KR101847827B1 - Exterior panel anchorage for building, and outer wall and exterior panel install method with form combined with insulation - Google Patents

Abstract

The present invention relates to an exterior panel fixing apparatus for a building and a method of constructing an exterior panel and a building exterior panel using a mold combined with a heat insulator, wherein the exterior panel fixing apparatus for building comprises a panel supporting portion to which a building exterior panel is fixed, The panel support having a first edge and a second edge that meets the first edge, the leg comprising a first engagement portion spaced apart from and engaging the first edge, and a second engagement portion spaced apart from the second edge, The first and second coupling portions are symmetrically formed and are orthogonal to each other. The first coupling portion and the second coupling portion are located at the ends of the leg portions and embedded in the concrete for forming the outer wall of the building And a fixing part for increasing the bonding force of the building to the concrete outer wall.

Description

TECHNICAL FIELD [0001] The present invention relates to an exterior panel for a building, an exterior panel for a building, and an exterior panel for a building using a form coupled with a heat insulator.

The present invention relates to an exterior panel fixing device for building, an outer wall of a building using a form coupled with a heat insulating material, and a method of constructing an exterior panel for a building.

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. When the insulation material is installed between the stone panel and the outer wall of the building, there is a problem in that there is a space between the outer wall and the insulation material. In order to install the separate structure for installing the panel outside the insulation material, a complicated process There is a problem that it is necessary.

Conventional building exterior panel construction method constitutes the outer wall of a building, after inserting the insulation, drilling a hole in the outer wall of the insulation and the building, inserting an anchor, installing a fastener, aligning the horizontal and vertical of the fastener, And a method of constructing an exterior material on the truss is common. This construction method of building exterior panel is unnecessarily thickening the wall, increasing the work of filling the insulation, refilling the work of installing the anchor and the fastener, and in the process of welding the truss (structural material for panel installation) There is a problem in that a fire is generated. In addition, when drilling anchor holes to insert the external panel fixing device to the concrete wall, there is a problem in the damage of the exterior wall of the building and the safety of the structure.

The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a building exterior panel fixing device and a building exterior panel fixing device, It is intended to increase the structural safety of the building and improve the construction efficiency by constructing the outer wall of the building.

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 achieve the above object, the present invention provides a panel for fixing a building exterior panel, comprising a panel supporting part to which a building exterior panel is fixed, and a leg part coupled to the panel supporting part, And a second edge that meets the first edge, wherein the leg portion includes a first engagement portion that is spaced apart from the first edge, and a second engagement portion that is spaced apart from the second edge, The joint portion and the second joint portion have symmetrical shapes and are orthogonal and integrally formed. The joint portion and the second joint portion are located at the ends of the leg portion and embedded in the concrete to form the outer wall of the building, .

Wherein the panel supporting portion includes a first hole spaced apart from the first edge and a second hole spaced apart from the second edge, and the leg portion includes a third coupling portion coupled to the first hole, And a fourth engaging portion that engages with the second hole, and the third engaging portion and the fourth engaging portion have a symmetrical shape and may be formed orthogonally and integrally.

The panel support portion may have a rectangular plate shape, and the leg portion may include four leg portions that are spaced apart from the four edge portions of the rectangular plate.

The fixing portion may include semicircular holes or may include serrations or recesses.

The panel supporting part may include a third hole for engaging with a fastener for fixing the formwork.

A method of constructing an outer wall and an exterior panel of a building using a mold combined with a heat insulating material according to the present invention comprises the steps of (a) fixing an outer mold to a slab (SLAB) (B) installing a support between a lower portion of the outer mold and a first fixing device embedded in the outer wall of the lower layer structure, and a step of fixing the outer panel fixing device for building, to which the heat insulating material is coupled, (D) joining the inner formwork to the inside of the outer formwork so as to be spaced apart from the heat insulating material, and (e) forming an outer wall of the building by pouring concrete between the heat insulating material and the inner formwork, Wherein the exterior panel fixing device for building comprises a panel supporting portion to which a building exterior panel is fixed, And a leg portion, wherein the leg portion includes a heat insulating material supporting portion to which the heat insulating material is fixed, and a fixing portion extending inward from the heat insulating material supporting portion and embedded in the concrete installed in the step (e) And the exterior panel fixing device for building.

Wherein the panel support comprises a first edge, a second edge to meet the first edge, a first hole spaced apart from the first edge, and a second hole spaced apart from the second edge, Wherein the leg portion includes a third engaging portion engaging with the first hole and a fourth engaging portion engaging with the second hole, wherein the third engaging portion and the fourth engaging portion have a symmetrical shape, .

Wherein the step (a) comprises the steps of: coupling the outer formwork and the slab to a two-part detachable coupling means, embedding the slab in the slab, And the second securing device may include the building exterior panel securing device.

Wherein the step (a) comprises the steps of: coupling the outer formwork and the slab to a coupling part separable into two parts, passing through the outer formwork and the second fixing device embedded in the slab, And a first engaging member for engaging the second securing device.

The first engagement member may include a hole.

The support may be welded to the panel supporting part of the first fixing device and the lower part of the outer case, and may further include a second coupling member screwed to the support part and the panel supporting part of the first fixing device.

The support member may further include a third engagement member coupled to the panel support portion of the first securing device and welded to the panel support portion of the first securing device and the lower portion of the outer mold, .

The step (c) may further include joining the outer mold and the heat insulating material using a spring device, wherein the spring device includes an insertion part inserted into the heat insulating material, End, and may be removed prior to step (d).

A method of constructing an exterior wall and a building exterior panel using a mold combined with a heat insulating material according to the present invention includes the steps of (f) removing the exterior and interior molds after the step (e) (G) filling the gap between the fixing devices with the heat insulating material.

