KR101062542B1 - Large Composite Stone Adhesive Construction Method - Google Patents

Abstract

The present invention relates to a large composite stone adhesive construction method, the purpose is to bond the composite stone board to the wall by high frequency induction heating using a metal fixture to increase the ease of construction, shorten the stone adhesion time, improve the construction properties It is to provide a large composite stone adhesive construction method that can be made.

The present invention is a metal fixture installation step of installing a metal fixture having an adhesive layer on the surface of the circular plate on the construction wall surface; A level adjusting step of adjusting the level (height) of the metal fixture circular plate by adjusting the level nut of the installed metal fixture; A composite stone positioning step of contacting the rear surface of the large composite stone to the circular plate of the metal fixture whose level (height) is adjusted; Bonding the large composite stone to the metal fixture by melting the adhesive layer due to the heat generation of the metal fixture by irradiating high frequency radio waves to the metal fixture located at the rear of the large composite stone by a high frequency bonding machine in front of the large composite stone having the position set It is intended to include.

Stone, natural stone, high frequency, adhesion, composite stone

Description

Adhering construction method for large sized complex stone panels

The present invention relates to a large composite stone adhesive construction method, to a large composite stone adhesive construction method capable of firmly bonding a large composite stone consisting of a non-combustible board and stone board to a metal fixture installed on the construction wall by high frequency induction heating will be.

Generally, wood, gypsum board, and stone are used as materials for walls, ceilings, and floors in buildings. However, wood is weak in moisture and easily deformed. Since harmful components are contained in the human body, there is a problem of contaminating soil and groundwater during waste treatment.

On the contrary, the stone is not corroded, has high strength and hardness, is clean and easy to clean, and is widely used as a building interior material. Such a stone is used as a floor or wall of a building by cutting the granite thinly.

In particular, as income levels rise and consumers' awareness of interiors increases, interest in building interior materials is increasing. Accordingly, the frequency of using decorative materials applied with natural stones such as marble or granite is increasing.

However, the stone is expensive and too heavy, there is a problem that is very difficult to handle, especially the strength and hardness is strong, but because of weak brittleness, there was a problem easily broken by an external impact. In addition, if the thickness of the building interior material made of stone to facilitate the handling, there is a problem that easily broken or broken by an external impact even when transporting or storing such building interior materials or attached to the building.

In addition, the stone as described above, after installing the MDF, plywood, etc. on the construction wall surface to smooth the wall surface, by applying a bond to it to attach the stone, the construction process is complicated, and must prepare separate parts, construction Costly, very difficult and uncomfortable construction, not only takes a lot of construction time, but also because the bond used to instantaneously harden, there was a problem that the performance of the bond during construction is a factor of defect repair.

In addition, since the epoxy-based adhesive agent is used as a bond for the attachment of the stone, the environmentally friendly diameter is reduced, the front surface of the stone is bonded to the MDF, plywood, staining may occur due to the construction of the adhesive, depending on the skill of the operator There was a problem that a deviation occurs in the construction quality.

In addition, since the entire surface of the stone is bonded to the entire surface by the adhesive, it is almost impossible to repair the stone generated when the defect occurs, there was a problem that affects another stone neighbors when the separation of some stones.

In addition, conventionally, in order to attach a stone, MDF or plywood is first attached to the wall surface, but since the MDF and plywood cannot expect flame retardance at all in their physical properties, flames are easily transferred when a fire occurs, resulting in large-scale accidents. Not only does it have a problem, but when it is burned by the characteristics of the material composition or the film of PVC or the like attached to the surface, it generates a large amount of smoke and toxic gas when it is burned, which causes a fatal damage to human life in case of fire. There were various problems.

The present invention is to solve the above object, the object is to bond the composite stone board to the wall by high-frequency induction heating using a metal fixture to increase the ease of construction, shorten the stone adhesion time, improve the workability It is to provide a large composite stone adhesive construction method that can be made.

