KR20220162372A - Constructing Method for Concrete Construction using Lightweight Molding Panel - Google Patents

Abstract

The present invention relates to a constructing method of a concrete structure using a lightweight form panel which can shorten construction periods and reduce construction costs by reducing civil engineering materials for bed excavation and backfilling and eliminating form removal processes by installing a form consisting of lightweight form panels at a place at which bed excavation is completed and pouring and curing concrete in the form to install a concrete structure. The constructing method of a concrete structure using a lightweight form panel comprises: a bed excavation process of forming a space required for installation of a form by excavating the ground; a form installation process of installing a form consisting of lightweight form panels in the excavated space; a support member installation process of installing a plurality of support members (55) across the form inside the form; a backfilling process of filling backfilling soil (85) on the outside of the form; a concrete pouring process of pouring concrete into the form; and a concrete curing process of curing the concrete for a prescribed period of time to harden the concrete.

Description

Concrete structure construction method using lightweight formwork panel {Constructing Method for Concrete Construction using Lightweight Molding Panel}

The present invention relates to a method for constructing a concrete structure using a lightweight formwork panel, and more particularly, by installing a formwork made of a lightweight formwork panel where excavation is completed, and pouring and curing concrete inside the formwork so that the concrete structure is installed, thereby releasing the formwork. It relates to a concrete structure construction method using lightweight formwork panels that can shorten the construction period and reduce construction costs by omitting the process and reducing the amount of earthworks for excavation and backfilling.

In general, in the case of constructing a concrete building, various underground concrete structures such as pillar beams, pillar cushion seats, machine rooms, and catch wells are being constructed along with concrete structures installed on the ground.

The construction of these underground concrete structures is much more disadvantageous than ground construction in terms of cost such as construction period or input of materials and manpower due to various and complex underground works such as underground excavation. In particular, the formwork to be installed in a narrow underground space acts as a major factor in increasing the construction period and cost.

As shown in FIGS. 1 and 2, the construction method of a conventional underground concrete structure includes a excavation process of excavating the ground 200 to form a space necessary for installing a formwork, and installing a formwork 110 in the excavated space. After installing the tie bolts 120 across the inside of the formwork 110 to block the lateral pressure, install the formwork to install the angle member 130 for preventing the fall on the outside of the formwork 110 so that the formwork 110 does not fall. process, a concrete pouring process of pouring concrete into the formwork 110, a concrete curing process of hardening the concrete by curing it for a certain period of time, and a formwork including the formwork 110 from the cured concrete structure 300 ( 100) is dismantled and removed, and a backfilling process is filled with backfill soil 250 on the outside of the concrete structure 300 from which the formwork 100 is removed.

However, in the above-described construction method of the conventional underground concrete structure, as the form worker's work space is additionally required in addition to the formwork installation space, the excavation space increases, and the amount of civil engineering work increases during excavation and backfilling, and the narrow space The manpower consumption according to the mold installation work in the mold is large, and there is a problem in that manpower and air loss occur as the formwork must be dismantled and removed.

Unlike this, the EPS method is also used, which leaves the space where the concrete structure is installed after excavation underground, fills it with Styrofoam, places reinforcing bars, and pours the concrete. As required, there is an effect of shortening the construction period, but there is another problem that the cost increases.

On the other hand, as a result of investigating the prior art related to the present invention, a number of domestic patent documents were searched, and some of them are introduced as follows.

Patent Document 1, after installing a bracket on the H-pile of a retaining wall such as SCW or CIP, supports the end of the support girder via a support beam on the bracket, and external reinforcement beams and It is installed by supporting the inner temporary beam, and is configured by installing a deck plate and installing a joist reinforcing bar and a wire mesh formwork on the beams on both sides, and since a plywood formwork and support are unnecessary, problems caused by its use can be solved, and formwork installation Workability and economic feasibility can be improved by reducing the area, reducing the use of reinforcing bars and studs, and simplifying reinforcing bar processing and assembly, and the use of long wire reinforcing bars and wire mesh formwork that does not require separate dismantling work improves workability and shortens the construction period. Discloses a formwork structure for slab construction of.

