KR101027394B1 - A fixing tool by dry process for insulation panel onto building structure that of using installation method - Google Patents

Abstract

PURPOSE: A fixing member and a dry construction method using the same are provided to reliably attach an insulating material to a building structure using attachment pins and fixing brackets instead of an adhesive. CONSTITUTION: A fixing member comprises an insulating material, a fixing bracket(20), and an attachment pin(30). The fixing bracket is fixed on a side of a building structure by inserting or driving an anchor bolt or bolt. The attachment pin is inserted or coupled from the top of the fixing bracket. The insulating material is made of foam polystyrene or hard polyurethane foam and inserted and coupled to the attachment pin. The fixing bracket comprises a fixing groove for fixture on the building structure, a securing hold for insertion or coupling of the attachment pin, and a securing groove for preventing the separation of the attachment pin.

Description

A fixing tool by dry process for insulation panel onto building structure that of using installation method}

The present invention relates to a fixing member for attaching the insulation to the building structure and a dry method using the same, without using an adhesive when attaching a rigid polyurethane foam or expanded polystyrene insulation to the structure of the building, using an attachment pin and a fixing bracket. By fixing it to the structure of the building and attaching the heat insulating material to the attachment pin, and fixing member for attaching the heat insulating material to the building structure to ensure the reliable attachment strength required when attaching the heat insulating material to the building structure. It relates to the dry method used.

In addition, the insulation made of rigid polyurethane foam or foamed polystyrene (Schiro foam) is relatively easy to enter, but on the contrary, when it is to be pulled out again, there are arrowhead shaped projections on the surface of the attachment pin, making it difficult to fall back due to the elasticity and friction of the foam itself. , Once installed, has a certain adhesive force, can be quickly installed at a time, and a fixing member for attaching the insulating material to the building structure that does not use an adhesive to cause pollution to the indoor environment, and a dry method using the same.

In modern construction, insulation is one of the most important factors. In particular, measures against climate change and depletion of energy resources due to global warming add to the importance of insulation of buildings and require the use of more efficient insulation materials.

Typically, styrofoam, that is, foamed polystyrene insulation or rigid polyurethane foam insulation is used for cold protection and room temperature for building insulation.

In case of expanded polystyrene insulation, it can be easily installed and adhered to the building by existing wet method using chemical adhesive, but it is toxic to environmental factors and human body by chemical composition of adhesive. It's a reality.

In the case of the rigid polyurethane foam insulation, the cell itself forming the foam itself is in the form of a closed cell (independent foam), so that the adhesive does not penetrate well, and in particular, depending on the type of solvent contained in the adhesive In some cases, the cells of the rigid polyurethane foam insulation are melted and the foam itself is destroyed, and it is very difficult to attach the rigid polyurethane foam insulation to a building structure firmly by a wet method using an existing adhesive.

In particular, in the case of rigid polyurethane foam insulation having surface materials classified into two types according to the rigid polyurethane foam insulation standard according to KSM 3809, the surface material such as paper, nonwoven fabric or aluminum foil in the production process is made of rigid polyurethane foam. It is a product made by attaching urethane's self-adhesive strength to both surfaces of the heat insulating material. When the rigid polyurethane foam heat insulating material is constructed by the wet method using the adhesive, the adhesive may not be easily attached depending on the type of surface material. In particular, in the case of a rigid polyurethane foam insulation of which the surface material is aluminum, the surface is smooth and the adhesive does not penetrate the surface at all, thereby making it impossible to bond with the building structure. In addition, even if it is constructed with adhesive, if the peeling occurs between the surface material and the rigid urethane foam due to moisture or other factors in the process of long-term use for the purpose of thermal insulation of the building, only the surface material with adhesive is applied to the building structure. The rigid urethane foam insulation that is attached to the body and may be separated off. Recently, in order to maximize the energy saving effect, many external insulation methods have been implemented.In this case, since the insulation is installed outside of the building structure, the external impact can be directly affected, and the outer wall including the insulation falls off due to the strong wind. As it can go out, the technology of firmly attaching the insulation to the structure of the building is becoming more and more important problem, and in the case of the rigid polyurethane foam insulation, because of the various problems described above, there is still a clear alternative to the external insulation method Not present