A method for constructing an exterior wall and a building exterior panel using a mold combined with a heat insulating material according to the present invention includes the steps of: (f) removing the exterior and interior molds after step (e) And (h) coupling to the fixation device.

The external panel fixing device for a building according to the present invention has a high structural safety because the fixing parts of the legs are embedded at the time of pouring the concrete constituting the outer wall of the building and there is no damage to the exterior walls of the building and the bonding force between the building exterior panel fixing device and concrete is strengthened.

The leg portions of the exterior panel fastening device for construction are coupled to the holes spaced apart from the edges of the panel supporting portion to increase the welding strength and to prevent the twisting phenomenon of the panel supporting portion and the leg portion due to welding.

Since the exterior panel fixing device for building has a high structural strength and the outer wall is constructed together with the heat insulating material, it is possible to construct the outer wall more thinly, thereby improving the utilization of the building space.

Since the external panel fastening device for building, the heat insulating material and the external formwork are integrally installed, the force of the outer formwork against the pressure when the concrete is poured is reinforced, thereby reducing the thickness of the steel plate of the external formwork. The mold is fixed to the outer formwork so that the insulation can be prevented from being deformed by wind or external physical force until the concrete is poured.

A support base is provided between the lower outer formwork of the outer formwork and the first fixing device embedded in the outer wall of the lower structure so that the lower outer formwork is pressed against the wind or external physical force until the concrete is poured. It is possible to prevent the heat insulating material provided outside the outer wall of the lower-layer building from being damaged.

Also, it is possible to reinforce the structural safety of the supporting member for enduring the load of the formwork by providing a first engaging member passing through the outer formwork and the second fixing device, rather than screwing the second fixing device and the outer formwork plate together, It is possible to easily remove the first engagement member by creating a hole in one engagement member.

The present invention can improve the heat insulation effect by increasing the degree of adhesion between the heat insulating material and the outer wall by inserting the concrete after fixing the heat insulating material to the formwork.

It can be used without complicated modification to adjust the horizontal or vertical arrangement of the building exterior panel fixing device because it uses the building exterior panel fixing device installed in the insulation when installing the formwork. In addition, since the installation of the external panel fixing device for building is installed on the insulation material from the ground without installing or inserting the heat insulating material on the exterior wall of the building from the high angle, it is advantageous for the work stability because of the high residence time of the operator, It simplifies the process of assembling the panel fixing device and the exterior panel of the building, thereby shortening the construction time and reducing the cost.

1 is an assembled cross-sectional view of a building exterior panel fixing apparatus and a building exterior panel according to a first embodiment of the present invention.
2 is a perspective view of an exterior panel fixing apparatus for building according to a first embodiment of the present invention.
3 is a side view of a building exterior panel fixing apparatus according to a first embodiment of the present invention.
FIG. 4 is a plan view of a panel supporting device for a building exterior panel fixing device according to a first embodiment and a second embodiment of the present invention. FIG.
5 is a perspective view of a building exterior panel fixing apparatus according to a second embodiment of the present invention.
FIG. 6 is a schematic view of a method of constructing an exterior wall and a building exterior panel of a building using a mold combined with a heat insulating material in which a spring device is inserted into a heat insulating material according to an embodiment of the present invention.
FIG. 7 is a schematic cross-sectional view of a method of constructing an exterior wall and a building exterior panel using a mold combined with a heat insulating material according to an embodiment of the present invention.
Figs. 8 and 9 are enlarged views of a portion B in Fig.
Figs. 10 and 11 are enlarged views of a portion C in Fig.
FIG. 12 is a block diagram of a method of constructing an exterior wall and a building exterior panel using a mold combined with a heat insulating material according to an embodiment of 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 whenever possible, even if 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 construction exterior panel fixing apparatus 100 according to a first embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is an assembled cross-sectional view of a building exterior panel fixing apparatus 100 and a building exterior panel 10 according to a first embodiment of the present invention. FIG. 2 is a cross- 3 is a side view of a building exterior panel fixing apparatus 100 according to the first embodiment of the present invention. FIG. 4 is a perspective view of a building exterior panel fixing apparatus 100 according to the first embodiment of the present invention. Fig.

The exterior panel fixing apparatus 100 according to an exemplary embodiment of the present invention may include a panel supporting unit 200 and a leg unit 300.

For example, the building exterior panel fixing apparatus 100 may include a metal material such as iron or zinc. The exterior panel fixing device 100 for building can be used to fix the exterior panel 10 to the exterior wall of the building.

The exterior panel fixing apparatus 100 for building includes a panel support 200 to which the building exterior panel 10 is fixed and a leg 300 coupled to the panel support 200, A first edge 240 and a second edge 250 that meet the first edge 240. The leg 300 includes a first edge 240 and a first edge 240, 310 and a second coupling portion 320 which is spaced apart from the second edge 250. The first coupling portion 310 and the second coupling portion 320 have a symmetrical shape, And a fixing unit 360 disposed at an end of the leg 300 to increase the coupling force of the building with respect to the concrete outer wall when the concrete 20 is installed to make the outer wall of the building. have.

The panel support 200 includes a first hole 220 spaced apart from the first edge 240 and a second hole 230 spaced apart from the second edge 250, The leg 300 includes a third coupling part 330 coupled to the first hole 220 and a fourth coupling part 340 coupled to the second hole 230, The third coupling part 330 and the fourth coupling part 340 have a symmetrical shape and may be formed orthogonally and integrally. The panel supporting part 200 has a shape of a rectangular plate 210 and the leg part 300 includes four leg parts 300 which are separated from the four edge parts 260 of the rectangular plate 210 can do. The panel supporting part 200 may include a third hole 270 for engaging with fasteners 600 and 700 for fixing the dies 500 and 560.

