KR100851865B1 - Form for construction and the method thereof - Google Patents

Abstract

A manufacturing method of a form for construction is provided to increase the contact area and adhesive strength of a surface layer and a panel, to separate a form and concrete simply, and to improve durability of a form. A manufacturing method of a form for construction comprises the steps of: preparing a base panel(200); manufacturing a film(100) by joining a surface layer(110) of a PET material and an adhesive layer(120) of a thermoplastic resin material, and winding on a film-winding roll; after making the adhesive layer of the film contact with the base panel, pressing the film thermally on the surface of the base panel using a heating press; and cooling down the thermally pressed film using a cooling roll.

Description

{Form for construction and the method}

The present invention relates to a method for manufacturing a formwork for building, and more particularly, is attached to one surface of the base panel, the surface layer and the base layer and the surface layer is attached to the material of PET (polyethylen terephthalate), the material is provided with a thermoplastic resin adhesive layer It relates to a method for manufacturing formwork for construction.

Formwork is generally a basic work section that is essential for any construction site where concrete is used. Formwork is a hypothesis necessary to maintain the shape and dimensions of the structure while casting concrete, while preventing the leakage of necessary moisture during the curing process and to block the effects of temperature changes in the outside air, so that the concrete can be properly cured. It is a structure.

Formwork used for this purpose is provided with a panel made of wood, plywood, and the like, and a surface layer bonded to the surface of the panel and in contact with the concrete, the surface layer and the panel is attached and used through the bonding means.

When the formwork is carried out using such a conventional formwork, a liquid adhesive or a primer is usually applied as a means for bonding the panel and the surface layer, and pressurized by cold pressure during operation. According to the prior art, when manufacturing the formwork requires a separate bonding process for bonding the surface layer and the panel, there was a disadvantage that the production cost is increased.

In addition, if the surface layer is destroyed by the cut (cut) part of the panel during the formwork and pointed external objects such as nails and gravel and damages the adhesive or primer used as the bonding means, the water or steel of the concrete to be poured Alkaline is penetrated into the adhesive or primer. At this time, the liquid adhesive or primer used as an adhesive means is easily corroded by strong alkalinity due to its component properties, and in the process of peeling, the surface layer, the adhesive means, and the panel are separated from each other to deteriorate the performance of the formwork. .

In particular, the conventional formwork has a problem in that the adhesive strength is poor due to the lack of alkalinity of the adhesive is easily corroded and peeled off, the surface layer and the panel is separated during use, or difficult to separate the formwork and concrete after curing the concrete.

The present invention has been made to solve the above problems, to increase the contact area and adhesion between the surface layer and the panel and to facilitate the separation of the formwork and concrete, to provide a building formwork manufacturing method that can improve the durability of the formwork The purpose is.

Method for manufacturing a building formwork of the present invention for achieving the above object comprises the steps of preparing a base panel, a step of manufacturing a film by laminating a surface layer of PET material and an adhesive layer of a thermoplastic resin material, the adhesive layer of the film and the base panel After contacting, pressurizing the film with a press and cooling the film by pressing the heat to complete the building formwork.

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Furthermore, the press may be a roll press.

In addition, the press may be characterized as being a plate press.

In addition, the press may be characterized in that small irregularities are formed on the pressing surface.

According to the inventors of the building formwork manufacturing method of the present invention,

First, after the adhesive layer made of a thermoplastic resin having a melting point lower than the melting point of the surface layer is laminated together with the surface layer in the form of a film, the surface layer is adhered to the base panel while the adhesive layer is melted during heat press molding with a press. The surface layer is simply adhered to the base panel even without performing the bonding process, and after being bonded, the durability of the overall formwork is improved, thereby extending the service life.

Second, even if moisture or strong alkali in the concrete penetrates the damaged part and cutting (cutting) surface due to external conditions such as nails and gravel during the formwork, the adhesive layer is made of thermoplastic resin that does not react with the strong alkali component of the concrete. Because of this, peeling does not occur in the adhesive layer.

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

1 is a cross-sectional view of a building formwork according to the present invention.

As shown in FIG. 1, the building formwork according to the present invention is integrally attached to one surface of the base panel 200 and the base panel 200 having various sizes and thicknesses depending on the purpose of use and the installation place of the formwork and concrete. It is provided with a surface layer 110 in direct contact with the concrete during pouring.

In addition, the building formwork according to the present invention is basically provided with a film 100 and the base panel 200, the surface layer 110 and the adhesive layer 120 is laminated.

