KR101795986B1 - Insulation finishing material construction apparatus and method of construction using the same - Google Patents

Abstract

The present invention relates to a form and insulation finishing material construction apparatus and a construction method using the same, and more specifically, relates to a form and insulation finishing material construction apparatus and a construction method using the same in which an insulation finishing material using Styrofoam is used as a form so that wall surface and the insulation finishing material can be easily and simultaneously installed. As a technical means to solve such objective, the present invention comprises a square Styrofoam insulation material and a fixing frame which is formed in a shape corresponding to the square Styrofoam insulation material to allow the entire or a part of the Styrofoam material to be inserted therein.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an insulation finishing material construction apparatus,

The present invention relates to an apparatus and a method for constructing an adiabatic adiabatic finishing material, and more particularly, to an adiabatic adiabatic finishing apparatus and a method for constructing an adiabatic adiabatic finishing material by using a styrofoam- And a method of using the same.

There is a general method in which a steel frame is installed on the inner side when a wall or a column of a building is built and a concrete is installed on the inner side of the mold after the form is installed around the steel frame. In this case, the formwork is made to correspond to a wall surface to be formed by connecting plate materials of a certain standard made of a solid material such as metal or wood, and in the outside of the formwork, Direction so as to cross the supports and securely fix them. After that, if the poured concrete is sufficiently cured, the wall is formed by separating the support and the formwork. And a finishing material is installed on the side of the wall. Recently, the importance of insulation is emphasized, and it is general to install the styrofoam insulation on the outside of the wall made of concrete using anchor bolts or a separate insulation fixing device. However, this method of working has to be carried out twice, so that the air is stretched and there is a problem that the wall or the heat insulating material is damaged in the process of installing the anchor bolt on the cured concrete wall.

Meanwhile, recently, a method of simultaneously applying an adiabatic styrofoam in the process of constructing a wall by pouring concrete into a mold has attracted attention. In other words, since the wall and the heat insulating finishing material are simultaneously formed by molding the concrete using the styrofoam instead of the conventional metal or wooden mold, the construction time is shortened and the styrofoam heat insulating material is cemented with the concrete integrally, Styrofoam insulation does not rise or rise from the wall, and there is no need to use expensive molds, which has the advantage of reducing the construction cost.

However, there are various problems in using the light and weak styrofoam directly in the form. First, there is a problem in that it is difficult to form and fix an accurate shape of a mold with a light and easily broken styrofoam heat-insulating material. Styrofoam insulation is made of a square or rectangle of a certain size. Therefore, a plurality of styrofoam heat insulating materials are connected to each other to form a wall or a pillar-shaped form. It is not easy to connect or fix the styrofoam heat insulating materials. In other words, it is difficult to firmly fix the styrofoam with a fixture such as a batt, a nail, or the like, and it is very difficult to arrange and fix a plurality of styrofoam heat insulators accurately in a horizontal direction.

In order to solve such a problem, various fixtures for fixing a styrofoam heat-insulating material forming a form have been conventionally introduced. Such a fixture is advantageous in that it can be installed more easily than a fixture using a wire or bolt. However, since a plurality of styrofoam heat insulation materials must be fixed by using a lot of fixtures, the installation time is long and the cost is high have. In addition, even if a mold is formed using the styrofoam heat insulator in this way, the fixtures can not be reinforced to the strength of the styrofoam heat insulator.

Styrofoam insulation is very weak and should be secured firmly using a separate support. That is, the concrete is placed in the mold after the mold is installed using the styrofoam heat insulator. However, the styrofoam heat insulator can not withstand the impact, pressure and weight generated when the concrete is poured. Therefore, when the styrofoam heat insulator is used as a mold, a large number of supports are provided on the outer side of the styrofoam heat insulator in the form of a lattice in the horizontal and vertical directions.

The support supporting the formwork should be installed outside the formwork made of the styrofoam insulation material by using the round or square metal pipe. It is highly experienced and skillful to install the support so that the support can fully support the styrofoam insulation. , So specialized skilled workers are needed. That is, since the styrofoam heat-insulating material is very weak in brittleness, it is difficult to fix the styrofoam directly to the support, and when the support is separated from the styrofoam heat-insulating material, it is filled with other materials. Also, it takes a lot of time to install a large number of support rods in a lattice shape by a skilled artisan, so air is delayed, and a large amount of support rods are required, which causes a rise in construction costs such as a large cost of materials. Therefore, the construction using the styrofoam insulation as the formwork has the advantages of the convenience of the construction and the solid construction of the insulation and the wall after the construction.