In addition, in the wet method, even if it is initially attached by adhesive force, it is difficult to assure the quality of the construction whether the structure of the building and the insulation are attached with a certain adhesion even after the adhesive is cured and completely hardened. , It takes a lot of time to cure, especially in winter, it is difficult to maintain the temperature required for curing at the construction site, there is a disadvantage that is easy to occur in the construction. In addition, in the wet method using an adhesive, the volatile organic compounds contained in the solvent contained in the adhesive contaminate indoor air and cause sick house syndrome, which is harmful to the human body.

Therefore, when the expanded polystyrene insulation or the rigid polyurethane foam insulation is attached to the structure in the building, it is not only quickly installed but also secures long-term adhesion strength, and furthermore, it creates a safe indoor space because no harmful substances are generated. There is a need for a construction method.

In addition, in recent years, with respect to the reduction of CO ₂ gas worldwide, there is a growing interest in the use of energy in buildings, which account for almost half of all CO ₂ gas emissions, and thus a lot of efforts to reduce the energy required for buildings. Among them, the insulation of buildings is one of the most important issues.

As a result, the government is strengthening the insulation regulations of buildings, and in order to satisfy the related "Energy-saving Design Law of Buildings", the thickness of the insulation is getting thicker and thicker, and the wall of the building including the insulation is thicker. As a result, a large part of the building area is taken away by the wall including the insulation material, which becomes an inefficient plane, and it is not only difficult to secure effective space for use in the building but also increases the cost of construction. Rigid polyurethane foam insulation, which can meet the regulations set by the energy legislation of a given building, is the most realistic alternative, and its use is expected to increase in the future.

When comparing the energy efficiency according to thermal conductivity among thermal insulation materials currently used for thermal insulation of buildings according to Korean Industrial Standard (KS), Class 1 No. 1 has a thermal conductivity of 0.036 for the expanded polystyrene insulation material (KS M 3808). It is required to be less than W / mk, the extrusion method number should be less than 0.027 W / mk, and for glass wool (KS L 9102) insulation, the thermal insulation plate 24K is required to have a thermal conductivity of 0.049 W / mk or less. In comparison, the rigid polyurethane foam insulation (KS M 3809) has the lowest thermal conductivity compared to the other insulation materials listed above with a thermal conductivity of 0.02 W / mk or less, which is the lowest, which prevents heat conduction. Excellent high efficiency insulation.

Conventionally, a method of attaching a plate-shaped insulation to a building structure is generally a wet attach method using an adhesive. In the case of foam polystyrene foam insulation (commonly known as styrofoam), which is commonly used to insulate buildings to date. In this way, relatively excellent adhesive strength could be obtained.

However, when an adhesive is used to attach the rigid polyurethane foam insulation to the structure of the building, the solvent may melt the rigid polyurethane foam depending on the type of solvent included in the adhesive, and the adhesive penetrates the surface of the foam at all. Since it does not exhibit adhesive strength, and especially when a surface material having a smooth surface such as aluminum sheet is used, it is not attached at all. Therefore, a method for attaching a rigid polyurethane foam insulation to a structure of a building is urgently required.

In order to solve the above problems, the present invention is to construct a building structure by attaching a heat insulating material of a foamed polystyrene (styro foam) or a rigid polyurethane foam used to provide insulation of the building to the building to achieve this object When the fixing bracket and the attachment pin are secured, a simple attachment strength can be obtained, and it can be installed easily and quickly.It can provide reliability of continuous adhesion even after long-term use after construction. The present invention provides a fixing member for attaching a heat insulating material to a building structure which does not cause indoor air pollution because there is no volatile organic compound by an organic solvent, and a dry method using the same.

