KR20110064350A

KR20110064350A - Stone junction type tile

Info

Publication number: KR20110064350A
Application number: KR1020090120898A
Authority: KR
Inventors: 강남석
Original assignee: 주식회사 세화스톤
Priority date: 2009-12-08
Filing date: 2009-12-08
Publication date: 2011-06-15

Abstract

PURPOSE: A stone joint type tile is provided to improve the aesthetic sense of outward appearance after laying tiles on the bottom by fixing a joint between a tile and a tile without a gap. CONSTITUTION: A stone joint type tile comprises: a tile portion(100) formed by processing native rock or artificial stone into a rectangular plate; a joint member(200) processed in the same rectangular plate as the tile portion to make one side attached to the bottom of the tile portion and the other side fixed to the bottom, and adhering and fixing the sides of the tile portion and the tile portions, and having plural clampers(210,220) projected integrally on a side wall of the joint member and engaged/fastened with the clamper of an adjacent joint member to be separable; and an adhesive layer(300) formed between the tile portion and the joint member to attach the tile portion and the joint member integrally.

Description

STONE JUNCTION TYPE TILE}

The present invention relates to a stone-bonded tile, and in detail, using natural or artificial stone that implements the pattern of natural stone as the finishing material of the interior floor surface, the manufacturing cost is reduced and the strength of the material is significantly strengthened compared to the existing, After installing the tile, the tile is installed on the floor by excluding the message to fill the gap between the tile and the tile, and the joints of the tile and the tile are closely adhered to each other without any gap, causing the aesthetic appearance of the floor surface after the construction. The present invention relates to a stone-bonded tile that can be greatly simplified in construction.

In general, the surface is exposed to the outside of the structure, such as the building inner wall, floor, etc. to finish the decoration so that the appearance is beautifully decorated. As a finishing material used in such a finishing work, various kinds are known. In particular, in the case of architectural stone, such as marble, granite can create a luxurious atmosphere along with natural beauty, and thus, the use of granite as an interior and exterior finishing material for building is increasing recently.

In the case of the finishing material using the stone as described above, it is usually produced in the form of a panel having a certain area through the surface processing such as polishing after taking an irregular shape gemstone from a stone mountain and cutting it into a relatively thin plate shape. In the construction thereof, the inner wall of the building is finished by installing the frame in a line or lattice using steel pipes on the inner wall of the building, and then mounting the stone panels up and down continuously. As such, when the wall is finished using the stone panel, the natural stone material is used, and thus the original texture of the stone can be used as it is, thus giving a relatively natural appearance and having excellent durability against wear and weathering. Although it is a relatively expensive material, it can be said to be one of the preferred materials for building finishing materials.

On the other hand, inside walls of buildings such as houses, officetels, and buildings, cement blocks or bricks are stacked and finished with cement mortar, and paint, wallpaper, tiles, wood, stone, etc., are needed by the worker by hand. It is common to be. However, in the case of using the stone processed natural stone as the finish as described above, in the case of natural stone, such as marble and granite, the product processed to a thickness of 10mm ~ 50mm is used as the finishing material of the inner wall of the building bar, natural stone itself processed into a plate When the impact is applied, there are disadvantages of cracking or breaking of debris, and due to the weight of natural stone itself, it is not suitable to work in high-rise buildings, and it has to be finished with artificial composite panels and artificial composite tiles, which are less expensive. . In addition, if necessary, there is a case in which the interior wall of the building is finished by using a stone processed to a certain thickness or more. In this case, the weight of the processed stone is heavy, resulting in a decrease in work efficiency as well as processing over a certain thickness. There is also a problem that the secondary burden of rising raw material prices of stone increases.

On the other hand, tiles are used a lot recently to finish the floor of the room. When the tile is installed on the floor, the gap between the tile and the tile joint is spaced at regular intervals, and the filling is completed by filling a message to fill the gap. In this case, the mage to be constructed is applied to the gap between the tile and the tile by opening the powder in a solvent, there is a problem that the cracking or cracking after a certain period of time to mess up the aesthetic appearance. In order to solve these problems, the above-mentioned problems were solved by injection molding a frame made of synthetic resin to apply a frame for filling the tile, so that the frame for padding between the tile and the tile was solved. In the case of aesthetics after construction has a disadvantage of falling, and above all, the work is cumbersome for construction and the secondary cost of the increase in the manufacturing cost of the stone-bonded tiles, and compared to the durability of the semi-permanent tiles due to chemical changes Since the frame for shortage has a short lifespan, there is a disadvantage that it is less suitable for tiles installed on the floor.

