KR20180130973A - Union device of concrete building exterior stone panels - Google Patents

Abstract

The present invention relates to an anchoring device for external insulation/decoration panel of a building to minimize thermal bridge, wherein the anchoring device for fixing a decoration material to the building includes an isolation member for interrupting a thermal bridge phenomenon, so that the thermal bridge phenomenon of the building caused by the anchoring device is fundamentally interrupted by the isolation member, thereby preventing heat transmitted through a wall of the building from being lost, and removing a cause of building deterioration by suppressing occurrence of dew condensation and molds to improve reliability of a product. The anchoring device for fixing the decoration material to the outer wall of the building includes an isolation member (150) for interrupting the heat bridge phenomenon between the wall and the anchoring device (100) to maintain heat insulation performance of the wall.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

[0001] The present invention relates to an external heat insulation and exterior panel tightening device for a building that minimizes thermal bridging, and more particularly, to a tightening device configured to fix a casing to an exterior wall of a concrete building, So that the heat bridging phenomenon of the building is blocked due to the blocking effect of the blocking member, thereby preventing heat loss due to the clearance of the coupling portion of the building, thereby preventing the deterioration of condensation and mold generation The present invention relates to an external insulation of a building and an external panel longing device for minimizing thermal bridging which improves product reliability by eliminating a cause.

Generally, the outer wall surface of a concrete structure of a building is formed of a composite structure formed by forming a heat insulating layer on the outer surface of the wall and covering the outer surface of the wall with a covering material of various materials in order to realize a heat- .

When the concrete wall is formed, the composite structure is provided with urethane or styrofoam, which is a heat insulating material, on the outer wall surface, and is finished with a tile or stone or metal such as an aluminum panel as a finishing material for final finishing .

In the case of using the stone material among the above-mentioned finishing materials, the heat insulating board is first installed on the wall surface, and the stone panel is fixed to the concrete wall on the outer surface thereof.

1, a single unit stone panel or a plurality of unit stone panels are disposed adjacently adjacent to each other, and a single unit stone panel is disposed adjacent to the single unit stone panel through a frame. As shown in FIG. 1, The present invention relates to a structure for constructing a stone panel for an interior and exterior use of a building which is formed as a stone panel installation unit of a building and which is constructed in a curtain-like form on the inside and outside of a building, And a locking piece is inserted and inserted into the frame engaging groove of the unit stone panel so as to protrude from the inner side of the wing which covers the side of the unit stone panel. And a " C "-shaped fitting portion integrally provided with a groove, and is coupled to four side surfaces of the unit stone panel The frame is integrally fixed to the coupling frame of the outer frame through a fixing hole in a form in which both ends are inserted into the coupling groove of the frame and the adjacent frame, and the frame itself is fixed to the four sides of the unit stone panel in a rectangular frame shape And a rectangular connecting rod which is inserted and coupled to the unit connecting and fixing bar coupling grooves formed in the outer frame of the stone panel unit, And a fixing member extending from one side of the rod toward the rear portion and facing each other on the upper surface and the lower surface or both sides of the stone panel installation unit, the stone panel installation unit is mounted on the casting channel provided on the wall or slab of the building, There are several fixing bars that are fixedly installed through the nuts, and they are attached to the wall or slab of the building. Or the anchor bolts to fix the stationary bar coupled to the stone panel installation unit through the fasteners and the bolts and nuts so that the stone panel installation unit itself remains fixed to the outer wall or the inner wall of the building Several casting panels, and several fasteners that allow the casting panel and the fixed bar to be joined together through bolts and nuts.

As described above, in the prior art, a heat insulating board, for example, styrofoam or the like is first installed on a concrete wall surface, and a forcing truss is formed in a lattice form to attach a stone panel thereon and is connected to a wall, The anchor bolts and the stone panel are fixed to the cut-away wall part of the installed insulation board by cutting the insulation board at the part where the anchor bolt is to be inserted.

In this case, since the gap of the cut-out portion of the heat insulating board must be filled again with urethane or urea foam, there is a problem that the work becomes complicated due to the addition of work processes.

