KR101605361B1 - Panel anchorage for building and install method thereof - Google Patents

Abstract

The present invention relates to a panel fixing device for a building, which comprises a coupling part which is inserted into a building wall body at one side and which extends outside the building wall body, a fixing part which fixes one side of the coupling part to the building wall body, And a first support member which is positioned between the fixing member and the support member and surrounds the outer surface of the coupling member, And the other end of the receiving member may be pressed and formed.

Description

[0001] PANEL ANCHORAGE FOR BUILDING AND INSTALL METHOD THEREOF [0002]

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

Generally, building exterior panels are usually made in a rectangular shape and attached to the outer wall of the building to provide the effect of protecting and decorating the outer wall. Up to now, it has been possible to selectively remove the finishing materials such as stone, glass, tile, Has been used.

However, due to the revision of the law, when such a stone panel is installed on the outer wall of a building, it is required to install a heat insulator of a certain thickness or more between the outer wall of the building and the stone panel.

Conventional building exterior panel construction method constitutes the outer wall of a building, after inserting insulation material, drilling a hole with a thermal insulation material and a wall of a building, inserting an anchor bolt, installing a fastener, aligning the horizontal and vertical of the fastener, It is common to install external panels.

In this case, the anchor bolt and the building wall may be poorly combined, resulting in a safety problem. When the panel is installed on the building wall, there is a problem that the anchor bolt is bent or sagged down due to the load of the panel.

Further, there is a problem that the thickness of the outer wall is increased because a certain space is required for coupling the fastener and the anchor bolt, or the heat exchanging phenomenon is strengthened by the absence of the heat insulating material in the fastener portion.

SUMMARY OF THE INVENTION The present invention is conceived to solve the problems as described above, and it is an object of the present invention to provide a panel fixing device for a building, which is capable of increasing a coupling force between a building panel and a building wall, So that it does not fall down.

Another object of the present invention is to provide a straight supporting member which is engaged with a coupling member on one side and with a building panel on the other side.

The technical object of the present invention is not limited to the above-mentioned technical objects and other technical objects which are not mentioned can be clearly understood by those skilled in the art from the following description will be.

In order to accomplish the above object, according to the present invention, there is provided a panel fixing device for a building according to the present invention, comprising: a fixing part inserted into one side of a building wall and another side extending outwardly from the building wall; A supporting member provided on one side of the fixing part, the other side of which is provided with a supporting part for supporting the building panel, and a support part on the other side of the fixing part, which is located between the fixing part and the supporting member, And the first receiving part may be formed by pressing the other end of the receiving part.

The receiving member may have a circular cross section at least at a portion thereof, and the receiving portion may be formed by pressing a portion of the receiving member having a circular cross section from the upper and lower sides toward the center.

In the construction panel fixing apparatus according to the present invention, one end of the support member and one end of the first support can be in contact with each other.

At least a portion of the first support member may extend to the outside of the building wall to prevent warpage of the coupling member in the longitudinal direction.

Wherein the heat insulating material is laminated on the building wall body and one side of the fitting hole is inserted into the building wall through the heat insulating material and the other side of the fitting hole extends to the outside of the heat insulating material, And the other side of the receiving member may extend outside the heat insulating material.

The support portion may include a hole into which a coupling pin for supporting the building panel is inserted.

The coupling pins may be inserted into the holes and both sides thereof may be fixed to the building panel to support the building panel.

The coupling pin may be coupled to the building panel and / or the hole by an adhesive.

In the building panel fixing apparatus according to the present invention, the bolt portion is located on the other side of the coupling hole, and a nut portion that is coupled to the bolt portion may be located at one side of the receiving member.

The construction panel fixing device according to the present invention may include an adhesive for bonding the inner surface of the receiving member to the coupling hole.

Part of the supporting member may be in the form of a hollow cylinder, a cylindrical cylinder, a rectangular cylinder, or a polygonal cylinder, or may be in the form of any one of a hollow cylindrical cylinder, an elliptical cylinder, a square cylinder and a polygonal cylinder.

The first support may include a support portion located outside the building wall body and an insertion portion extending from the support portion and inserted into the building wall body. The outer diameter of the insertion portion and the outer diameter of the support portion may be different.

The fixing portion may include an anchor cap inserted into the coupling hole or inserted into the fixing portion to couple the coupling hole and the building wall.

In the construction panel fixing apparatus according to the present invention, the first support and the anchor cap may be integrated.

The fixing portion may include an adhesive for coupling the coupling hole and the building wall.