In order to solve the above problems, natural or artificial stone with natural stone pattern is used as finishing material of indoor floor, but manufacturing cost is reduced and the strength of material is strengthened as compared with the existing tile. After installing the tile on the floor by excluding the gap to fill the gap, the tile and the joints of the tile adhere closely without gaps, causing the aesthetics of the exterior of the floor after construction, and above all, the construction is much simpler than before. There is a need for the implementation of stone jointed tiles.

The present invention has been devised in view of the above, the object of the present invention is to use a natural stone or artificial stone implemented natural stone pattern as a finishing material of the interior floor surface, manufacturing cost is reduced and the strength of the material is strengthened compared to the existing To provide prefabricated stone jointed tiles,

Another purpose is to exclude the tile to fill the gap between the tile and the tile after the existing tile construction, and then install the tile on the floor surface, and the joints of the tile and the tile are closely contacted without gaps, so that the aesthetic sense of the appearance of the floor surface after construction It is to provide a stone-bonded tile is very simple construction compared to the existing.

In order to achieve the above object, the stone-joined tile according to the present invention includes a rectangular tile part processed by natural stone or artificial stone into a plate; One surface is attached to the lower surface of the tile portion and the other surface is fixed to the bottom surface is processed in the same rectangular plate shape as the tile portion, the joint member for tightly fixing the side of the tile portion and the tile portion; is configured to include.

A plurality of clampers protrude integrally with the joint member on the sidewall of the joint member, and the clamper formed on one joint member is configured to be engaged with the clamper of the adjacent joint member to be detachably engaged.

A plurality of clampers formed on the four sides of the joint member are spaced apart at regular intervals along the longitudinal direction, each clamper is arranged in a zigzag form along the longitudinal direction of the side wall while alternating the upper and lower portions of the joint member side wall, one The clamper located at the upper side of the side wall of the joint member of the upper side of the clamp member located at the top of the side wall of the joint member is formed to be detachably elastically engaged with the clamper located at the lower side of the adjacent side wall of the joint member, and an embossed portion projecting downward is formed. At the distal end of the clamper located under the side wall of the joint member, an embossed portion protruding upward is formed.

Clampers of the other side wall facing the clamper formed on one side wall of the joint member are formed at the same position, but in the case of an even number of clampers formed in the horizontal direction of the joint member, the number of clampers formed in the longitudinal direction is odd, and in the horizontal direction of the joint member When the number of clampers formed is odd, the number of clampers formed in the longitudinal direction is formed even.

The tile portion includes an inner plate obtained by processing a natural stone or an artificial stone into a plate, an outer plate laminated on an upper surface of the inner plate, and a bonding layer inserted between the inner plate and the outer plate to integrally fasten the inner plate and the outer plate. In the bonding layer provided between the inner plate and the outer plate, a woven mesh of glass fiber material is inserted, and the mesh has a plurality of rectangular through-holes formed by cross-crossing a single fiber of yarn form. The inner diameter of the through hole is formed to be 3mm or more and 5mm or less.

The inner and outer plates are each formed in a thickness of 1 mm or more and 3 mm or less, but the outer plate is made of a material of stronger strength than the inner plate, and the inner plate and the outer plate are embodied in natural stone patterns, respectively, and the outer surface of the outer plate Polished to allow visual perception of the movement of the projected external object.

Stone joining tile according to the present invention,

First, the joint member is integrally attached to the lower surface of the tile part, but a plurality of clampers are formed to connect the joint member adjacent to the side wall of the joint member so that the tile and the joint of the tile are closely contacted with each other without any gaps. There is an effect that causes aesthetic appearance after appearance.

Second, by eliminating filling the gaps between tiles and tiles as before, construction is greatly simplified and labor productivity is remarkably improved.

Third, by finishing the exterior of the floor surface only with tiles semi-permanent to the chemical change by excluding the existing message that the durability is less durable to chemical changes, there is also an effect to significantly improve the durability of the constructed floor surface than conventional.