Another object of the present invention is to meet the eco-friendly needs of residents through the use of a minimum of adhesive, to maintain a consistent construction quality by dry construction method that is not coated with an adhesive, through which construction without restriction on environmental factors such as season It is to provide a large composite stone adhesive construction method that can be easily.

Another object of the present invention is to install a composite stone bonded to the stone board on the non-combustible board, it is possible to maintain the characteristics of the stone as it is, to provide light weight and excellent durability, improve the handleability of the parts, and at the same time, cost It is to provide a large composite stone adhesive construction method that can reduce.

Another object of the present invention is to adjust the level of the metal fixture to which the composite stone is bonded, it is easy to adjust the smoothness of the composite stone to be installed, thereby providing a large composite stone adhesive construction method that can be equipped with a beautiful aesthetic. It is.

Another object of the present invention is to facilitate the repair and maintenance of defects through the solid adhesion of the composite stone to the metal fixture, and to provide a large composite stone adhesive construction method capable of partial replacement of the damaged composite stone will be.

Another object of the present invention is to insulate the composite stone from the wall surface, to protect the composite stone and residents from environmental factors such as moisture, temperature, vibration, noise, etc. Large composite stone adhesive construction method that can extend the life To provide.

The present invention is a metal fixture installation step of installing a metal fixture having an adhesive layer on the surface of the circular plate on the construction wall surface;

A level adjusting step of adjusting the level (height) of the metal fixture circular plate by adjusting the level nut of the installed metal fixture;

A composite stone positioning step of contacting the rear surface of the large composite stone to the circular plate of the metal fixture whose level (height) is adjusted;

Bonding the large composite stone to the metal fixture by melting the adhesive layer due to the heat generation of the metal fixture by irradiating high frequency radio waves to the metal fixture located at the rear of the large composite stone by a high frequency bonding machine in front of the large composite stone having the position set It is intended to include.

In addition, after the bonding step, and further comprises a readjustment step of measuring the level of the bonded large-scale composite stone, and re-adjust the level nut of the metal fixture when an abnormality occurs.

At this time, the large composite stone is a stone board is bonded to the surface of the non-combustible board is integrated. In addition, in the large composite stone, the non-combustible board and the stone board have a thickness ratio of 1: 0.2 to 0.5, and the overall thickness is 8 to 15 mm.

As described above, the present invention is made of a dry construction method of adhering a large stone board by high-frequency bonding, which is easy to construct, shorten the construction time, and ensures a consistent construction quality during construction. Regardless, it can be installed under the same quality.

In addition, in the present invention, the adhesive is applied only to the surface of the circular plate of the metal fixture, so that the stain caused by the adhesive does not occur on the surface of the large composite stone after construction.

In addition, the present invention is a large stone board is composed of a non-combustible board and stone board, while having the characteristics of the stone, at the same time equipped with light weight and durability, it is possible to reduce the cost.

In addition, the present invention is to directly install a metal fixture on the wall, and to adhere a large stone board to the metal fixture, MDF or plywood for maintaining the smoothness is not used, thereby suppressing the generation of secondary waste, in case of fire Maximum safety for occupants.

In addition, the present invention is because the large stone board is fixed by the partial bonding rather than the front bonding by the adhesive, it is easy to replace and repair the large stone board damaged when a defect occurs, it is easy to adjust the level of the large stone board to be bonded. have.

In addition, the present invention is because the epoxy-based adhesives used in the prior art is not used, it is environmentally friendly, there is an effect of providing a comfortable indoor environment to the occupants.

In addition, the present invention is to adjust the level by the bolt / nut method, it is possible to easily adjust the level of the large stone board regardless of the smoothness of the wall, even if not skilled workers adhesive construction of large stone board through the level adjustment easily This is possible.

In addition, the present invention is a high-frequency adhesive to the large stone board and the metal fixture by the polyolefin-based hot melt adhesive, there is a lot of effects, such as can be firmly bonded to the large stone board and the metal fixture by similar adhesion and complete adhesion.