Patent Document 2 is a method for constructing a cast-in-place concrete underground structure by an excavation method, comprising the steps of excavating the soil by installing soil collapse prevention piles; The surface opposite to the soil collapse prevention pile has a frictional resistance of less than 0.05 N / ㎟ and the other surface has a concrete adhesion of 0.1 N / ㎟ or more, has watertightness and is non-corrosive. Contact construction step; inserting a support material for supporting and positioning a panel member between the soil collapse prevention pile and a panel member that combines a formwork frame; installing a formwork inner frame panel member on the inside and temporarily fixing the formwork inner frame panel member and the formwork outer frame combined panel member with an auxiliary material; pouring concrete between the formwork outer frame combination panel member and the formwork inner frame panel member; And integrating the poured concrete and the formwork outer frame and drawing the soil collapse prevention pile; including, an underground structure without the need to prepare an excavation space between the soil collapse prevention pile and the structure. Discloses a construction method of a cast-in-place concrete underground structure that enables the construction of a cast-in-place concrete underground structure, a panel member used for the formwork exterior frame used in this construction method, and an installation method thereof.

KR 20-0385376 Y1 KR 10-0827202 B1

The present invention has been made to solve the above problems of the prior art, and omits the formwork release process by installing a formwork made of lightweight formwork panels where the excavation is completed, and placing and curing concrete inside the formwork so that the concrete structure is installed. The purpose is to provide a concrete structure construction method using lightweight formwork panels that can shorten the period and reduce construction costs by reducing the amount of earthworks for excavation and backfilling.

The present invention for achieving the above object, the excavation process of excavating the ground to form a space required for installation of the formwork; A formwork installation step of installing a formwork made of lightweight formwork panels in the excavated space; A holding member installation step of installing a plurality of holding members across the formwork on the inside of the formwork; A backfilling process of filling the outside of the formwork with backfilling soil; A concrete pouring process of pouring concrete into the formwork; It is characterized in that it comprises a; concrete curing step of hardening by curing the concrete for a certain period of time.

In addition, according to the concrete structure construction method using the lightweight formwork panel of the present invention, the lightweight formwork panel is arranged orthogonally to the first wire in a state of being spaced apart from a plurality of first wires spaced apart at regular intervals It is characterized in that it consists of a mesh-type welded wire mesh composed of a plurality of second wires that are spot-welded after being spot-welded, and a pair of vinyl sheets bonded to the upper and lower surfaces of the welded wire mesh by an adhesive bond and formed of eco-friendly vinyl.

In addition, according to the concrete structure construction method using the lightweight formwork panel of the present invention, the formwork is formed by cutting the lightweight formwork panel and then assembling and bending it into a desired shape.

In addition, according to the concrete structure construction method using the lightweight formwork panel of the present invention, the holding member is provided at both ends of the holding bar, the length of which is variable in response to the interval between the lightweight formwork panels, and the holding bar so as to be coupled to the lightweight formwork panel. In a state where the second wire constituting the lightweight formwork panel is inserted into the coupler, a fixing iron nail is installed through a pair of holes formed in the coupler, thereby supporting the lightweight formwork panel. It is characterized by being coupled and fixed to.

In addition, according to the method for constructing a concrete structure using a lightweight formwork panel of the present invention, the formwork installation step includes a step of placing reinforcing bars inside the formwork.

In addition, according to the concrete structure construction method using the lightweight formwork panel of the present invention, vertical reinforcement installed in the vertical direction to be exposed to the ground during reinforcement or through-reinforcement bars penetrating the lightweight formwork panel in the horizontal direction are further reinforced. do.