According to a first aspect of the present invention to achieve the above object, the fixing member for attaching the heat insulating material to the building structure is composed of a heat insulating material, a fixing bracket, attachment pins to prevent heat insulation of the building for cold protection and room temperature and In the fixing member for attaching the insulating material to the building structure to provide a fixed and building insulation, the fixing bracket is fixed by inserting or driving the anchor bolt or tableting pin on one side of the building structure so that the heat insulating material and the attachment pin is fixed and supported. And the attachment pin is configured to be fastened to the fixing bracket by being inserted or fastened on the fixing bracket after the fixing bracket and the building structure are fixed by the anchor bolt or the tableting pin, and the insulating material is attached to the fixing pin. Inserted into and fastened to and configured to provide insulation of the building The features.

At this time, according to an additional feature of the present invention, the fixing bracket is located in the center of the fixing bracket so that the building structure and the fixing bracket is fixed, by inserting an anchor bolt by fixing a hole on one side of the building structure, or tableting A fixing groove for fixing the fixing bracket and the building structure by using a tool to fix the fixing bracket and the building structure. The binding holder to be inserted or fastened to be fixed, and the binding groove is formed on one side of the binding holding to form a recess groove formed in the recess groove shape so as to prevent the separation of the binding holder and the mounting pin when the attachment pin is inserted or fastened to the binding holder. It is desirable to be.

In addition, according to an additional feature of the present invention, the attachment pin is configured in the form of a horizontal surface of the lower portion of the attachment pin, is fastened with a binding hold consisting of two corresponding to each other on one side of the upper surface of the fixing bracket fixedly supporting the attachment pin Fixed fixing and a fixing protrusion which is configured at one side of the fixing holding, respectively, and is fixed to the fixing groove configured at each side of the fixing holding when fastening the fixing holding and the fixing holding, and prevents the detachment of the attachment pin, and an arrowhead shape protrusion. It is formed, it is located in the center of the fixing holding the projection is inserted into the heat insulating material, it is preferably composed of a stone projection to secure the heat insulating material to the structure of the building.

In addition, according to an additional feature of the present invention, the insulation is preferably configured to selectively use expanded polystyrene (styro foam) or rigid polyurethane foam.

In addition, according to an additional feature of the present invention, when the surface of the structure to be installed under the fixing bracket to install the rigid polyurethane foam insulation is not partly uneven, or when the structure is inclined as a whole, the height of the building structure surface with insulation material It is preferable to comprise the spacer which further adjusts.

In addition, according to an additional feature of the present invention, it is preferable that the fastening holders located on the upper surface of the fixing bracket are configured to be symmetrical to each of four, and the fixing holders of the attachment pins are fastened to the four fastening holders.

According to a second aspect of the present invention for achieving the above object, in the dry method for attaching a heat insulating material consisting of a heat insulating material, a fixing bracket, a mounting pin to provide a building structure and a fixed and building heat insulating material to the building structure, for fixing The first hole is fixed to the fixing groove and the building structure located in the center of the bracket by inserting the anchor bolt from the upper side of the fixing bracket through the fixing groove, or by fixing the tableting pins to fix the fixing bracket and the building structure. fair; Rotating the rotary projection of the mounting pin clockwise or counterclockwise with the fastening holder located on the upper surface of the fixing bracket, fastening the mounting pin to the fixing bracket so that the fixing groove of the fixing bracket and the fixing pin of the fixing pin are completely fixed. 2 process; And a third step of fastening the rigid polyurethane foam insulation to the fixing holder, which is the bottom of the attachment pin, completely into the upper surface of the wedge protrusion composed of the arrowhead-shaped protrusion formed on the center of the attachment pin to fasten the attachment pin and the insulation. It is to provide a dry method for attaching a heat insulating material comprising a; to a building structure.

At this time, according to an additional feature of the present invention, in the first step, when the surface of the structure on which the heat insulating material is to be installed is partially uneven, or the structure is inclined as a whole, it is necessary to correct the height on the surface of the structure by the heat insulating material. It is preferably configured to further comprise the step of adjusting the height between the fixing bracket and the structure by using.

