KR20170142250A - One unified body construction method of the building concrete wall together with complex boards which has the insulation materials and the finishing materials - Google Patents

Abstract

The present invention relates to a wall construction method integrating a concrete wall and a composite insulation finishing material. More specifically, according to a wall of a building having a concrete structure, the present invention constructs the wall by integrating a composite insulation finishing material and a concrete wall to reduce construction costs and the weight of the wall and reinforce waterproofness and insulation properties of the wall.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wall construction method for constructing a concrete wall and a composite thermal insulation finishing material integrally,

The present invention relates to a wall construction method for integrally constructing a concrete wall and a composite thermal insulation finishing material. More particularly, the present invention relates to a composite thermal insulation material including the final finishing material and a heat insulating material for the construction of an integral wall made of a final finishing material, The present invention relates to a method of installing a concrete wall and a composite thermal insulation finishing material integrally with a concrete wall and a composite thermal insulation finishing material so as to maximize the weight and insulation of the wall by integrally installing the concrete by installing the finishing material integrally on the formwork side before the concrete is poured.

In the case of the application of various techniques for forming a wall in the construction of a general concrete structure, in the case where the interior and exterior walls of the wall are to be finished by thermal insulation, a basic concrete skeleton is first formed on the wall, a heat insulating material is adhered, Or the case where the insulation is inserted between the brick walls that are stacked and the inner and outer wall surfaces of the wall are closed with cement mortar.

However, the above-mentioned conventional double wall brick wall construction method has almost no application other than small-scale construction due to an increase in labor costs and a complicated process.

In addition, in the case of forming a basic concrete skeleton structure and adhering and finishing the heat insulating material, after the formation of the concrete wall as a skeletal constituent, the heat insulating material is assembled by using a wooden grid and the case is closed with a finishing material such as a gypsum board, And gluing the gypsum board back to the adhesive. As a result, the existing method has a problem of increasing the cost in the form of passing through various steps, and there is a limitation in mechanical strength and adhesion to the adhesive, , The method of finishing the cement mortar liquid on the bricks is a method of avoiding application due to problems such as an increase in the overall construction cost due to an increase in the construction period and labor costs.

In addition, the method of attaching only the heat insulating material to the inner surface of the wall or filling the thermal insulating material inside the brick skeleton is not completely filled between the thermal insulating materials, resulting in a deterioration of the heat insulating property and also causes a problem of condensation and leakage.

In order to solve this problem, there is a need for a technique of pre-fabricating a product such as a composite thermal insulation finishing material having a heat insulating property and forming it integrally with a concrete skeleton at a time when the wall of a building is constructed .

Therefore, there is a need for a technique in which a product such as the composite thermal insulation finishing material is previously accurately and firmly mounted so as not to be detached when the concrete is poured, and the composite thermal insulation finishing material is easily peeled off from the mold without defect when the form is separated and removed after curing .

At this time, the adhesive system or the like on the formwork can not be easily accomplished due to difficulty in peeling off the surface of the composite thermal insulation finishing material without peeling off the surface of the composite thermal insulation finishing material. Alternatively, a general fixing method of bolts and nuts, It is difficult to cut the bolt or the wire after removing the bolt or the wire, and fragments of the bolt or the wire remain.

Therefore, once again the problems of the technology which has not been solved in the prior art, there was no suitable composite insulation material. Therefore, the gypsum board was not able to withstand the environment of concrete liquid due to its very low water resistance, and it was difficult to apply it to high-priced boards due to high cost and still difficult to maintain water quality and surface quality.

Secondly, it is possible to assemble the complex thermal insulation finishing material into large molds (gang form) used in most apartments in advance easily and precisely, and to disassemble the formwork after the concrete casting curing and to damage the surface of the composite thermal insulation finishing material at the time of form separation.

Third, if you want to finish beautifully by adhering the outer wall stone to the exterior of the outer wall, you need a stone fixed base crate to support the heavy weight stone. At this time, the insulation and the finishing material can be seriously damaged when the anchor is post- A solution was required because it could seriously damage the insulation.

In order to form the concrete wall, the heat insulating material and the final wall integrally formed with the wall, it is necessary to adopt a finishing material having a very high water resistance as a preceding problem.

As a conventional technique for solving the above problems, Korean Patent Application Publication No. 10-2016-0012794 discloses a wall integrally formed with a finishing material and a construction method thereof.

However, the known technology described above is a technique devised by the same applicant of the present invention as a wall integrally formed with a finishing material and a construction method thereof, but it is only required to provide a simple process of simply adhering a composite finishing material to a wall, There is a problem that it can not be provided.