In addition, according to the concrete structure construction method using the lightweight formwork panel of the present invention, when the formwork is exposed to the ground, a horizontal wale is further installed on the upper outer surface of the lightweight formwork panel forming the formwork, and the wale is supported. Characterized in that it is fixed by a member.

In addition, according to the concrete structure construction method using the lightweight formwork panel of the present invention, when the top of the formwork is exposed to the ground, a truss girder is further installed outside the top of the lightweight formwork panel forming the formwork, and the truss girder is a support Characterized in that it is fixed by a member.

In addition, according to the concrete structure construction method using the lightweight formwork panel of the present invention, when the top of the formwork is exposed to the ground, the upper portion of the lightweight formwork panel exposed to the ground is removed after curing of the concrete is completed.

In the concrete structure construction method using the lightweight formwork panel of the present invention, a separate disassembly operation can be omitted by forming a formwork using the lightweight formwork panel, filling the outside with backfill soil, and then pouring concrete. As it is installed in an assembled state, the amount of earthworks for excavation and backfilling is reduced, the period is shortened, and the construction cost is reduced. As the support member is installed inside the formwork, the formwork is not deformed during the backfilling process. .

In addition, according to the concrete structure construction method using the lightweight formwork panel of the present invention, as the lightweight formwork panel forming the formwork is composed of a mesh-type welded wire mesh and a vinyl sheet, the thickness is thin and light, so storage and transportation are easy, as well as cutting. This has the effect of making it easy to manufacture the formwork.

In addition, according to the concrete structure construction method using the lightweight formwork panel of the present invention, the shape of the formwork is not limited as the formwork is formed by cutting the lightweight formwork panel and then assembling and bending it into a desired shape.

In addition, according to the method of constructing a concrete structure using a lightweight formwork panel of the present invention, since the couplers are connected to both ends of the holding member to form a holding member, it is easy to install and fix the holding member.

In addition, according to the concrete structure construction method using the lightweight formwork panel of the present invention, there is an effect of improving the strength of the concrete structure by placing reinforcing bars inside the formwork.

In addition, according to the concrete structure construction method using the lightweight formwork panel of the present invention, there is an effect of being able to form vertical columns or floor slabs connected to the concrete structure by placing vertical reinforcement or penetrating reinforcement together during reinforcement.

In addition, according to the method of constructing a concrete structure using a lightweight formwork panel of the present invention, deformation of the formwork continuously installed along the horizontal direction is prevented as a horizontal wale is installed on the upper outer surface of the lightweight formwork panel forming the formwork it works,

In addition, according to the concrete structure construction method using the lightweight formwork panel of the present invention, deformation of the formwork exposed to the ground is prevented as the truss girder is installed outside the top of the lightweight formwork panel forming the formwork.

In addition, according to the concrete structure construction method using the lightweight formwork panel of the present invention, the upper portion of the formwork exposed to the ground is removed after curing of the concrete is completed, so that the lightweight formwork panel is not exposed to the outside.

1 is a flow chart showing a construction method of a conventional concrete structure.
Figure 2 is a process diagram showing the construction process of a conventional concrete structure.
Figure 3 is a flow chart showing a concrete structure construction method using a lightweight formwork panel according to the present invention.
Figure 4 is a reference view showing the appearance of vertical reinforcement in the formwork in the concrete structure construction method using a lightweight formwork panel according to the present invention.
Figure 5 is a perspective view showing a lightweight formwork panel used in the concrete structure construction method using a lightweight formwork panel according to the present invention.
Figure 6 is a reference view for explaining the lightweight formwork panel of Figure 5;
Figure 7 is a cross-sectional view of the lightweight formwork panel of Figure 5;
Figure 8 is a perspective view showing a holding member used in the concrete structure construction method using a lightweight formwork panel according to the present invention.
Figure 9 is a reference view showing a part of the process of the concrete structure construction method using a lightweight formwork panel according to the present invention.
10 is a reference view for explaining the case where the top of the formwork is exposed to the ground in the concrete structure construction method using a lightweight formwork panel according to the present invention.