In addition, according to the additional feature of the present invention, the wedge is preferably configured to be able to vary the configuration of the wedge protrusion in the form of a two-stage or three-stage lattice according to the use of the heat insulating material.

According to an embodiment of the present invention, a fixing member for attaching an insulating material composed of expanded polystyrene (styro foam) or a rigid polyurethane foam to a building structure and a dry method using the same do not use an adhesive when attaching the insulating material to a building structure. Instead, it is fixed to the structure of the building by using an attachment pin and a fixing bracket, and by installing a rigid polyurethane foam insulation material on the attachment pin, the insulation material composed of foamed polystyrene (styrofoam) or rigid polyurethane foam is installed. Reliable attachment strength required when attempting to attach to the core can be ensured.

In addition, the insulation made of foamed polystyrene (Styrofoam) or rigid polyurethane foam enters relatively easily, but on the contrary, when trying to pull it out again, there are arrowhead shaped projections on the surface of the attachment pin, which makes it difficult to fall back due to the elasticity and friction of the foam itself. Once installed, it has a certain adhesive force, can be installed quickly at a time, and can suppress pollution to indoor and air environment without using adhesive.

In addition, when attaching the insulation made of foamed polystyrene (Styrofoam) or rigid polyurethane foam to the structure of the building, by attaching the rigid polyurethane foam insulation to the installation structure by using the attachment pin at one time, the attachment pin in the installation position The fixing bracket can be firmly installed by anchor bolts or tableting pins to structures such as walls and slabs of buildings.

In addition, between the fixing bracket and the structure of the building, when the structure is not flat or inclined, the spacer is used to level the insulation made of foamed polystyrene (styrofoam) or rigid polyurethane foam. It can be maintained, and can be installed in a dry method by attaching a rigid polyurethane foam insulation to the structure of the building at a time using a fixing bracket and attachment pins.

In addition, by inserting the bottom plate rotating projection portion of the mounting pin on the surface of the fixing bracket, to provide a convenience holder and efficiency of construction by constructing a fixing holder that is a projection for fixing the mounting pin again to the fixing bracket firmly installed in the structure of the building Can be.

In addition, the attachment pin has a wedge shape that is easy to insert into the insulation made of foamed polystyrene (Styrofoam) or rigid polyurethane foam, and has an arrowhead-shaped protrusion on the surface to insert into the foamed polystyrene (Styrofoam) or rigid polyurethane foam insulation If the shape is difficult to remove again, it can ensure the ease of construction and stability after construction.

In addition, it is possible to vary the shape of the fixing bracket and the attachment pins can be applied to various modifications of the internal configuration according to the characteristics of the building fixture and foam polystyrene (Schiro foam) or rigid polyurethane foam insulation.

1 is a plan view and a cross-sectional view showing the configuration of the fixing bracket of the fixing member according to the present invention
Figure 2 is a cross-sectional view showing the configuration of the attachment pin of the fixing member according to the present invention
3 is a plan view showing the configuration of the attachment pin of the fixing member according to the present invention
Figure 4 is an assembled state of the fixing bracket and the mounting pin of the fixing member according to the present invention
5 to 7 is a view showing the configuration of the fixing bracket and the attachment pin as another embodiment according to the present invention
8 is a block diagram showing a dry method of the heat insulating material according to the present invention.
9 is a flow chart for installing the dry method of the heat insulating material according to the invention
10 is a cross-sectional view installed by the dry method of the heat insulating material according to the present invention

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

The fixing member for attaching the heat insulating material composed of expanded polystyrene (styro foam) or rigid polyurethane foam according to the present invention to the building structure is largely composed of a heat insulating material 10, a fixing bracket 20, the attachment pin 30.

The heat insulating material 10 may be selectively used to prevent the thermal insulation of the building for cold protection and room temperature, consisting of expanded polystyrene (styro foam) or rigid polyurethane foam.