Therefore, there has been a demand for a technique for providing a concrete construction method that is more specific and not commonly used in a wall construction method for integrally constructing a concrete wall and a composite thermal insulation finishing material as in the present invention.

In order to solve the above-mentioned problems, the present invention provides a wall construction method for integrally constructing a concrete wall and a composite thermal insulation finishing material by selecting a composite thermal insulation finishing material having an extremely high water resistance, And bolt-type tie-bars are used to prevent final defects due to the difficulty of final cutting and lateral attachment of the blank spaces, and to prevent the partial damage of the surface. There is a purpose.

In addition, the present invention can be embodied in a concrete wall by using a bolt-type tie bar designed according to the present invention, and can be installed firmly in the external stone adhering method using a screw system, There is another purpose that can be done.

The above object of the present invention is achieved by a method for constructing a concrete wall, comprising the steps of: forming a composite insulation finishing material composed of a composite finishing layer and a heat insulating layer, and a die having a hole formed at a predetermined interval into which a bolt-type tie- A second step of inserting the bolt-type tie bar into the hole while inserting the composite thermal insulation finishing material into one side of the form, a step of assembling a nut at one end and the other end of the bolt-type tie bar A fourth step of assembling the integral body of the finishing material for the concrete pouring of the wall, a fifth step of pouring the concrete concrete mixer after the completion of the integral molding of the finishing material, the step of drying the poured concrete, Removing the nut and the bolt-type tie bar to finish the outer wall insulation; and removing the bolt-type tie bar after the step And the seventh step in the first step, the integrated wall is formed by integrally adhering the composite thermal insulation finishing material with the poured concrete, and applying the necessary paint to the composite finishing layer Or is finished using at least one of wallpaper, tile, and stone.

Accordingly, the wall construction method of integrally constructing the concrete wall and the composite thermal insulation finishing material of the present invention is characterized in that the composite thermal insulation finishing material composed of the insulation layer and the finishing layer is integrally formed when the concrete is applied, It is possible to reduce the construction cost, lighten the wall and secure the excellent heat insulation.

In addition, the present invention is able to finish the wallpaper on the inner side wall of the room due to the increase in wall lightness, waterproof property, nonflammability and heat insulation property and the flatness of the surface through the composite thermal insulation finishing material, And it is possible to expose the exterior wall as well as the finish of the paint treatment and the tile on the outdoor side wall.

Further, in the case of the exterior wall stone adhering finish, it is possible to assemble the stone hanging cache with the screw system of the bolt-type tie bar of the present invention without installing an anchor separately, thereby providing enormous cost savings and convenience.

FIG. 1 is a flowchart of a method for constructing a wall for integrally constructing a concrete wall and a composite thermal insulation finishing material according to the present invention.
FIG. 2 is a detailed view of a composite thermal insulation finishing material according to an embodiment of the present invention and a nut and a bolt-type tie bar inserted through a mold,
FIG. 3 is a view illustrating an example of forming a composite material-finished workpiece by mounting a composite thermal insulation finishing material on a workpiece for an integrated wall construction according to an embodiment of the present invention,
FIG. 4 is a view illustrating an installation structure of a wall having a concrete wall and a composite thermal insulation material integrally formed according to an embodiment of the present invention when one side and two sides of the wall are applied.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents It should be understood that water and variations may be present.

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

1 is a flowchart of a method of constructing a wall for integrally constructing a concrete wall and a composite thermal insulation finishing material according to the present invention.

As shown in the drawing, a method for constructing a concrete wall with integral finishing material includes a first step (S100) of preparing a composite thermal insulation finishing material and a mold, a second step (S200) of applying the composite thermal insulation finishing material to one side of the mold, A fifth step S500 of installing concrete concrete mixers, a sixth step S600 of removing the nuts and the bolt-type tie bars, and a fourth step S400 of mounting the bolt- And a seventh step (S700) of removing the tie bar and the mold.

This is explained in detail as follows.

In the first step S100, a composite thermal insulation finishing material 100 formed of the composite finishing layer 110 and the heat insulating layer 120 and a hole having a predetermined interval through which a bolt-type tie- This is the step of preparing the generated dice.

Here, the composite finish layer of the composite thermal insulation finishing material may be a non-woven fabric, a glass fiber mat, a porous fiber, or a non-woven fabric in which a mixture containing 1-50 wt% of at least one of ethylene vinyl acetate dispersions, acrylic dispersions, Is a finishing material specially manufactured for the purpose of the present invention in which any one of a woven fabric or a synthetic resin mat is deposited and laminated to a thickness of 1 to 5 mm on the heat insulating layer.

