KR20210094342A - Fastener assembly and heat insulator construction method thereof - Google Patents

Abstract

The present invention relates to a fastener assembly component capable of substantially fixing a thick insulation material to an outer wall during Drivit construction, and an insulation construction method using the same. To achieve the purpose, according to the present invention, the fastener assembly component, which is a fastener assembly component for fixing an insulation material (1) placed adjacent to an installation target wall (W), includes: a wire member (110) having one end fixed to the wall (W) through a coupling member (120); and a fastener member (130) combined with the other end of the wire member (110) to press and fix the surface of the placed insulation material (1) toward the wall (W). According to the present invention, insulation materials having various thicknesses are connected through wire members and coupling members of the same standard, and the wire members and the coupling members are installed between joining surfaces of insulation materials adjacent to each other, and, as a result, construction can be facilitated, and also, a thermal bridge phenomenon can be prevented, which can lead to an advantage of improving the insulation performance of the insulation materials.

Description

Fastener assembly and heat insulator construction method using the same

The present invention relates to a method for constructing an insulating material, and more particularly, to a fastener assembly capable of firmly fixing a thick insulating material to a wall structure during dry bit construction, and a method for constructing an insulating material using the same.

In general, dry bit (EIFS) is a type of representative external insulation method that implies that it dries quickly. It is said to be over-constructed with

These dry bits are originally an external wall insulation system composed of insulating material, adhesive mortar, glass mesh fiber, and finishing materials, but the final finishing material (dry coat) is often called dry bits.

In addition, in actual construction sites, there are cases in which the entire dry-bit insulation system is not applied, but only a finishing material (dry coat) without an insulating layer for the simple aesthetics of a concrete wall or masonry wall.

However, most dry bit construction consists of insulating materials constituting the insulating layer, usually 600 ~ 1,200 mm in size and 20 ~ 150 mm thick, such as styrofoam, smoke (non-combustible), expanded polystyrene foam (flame retardant), etc., attached to the wall. Apply acrylic adhesive mortar to secure the adhesive strength of the insulation. Then, for the purpose of preventing cracks and reinforcing impact, a glass mesh fiber with strong tensile strength is attached, and the acrylic resin-based final finishing material is used with a trowel, spray gun, roller, brush, etc. to form a coating film with various patterns and textures. do.

The dry-bit exterior wall insulation system formed in this way has excellent insulation and soundproofing effects, so it increases indoor thermal efficiency.

On the other hand, recently, the number of eco-friendly energy houses that use the natural environment such as the light temperature of the sun and the wind or topography, such as a passive house, is gradually increasing. is being applied. For example, the thickness of the insulating material installed on the external wall is currently being constructed from 50 to 100 mm to 200 to 300 mm.

In this case, one of the biggest defects in the dry bit construction as described above is the detachment of the insulating material attached to the structural wall. In order to prevent the insulator from falling off, in the prior art, a plurality of fasteners holding the insulator are installed and then the finishing material is installed.

However, the conventional dry bit installation method using fasteners has a problem in that, as the thickness of the insulating material increases, fastener materials and various construction materials that are formed to be longer than 200 to 300 mm corresponding to the increase in thickness must be separately stored.

In addition, as a hole must be drilled from the insulating material to the outer wall structure for the installation of the fastener, the workability is deteriorated. In addition, since hardware such as fasteners are connected to the outside from the structure, there is a problem in that a heat bridge occurs through these gaps.

The present invention has been devised to solve the above problems, and an object of the present invention is to provide a fastener assembly capable of firmly fixing a thick insulating material to an external wall during dry bit construction and a method for constructing an insulating material using the same.

The fastener assembly of the present invention for realizing the object as described above is a fastener assembly for fixing heat insulating materials disposed adjacent to each other on a wall to be installed. absence; and a fastener member coupled to the other end of the wire member to press and fix the surface of the disposed insulator toward the wall surface.

In this case, the fastener member may include: a first fastener disposed at a corner portion of the heat insulating material; and a second fastener disposed on the upper and lower sides or the left and right sides of the insulating material.

In addition, the second fastener may be longer than the first fastener.

In addition, the first fastener and the second fastener are characterized in that at least one fastening hole is provided so as to fix the other end of the wire member in a knotting manner after fitting.

In addition, the fastening member, characterized in that the screw is screwed to the wall surface.

In addition, it is characterized in that one end of the wire member is provided with a ring portion so as to be caught and fixed to the head of the fastening member.