Hereinafter, a concrete structure construction method using a lightweight formwork panel of the present invention will be described with reference to the accompanying drawings.

The terms used in the present invention are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator, so the definitions of these terms are meanings consistent with the technical details of the present invention. and should be interpreted as a concept.

In addition, the embodiments of the present invention do not limit the scope of the present invention, but are only exemplary of the components presented in the claims of the present invention, are included in the technical spirit throughout the specification of the present invention, and cover the scope of the claims. It is an embodiment including components that can be replaced as equivalents in components.

In addition, optional terms in the following embodiments are used to distinguish one element from other elements, and elements are not limited by the terms.

Therefore, in describing the present invention, detailed descriptions of related known technologies that may unnecessarily obscure the gist of the present invention will be omitted.

For explaining a preferred embodiment of the present invention, Figure 3 is a flow chart showing a concrete structure construction method using a lightweight formwork panel according to the present invention, Figure 4 is a formwork in the concrete structure construction method using a lightweight formwork panel according to the present invention It is a reference drawing showing the appearance of vertical reinforcement in . And, Figure 5 is a perspective view showing a lightweight formwork panel used in the concrete structure construction method using a lightweight formwork panel according to the present invention, Figure 6 is a reference view for explaining the lightweight formwork panel of Figure 5, Figure 7 is a 5 is a cross-sectional view showing the lightweight formwork panel, and FIG. 8 is a perspective view showing a holding member used in the concrete structure construction method using the lightweight formwork panel according to the present invention. In addition, Figure 9 is a reference view showing a part of the process of the concrete structure construction method using a lightweight formwork panel according to the present invention, Figure 10 is a concrete structure construction method using a lightweight formwork panel according to the present invention, the upper end of the formwork is on the ground It is a reference diagram to explain the exposed case.

As shown in FIG. 3, the method of constructing a concrete structure using a lightweight formwork panel according to the present invention includes a excavation process of excavating the ground to form a space necessary for installing a formwork, and a lightweight formwork panel 50 in the excavated space. A formwork installation step of installing a formwork made of, and a holding member installation step of installing a plurality of holding members 55 across the formwork inside the formwork; It includes a backfilling process of filling the outside of the formwork with backfill soil 85, a concrete pouring process of pouring concrete into the formwork, and a concrete curing process of curing and hardening the concrete for a certain period of time.

In this way, as the formwork is formed using the lightweight formwork panel 50 and the concrete is poured after filling the backfill soil 85 on the outside, a separate disassembly operation can be omitted, and the lightweight formwork panel 50 As it is installed in an assembled state in the form of a formwork, the amount of earthworks for excavation and backfilling is reduced. Therefore, the construction period is shortened and the construction cost is reduced. In addition, as the holding member is installed inside the formwork, the formwork is not deformed in the backfilling process.

On the other hand, as shown in FIGS. 5 to 7, the lightweight formwork panel 50 includes a plurality of first wires 21 spaced apart at regular intervals and a first wire 21 spaced apart at regular intervals. A welded wire mesh 20 in the form of a mesh composed of a plurality of second wires 22 arranged orthogonally and then spot-welded, and adhered to the upper and lower surfaces of the welded wire mesh 20 by an adhesive bond, respectively, and formed of eco-friendly vinyl. It consists of a pair of vinyl sheets 10 to be. Therefore, the thickness of the lightweight formwork panel 50 is thin and light, making it easy to store and transport.

In addition, the formwork is formed by cutting the lightweight formwork panel 50 and assembling and bending it into a desired shape. Therefore, the shape of the formwork is not limited, and it is possible to manufacture the formwork corresponding to the shape of the ground concrete structure.