In the building panel fixing apparatus according to the present invention, a spacing space exists between the inner surface of the first support and the outer surface of the coupling hole, and the supplementary material may be located in the spacing space.

The construction panel fixing apparatus according to the present invention has an inner diameter corresponding to an outer diameter of one side of the receiving member and an outer diameter of the first supporting base and is positioned to surround at least a part of the outer side of the receiving member and at least a part of the outer side of the first supporting base And a second support, wherein the second support may include a support positioned outside the building wall.

The second support base may further include an insertion portion extending from the support portion and inserted into the building wall.

The construction panel fixing apparatus according to the present invention has a spacing space between the inner surface of the second support and the outer surface of one side of the support member or between the inner surface of the second support and the outer surface of the first support, Can be located.

One side of the supporting member and the second supporting base can be joined by welding or screw coupling.

The first support and the second support may be integrally formed.

The first support and the support member may be integrally formed.

The method for installing a building panel fixing device according to the present invention includes the steps of (a) inserting a coupling hole into a hole of a building wall, and (b) coupling a supporting member to the other side of the coupling hole, A receiving portion having a shape corresponding to a receiving portion of the receiving member and coupled with the receiving portion, and an electric drill coupled with the receiving portion, wherein the electric drill rotates the receiving portion coupled with the receiving portion So that the receiving member and the coupling member can be engaged with each other.

The construction panel fixing apparatus according to the present invention is characterized in that the support portion on the other side of the support member coupled with the building panel is formed in a straight shape and one side of the support member is directly coupled with a coupling member for coupling with the building wall, And strengthening the bonding strength between the building wall and the building panel and reducing the production cost.

Also, it is possible to reduce the free space between the heat insulating material and the building panel to enhance the heat exchange blocking effect.

A coupling member for coupling with a wall of a building or a support member for coupling with a building panel is reinforced by a support to effectively support the weight of the construction panel to prevent deformation of the coupling member or the support member.

It is possible to increase the safety of the building by increasing the bonding force between the insertion part of the support and the building wall, even if the strength of the wall of the building is weak, by connecting the insertion part or the coupling part of the support to the building wall. Further, the bonding strength can be enhanced by using an adhesive, for example, between the first support and the joint, between the second support and the support, between the second support and the first support, between the nut of the support and the bolt of the joint.

The electric drill can rotate the receiving portion corresponding to the receiving portion and rotate the receiving portion coupled with the receiving portion so that the nut portion of the receiving member and the bolt portion of the coupling hole are screwed together to simplify the construction.

1 is a perspective view of a supporting member of a building panel fixing apparatus according to a first embodiment of the present invention and its modified examples.
2 is a perspective view of a support of a panel fixing device for a building according to a first embodiment of the present invention and a modification thereof.
3 to 4 are sectional views of a building panel fixing apparatus according to a first embodiment of the present invention and modifications thereof.
5 to 8 are sectional views of a building panel fixing apparatus according to a second embodiment of the present invention and a modification thereof.
FIG. 9 is a sectional view of a receiving part and a receiving member used in a method of installing a building panel fixing device according to the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference numerals even though they are shown in different drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the difference that the embodiments of the present invention are not conclusive.

In describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected,""coupled," or "connected. &Quot;

Hereinafter, a fixing device for a building panel 20 according to a first embodiment of the present invention and modifications thereof will be described in detail with reference to the drawings.

Fig. 1 is a perspective view of a supporting member 300 of a fixing device for a building panel 20 according to a first embodiment of the present invention and a modified example thereof. Fig. 2 is a perspective view of a constructional module according to a first embodiment of the present invention, 3 to 4 are sectional views of a fixing device for a building panel 20 according to a first embodiment of the present invention and a modified example thereof.

The fixing device for a building panel 20 according to an exemplary embodiment of the present invention includes a coupling 100, a fixing part 200, a supporting member 300, a first supporting part 400, a coupling pin 500, . ≪ / RTI >

For example, the fixing device for the building panel 20 may include metal such as iron, zinc, and aluminum, and may be used to fix the building panel 20 to the building wall body 10.

The building panel 20 fixing device includes a coupling 100 inserted into one side of the building wall 10 and the other side extending outside the building wall 10, A support member 300 provided on the other side of the support panel 310 for supporting the building panel 20 and a support member 300 provided on the other side of the support panel 310 for supporting the building panel 20, And a first support unit 400 positioned between the fixing unit 200 and the support member 300 and surrounding the outer surface of the coupling unit 100. The support unit 310 includes a support base 310, And the other end of the member 300 may be pressed and formed. A heat insulating material 30 is laminated on the building wall 10 and one side of the coupling hole 100 is inserted into the building wall 10 through the heat insulating material 30, (30) may extend outside the heat insulating material (30).

