KR20160115107A - Insulation tile of passive type and Construction method of tile using the same - Google Patents

Abstract

The present invention provides a passive type insulation tile and a construction method for a wall tile using the same. The passive type insulation tile can improve thermal insulation performance of the tile in case the tile is finished on a wall or the wall tile is remodeled. The passive type insulation tile can reduce a loss of building energy through the wall and can enable a worker to construct the tile in an assembly type so that an unskilled person can carry out construction at constant accuracy. To achieve the purpose of the present invention, the construction method for a wall tile includes: a step of installing a bracket fixing unit which is a vertical member, to the wall at fixed intervals; a step of horizontally attaching a convex bracket to the bracket fixing unit at fixed intervals; a step of attaching a concave molding onto one side of the upper and lower parts of an insulation material; and a step of connecting the insulation tile in which the tile is bonded to the insulation material by an adhesive to the convex bracket. Therefore, the insulation tile is constructed in a dry construction method.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a passive insulation tile and a wall tile construction method using the same,

In the present invention, the wall is finished with a heat insulating tile in which a tile and a heat insulating material are integrally combined to finish a tile of a building wall or to repair a wall tile, thereby preventing peeling of the tile due to a temperature difference between the wall and the tile, The present invention relates to a passive heat insulating tile used to reduce the energy loss of a building, and to a method of constructing a wall tile using the same.

In general, the masonry or reinforced concrete bath wall is composed of an outer wall and an inner wall connected to the outer wall, and the indoor side of the bathroom wall is waterproofed and the tile is attached by mortar and closed.

FIG. 1 is a perspective view showing a tile adhered to a wall of the prior art, FIG. 2 is a cross-sectional view and a front view, A method of attaching a tile to a wall includes a floatation method, a compression method, and a bond method.

2, a method of applying an adhesive mortar 110 having a thickness of 12 to 24 mm to the back surface of the tile 120 and pressing the adhesive agent 100 against the wall 100, It is possible to adjust the surface of the tile by means of the tile, good adhesion of the tile, good finishing accuracy, but requires a construction skill so as not to create a gap on the back surface of the tile.

3, a base mortar 130 having a predetermined thickness is applied to a wall 100, a mortar 110 having a thickness of 5 to 7 mm is applied to the wall mortar 130, and a tile 120 is pressed on the mortar 110, No gap is formed on the backside, the work efficiency is good, but the deviation of the adhesive strength occurs, and the thickness of the adhesive mortar is thin, so that the precision of the tile construction is required.

When the tile is attached to the bathroom wall by the tile construction method, the tile attached to the wall tends to be defective due to cracks, dropouts, fungi, and the like due to the temperature difference between the inside and the outside of the wall.

That is, the bathroom wall closed by tile is transmitted to the wall connected to the outer wall through the outer wall of the building through the outer wall of the building, thereby causing a loss of energy due to deterioration of the insulation performance of the wall. The tiles attached to the wall are peeled off due to the expansion and contraction phenomenon, and mold is generated due to the condensation of the wall.

If the tiles attached to the wall have defects as described above, the wall is remodeled and used. In the existing bathroom wall, a new tile is attached to the mortar or bond without removing the defective wall tile. It is true.

However, since the wall tile remodeling construction method is constructed in such a state that the wall insulation is not fundamentally solved, the tiles are detached with time, and molds are generated on the wall, which further deteriorates the indoor environment.

Patent Registration No. 10-1340094 (issued on December 12, 2013)

The present invention improves the insulation performance of the tile when the tile is closed on the wall or the wall tile is remodeled, the energy loss of the building through the wall is reduced, and the tile construction can be constructed in a prefabricated manner And an object of the present invention is to provide a method of constructing a wall tile using the same.

