JPH01198948A - Outside heat insulating structural body on wall surface and manufacture thereof - Google Patents

Abstract

PURPOSE:To obtain an outside heat insulating structural body having the superior heat insulating performance and durability by forming each foundation and ground member so that each core member is embedded onto the both surfaces of a heat insulating member having the core members on the obverse and reverse surfaces of the heat insulating member body. CONSTITUTION:One surface side between the obverse and reverse surfaces of a heat insulating member 1 having each core member 6 projecting from the obverse and reverse surfaces of a heat insulating member body 5 is applied with a material for the foundation such as concrete so that the core member 6 is embedded, and a foundation 2 is formed. A ground member 3 is formed by coating the other surface side of the heat insulating member 1 with an inorganic coating material so that the core member 6 is embedded. Therefore, the foundation 2 and the ground member 3 can be formed integrally with the heat insulating member 1, and an outside heat insulation structure body which possesses the superior heat insulating performance and durability can be obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an external insulation structure for walls and a method for manufacturing the same, and more specifically, for use in the construction of external walls of structures such as houses, mainly new walls. This article relates to a structure and its manufacturing method.

(Prior art) Conventionally, in this type of external insulation construction, the structure that constitutes the wall surface during construction is such that the insulation material is joined to a foundation such as concrete by driving anchor bolts, and the insulation material is A structure whose upper surface is coated with an inorganic coating material is generally used.

(Problem to be solved by the invention) However, in the conventional structure described above, the foundation and the insulation material are connected by driving anchor bolts, so the connection between the two is not perfect. Therefore, there was a problem that the heat insulating material may peel off from the foundation or fall off.

Particularly in the above-mentioned external insulation construction method, peeling or falling off of the insulation material is fatal, and there has been a desire for a solution to this problem.

In addition, in conventional structures, the foundation and insulation materials are formed in advance, and the structure is constructed by incorporating them. Therefore, each component that makes up the wall surface is not integrated, A gap is created between the gaps, and as a result, moisture permeates and condensation occurs in the gap due to humidity, which reduces water resistance, durability,
Moreover, there was a problem that the heat insulation effect was impaired.

The present invention was invented to solve the above-mentioned problems, and its purpose is to prevent the insulation material from peeling off or falling off, and to integrate each component of the structure to improve water resistance and durability. This is because it improves the properties and heat insulation effect.

(Means for Solving the Problems) In order to achieve the above object, the present invention has been made as an external insulation structure for a wall surface and a method for manufacturing the same in order to solve the above problems. The structure is characterized by a heat insulating material 1 configured with a core material 6 protruding from both the front and back surfaces of a heat insulating material body 5, and a core material 6 protruding from one of the front and back sides of the heat insulating material 1 buried therein. Therefore, the insulation material l
A foundation 2 formed by painting a foundation material such as concrete on one side, and the other side of the insulation material 1 in order to bury the core material 6 protruding to the other side of the insulation material 1. The base material 3 is formed by coating the base material with an inorganic paint material.

The method for manufacturing the structure is characterized in that the heat insulating material 1, which has a core material 6 protruding from both the front and back surfaces of the heat insulating material body 5, is installed in the formwork 4, and in the installed state, the upper surface side In order to bury the core material 6 protruding from the one side of the heat insulating material 1 located on the one side of the heat insulating material 1, apply a foundation material such as concrete and integrate the foundation 2 to the one side of the heat insulating material 1. Then, after removing the integrated foundation 2 and the heat insulating material 1 from the formwork 4, it is installed in the formwork 4 with the foundation 2 inverted so that it is located on the lower surface side. Then, an inorganic coating material is coated on the other surface of the heat insulating material 1, and a base material 3 made of the inorganic coating material is integrally formed on the other surface of the heat insulating material 1. be.

(Function) The external wall insulation structure having such a configuration is formed by integrally forming the foundation 2 and the base material 3 on both the front and back surfaces of the heat insulating material 1 by painting, so each of these components There are no gaps between the members, and therefore no separation occurs between the respective constituent members.

