KR101137974B1 - Method for foundation construction structure of pedestal - Google Patents

Abstract

The present invention relates to a method for foundation construction for fixing ground structures, and more particularly, to significantly shorten the construction period for forming the foundation, thereby minimizing the reduction of construction costs and the interference of vehicles and pedestrians due to construction. The present invention relates to a foundation construction method for fixing ground structures that can be firmly installed in the ground to firmly support ground structures.

According to the present invention, there is provided a ground construction fixed ground construction method comprising: a first excavation step of digging one or more first foundation holes in a ground on which ground structures are to be installed; A second drilling step of drilling the second foundation hole to be connected to the first foundation hole; A skeletal seating step of seating the basic skeletal means pre-fabricated in any one or two of the first foundation hole and the second foundation hole; A concrete placing step of placing concrete in the first and second foundation holes through the base skeleton means; And curing step of curing concrete; It provides a ground construction method for fixing the ground structure comprising a.

Ground structure, foundation, foundation hole, foundation skeleton means, concrete, plate, guide pipe, concrete pourer, anchor bolt, pedestal

Description

Foundation construction method for fixing ground structures {METHOD FOR FOUNDATION CONSTRUCTION STRUCTURE OF PEDESTAL}

The present invention relates to a method for foundation construction for fixing ground structures, and more particularly, to significantly shorten the construction period for forming the foundation, thereby minimizing the reduction of construction costs and the interference of vehicles and pedestrians due to construction. The present invention relates to a foundation construction method for fixing ground structures that can be firmly installed in the ground to firmly support ground structures.

In general, in order to install ground structures, such as power poles, traffic lights, traffic signs, street lamps, placard anchors, etc., the foundation is formed in the ground.

Conventionally, when forming such a foundation, a pit is dug at a place where the ground structure is to be installed, and after the formwork is installed inside the pit, concrete is poured into the form and cured to form a foundation. Anchor bolts are buried in the upper part of the foundation, and the ground bolts are connected to the anchor bolts, traffic lights, traffic signs, street lamps, banner post anchors, and the like.

However, the conventional method of forming the foundation requires a separate formwork, while maintaining the pit dug around the foundation while the poured concrete is being cured, and removing the formwork and refilling the pit when curing of the concrete is completed. In addition, it takes considerable construction period, and there is a problem that imparts a lot of inconvenience to the traffic of vehicles and pedestrians operating the construction site throughout the foundation construction period, or impairs the aesthetics of the surrounding environment.

In addition, it is common to form a circular pit at the time of formation of the pit, and the foundation thus formed also has a cylindrical shape, and when an external force such as a natural disaster is applied to the ground structure, it rotates at its original position to serve as the ground structure. There was a problem that can not be performed properly.

In order to solve this problem, a method of manufacturing a large amount of foundation in a concrete manufacturing plant, transferring the completed foundation to the site where the prop is installed, and then embedding the foundation in the ground has been attempted.

However, this basic installation method can shorten the construction period in the field, but it takes a lot of transportation cost to transfer the heavy chain foundation to the work site, and heavy equipment such as a crane that can move and install the heavy chain foundation at the work site. There were many limitations on the foundation installation work.

In addition, there is a problem that can not appropriately change the size and shape of the foundation according to the installation conditions of the site, as the already used foundation.

The present invention is to solve and solve the problems caused by the conventional construction method for fixing the ground structure as described above,

An object of the present invention is to provide a foundation construction method for fixing the ground structure that can significantly reduce the construction period to form the foundation to reduce the construction cost and minimize the interference of vehicles and pedestrians due to the construction.

Another object of the present invention is to provide a ground construction method for fixing the ground structure that can be firmly installed in the ground to support the ground structure.

According to the present invention for achieving the above object, in the ground construction method for fixing the ground structure, the first excavation step of drilling one or more first ground holes in the ground on which the ground structure is to be installed; A second drilling step of drilling the second foundation hole to be connected to the first foundation hole; A skeletal seating step of seating the basic skeletal means pre-fabricated in any one or two of the first foundation hole and the second foundation hole; A concrete placing step of placing concrete in the first and second foundation holes through the base skeleton means; And curing step of curing concrete; It provides a ground construction method for fixing the ground structure comprising a.

The basic skeletal means includes a plate mounting structure on which the ground structure is placed, and an inner tube formed on the lower surface of the plate, and a structure mounting portion formed with a concrete placing hole to penetrate the plate and the guide tube; Two or more anchor bolts formed on the plate away from the concrete placing ball and coupled with the ground structure; And a pedestal installed on the guide tube to support the structure mounting portion. It may be configured to include.

It may be configured to include a reinforcing member mounted between the guide tube and the lower portion of the plate to support the plate.

The lower end of the pedestal may be configured to form a support member for increasing the contact area with the ground.