The panel supporting part 200 is to fix the building exterior panel 10. As can be seen from the example of FIG. 1, the panel supporting part 200 is combined with the building exterior panel 10 to support the building exterior panel 10. For example, the panel support 200 may have a thickness of about 4 mm.

The panel support 200 is a portion that engages with the building exterior panel 10 and may have a plate shape to enhance structural performance. The panel support 200 may be in the form of a disk, a disk, a rectangular plate, or a polygonal plate, but the shape of the plate may not be limited to a specific form.

The panel support 200 has a first edge 240 and a second edge 250 that meet the first edge 240 and may include a first hole 220 and a second hole 230. For example, as shown in FIG. 2, when the panel support 200 is in the form of a polygonal plate, edges of the polygonal plate meet at two sides. The first corner 240 refers to one side of the two sides to meet and the second edge 250 to the other side.

The first hole 220 is spaced apart from the first corner 240 and is positioned on the panel supporting part 200 and may be engaged with a leg 300 described later. The second hole 230 is spaced apart from the second edge 250 and is positioned on the panel supporting part 200, and can be engaged with the leg part 300.

For example, as shown in the example of FIG. 4, the panel supporting portion 200 may be formed with four "A" shaped holes spaced apart from the corners of the panel supporting portion 200.

The panel supporting part 200 includes a coupling part 600 for coupling the external formwork 500 to be described later with the slabs 1300 of the lower structure and a coupling part 600 for coupling the external formwork 500 and the internal formwork 560, And may include a third hole 270 for coupling with the coupling pin 700.

The leg portion 300 may be separated from the edge of the panel supporting portion 200 and may be coupled to the panel supporting portion 200 to support the panel supporting portion 200. When the panel supporting portion 200 and the leg portion 300 are engaged, they can be welded together. The leg portion 300 serves to fix the exterior panel fixing apparatus 100 for building on the exterior wall of the building by being embedded in the concrete 20 as described later.

The first coupling portion 310 may be in the form of a plate, as shown in the example of FIG. 2, which is separated from the first edge 240 and coupled with the panel support 200. The second coupling portion 320 is separated from the second edge 250 and coupled with the panel supporting portion 200, and may be in the form of a plate like the first coupling portion 310.

4, the first coupling portion 310 and the second coupling portion 320 are spaced apart from the first edge 240 and the second edge 250 to form the panel support 200, The step portion 370 may be formed by a distance between the edge of the panel supporting portion 200 and the leg portion 300.

For example, the first coupling portion 310 and the second coupling portion 320 may have a thickness of about 3 mm, and the distance from the edge of the panel supporting portion 200 to the leg portion 300 may be about 4 mm have. The length of the leg portion 300 may vary depending on the thickness of the heat insulating material 400 described later, but may be about 220 mm for example.

The first coupling part 310 and the second coupling part 320 may have a surface where the first coupling part 310 and the second coupling part 320 meet and have a shape symmetrical with respect to the facing surface, And can be integrally formed.

For example, the first coupling portion 310 and the second coupling portion 320 may be integrally formed in a letter "A" shape. When the leg portion 300 is formed in a letter "A" shape, Unlike the leg portion, it is possible to support not only the vertical direction but also the lateral load or wind pressure in Fig.

The third coupling portion 330 may be in the form of a plate like the first coupling portion 310 when coupled with the first hole 220 described above. The fourth coupling portion 340 may be in the form of a plate like the second coupling portion 320 when coupled with the second hole 230 described above. The third coupling part 330 and the fourth coupling part 340 may have a surface where the third coupling part 330 and the fourth coupling part 340 meet and have a shape symmetrical with respect to the facing surface, And can be integrally formed.

The third coupling portion 330 may be welded to the first hole 220 and the fourth coupling portion 340 may be welded to the second hole 230 described above. When the leg portion 300 is welded to the hole such as the third coupling portion 330 or the fourth coupling portion 340, the first coupling portion 310 or the second coupling portion 320 may be inserted into the hole- The twisting phenomenon of the exterior panel fixing apparatus 100 for building can be reduced and the welding strength can be strengthened as compared with the case where the external panel fixing apparatus 100 is welded.

The panel supporting part 200 has a shape of a rectangular plate 210 and the leg part 300 includes four leg parts 300 which are spaced apart from the four edges 260 of the rectangular plate 210 can do. The legs 300 may have four legs 300 that are spaced apart from the four corners 260 of the rectangular plate 210 and join with each other when the panel support 200 is in the form of a rectangular plate 210 .

The length of one side of the rectangular plate 210 may vary depending on the size and weight of the building exterior panel 10, but may be, for example, about 110 mm. The leg portion 300 may be welded to the rectangular plate 210, which is the panel supporting portion 200. The four legs 300 may have the same shape.

The fixing portion 360 may include a half-circle-shaped hole 361 or may include a concave portion. The fixing part 360 is a part buried in the concrete 20 when the concrete 20 forming the outer wall of the building is laid under the leg part 300 located at the end of the leg part 300. The fixing part 360 may be embedded in the concrete 20 to enhance the fixing force of the external panel fixing device 100 to the external wall.

Since the fixing portion 360 passes through the heat insulating material 400, which will be described later, to the lower portion of the leg portion 300, the end portion of the leg portion 300 may be formed in a wedge shape. The fixing part 360 may be formed in a hook shape or a concave part and may include a semicircular hole 361 in order to further strengthen the coupling force with the concrete 20 without being buried in the concrete 20 have.

