KR20200079831A - External Insulation Construction Structure using a Thermal Break Fastener of the Building - Google Patents

Abstract

The present invention relates to an external insulation construction structure using a heat bridge cutoff fastener of a building, capable of pressing and fixing a heat bridge cutoff material to one side of a concrete wall body while supporting an external wall body at one end in a masonry state in order to stably construct an external wall body while substantially fixing a heat bridge cutoff material to an outer wall in a lump through application between the heat bridge cutoff material and the external wall body during outer wall construction for a building. The external insulation construction structure includes: a fixing anchor bolt fixed to the concrete wall body as a foundation and extended by penetrating the heat bridge cutoff material; a pressing bracket inserted above the fixing anchor bolt to come in surface contact with the heat bridge cutoff material, while being stuck and fixed toward the heat bridge cutoff material from the fixing anchor bolt; and an angle fastener located in a surface junction state opposite one side of the pressing bracket, and forming a penetrating horizontal slit hole to introduce the fixing anchor bolt while enabling position adjustment in left and right width directions.

Description

External insulation construction structure using a thermal break fastener of the building

The present invention relates to an external insulation construction structure using a thermal crossing fastener of a building, and more specifically, it is applied between an exterior wall and a thermal crossing material during construction of an exterior wall of a building, while the heat crossing material is firmly fixed to the exterior wall and is fixed to the exterior wall. The present invention relates to an external insulation construction structure using a heat-crossing fastener of a building capable of stably installing.

In general, the outer wall construction of the building uses a formwork made of wood or aluminum, but installs the formwork at intervals corresponding to the thickness of the outer wall of the building while securing a space to reinforce the reinforcement inside, through the pouring and curing process of concrete. The exterior wall construction of the building based on the concrete wall is made.

At this time, the construction of the outer wall of the building is carried out by the construction of an external insulation method including a thermal intercepting material having a heat insulation function for the purpose of maintaining a suitable indoor temperature while blocking drafts, noise, and condensation. In the construction of the external insulation method, a concrete wall After installing the thermal cross-linking material on one side of the building, it is installed to finish the exterior wall of the building by finishing installation with an exterior wall that can complement the low durability and impact resistance of the thermal cross-linking material.

Here, the construction of the building's exterior insulation method is largely classified into a wet method and a dry method.The wet method uses a glue on a concrete wall to fix the heat cross-linking material, and the dry method anchors the heat cross-linking material and the exterior wall on the concrete wall. Construction is to be physically fixed using a fastener with a back applied.

In recent years, there are many cases where thermal cross-linking materials are pre-installed on concrete walls, and the insulation standards are continuously strengthened to target zero-energy buildings, making the heat-crossing materials thicker, and the anchor bolts become longer by the thickness of the heat-crossing materials. That is true.

However, when the fastener is installed on an anchor bolt having a structure extended as long as the thickness of the thermal cross-linking material, the anchor bolt is vulnerable to bending, deflection, or torsion, so the durability and impact resistance of the exterior structure of the overall structure supported by the exterior wall is significantly reduced. Had a problem.

As a conventional technique disclosed to solve the above problems, in Korean Patent Publication No. 142852 (December 28, 2017), an anchor bolt fixed to a concrete retaining wall is inserted through a heat insulating material pre-installed on a concrete retaining wall. A support member body having a ball and a wing part extending from an outer periphery of the support member body to prevent bending and deflection of the anchor bolt, and the fastener is coupled to the end of the anchor bolt by a fixing member composed of two nuts, , Two insulation washers are installed between the fixing member and the fastener, an insulating cap is coupled to the end of the anchor bolt, and an angle structure including a bolt coupling piece and an adhesive piece is provided on a base frame to which the fastener is coupled ( L-TYPE) An anchor bolt support member having a heat-blocking function in which a finishing material is installed by a panel fixing clip, wherein a side of the panel fixing clip is transverse to form a transverse welding part with respect to the side surface of the lower frame. A welding hole is formed, and a vertical welding hole for forming a longitudinal welding part with respect to the side surface of the lower frame is provided in a vertical direction on the upper portion of the horizontal welding hole, thereby preventing thermal bridge phenomenon and applying external force or finishing material (exterior) Anchor bolt support members having a thermal cross-cutting function capable of preventing separation and sagging due to their own weight are known.