Particularly, when the heat insulating board is cut, it is necessary to cut off with a knife or melt with a flame, thereby complicating the work process and causing harmful toxic substances, thereby hindering the working environment.

Also, there is a problem that environmental wastes are generated by the cut heat-insulating board, and the processing cost for processing the generated environmental wastes is added.

Further, since the work is performed on the outer wall surface of the building, there is a problem that the safety of the operator due to the high-altitude operation and the flame operation can be impaired.

Since the above-mentioned operation is complicated, the construction cost is increased due to an increase in the total work amount applied in the field and a long process, which is not economical. In addition, there is a problem that the gap of the cut heat insulating board portion must be refilled, and if the gap can not be filled properly, the heat loss of the wall gap is generated, resulting in energy loss as a whole.

As a result, due to the above-described problems, there is a problem that the exterior competitiveness of the exterior finishing technology is deteriorated due to the deterioration of the reliability of the external insulation of the building and the operation of installing the stone panel.

In order to solve the above problems, Japanese Patent No. 1663373 of the present applicant proposes a method for constructing a stone panel using a long colon of a concrete panel for a building, As shown in FIG. 2, the long colon structure is configured to fix a stone panel used for exterior finishing of a building. In a concrete building exterior yogurt stone panel tightening apparatus, the wall 1 is embedded in the wall 1, An anchor bolt 140 having a predetermined length exposed to the outside of the heat insulating board 2 tightened to the body 112 and at least one or more pressing legs 114 extending from the body 112 and stuck to the heat insulating board 2 And an X-axis elongated hole 116 formed in the body 112 for inserting a bolt portion of the anchor bolt 140 and correcting an installation position in the X-axis direction A Y-axis elongated hole 123 is formed so that one end thereof is in close contact with the fixing bracket 110 and the bolt portion of the anchor bolt 140 is inserted to correct the installation position in the Y-axis direction, And a Z-axis elongated hole 136 formed at one end of the variable bracket 120 so that an installation position of the variable bracket 120 can be separated in the Z-axis direction The variable bracket 120 includes a vertical piece 122 having one end fixed to the fixing bracket 110 and having a Y axis slot 123 formed thereon and a vertical piece 122 formed at the end of the vertical piece 122 An insertion groove 126 formed to have a predetermined depth so as to be adjustable in length and a fixing hole 125 for inserting a fastening means 128 so as to exert a fastening force, (124), the insertion groove (126) being adapted to move the building The interval adjusting bracket 130 is formed in a box shape so as to prevent the interval adjusting bracket 130 from rotating when a rotating moment is applied to the fastening means 128, A locking piece 134 formed at an end of the insertion piece 132 and protruding by a predetermined length at an upper end and a lower end to support the stone panel 3; A Z-axis elongated hole 136 formed in the insert piece 132 for correcting an installation position with respect to the Z-axis direction and into which a bolt of the fastening means 128 is inserted, 126 of the fixing bracket 100. The pressing bracket 114 of the fixing bracket 100 includes at least one of upper and lower ends of the body 112, , The pressing legs (114) are pressed against the heat insulating board (2) To exert a firm fixing force by the force is being formed to be inclined by an angle of 1 ° ~ 10 ° in the body 112.

It is possible to freely adjust the distance between the wall and the stone panel through the long collet teeth of the present applicant, thereby simplifying the work process and improving the convenience and stability of the work.

On the other hand, as shown in FIG. 3A, it can be seen that the heat insulating effect on the outer wall is improved by forming the heat insulating material on the outer wall.

However, as shown in FIG. 3B, when a long collar for fixing the heat insulating material and the casing is formed on the outer wall and an anchor bolt of the casing is configured to be inserted and fixed by a hole formed in the outer wall, The temperature is exchanged with the anchor bolt, and the state of heat exchange to the entire apparatus can be confirmed.

As a result, there is a problem of deteriorating the heat insulating performance of the building due to the heat insulating material installed for the external heat of the building and the tightening device used for fixing the exterior material.