In order to achieve the above object, according to the present invention, there is provided a bracket fixing device, which is vertical to a wall, is installed at a predetermined interval, a convex bracket is horizontally attached to the bracket fixing bracket at predetermined intervals, And a heat insulating tile having a tile adhered to the heat insulating material is bonded to the convex type bracket so that the heat insulating tile is applied by a dry method and an air layer is formed between the wall and the heat insulating tile to improve the heat insulating performance of the wall and the heat insulating tile The principle of solving the problem is to do.

To solve this problem, first, in order to improve the heat insulating performance of the tile, a heat insulating material is attached to the tile to form a heat insulating tile, and a tile dry method is possible because the tile bonding material is replaced with a heat insulating material in mortar.

Second, to prevent condensation due to temperature difference between the inside and the outside of the wall, and to improve the heat insulation performance of the wall or tile, the tile is adhered to the tile and integrated with the wall and the insulation tile by the bracket- An air layer is formed between the tiles.

Third, in order to dry the wall insulation tiles dryly, the convex part of the convex type bracket is inserted and joined to the concave molding formed on the upper and lower sides of the heat insulation tile, so that the tile is attached to the wall in a prefabricated manner.

The present invention can improve the heat insulating performance of a tile by using a heat insulating tile to which a heat insulating material is coupled to the tile, thereby preventing peeling of the tile and replacing the tile bonding material with a heat insulating material in the mortar, It has an effect of improving the quality of construction.

In addition, the present invention can improve the heat insulation performance of the wall by preventing the condensation phenomenon due to the temperature difference between the inside and the outside of the wall by using the heat insulation tile in which the heat insulation material is attached to the tile and forming the air layer between the wall and the heat insulation tile, Thereby increasing the durability of the battery.

According to the present invention, the tile, the heat insulating material and the concave molding are integrally joined together by an adhesive to form a unitary heat insulating tile, and the convex portion of the convex bracket is inserted into the groove of the concave molding formed above and below the heat insulating tile So that it is possible to improve the workability of the tile construction because the finishing accuracy of the tile construction is good and the construction skill is not required, and thus the air is shortened.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a perspective view illustrating the attachment of a tile to a prior art wall;
Fig. 2 is a cross-sectional view showing the construction of a conventional tile flooring method,
3 is a cross-sectional view showing the construction of a tile on a wall of the prior art by a compression method
4 is an exploded perspective view showing the attachment of a passive heat-insulating tile to a wall, which is one embodiment of the present invention.
5 and 6 are perspective views showing that the passive heat-insulating tile of the present invention is combined with a convex bracket;
Fig. 7 is a perspective view showing a junction of the passive heat-insulating tile of the present invention
8 is a perspective view showing closing of the wall by using the passive heat-insulating tile of the present invention

The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments of the invention are shown.

When a wall is tiled or remodeled using a conventional wall tile, a bracket fixing base 50 is fixed to a wall or a conventional wall tile at predetermined intervals, and a convex bracket 40 The tile 30 is bonded to the heat insulating material 10 and the concave molding 20 by an adhesive so as to form a heat insulating tile 60. The heat insulating tile 60, And the convex portion 43 of the convex-shaped bracket 40 is inserted into and coupled with the groove 24 of the concave-shaped molding 20 formed on the upper and lower sides of the concave portion 60 and the concave-shaped molding 20.

4 is an exploded perspective view showing the attachment of a passive heat insulating tile to a wall of an embodiment of the present invention. The heat insulating tile 60 of the present invention includes a heat insulating material 10, a concave molding 20 and a tile 30 The heat insulating material 10 is formed by cutting the upper and lower sides of the rectangular plate to a predetermined thickness so as to form the cutout 11, and the material is styrofoam, glass wool, isoprene, or the like.

A concave molding 20 is adhered to the upper and lower cutouts 11 of the heat insulating material 10 with an adhesive and a tile 30 is adhered to one side of the heat insulating material 10 and the concave molding 20 Thereby forming a heat insulating tile 60 as a unit member.