Here, the surface layer 110 is for the concrete boundary having a strong wear resistance and alkali resistance, it is preferable that the material (polyethylen terephthalate) PET to withstand high hardness and alkalinity to enhance the overall function of the formwork.

In addition, the adhesive layer 120 is preferably made of a thermoplastic resin material having a melting point lower than the melting point of the surface layer 110 so that the surface layer 110 and the base panel 200 can be adhered to each other by heat pressing. Examples of polyvinyl chloride (PVC), polypropylene (PP), cast polypropyle (CPP), and polyethylene (PE) may be cited.

PVC, PP, CPP, PE, etc. used as the material of the thermoplastic resin is not limited to any one material, and if the surface layer 110 and the base panel 200 can be adhered by using a melting point difference, various conditions may vary. Can be used as a material.

Here, the melting point of PET used as the surface layer 110 is usually 230 to 250 ° C, and the melting point of thermoplastic resins such as PVC, PP, CPP, PE and the like is usually about 120 to 150 ° C. Accordingly, when the press temperature is 10 to 15 ° C. higher than the melting point of the adhesive layer 120 and heat-pressurized, only the adhesive layer 120 made of a thermoplastic resin is melted, and thus the surface layer 110 and the base panel 200 can be adhered to each other.

The surface layer 110 and the adhesive layer 120 are preferably laminated and used in the form of a film. When the adhesive layer 120 is pressed onto the base panel 200 by heat pressing the film 100 with a press, the adhesive layer 120 The surface layer 110 is attached to the base panel 200 while melting. Thus, since the adhesive layer is a thermoplastic resin that does not react with the strong alkali component of the concrete, even if moisture or strong alkali in the concrete penetrates into the damaged part and the cut (cut) surface due to the adhesive layer, peeling does not occur in the adhesive layer.

Moreover, the small unevenness | corrugation may be formed in the press surface at the press. In this case, small irregularities may be formed on the surface of the base panel 200 and the film 100 by small irregularities formed on the pressing surface of the press.

As such, a roll press 10, a plate press 20, or the like may be used as a press for thermally pressing the film 100 and the base panel 200.

That is, since small unevenness is formed on both the surface of the base panel 200 and the adhesive layer 120 and the surface layer 110 of the film 100, the contact area is wider than that in the planar state. In addition, the contact area between the base panel 200 and the surface layer 100 is further secured, thereby enhancing the adhesion between the base panel 200 and the surface layer 100.

In this case, the base panel 200 is made of plywood or the like made of wood. That is, when the base panel 200 is plywood, small irregularities may be formed on the surface of the base panel 200 by pressing.

However, when the material of the base panel 200 is metal, small irregularities are formed only on the adhesive layer 120 and the surface layer 110, and small irregularities are hardly formed on the surface of the base panel 200. However, even in this case, since the adhesive layer 120 is a thermoplastic resin that does not react with the strong alkali component of the concrete, even if the moisture or strong alkali of the concrete penetrates the damaged part and the cut (cut) surface due to the adhesive layer 120, the adhesive layer ( Delamination does not occur in 120, and the formwork and concrete separation work are easily performed by the unevenness formed in the surface layer 110, so that the life of the formwork can be effectively extended.

Next, the method of manufacturing the formwork according to the present invention comprises the steps of preparing a base panel, a step of manufacturing a film by laminating a surface layer of PET material and the adhesive layer of the thermoplastic resin material, after contacting the adhesive layer of the film with the base panel, Thermally pressing the film with a press and cooling the thermally pressurized film to complete a building formwork.

In this case, the press may be a roll press or a plate press.

In addition, the press may be characterized in that small irregularities are formed on the pressing surface.

Hereinafter, the manufacturing method of the building formwork according to the first embodiment of the present invention will be described. 2 is a flow chart showing a manufacturing method of building formwork according to the first embodiment of the present invention.

Method of manufacturing a building formwork according to a first embodiment of the present invention is provided with a dust removal roll 10, a film winding roll 11, a heating roll 12 and a cooling roll 13 as shown in FIG. Can be.

First, the surface layer 110 of PET material and the adhesive layer 120 of thermoplastic resin are laminated to manufacture a film 100, and then wound on a film winding roll 11.

The dust on the surface of the base panel 200 is removed by the dust removing roll 10, and the adhesive layer 120 of the film 100 faces the base panel 200 while the base panel 200 and the film winding roll ( The film 100 supplied from 11) moves to the heating roll 12 which is a roll press by the conveying roller.

