male screw part 220: Control knob
221: Female screw part 222: Knob body
223: knob handle

Claims (5)

In the hanging girder (A) for top-down construction of underground structures provided across the slab hole (H) of the slab (S) in the horizontal direction,
In the lifting girder (A), both ends of the horizontal bar (10) are seated at the outer end of the slab hole (H) of the slab (S), and the height and level of the horizontal bar (10) are adjusted. Drop-in girder for top-down construction of underground structures, characterized in that spheres 20 are provided on both sides of the horizontal bar 10.
According to claim 1,
The horizontal bar 10 of the lifting girder (A) is provided with a welded joint in which unit horizontal bars 110 provided to have a rectangular hollow shape face up and down, and both sides of each unit horizontal bar 110 A stopper for top-down construction of underground structures, characterized in that the stopper pieces 120 having long holes 12 are inserted at the ends and provided as welded joints.
According to claim 1,
The height adjusting device 20 of the horizontal bar 10 is provided with adjusting rod holes RH penetrating the bottom of both ends of the horizontal bar 10, and the height adjusting device 20 is installed in the adjusting rod hole RH. The control rod 210 of (20) is inserted so as to be drawn in, and the control rod 210 is provided with an control knob 220.
According to claim 3,
The control rod 210 has a male screw portion 211 formed on the outer periphery, and the control knob 220 has a knob handle 223 on the outer periphery of the knob body 222 on which the female screw portion 221 is formed. A hanging girder for top-down construction of underground structures, characterized by being.
According to claim 3,
The control rod 210 of the height adjuster 20 is a girder for top-down construction of underground structures, characterized in that the square support panel 230 is provided at the bottom.

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