As illustrated in FIGS. 2 and 3, for example, the insulator support portion 350 of the leg portion 300 may be linear, and the fixing portion 360 may include a semicircular hole 361 have. The insulator supporting portion 350 is a portion of the leg portion 300 that is inserted into the heat insulating material 400 and is not buried in the concrete 20.

The fixing portion 360 may further strengthen the bonding force between the concrete 20 and the fixing portion 360 when the reinforcing portion 360 is embedded in the concrete 20 including the semicircular hole 361. [ 2, the semicircular hole 361 in the fixing portion 360 is formed on the basis of the surface on which the first engaging portion 310 and the second engaging portion 320 meet, And may be formed symmetrically in the central portion of the portion 360. [

For example, the shaded portions in FIGS. 2 and 3 may be the fixing portion 360 embedded in the concrete 20, and the fixing portion 360 may be buried about 40 mm to support a load of about 2 tons, The half-circle diameter of the semicircular hole 361 may be about 30 mm.

The length and shape of the heat insulating material supporting part 350 of the leg part 300 can be changed according to the thickness of the heat insulating material 400 and the bonding force with the heat insulating material 400. The fixing part 360 of the leg part 300 can be deformed 20, depending on the use purpose and installation position of the external panel failure device 100 of the building.

The exterior panel fixing apparatus 100 for a building may have a plate-like shape for supporting the panel support 200, thereby improving the supporting force for the exterior panel 10 for building. The fixing portion 360 of the leg portion 300 is embedded in the concrete 20 so that the building exterior panel fixing device 100 can be firmly fixed to the exterior wall of the building without damaging the exterior wall of the building, It is possible to increase the bonding force to the outer wall of the building.

The leg portions 300 of the external panel fastening apparatus 100 are joined to the holes 220 and 230 spaced apart from the edges of the panel supporting portion 200 to increase the welding strength, It is possible to prevent the distortion of the portion 300.

Hereinafter, a construction exterior panel fixing apparatus 100 according to a second embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 4 is a rear view of a panel supporting unit 100 for a building exterior panel fixing apparatus 100 according to a second embodiment of the present invention, and FIG. 5 is a side view of a building exterior panel fixing apparatus 100 according to a second embodiment of the present invention .

The exterior panel fixing apparatus 100 according to an exemplary embodiment of the present invention may include a panel supporting unit 200 and a leg unit 300. However, the panel supporting unit 200 and the leg unit 300 can be applied to the description of the exterior panel fixing apparatus 100 according to the first embodiment of the present invention.

The fixing portion 360 may include a saw tooth shape 362 or a concave portion. The insulator support 350 of the leg 300 may be linear and the securing portion 360 may include a recess of the sawtooth shape 362. As shown in FIG. 5, unlike the first embodiment, there is no semicircular hole 361, and the side edge portion of the fixing portion 360 may include irregularities of the sawtooth shape 362.

The fixing portion 360 may include the concave portion of the sawtooth shape 362 to further strengthen the bonding force between the concrete 20 and the fixing portion 360 when the concrete portion 360 is embedded in the concrete 20. As can be seen from the example of Fig. 5, a plurality of recesses of the sawtooth shape 362 in the fixing portion 360 may be provided.

Hereinafter, a method of installing the building exterior panel 10 using the molds 500 and 560 combined with the heat insulating material 400 according to the embodiment of the present invention will be described in detail with reference to the drawings.

6 is a view illustrating a method of constructing an outer wall of a building using the dies 500 and 560 combined with a heat insulating material 400 in which a spring device 1200 is inserted into a heat insulating material 400 according to an embodiment of the present invention, 7 is a schematic sectional view of a method of constructing an outer wall of a building and a building exterior panel 10 using a mold 500 or 560 combined with a heat insulating material 400 according to an embodiment of the present invention, 9 is an enlarged view of a portion B in Fig. 7, Figs. 10 and 11 are enlarged views of a portion C in Fig. 7, and Fig. 12 is a sectional view of a mold 500, 560 combined with a heat insulating material 400 according to an embodiment of the present invention (10) according to the present invention.

The outer wall of the building using the molds 500 and 560 combined with the heat insulating material 400 and the method of constructing the outer panel 10 for building use the outer mold 500 in order to construct the outer wall of the building, And a first fixing device 1500 embedded in the outer wall 1400 of the lower structure 1000. The first fixing device 1500 and the second fixing device 1500 are fixed to each other, (S3) and (S4) inserting a building exterior panel fixing device (100) having a heat insulating material (400) coupled to the inside of the outer mold (500) A step S5 of inserting the inner mold 560 inside the outer mold 500 so as to be spaced apart from the inner mold 560 and placing the concrete 20 between the heat insulating material 400 and the inner mold 560, And forming an outer wall (S6), wherein the building exterior panel fixing apparatus (100) A panel supporting part 200 to which the long panel 10 is fixed and a leg part 300 to be coupled to the panel supporting part 200. The leg part 300 includes a heat insulating material 400 to which the heat insulating material 400 is fixed, And a fixing part 360 extending inward from the heat insulating material supporting part 350 and embedded in the concrete 20 placed in the step S6, And the exterior panel fixing apparatus 100 for building.

The panel support 200 includes a first edge 240, a second edge 250 that meets the first edge 240, a first hole 220 spaced apart from the first edge 240, And a second hole 230 spaced apart from the second edge 250. The leg 300 includes a third coupling portion 330 coupled to the first hole 220, And a fourth coupling portion 340 coupled to the second hole 230. The third coupling portion 330 and the fourth coupling portion 340 may have a symmetrical shape and may be formed orthogonally and integrally with each other. have.

In step S1, the outer mold 500 and the SLAB 1300 are coupled to each other by a coupling part 600 separable into two parts. The outer mold 500 is embedded in the SLAB 1300, And screwing an iron plate (530) of the outer mold (500) to a second fixing device (1600) through which the coupling hole (600) passes, the second fixing device (1600) (100).