1 is a block diagram showing a process according to the invention, Figure 2 is an exemplary view showing a configuration according to the invention, Figure 3 is an exemplary view showing a configuration of a composite stone according to the invention, Figure 4 Exemplary view showing the configuration of the leveling metal fixture according to the invention, Figure 5 shows an exemplary view showing a composite stone construction according to the present invention,

The present invention is a metal fixture installation step of installing a metal fixture 10 having a bonding layer 15 on the surface of the circular plate 11 on the construction wall surface 100; A level adjusting step of adjusting the level (distance between the construction wall surface and the circular plate) of the metal fixture circular plate 11 by adjusting the level nut 12 of the installed metal fixture 10; A composite stone positioning step of contacting the rear surface 32 of the large composite stone 30 to the metal fixture circular plate 11 of which the level is adjusted; The metal fixture 10 is irradiated with radio frequency radio waves to the metal fixture 10 located in the rear of the large composite stone 30 by the high-frequency adapter 20 from the front surface 31 of the large composite stone 30 is set to the position The adhesive step of adhering the large composite stone to the metal fixture 10 by the melting of the adhesive layer by the heating of the.

In addition, after the adhesion step, further comprises a readjustment step of measuring the level of the bonded large composite stone 30, and readjustment the level nut 12 of the metal fixture when an abnormality occurs.

In addition, after the bonding step, the time-dependent change measurement step for measuring the change over time of the large composite stone (30).

In addition, the bonding step is located in the front 31 of the large composite stone 30 in close proximity to the high frequency adapter 20, the metal fixture is concealed in the back of the large composite stone by a magnetic magnet attached to the high frequency adhesive 20 Further comprising identifying a location of the.

The metal fixture installation step is to form an anchor hole 110 in the construction wall surface 100, insert the knife block 120 of the elastic material into the anchor hole 110 and then fasten the anchor bolt 13 by fastening , The level nut 12 of the metal fixture 10 is fastened to the fixed anchor bolt 13 by connecting. At this time, the circular plate 11 of the metal fixture is connected to the level nut 12 by the fixing bolt 14, the metal fixture 10 configured in this way up, down, left and right according to the design interval on the construction wall surface 100 A plurality of fixedly spaced apart by a predetermined distance.

The metal fixture 10 has an adhesive layer 15, a circular plate 11 having the adhesive layer 15 coated on one side and having a coupling groove 16 at the center thereof, and penetrating the coupling groove 16. The level nut 12 is fastened to the other side of the circular plate by the fixing bolt 14, that is, one side not provided with the adhesive layer 15, and one side is screwed to the other end of the level nut 12, and the other side is It is intended to include an anchor bolt 13 coupled into the anchor hole 110 of the construction wall surface.

The circular plate 11 is a coupling hole 17 for fastening the fixing bolt 14 is formed in the coupling groove 16, but is not particularly limited in size and shape, diameter 6-12cm, especially diameter 8 It is preferable to have a circular shape of ˜10 cm for improving the workability of the large-scale composite stone.

In addition, the circular plate 11 is made of a material resistant to corrosion, such as stainless steel, galvalume, and has a thickness of 0.8 mm to 0.6 mm. The circular plate made in this way is easy to identify the position of the metal fixture concealed on the back of the large composite stone by the magnetic magnet attached to the high-frequency adhesive machine (20).

The level nut 12 is to adjust the level of the circular plate of the metal fixture, and to install the circular plate 11 spaced apart from the construction wall surface so that the large composite stone 30 is insulated from the construction wall surface 100, one end Fixing bolts 14 are fastened to the anchor bolts 13 are fastened to the other end, respectively.

In addition, the present invention, as shown in Figure 6, the coupling groove 16 is formed in a semi-circular concave shape, the coupling hole 17 in the coupling groove is to be formed with a diameter larger than the diameter of the fixing bolt 14 When the coupling groove 16 and the coupling hole 17 are formed in this manner, the bolt head bottom surface 18 of the fixing bolt also has a convex shape corresponding to the shape of the coupling groove 16, and the level nut 12. The contact surface of may also be formed in a shape corresponding to the coupling groove 16 having a semicircular concave shape. That is, in the case of having such a shape, the shaft of the fixing bolt is provided to be movable in the coupling hole, even if the fixing bolt is out of the center of the coupling groove, the convex head bottom of the fixing bolt is tightly coupled to the coupling groove. Even if the anchor bolt is installed to be slightly inclined with respect to the construction surface without being orthogonal to the construction wall surface, the circular plate of the metal fixture can have a state parallel to the construction wall surface.