According to the ground construction method for fixing the ground structure according to the present invention, it is possible to significantly reduce the construction period to form the foundation to reduce the construction cost and minimize the interference of vehicles and pedestrians due to the construction.

In addition, the present invention has the effect that the foundation is firmly installed in the ground can support the ground structure firmly.

Hereinafter, with reference to the drawings will be described in detail. However, these drawings are for illustrative purposes only and the present invention is not limited thereto.

1 is a perspective view of the base skeleton means used in the ground construction method for fixing the ground structure according to an embodiment of the present invention, Figure 2 is a front view of the base skeleton means shown in FIG.

1 and 2, the base skeleton means 100 used in the ground construction method for fixing the ground structure according to an embodiment of the present invention is largely the structure mounting portion 110 and the anchor bolt 120 and the pedestal 130 It is configured to include).

The structure mounting unit 110 includes a plate member 112 and a guide tube 114, and a concrete pouring hole 116 is formed to penetrate the plate member 112 and the guide tube 114. Plate 112 is formed with a plurality of holes, the anchor bolt 120 described below is fastened to this hole is a ground structure (ST) such as power poles, traffic lights, traffic signs, street lights, placard anchors, etc. . The guide tube 114 is formed on the lower surface of the plate 112 to serve to guide the concrete (C) does not pop out to other places when placing the concrete (C) through the concrete placing hole (116). Here, it is preferable that the reinforcing member 118 is mounted between the guide tube 114 and the lower portion of the plate member 112 so as to support the plate member 112 on which the ground structure ST is placed and subjected to a load.

The anchor bolt 120 is fastened to a plurality of holes formed in the plate member 112 and is formed in the plate member 112, and is disposed away from the concrete placing hole 116. The anchor bolt 120 is connected to the ground structure (ST) as in the conventional foundation is to install the foundation and ground structure (ST) combined.

Pedestal 130 is a component that is installed in the guide tube 114 to support the structure mounting unit 110, the overall length of the pedestal 130 according to the length of the first base hole (H1) or the second base hole (H2) you can change it. In addition, the pedestal 130 is shown as consisting of four legs in the illustrated figure, but the number of legs or the length of each leg may be formed differently according to the installation environment. The lower end of the pedestal 130 is preferably a support member 132 is formed to increase the contact area with the ground (G) to support the structure mounting portion 110, the entire length of the pedestal 130 In order to prevent the four legs from spreading it is good to place the brace member 134 every predetermined length.

FIG. 3 is a diagram illustrating an example in which ground is formed in the basic skeleton means illustrated in FIG. 1.

As shown in FIG. 3, one leg of the pedestal 130 of the base skeletal means 100 is formed to extend longer (about 10 cm) than the other legs to form the ground rod 102. The ground rod 102 may be formed of the same material as the pedestal 130, but is preferably made of the same material to increase the grounding function.

And, the anchor bolt 120 is provided with a ground wire 104 is connected to the ground structure (ST), such as power poles, traffic lights, traffic signs, street lamps, placard anchors. In this case, when the ground rod 102 is formed of the same material, one of the ground wires 104 may be connected to the ground rod 102, and the other may be directly connected to the ground structure ST.

Meanwhile, in addition to forming the ground as shown in FIG. 3, a copper plate (not shown) may be disposed on the lower side of the pedestal 130, and the copper plate and the ground structure ST may be connected to form a ground. Not shown) may be embedded in the ground, the ground wire 104 is connected to the ground structure (ST) from the embedded ground rod.

Hereinafter will be described in detail with reference to the accompanying drawings, the construction method for ground structure fixing according to the present invention according to such a configuration.

Figure 4 is a construction sequence diagram of a ground construction method for fixing the ground structure according to an embodiment of the present invention, Figures 5 to 9 is a state diagram showing a state of constructing the foundation in accordance with the construction sequence shown in FIG. Here, in order to prevent the drawing from being complicated, grounding is omitted.

As shown in Figure 4 to 9, the ground construction fixing method according to an embodiment of the present invention is the first excavation step (S10) and the second excavation step (S20), skeletal seating step (S30), It is configured to include a concrete placing step (S40), curing step (S50).

The first drilling step S10 is to drill one or more first foundation holes H1 to a predetermined depth by using an excavator or auger screw E on the ground G on which the ground structure ST is to be installed. As a step, as shown in FIG. 5, four first base holes H1 are excavated. The first foundation hole H1 may change the diameter or the depth or add or decrease the number according to the site situation such as the size or load of the ground structure ST, the state of the ground.

The second excavation step (S20) is a step of excavating the second base hole (H2) to be connected to the first base hole (H1) formed by excavation in the above-described first excavation step (S10). As illustrated in FIG. 6, the second foundation hole H2 formed in the second drilling step S20 is formed to have a diameter larger than that of the first foundation hole H1, and includes a portion of four first foundation holes H1. As a result, all the first base holes H1 are connected.