In addition, as shown in FIG. 8, the holding member 55 is coupled to the holding bar 55a, the length of which is variable corresponding to the distance between the lightweight formwork panels 50, and the weight formwork panel 50. It includes U-shaped couplers 55b provided at both ends of the bar 55a. In addition, the support member 55 is a pair of fixing iron nails 56 formed in the coupler 55b in a state where the second wire 22 constituting the lightweight formwork panel 50 is inserted into the coupler 55b. It is coupled and fixed to the lightweight formwork panel 50 by being installed through the hole 55c of the. Therefore, it is easy to install and fix the holding member 55 to the formwork.

On the other hand, it is preferable that the formwork installation process includes a step of arranging reinforcing bars inside the formwork. In this way, when reinforcing bars are placed inside the formwork, the strength of the concrete structure is improved due to the reinforcing bars.

At this time, as shown in FIG. 4, vertical reinforcement 70 installed in the vertical direction so as to be exposed to the ground to form a vertical pillar connected to the concrete structure may be reinforced together, and a floor slab on top of the concrete structure Penetrating reinforcement passing through the upper part of the lightweight formwork panel in the horizontal direction may be further reinforced so as to be formed.

In addition, when the top of the formwork is exposed to the ground, as shown in FIG. 10, a horizontal wale 90 may be further installed on the outer surface of the upper end of the lightweight formwork panel 50 forming the formwork. It is preferable that the wale 90 is fixed by the holding member 55. If it is difficult to install the wale sheet 90, a truss girder may be further installed outside the top of the lightweight formwork panel 50 forming the formwork. The truss girder is also fixed by the support member 55 it is desirable In this way, when a wale or truss girder is installed on top of the formwork exposed to the ground, the formwork is not easily deformed during concrete pouring.

As such, when the top of the formwork is exposed to the ground, it is preferable that the top portion of the lightweight formwork panel 50 exposed to the ground is removed after curing of the concrete is completed. This is to prevent the lightweight formwork panel from being exposed to the outside and to prevent water from entering between the embedded formwork and the concrete structure.

In the above, the construction of the concrete structure underground has been described, but the same can be applied to the case of installing the concrete structure on the ground, and it can also be applied to the case of installing the formwork on the ground without burying it in the ground.

In addition, the lightweight formwork applied to the concrete structure construction method using the lightweight formwork panel of the present invention can be applied to areas where concrete is cut or where construction of existing formwork is difficult and high cost is input, and when constructing earth retaining concrete It can also be applied for the EPS method to save concrete or for other openings.

For example, if concrete cannot be poured at once and only part of it is poured and then poured again later, a lightweight formwork is installed to distinguish the part where concrete can be poured and the part where it is not, and the upper part of the light formwork By installing penetrating rebar, it is possible to break concrete.

In addition, the lightweight formwork can be used as a formwork for pressed concrete installed at the top of the underground parking lot. Usually, pressed concrete is mostly composed of unreinforced concrete without reinforcing bars and is constructed separately from the concrete structure. Various problems such as deterioration in quality and damage to waterproofing at the end part due to long-term exposure of the waterproofing part occur. However, by installing and fixing lightweight formwork at the end of the concrete structure to be spaced apart from the concrete structure to a certain extent, it is possible to solve the above problems in the simple concrete construction.

Although the above has been described and illustrated in relation to several embodiments for illustrating the technical idea of the present invention, the present invention is not limited to the configuration and operation as described above, and the scope of the technical idea described in the description of the invention It will be readily apparent to those skilled in the art that many changes and modifications can be made to the present invention without departing from this. Accordingly, all such appropriate changes and modifications and equivalents should be regarded as falling within the scope of the present invention.