Fourth, by implementing the natural stone pattern on the natural stone or artificial stone that is the material of the tile part has the advantage that can fully save the natural beauty by finishing the inner wall of the building.

Fifth, there is an advantage that can reduce the unit cost of the raw material by processing the natural stone or artificial stone in a plate shape relatively thin than the conventional.

Sixth, by processing the natural stone or artificial stone material of the tile portion into a pair of inner and outer plates relatively thinner than the base plate, the weight of the tile of the present invention is lighter, thereby improving the labor productivity for construction.

Seventh, after processing natural stone or artificial stone, which is a tile material, into a pair of inner and outer plates relatively thinly in a plate shape, strengthening the binding force between the inner and outer plates and providing a bonding layer between the processed inner and outer plates. Due to the provision of the mesh for the present invention also has the effect that the durability of the tile is significantly improved.

Eighth, in the case of deliberately crushing the tiles when the tile of the present invention is crushed during the operation of attaching the tile of the present invention to the inner wall of the building due to the provision of a rectangular woven mesh using a glass fiber material, During this crushing, there is a very useful effect to prevent accidental splashing of the debris to injure the worker, there is also a secondary effect that can facilitate the work of collecting the debris of the crushed tiles.

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

1 is an exploded perspective view showing a stone bonded tile according to the present invention, [2] is a perspective view showing a bonded stone tile according to the present invention, [3] is a stone according to the present invention As a cross-sectional view showing a bonded tile, the stone-bonded tile according to the present invention is a rectangular tile portion 100 processed by natural stone or artificial stone plate; One surface is attached to the bottom surface of the tile portion 100 and the other surface is fixed to the bottom surface G, and the side of the tile portion 100 and the tile portion 100 is processed into the same rectangular plate shape as the tile portion 100. It is configured to include; a joint member 200 to be fixed in close contact with each other. In addition, between the tile part 100 and the joint member 200, a bonding layer 300 coated with an adhesive for integrally attaching the tile unit 100 and the joint member 200 is provided (see FIG. 3). H represents a through hole penetrating the fixing means up and down).

4 is a perspective view and enlarged view showing the joint member of the present invention, Figure 5 is a plan view showing the joint member of the present invention, Figure 6 is a side view showing the joint member of the present invention And as an enlarged portion, a plurality of clampers (210, 220) protruding integrally formed with the joint member 200 on the side wall of the joint member 200, the clamper 210 formed in one joint member 200 is adjacent joint The clamper 220 of the member 200 is configured to be detachably engaged with each other. In this case, the clampers 210 and 220 formed on the sidewalls of the joint member 200 may be selectively disposed on the horizontal sidewall or the vertical sidewall of the joint member 200, and the joint member 200 adjacent to the edge of the one end of the joint member 200. ) The rear end edges may be coupled while sliding each other along the longitudinal direction in contact with each other.

As shown in FIGS. 4 and 6, a plurality of clampers 210 and 220 formed on four sides of the coupling member 200 are spaced apart by a predetermined distance along the longitudinal direction, and each of the clampers 210 and 220 is connected to each other. The upper and lower parts of the side wall of the member 200 are alternately arranged in a zigzag form along the longitudinal direction of the side wall, and the clamper 210 positioned on the upper side of the side wall of the single joint member 200 is formed on the side wall of the adjacent joint member 200. An embossed portion 211 protruding downward is formed at the distal end of the clamper 210 located at the upper side of the side wall of the coupling member 200 so as to be elastically engaged with the clamper 220 positioned at the lower portion thereof. An embossing portion 221 protruding upward is formed at the tip end of the clamper 220 positioned below the side wall 200.

7 is a process diagram in which the stone-bonded tile according to the present invention is constructed, (a) state represents a state immediately before the adjacent stone-bonded tile (1) is bonded to each other at the bottom (G), (b) state is that each of the clamper 220 formed in the lower side wall of one joint member 200 and the clamper 210 of the neighboring joint member 200 in the process of the stone-bonded tile (1) is in close contact with each other The embossing portions 221 and 211 are elastically engaged. In this case, the clamper 220 formed below the side wall of one joint member 200 flexes elastically downward, and the clamper 210 of the neighboring joint member 200 protrudes while flexing elastically upward. The embossing portion (221, 211) of the cross is fastened.