In addition, the metal fastener 10 made as described above, the fixing bolt 14 and the anchor bolt 13 is a male thread, the level nut 12 is provided with a female thread, the level nut 12 is a fixing bolt 14 It is integrated with the circular plate 11 by), when the level nut 12 is rotated, the level nut 12 and the fixing bolt 14 and the circular plate 11 is moved integrally. That is, the circular plate is moved by the rotation of the level nut to adjust the level.

In addition, the anchor bolt 13 is further installed in the anchor bolt 13 so that the loosening prevention nut 19 for preventing the level nut 12 from being loosened is positioned between the level nut 12 and the construction wall surface 100. It is.

The adhesive layer 15 is to bond the large composite stone 30 to the circular plate 11 of the metal fixture by high frequency induction heating, is formed by applying a hot melt adhesive, or the adhesive is bonded in a sheet state. In this case, the hot-melt adhesive is preferably a polyolefin hot-melt adhesive, the polyolefin hot-melt adhesive has the physical properties as shown in Table 1 below, and has a 1 ~ 2nm micro crystal structure therein do.

Table 1

Such a polyolefin hot melt adhesive bonds the metal fixture circular plate and the composite stone more firmly and integrally through pre-adhesion and full adhesion during high frequency induction heating. That is, the polyolefin hot-melt adhesive is 1 ~ 2nm micro crystal structure starts to dissolve in the reactivation temperature 60 ~ 100 ℃ range pre-adhesion of the composite stone and the circular plate, the micro crystal structure is uniform at 105 ℃ or more It is completely melted so that the composite stone and the circular plate are completely bonded.

The large composite stone 30 has a natural stone of the surface layer and the rear surface of one or more layers of non-combustible board 33, that is, magnesium board, ocher board, cement board, gypsum board, etc. are bonded to have an integrated shape.

At this time, the non-combustible board 33 and the stone board 34 is provided with a thickness ratio of 1: 0.2 to 0.5, and the total thickness (thickness of the large composite stone) is 8 to 15 mm.

The thickness ratio of the non-combustible board and the stone board is to maintain the light weight, handleability, strength as a building interior material, and the specificity of the stone. When the thickness of the stone board is thinner, there is a risk of breakage. Must be provided.

In addition, the large composite stone 30 is a composite stone of 300 이상의 300mm or more, the composite stone according to the present invention may be 300 ㅧ 2400mm. In addition, the composite stone according to the present invention can also be produced by attaching to a small size.

The level adjustment step is to adjust the level (distance between the construction wall surface and the circular plate) of the circular plate 11 of the metal fixture fixed to the construction wall surface 100 for adhesion of the large composite stone 30, the operator anchors The level of the circular plate is adjusted by rotating the level nut 12 fastened to the bolt 13.

In the positioning step of the composite stone, the back plate 32 of the large composite stone is contacted with the circular plate 11 of the metal fixture having the adhesive layer 15 to set the position of the large composite stone. At this time, the large composite stone to be installed is set in consideration of the horizontal and vertical relationship with the neighboring large composite stone, the positioning is preferably carried out in a pair of two people.

The bonding step is a step of fixing and fixing the large composite stone 30 to the circular plate 11 of the metal fixture through the adhesive layer 15 by the high frequency induction heating, the high frequency adhesive machine 20 to the large composite stone front surface 31 When placed in close proximity, the position relative to the circular plate 11 of the metal fixture concealed on the large composite stone back surface 32 by the magnetic magnet attached to the high frequency gluer 20 is identified. As such, when the position of the metal fixture circular plate is identified, the high frequency fusion is applied for 2 to 4 seconds using the high frequency bonding machine 20, and the adhesive layer is fused at a high frequency within a temperature range of 120 to 300 ° C. This is integrated. At this time, the adhesive layer is pre-bonded and completely bonded by high frequency induction heating.