The coupling member 100 engages with the receiving member 300 to be described later and serves to connect the building panel 20 to the wall 10 of the building. A portion of the coupling member 100 inserted into the building wall 10 is referred to as one side of the coupling member 100 and a portion of the coupling member 100, which extends outside the building wall 10, . The coupling member 100 may be installed such that one side of the coupling hole 100 is inserted into the wall 10 of the building through the heat insulating material 30 mounted on the wall 10 of the building.

As can be seen from the example of FIG. 3, the portion of the joint 100 that is inserted into the building wall 10 may have a truncated cone shape 120 at its end portion, and the outside diameter may increase. When the end of the insertion portion of the building wall 10 of the coupling member 100 is formed of the truncated cone shape 120, the anchor cap 210 described later strengthens the coupling between the building wall body 10 and the coupling hole 100 You can contribute.

The fixing part 200 of the fixing device of the building panel 20 is inserted into the coupling part 100 or the coupling part 100 is inserted into the fixing part 200, And an anchor cap 210 that couples the body 10 to the anchor cap 210. The fixing part 200 may include an adhesive 220 for coupling the coupling hole 100 and the building wall body 10. The fixing part 200 serves to connect the coupling hole 100 and the wall 10 of the building and may include an anchor cap 210 and an adhesive 220 described later.

The anchor cap 210 is inserted into the coupling hole 100 or the coupling hole 100 is inserted into the anchor cap 210 to couple the coupling hole 100 and the building wall body 10 together. 3, when the anchor cap 210 is inserted into the coupling hole 100, the end of the first support 400, which will be described later, is inserted into the building wall body 10 at one side of the coupling hole 100 And the anchor cap 210 having the anchor cap 210 is brought into contact. When the supporting member 300 and the other side of the coupling member 100 are engaged with each other, the coupling member 100 can be pulled toward the supporting member 300, and one end of the supporting member 300 and the first supporting member 400 The first support base 400 pushes the anchor cap 210 toward the building wall body 10 side. When the first support platform 400 pushes the anchor cap 210 toward the wall 10 of the building, the anchor cap 210 opens while passing through the truncated cone shape 120 of the coupling hole 100, The anchor cap 210 is coupled to the building wall body 10 and the coupling hole 100. As illustrated in FIG. 6, the coupling member 100 may be inserted into the anchor cap 210.

The adhesive 220 joins the building 100 with the anchor cap 210 and the building wall 10. The adhesive 220 may be used when it is difficult to fix the wall 10 of the building with the anchor cap 210 because the strength is weak. When the adhesive 220 is used for the fixing part 200, the portion of the coupling member 100 to be inserted into the building wall body 10 is not threaded, so that the contact area between the adhesive 220 and the coupling hole 100 is widened. A shape 130 or a groove (not shown) may be formed.

As the adhesive 220, a strong adhesive 220 having a higher strength than concrete containing components such as epoxy adhesive, polyester, urethane, and acrylic may be used. After the adhesive 220 is injected into the building wall body 10 in which the coupling hole 100 is inserted and the adhesive agent 220 is cured to bond the coupling hole 100 and the building wall body 10, The construction panel 20 can be coupled to the coupling member 100 by using the joining member 100.

The construction panel 20 fixing device can contact one end of the support member 300 and one end of the first support 400, which will be described later. At least a part of the first support member 400 may extend outside the building wall body 10 to prevent a warping of the coupling member 100 in the longitudinal direction.

The first support base 400 is positioned between the fixing unit 200 and the receiving member 300 to be described later so that the coupling hole 100 is formed in a pipe shape surrounding the outer surface of the coupling hole 100, And serves to prevent deformation such as warping or sagging due to a load received from the building panel 20 to be mounted. The gap between the inner surface of the first support table 400 and the outer surface of the coupling hole 100 may be narrowed so that the inner diameter of the first support table 400 and the outer diameter of the coupling hole 100 correspond to each other.

There is a spacing space between the inner surface of the first support base 400 and the outer surface of the coupling aperture 100, and the replenishing material 600 may be located in the spacing space. As described above, there may be a gap between the first support member 400 and the coupling member 100. If there is a gap, the first support member 400 can rotate around the coupling member 100, 400 to the coupling member 100 is reduced. The filler material 600 functions to fix the first support member 400 to the coupling member 100 by filling a gap between the first support member 400 and the coupling member 100.