In the step S1, the outer mold 500 and the SLAB 1300 are joined to each other by a two-part separable coupling member 600, and the outer mold 500 and the SLAB are assembled together. (900) passing through the second securing device (1600) embedded in the outer mold (1300) and coupling the outer mold (500) to the second securing device (1600) . The first engagement member 900 may include a hole 910.

The molds 500 and 560 are temporarily installed to make the structure of the concrete 20 uniform. The outer mold 500 refers to a mold installed on the outside of the outer wall of the building, that is, The form 560 refers to a form installed in the interior of the exterior wall of the building, that is, the portion contacting the interior. 6 and 7, the outer formwork 500 includes an iron plate 530 in contact with the heat insulating material 400, and an iron plate 530 which is generally perpendicular to the ground and which is in contact with the iron plate 530 of the outer formwork 500 And a second structural member 520 that is generally parallel to the ground surface. The molds 500 and 560 used in the present invention may be molds 500 and 560 that can be used one by one and can be moved to an upper layer when they are used in a building or an apartment building.

The outer wall of the building using the dies 500 and 560 combined with the heat insulating material 400 and the method of constructing the outer panel 10 for the building according to an embodiment of the present invention will be described with reference to FIG. (SLAB) 1300 of the lower story building. The lower portion 540 of the outer formwork 500 is fixed to the slabs 1300 of the lower layer structures already installed so as to form the molds 500 and 560 for constructing the outer walls of the building. (S1), the outer mold 500 and the slab (SLAB) 1300 of the lower structure can be combined with the two-part detachable coupling member 600.

For example, the coupling member 600 may be an anchor bolt detachable in two parts. The coupling part 600, which can be divided into two parts, can be divided into a part 620 to be embedded and a part 610 to be embedded in the concrete 20 to be described later. The concave portion may be formed in the portion of the joint 600 in the direction of the outer mold 500 of the portion 620 to be embedded when the concrete 20 is poured so that the end may serve as a nut. However, since the end portion of the portion 600 of the joint 600 to be embedded when the concrete 20 is poured may be in contact with the heat insulating material 400, a convex portion serving as a bolt may be formed And the convex portion may be embedded in the heat insulating material 400 without being embedded.

The outer mold 500 and the constructed outer wall 1400 of the lower structure can be divided into two parts of the two part detachable coupling parts 600 that are inserted into the already constructed slabs 1300 of the lower structure And the remaining portion 610 of the coupling hole 600 can be coupled and coupled.

A portion 610 that engages with the outer mold 500 among the two detachable portions of the coupling member 600 described above can be coupled to the outer mold 500 in a threaded manner and the outer mold 500 can be removed Can be removed together.

The second fixing device 1600 may include the building exterior panel fixing device 100 described above, which is embedded in a slab (SLAB) 1300 of a lower story building. The coupling hole 600 is formed in the third hole 270 of the panel supporting portion 200 of the second fixing device 1600 because the portion where the coupling hole 600 described above is used is the portion that receives the most load from the outer die 500. [ ). ≪ / RTI > For example, the fixing portion 360 of the leg portion 300 of the second fixing device 1600 is buried about 100 mm to support a load of about 6 tons.

(S1) is a step of forming a slab (13) embedded in a slab (SLAB) (1300) of a lower structure in order to strengthen a bonding force between the slab (13) of the lower structure and the lower portion 2 fixing device 1600 and the steel plate 530 of the outer mold 500 can be engaged with the screw 1700. [ As can be seen in the example of FIG. 8, the panel support 200 of the second securing device 1600 in contact with the steel plate 530 of the outer mold 500 can be coupled by a screw 1700 engagement.

Also, step (S1) may use the first engagement member 900 to couple the outer mold 500 to the second fixture 1600. [ 9, the first engaging member 900 is installed through the panel supporting portion 200 of the second fixing device 1600 through the outer formwork 500 and is supported by a support (described later) 800 to secure the outer formwork 500 to the slabs 1300 of the lower structure. For example, the first coupling member 900 may use an iron core. For example, a plurality of first coupling members 900 may be installed through the outer mold 500 and the second fixing device 1600.

The first engagement member 900 may include a hole 910. For example, the hole 910 of the first engagement member 900 may serve to easily remove the outer mold 500 by pulling a mechanism into the hole 910 of the first engagement member 900.

The securing of the outer mold 500 to the second securing device 1600 may be accomplished by screwing the second securing device 1600 and the steel plate 530 of the outer mold 500 according to the structural calculation of the structural safety of the structure And a first coupling member 900 penetrating through the outer mold 500 and the second fixing device 1600 without screw connection may be substituted for easy installation.

Next, step S2 is performed between the lower part 540 of the outer mold 500 and the first fixing device 1500 embedded in the outer wall 1400 of the lower structure to maintain the balance of the outer mold 500 And a support table 800 is installed on the support table 800. The steel plate 530 of the outer formwork 500 can be installed up to the level of the constructed slab (SLAB) 1300 of the lower story building near the floor where the outer formwork 500 is installed, so that the outer formwork 500 Only the lower portion 540 of the first structural member 510 may be extended to the outer wall 1400 of the lower structure.

 The first fixing device 1500 may be embedded in the outer wall 1400 of the lower structure and may include a building exterior panel fixing device 100. For example, the fixing portion 360 of the leg 300 of the first fixing device 1500 may be buried in a size of about 60 mm to support a load of about 3 tons.