In the state (c), the clamper 220 formed below the side wall of one of the joint members 200 is restored to the upper position again, and the clamper 210 of the neighboring joint members 200 is elastically downward again. Each of the embossed portions 221 and 211 protruding while being restored are interlocked and fixed to each other (see FIG. 11). As shown in the state (c) of Figure 7, preferably the width of the joint member 200 formed in the same rectangular shape than the width of the tile portion 100 formed in a rectangular shape relatively narrow to form an adjacent joint member ( When the 200 is elastically engaged by the mutual clampers 210 and 220, the side wall of each tile part 100 forms a structure that is tightly adhered without a gap.

As shown in FIG. 5, the clampers 210 and 220 of the other side facing the clampers 210 and 220 formed on one side wall of the joint member 200 are formed at the same position, but are formed in the horizontal direction of the joint member 200. If the number of clampers 210 and 220 is even, the number of clampers 210 and 220 formed in the longitudinal direction is odd, and if the number of clampers 210 and 220 formed in the horizontal direction of the joint member 200 is odd, the clampers 210 and 220 formed in the vertical direction are even. It is formed as a dog.

FIG. 8 is a construction state diagram in which a tile is excluded to show a state immediately before each joint member is coupled when the stone-jointed tile according to the present invention is constructed, and FIG. 9 according to the present invention. When the stone-jointed tile is constructed, it is a construction state diagram in which the tiles are excluded to show a state in which each joint member is coupled, and the other side walls facing the clampers 210 and 220 formed on one side wall of the joint member 200. The clampers 210 and 220 are formed at the same position, but four clampers 210 and 220 are formed in the horizontal direction of the joint member 200 and five clampers 210 and 220 are formed in the vertical direction. Even if only 200 is manufactured, it can be easily fastened by changing the vertical direction during construction.

10 is a state diagram immediately before being coupled in the process of the stone-jointed tile according to the present invention, [11] is a state diagram after being bonded in the process of the stone-jointed tile according to the present invention, stone When installing the bonded tile (1) can be easily carried out in a state in which a special attachment means is excluded, the construction for the construction by eliminating the mating, etc. to fill the joint portion of the tile (1) as before The manufacturing cost of the tile 1 becomes cheaper and the labor productivity administered to the work is significantly reduced.

In addition, the joint member 200 is integrally attached to the bottom surface of the tile part 100, but a plurality of clampers 210 and 220 are formed on sidewalls of the joint member 200 to connect adjacent joint members 200. 1) and the joints of the tile (1) are in close contact with no gaps and can cause aesthetic appearance after the tile is installed on the floor surface (G), and the chemical change is excluded and the existing message is less durable. By finishing the exterior only with tiles 1 semi-permanent to change, the durability to the constructed floor surface is significantly improved than before (reference numeral W in Figs. 8 to 10 denotes the building inner wall).

As shown in FIGS. 1 to 3, the tile part 100 includes an inner plate 10 obtained by processing a natural stone or an artificial stone into a plate, and an outer plate 20 laminated on an upper surface of the inner plate 10. , The bonding layer 30 is inserted between the inner plate 10 and the outer plate 20 to integrally fasten the inner plate 10 and the outer plate 20. The inner plate 10 and the outer plate 20 each process a relatively thin natural stone or artificial stone into a plate shape, and then apply an adhesive to one surface of the inner plate 10 to overlap the outer plate 20 so as to be in close contact with the applied adhesive. .

As shown in FIG. 1, the woven mesh body 40 made of glass fiber is inserted into the bonding layer 30 provided between the inner plate 10 and the outer plate 20. 40, a single fiber in the yarn form is cross-crossed to form a plurality of through-holes having a rectangular shape, and the inner diameter of the through-holes is formed to be 3 mm or more and 5 mm or less. This serves to strengthen the tensile force of the bonding layer 30 itself when the mesh body 40 is sandwiched between the bonding layers 30 and the adhesive of the bonding layer 30 hardens, and at the same time, the bonding layer 30 As the tensile force of the reinforcement strengthens the bonding force with each of the inner plate 10 and the outer plate 20 abutting the bonding layer 30.