Hereinafter, the present invention will be described in detail with respect to the configuration and operation of the present invention based on the rigid polyurethane foam insulation (10). The expanded polystyrene (Styrofoam) insulation according to the invention is also constructed and operated by the same procedure as the rigid polyurethane foam insulation (10).

Attached Figure 1 relates to the configuration of the fixing bracket to look at the detailed operation and configuration, the fixing bracket 20 is one side of the building structure 40 so that the heat insulating material 20 and the attachment pin 30 is fixed and supported. Secure it by inserting or driving anchor bolts or tableting pins.

The fixing bracket 20 is composed of a fixing groove 22, the binding holder 24, the binding groove 26. The fixing groove 22 is positioned at the center of the fixing bracket 20 to fix the building structure 40 and the fixing bracket 20 to a hole in one side of the building structure 40 by anchor bolts 26. ) By inserting or fixing, or by using a tableting tool to drive the tableting pin 26 to install the fixing bracket 20 and the building structure 40 to be fixed.

The binding holder 24 is formed in two symmetrical with respect to each other on one side of the upper surface of the fixing bracket 20, after the fixing bracket 20 and the building structure 40 is fixedly installed, the attachment pin 30 is inserted or It is configured to be fastened and fixed.

At this time, the center of the attachment pin 30 is located above the fixing groove 22 has a structure in which the building structure 40, the fixing bracket 20 and the attachment pin 30 are stacked.

The binding groove 26 is configured at one side of the binding holder 24 to prevent separation of the binding holder 24 and the attachment pin 30 when the attachment pin 30 is inserted into or coupled to the binding holder 24. It is preferable to be configured in the form of recessed grooves.

On the other hand, the spacer 50 is located below the fixing bracket 20, the surface of the structure on which the rigid polyurethane foam insulation 10 is to be partially uneven, or the structure is inclined as a whole, the building structure 40 as a heat insulating material When height is to be corrected on the) surface, the fixing bracket 20 is installed with the spacer 8 having the height to be adjusted between the fixing bracket 20 and the structure. This provides the same effect as part of the traditional wet process where the adhesive is partially thickened and corrected.

The spacer 50 may be made of polyvinyl chloride (PVC) or rubber.

2 to 3 attached to the configuration of the attachment pin 30, the detailed configuration of the fixing hold 32, fixing projections 34, the projections 36 are integrally configured to look at the detailed operation,

The fixing pin 30 is fixed to the fixing bracket 20 and the building structure 40 by anchor bolts or tableting pins, and then inserted or fastened on the fixing bracket 20 and the rigid polyurethane foam insulation ( 20) It is a device that is firmly fixed and laid so as not to fall out.

The fixing holder 32 is configured in the form of a horizontal surface of the lower portion of the attachment pin 30, and is fastened with the binding holder 24 consisting of two corresponding to each other on one side of the upper surface of the fixing bracket 20 is the attachment pin ( 30) is fixedly supported.

The fixing protrusions 34 are respectively configured at one side of the fixing holder 32 to be seated in the binding grooves 26 respectively formed at one side of the fixing holder 24 when the fixing holder 24 and the fixing holder 32 are fastened to each other. Is configured to prevent the departure of the fixed attachment pin (30).

The wedge 36 is formed of an arrowhead-shaped protrusion, is located above the center of the fixed holding 32, the projection is inserted into the hard polyurethane groove insulation 10, the hard polyurethane foam itself Rigid polyurethane foam insulation is firmly fixed to the structure of the building by the elasticity and frictional force that is present, and the arrowhead-shaped projection prevents detachment.

As shown in FIG. 4, the fixing bracket 20 and the attachment pin 30 are fastened as shown in FIG. 4. The fixing holder 32 of the attachment pin 30 has an upper surface of the fixing bracket 20. By rotating clockwise to the binding holder 24 located in the fixing projections 34 of the attachment pin 30 and the binding groove 36 of the fixing bracket 20 are fastened to the fixing bracket 20 and the attachment pin 30. ) Is firmly fixed.