In addition, in the registered utility model No. 480623 (2016.06.09.), a construction structure is applied to the outside of the concrete wall surface of a concrete building, and the adhesive structure is attached to the surface of the insulation material with a reinforcing mesh and a finishing material that is heavier than the insulation material. After forming the fixing holes in a row in a horizontal direction in the horizontal direction on the outer surface in two rows, after forming them on the whole of the concrete wall at regular intervals in the vertical direction, insert anchor bolts into the fixing holes, and fix the anchor bolts. Combine the hardware so that the two upper and lower fixed hardware face each other at regular intervals to be spaced apart, but adjust the degree of protrusion of the fixed hardware in consideration of the unevenness of the concrete wall so that the fixed hardware is positioned in a straight line and fixed. After inserting the C-shaped channel between the two upper and lower fixed hardware, fix the channel to the fixed hardware by using the fixing screw to adjust the installation condition of the fixed hardware and the channel so that the channel is installed in a straight line even if the wall is uneven. Allows the insulation to be constructed in a flat surface, attaches the insulation after applying the Styrofoam adhesive to the surface of the channel fixed to the fixed hardware, lowers the height of the top of the wall by the thickness of the insulation, and then closes the insulation for the top of the insulation Put it on and make it adhere to the wall surface, and the bottom part of the wall is constructed by cutting the insulation material so that a certain gap is formed from the ground, and then close it to the wall surface while supporting the insulation material at the bottom of the insulation material. The screw is fixed to the channel while penetrating the insulation material so that the insulation material is supported on the channel and the fastener is held in close contact with the insulation material, so that the insulation material is firmly fixed, so that a heavy-weight finish can be attached to the insulation material and maintain the safety of insulation construction. When the fastener fixing screw penetrates the heat insulating material and is fixed to the channel, the reinforcement mesh and the finishing material are attached to the surface of the heat-insulated material firmly by using adhesive, and the installation of the fixed hardware and the channel is performed as the finishing material is fixed with strong force. By adjusting the position and installation condition, the insulation (heat cross-cutting material) An external insulation construction structure of a building capable of achieving complete flat construction is known.

However, in the case of published patent publication No. 142852 among the above-mentioned prior arts, the anchor bolt can be supported and fixed to reinforce the support force by the external force or the weight of the exterior wall after the construction of the exterior wall of the building, but the anchor bolt corresponding to the concrete wall Since the installation position and condition constitute a floating construction structure, it is difficult to uniformly install between multiple anchor bolts, making it difficult to exert the original function for supporting the exterior wall, and there is a problem that the construction of the exterior wall is deteriorated and the construction quality is deteriorated. .

In addition, in the case of the registered utility model No. 480623 among the above-mentioned prior arts, only the insulation material is fixed on the concrete wall by using structures such as anchor bolts and fasteners together with a fixed hardware and a channel, and the exterior wall chain finishing material is simply attached with an adhesive. Therefore, due to the complicated construction structure, it takes a lot of work time, the construction performance is significantly reduced, and the durability and impact resistance of the overall exterior wall construction including the exterior wall are very low.

KR Publication No. 10-2017-0142852 (December 28, 2017) KR Registered Utility Model Publication No. 20-0480623 (2016.06.09.)

The present invention is to solve the problems as described above, it is configured to be able to adjust the installation position and state of the exterior wall in a lateral direction while collectively fixing the exterior wall and the heat-crossing material to the concrete wall, so construction is easy and the working time An object of the present invention is to provide an external thermal insulation construction structure using a thermal crossing fastener of a building that can shorten and reinforce the durability and impact resistance of external wall construction and at the same time improve the construction quality.