Glass fiber is a mineral fiber made of fused glass fiber. It is not burned by high temperature resistance, does not corrode by chemical resistance due to chemical resistance, and absorbs or absorbs moisture despite the change of humidity according to the season. It is small and strong in tensile strength. By having a mesh woven in a rectangular shape using a material of such glass fiber, the tile part 100 in which the inner plate 10 and the outer plate 20 are laminated and bonded is constructed after external physical conditions or climate. The bending phenomenon can be prevented in spite of the change in chemical conditions such as change, and even in the case of fine bending due to the strong tensile strength, the glass fiber mesh 40 inserted in the bonding layer 30 supports the bending. It serves to maintain the durability against the bending of the entire tile portion 100.

The adhesive of the bonding layer 30 penetrating the through hole of the mesh body 40 is fixed and fixed in a state in which one surface of the inner plate 10 and one surface of the outer plate 120 are connected through the through hole. In this case, when considering the tensile force of the single fiber, which is a component of the mesh 40, when the inner diameter of the through hole is formed to more than 3mm 5mm or less, the inner plate 10 and the outer plate 20 is laminated to the tile portion 100 Represents the strongest tensile strength against bending.

As shown in FIG. 3, the inner plate 10 and the outer plate 20 are each formed with a thickness of 1 mm or more and 3 mm or less, but the outer plate 20 is made of a material having a stronger strength than the inner plate 10. Preferably, the thickness of the inner plate 10 and the thickness of the outer plate 20 may be formed differently. As such, the overall thickness of the inner plate 10 and the outer plate 20 bonded to each other is relatively thin compared to the conventional, so that the weight of the tile part 100 is significantly lower than that of the conventional, and in particular, in the case of finishing the inner wall of a high-rise building, the worker manually Even through construction, it is possible to significantly improve the efficiency of construction work. The bonding layer 30 provided between the inner plate 10 and the outer plate 20 has a thickness of about 2 mm or less due to pressing for bonding the inner plate 10 and the outer plate 20, and thus, the bonding layer 30. The single fiber of the mesh body 40 sandwiched therebetween also maintains a shape in which the cross section is pressed by a predetermined portion, so that the overall thickness of the tile part 100 is remarkably thinner than the conventional one.

When the mesh body 40 is sandwiched between the bonding layers 30 and the adhesive of the bonding layer 30 hardens, each inner plate 10 which abuts the bonding layer 30 while strengthening the tensile force of the bonding layer 30 itself. ) And the outer plate 20 to strengthen the bonding force. In addition, when the tile part 100 is crushed in the process of attaching the tile part 100 to the floor surface G or dismantling from the floor surface G, the debris is prevented from being thrown in all directions to improve the safety of the worker. In addition, the work of collecting the dismantled debris of the tile unit 100 can be more easily done.

As shown in Figure 1 and 2, the inner plate 10 and the outer plate 20 is a natural stone pattern is implemented, respectively, the outward surface of the outer plate 20 is the movement of the external object projected on the outward surface Polished to allow visual perception. The inner plate 10 and the outer plate 20 is to process the artificial stone or natural stone in the form of a plate, when processing the inner plate 10 or the outer plate 20 to natural stone marbling (marbling) form in the interior of the original stone even before processing A unique pattern is formed, and when the raw stone is processed into a plate shape, each of the unique patterns on the surface of the inner plate 10 and the outer plate 20 is embodied to represent natural beauty.

As described above, the present invention uses a natural stone or artificial stone implemented natural stone pattern as a finishing material of the interior floor surface, the manufacturing cost is reduced, as well as the strength of the material is significantly enhanced compared to the existing tile after the existing tile construction After the tile is installed on the floor by excluding the gap to fill the gap between the tile and the tile, the joints of the tile and the tile are closely adhered without any gaps to induce aesthetics on the exterior of the floor after construction. It has the advantage of being very simple.