For example, the filler material 600 may be made of plastic, aluminum, iron, copper, or the like, and the strong adhesive 220 described above may be used.

The first support platform 400 may be formed only in a portion of the heat insulating material 30 mounted on the outside of the building wall 10 but may be extended to be inserted into the building wall 10. As can be seen in the example of FIG. 2, the first support 400 may be in the form of a barrel that is open in the longitudinal direction. For example, the first support member 400 may be formed in any one of a cylindrical shape, a cylindrical shape, a rectangular shape, and a polygonal shape.

The first support member 400 and the anchor cap 210 may be integrally formed. When the anchor cap 210 and the first support 400 are integrally formed, the anchor cap 210 may be inserted into the coupling hole 100. When the first support 400 and the anchor cap 210 are integrally formed, the first support 400 and the anchor cap 210 are separated from each other, The supporting force or the coupling force with the building wall body 10 can be increased.

The first support platform 400 includes a support 410 positioned outside the building wall 10 and an insertion part 420 extending from the support 410 and inserted into the building wall 10, The outer diameter of the inserting part 420 and the outer diameter of the supporting part 410 may be different.

The supporting part 410 is installed on the first supporting part 400 located at the part of the heat insulating material 30 when the first supporting part 400 is inserted into the building wall 10 through the heat insulating material 30 attached to the building wall body 10 400) part of the system.

The inserting portion 420 refers to a portion of the first support 400 inside the building wall 10 when the first support 400 is inserted into the building wall 10.

4, the support 410 and the insertion portion 420 of the first support 400 are integrally formed and the outer diameter of the support portion 410 is larger than the outer diameter of the insertion portion 420 have. The outer diameter of the inserting portion 420 may be smaller than the outer diameter of the supporting portion 410 so that the inner wall of the building wall 10 may be small and the outer diameter of the supporting portion 410 is larger than the outer diameter of the inserting portion 420 It is possible to enhance the supporting force with respect to the coupling member 100.

The support member 300 of the construction panel 20 has at least a part of a circular cross section and the support member 310 has a circular cross section of the support member 300, As shown in Fig. One side of the receiving member 300 may pass through the heat insulating material 30 and be in contact with the first supporting member 400 and the other side of the receiving member 300 may extend outside the heat insulating member 30.

The supporting member 300 may include a receiving portion 310 and a nut portion 330. The receiving portion 310 may be coupled to the coupling member 100 and the receiving portion 310 may be coupled to the building panel 20 So as to connect the building panel 20 to the building wall body 10. The side where the support member 300 is engaged with the coupling member 100 is referred to as one side of the support member 300 and the side where the support member 300 is engaged with the construction panel 20 is referred to as the other side of the support member 300. One side of the supporting member 300 can be threadedly engaged with the coupling member 100 through the heat insulating member 30 provided on the building wall body 10 and the other side of the supporting member 300 can be connected to the heat insulating member 30 And can be coupled to the building panel 20.

The support member 300 may have a thickness that supports the load applied to the support member 300 by the building panel 20 so that the support member 300 does not bend or sink. In one example, the support member 300 may be fabricated as a hollow pipe in the form of a cylinder, or may be manufactured using a hollow cylindrical shape.

(Not shown) having an inner diameter larger than the outer diameter of the support member 300 may be used to slightly move the construction panel 20 fixing device inserted into the building wall body 10 to the upper, And the support member 300 can be adjusted.

The receiving portion 310 is located on the other side of the receiving member 300 and may be formed by pressing the other end of the receiving member 300 with a press (not shown). The receiving portion 310 may be formed by pressing the upper and lower sides of the receiving member 300 in a direction perpendicular to the longitudinal direction of the receiving member 300. The receiving portion 310 may have a flat shape unlike the nut portion 330 which is pressed and not pressed, and the portion of the receiving portion 310 adjacent to the nut portion 330 may be inclined.

As can be seen in the example of FIG. 1, the pedestal 310 may be flat and positioned between the building panels 20. The building panel 20 located at the upper and lower sides of the pedestal 310 can be coupled to the pedestal 310 with the coupling pin 500 or the adhesive 220 described later.

