KR20130106061A - A form for slab and construction method using the same - Google Patents

Abstract

PURPOSE: A slab form and a construction method using the same are provided to reduce a period, labor, and costs for construction by using a form which is integrated with plywood, a joist, and a yoke. CONSTITUTION: A slab form (100) comprises a board (102) and a rib structure (110). The board is in touch with concrete and is formed with a predetermined size. The rib structure is integrally formed on one side of the board. The rib structure includes an edge rib (112), a lateral rib (114), and a longitudinal rib (116). The edge rib surrounds the edge of the board into a predetermined height. The lateral rib is formed in the lateral direction of the board. The longitudinal rib is formed in the longitudinal direction of the board.

Description

Slab formwork and construction method using the same

The present invention relates to a slab formwork and a construction method using the same, and more particularly, by constructing a building using a formwork integrated with joists, yoke, plywood, it is possible to significantly shorten the construction period and reduce labor and construction costs In addition, the present invention relates to a slab formwork and a construction method using the same so that the construction site can be neatly arranged.

In general, the formwork is a structure temporarily installed in order to make the concrete structure into a predetermined shape and dimensions, generally using a concrete formwork plywood, depending on the construction, hard fiber boards, synthetic resins, aluminum panels, steel sheets, etc. are used. .

A conventional general slab formwork is shown in FIG.

As can be seen from the above, the conventional slab formwork is a vertical barrier 10, the yoke 12 is installed vertically or horizontally on the copper bar 10, the joist in a direction perpendicular to the yoke (12) It is completed by installing the plywood 16 on the said joist 14 after providing 14.

Such conventional slab formwork has a number of components constituting the formwork, and the construction method is complicated, there is a problem in that the construction period is long, labor and costly.

Korean Patent Nos. 10-0477223 and 10-0796808 disclose a conventional slab formwork and formwork receiving device. However, even in the above patent, a lot of components constituting the formwork and the construction method is very complicated, there is a demand for a solution to the problem.

In the present invention, in order to solve the problems in the prior art as described above, an object of the present invention is to provide a very simple formwork by integrating the plywood, joist, and yoke constituting the formwork.

In addition, it is an object to provide a construction method using a slab formwork that can reduce the construction period using the formwork, and can compensate for the disadvantages such as labor, cost, site clutter.

In order to achieve the above object, the present invention consists of a board of a predetermined size in contact with the concrete and a rib structure formed integrally on one surface of the board, the rib structure is a predetermined height while surrounding the edge of the board The edge ribs are formed of a rib, a transverse rib formed in the transverse length direction of the board plate, and a longitudinal rib formed in the longitudinal length direction of the board plate, the transverse ribs and longitudinal ribs are a plurality of at regular intervals A slab formwork is provided, characterized in that the dog is formed in a lattice shape.

Here, the transverse ribs and the longitudinal ribs include a long horizontal ribs and a long longitudinal ribs formed at the same height as the edge ribs, wherein the long horizontal ribs and the long longitudinal ribs are formed of a square There may be formed at least one of low-profile short transverse ribs and short longitudinal ribs.

The long transverse ribs and the long longitudinal ribs may be formed at twice the height of the short transverse ribs and the short longitudinal ribs.

In the present invention, the rib structure and the board plate is made of a synthetic wood, characterized in that produced by the injection method.

In addition, the construction method for achieving the object of the present invention as described above is the step of installing a formwork integrally formed on one side of the board plate rib structure that serves as a joist and yoke using a copper bar, by pouring concrete on the formwork Curing the concrete slab, and when curing of the concrete slab may be configured to remove the copper bar from the formwork.

In the present invention, the rib structure includes an edge rib formed at a predetermined height while surrounding the edge of the board plate, a transverse rib formed in the transverse length direction of the board plate, and a longitudinal rib formed in the longitudinal length direction of the board plate. The lateral ribs and the longitudinal ribs are formed in a plurality of grids at regular intervals, and the copper bar is installed to support the intersection of the lateral ribs and the longitudinal ribs or the edges of the edge ribs. Can be.

The lateral ribs and the longitudinal ribs may include a long transverse rib and a long longitudinal rib formed at the same height as the edge ribs, and the long transverse rib and the long longitudinal rib may be formed to cross each other. At least one low-profile short transverse rib and a short longitudinal rib are formed therein, and the copper bar may be installed to support an intersection of the long transverse rib and the long longitudinal rib or an edge of the edge rib. .

As described above, the formwork of the present invention is a conventional joist, yoke, plywood is integrated, the structure is very simple and easy to install and construct the formwork can clean up the conventional complex process and cluttered on-site situation neatly It works.