The concave molding 20 includes a lower horizontal portion 21 formed to have a predetermined length by a plate member, a vertical portion 22 bent upward from the center of the lower horizontal portion 21 to have a predetermined length, An upper horizontal portion 23 formed by bending a predetermined length from one end to the other and a groove 24 formed by the upper and lower horizontal portions 21 and 23 and the vertical portion 22, High-strength plastic or the like is used.

The convex portion 43 of the convex bracket 40 is inserted and coupled to the groove 24 of the concave molding 20 of the heat insulating tile 60 to attach the heat insulating tile 60 to the wall, The bracket 40 includes a horizontal portion 41 formed to have a predetermined length by a plate member, a vertical portion 42 bent upward from the center of the horizontal portion to have a predetermined length, and a rectangular parallelepiped convex portion 43 formed at the vertical portion ), And materials such as steel, plastic, and wood are used.

5 and 6 are perspective views showing a passive heat insulating tile according to the present invention engaged with a convex bracket. The present invention is characterized in that a bracket fixing base 50, which is a vertical member of a wall or a tile in use, And screws or bolts (not shown) are fixed to the wall or the wall tile, and the material of the bracket is made of wood or the like.

The convex bracket 40 is fixed to the bracket fixing bracket 40 at predetermined intervals by an adhesive and screw bolts (not shown). The convex portion 43 of the convex bracket 40 is provided with a heat insulating tile The troughs 24 of the lap-shaped moldings 20 of the heat insulating tiles 60 are coupled and the heat insulating tiles 60 are integrated into the wall.

At this time, an adhesive is applied to the back surface of the heat insulating material 10 of the heat insulating tile 60 and attached to the bracket fixing table 50. An adhesive is applied to the groove 24 of the concave molding 20 of the heat insulating tile 60 And the convex portion 43 of the convex bracket 40 is inserted and attached.

Accordingly, since the heat insulating tile 60 can be installed in a prefabricated manner by using the convex bracket 40 and the bracket fixing base 50 without using mortar, it is possible for the unskilled person to easily construct the tile and maintain the finishing accuracy of the tile construction, The quality of the construction is improved.

Also, since the wall and the heat insulating tile are connected by the convex bracket 40 and the bracket fixing table 50, an air layer is formed between the wall and the heat insulating tile, thereby preventing condensation due to temperature difference between the inside and the outside of the wall, , Thereby increasing the durability of the insulating tile.

7 is a perspective view showing a joint portion of the passive heat insulating tile according to the present invention. The convex moldings 20 of the heat insulating tiles 60 are formed on both sides of the convex portions 43 of the convex brackets 40 attached to the bracket fixing rods 50 And the convex bracket 40 and the heat insulating tile 60 are integrally coupled to each other.

FIG. 8 is a perspective view showing the finishing of the wall by using the passive heat-insulating tile according to the present invention. The process of installing the heat-insulating tile on the wall using the passive heat-insulating tile of the present invention is as follows.

The bracket holder 50 which is perpendicular to the wall is fixed and installed at a predetermined interval in the longitudinal direction of the wall with a screw bolt (not shown) (Step 1), and the convex bracket 40 applies adhesive to the rear surface of thehorizontal portion 41 Is attached horizontally to the lower end of the bracket fixture 50 and is fixed to the bracket fixture 50 with a screw bolt (not shown) (step 2), and the adhesive is made of silicone, a bond or the like.

The heat insulating tile 60 is applied to the back surface of the heat insulating material 10 and is attached to the bracket fixing table 50. The convex tile 60 of the heat insulating tile 60 is provided with a convex- The convex tile 60 and the convex type bracket 40 and the bracket fixing base 50 are integrally coupled to each other through the lower grooves 24 of the heat insulating tile 20.

One convex portion 43 of a new convex bracket 40 is coupled to the upper concave portion 24 of the concave molding 20 of the heat insulating tile 60 and the new convex bracket 40 is connected to the horizontal portion 41 The adhesive is applied horizontally to the bracket fixture 50, and then fixed to the bracket fixture 50 with a screw bolt (step 4).