Since the support portion 310 formed integrally with the nut portion 330 is coupled to the building panel 20, a support angle (not shown) that is a separate member for coupling the building panel 20 and the support member 300 is required The working process is simplified and the space occupied by the supporting angle or the like is not required, so that the thickness of the outer wall of the building can be reduced. Also, since the support member 300 can be installed through the heat insulating material 30, the heat exchange phenomenon caused by the absence of the heat insulating material 30 in the space occupied by the support angle or the like can be reduced.

The support part 310 may include a hole 320 into which a coupling pin 500 for supporting the building panel 20 is inserted. The coupling pin 500 may be inserted into the hole 320 and both sides thereof may be fixed to the building panel 20 to support the building panel 20. The coupling pin 500 may be coupled to the building panel 20 and / or the hole 320 by an adhesive 220.

The support portion 310 may include a hole 320 to allow a member for firmly coupling the building panel 20 and the support member 300 to be engaged.

3, the coupling pin 500 passes through the hole 320 formed in the receiving portion 310 so that both sides of the coupling pin 500 pass through the holes 320 formed in the upper and lower portions of the receiving portion 310, And can be inserted into the grooves 21 formed in the panel 20 to join the support part 310 and the building panel 20 together.

The engaging pin 500 can be engaged with the hole 320 of the receiving portion 310 by the adhesive 220. Or the adhesive 220 may be positioned in the groove 21 of the building panel 20 to enhance the bonding between the binding pin 500 and the building panel 20. [ Of course, the adhesive 220 is positioned in both the hole 320 of the receiving part 310 and the groove 21 of the building panel 20 and is positioned between the coupling pin 500 and the receiving part 310 and the coupling pin 500 The bonding strength of the building panel 20 can be enhanced.

The adhesive 220 can bond the building panel 20 and the receiving part 310 even when the coupling pin 500 is not used, The holes 320 may not be formed. Even if the coupling pin 500 is not used, the adhesive 320 is positioned in the hole 320 when the hole 320 is formed in the receiving portion 310, (20) can be strengthened.

A bolt 110 is positioned on the other side of the coupling member 100 and a nut 330 coupled to the bolt 110 may be positioned on one side of the supporting member 300. The building panel 20 fixing device may include an adhesive 220 for bonding the inner surface of the receiving member 300 to the coupling hole 100.

One side of the supporting member 300 may be engaged with the other side of the coupling member 100 to fix the supporting member 300 to the coupling member 100. For example, if a helical groove is formed on the other side of the coupling member 100 to enhance the coupling force between the supporting member 300 and the coupling hole 100, 300 may serve as a nut 330 by forming a spiral groove on one side of the receiving member 300 to be engaged with the bolt 110 of the coupling member 100. For example, when a cylindrical member is used as the support member 300 as described above, when a helical groove is formed on the inner surface of the cylinder, or when a cylindrical member is used as the support member, A recessed portion may be formed on one side of the coupling member 100 and screwed into the bolt portion 110 of the coupling member 100.

The building panel 20 fixing device may include an adhesive 220 for bonding the inner surface of the receiving member 300 to the coupling hole 100. 4, the adhesive 220 may be positioned between the supporting member 300 and the coupling member 100 to couple the supporting member 300 and the coupling member 100 together . In one example, the adhesive 220 can be used to enhance the bonding strength even when the supporting member 300 and the coupling member 100 are screwed as described above.

As the adhesive 220, a strong adhesive 220 having a higher strength than the above concrete may be used. After the adhesive 220 is injected between the supporting member 300 and the coupling hole 100 and the adhesive 220 is hardened to join the supporting panel 300 and the coupling hole 100, .

A part of the support member 300 may be in the form of a hollow cylinder, a cylindrical cylinder, a rectangular cylinder, a polygonal cylinder, or a form of a hollow cylinder, an elliptical cylinder, a square cylinder or a polygonal cylinder. The shape of the support member 300 is not limited to a specific shape.

For example, a portion of the support member 300 may be in the form of a barrel that is a hollow pipe, or it may be in the form of a column that is not hollow as shown in the example of FIG.

Hereinafter, a fixing device for a building panel 20 according to a second embodiment of the present invention and modifications thereof will be described in detail with reference to the drawings.

5 to 8 are sectional views of a fixing device for a building panel 20 according to a second embodiment of the present invention and modifications thereof.

The fixing device for a building panel 20 according to an exemplary embodiment of the present invention includes a coupling 100, a fixing part 200, a supporting member 300, a first supporting part 400, a coupling pin 500, And a second support 700.

