KR100349107B1 - Shaft construction system using precasted segment block - Google Patents

Abstract

The present invention relates to a vertical sphere construction method using precast concrete segment block.

The present invention provides a step (100) for installing piles at regular intervals to form a circular shape on the ground, and excavating the virtual inner ground formed by the piles to the same depth as the height of the concrete block made of a constant size 110, the step of attaching the concrete block to the pile along the inner circumferential surface of the excavated ground (120), and fastening and integrating between the concrete blocks (130), and the ground of the excavated ground with the concrete block It is characterized in that it comprises a step 140 of performing a backfill injection between the inner circumferential surface, and repeating the steps from step 110 to step 140.

According to the present invention, by assembling the concrete block manufactured in the factory in the field by constructing the vertical sphere can be shortened construction period by simple construction, it is easy to standardize it is possible to maintain a uniform construction quality.

Description

Vertical ball construction method using precast concrete segment block {SHAFT CONSTRUCTION SYSTEM USING PRECASTED SEGMENT BLOCK}

The present invention relates to a construction method of vertical spheres buried underground, more specifically to improve the problems according to the existing site-pouring method to shorten the air, and to improve the construction quality precast concrete segment block The vertical sphere construction method used.

A typical vertical ball construction method is as follows.

First, the ground is excavated to a certain depth. Then, by installing a wall of mud walls inside the excavated ground to prevent the loosening or collapse of the ground, using a crutch to support it. Repeat this process step by step to the planned depth, and then install the formwork from the floor and cast concrete to construct the vertical wall.

However, this site casting method has the disadvantage of avoiding work and increasing labor costs due to the complicated work procedure and high labor intensity. As the concrete is cured at the site, a long tunnel construction period is required as well as standardization. There was a problem that it is difficult to expect a uniform construction quality.

The present invention is to solve the conventional problems as described above, it is possible to shorten the construction period and maintain excellent construction quality by constructing a vertical sphere through the method of assembling precast precast concrete segment blocks in the field The purpose is to provide a vertical sphere construction method using a precast concrete segment block.

The present invention for achieving the above object, the step of installing piles at regular intervals to form a circular shape on the ground, and the same as the height of the concrete block produced in a certain size of the virtual inner ground formed by the piles Excavating to a depth, attaching the concrete block to the pile along the inner circumferential surface of the excavated ground, fastening and integrating the concrete blocks between the concrete block, and between the concrete block and the inner circumferential surface of the excavated ground And performing a backfill injection, and repeating the excavation step from the backfill injection step.

According to the present invention, by assembling the concrete block manufactured in the factory in the field by constructing the vertical sphere can be shortened construction period by simple construction, it is easy to standardize it is possible to maintain a uniform construction quality.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

1 is a perspective view of a precast concrete segment block according to the present invention;

2a to 2f is a construction flowchart of the vertical sphere construction method using a precast concrete segment block according to the present invention,

Figure 3 is a cross-sectional view of the vertical sphere constructed in accordance with the vertical sphere construction method of the present invention.

<Description of the symbols for the main parts of the drawings>

10 concrete block 11 injection hole

12: fastening portion 13: main portion

14 fastening plate 15 bolt hole

20: H file 30: bottom plate

40: Concrete (backfilled)

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

1 shows a precast concrete segment block (hereinafter, abbreviated as concrete block) used in a vertical sphere construction method using the precast concrete segment block according to the present invention.

The illustrated concrete block 10 is composed of reinforcing bars and concrete, and has a predetermined area and thickness, and the entire block is curved in a predetermined curvature. In addition, the center is formed with an injection hole 11 for backfill injection in the vertical sphere construction process, and is provided with a fastening portion 12 for connection with other concrete blocks in the upper and lower and left and right ends.

The fastening part 12 forms a recess 13 at an edge of the concrete block 10, and a fastening plate 14 of steel having a bolt hole 15 formed at an end surface thereof is integrated with the concrete block 10. It is to be fixed by fastening with a fastening plate of the other concrete block by fitting a bolt or the like through the recess (13).