The new insulating tile 60 is applied to the rear surface of the heat insulating material 10 with an adhesive applied horizontally to the bracket fixing table 50 and fixed to the bracket fixing table 50 with a screw bolt, Type tile 60 and a new convex tile 60 and a new convex type bracket 40 and a bracket fixture 50 (not shown) are coupled to the other side convex portion 43 of the new heat- ) Are integrally combined (Step 5).

A step of installing the new convex bracket 40 on the upper groove of the concave molding 20 of the heat insulating tile 60 and a new convex bracket 40 on the new heat insulating tile 60 The installation step (step 5) is repeated to the wall ceiling to complete the wall tile construction.

The passive heat-insulating tile 60 is fixedly attached to the wall by a convex type bracket 40 and a bracket fixing base 50 so that the passive heat-insulating tile is not used as a wall material, And can improve the quality and workability of tile construction.

Particularly, the present invention can be used as an optimal tile method for a wall made of an inner heat insulating material in view of improving the heat insulating performance of the wall and the durability of the heat insulating tile.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: Insulation material 11:
20: concave molding 21: lower horizontal part
22: vertical part 23: upper horizontal part
24: groove 30: tile
40: convex bracket 41: horizontal part
42: vertical portion 43:
50: Bracket fixture 60: Insulation tile
100: wall 110: adhesive mortar
120: Tile 130: Base mortar

Claims (3)

A heat insulating material 10 having upper and lower sides of a rectangular plate cut to a predetermined thickness to form a cutout 11;
A concave molding (20) adhered to the cut portion of the heat insulating material (10) with an adhesive;
And a tile (30) adhered to one side of the heat insulating material (10) and the concave molding (20) with an adhesive. [3] The apparatus according to claim 1, wherein the concave molding (20) comprises a lower horizontal part (21) formed by a predetermined length of a plate material, a vertical part (22) bent upward from the center of the lower horizontal part An upper horizontal portion 23 formed by bending a predetermined length from one end of the vertical portion 22 and a groove 24 formed by the upper and lower horizontal portions and the vertical portion. tile. A first step of securing and installing a bracket fixing table 50 perpendicular to the wall with screw bolts at predetermined intervals in the longitudinal direction of the wall;
The convex type bracket 40 has a second stage in which an adhesive is applied to the rear surface of the horizontal portion 41 and attached horizontally horizontally to the bracket fixture 50 and fixed to the lower end of the bracket fixture 50 with a screw bolt;
The passive heat insulating tile 60 of claim 1 is applied to the back surface of the heat insulating material 10 and attached to the bracket fixing table 50. The convex tile 60 is attached to the convex portion 43 of the convective bracket 40, The lower recess 24 of the lap-top molding 20 of the mold 20 is engaged;
One convex portion 43 of a new convex bracket 40 is coupled to the upper concave portion 24 of the concave molding 20 of the heat insulating tile 60 and the new convex bracket 40 is connected to the horizontal portion 41 A fourth step of applying an adhesive to the rear surface of the bracket 50, horizontally attaching the bracket to the bracket 50, and fixing the bracket 50 to the bracket 50 with a screw bolt;
The new adiabatic tile 60 is coated with an adhesive on the back surface of the heat insulating material 10 and horizontally attached to the bracket fixing base 50. The new heat insulating tile 60 is fixed to the bracket fixing base 50 with a screw bolt, A fifth step of coupling the lower recessed portion 24 of the concave molding 20 of the new heat insulating tile 60 to the other convex portion 43 of the second heat insulating tile 60;
And repeating the steps 4 and 5 to the wall ceiling,
The convex bracket 40 includes a horizontal portion 41 formed of a plate material with a predetermined length, a vertical portion 42 bent upward from the center of the horizontal portion and formed in a predetermined length, and a rectangular parallelepiped- (43). ≪ RTI ID = 0.0 > 41. < / RTI >

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