The coupling member 100, the fixing unit 200, the supporting member 300, the first supporting member 400, the coupling pin 500, the filling material 600, and the like are similar to those of the first embodiment of the present invention, (20) The description of the fixing device can be applied analogously.

The fixing device for building panel 20 has an inner diameter corresponding to an outer diameter of one side of the receiving member 300 and an outer diameter of the first supporting member 400 and at least a part of the outer surface of the receiving member 300, 400 and a second support 700 positioned to surround at least a portion of the exterior surface of the building wall 10. The second support 700 may include a support 410 positioned outside the building wall 10. The second support platform 700 may further include an insertion portion 720 extending from the support portion 710 and inserted into the building wall body 10.

The second support 700 includes a support member 300 and a coupling member 100 in the form of a pipe surrounding at least a part of the outer surface of the support member 300 and at least a part of the outer surface of the first support 400, Of the building panel 20 is prevented from being bent or sagged by a load received from the building panel 20 mounted on the building wall body 10. At least a portion of the inner surface of the second support table 700 and the outer surface of the support member 300 are formed so as to correspond to at least a portion of the inner diameter of the second support table 700 and at least a part of the outer diameter of the support member 300, At least a part of the outer surface of the first support table 400 may be formed to have a narrow gap.

There is a spacing space between the inner surface of the second support table 700 and the outer surface of one side of the support member 300 or between the inner surface of the second support table 700 and the outer surface of the first support table 400, The replenishing material 600 may be located. A gap may exist between the second support 700 and the first support 400 or between the second support 700 and the support 300 as described above and if there is a gap, The second support 700 can be rotated about the first support 400 or the support 300 so that the support force of the second support 700 with respect to the first support 400 or the support 300 can be reduced.

The filler material 600 fills the gap between the second support 700 and the first support 400 or the gap between the second support 700 and the support 300 so that the second support 700 is supported by the first support 700, (400) or the supporting member (300). For example, the filler material 600 may be made of plastic, aluminum, iron, copper, or the like, and the strong adhesive 220 may be used.

The second support platform 700 may be formed as a support portion 710 located only outside the building wall body 10 but may further include an insertion portion 720 inserted into the building wall body 10. As can be seen in the example of FIG. 2, the second support 700 may be in the form of a barrel that is open in the longitudinal direction. For example, the second support 700 may be formed in any one of a cylindrical shape, a cylindrical shape, a rectangular shape, and a polygonal shape.

When the second support 700 is inserted into the building wall 10 through the heat insulating material 30 attached to the building wall 10, the support 710 of the second support 700 is installed in the building wall 10, And the insertion portion 720 of the second support 700 refers to a portion of the second support 700 inside the building wall 10. [

One side of the support member 300 and the second support 700 can be coupled by welding 40 or by screwing. As can be seen in the example of FIG. 6, one side of the support member 300 and the second support 700 can be joined by the weld 40. 7, a helical groove is formed on the outer surface of one side of the receiving member 300 to serve as a bolt 50, and a spiral-shaped groove (not shown) is formed on the inner surface of the second supporting table 700, So that the support member 300 and the second support 700 can be screwed together. The welding 40 or the threading of the support member 300 and the second support 700 may enhance the coupling force between the support member 300 and the second support 700 to prevent the construction panel 20 Can be improved.

The first panel 400 and the second panel 700 may be integrally formed with each other. 7, the portion of the first supporting member 400 on the supporting member 300 side and the portion of the second supporting member 700 on the building wall body 10 side may be connected to form a single member have. When the first support 400 and the second support 700 are integrally formed, the coupling force between the first support 400 and the second support 700 is strengthened so that the load applied to the building wall 10 by the building panel 20 Can be more stably supported.

The first panel 400 and the second panel 300 may be integrally formed with the first panel 400. For example, as shown in the example of FIG. 8, The support member 300 and the first support member 400 may be integrally formed. When the support member 300 and the first support 400 are integrally formed, the coupling force is strengthened and the load of the building panel 20 can be effectively supported.

Hereinafter, an installation method of the fixing device for building panel 20 according to the present invention will be described in detail with reference to the drawings.

9 is an exploded cross-sectional view of a receiving portion 800 and a receiving member 300 used in a method of installing a fixing device for a building panel 20 according to the present invention.

The fixing device for a building panel 20 according to an exemplary embodiment of the present invention includes a coupling 100, a fixing part 200, a supporting member 300, a first supporting part 400, a coupling pin 500, And a second support 700.