The heating roll 12 serves to attach the film 100 to the surface of the base panel 200 by thermal pressure.

That is, when heat pressurized using the heating roll 12, heat is transferred onto the film 100. At this time, the adhesive layer 120 having a low melting point is melted to bond the surface layer 110 to the base panel 200, and the melting point. This high surface layer 110 does not melt but adheres to the base panel 200.

At this time, when a small unevenness is formed on the pressing surface of the heating roll 12, the film 100 may be attached to the surface of the base panel 200 by thermal pressure and at the same time, small unevenness may be formed.

After being attached to the base panel 200 by the heating roll 12, the heat pressurized film 100 is cooled by the cooling roll 13 to complete the building formwork.

Hereinafter, the manufacturing method of the building formwork according to the second embodiment of the present invention. 3 is a flow chart showing a method of manufacturing a building formwork according to a second embodiment of the present invention.

The manufacturing method of the building formwork according to the second embodiment of the present invention includes a heating plate 20 and a cooling plate 21 as shown in FIG.

First, as in the first embodiment, the film 100 is manufactured by laminating the surface layer 110 made of PET and the adhesive layer 120 made of thermoplastic resin.

Then, the adhesive layer 120 of the film 100 is placed to face the base panel 200, and then moved to the heating plate 20, which is a plate press.

The heating plate 20 serves to attach the film 100 to the surface of the base panel 200 by thermal pressure, like the preceding heating roll 12.

That is, as in the first embodiment, when heat pressurized using the heating plate 20, heat is transferred onto the film 100. At this time, the adhesive layer 120 having a low melting point is bonded to the surface layer 110 and the base panel 200 while melting, and the surface layer 110 having a high melting point is attached to the base panel 200 without melting.

In this case, when a small unevenness is formed on the pressing surface of the heating plate 20, the film 100 may be attached to the surface of the base panel 200 by thermal pressure, and at the same time, small unevenness may be formed.

After the film 100 is attached to the base panel 200 by the heating plate 20, the thermally pressurized film 100 moved to the cooling plate 21 is cooled by the cooling plate 21 to form a building formwork. Is completed.

4 is a perspective view showing a building formwork according to the present invention.

Building formwork according to the present invention may have a flat surface smooth surface, as shown in Figure 4, small irregularities may be formed on the surface.

Hereinafter, the working principle of the building formwork with the irregularities formed on the surface according to the present invention.

5 is a cross-sectional view showing a state in which concrete is poured into the building formwork according to the present invention, Figure 6 is a cross-sectional view showing a state in which the concrete is cured in the building formwork according to the present invention.

Small irregularities are formed in the surface layer 110 of the finished formwork, and an adhesive layer 120 is formed between the surface layer 110 and the base panel 200. When the concrete 30 is poured into the completed form as shown in FIG. 5, the concrete is evenly placed on the surface layer 110 on which the small unevenness is formed.

Subsequently, when curing of the concrete 30 is performed, as shown in FIG. 6, the concrete 30 is plastically contracted toward the inside of the concrete with respect to the center of the concrete while reducing about 1% of the absolute volume. On the other hand, the building formwork according to the present invention is expanded to the outside by the heat of hydration (about 80 ℃) generated when the concrete is cured.

That is, as the concrete 30 is cured, the concrete contracts and the formwork expands on the contrary, so that the surface layer 110 of the concrete and the formwork cured in the diagonal direction is pushed away from each other at the portion where the small irregularities are formed. This phenomenon causes the separation between the formwork and the concrete itself.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

1 is a cross-sectional view of the building formwork according to the present invention,

2 is a flow chart showing a manufacturing method of building formwork according to a first embodiment of the present invention,

3 is a flow chart showing a manufacturing method of formwork for construction according to a second embodiment of the present invention,

4 is a perspective view showing a building formwork according to the present invention,

5 is a cross-sectional view showing a state in which concrete is poured into the building formwork according to the present invention;

6 is a cross-sectional view showing a state in which the concrete is cured in the building formwork according to the present invention.

<Description of the code | symbol about the principal part of drawing>

100 film 110 surface layer

120: adhesive layer 200: base panel

Claims (3)

delete delete Preparing a base panel; Manufacturing a film by laminating a surface layer of PET material and an adhesive layer of thermoplastic resin material; Contacting the adhesive layer of the film with the base panel, and then pressing the film by pressing; And Cooling the film is heat-pressed manufacturing method of the building form, characterized in that it comprises the step of completing the building formwork.

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