The re-adjustment step is to measure the horizontal level of the large composite stone installed after the adhesive construction of the large composite stone 30, when abnormality occurs in the horizontal of the composite stone, separate the large composite stone from the metal fixture by the level nut After re-adjusting the level, the composite stone is re-bonded, or the level of the circular plate is readjusted by adjusting the level nut, and the composite stone is re-bonded by high frequency induction heating.

Such composite stone of the present invention is applied to interior and exterior building materials such as kitchen wall, entrance wall surface, porch wall surface, wedding wall surface and the like.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is an exemplary block diagram showing a process according to the present invention.

2 is an exemplary view showing a configuration according to the present invention

3 is an exemplary view showing the configuration of a composite stone according to the present invention

Figure 4 is an exemplary view showing the configuration of the leveling metal fixture according to the invention

5 is an exemplary view showing a composite stone construction according to the present invention

6 is an exemplary view showing a modified configuration according to the present invention

DESCRIPTION OF THE REFERENCE NUMERALS

(10): metal fixture (11): round plate

(12): Level nut (13): Anchor bolt

(14): fixing bolt (15): adhesive layer

(16): coupling groove (17): coupling hole

(18): Bolt head bottom (19): Loosen nut

20: high frequency bonding machine 30: large composite stone

(31): Front (32): Rear

(33): non-combustible board (34): stone board

(100): construction wall surface (110): anchor hole

Claims (7)

A construction method for bonding a large composite stone to the construction wall surface; A metal fixture installation step of installing a metal fixture having an adhesive layer on the surface of the circular plate on the construction wall; A level adjusting step of adjusting the level (distance between the construction wall surface and the circular plate) of the metal fixture circular plate by adjusting the level nut of the installed metal fixture; A composite stone positioning step of setting a position by contacting a rear surface of the large composite stone with a circular plate of the metal fixture having the level adjusted; And a bonding step of irradiating a radio frequency radio wave to a metal fixture positioned at the rear of the large composite stone by a high frequency jointer at the front of the composite stone having the position set to bond the molten adhesive layer by heat generation of the metal fixture. Large composite stone adhesive construction method. The method according to claim 1; After the bonding step, the re-adjustment step of measuring the level of the bonded large composite stone, and re-adjust the level nut of the metal fixture when an abnormality occurs, After the bonding step, the large-scale composite stone adhesive construction method further comprises a time-dependent change measuring step for measuring the change over time of the composite stone. The method according to claim 1; The bonding step further comprises the step of positioning the high frequency coupler in close proximity to the front of the large composite stone, and identifying the position of the metal fixture concealed on the back of the large composite stone by a magnetic magnet attached to the high frequency adhesive. Large composite stone adhesive construction method. The method according to claim 1; The metal fixture is an adhesive layer, The adhesive layer is coated on one side, the circular plate having a coupling groove in the center, A level nut fastened to another side of the circular plate on which the adhesive layer is not applied by the fixing bolt penetrating the coupling groove; One side is screwed to the other end of the level nut, the other side is a large composite stone adhesive construction method comprising an anchor bolt coupled into the anchor hole of the construction wall surface. The method according to claim 4; The coupling groove is formed in a semicircular concave shape, the coupling hole in the coupling groove has a diameter larger than the diameter of the fixing bolt, the bottom of the bolt head of the fixing bolt has a convex shape corresponding to the shape of the coupling groove, The contact surface of the level nut has a concave shape corresponding to the coupling groove large-scale composite stone adhesive construction method. The method according to any one of claims 1 to 3; The large composite stone is a large composite stone adhesive construction method characterized in that the surface of the natural stone and the back of the non-combustible board is integrated. The method according to claim 6; In the large-scale composite stone, the non-combustible board and the stone board has a thickness ratio of 1: 0.2 to 0.5, and a total thickness of 8 to 15 mm.

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