The composite finish layer is a layer that becomes the surface of the inner wall or the outer wall of the completed integral wall, and the surface of the composite finish layer may be coated with a necessary paint or finished, or a wallpaper finish or a tile may be applied to finish the wall . In particular, the outer wall can be exposed as it is because of its water resistance and weatherability, thereby reducing the construction cost and completing the wall which is lightweight and has improved heat insulation.

The heat insulating layer of the composite heat insulating finishing material is a heat insulating material used as a general heat insulating member such as styrofoam or urethane.

FIG. 2 is a detailed view of a composite thermal insulation finishing material according to an embodiment of the present invention and a nut and a bolt-type tie bar inserted through a mold. The bolt-type tie bar is formed at both ends A metal bar having a diameter of 5 to 10 mm, threaded in a certain range so that the nut can be mounted, and a bolt rod having a screw groove, which is either a stainless steel bar or an engineering plastic bar.

Unlike conventional plastics having a molecular weight of several tens to several hundreds of molecular weight, the engineering plastic bar is a polymer material ranging from several hundreds to several million, and has not only strength but also impact resistance. Abrasion resistance. Heat resistance, cold resistance, It has excellent chemical resistance and electrical insulation.

Therefore, it is preferable to use a stainless steel bar or an engineering plastic bar in order to prevent corrosion and rust.

When the bolt-type tie bar is used as an outer wall thermal insulation finish, the head is designed to have a constant length so that the head part is not hermetically sealed at the ends of the nuts at both ends, so that the poured concrete is not in contact with the bolt-type tie bar.

However, when the bolt-type tie bar is used as an outer wall stone adhering finish, it may be designed to have an additional length of 5 to 10 cm so as to leave the bolt-type tie bar, so that the bolt-

This is because, in the case of exterior stone attaching method, the concrete placed is retained by the extension length after curing, so that the outer thread portion is used for the purpose of assembling the solid base of the stone.

In addition, a through hole having a diameter of 1 to 2 mm is formed at one end of the bolt-type tie plate on the work side in place of the screwing process, and a bending tongue The bolt type tie bar may be fixed so as not to be pushed out of the formwork by using a supporting pin (not shown). This is to enable the present invention to provide flexible mounting of the bolt-type tie bars when assembling the finish integrally molded form.

In the second step S200, the bolt-type tie bar is inserted into the hole while inserting the composite heat-insulating finishing material into one side of the mold.

The hole means that through holes having a diameter of 5 to 10 mm are arranged at intervals of about 30 cm on the die.

In the third step S300, a bolt-type tie bar is assembled with a nut or a bending-support pin at one end and the other end thereof to generate an integral body of a finish material. At this time, it is possible to disperse the bonding pressure using washers, which are annular parts, which are supplementarily inserted between the bolt-type tie bar and the nut or the portion to which the bending support pin is fixed.

FIG. 3 is an exemplary view illustrating the process of forming a composite thermal insulation finishing material on a mold for an integrated wall construction according to an exemplary embodiment of the present invention, thereby forming an integrated material finishing material.

3, a composite thermal insulation finishing material of a standard size cut to a predetermined size is first assembled using a bolt-type tie bar having a designed calculated length, and the composite thermal insulation finishing material, Finish with a vinyl acetate-based or quick-drying urethane adhesive on the side of the adiabatic finish.

In general, the external wall finishing method removes the bolt-type tie bar, which prevents the concrete from contacting the threaded portion of the bolt-type tie bar when the concrete is poured, The head is designed to be sealed by the poured concrete.

The finished material integrally molded form of the present invention means a large-sized gantry which is formed by integrating an outer wall formwork and a footing cage integrally in a sectional structure having the same plane top and bottom as a high-rise apartment.

The fourth step (S400) is a step of assembling and installing the finish material integral formwork for pouring concrete of the wall.

In the fifth step (S500), the concrete concrete mixer is installed after the finisher integrated type mold is installed.

The sixth step S600 is a step of removing the nut or the bending support pin and the bolt-type tie bar for the outer wall insulation finish after curing and drying the poured concrete.

At this time, the bolt-type tie bar is removed in the outer wall finishing method, and the bolt-type tie bar is removed without removing the bolt-type tie bar, And the bolt-type tie bar on the side of the composite finish layer can be used as a pedestal so that a stone-supporting cache can be assembled.