The coupling member 100, the fixing unit 200, the supporting member 300, the first supporting member 400, the coupling pin 500, the filling material 600, and the like are similar to those of the first embodiment of the present invention, The description of the fixing device for the building panel 20 may be applied in analogy and the description of the fixing device for the building panel 20 according to the second embodiment of the present invention may be applied to the second supporting panel 700 in advance.

The method for installing the fixing panel of the building panel 20 includes the steps of (a) inserting the coupling hole 100 into the hole of the building wall 10, and (c) connecting the supporting member 300 to the other side of the coupling hole 100 (b), wherein the receiving part (800) has a shape corresponding to the receiving part (310) of the receiving member (300) and is engaged with the receiving part (310) The electric drill includes an electric drill (not shown) coupled to the receptacle 800. The electric drill rotates the receptacle 800 coupled with the receptacle 310 to rotate the receptacle 300, (100).

A method of installing the fixing device of the building panel 20 will be described. First, a hole can be drilled in the wall 10 of the building to insert the coupling hole 100 therein.

(a) is a step of inserting the coupling member 100 into the building wall body 10. When the anchor cap 210 inserted into the coupling hole 100 is used, the anchor cap 210 is inserted into the coupling hole 100 before the coupling hole 100 is inserted into the building wall body 10, 100 can be inserted into the building wall 10.

Next, the first support member 400 may be inserted into the coupling member 100. The insertion of the first support member 400 into the coupling member 100 can be performed before the step (a). When the anchor cap 210 is inserted into the coupling hole 100, the first support 400 may be inserted after the anchor cap 210 is inserted into the coupling hole 100.

(b) is a step of coupling the coupling member 100 and the supporting member 300. (b) is a step of joining one side of the supporting member 300 and the other side of the coupling hole 100, or may be a screw coupling or an adhesive 220, or a combination of the screw coupling and the adhesive 220, (100) and the supporting member (300).

When the coupling member 100 and the supporting member 300 are screwed together, the bolt portion 110 is positioned on the other side of the coupling member 100 and the bolt portion 110 The nut portion 330 may be positioned at a position corresponding to the nut portion 330.

The supporting member 300 and the coupling member 100 can be screwed to each other by using the electric drill including the receiving portion 800. [ 9, the receiving portion 800 is engaged with the receiving portion 310 of the receiving member 300 so that one side of the receiving portion 800 can engage with the receiving portion 310 And the other side of the receiving portion 800 can be engaged with the electric drill. The electric drill rotates the receiving portion 800 and the receiving portion 310 coupled to the receiving portion 800 is rotated together so that the nut portion 330 of the receiving member 300 is inserted into the bolt portion 110).

9, the receiving portion 800 includes a shape corresponding to the receiving portion 310, and includes the receiving portion 310 and the receiving portion 310 in the vertical direction on the narrow view of the receiving portion 310, Or may engage with the receiving portion 310 in a wide width direction of the receiving portion 310. [

The fixing device for a building panel 20 according to the present invention is a device for fixing a building panel 20 such that a support portion 310 coupled to a building panel 20 is formed in a straight shape and a nut portion 330 of the support member 300 is engaged with a building wall 10 The space between the building wall 10 and the building panel 20 can be reduced and the coupling strength between the building wall 10 and the building panel 20 can be enhanced. Also, the void space between the heat insulating material 30 and the building panel 20 can be reduced to enhance the heat exchange blocking effect.

The coupling member 100 or the supporting member 300 is reinforced by the supporting members 400 and 700 to effectively support the weight of the building panel 20 and prevent deformation of the coupling member 100 or the supporting member 300 .

The electric drill rotates the receiving part 800 corresponding to the receiving part 310 and rotates the receiving part 310 coupled with the receiving part 800 to rotate the receiving part 300 and the coupling part 100 It can be screwed into a simple construction.

Although the exemplary embodiments of the present invention have been described for the sake of convenience, the exemplary embodiments of the present invention may be embodied together, and some of the exemplary embodiments may be combined.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. That is, within the scope of the present invention, all of the components may be selectively coupled to one or more of them. Furthermore, the terms "comprises", "comprising", or "having" described above mean that a component can be implanted unless otherwise specifically stated, But should be construed as including other elements. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used terms, such as predefined terms, should be interpreted to be consistent with the contextual meanings of the related art, and are not to be construed as ideal or overly formal, unless expressly defined to the contrary.

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 intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. 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 thereof should be construed as falling within the scope of the present invention.