Even if the outer mold 500 coupled with the heat insulating material 400 equipped with the outer panel fixing device 100 of the building is combined with the second fixing device 1600, Can move. At this time, the lower portion 540 of the first structural material 510 of the outer formwork 500 may contact the heat insulating material 400 installed outside the outer wall 1400 of the lower structure to damage the heat insulating material 400, (400).

As shown in the example of FIG. 7, in order to prevent damage to the heat insulating material 400 installed outside the outer wall 1400 of the lower structure, the outer die 500 includes a lower portion 540 of the first structural material 510 And the first fixing device 1500 installed on the heat insulating material 400. [0064] The support platform 800 is inserted into the thermal insulation material 400 to block the force applied to the thermal insulation material 400 installed outside the outer wall 1400 of the lower structure when the outer structure 500 is inclined, And may be installed on the first fixing device 1500 embedded in the outer wall 1400. The supporter 800 may have a function of balancing the outer formwork 500 by making the outer formwork 500 substantially perpendicular to the ground in response to an external physical force.

The support 800 is welded to the panel support 200 of the first securing device 1500 and the lower portion 540 of the outer mold 500 and the support 800 and the first securing device 500 And a second engaging member 1000 that engages with the panel supporting portion 200 of the display panel 1500 with a screw 1700.

The support 800 may be in the form of a pipe and one side of the support 800 is welded to the panel support 200 of the first fixture 1500 and the other side of the support 800 is joined to the outer mold 500 Of the first structural material 510 of the first structural member 510.

The second coupling member 1000 is a member that serves to couple the support 800 and the first fixing device 1500 together. 10, the second engagement member 1000 can be coupled to the support 800 by a screw 1700 engagement and can be coupled to the panel support 200 of the first fixture 1500, (1700). For example, the second coupling member 1000 may include a "B" shape.

The support unit 800 is welded to the panel support unit 200 of the first securing apparatus 1500 and connected to the panel support unit 200 and the support unit 800 of the first securing apparatus 1500, And a third engaging member 1100 for engaging with the lower portion 540 of the outer mold 500 by welding.

The third coupling member 1100 is integrally formed with the support 800 to couple the first fixture 1500 to the support 800 and to join the first structural member 510 of the outer mold 500 can do. 11, the third coupling member 1100 can be fixed to the first fixing device 1500 by a screw 1700 engagement with the panel support 200 of the first fixing device 1500 And the coupling between the support 800 and the first fixture 1500 can be enhanced by coupling the support 800 with the screw 1700. [ The third coupling member 1100 may be welded to the first structural member 510 of the lower portion 540 of the outer mold 500 to enhance the coupling force between the support 800 and the lower portion 540 of the outer mold 500.

However, the step S2 may be performed after the step S5 described later.

Next, referring to the step S3, it is a step of inserting the building exterior panel fixing apparatus 100 into the heat insulating material 400. The leg portion 300 may be formed by cutting the end of the leg portion 300 into a sharp chisel shape or by inserting the side edge of the leg portion 300 The thickness of the surface where the first coupling portion 310 and the second coupling portion 320 meet can be made thinner.

First, a hole may be drilled in the heat insulating material 400 to insert the building exterior panel fixing device 100 into the heat insulating material 400. However, there may be a case where the end of the leg portion 300 of the exterior panel fastening device 100 of the building panel is sharp and the heat insulating material 400 is not required to be punched. The method of constructing the outer wall of the building using the dies 500 and 560 combined with the heat insulating material 400 according to the present invention and the method of constructing the outer panel 10 for building are not limited to drilling the heat insulating material 400 at the construction site of the building, A hole may be formed in accordance with the insertion position of the external panel fixing device 100, the coupling hole 600, the coupling pin 700, and the like.

The panel supporting portion 200 of the exterior panel fixing apparatus 100 for building may include the third hole 270 or may not include the third hole 270. When the panel supporting portion 200 includes the third hole 270, a construction external panel fixing device (not shown) for passing through the coupling pin 700 used for coupling the external formwork 500 and the internal formwork 560 100). When the panel supporting part 200 does not include the third hole 270, the building exterior panel 10 and the building exterior panel fixing device 100 are combined or the outer and inner molds 500 and 560 are combined (Not shown).

However, the step S3 may be performed before the step S1 or the step S2.

Next, in operation S4, a step of joining the heat insulating material 400 having the building exterior panel fixing device 100 inserted therein with the outer mold 500 is performed. In one example, the outer mold 500 can be coupled to the building exterior panel fixture 100 via a screw 1700 engagement.

The step S4 may further include joining the outer mold 500 and the heat insulating material 400 by using the spring device 1200. The spring device 1200 may be formed by inserting the heat insulating material 400, And an end 1220 exposed to the outside through the outer mold 500 and may be removed before the step S5.

6, the spring device 1200 includes an insertion portion 1210 inserted into the heat insulating material 400 and an end portion 1220 exposed to the outside through the outer mold 500 . The spring device 1200 temporarily secures the heat insulating material 400 having the building exterior panel fixing device 100 mounted thereon to the outer mold 500 until temporarily coupling the outer mold 500 and the inner mold 560 with the coupling pin 700. [ . For example, the spring device 1200 may be inserted into the insertion hole of the inserting pin 700 when inserting the insulator 400, and may be removed to insert the inserting pin 700 when the inserting pin 700 is inserted.

The spring device 1200 may be any device capable of temporarily fixing the heat insulating material 400 having the shape of the exterior panel fixing device 100 to the outer mold 500 without limitation. For example, the spring device 1200 may have a circular shape, an elliptical shape, or a polygonal shape as the insertion portion 1210 inserted into the heat insulating material 400. Since the insertion portion 1210 of the spring device 1200 has elasticity, it is inserted into the elastic heat insulating material 400 and then expanded to maintain the bonding force. The end portion 1220 of the spring device 1200 extends out of the heat insulating material 400 and passes through the steel plate 530 of the outer mold 500 and the first structural material 510 of the outer mold 500 to form the outer mold 500, The heat insulating material 400 and the outer mold 500 can be coupled to each other.