In particular, the foundation 2 and the base material 3 are integrated into the heat insulating material 1 in such a way that the core material 6 protruding from both the front and back surfaces of the heat insulating material 1 is buried, so that these three constituent members are There is no mutual separation.

In addition, in the above-mentioned method for manufacturing an external heat insulating structure for a wall surface, an already formed heat insulating material 1 is installed in a formwork 4, and a foundation material such as concrete is placed on one side of the heat insulating material 1. Since it is manufactured by coating each side with an inorganic coating material, the manufacturing process can be performed extremely easily.

(Example) Hereinafter, regarding an example of the present invention, first, an example of a method for manufacturing an external heat insulating structure for a wall surface will be described with reference to the drawings.

First, a heat insulating body 5 made of urethane as shown in FIG. The heat insulating material 1 is placed in a box-shaped formwork 4 with an open top as shown in FIG.

Next, as shown in FIG. 3, the heat insulating material 1 in the installed state is
Concrete is poured on one side of the heat insulating material 1 so as to bury the core material 6 protruding from one side of the heat insulating material 1, and a foundation 2 is formed on the one side of the heat insulating material 1.

As a result, the heat insulating material 1 is integrally formed on one side of the foundation 2.

Next, the foundation 2 and the heat insulating material 1 integrated as described above are removed from the formwork 4 and turned over, so that the foundation 2 and the heat insulating material 1 are placed on the bottom side as shown in FIG. Installed in formwork 4.

Then, as shown in FIG. 5, on the other side of the heat insulating material 1, so that the applied surface approximately coincides with the position of the end of the core material 6 protruding from the other face of the heat insulating material 1. Mortar is applied to a thickness of approximately 10 mm, and after drying, mortar is further applied to a thickness of approximately 1 mm, thereby converting the base material 3 into the heat insulating material 1.
It is integrally formed on the other side.

In this way, the manufacture of an integral wall external heat insulating structure is completed using the heat insulating material 1, the foundation 2, and the base material 3 using an extremely simple method. By combining the structures manufactured in this way,
Walls of structures, etc. will be constructed.

Next, an example of an external heat insulating structure for a wall surface will be described. The structure as an example is constructed by protruding iron core members 6 from both the front and back sides of a heat insulating body 5 made of urethane. A foundation 2 formed by painting concrete on one side of the insulation material 1 in order to bury the insulation material 1 and the core material 6 protruding from the one surface side of the insulation material 1, and the other parts of the insulation material l. It is integrally constructed with a base material 3 formed by coating mortar on the other surface of the heat insulating material 1 in order to bury the core material 6 protruding from the surface side.

That is, in the external wall insulation structure having such a structure, the iron core material 6 is attached to the urethane insulation material body 5.
Concrete and mortar are respectively coated on both sides of the heat insulating material 1 in which the core material 6 is buried, and the three constituent members are integrally formed.
will not peel off or fall off from the foundation 2,
Further, the base material 3 does not fall off or peel from the heat insulating material 1.

In addition, since the components of the three companies mentioned above are integrated by painting, etc., there are no gaps between these components, which eliminates the occurrence of internal condensation due to gaps as in the past, and the entire wall surface In addition to increasing the strength of the material, the heat insulating effect is significantly improved.

In the above embodiment, the heat insulating body 5 is made of urethane, but the material of the insulating body 5 is not limited to this, and any organic heat insulating material may be used.

Further, the material of the core material 6 is not limited to the iron as in the embodiment, and the shape thereof is not limited to the wire mesh shape as in the embodiment.

Further, in this embodiment, concrete is applied onto the heat insulating material 1 by pouring, but the means for applying concrete is not limited to pouring, and may be applied, for example, by coating. Furthermore, the thickness of the coating does not matter.

Further, in this embodiment, the foundation 2 is made of concrete, but the material constituting the foundation 2 is by no means limited to this.