In order to solve these problems, some technologies have attempted to make a heat-insulating material a solid material, to add such a material, or to assemble a block-type heat-insulating material. However, this method is still inconvenient in construction, There is a problem that it becomes expensive. Also, in some cases, it is difficult to solve such a problem. In such a case, a steel plate or a wooden plate form used for pouring conventional concrete is placed outside the styrofoam heat insulator. However, even in this case, it is difficult to accurately fix the styrofoam heat- There is a problem in that the styrofoam heat insulator and the mold are simultaneously and accurately installed.

 Therefore, it would be good if there is a method which can easily and inexpensively use a relatively cheap styrofoam heat insulation material as a formwork.

KR 0001 A KR 0002 B1 KR 0003 B1 KR 0004 B1 KR 0005 B1 KR 0006 B1

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an apparatus and method for constructing a thermal insulation finishing material using a styrofoam thermal insulation material.

The present invention as a technical means for solving the above problems can be constituted by a rectangular styrofoam heat insulating material and a fixing frame which has a shape corresponding to the styrofoam heat insulating material and is mounted with all or part of the styrofoam heat insulating material inserted.

In a preferred embodiment of the present invention, the styrofoam heat-insulating material has a plurality of fixing grooves recessed inward along an outer circumferential surface of the styrofoam heat-insulating material. When the styrofoam heat-insulating material is mounted on the fixing frame, the outer circumferential surface of the styrofoam heat- And the fixing groove may be configured to be spaced apart from the inner surface of the fixing frame.

According to a preferred embodiment of the present invention, the fixing frame is made of a square corresponding to the styrofoam heat insulating material, and one side is opened and a supporting bar is provided on the other side, and a plurality of fastening holes are provided at positions corresponding to the fixing grooves along the circumferential direction .

The method of the present invention includes the steps of mounting a styrofoam thermal insulation material on a fixed frame; A second step of installing molds on which the styrofoam heat-insulating materials are mounted so as to face each other and a space corresponding to a wall surface to be molded is formed on the inner side; A third step of installing a mold fixture outside the fixture; A fourth step of pouring concrete into the mold; A fifth step of curing the concrete poured into the mold; A sixth step of disassembling the mold fixture; And a seventh step of separating the fixed frame.

According to a preferred embodiment of the present invention, in the second step, a plurality of fixing grooves are provided along the circumferential outer circumferential surface of the styrofoam heat insulator so that when the styrofoam heat insulator is mounted on the fixing frame, And a space is formed to be spaced apart from a side surface of the fixed frame.

It is possible to easily install the molds using the styrofoam insulation material even if the skilled worker does not use the styrofoam heat insulation material and the amount of the support for supporting and fixing the styrofoam insulation material is small, There is a saving effect. In addition, when the fixing frame for supporting and fixing the styrofoam heat insulator is removed, there is an advantage that a hollow space is formed at the position of the fixing frame, and the smooth surface is easily and firmly formed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing the construction of a thermal insulation finishing material construction apparatus according to the present invention. FIG.
2 is a view showing a state in which a heat insulating and finishing material constructing apparatus according to the present invention is installed.
3 is a view showing a state in which a formwork is installed by using a heat insulating finishing material together with a mold according to the present invention.
4 is a flowchart showing a method of constructing a wall or the like by using the thermal insulation finishing material constructing apparatus according to the present invention.

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

FIG. 1 is a view showing the construction of an apparatus for installing a mold and a thermal insulation finishing material according to the present invention, and FIG. 2 is a view showing a state in which a thermal insulation finishing material constructing apparatus according to the present invention is installed.

Referring to FIGS. 1 and 2, the apparatus for constructing an adiabatic adiabatic finishing material according to the present invention may include a rectangular styrofoam thermal insulation material 110 and a fixed frame 170 for mounting the styrofoam thermal insulation material 110 thereon.

The styrofoam heat insulator 110 can be used by processing a prefabricated product that is generally manufactured. Conventionally, the styrofoam used as a thermal insulator for construction is generally made of a rectangular or rectangular structure.

The styrofoam heat insulating material 110 applied to the molding and insulating finishing material constructing apparatus according to the present invention is provided with a plurality of fixing grooves 130 which are recessed inward along the circumferential outer circumferential surface of the conventional styrofoam heat insulating material 110. Thus, the gap adjusting bar 210 can be inserted into the space formed between the fixing groove 130 and the engaging surface of the fixing frame 170 to be described later.

