KR101497443B1 - Non-masonrt joint of polished tiles - Google Patents

Abstract

The present invention relates to non-joint polishing tiles. And more specifically, the present invention is to provide the non-joint polishing tiles enabling to facilitate a construction work since an additional joint work is unnecessary and also to shorten a construction time. The present invention comprises: polishing tiles; a bottom unit disposed on the lower part of the polishing tile; and a binding unit which is inserted into the through hole formed in the bottom part of the polishing tiles and which binds the polishing tile at a construction space.

Description

[0001] NON-MASONRT JOINT OF POLISHED TILES [0002]

More particularly, the present invention relates to a mage-polished tile, and more particularly, since a plurality of polishing tiles used as a wall or floor finishing material does not cause a gap due to fitting of the polishing tiles, And more particularly to a meshless polishing tile in which the construction time can be shortened.

Polishing tiles are often applied to walls, floors, and floors in apartments, alliances, single rooms or office buildings, where people usually reside, and toilets such as toilets, porches or porches, and water supply and drainage facilities.

The method of tile construction is to apply thinly on top of the concrete finishing material using other Japanese or concrete, attach the tiles to the coated other Japanese or concrete at regular intervals, fill the space between the tiles with white cement, .

The white cement filled in the space between tiles is called joint. However, the joints of white cement have undergone construction and curing processes, and when the impact and the construction time are prolonged, they are fragile and easily contaminated.

 As a result, the water leaks into the broken joints and leaks into the lower layer. Especially, when the water is cleaned, joint damage is frequently generated,

There is a problem that the health of the residents may be fatal due to respiratory diseases caused by asbestos powder of white cement.

In order to solve such a problem, JP-A-10-1202107 is disclosed as an example of prior art documents.

This patent is a composition comprising DGEBA, which is an epoxy series epoxy resin, an epoxy curing agent for curing an epoxy resin, a pigment for forming a desired color of the joint, and a diluent for easily mixing the epoxy resin, the curing agent and the pigment.

However, this conventional technique has a problem that repeated shrinkage and expansion are repeated due to mixing or during the winter season and the summer season, so that cracks occur and a part of the composition is broken and falls off.

Therefore, since a part of the composition is broken and fallen, the bonding state between the tiles is also weakened, so that the tiles are easily separated, and there is also a problem that the decolorization becomes worse when exposed for a long time.

Patent No. 10-1202107

Disclosure of Invention Technical Problem [8] The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a polishing apparatus and a polishing apparatus which can prevent the formation of gaps due to fitting of a plurality of polishing tiles used as wall and floor finishes, It is another object of the present invention to provide a mage-polished tile in which the construction time can be shortened.

BRIEF DESCRIPTION OF THE DRAWINGS Other objects and advantages of the invention will become more apparent from the following detailed description of preferred embodiments with reference to the attached drawings, in which:

The mage-polishing tile according to the present invention includes a polishing tile, a bottom portion disposed at a lower portion of the polishing tile, and a binding portion inserted into a through hole formed in the polishing tile to bind the polishing tile to the installation space .

Preferably, the polishing tile includes a first polishing tile disposed at an edge and a second polishing tile disposed in a construction space surrounded by the first polishing tile, It is further preferable that the first polishing tile further includes a finishing portion having an insertion groove formed at one end portion in the thickness direction of the first polishing tile and inserted into the insertion groove.

In the electroless polishing tile according to the present invention, it is preferable that the bottom portion is made of rubber or an elastic member, and that the bottom portion is integrally formed with or adhered to the polishing tile.

In the electroless polishing tile according to the present invention, it is preferable that the upper surface of the bottom portion is in contact with the polishing tile, and the lower surface of the bottom portion has a larger surface roughness than the upper surface of the bottom portion, It is more preferable to comprise a rubber cloth fitted in the sphere and a wire surrounded by the rubber cloth.

In the electroless polishing tile according to the present invention, it is preferable that the binding portion is formed in a plurality of the plurality of through holes, and each of the through holes is spaced apart in the thickness direction, It is more preferable that they are formed so as to be shifted from each other in the inside.

In the meshed-polishing tile according to the present invention, it is preferable that the diameter of the through-hole is formed to be smaller than the diameter of the insertion groove, and it is more preferable that the one end protrudes from the insertion groove.

According to the present invention, since no gaps are generated due to the fitting of a plurality of polishing tiles used as wall or floor finishing materials, additional mage work is not required, so that the construction work is facilitated and the construction time can be shortened have.

Further, according to the present invention, the vibration generated by the external force can be sequentially absorbed by the finishing portion and the binding portion, so that breakage of the polishing tile can be prevented.