In addition, the outer temperature of the building is transmitted to the outer wall through the long colon, thereby disabling the function of the heat insulating material provided on the outer wall, thereby deteriorating the outer heat insulating function of the building.

In addition, as described above, since the heat bridging phenomenon can not be prevented, the surface temperature is lowered on the indoor side of the portion where the long colon value is formed due to deterioration of the external heat insulating function, thereby causing heat loss to the concrete building, It is a cause of the occurrence of mold and eventually there is a problem of promoting energy loss and aging through the wall of the building.

Korean Patent Publication No. 1035973 (registered on May 13, 2011) Korean Patent Publication No. 1244981 (Registered on March 13, 2013) Korean Patent Publication No. 1663373 (Registered on September 29, 2016)

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a barrier device for preventing thermal bridging in a long- The heat bridging phenomenon is blocked by the blocking effect of the blocking member, thereby reducing the energy loss of the building and suppressing the generation of condensation and fungi, thereby eliminating the cause of aging and improving the reliability of the product. The panel is to provide a long colon value.

According to an aspect of the present invention, there is provided a tightening apparatus for fixing a casing to an outer wall of a concrete building, the apparatus being characterized in that thermal bridging is interposed between the wall and the tightening apparatus, And a blocking member for blocking the light from the light source.

In the present invention, the blocking member may include a fixing bracket inserted into the anchor bolt and fastened and fixed by the nut, and a rubber ring for preventing the nut from being loosened while blocking the surface contact with the variable bracket; And a rubber cap protruding from the Y-axis slot of the variable bracket and covering the end of the anchor bolt exposed to the outside to support the heat bridging phenomenon.

In the present invention, it is preferable that the blocking member is made of a synthetic resin so as to be capable of interrupting or delaying the heat bridging phenomenon.

In the present invention, a coating material for blocking or delaying a thermal bridge phenomenon by intercepting a clearance of surface contact between constituent elements on the outer circumferential surface of a fixing bracket, a variable bracket, a gap adjusting bracket, and an anchor bolt, .

In the present invention, the covering material is a synthetic resin; And a thickness of 0.5 to 1 mm.

According to the present invention, it is possible to constitute a blocking member capable of blocking thermal bridging in a device for fixing the exterior material to a building, so that the thermal bridging phenomenon of the building is blocked by the blocking effect of the blocking member, As a result, the outside air transferred to the exterior material of the building can be prevented from flowing into the building or serving as a medium for allowing the heat of the room to escape to the outside, thereby preventing energy loss of the building and preventing aging such as prevention of condensation and mold Thereby minimizing the thermal bridging phenomenon which improves the product reliability.

1 is a schematic perspective view showing a conventional example.
FIG. 2 is a sectional view of a state in which a tightening device is shown in another example of the related art; FIG.
3 is an internal temperature distribution diagram for a conventional building,
3a is a portion having only a heat insulating material, and 3b is a portion having a long colon value.
4 is an exploded perspective view of a tightening device according to the present invention;
5 is a sectional view of a fastening device according to the present invention in an installed state.
6 is an enlarged view of the portion 'VI' of FIG. 5;
7 is an internal temperature distribution diagram for a building according to the present invention.

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

4 and 5, the tightening apparatus 100 of the present invention includes a fixing bracket 110, a variable bracket 120, a gap adjusting bracket 130, an anchor bolt 140, The anchor bolt 140 and the wall are prevented from mutual heat exchange by the blocking member 150,

Preferably, the fixing bracket 110, the variable bracket 120, and the gap adjusting bracket 130 are made of the one disclosed in Japanese Patent No. 1663373 of the present applicant. Of course, the present invention is not limited to this, and a long collar similar to the conventional one may be used. Therefore, detailed description of the fixing bracket 110, the variable bracket 120, and the gap adjusting bracket 130 will be omitted.

The covering member 160 is formed on the outer circumferences of the fixing bracket 110, the variable bracket 120, the gap adjusting bracket 130, and the anchor bolt 140 so as to prevent heat exchange with the outside air.

The covering material 160 is made of a synthetic resin such as rubber or silicone to prevent heat exchange.