 A plurality of fixing grooves 130 are provided along the outer circumferential surface of the styrofoam heat insulating material 110 in the transverse direction and the longitudinal direction. Preferably, three fixing grooves 130 are provided at regular intervals in the longitudinal direction, A plurality of fixing grooves 130 may be provided.

The styrofoam heat insulating material 110 may include a plurality of fixing groove forming portions 140 in the width direction along the positions corresponding to the fixing grooves 130. As described above, three fixing grooves 130 may be provided in the longitudinal direction of the fixing frame 170. In this case, three fixing grooves 140 may be provided corresponding to the fixing grooves 130 in the longitudinal direction And are provided at a predetermined interval in the width direction. When the styrofoam heat insulating material 110 is cut and cut in the longitudinal direction along the fixing groove forming part 140, the width of the styrofoam heat insulating material 110 is reduced, The forming portion 140 forms the fixing groove 130 on the cut surface. The role of the fixing groove 130 when the styrofoam insulator 110 is coupled to the fixing frame 170 and the fixing frame 170 will be described later.

A plurality of concrete coupling parts 150 may be provided on the inner surface of the styrofoam insulating material 110 (hereinafter referred to as the inner surface of the mold). The concrete coupling parts 150 may be recessed or protruded at regular intervals along the lengthwise or widthwise direction. When the concrete is poured into the mold after the styrofoam heat insulating material 110 forms the concrete, the concrete joining part 150 increases a contact area between the concrete and the styrofoam heat insulating material 110 to increase the contact area, Thereby improving the adhesive strength. The concrete joining part 150 may be provided on the outer surface of the styrofoam heat insulating material 110 if necessary. That is, when the styrofoam heat insulating material 110 has a different appearance, it is preferable that the concrete joining part 150 is provided.

On the other hand, the styrofoam heat insulator 110 includes styrofoam widely used as a heat insulating material for building, or a heat insulating material mainly made of styrofoam.

The fixed frame 170 is formed of a rectangular frame corresponding to the styrofoam heat insulator 110 described above, and one side is opened and a supporting bar 190 is provided on the other side. The styrofoam heat insulating material 110 is inserted into the interior of the fixing frame 170 so that the fixing frame 170 surrounds the styrofoam heat insulating material 110 in the circumferential direction. 190). In this case, the thickness of the fixing frame 170, that is, the distance from the one side of the fixing frame 170 to the supporting bar 190 is less than or equal to that of the styrofoam heat insulator 110 to mount the styrofoam heat insulator 110 on the fixing frame 170 The styrofoam heat insulator 110 is preferably horizontal or partially protruded from the fixed frame 170. [ As a preferred embodiment of the present invention, the styrofoam heat insulator 110 is made to protrude partly from one surface of the fixing frame 170.

A fixing hole 180 is provided in a circumferential direction of the fixing frame 170 at a position corresponding to the fixing groove 130 of the styrofoam heat insulating material 110 described above. The fastening holes 180 are formed in the shape of a slot in which a part of the fixing frame 170 in the circumferential direction is cut. The role of the fastening hole 180 will be described later.

Meanwhile, the fixed frame 170 may have various sizes in the width direction. When the mold is installed, the point where the wall and the wall meet often does not coincide with the standardized styrofoam heat insulator 110. In this case, since the styrofoam heat insulator 110 must be cut to an appropriate size, the fixing frame 170 needs to be prepared in various sizes.

FIG. 3 is a view showing a state in which a formwork is installed by using a thermal insulation finishing material according to the present invention, and FIG. 4 is a view showing a method of constructing a wall or the like using the thermal insulation finishing material construction apparatus according to the present invention It is a flowchart.

Referring to FIGS. 3 and 4, a method of constructing a mold and a thermal insulation finishing apparatus according to the present invention will now be described. In the first step (S100) of mounting the styrofoam thermal insulation material 110 to the fixed mold 170, A second step S110 of providing a mold so that a space corresponding to a wall surface to be formed is formed on the inner side of the fixed frame 170 mounted with the fixed frame 110 mounted thereon, A fourth step S150 of placing concrete on the inside of the mold, a fifth step S170 of curing concrete laid on the inside of the mold, a third step S130 of installing the mold 200, A sixth step S190 of disassembling the fixed frame 200 and a seventh step S200 of separating the fixed frame 170 from each other.