Step S5 is a step of joining the outer mold 500 and the inner mold 560. The concrete 20 is inserted between the inner mold 560 and the heat insulating material 400 coupled to the outer mold 500 The heat insulating material 400 and the inner mold 560 combined with the outer mold 500 can be fixed at a predetermined distance as much as the thickness of the outer wall of the building to be installed.

The outer wall of the building using the dies 500 and 560 combined with the heat insulating material 400 and the method of constructing the outer panel 10 for the building are constructed such that the outer dies 500 and the inner dies 560 are joined by the detachable coupling pins 700 . 7, the coupling pin 700 is coupled to the outer mold 500 and the inner mold 560 through the third hole 270 of the panel support 200 of the exterior panel fastening apparatus 100 of the building. As shown in FIG. But it is also possible to join the outer mold 500 and the inner mold 560 through a portion where the building exterior panel fixing device 100 is not installed.

The coupling pin 700, which can be divided into two parts, can be divided into a portion 720 to be embedded in the concrete 20 and a portion 710 to be embedded in the concrete 20 to be described later. The portion 720 of the coupling pin 700 to be embedded when the concrete 20 is poured may be formed with a concave portion so that both ends may serve as nuts. However, the portion of the joint pin 700 in the direction of the outer mold 500 of the portion 720 to be embedded when the concrete 20 is poured is a portion where the end can contact the heat insulating material 400, so that a convex portion functioning as a bolt is formed And the convex portion may be embedded in the heat insulating material 400 without being embedded.

For example, the portion 720 and the inner mold 560 of the coupling pin 700 that are embedded in the concrete 20 can be coupled by a screw 1700 coupling. Of the two detachable portions of the coupling pin 700 described above, the portion 710 that engages with the outer mold 500 can be coupled with the outer mold 500 with a screw 1700 engagement, Can be removed together.

Next, in step S6, the concrete 20 is placed between the heat insulating material 400 and the inner mold 560, and the fixing part 360 of the above- A portion 620 to be embedded in the concrete 20 in the concrete structure 600 and a portion 720 to be embedded in the concrete 20 in the coupling pin 700 are buried.

The method for constructing the outer wall and the building outer panel 10 using the dies 500 and 560 combined with the heat insulating material 400 may include removing the outer and inner dies 560 after the step S6, (S8) filling the gap between the heat insulating material 400 and the exterior panel fixing apparatus 100 for building with the heat insulating material 400 and the step of assembling the exterior covering panel 10 to the exterior panel fixing apparatus 100 (Step S9).

In step S7, the concrete 20 is placed between the heat insulating material 400 and the inner mold 560, and then the molds 500 and 560 are removed when the concrete 20 hardens. When the molds 500 and 560 are removed, the separable coupling member 600 and the coupling pins 700, which are not embedded in the concrete 20, may be removed.

Next, in operation S8, the thermal insulation material 400 is pierced and the thermal insulation panel 400 and the building exterior panel fixing device 100 are separated from each other, And the heat insulating material 400 is filled with the filling type heat insulating material 400. If the joint pin 700 that is not buried in the concrete 20 is removed after the joint pin 700 is inserted into the heat insulating material 400 and there is a gap in the portion of the heat insulating material 400 into which the joint pin 700 is inserted The portion of the joint 600 that is not buried in the concrete 20 is removed so that the crack can be filled with the filler 400 if there is a gap in the portion of the heat insulating material 400 into which the joint 600 is inserted have.

Next, in operation S9, the construction exterior panel 10 and the panel support 200 of the exterior panel fixing apparatus 100 are joined. For example, the building exterior panel 10 and the building exterior panel fixing apparatus 100 can be coupled through a screw 1700 coupling.

Hereinafter, the operation of the outer wall of the building using the dies 500 and 560 combined with the heat insulating material 400 according to the embodiment of the present invention and the method of constructing the exterior panel 10 for building will be described in detail with reference to the drawings.

When the heat insulating material 400 is fixed to the outer mold 500, it is possible to prevent the deformation of the heat insulating material 400 due to wind or external physical force until the concrete 20 is poured, and the heat insulating material 400 and the outer mold 500 It is possible to reduce the thickness of the steel plate 530 of the outer formwork 500 by strengthening the force against the pressure of the outer formwork 500 when the concrete 20 is poured.

A supporting table 800 is installed between the lower part 540 of the first structural material 510 of the outer formwork 500 without the steel plate 530 and the first fixing device 1500 installed on the heat insulating material 400 to form the outer formwork 500 It is possible to prevent the lower portion 540 of the first structural member 510 of the first structural member 510 from damaging the heat insulating material 400 installed on the outer wall 1400 of the lower structure by wind or external physical force. The second joining member 1000 or the third joining member 1100 may be used to strengthen the bonding force between the support base 800 and the lower portion 540 of the first fixing device 1500 or the outer die 500, 500, and 560 can be stably supported.

The steel plate 530 of the outer formwork 500 and the second fixing device 1600 are screwed together or the outer formwork 500 and the slabs SLAB ) 1300 can be increased. The outer mold 500 can be easily coupled to the second fixing device 900 by using the first coupling member 900 instead of the screw connection between the iron plate 530 of the outer mold 500 and the second fixing device 1600 And the first engagement member 900 may be easily removed by using the hole 910 of the first engagement member 900. [

Since the exterior panel fixing apparatus 100 according to the present invention has a high structural strength and is used at the same time with the heat insulating material 400, it is possible to construct the exterior wall more thinly, thereby improving the space utilization of the building. Also, since the panel supporting portion 200 has the holes 220 and 230, the leg portion 300 and the holes 220 and 230 are welded together, so that the twisting phenomenon caused by the welding can be reduced and the strength of the welding can be increased.