The seventh step S700 is a step of removing the bolt-type tie bar according to the outer wall insulation finishing method or the outer wall stone finishing method of the sixth step S600, and then removing the mold.

As described above, the integral wall produced in the first step (S100) to the seventh step (S700) is formed by integrally adhering the composite thermal insulation finishing material with the poured concrete, and the necessary coating material Or by applying one or more of wallpaper, tile, and stone to finish finishing work immediately.

Also, by using the above-described process of the present invention, it is possible to apply both the inner wall and the outer wall as well as the inner and outer walls of the wall to produce the concrete wall and the composite thermal insulation finishing wall integrated wall. FIG. 4 is a view illustrating an installation structure of a wall having a concrete wall and a composite thermal insulation material integrally formed according to an embodiment of the present invention when one side and two sides of the wall are applied.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Various changes and modifications will be possible.

100: composite insulation finishing material 200: cast concrete
110: composite finishing layer 120: insulating layer

Claims (9)

In a concrete wall construction method,
A first step of preparing a mold in which a composite insulating finishing material formed of a composite finishing layer and a heat insulating layer and a hole having a predetermined gap at which a bolt-type tie-bar can be inserted is formed,
A second step of inserting the bolt-type tie bar into the hole while inserting the composite heat insulating finishing material into one side of the mold,
A third step of assembling a nut to one end and the other end of the bolt-type tie bar to produce a finish material integral die,
A fourth step of assembling and installing the finish material integral type die for concrete pouring of the wall,
A fifth step of installing a concrete ready mixer after installing the finisher integrated type mold,
A sixth step of removing the nut and the bolt-type tie bar to finish the outer wall of the concrete after drying the concrete,
And a seventh step of removing the mold after the processing of the bolt-type tie bar in the sixth step,
The integrated wall having been subjected to the first step to the seventh step is formed by integrally adhering the composite thermal insulation finishing material with the poured concrete and applying the necessary paint to the composite finishing layer or applying at least one of wallpaper, Wherein the concrete wall and the composite thermal insulation finishing material are integrally formed.
The method according to claim 1,
Characterized in that the bolt-type tie bar is any one of a metal bar, a stainless bar or an engineering plastic bar having a diameter of 5 to 10 mm and threaded so that a nut can be mounted at both ends thereof. The concrete wall and the composite heat- A wall construction method.
3. The method of claim 2,
The bolt-type tie bar is formed with a through hole having a diameter of 1 to 2 mm in the radial direction instead of the screwing process, and at the one end where the through hole is formed, the bolt-type tie bar is pushed using a bending support pin instead of the nut Wherein the concrete wall and the composite thermal insulation finishing material are integrally formed.
3. The method of claim 2,
When the bolt type tie bar is used as an outer wall thermal insulation finish, it is designed to have a predetermined length so that the head part is not hermetically protruded at the ends of the nuts at both ends, so that the poured concrete is not in contact with the bolt type tie bar A method of constructing a wall by integrating a concrete wall and a composite thermal insulation finishing material.
3. The method of claim 2,
Wherein the bolt-type tie bars are designed to have an additional length of 5 to 10 cm so as to leave the bolt-type tie bars when the bolt-type tie bars are used for the exterior wall stone adherence finish.
The method according to claim 1,
The composite thermal insulation finishing material is cut into a predetermined size and mounted on one side of the die in the third step, and in the generation of the negative space, the vinyl acetate-based or quick-drying urethane Wherein the composite wall is integrally formed with the concrete wall and the composite thermal insulation finishing material.
The method according to claim 1,
In the sixth step, the bolt-type tie bars are left unremoved in the case of the exterior wall stone adherence finishing, and the bolt-type tie bars are embedded in the concrete side to have a certain amount of bending force, Type tie bar to allow the stone supporting cube to be assembled to the tie bar.
The method according to claim 1,
The composite finishing layer of the composite thermal insulation finishing material is formed on the heat insulating layer. The composite finishing layer of the composite thermal insulation finishing material is formed of a nonwoven fabric, a non-woven fabric, a non-woven fabric, or a nonwoven fabric in a mixture containing 1-50 wt.% Of at least one of ethylene vinyl acetate dispersions, acrylic dispersions, Wherein one of a fiber mat, a porous fiber woven fabric, and a synthetic resin mat is deposited and laminated to a thickness of 1 to 5 mm, and the composite wall and the composite thermal insulation finishing material are integrally formed.
The method according to claim 1,
Wherein the first step to the seventh step is applied to one side of the integrated wall or both sides of the integrated wall, wherein the concrete wall and the composite insulation are integrally formed.

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