In addition, the plurality of polishing tiles are integrated into the installation space by a plurality of binding portions which are inserted and joined by insertion, so that the binding force is improved, and cracking and dropping due to the impact can be prevented.

1 is a perspective view of an embodiment of a meshless polishing tile according to the present invention,
Figure 2 is a perspective view of a first polishing tile of the embodiment of Figure 1,
Figure 3 is a perspective view of a second polishing tile of the embodiment of Figure 1,
Fig. 4 is a cross-sectional view showing the binding state of the first polishing tile and the second polishing tile in the embodiment of Fig. 1,
FIG. 5 is a cross-sectional view showing the height difference between the first polishing tile of the embodiment of FIG. 1 and the plurality of through-holes formed in the second polishing tile,
Figs. 6 and 7 are plan views showing a first polishing tile. Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a meshless polishing tile according to the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 is a perspective view of one embodiment of a mage-polished tile according to the present invention, and Fig. 2 is a perspective view of a first polishing tile of the embodiment of Fig.

The meshed polishing tile 100 according to the present invention includes a polishing tile 110, a bottom 120, and a binding portion 130 as shown in FIGS. 1 to 7.

The polishing tiles 110 are formed in a plurality of rectangular shapes. It is preferable that the polishing tile 110 is made of a material that imparts a decorative effect to the surface by printing or embossing on the surface thereof, thereby giving a natural aesthetics or texture and giving a feeling of intimacy to the people.

The polishing tile 110 is composed of a first polishing tile 111 and a second polishing tile 112. The first polishing tile 111 is disposed at the edge of the work space. The first polishing tile 111 has a height of 10 mm, and a plurality of through-holes 113 having a diameter of 3 mm longer than the width are formed. The first polishing tile 112 is disposed in a space where one surface is to be installed and the other end is disposed in the second polishing tile 112.

The first polishing tile 112 has an insertion groove 114 formed at one end portion of the first polishing tile 112 that is disposed in the space to be constructed, which is larger than the diameter of the through hole 113. This is for the purpose of inserting the finishing portion 140 described below. The first polishing tile 111 is disposed on the edge of the second polishing tile 111 and includes a first polishing tile 111 'disposed at the corner of the space to be constructed and a first polishing tile 111' The first polishing tile 111 "

The first polishing tile 111 'disposed at the corner of the space to be constructed is formed on two successive sides of the plurality of insertion grooves 114. The first polishing tile disposed in the space excluding the corners of the space to be applied is formed only in the space where the plurality of (111 ") insertion grooves 114 are disposed.

The second polishing tile 112 is disposed in a construction space surrounded by the first polishing tile 111. The second polishing tile 112 has a height of 10 mm like the first polishing tile 111, and a plurality of through holes 113 are formed longer than the width.

The plurality of through-holes 113 have a diameter of 3 mm, which may vary in diameter or position depending on the thickness and rigidity of the second polishing tile 112. The plurality of through holes 113 are formed to be offset from each other in the polishing tile 110. This is to prevent the binding tiles 110 from being entangled in the process of inserting the binding portions 130 for fitting . The diameter of the plurality of through-holes (113) is smaller than the diameter of the insertion groove (114). Although the through hole 113 formed in the polishing tile 110 is illustrated as being formed by a drill or the like in the present invention, the through hole 113 may be formed by casting or the like as long as the through hole 113 can be formed in the polishing tile 110. Can also be formed.

In general, the polishing tile 110 of the present invention differs from the conventional polishing tile used for the intermediate (indoor) living room and indoor (indoor) Can be used.

The polishing tile 110 can be partially replaced when it is partially damaged during construction or use. This separates the polishing tile from the remaining polishing tiles by separating the binding portion 130, which engages the polishing tile that needs to be partially replaced with another neighboring polishing tile, and separates the polishing tile that requires partial replacement when the binding state is released. The new polishing tile is placed in an empty space due to the partial replacement, and then the binding unit 130 is used to integrate a plurality of polishing tiles by fitting the new polishing tile and other neighboring polishing tiles and the remaining polishing tiles.

A plurality of bottom portions 120 are disposed below the plurality of polishing tiles 110. The bottom portion 120 is made of either rubber or an elastic member. When the bottom portion 120 is made of rubber, it is preferable that the bottom portion 120 is formed as a whole, and when the bottom portion 120 is made of an elastic member, it is preferable that the bottom portion 120 is formed like a net or a mesh. The bottom portion 120 elastically supports the polishing tile 110 and can absorb vibration in the vertical direction. The bottom 120 is integrally formed with the polishing tile 110 or is bonded to the polishing tile 110.