The external insulation construction structure using the heat-crossing fastener of the building proposed by the present invention is an external insulation construction structure in which a heat-crossing material is pressed and fixed to one surface of a concrete wall and fixed so that the exterior wall can be supported in a masonry state at one end. A fixed anchor bolt that is fixedly installed on the basis of the concrete wall and extends through the heat crossing material; A press-fit bracket that is fitted to the fixed anchor bolt and is in surface contact with the heat-crossing material, but is fixedly pushed toward the heat-crossing material based on the fixed anchor bolt; It comprises an; an angle fastener that faces one surface of the compression bracket and is placed in a surface bonding state and penetrates through the fixed anchor bolt to form a horizontal slit ball so that it can be positioned in the left and right width directions.

The crimping bracket is provided with a bent end having an outer end bent toward the heat crossing material.

In addition, the present invention includes a horizontal horizontal slit ball formed at an interval in the angle fastener at a lower side of the horizontal slit ball and is capable of positioning in the horizontal direction in the horizontal direction, and is fixed and fixed in correspondence with the horizontal horizontal slit ball. It is also possible to fix the angle fastener in a position-adjusted state and further include an adjustment support bolt whose one end is in contact with and supported on one surface of the concrete wall.

According to the external insulation construction structure using the heat-crossing fastener of the building according to the present invention, the position of the angle fastener for the installation of the exterior wall to the left and right while constructing so that the exterior wall can be fixed together with the heat-crossing material on the concrete wall Since it is configured to be adjustable, it shortens the construction air while promoting the workability and workability of the external insulation work, and realizes a solid assembly structure of the external wall construction, improving durability and impact resistance, and improving construction quality. Get

1 is a cross-sectional view showing an embodiment according to the present invention.
Figure 2 is a perspective view showing an embodiment according to the present invention.
Figure 3 (a), (b) is an exploded perspective view showing one to two embodiments of the crimp bracket in one embodiment according to the present invention, respectively.
Figure 4 is a cross-sectional plan view partially showing an embodiment according to the present invention.
5 is a cross-sectional view showing another embodiment according to the present invention.

The present invention in the external insulation construction structure for fixing the exterior cross-wall to be supported in a masonry state while compressing and fixing the heat-crossing material on one surface of the concrete wall, fixedly installed on the basis of the concrete wall and penetrates through the heat cross-linking material A fixed anchor bolt formed to be extended; A press-fit bracket that is fitted to the fixed anchor bolt and is in surface contact with the heat-crossing material, but is fixedly pushed toward the heat-crossing material based on the fixed anchor bolt; Thermal cross-cutting of the building, including; an angle fastener that faces one side of the crimp bracket and is placed in a surface-joined state and penetrates to allow the fixed anchor bolts to flow in but forms a horizontal slit ball to be positioned in the left and right width directions. The external insulation construction structure using fasteners is a feature of the technical composition.

Next, a preferred embodiment of the external insulation construction structure using the thermal crossing fastener of the building according to the present invention will be described in detail with reference to the drawings.

First, an embodiment of an external insulation construction structure using a thermal cross-fastening fastener of a building according to the present invention, as shown in FIG. 1, while the thermal cross-linking material 5 is pressed and fixed to one surface of the concrete wall CW, the exterior wall at one end ( 7) In the external insulation construction structure for fixing to be supported in a masonry state, it comprises a fixed anchor bolt 10, a compression bracket 20, and an angle fastener 30.

The fixed anchor bolt 10 is a means having a binding function to securely fix the angle fastener 30 together with the heat crossing material 5, as shown in FIG. 1, based on the concrete wall (CW) The end of the furnace is buried and fixed, and the heat crossing material 5 and the angle fastener 30 are fixed and fixed on the concrete wall CW.

The fixed anchor bolt 10 is formed to protrude based on the concrete wall (CW), but is formed to extend through the heat crossing material (5). That is, the fixed anchor bolt 10 is formed to extend longer than the thickness of the heat crossing material 5 in contact with one surface of the concrete wall CW, and the angle fastener 30 is attached to one end of the fixed anchor bolt 10. The connection is fixed by the fixing nut 15 in a connected state.