A method for constructing an insulating material using a fastener assembly, the method comprising: attaching a standard insulating material to an installation target wall (W); installing and fixing fastening members each having one end of the wire member connected to the edge of the attached heat insulating material and to the wall where the upper and lower or left and right sides are positioned; adjoining another heat insulator in the vertical or left and right directions of the attached insulator with the installed wire member interposed therebetween; fitting a fastening hole of a fastener member to the other end of the wire member; and fixing the position of the fastener member by knotting the other end of the wire member while pulling the other end of the wire member and at the same time pressurizing the fitted fastener member to the surface of the insulating material; It is characterized in that it comprises a.

In this case, the heat insulating material is characterized in that it is attached to the wall surface via an adhesive mortar.

The present invention according to the above configuration has a wire member and a fastening member of the same standard, there is an insulating material formed in various thicknesses, and the wire member and the fastening member are installed between the bonding surfaces of the adjacent insulating materials, so construction is easy In addition, it is possible to prevent a thermal bridge phenomenon, and accordingly, there is an advantage in that the thermal insulation performance of the insulator can be improved.

Hereinafter, the configuration and operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Here, in adding reference numerals to the components of each drawing, it should be noted that only the same components are marked with the same reference numerals as much as possible even though they are displayed on different drawings.

1 is a construction state diagram of an insulating material using a fastener assembly according to the present invention, FIG. 2 is a view showing a fastener assembly according to the present invention, FIG. 3 is an exploded perspective view of FIG. 1, and FIG. 4 is a fastener according to the present invention It is a side cross-sectional view showing the construction state of the insulation material using the assembly.

Referring to FIG. 1 , the fastener assembly 100 according to a preferred embodiment of the present invention, which can firmly fix the insulators 1 disposed adjacent to each other on the wall W to be installed, includes the wall W ) of the wire member 110 having one end fixedly installed via the fastening member 120, and the surface of the insulating material 1 coupled to the other end of the wire member 110 by pressing and fixing to the wall surface (W) side It is characterized in that it comprises a fastener member (130).

Hereinafter, the configuration of the present invention will be described in detail.

Referring to FIG. 2 , the fastener member 130 includes a first fastener 131 disposed at a corner portion of the insulator 1 , and a second fastener 131 disposed at a junction portion of upper and lower sides or left and right sides of the heat insulator 1 . It may include a fastener 133 .

In this case, the first fasteners 131 are selectively disposed on the surface of the edge of the insulator 1 adjacent to each other, and the first fastener 131 is disposed adjacent to the edge of the insulator 1 ~ 4 sheets of insulating material (1) are pressed and fixed to the wall (W) side at the same time.

In addition, the second fasteners 133 are disposed on the upper and lower or left and right sides of the insulator 1, preferably at the left and right side joining portions where the vertical direction is longer than that of the horizontal. The second fastener 133 presses and fixes the surface of the junction portion of the insulating material 1 formed longer than the edge portion toward the wall W side.

Here, preferably, the second fastener 133 may be longer than the first fastener 131 . That is, as the first fasteners 131 are installed at the corners of the insulator 1 disposed adjacent to each other, the body may be formed of a square plate body. On the other hand, the second fastener 133 has a body longer than that of the first fastener 131 as it is installed on the joint surfaces of the upper and lower or left and right sides of the heat insulator 1 disposed adjacently.

In this case, the second fastener 133 may be fastened to at least one of the bonding surfaces of the insulating material 1 . Alternatively, of course, a plurality of pieces may be installed to be spaced apart along the longitudinal direction of the joint surface of the insulator 1 . In the present invention, an example of a case in which one second fastener 133 is installed on the bonding surface of the insulator 1 will be shown and described.

Referring to FIG. 3 , the fastener member 130 having the above structure is installed through the fastening member 120 and the wire member 110 . In this case, the fastening member 120 may be made of a screw that is screwed to the wall (W) structure made of wood. Of course, the present invention is not limited thereto, and when the wall surface is formed of a concrete structure, the fastening member 120 may be modified and applied to an anchor or other various types embedded in the wall surface. In the present invention, an example of the case in which the fastening member 120 is made of screws will be shown and described.

In this case, the fastening member 120 includes a screw part 121 that is usually fastened to the wall surface W, and a head part ( 123) are included.

And one end of the wire member 110 is provided with a ring-shaped ring portion 111 so as to be caught and fixed to the head 123 of the fastening member 120. That is, as the screw portion 121 of the fastening member 120 is inserted through the ring portion 111 and caught in the head 123 , the wire member 110 and the fastening member 120 are integrally connected. When the wire member 110 and the fastening member 120 are connected in this way, the screw part 121 is fastened to the wall surface, thereby enabling the fixed installation of the wire member 110 on the wall surface W.