The covering member 160 is formed to have a predetermined thickness of 0.5-1 mm in the fixing bracket 110, the variable bracket 120, the gap adjusting bracket 130, and the anchor bolt 140. In this case, if the thickness is less than 0.5 mm, the heat exchange blocking effect can not be exerted smoothly. If the thickness exceeds 1 mm, the heat exchange blocking function is the same, but the manufacturing cost increases due to the addition of materials and the volume increases. There is a problem.

That is, the fixing bracket 110 includes a body 112, at least one compression leg 114 protruding from one end of the body 112 and fastened to the heat insulating board, and an anchor bolt 140 And an X axis slot 116 formed at one end of the fixing bracket 110 so as to be spaced apart in the X axis direction. The covering member 160 is formed on the outer circumference of the fixing bracket 110.

The variable bracket 120 includes a vertical piece 122 having a predetermined height and a horizontal piece 124 extending a predetermined length from an end of the vertical piece 122. The horizontal piece 124 has a predetermined depth And an insertion groove 126 for inserting one end of the gap adjusting bracket 130 is formed in the horizontal piece 124. The coupling member 128 is formed in the horizontal piece 124 so that the gap adjusting bracket 130 can be fastened, A bolt 125 is inserted into the bolt.

The bolt 140 of the anchor bolt 140 is inserted into the vertical piece 122 of the variable bracket 120 so that a long hole is formed in the Y axis direction. A Y-axis long hole 123 for correcting the installation position with respect to the Y-axis direction is formed.

A cover 160 is formed on the outer circumference of the variable bracket 120.

The gap adjusting bracket 130 includes an insertion piece 132 inserted into the insertion groove 126 of the variable bracket 120 and a fixing groove formed at the end of the insertion piece 132 and formed in the stone panel And a Z-axis elongated hole 136 formed in the Z-axis direction formed on the insert piece 132. The cover member 160 is formed on the outer periphery of the engaging piece 134, .

The anchor bolt 140 is an anchor plate to fix the anchor bolt 140 by the anchor plate 140. A cover 160 is formed on the outer circumference of the anchor bolt 140. [

That is, the anchor plate is structured such that the anchor bolts 140 are in surface contact between the wall and the fixing bracket 110 without forming a covering material on the anchor plate as the anchor plate is stuck to the anchor holes formed in the wall. A cover 160 is formed on the outer periphery of the anchor bolt 140 to prevent heat exchange.

The blocking member 150 is a means for improving heat insulation of the wall due to heat exchange by interrupting heat exchange with the anchor bolts 140 for fixing the tightening device 100 to the wall.

The blocking member 150 is composed of a rubber ring 152 and a rubber cap 154, as shown in Fig.

The rubber ring 152 is composed of a plurality of rubber rings 152 and is formed between the anchor bolts 140 and the fixing brackets 110 and the variable brackets 120 and includes the anchor bolts 140 and the fixing brackets 110 and the variable brackets 120 Is interrupted.

The rubber ring 152 is elastic so that the rubber ring 152 is elastically deformed by the elastic force when the nut is formed between the fixing bracket 110 and the variable bracket 120 by the nut included in the anchor bolt 140, Thereby performing an anti-loosening function. Therefore, the fixation bracket 110 and the variable bracket 120 can be improved in fixing force and heat exchange blocking effect to the anchor bolt 140 at the same time.

The rubber cap 154 covers the end of the anchor bolt 140 to perform a heat exchange shutoff function.

The rubber cap 154 is not limited to the cap type that is put on the end of the anchor bolt 140 but may be a shape that supports the heat exchanging action at the end of the anchor bolt 140 exposed to the outside Can be used.

6, the heat insulating board is fixed to the wall, and the anchor bolt 140 is fixed to the wall so that the exterior material is fixed at a predetermined distance from the wall, and then the anchor bolt 140 is fixed to the wall. Axis long hole 116 of the fixing bracket 110 and fix it.