The upper surface of the bottom part 120 is in contact with the polishing tile 110 and the lower surface of the bottom part 120 has a surface roughness larger than that of the upper surface of the bottom part 120. This makes it possible to make the bottom surface of the space to be installed uniform and prevent slipping.

The bottom 120 is bonded to the polishing tile 110 using an adhesive such as epoxy, silicone, or a bond, or silicon malt. Particularly, when epoxy or silicone is applied to the bottom surface of the polishing tile 110, it is excellent in heat transfer characteristics and waterproof treatment.

The binding unit 130 is inserted into the through hole 113 formed in the polishing tile 110 to bond the polishing tile 110 to the installation space.

The binding portions 130 are respectively inserted into the plurality of through holes 113 of the polishing tile 110, and are spaced apart in the thickness direction. The plurality of binding portions 130 are fitted into the plurality of through holes 113 formed to be shifted from each other to prevent the binding portions from being entangled with each other.

The binding portion 130 is composed of a rubber covering 131 and a wire 132. The rubber cover 131 is fitted in the through hole 113 and absorbs vibration in the vertical direction like the bottom part 120. The wire 132 is a steel wire and is surrounded by a rubber sheath 131. The binding portion 130 is preferably inserted into the through hole 113 formed in the polishing tile 110 with interference. This is to minimize movement of the plurality of polishing tiles 110.

The plurality of through-holes 113 of the polishing tile 110 have the same height as the through-holes of the neighboring other polishing tiles so that the binding portions are smoothly inserted.

The finishing portion 140 has an insertion groove 114 formed at one end portion in the thickness direction of the first polishing tile 111 and inserted into the insertion groove 114. The finishing portion 140 has a cylindrical shape, and one end is protruded from the insertion groove 114. One end of the finishing portion 140 is inserted into the insertion groove 114 of the first polishing tile 111 and the other end is inserted into the hole formed in the installation space.

The finishing portion 140 is made of rubber having elasticity, and can absorb the vibration transmitted from the external force to the polishing tile 110.

Finally, the plurality of polishing tiles 110 are waterproofed with excellent adhesion and durability when the construction is completed in the construction space. As a result, there is almost no gap between the polishing tiles 110, and it is possible to prevent moisture from penetrating by the waterproof treatment.

In the process of constructing the non-meshed polishing tile 100 according to the present invention, first, the bottom portion 120 is bonded to the polishing tile 110 using an adhesive. The polishing tiles 110 to which the bottom portion 120 is adhered are fixed to the floor of the construction space in a plurality of positions in a state of being maintained at regular intervals in the horizontal and vertical directions. The binding unit 130 is sequentially inserted into the through holes 113 formed in the plurality of polishing tiles 110.

One end of a finishing portion 140 coupled to both ends of the binding portion 130 is inserted into a plurality of holes formed in the installation space, so that the plurality of polishing tiles 110 are integrated due to binding. The plurality of integrated polishing tiles 110 can improve the bonding force between the polishing tiles 110 and prevent cracking and dropping due to impact due to external force.

One embodiment of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications will fall within the scope of the present invention as long as they are obvious to those skilled in the art.

100: Mage-polished tile 110: Polishing tile
111: first polishing tile 112: second polishing tile
113: through hole 114: insertion groove
120: bottom part 130:
131: rubber covering 132: wire
140:

Claims (11)

A polishing tile,
A bottom portion disposed below the polishing tile,
And a binding portion inserted into the through hole formed in the polishing tile to bind the polishing tile to the mounting space,
The binding portion
A rubber cover fitted in the through hole,
And a wire surrounded by the rubber sheath.
The method according to claim 1,
The polishing tile includes:
A first polishing tile disposed at an edge,
And a second polishing tile disposed in a construction space surrounded by the first polishing tile.
3. The method of claim 2,
Wherein the first polishing tile further comprises an insertion groove formed at one end portion in the thickness direction of the first polishing tile, and a finish portion inserted into the insertion groove.
The method according to claim 1,
Wherein the bottom portion is made of rubber or an elastic member.
The method according to claim 1,
Wherein the bottom is integrally formed with or adhered to the polishing tile.
The method according to claim 1,
Wherein an upper surface of the bottom portion is in contact with the polishing tile and a bottom surface of the bottom portion has a surface roughness greater than that of the top surface of the bottom portion.
delete The method according to claim 1,
Wherein the binding portions are formed in a plurality of holes and are inserted in the plurality of through holes, respectively, but spaced apart in the thickness direction.
The method according to claim 1,
Wherein the plurality of through-holes are formed to be offset from each other in the polishing tile.
The method of claim 3,
And the diameter of the through-hole is smaller than the diameter of the insertion groove.
The method of claim 3,
Wherein the finishing portion has one end protruded from the insertion groove.

Images