1 is an exploded perspective view showing a stone-bonded tile according to the present invention,

Figure 2 is a perspective view showing a bonded stone tile according to the present invention,

3 is a cross-sectional view showing a stone bonded tile according to the present invention,

4 is a perspective view and enlarged view showing the joint member of the present invention;

5 is a plan view showing a joint member of the present invention,

6 is a side view and enlarged view showing the joint member of the present invention,

7 is a process of construction of the stone-joined tile according to the present invention;

8 is a state of construction in which the tile is excluded to show the state immediately before each joint member is bonded when the stone-jointed tile according to the present invention is constructed,

Figure 9 is a construction state in which the tile is excluded in order to indicate the state in which each joint member is coupled when the stone-jointed tile according to the present invention is constructed,

10 is a state diagram immediately before being combined in the process of the stone-jointed tile according to the invention construction,

FIG. 11 is a state diagram after the stone-bonded tile according to the present invention is bonded in the process of construction.

※ Explanation of symbols for main parts of drawing

1 tile 100 tile part

10: inner plate 20: outer plate

30: bonding layer 40: mesh

200: joint member 210,220: clamper

211,221: embossed portion 300: bonding layer

H: Through G: Bottom

W: inner wall of the building

Claims

A rectangular tile portion 100 processed by natural stone or artificial stone into a plate shape;

It is processed into the same rectangular plate shape as the tile part 100, one surface is attached to the bottom surface of the tile portion 100 and the other surface is fixed to the bottom surface (G), the tile portion 100 and the tile portion 100 Stone-jointed tile, characterized in that it comprises a; a joint member 200 for tightly fixing the sides of each other.

The method according to claim 1,

A plurality of clampers 210 and 220 protrude integrally with the joint member 200 on the sidewall of the joint member 200, and the clamper 210 formed in the joint member 200 is adjacent to the joint member 200. Stone-clamping tile, characterized in that the clamper 220 is configured to be engaged with the detachable.

The method according to claim 2,

The plurality of clampers 210 and 220 formed on four sidewalls of the joint member 200 are formed to be spaced apart by a predetermined distance along the longitudinal direction, and the respective clampers 210 and 220 are alternately disposed on the upper and lower sides of the side wall of the joint member 200. Arranged in a zigzag form along the longitudinal direction of the side wall, the clamper 210 located at the upper side of the side wall of the one joint member 200 can be detached from the clamper 220 located at the lower side of the side wall of the adjacent joint member 200. An embossed portion 211 protruding downward is formed at the tip of the clamper 210 positioned at the upper side of the side wall of the joint member 200 so as to be elastically engaged with each other, and is located below the side wall of the joint member 200. Stone joint type tile, characterized in that the front end of the clamper 220 is formed with an embossed portion 221 protruding upward.

The method of claim 3,

The clampers 210 and 220 of the other side wall facing the clampers 210 and 220 formed on one side wall of the joint member 200 are formed at the same position, and the clampers 210 and 220 formed in the horizontal direction of the joint member 200 are even. In this case, the number of clampers 210 and 220 formed in the vertical direction is odd, and in the case where the number of clampers 210 and 220 formed in the horizontal direction of the joint member 200 is odd, the clampers 210 and 220 formed in the vertical direction are formed in an even number. Stone laminated tiles.

The method according to any one of claims 1 to 4,

The tile unit 100,

The inner plate 10 processed by natural stone or artificial stone into a plate shape, the outer plate 20 laminated on the upper surface of the inner plate 10, and the inner plate 10 inserted between the inner plate 10 and the outer plate 20. Sea construction tile comprising a bonding layer 30 for fastening integrally with the outer plate 20.

The method according to claim 5,

A woven mesh 40 made of glass fiber is inserted into the bonding layer 30 provided between the inner plate 10 and the outer plate 20, and the mesh 40 is yarn. Stone cross-linked tiles, characterized in that a plurality of cross-shaped through-hole 40a is formed by cross-crossing each other, the inner diameter of the through-hole (40a) is formed more than 3mm 5mm.

The method according to claim 6,

The inner plate 10 and the outer plate 20 are each formed in a thickness of 1mm or more and 3mm or less, the outer plate 20 is a stone-bonded tile, characterized in that made of a stronger strength material than the inner plate (10).

The method of claim 7,

The inner plate 10 and the outer plate 20 are each embodied in the pattern of natural stone, the outer surface of the outer plate 20 is characterized in that the polished to enable visual recognition of the movement of the external object projected on the outer surface Stone laminated tiles.