100: coupling part 110: bolt part
200: fixing part 210: anchor cap
220: Adhesive 300: Support member
310: receiving portion 320: hole
330: nut part 400: first support part
410: first support support part 420: first support part insertion part
500: coupling pin 600: supplementary material
700: second support frame 710: second support frame support
720: second support base insertion part 800:

Claims (23)

One side of which is inserted into the building wall body, the other side of which extends outside the building wall and in which the bolt part is located;
An anchor cap inserted into the coupling hole and fixing one side of the coupling hole to the building wall;
A support member having a nut portion for coupling with the bolt portion of the coupling hole on one side and a support portion for supporting the building panel on the other side; And
And a first support member positioned to surround the outer surface of the coupling member and inserted into the building wall body,
Wherein the receiving portion is formed by pressing the other end of the receiving member,
Wherein the first support is located between the support member and the anchor cap and has one side abutting one side of the support member and the other side abutting one side of the anchor cap,
The support member pulls the engagement hole and at the same time the support member pushes the first support rod and the first support rod presses the anchor cap so that the anchor cap is pushed by the anchor cap and the nut member of the support member is engaged with the bolt portion of the engagement hole, And the cap engages the coupling member and the building wall.
The method according to claim 1,
Said support member having a circular cross-section at least in part,
Wherein the receiving portion is formed by pressing a portion of the receiving member having a circular cross section from the upper and lower sides toward the center direction.
delete The method according to claim 1,
Wherein at least a portion of the first support member extends to the outside of the building wall to prevent warping of the coupling member in the longitudinal direction.
The method according to claim 1,
The building wall is laminated with a heat insulating material,
One side of the coupling hole penetrates through the heat insulating material and is inserted into the building wall body,
And the other side of the coupling hole extends outside the heat insulating material,
Wherein one side of the receiving member passes through the heat insulating material and contacts the first supporting base,
And the other side of the supporting member extends outside the heat insulating material.
The method according to claim 1,
Wherein the support portion includes a hole into which an engagement pin for supporting the building panel is inserted.
The method according to claim 6,
Wherein the coupling pin is inserted into the hole and both sides thereof are fixed to the building panel to support the building panel.
8. The method of claim 7,
Wherein the coupling pin is coupled to the building panel and / or the hole by an adhesive.
delete The method according to claim 1,
And an adhesive for joining the inner surface of the support member and the engagement hole.
delete The method according to claim 1,
Wherein the first support includes a support portion located outside the building wall body and an insertion portion extending from the support portion and inserted into the building wall body,
Wherein an outer diameter of the insertion portion is different from an outer diameter of the support portion.
delete The method according to claim 1,
Wherein the first support and the anchor cap are integrated.
The method according to claim 1,
And an adhesive for joining the joining portion and the building wall body.
The method according to claim 1,
A spacing space exists between the inner surface of the first support and the outer surface of the coupling aperture,
Wherein the supplementary material is located in the spacing space.
The method according to claim 1,
Further comprising a second support having an inner diameter corresponding to an outer diameter of the one end of the support member and an outer diameter of the first support and positioned to surround at least a part of the outer surface of the support member and at least a part of the outer surface of the first support,
And the second support base includes a support portion located outside the building wall.
18. The method of claim 17,
Wherein the second support base further includes an insertion portion extending from the support portion and inserted into the building wall.
18. The method of claim 17,
There is a spacing space between the inner surface of the second support and the outer surface of the support member, or between the inner surface of the second support and the outer surface of the first support,
Wherein the supplementary material is located in the spacing space.
18. The method of claim 17,
And one side of the supporting member is coupled to the second supporting base by welding or screw engagement.
18. The method of claim 17,
Wherein the first support and the second support are integrally formed.
18. The method of claim 17,
Wherein the first support and the support member are integrally formed.
(a) inserting an anchor cap into a fitting and then inserting a first support into the fitting;
(b) inserting one side of a coupling hole on the other side where the bolt is located into the hole of the building wall; And
(c) engaging the nut portion of the receiving member with the nut portion on one side and the receiving portion on the other side and the bolt portion of the coupling means,
The step (c)
A receiving portion having a shape corresponding to the receiving portion and engaging with the receiving portion; And
And an electric drill coupled to the receiving portion,
The electric drill rotates the receiving portion coupled with the receiving portion to engage the nut portion of the receiving member with the bolt portion of the coupling hole so that the receiving member pulls the coupling hole and at the same time, Wherein the anchor cap pushes the anchor cap, and the first support base pushes the anchor cap so that the anchor cap engages the building wall.

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