Further, in this embodiment, the base material 3 is formed by applying mortar to the other surface of the heat insulating material 1 by painting, but the means for applying mortar is not limited to painting. The point is that the base material 3 made of mortar may be provided on the other side of the heat insulating material 1 by painting. Furthermore, the thickness of the coating does not matter.

Furthermore, in the above embodiment, mortar is applied twice to the other side of the heat insulating material 1 to form the base material 3, but the number of times of application is by no means limited to this; It may be.

Further, in the above embodiment, the base material 3 is made of mortar, but the material constituting the base material 3 is not limited to this. In short, it is sufficient if it is made of an inorganic coating material.

Furthermore, the shape of the formwork 4 is not limited to the embodiment.

(Effects of the Invention) (a) Like soft soil, the present invention has a foundation material and an inorganic coating material on both sides, in order to bury the core material protruding on both the front and back sides of the insulation body. Painted, foundation ground,
Since the insulation material and the base material are integrally formed, these three components will never separate from each other, and therefore, the peeling and falling off of the insulation material from the foundation, which conventionally occurred, is almost completely eliminated. A remarkable effect was obtained in that it was able to prevent

(b) In addition, since each component is integrally formed by painting with an inorganic coating material, etc., there is no gap between each component as in conventional external wall insulation structures, and Can prevent the occurrence of condensation, is water resistant, durable,
The effect was that the heat insulation effect was significantly improved compared to the conventional method.

(C) Furthermore, the structure is manufactured through a series of steps such as installing heat insulating material inside the formwork, painting foundation materials and other materials, inverting the installation, and applying an inorganic coating material, so it is not as easy as conventional methods. There is no need for joining work using joint members, etc., and the overall workability is significantly improved.

[Brief explanation of the drawing]

FIG. 1 is a perspective view showing a heat insulating material as an example. FIG. 2 is a sectional view showing the process of installing the heat insulating material in the formwork. FIG. 3 is a sectional view showing the process of forming a foundation. FIG. 4 is a cross-sectional view showing the process of forming a foundation on a heat insulating material, then inverting the heat insulating material and installing it in a formwork. FIG. 5 is a sectional view showing the process of forming a base material. FIG. 6 is a sectional view of the structure after manufacture. l...Insulating material 2...Foundation 3...Substrate material 4...Formwork 5...Insulating material body 6...Core material Applicant Toho Perlite Co., Ltd. Agent Patent attorney Certified copy Sho No. 1 Figure 2 Figure 37 40th 5th 63rd

Claims (1)

[Claims] 1. A heat insulating material 1 configured with a core material 6 protruding from both the front and back surfaces of a heat insulating material body 5, and a core material 6 protruding from either the front or back surface of the heat insulating material 1 being embedded. In order to achieve this, a foundation 2 is formed by coating a foundation material such as concrete on one side of the insulation material 1, and a core material 6 protruding from the other side of the insulation material 1.
An external heat insulating structure for a wall surface, characterized in that it is integrally formed with a base material 3 formed by coating the other side of the heat insulating material 1 with an inorganic coating material in order to embed the heat insulating material 1. 2. A heat insulating material 1 made up of a core material 6 protruding from both the front and back surfaces of a heat insulating material body 5 is installed in the formwork 4, and on one side of the heat insulating material 1 located on the upper surface side in the installed state, In order to bury the core material 6 protruding from the one side, a foundation material such as concrete is coated and the foundation 2 is covered with the heat insulating material 1.
Formed integrally on one side, then after removing the integrated foundation 2 and heat insulating material 1 from the formwork 4, inverted so that the foundation 2 is located on the lower side. installed in the formwork 4, and then coated with an inorganic coating material on the other side of the insulation material 1 to integrally coat the base material 3 made of the inorganic coating material on the other side of the insulation material 1. A method for manufacturing an external heat insulating structure for a wall, the method comprising forming an external insulation structure for a wall.