These concrete blocks 10 are formed adjacent to each other when a plurality of continuously connected to form a cylindrical.

2a to 2f shows the construction process by the vertical sphere construction method using the precast concrete segment block of the present invention.

According to this, the construction of the vertical sphere proceeds to the following stage.

First, as shown in FIG. 2A, the H pile 20 is installed in the ground on which the vertical sphere is to be positioned up to the planned depth. Pile 20 is installed in a circular shape along the cross-sectional shape of the vertical sphere, it is installed to have a predetermined interval equal to the number of concrete blocks 10 required to make a cylindrical.

Then, as shown in FIG. 2B, the virtual circular ground formed by the piles 20 is excavated stepwise to the same depth as the height of the concrete block 10.

The steps up to this point are similar to those widely used in the general vertical sphere construction method.

Then, the concrete block 10 is attached to the H pile 20 along the inner circumferential surface of the excavated ground as shown in Figure 2c. At this time, the method of attaching the concrete block 10 to the pile 20 may be various, for example, a method by welding, an attachment method using an anchor (Anchor) and the like. In addition, a method of injecting and attaching concrete between the concrete block 10 and the inner circumferential surface of the ground is also possible.

After attaching the concrete blocks 10 as described above, the concrete blocks 10 are fastened by bolts to be integrated. As described above, the fastening method between the concrete blocks passes through the fastening plates 14 of the concrete blocks 10 facing each other with bolts, and then fastens and fixes the nuts.

As shown in FIG. 2D, a backfill injection is performed between the concrete block 10 and the inner circumferential surface of the excavated ground through the injection hole 11 of the concrete block 10. 3 is a cross-sectional view of the vertical sphere constructed by this process, the reference numeral 40 denotes the back-filled concrete.

On the other hand, when using the attachment method by the injection of concrete in the step of attaching the concrete block 10 to the pile 20, this process can be omitted.

Then, as shown in FIG. 2e, the bottom ground is repeatedly excavated, and the process of FIG. 2c to FIG. 2d is repeated to a planned depth, and the bottom plate 30 is poured to complete the vertical sphere.

Figure 2f shows a vertical sphere completed through such a process.

As described above, according to the vertical sphere construction method using the precast concrete block according to the present invention, by using the vertical block manufactured in advance in the factory by constructing the vertical sphere can be obtained the effect of simple operation and process shortening, Compared to the site casting method, the construction period can be significantly shortened by reducing the time required for form assembly and concrete curing.

In addition, by using a standardized concrete block has the advantage of high safety and excellent construction quality, there is an effect that can prevent safety accidents on the site by not needing a support for wall support.

Claims (4)

In the method of constructing the vertical sphere, Installing the file at regular intervals to form a circle on the ground (100), Digging the virtual inner ground ground formed by the piles to the same depth as the height of the concrete block manufactured to a predetermined size (110), Attaching the concrete block to the pile along the inner circumferential surface of the excavated ground (120); Fastening and integrating the concrete blocks (130); Performing a backfill injection between the concrete block and the inner peripheral surface of the excavated ground (140); Vertical block construction method using a precast concrete segment block, characterized in that it comprises a step (150) of repeating the step (110) to step (140). The vertical sphere construction method according to claim 1, wherein the concrete block is welded to the pile in the step (120). According to claim 1, Vertical construction method using a precast concrete segment block, characterized in that by attaching the concrete block through the anchor to the pile in the step (120). In the method of constructing the vertical sphere, Installing the file at regular intervals to form a circle on the ground (100), Digging the virtual inner ground ground formed by the piles to the same depth as the height of the concrete block manufactured to a predetermined size (110), Adhering the concrete block along the inner circumferential surface of the excavated ground and injecting concrete therebetween and attaching the concrete block to the pile (121); Fastening and integrating the concrete blocks (130); The vertical sphere construction method using a precast concrete segment block, characterized in that it comprises a step (160) to repeat the step (110) to step (130).