On the other hand, as another embodiment of the present invention, as shown in the configuration of Figure 5 to Figure 7 attached to the fastening holder 24 located on the upper surface of the fixing bracket 20 can be configured to be symmetrical to each of four, four The fixing holder 32 of the attachment pin 30 to the binding holder 24 may be configured to rotate by rotating in the clockwise direction as described above.

As described above, when the fixing holder 32 is inserted into the four fastening holders 24 in a clockwise direction, the fixing protrusions 34 of the attachment pins are seated in the binding grooves 36 of the fixing bracket 20. The fixing bracket 20 and the attachment pin 30 may be configured to be firmly fixed.

Referring to Figures 8 to 10 attached through the configuration of the fixing member for attaching the rigid polyurethane foam insulation to the building structure according to the present invention as described above, the dry process method and detailed procedures are as follows.

First, the anchor bolt 26 is formed on the fixing bracket 20 through the fixing groove 22 by drilling a hole in one side of the fixing groove 22 and the building structure 40 located at the center of the fixing bracket 20. Insertion or fixation, or by fixing the tableting pin 26, the fixing bracket 20 and the building structure 40 is installed to be fixed (see step S10).

On the other hand, when the surface of the structure on which the rigid polyurethane foam insulation 10 is to be installed is partially uneven, or when the structure is inclined as a whole and the height is to be corrected on the surface of the structure by the heat insulating material, it is directly between the fixing bracket 20 and the structure. Add as much spacer 50 as the height of the job and install the fixing bracket 20 (see step S20).

Thereafter, the attachment pin 30 is fastened to the fixing bracket 20, and the rotation protrusion 32 of the attachment pin 30 is rotated clockwise by the binding holder 24 positioned on the upper surface of the fixing bracket 20. The fastening groove 26 of the fixing bracket 20 and the fixing protrusion 34 of the attachment pin 30 are completely fastened (see step S30).

Meanwhile, in the above procedure, the fixing bracket 20 and the attachment pin 30 may be selectively configured so that the binding holder 24 and the rotation protrusion 32 may be rotated in a counterclockwise direction.

After the above procedure is completed, the fixed holding the hard polyurethane foam insulation (10) on the upper surface of the attachment pin 30 on the upper surface of the projection projection 36 composed of arrowhead-shaped protrusions formed on the center of the attachment pin 30 Push in to install until it completely reaches (32) (see step S40).

At this time, the arrowhead shaped projections 36 on the surface of the attachment pin 30 are embedded in the rigid polyurethane foam insulation 10, and in addition, the rigid polyurethane foam has elasticity and frictional force that the rigid polyurethane foam itself has. The insulation is firmly fixed to the structure of the building.

On the other hand, the above-mentioned projections 36 may be a multi-stage configuration of the projection shape and configuration according to the construction method of the rigid polyurethane foam insulation (10). In addition, it is possible to diversify the configuration of the protrusions 36 into a lattice form in the form of a two-stage or a three-stage.

In accordance with the dry method described above is shown in Figure 9 step by step the installation process by pressing the rigid polyurethane foam insulation (10) by pressing the installation pin 30 at a time.

Figure 10 shows a cross-sectional view of the installation of the rigid polyurethane foam insulation 10 to the attachment pin 30, the size of the attachment pin 30 is the size and thickness of the rigid polyurethane foam insulation or required adhesion strength It depends on, and the number of use per area of the rigid polyurethane foam insulation should be used according to the attachment strength value that one attachment pin 30 can support.