In the first step S100, the styrofoam heat insulator 110 is mounted on the fixed frame 170. The styrofoam heat insulating material 110 has a size and a shape corresponding to the fixed frame 170. When the styrofoam thermal insulating material 110 is mounted on the fixed frame 170, the circumferential direction of the fixed frame 170 is parallel to the circumferential direction of the styrofoam thermal insulating material 110 And the supporting bar 190 provided on the other surface of the fixing frame 170 supports the outer surface of the styrofoam heat insulating material 110. [ At this time, it is preferable that the styrofoam heat insulator 110 partially protrudes from one side of the fixing frame 170. At this time, as described above, the styrofoam heat insulator 110 is provided with a plurality of fixing grooves 130 along the peripheral surface in the circumferential direction, a plurality of fixing groove forming portions 140 in the width direction, So that the engaging portion 150 is provided. The styrofoam heat insulator 110 having the above-described structure is mounted so that the concrete coupling portion 150 is oriented in one direction of the fixed frame 170.

In the second step S110, the fixing frames 170 on which the styrofoam heat insulating material 110 is mounted are installed to face each other, and a space corresponding to the wall surface to be formed is formed inside. At this time, a steel frame structure is previously installed inside the place where the form is to be mounted.

The styrofoam heat insulator 110 is mounted on the outer side of the steel frame structure so that the styrofoam heat insulator 110 is mounted on the outer side of the stifrofoam heat insulator 110. After the styrofoam heat insulator 110 is inserted into the fixing hole 180 formed in the circumferential direction of the fixing frame 170, And connects the fixing frame 170 facing each other. At this time, in the interval adjusting bar 210, the interval adjusting holes 215 corresponding to the fixing holes 180 are formed at regular intervals along the longitudinal direction, and the interval adjusting holes 215 and the fastening holes 180 are formed at predetermined positions The fastening holes 180 and the gap adjusting holes 215 are fastened with fasteners 230 such as a chain or wire. That is, a mold is provided so that the side surfaces of the fixing frame 170 on which the plurality of styrofoam heat insulating materials 110 are mounted face each other, and the gap adjusting bar 210 is inserted into the fixing groove 130 formed at the position of the fixing hole 180 After the fastening hole 180 and the gap adjusting hole 215 formed in the gap adjusting bar 210 are fixed to the fastening hole 230 of the fastening hole 230 of the opposite fixing frame 170 The fixed frames 170 facing each other are spaced apart at regular intervals, and the fixed frame 170 adjacent to the side frames are fixed by the chain saw.

It has not been easy to connect the styrofoam heat insulators 110 when the mold is installed using only the styrofoam heat insulator 110. [ That is, the fragile styrofoam heat insulating material 110 is difficult to be firmly fixed by connecting with adjacent styrofoam facing in a narrow thickness direction. Therefore, the styrofoam heat insulator 110 is fastened to a fixture similar to a clamp or the like and secured to a mold fixture 200 or a steel frame structure to be described later. However, in this method, the styrofoam heat insulator 110 is installed firmly There are many difficulties. Therefore, there was no choice but to rely on some skilled workers with long experience, and there were many differences in the quality of construction depending on the skill of the worker. However, according to the present invention, when the horizontal alignment of the fixing frame 170 is performed, the horizontal position of the styrofoam thermal insulation material 110 mounted on the inner side is automatically adjusted, and the fixing frame 170 is mainly made of metal Therefore, it is easy to fix the fixing frames 170 with various fastening devices such as a wedge or a wire or bolt nut while connecting the fixing frames 170 in the horizontal direction. The distance between the fixed molds 170 can be adjusted accurately and uniformly by the gap adjusting bar 210 and the fixture 200 and the fixed mold 170 installed on the outer side of the fixed mold 170 can be fastened The styrofoam heat insulating material 110, which is liable to be fragile, can be made much more rigid and accurate than when it is fastened or fixed to the die fastener 200. Therefore, uniform and accurate construction is possible even if it is not a skilled worker.

In the third step S130, the mold fixture 200 is installed outside the fixing frame 170 while the fixing frames 170 are installed to face each other. The mold fixture 200 is provided with a circular or square metal pipe in the lateral direction and / or longitudinal direction on the outer side of the fixed frame 170 in the same manner as the mold installation method using the conventional styrofoam heat insulator 110, Is fixed to the die fixture 200. Since the mold was formed using only the styrofoam heat insulator 110 in the past, the mold fixture 200 had to be installed very tightly in order to prevent the mold from being blown or broken during the pouring process of the concrete. However, by using the apparatus for inserting the mold finishing material according to the present invention, since the styrofoam heat insulating material 110 is supported in the circumferential direction and the outer surface by the fixing frame 170, even if the molding fixture 200 is installed much less, have. The die fixture 200 requires a lot of manual work and requires a lot of time since many metal rods having a circular or square shape are provided in a lattice to fix each die fixture 200 at a position where the die fixture 200 is overlapped with a wire or a separate fixture . Therefore, since the number of the mold fixtures 200 to be installed can be significantly reduced by using the mold and the thermal insulation finishing material constructing apparatus according to the present invention, the time for installing the formwork can be remarkably reduced, and the air can be shortened, .