After the Y-axis slot 123 of the variable bracket 120 is inserted into one end of the anchor bolt 140 protruded through the X-axis slot 116 of the fixing bracket 110, The fixing bracket 110 and the variable bracket 120 are fixed to the anchor bolt 140 by tightening the nuts 142 and 144 to the anchor bolts 140 after adjusting the installation position of the anchor bolts 140. [

7, a rubber ring 152 is positioned at a position where the fixing bracket 110 is positioned and a rubber ring 152 is disposed at a position where the variable bracket 120 is positioned 152 prevent the fixing bracket 110 and the variable bracket 120 from being directly in surface contact with the anchor bolts 140 by the plurality of rubber rings 152 to prevent heat exchange At the same time, the function of preventing the loosening of the nuts 142 and 144 is performed by the elastic force of the rubber ring 152, so that the tightening and fixing force is improved.

Further, as the rubber cap 154 is put on the end of the anchor bolt 140, the heat exchange action of the anchor bolt 140 is delayed or blocked.

Thereafter, the spacing bracket 130 is fastened to one end of the variable bracket 120 to fix the fastening device 100 to the wall, and the fastening device 100 is fixed to the wall by the fastening device 100, And is completed stably.

7, the covering member 160 is attached to the outer circumferences of the fixing bracket 110, the variable bracket 120, the gap adjusting bracket 130, and the anchor bolt 140 of the tightening device 100, Thereby enhancing the shutoff efficiency of the tightening device 100 that intercepts or delays mutual heat exchange with the blocking member 150.

The covering material 160 is formed on the outer circumferences of the fixing bracket 110, the variable bracket 120, the gap adjusting bracket 130, and the anchor bolt 140, which are components of the tightening device 100 The present invention is not limited to this, and it may be constituted such that it is formed at a portion where the components of the tightening apparatus 100 are in surface contact with each other to block the thermal bridge phenomenon by surface contact.

The covering member 160 is preferably integrated with the components of the tightening apparatus 100 by an insert injection method. However, the covering member 160 is not limited thereto and may be adhesively fixed with an adhesive or the like. Any structure or manufacturing method that allows the covering material 160 to be stably fixed can be used.

The above description is only one embodiment for implementing the building exterior insulation long colon value minimizing the thermal bridging phenomenon, and the present invention is not limited to the above embodiment. It will be understood by those skilled in the art that various changes may be made without departing from the spirit of the invention.

100: Fixing device 110: Fixing bracket
120: Variable Bracket 130: Spacing Bracket
140: anchor bolt 150: blocking member
152: rubber ring 154: rubber cap
160: Cover material

Claims (5)

CLAIMS 1. A device for fixing a casing to an outer wall of a concrete structure,
A blocking member (150) for blocking thermal bridging between the wall and the tightening device (100) to maintain the heat insulating performance against the wall;
And an outer panel and an outer panel of the building to minimize heat bridging.
[4] The apparatus of claim 1, wherein the blocking member (150)
The fixing bracket 110 inserted into the anchor bolt 140 and fastened and fixed by the nuts 142 and 144 and the variable bracket 120 are cut off while being in surface contact with each other, A rubber ring 152 for allowing the prevention function to be performed; And
A rubber cap 154 which protrudes from the Y-axis slot 123 of the variable bracket 120 and is mounted on an end of the anchor bolt 140 exposed to the outside to support the heat bridging phenomenon;
And an outer panel and an exterior panel tightening device for minimizing the thermal bridging phenomenon.
[4] The apparatus of claim 1, wherein the blocking member (150)
A synthetic resin for blocking or delaying the thermal bridging phenomenon;
And an outer panel and an exterior panel extruding device for minimizing the thermal bridging phenomenon.
The method according to any one of claims 1 to 3,
A clearance between the components of the fixing bracket 110, the variable bracket 120, the gap adjusting bracket 130, and the anchor bolt 140 is cut off (160) for blocking or delaying the thermal bridging phenomenon.
And an outer panel and an exterior panel tightening device for minimizing the thermal bridging phenomenon.
5. The method of claim 4, wherein the cover (160)
Synthetic resin;
A thickness of 0.5 to 1 mm;
The external heat insulation and exterior panel tightening device of the building minimizes the thermal bridging phenomenon.

Images