Meanwhile, at least one, preferably a pair of fastening holes H, are formed through the fastener member 130 to fix the other end of the wire member 110 . When explaining the process of installing and fixing the fastener member 130 having this structure, first, the other end of the wire member 110 having one end fixed to the wall surface W via the fastening member 120 is connected to the fastener member 130. It is fitted into the fastening hole (H) formed through the center of the body. Then, as shown in FIG. 4 , the other end of the wire member 110 is knotted in a state where the fastener member 130 fitted to the other end of the wire member 110 is pressed and adhered to the surface of the insulator 1 . The position of the fastener member 130 is fixed. Here, preferably, the wire member 110 is tightly bound by being alternately inserted into the pair of fastening holes (H) in an S-twisting method to prevent loosening.

In this case, in the present invention, a method of knotting the other end of the wire member 110 is used for fixing the fastener member 130, but the present invention is not limited thereto. 110) can be fixed to the other end, of course.

Also, in the present invention, an example of a case in which a pair of fastening holes H is formed in the fastener member 130 has been shown and described, but the present invention is not limited thereto and a plurality of fastening holes H according to the size of the fastener member 130 ) may be formed to be spaced apart from each other at regular intervals, of course.

Next, a description will be given of a process for constructing an insulating material using the fastener assembly according to the present invention having the above configuration.

First, attach the insulating material (1) as a reference to the installation target wall (W). In this case, an appropriate amount of adhesive mortar is applied to one surface of the insulating material 1 that is in contact with the wall surface W.

When the insulating material 1 is attached to the wall surface W through the bonding mortar, the wire member 110 is connected to the wall surface W where the corners of the insulating material 1 and the upper and lower, left and right sides are located. The plurality of wire members 110 are respectively installed and fixed in such a way that the 120 is driven.

Then, another insulating material (1) is attached adjacently in the vertical or left and right directions of the attached insulating material (1) with the installed wire member (110) interposed therebetween. In this case, the heat insulator (1) disposed adjacently is also in a state where the adhesive mortar is applied.

The other ends of the wire members 110 connected to the corners and upper, lower, left and right sides of the insulating material 1 are respectively fitted into the fastening holes H provided in the first and second fasteners 131 and 133 . Then, while pulling the other end of the wire member 110, the first and second fasteners 131 and 133 fitted together are pressed and pressed to the surface of the insulator 1, and the other end of the wire member 110 is knotted. If it is built, the fixed installation of the fastener member 130 is completed.

When the attachment of the plurality of insulators 1 to the wall W to be installed is completed through this construction process, a mesh (not shown) is attached to the surface of the insulator 1 via an adhesive mortar. And when the finishing material is finally applied to the surface of the mesh, the construction of the insulating material 1 according to the present invention is completed.

In the method for constructing an insulating material using the fastener assembly 100 according to the present invention as described above, the insulating material 1 formed in various thicknesses with the wire member 110 and the fastening member 120 of the same standard can be constructed. In this case, the wire member 110 and the fastening member 120 are installed in such a way that they are interposed between the bonding surfaces of the heat insulators 1 disposed adjacent to each other without penetrating the heat insulator 1 , so that construction is easy.

In addition, since there is no additional hardware connected from the wall surface W to the fastener member 130, the reinforcing structure by the wire member 110 can prevent the thermal bridge phenomenon. Accordingly, it is possible to improve the heat insulating performance of the heat insulating material (1).

In the above, the present invention has been illustrated and described with specific preferred embodiments, but the present invention is not limited to the above-described embodiments and various changes and modifications are possible without departing from the technical spirit of the present invention.

Claims (4)

In the fastener assembly for fixing the heat insulating material (1) disposed adjacent to each other to the installation target wall (W),

a wire member 110 having one end fixedly installed on the wall surface W via a fastening member 120; and

and a fastener member (130) coupled to the other end of the wire member (110) to press and fix the surface of the disposed insulator (1) toward the wall surface (W).
According to claim 1,

The fastener member 130 is

a first fastener 131 disposed at a corner portion of the heat insulating material 1; and

and a second fastener (133) disposed on the upper and lower sides of the heat insulating material (1) or at the joint portion of the left and right sides.
3. The method of claim 2,

The second fastener 133,

The fastener assembly, characterized in that it is formed longer than the first fastener (131).
4. The method of claim 2 or 3,

In the first fastener 131 and the second fastener 133,

and a fastening hole (H) for fixing the other end of the wire member (110) in a knotting manner after fitting the other end.