In addition, by manufacturing the formwork made of synthetic wood, there is an effect that can provide a high-strength formwork having almost no dimensional deformation against the fixed load, moving load, impact load applied to the formwork.

In addition, since the formwork is made of synthetic wood, while having the same processability as existing wood, it has the characteristics of defects without cracking and bursting during processing.

In addition, it has a high number of times and a semi-permanent durability, the use of a peeling agent is unnecessary, and has the advantage that the concrete surface can be very smooth compared to the construction of the slab using a conventional plywood.

1 is a perspective view showing a state where a conventional general slab formwork is installed.
Figure 2 is a perspective view showing one embodiment of the slab formwork of the present invention.
3 is a cross-sectional view of the slab formwork in FIG.
4A-4G are perspective views illustrating various embodiments of the slab formwork of the present invention.
5 is a perspective view showing a state in which the slab formwork of the present invention is constructed.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the slab formwork according to the present invention and a construction method using the same will be described in detail.

2 is a perspective view showing one embodiment of the slab formwork of the present invention, Figure 3 is a cross-sectional view of the slab formwork in FIG.

As shown therein, the formwork 100 in the present invention comprises a board plate 102 and a rib structure 110 formed integrally on one surface of the board plate 102.

The board 102 is in contact with the concrete, is formed to have a predetermined size.

For example, the size of the board 102 may be 2440 × 1220 mm in width × length. Thus, in addition to the rectangular shape may be made of a square shape having a horizontal × vertical is 1220 × 1220 mm, the present invention does not limit the size of the board plate (102).

The rib structure 110 serves as a conventional joist and yoke, the rib structure 110 is an edge rib 112 formed at a predetermined height while surrounding the edge of the board plate 102 and the It consists of a transverse rib 114 formed in the transverse length direction of the board plate 102, and a longitudinal rib 116 formed in the longitudinal length direction of the board plate 102.

That is, in the formwork of the present invention, edge ribs 112 having a predetermined height are formed while surrounding the edges of the board plate 102, and transverse ribs 114 are formed on the same surface as the edge ribs 112. And longitudinal ribs 116 are formed.

The formwork of the present invention is made of a synthetic wood, it can be produced by injection method. As is well known, synthetic wood is made by mixing synthetic resin with wood powder to have a similar appearance or properties to natural wood, and is made by injection molding or extrusion molding.

Natural wood has the advantages of being easy to work with, elastic, large sound absorption, elegant in appearance, and good in touch.However, natural wood is not uniform in material, large in expansion and contraction, lacks in moisture resistance and heat resistance, and corrodes. There is an easy disadvantage. The advantage of such natural wood is to improve the disadvantages are synthetic wood.

The formwork of the present invention is made of a synthetic wood produced by the injection method, it can provide a high-strength formwork with almost no dimensional deformation against the fixed load, moving load, impact load applied to the formwork, high dedicated frequency and semi-permanent Durable

In addition, compared to the construction of the slab using the existing plywood has the advantage that the concrete surface can be very smooth finish.

The plurality of transverse ribs 114 and the longitudinal ribs 116 are formed in a grid at a predetermined interval.

As described above, the rib structure 110 having a lattice shape can be coped with various external forces by changing dimensions.

In addition, the formwork of the present invention in which the lattice rib structure 110 is integrally formed on one surface of the board plate 102 may have stronger bending rigidity even with a smaller cross section than a general plywood or lumber.

The transverse ribs 114 and the longitudinal ribs 116 include long transverse ribs and long longitudinal ribs formed at the same height as the edge ribs 112.

It may also include a short transverse rib 114a and a short longitudinal rib 116a formed at a height lower than the edge ribs 112.

Here, the expression of long or short indicates the height of the height of the ribs, and does not mean that the length of the ribs is long or short.

As shown in FIGS. 2 and 3, the short transverse ribs 114a and the short longitudinal ribs 116a have a square shape formed by crossing the long transverse ribs 114 and the long longitudinal ribs 112. It can be formed inside.

In this case, the short transverse ribs 114a and the short longitudinal ribs 116a are formed one by one inside the square formed by the long transverse ribs 114 and the long longitudinal ribs 112 crossing each other. The long horizontal ribs 114 and the long longitudinal ribs 112 may be formed in a quadrangular shape of a square inner space formed by crossing.

On the other hand, the long transverse ribs 114 and the long longitudinal ribs 116 are preferably formed at twice the height of the short transverse ribs 114a and the short longitudinal ribs 116a. For example, when the long transverse rib 114 is formed to be 80 mm, the short transverse rib 114a is formed to be 40 mm.

These ribs have dimensions that can increase the resistance to deflection or deflection of the member against external loads, and have the characteristics of exhibiting maximum bending stiffness with a minimum member cross section.