10... Vinyl sheet
20 ... Welded wire mesh
21 ... 1st wire
22 ... 2nd wire
50... lightweight formwork panels
55 ... support member
55a...butim bar
55b ... fixture
55c... hole
56... fixed iron nail
60...vertical bars
70...Concrete
80 ... ground
85 ... backfill
90... belt

Claims (11)

An excavation process of excavating the ground to form a space required for the installation of a formwork;
A formwork installation process of installing a formwork made of a lightweight formwork panel 50 in the excavated space;
A holding member installation step of installing a plurality of holding members 55 across the formwork on the inside of the formwork;
A backfilling process of filling the outside of the formwork with backfilling soil 85;
A concrete pouring process of pouring concrete into the formwork; and
A concrete structure construction method using a lightweight formwork panel comprising a; concrete curing step of curing and hardening the concrete for a certain period of time.
According to claim 1,
The lightweight formwork panel 50 is arranged orthogonally to the first wire 22 in a state spaced apart from a plurality of first wires 21 spaced apart at regular intervals and then a plurality of second spots welded. It is characterized by consisting of a mesh-type welded wire mesh 20 made of wire 22 and a pair of vinyl sheets 10 bonded to the upper and lower surfaces of the welded wire mesh 20 by adhesive bonds and formed of eco-friendly vinyl. A concrete structure construction method using a lightweight formwork panel. According to claim 1,
The formwork is a concrete structure construction method using a lightweight formwork panel, characterized in that formed by cutting the lightweight formwork panel (50) and then assembling and bending it into a desired shape.
According to claim 1,
The holding member 55 is provided at both ends of the holding bar 55a, the length of which is variable corresponding to the distance between the lightweight formwork panels 50, and the holding bar 55a so as to be coupled to the light weight formwork panel 50 Including a U-shaped coupler (55b),
In a state where the second wire 22 constituting the lightweight formwork panel 50 is inserted into the coupler 55b, the fixing iron nail 56 penetrates the pair of holes 55c formed in the coupler 55b, A concrete structure construction method using a lightweight formwork panel, characterized in that the holding member 55 is coupled and fixed to the lightweight formwork panel 50 by being installed.
According to claim 1,
The formwork installation process is a concrete structure construction method using a lightweight formwork panel, characterized in that it comprises a step of placing reinforcing bars inside the formwork. According to claim 1,
Concrete structure construction method using a lightweight formwork panel, characterized in that the vertical reinforcement 60 installed in the vertical direction to be exposed to the ground during reinforcement or through reinforcement penetrating the lightweight formwork panel 50 in the horizontal direction is further reinforced.
According to claim 6,
When the top of the formwork is exposed to the ground, a wale sheet 90 in a horizontal direction is further installed on the outer surface of the upper end of the lightweight formwork panel 50 forming the formwork, and the wale sheet 90 is supported by a support member 55 Concrete structure construction method using a lightweight formwork panel, characterized in that fixed.
According to claim 1,
When the top of the formwork is exposed to the ground, a truss girder is further installed outside the top of the lightweight formwork panel 50 forming the formwork, and the truss girder is fixed by a holding member 55. Concrete structure construction method using panels.
According to claim 7 or 8,
Concrete structure construction method using a lightweight formwork panel, characterized in that when the top of the formwork is exposed to the ground, the upper portion of the lightweight formwork panel 50 exposed to the ground is removed after curing of the concrete is completed.
A formwork installation process of installing a formwork made of a lightweight formwork panel 50;
A holding member installation step of installing a plurality of holding members 55 across the formwork on the inside of the formwork;
A concrete pouring process of pouring concrete into the formwork;
A concrete curing process of hardening concrete by curing it for a certain period of time;
A concrete structure construction method using a lightweight formwork panel, comprising a step of removing the lightweight formwork panel after curing of the concrete is completed.
According to claim 10,
The holding member 55 is provided at both ends of the holding bar 55a, the length of which is variable corresponding to the distance between the lightweight formwork panels 50, and the holding bar 55a so as to be coupled to the light weight formwork panel 50 Including a U-shaped coupler (55b),
In a state where the second wire 22 constituting the lightweight formwork panel 50 is inserted into the coupler 55b, the fixing iron nail 56 penetrates the pair of holes 55c formed in the coupler 55b, A concrete structure construction method using a lightweight formwork panel, characterized in that the holding member 55 is coupled and fixed to the lightweight formwork panel 50 by being installed.

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