Although the contents of the present invention have been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art may realize various modifications and other equivalent embodiments therefrom. I will understand. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

10: insulation 20: fixing bracket
22: fixing groove 24: binding hold
26: binding groove 30: attachment pin
32: fixing hold 34: fixing protrusion
36: stone protrusion 40: building structure
50: spacer

Claims (10)

delete Insulation material consisting of insulation material, fixed bracket, and attachment pin, foamed polystyrene (styro foam) or rigid polyurethane foam, which has low thermal conductivity and is fixed and attached to building structure for insulation of cold protection and room temperature inside the building; A fixing bracket for inserting or driving an anchor bolt or a tableting pin on one side of the building structure so that the attachment pin is fixed and fixed, and the fixing bracket and the building structure are fixed by the anchor bolt or the tableting pin, and then the fixing bracket In the fixing member for inserting or fastening from the top and the attachment pin and the heat insulating material is fastened to the fixing bracket is inserted and fastened to the attachment pin to attach the heat insulating material to the building structure to provide insulation of the building,
The fixing bracket is
Located in the center of the fixing bracket so that the building structure and the fixing bracket is fixed, by fixing the anchor bolt by inserting a hole in one side to the building structure, or by fixing the tableting pin using a tableting tool fixed bracket and building structure Fixing groove to be fixed,
A binding hold is formed in two pieces so as to be symmetrical with each other on one side of the upper surface of the fixing bracket, and the fixing pin is inserted or fastened after the fixing bracket and the building structure are fixed and installed, and
Fixed to attach the heat insulating material to the building structure, characterized in that the mounting pin is formed on one side of the binding holder consisting of a binding groove formed in the recess groove to prevent the attachment pin and the detachment of the mounting pin when inserted or fastened to the binding holder. absence.
delete The method of claim 2,
The attachment pin,
A fixing holder configured to have a horizontal surface shape of a lower portion of the attachment pin and fastened to two binding holders corresponding to each other on one side of an upper surface of the fixing bracket to fix and support the attachment pin;
Fixing protrusions respectively configured on one side of the fixing holder and seated in the fixing grooves respectively configured on the fixing holding side when the fixing holder and the fixing holder are fastened to prevent the detachment of the attachment pin;
It is formed of an arrowhead shaped projection, located in the center of the fixing holding the projection is inserted into the interior of the rigid polyurethane groove insulation, the projections for firmly fixing the insulation to the structure of the building; Fixing member for attaching insulation to the building structure.
delete The method of claim 4, wherein
Fixing member for attaching the insulating material to the building structure, characterized in that configured to be symmetrical to each of the four binding holders located on the upper surface of the fixing bracket, the fixing holding of the attachment pin to the four binding holder.
Dry method of attaching insulation to building structure with low thermal conductivity and consisting of insulation material, fixing bracket, and attachment pin for fixing and attaching to building structure. To
Holes are fixed in one side of the fixing bracket and the building structure located in the center of the fixing bracket, and the anchor bolt is inserted into the fixing bracket from the upper side of the fixing bracket through the fixing groove, or the fixing bracket and the building structure are fixed by driving the tableting pin. First process;
Rotating the rotary projection of the mounting pin clockwise or counterclockwise with the fastening holder located on the upper surface of the fixing bracket, fastening the mounting pin to the fixing bracket so that the fixing groove of the fixing bracket and the fixing pin of the fixing pin are completely fixed. 2 process; And
And a third step of fastening the insulating material to the fixing holder, which is the bottom of the attachment pin, by fastening the insulating material on the upper surface of the wedge protrusion composed of the arrowhead-shaped protrusion formed on the center of the attachment pin to fasten the attachment pin and the heat insulating material. Dry method for attaching a heat insulator to the building structure, characterized in that configured.
The method of claim 7, wherein
Wherein the insulating material is a dry method for attaching the insulating material to the building structure, characterized in that configured to be used selectively foamed polystyrene (sponge foam) or rigid polyurethane foam.
The method of claim 7, wherein
In the first step,
If the surface of the structure on which the insulation is to be installed is partially uneven or the structure is inclined as a whole and the height of the structure must be corrected by the insulation, the step of adjusting the height between the fixing bracket and the structure using a spacer is adjusted. Dry method for attaching a heat insulator to a building structure, characterized in that it further comprises.
The method of claim 7, wherein
The wedge protrusion is a dry method for attaching a heat insulating material to a building structure, characterized in that configured to vary the configuration of the wedge protrusion in a two-stage or three-stage lattice form according to the use of the heat insulating material.

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