The deeper the rib, the greater the cross-sectional secondary moment with respect to the member axis, and the greater the resistance to deflection or bending of the member against external loads.

In addition, the larger the number of ribs, the larger the cross-sectional area of the member and the greater the rigidity of the member.

4A to 4G are perspective views illustrating various embodiments of the slab formwork of the present invention, wherein the lateral ribs and the longitudinal ribs are formed at the same height as the edge ribs without distinguishing between long and short shapes, or varying intervals at which ribs are formed. Here are some examples.

The construction method using the slab formwork according to the present invention having such a structure comprises the step of installing the formwork formed integrally on one surface of the rib plate 110 on the board plate (102) using the copper club 10, the formwork ( Pour concrete on the 100) to cure the concrete slab, and when the curing of the concrete slab is composed of the step of removing the club (10) from the formwork (100).

5 is a perspective view showing a state in which the slab formwork of the present invention is constructed.

In the present invention, the clubs 10 may be installed to support the intersection of the transverse ribs 114 and the longitudinal ribs 116 or the edges 120 and 122 of the edge ribs 112. .

In FIG. 5, when the dies 100 are installed side by side, the copper rods 10 are installed at portions 120 and 122 where the edges 120 and 122 of the edge ribs 112 are in contact with each other.

Here, when the lateral ribs 114 and the longitudinal ribs 116 include the short lateral ribs 114a and the short longitudinal ribs 116a, the clubs 10 are formed with the long lateral ribs and the long ribs. It may be installed to support the intersection of the longitudinal ribs or the edge of the edge ribs.

Thus, by installing the support bar 10 at the intersection of the transverse rib and the longitudinal rib or at the edge of the edge rib 112 or the like, according to the construction method of the present invention, the form support of the drive bar 10 is stably supported. It is made, there is an advantage that can be easily installed formwork without additional work.

In addition, even when dismantling only need to dismantle the copper bar 10 and the formwork 100, the operation is very easy.

In addition, the degree of damage to the formwork 100 during installation or dismantling is small, and the strength and durability of the formwork is excellent, the rate of exclusive use of the formwork is high.

The rights of the present invention described above are not limited to the embodiments described above, but are defined by what is stated in the claims, and those skilled in the art can make various modifications and adaptations within the scope of the claims. It is self evident.

100: Form
102: board
110: rib structure
112: edge rib
114: transverse rib
116: longitudinal rib
114a: short transverse rib
116a: short longitudinal rib

Claims (7)

A board of predetermined size in contact with the concrete; And
A rib structure integrally formed on one surface of the board;
Lt; / RTI >
The rib structure includes an edge rib formed at a predetermined height while surrounding the edge of the board, a transverse rib formed in a horizontal length direction of the board, and a longitudinal rib formed in a longitudinal length direction of the board,
Slab formwork, characterized in that the plurality of transverse ribs and longitudinal ribs are formed in a grid at a predetermined interval. The method according to claim 1,
The transverse ribs and the longitudinal ribs include long transverse ribs and long longitudinal ribs formed the same height as the edge ribs,
Slab formwork, characterized in that at least one or more low-profile short side transverse ribs and short longitudinal longitudinal ribs are formed inside the square formed by the long transverse rib and the long longitudinal rib. The method according to claim 2,
And the long transverse ribs and the long longitudinal ribs are formed at twice the height of the short transverse ribs and the short longitudinal ribs. The method according to claim 1,
The rib structure and the board plate is made of synthetic wood, slab formwork, characterized in that produced by the injection method. Installing a formwork formed integrally on one surface of the board by which the rib structure serving as the joist and the yoke is formed by using a circle;
Curing concrete slab by pouring concrete on the formwork; And
When the curing of the concrete slab is completed, the construction method using a slab formwork, characterized in that consisting of removing the copper bar from the formwork. The method according to claim 5,
The rib structure includes an edge rib formed at a predetermined height while surrounding the edge of the board, a transverse rib formed in the horizontal length direction of the board, and a longitudinal rib formed in the longitudinal length direction of the board,
The transverse ribs and the longitudinal ribs are formed in a plurality at regular intervals made of a lattice,
The copper bar is a construction method using a slab formwork, characterized in that it is installed to support the intersection of the transverse rib and the longitudinal rib or the edge of the edge rib. The method of claim 6,
The transverse ribs and the longitudinal ribs include long transverse ribs and long longitudinal ribs formed the same height as the edge ribs,
At least one low-profile short transverse rib and short longitudinal longitudinal ribs are formed inside the square formed by crossing the long transverse ribs and the long longitudinal ribs,
The copper bar is a construction method using a slab formwork, characterized in that it is installed to support the intersection of the long longitudinal rib and the long longitudinal rib or the edge of the edge rib.

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