The fixed anchor bolt 10 is a set anchor structure, as shown in Figure 1, forming an extended end portion 12 at one end but a fixed bolt member 11 to form a male screw at the opposite end, and the fixed bolt member (11) is fitted to the outside of the pipe member 13 having a variable expansion portion 14 formed to expand the outer diameter corresponding to the expansion end portion 12 and the male screw of the fixing bolt member 11 Correspondingly, it is configured to have a fixing nut 15 for screwing. That is, the anchor bolt 10 is a hole in the concrete wall (CW) and then after inserting the anchor bolt member 11 into the hole and hitting the pipe member 13 with an anchor punch, the anchor bolt member 11 As the variable expansion portion 14 of the pipe member 13 is opened by the expansion end portion 12 of the construction, it is constructed to exhibit seismic resistance (holding force) with the concrete wall CW.

One end of the fixed anchor bolt 10 is configured by screwing the heat insulating cap 19 for heat insulation. That is, the fixing anchor bolt 10 is screwed to the male screw of the fixing bolt member 11 to which the fixing nut 15 is coupled, but wraps the fixing nut 15 to insulate the insulating cap 19 so as to exert an insulating function. It is preferable to configure by applying.

The crimping bracket 20, as shown in FIGS. 1 and 3, is for crimping and fixing the open blocking material 5 together with the fixing anchor bolt 10, and is fitted on the fixing anchor bolt 10 However, it is formed to extend toward the outside with respect to the fixed anchor bolt 10, and is configured to face-to-face to one surface of the heat crossing material (5).

The crimping bracket 20 may be configured as a detachable type that is supported by contact with one end of the pipe member 13 among the fixed anchor bolts 10, as shown in FIG. 3, and the fixed anchor bolt 10 It is also possible to configure the crimping bracket 20 to be integrally formed with one end of the pipe member 13.

The crimping bracket 20 is fixedly pushed toward the heat crossing material 5 around the fixed anchor bolt 10 as a reference, so that the fixing efficiency of the heat crossing material 5 can be improved.

The crimping bracket 20 is provided with a bent end portion 25 in which an outer outer end is bent toward the heat crossing material 5. That is, the crimping bracket 20 is configured to exert a surface contact force toward the heat crossing material 5 and at the same time, the bent binding end 25 may dig into the heat crossing material 5 to create a crimped binding state. .

The crimping bracket 20 is composed of a structure of the bent binding end portion 25 through a binding type and a pressing crimping type.

The first embodiment of the compression bracket 20, as shown in Figure 3 (a), while forming a separate type from the pipe member 13 of the fixed anchor bolt 10, the bent end portion 25 is the thermal bridge Since it is configured as a through binding type formed to extend toward the blocking material 5, it is possible to further improve the fixing efficiency of the heat crossing material 5 according to the coupling of the angle fastener 30.

As shown in FIG. 3(b), the second embodiment of the crimp bracket 20 is formed integrally with the pipe member 13 of the fixed anchor bolt 10, and the bent end portion 25 is the thermal bridge Since it consists of a press-press type curved toward one side of the blocking material 5, it is possible to relatively improve the heat-crossing efficiency as well as the fixing efficiency of the heat-crossing material 5.

The angle fastener 30 faces one surface of the crimping bracket 20 to be installed in a surface bonding state, and performs a function of supporting and fixing in correspondence with the exterior wall 7.

The angle fastener 30, as shown in Figures 1 and 2, is made of a "L" cross-sectional shape and is formed to extend in the width direction of the concrete wall (CW), a plurality of exterior walls 7 are loaded It is supported to be fixed with.

The angle fastener 30 forms a horizontal slit hole 31 through which the fixed anchor bolt 10 can be introduced.

2 and 4, the horizontal slit hole 31 forms a long hole shape extending in the left and right width directions. That is, when the angle fastener 30 is coupled to the fixed anchor bolt 10, a guide space is secured to allow the angle fastener 30 to flow in the left and right width directions, so that the position adjustment of the angle fastener 30 is adjusted. It is possible.

When the exterior wall 7 is loaded, the angle fastener 30 is formed with a variable slit hole 33 that can adjust the installation position for the exterior wall in the horizontal direction.