Skeleton seating step (S30) is a basic skeleton based on the first base hole (H1) and the second base hole (H2) formed by the first excavation step (S10) and the second excavation step (S20) as shown in FIG. This is a step of seating the means (100). Here, the base skeleton means 100 according to the size of the base skeleton means 100 corresponding to the first base hole (H1) and the second base hole (H2) and the diameter of the first base hole (H1), the second base hole (H2), etc. It may be seated in the first base hole (H1), may be seated in the second base hole (H2), may be seated so as to include both the first and second base holes (H1, H2). And the upper surface of the plate 112 of the base skeleton means 100 may be seated so as to be parallel to the ground or placed higher or lower than the ground according to the site situation. If the upper surface of the plate 112 is disposed higher than the ground and exposed to the outside, the auxiliary shield (not shown) may be used for protection and beauty of the appearance.

Concrete placing step (S40) is a step of placing concrete (C) in the first and second foundation holes (H1, H2) through the base skeleton means 100, in particular, the plate of the base skeleton means 100 as shown in FIG. When the first and second foundation holes H1 and H2 are hardly exposed to the outside by the 112, the first and second foundation holes H1 and H through the concrete placing holes 116 formed in the structure mounting unit 110. The concrete C can be poured into H2).

Curing step (S50) is a step of curing the concrete (C) poured through the concrete placing hole 116 in the above-described concrete placing step (S40).

Referring to Figure 9 shows the foundation formed by curing the concrete (C), the foundation, in particular the outer peripheral surface of the concrete (C) by the shape of the first foundation hole (H1) and the second foundation hole (H2) formed to be connected thereto Will be achieved.

Therefore, the contact area between the foundation and the ground (G) increases, so that the foundation can be firmly installed in the ground, and the foundation rotates even when an external force such as a natural disaster is applied to the ground structure (ST) connected to the foundation. By effectively preventing the ground structure (ST) will be able to firmly support.

In addition, after the formation of the first and second foundation holes (H1, H2) by putting the base skeleton means 100 is placed, and concrete (C) is placed directly on the ground such as power poles, traffic lights, traffic signs, street lamps, placard anchors, etc. Since the structure (ST) can be installed, the construction period for forming the foundation is drastically shortened, thereby reducing the construction cost and minimizing the interference of vehicles and pedestrians due to the construction.

As such, those skilled in the art will appreciate that the present invention can be implemented in other specific forms without changing the technical spirit or essential features thereof.

Therefore, the exemplary embodiments described above are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims rather than the detailed description, and the meaning and scope of the claims and All changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

1 is a perspective view of the base skeleton means used in the ground construction method for fixing the ground structure according to an embodiment of the present invention.

2 is a front view of the base skeleton means shown in FIG.

FIG. 3 is a diagram illustrating an example in which ground is formed in the basic skeleton means illustrated in FIG. 1.

Figure 4 is a construction sequence diagram of a ground construction method for fixing the ground structure according to an embodiment of the present invention.

5 to 9 is a state diagram showing a state of constructing the foundation in accordance with the construction sequence shown in FIG.

Explanation of symbols on the main parts of the drawings

100: basic skeleton means 102: ground rod

104: ground wire 110: structure mounting portion

112: sheet 114: guide

116: concrete pouring 118: reinforcing member

120: anchor bolt 130: support

132: support member 134: support member

E: Auger screw H1: 1st foundation hole

H2: 2nd foundation hole C: Concrete

G: Ground ST: Ground Structure

Claims (4)

In the basic construction method for fixing the ground structure, A first excavating step of digging one or more first foundation holes in the ground on which the ground structure is to be installed; A second drilling step of drilling a second foundation hole so as to be connected to the first foundation hole; A skeletal seating step of seating the basic skeletal means pre-fabricated in the foundation hole excavated in the first and second drilling steps; A concrete placing step of placing concrete in the base hole through the base skeleton means; And Curing step of curing the concrete; , ≪ / RTI & The basic skeletal means, A structure mounting part including a plate on which the ground structure is placed, and a guide tube formed on the bottom surface of the plate, the concrete placing hole being formed to penetrate the plate and the guide tube; Two or more anchor bolts formed on the plate away from the concrete placing hole and coupled to the ground structure; And A pedestal installed on the guide tube to support the structure mounting portion; Ground construction for fixing the ground structure, characterized in that it comprises a. The method of claim 1, Ground construction for fixing the ground structure, characterized in that it comprises a reinforcing member mounted between the guide tube and the lower portion of the plate supporting the plate. The method according to claim 1 or 2, The base construction method for fixing the ground structure, characterized in that the support member for increasing the contact area with the ground is formed at the lower end of the pedestal. delete

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