When the installation of the form is completed, the concrete is poured into the inside of the form in the fourth step (S150). Since the thickness of the fixing frame 170 is smaller than that of the styrofoam insulation material 110, the styrofoam insulation material 110 is partially protruded from the fixing frame 170 as described above. Therefore, when viewed from the inside of the mold, a gap is formed between the plurality of styrofoam heat insulating materials 110 by the thickness of two neighboring fixed molds 170 to which the respective styrofoam heat insulating materials 110 are attached. Therefore, when the concrete is poured into the mold, the concrete penetrates into the gaps between the styrofoam heat insulating materials 110, so that the concrete is cured and the styrofoam heat insulating material 110 is firmly and firmly fixed. Also, since the concrete joint part 150 is formed on the inner surface of the styrofoam heat insulating material 110, the styrofoam heat insulating material 110 is more firmly fixed to the concrete wall.

When the pouring of the concrete is completed, concrete poured inside the pouring mold is cured in the fifth step (S170). Concrete curing is the same as wall molding using conventional molds.

When the concrete curing is completed, the mold fixture 200 is disassembled in a sixth step S190 and the fixing frame 170 is separated in a seventh step S200. As described above, since the mold fixture 200 fixes and supports the styrofoam heat insulator 110 by the fixing frame 170, the mold fixture 200 according to the present invention can be used as a formwork system using only the styrofoam heat insulator 110 The same or more rigid support force can be maintained even if the mold fixture 200 is installed in a significantly smaller space. Therefore, the time required for dismantling the die fixture 200 is significantly reduced. Since the fixed frame 170 faces only the styrofoam heat insulator 110, it can be easily separated when pulled out by using a wrench or the like. Further, after the fixing frame 170 is separated, a space is formed between the styrofoam heat insulators 110 as a place where the fixing frame 170 is separated like the inner surface of the mold. Therefore, it is easy to install the exterior material by using such a gap, and when the exterior of the styrofoam heat insulator 110 is plastered again, the adhesive force is also improved. Since the metal plate forming the fixed frame 170 is relatively thin, the heat loss due to the gap between the styrofoam heat insulating materials 110 is also insignificant and does not affect the construction quality.

Although the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the scope of the present invention should not be limited by the described embodiments, but should be defined by the appended claims and equivalents thereof.

110: Styrofoam insulation
130: Fixing groove
140: Fixing groove forming part
150: Concrete coupling part
170:
180: fastening hole
190: Support bar
210: Spacing bar
210:
230: fastener

Claims (5)

A styrofoam heat insulation material having a rectangular shape and a fixing frame having a shape corresponding to the styrofoam insulation material, the styrofoam insulation material being inserted into a part of the styrofoam heat insulation material,
The styrofoam heat insulator has a plurality of fixing grooves recessed inward along an outer circumferential surface of the styrofoam heat insulator. When the styrofoam heat insulator is mounted on the fixing frame, the outer circumferential surface of the styrofoam heat insulator closely contacts the inner surface of the fixing frame, Is configured to be spaced apart from the inner surface of the fixed frame,
Wherein the styrofoam heat insulating material has a plurality of fixing groove-forming portions penetrating inward and outward along a position corresponding to the fixing groove in the width direction of the styrofoam heat insulating material.
delete delete A first step of mounting the styrofoam thermal insulation material on a fixed frame; A second step of installing molds on which the styrofoam heat-insulating materials are mounted so as to face each other and a space corresponding to a wall surface to be molded is formed on the inner side; A third step of installing a mold fixture outside the fixture; A fourth step of pouring concrete into the mold; A fifth step of curing the concrete poured into the mold; A sixth step of disassembling the mold fixture; And a seventh step of separating the fixed frame,
In the second step,
Wherein the styrofoam heat insulator is provided with a plurality of fixing grooves along the circumferential outer circumferential surface so that when the styrofoam heat insulator is mounted on the fixing frame, the fixing groove is spaced from the inner side of the fixing frame to form a space, A plurality of fixing groove forming portions are provided so as to penetrate inward and outward along a position corresponding to the fixing groove in a width direction of the fixing groove,
Wherein the fixing tool is mounted on the fixing groove of the fixture, the fixing tool being mounted on the fixture to face the fixing tool.
delete

Images