The variable slit hole 33 also has a structure formed in the horizontal direction in the same direction as the horizontal slit hole 31.

According to the external insulation construction structure using the thermal cross-breaking fastener of the building according to the present invention, while the construction to be able to fix the exterior wall together with the heat cross-linking material on the concrete wall, the position of the angle fastener for the installation of the exterior wall left and right Since it is configured to be adjustable, it is possible to shorten the construction air while promoting the workability and work convenience of the external insulation work, and to improve the construction quality while improving durability and impact resistance by realizing a solid assembly structure of the outer wall construction. .

And another embodiment of the external insulation construction structure using a thermal cross-fastener of the building according to the present invention, as shown in Figure 5, the horizontal slit hole 35 formed in the angle fastener 30 and the adjustable support bolt 40 ).

The support horizontal slit ball 35 is positioned at a lower side of the horizontal slit ball 31, and is formed to extend in the left and right width directions on the angle fastener 30.

The support horizontal slit hole 35 is configured to be capable of adjusting the position of the angle fastener 30 toward the width direction as in the horizontal slit hole 31.

The adjustable support bolt 40 is a structure that can be fixed by adjusting the position of the angle fastener 30, the fixed fastening in correspondence with the support horizontal slit hole 35, but the angle fastener 30 in the position adjustment state To fix.

The adjustable support bolt 40 is formed to extend in a straight direction through the heat crossing material 5 and the support bolt member 41 formed with a male screw at one end, and the support bolt exposed on one side of the angle fastener 30 It is provided with a nut member 43 that is screwed in correspondence with the male screw of the member 41.

The adjustment support bolt 40 is formed to extend in correspondence with the horizontal slit hole 31, and is configured such that one end is contacted and supported on one surface of the concrete wall CW.

That is, if the present invention is configured as in the other embodiments described above, it is possible to achieve a stable mounting efficiency of the angle fastener 30 for supporting and fixing the exterior wall 7 while being simple to install.

In the other embodiments described above, since it is possible to carry out the same configuration as in the above-described one embodiment except for the above-described configuration, detailed description is omitted.

In the above, a preferred embodiment of the external insulation construction structure using the thermal crossing fastener of the building according to the present invention has been described, but the present invention is not limited to this, and is not limited to the claims, the specification of the invention and the scope of the accompanying drawings. It is possible to carry out by modifying to, this also falls within the scope of the present invention.

10: fixed anchor bolt 11: fixed bolt member
12: expansion end 13: pipe member
14: variable extension 15: fixing nut
19: insulation cap 20: crimping plate
25: bent end 30: angle fastener
31: horizontal slit ball 33: variable slit ball
35: Horizontal Slit Ball 40: Adjustable Support Bolt
41: support bolt member 43: nut member

Claims (3)

In the external insulation construction structure to fix the thermal cross-linking material to one side of the concrete wall by pressing and fixing to support the exterior wall in a masonry state at one end,
A fixed anchor bolt which is fixedly installed on the basis of the concrete wall and extends through the heat crossing material;
A press-fit bracket that is fitted to the fixed anchor bolt and is in surface contact with the heat-crossing material, but is fixedly pushed toward the heat-crossing material based on the fixed anchor bolt;
Thermal cross-cutting of the building, including; an angle fastener that faces one side of the crimp bracket and is placed in a surface-joined state and penetrates through the fixed anchor bolt to form a horizontal slit ball so that it can be positioned in the horizontal direction. External insulation construction structure using fasteners.
The method according to claim 1,
The crimping bracket has an outer insulation construction structure using a heat-crossing fastener of a building, including a bent end having an outer end bent toward the heat-crossing material.
The method according to claim 1 or claim 2,
In the angle fastener, a horizontal slit ball is provided at a lower side of the horizontal slit ball and is formed to be able to adjust the position in the horizontal direction.
External insulation using a heat-crossing fastener of a building, which is fixed in correspondence with the support horizontal slit ball, but fixes the angle fastener in a position-adjusted state, and further includes an adjustment support bolt whose one end is in contact with and supported on one surface of the concrete wall. Construction structure.

Images