Since the building exterior panel fixing device 100 is installed in the heat insulating material 400 drilled in the process of inserting the molds 500 and 560, the horizontal or vertical arrangement of the building exterior panel fixing device 100 can be used without modification It is possible to shorten the construction time and cost by simplifying the installation of the building exterior panel fixing device 100 and the joining process of the building exterior panel fixing device 100 and the building exterior panel 10.

According to the present invention, it is possible to prevent damage to the outer wall of the building and deterioration of the structural safety of the outer wall of the building caused by drilling the outer wall of the building with the anchor bolt when the building exterior panel fixing apparatus 100 is installed. The fixing portion 360 which is the lower end of the leg portion 300 of the building external panel fixing device 100 is buried when the concrete 20 is poured and a part of the coupling hole 600 is buried and the building exterior panel 10, The structural stability of the bond can be enhanced.

The space between the heat insulating material 400 and the outer wall of the concrete 20 is narrowed by installing the heat insulating material 400 and then the concrete 20 is poured to remove the molds 500 and 560 and then fill the gap of the heat insulating material 400 with the heat insulating material Thereby enhancing the effect of interrupting the heat bridges inside and outside the building.

In addition, since the building exterior panel fixing device 100 is coupled with the heat insulating material 400 on the ground and then joined to the outer formwork 500, the working time on the work formwork 550 in the high formwork 500, 560 is shortened Can be improved.

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 should be construed as falling within the scope of the present invention.

10: building exterior panel 20: concrete
100: building exterior panel fixing device 200: panel supporting part
210: Rectangular plate 220: First hole
230: second hole 240: first corner
250: second edge 260: edge portion
270: third hole 300: leg portion
310: first coupling portion 320: second coupling portion
330: third coupling portion 340: fourth coupling portion
350: Insulator support part 360:
361: semicircular hole 362: saw tooth shape
400: Insulation material 500: Outside mold
530: steel plate of outer mold 540: bottom of outer mold
560: inner mold 600:
800: support 900: first coupling member
910: hole of first coupling member 1000: second coupling member
1100: third coupling member 1200: spring device
1210: Insertion part 1220:
1300: constructed slab (SLAB) 1400: constructed outer wall
1500: first fixing device 1600: second fixing device
1700: Screw

Claims (15)

Securing the outer formwork apart from the constructed slab of the lower structure to construct the outer wall of the building;
Providing a support between a lower portion of the outer formwork and a first securing device embedded in an outer wall of the lower structure;
Attaching a building exterior panel fixing device having a heat insulating material coupled to the inside of the outside mold;
Coupling an inner mold to an inner side of the outer mold so as to be spaced apart from the heat insulating material; And
And a step of forming an outer wall of the building by placing concrete between the heat insulating material and the inner mold, wherein the outer wall of the building and the outer panel of the building are assembled together with the heat insulating material, A panel supporting portion to which the external panel is fixed; And
And a leg portion that engages with the panel supporting portion,
The panel support having a first edge and a second edge that meets the first edge,
Wherein,
A first engaging portion spaced apart from the first edge; And
And a second engaging portion that is spaced apart from the second edge,
The first and second engaging portions may have a symmetrical shape and may be orthogonal and integrally formed.
The leg portion includes a heat insulating material supporting portion disposed inside the heat insulating material adjacent to the panel supporting portion, and a fixing portion disposed at an end of the heat insulating material supporting portion and inserted into the concrete,
The fixing portion is formed in a "?&Quot; shape in cross section,
Wherein the fixing portion is embedded in and fixed to the concrete placed at the step of forming the outer wall of the building by placing the concrete between the heat insulating material and the inner molding.

The method according to claim 1,
The panel-
A first hole spaced apart from the first edge; And
And a second hole spaced apart from the second edge,
Wherein,
A third coupling unit coupled to the first hole; And
And a fourth engaging portion engaging with the second hole,
Wherein the third and fourth engaging portions are symmetrical and orthogonal and integrally formed.
The method according to claim 1,
The panel support has a rectangular plate shape,
Wherein the leg portion includes four leg portions that are spaced apart from four edge portions of the rectangular plate.
The method according to claim 1,
Wherein the fixing portion includes a semicircular hole or a serrated shape or a concave portion.
The method according to claim 1,
Wherein the panel support includes a third hole coupled with a fastener for securing the formwork.
(a) securing the outer formwork apart from the constructed slab of the lower story building to construct the outer wall of the building;
(b) installing a support between a lower portion of the outer formwork and a first securing device embedded in the outer wall of the lower structure;
(c) inserting a building exterior panel fixing device having a heat insulating material coupled to the inside of the outside mold;
(d) coupling an inner mold to the inner side of the outer mold so as to be spaced apart from the heat insulator; And
(e) forming an outer wall of the building by placing concrete between the heat insulating material and the inner mold,
The exterior panel fixing apparatus for building includes:
A panel supporting portion to which a building exterior panel is fixed; And
And a leg portion that engages with the panel supporting portion,
Wherein,
A heat insulator support disposed inside the heat insulator to fix the heat insulator; And
And a fixing part extending inward from the heat insulating material supporting part and embedded in the concrete placed in step (e)
Wherein the fixing portion is formed in a shape of a letter "A" in cross-section, and the first fixing device is combined with a heat insulating material including the building exterior panel fixing device.

The method according to claim 6,
The panel-
A first edge;
A second edge that meets the first edge;
A first hole spaced apart from the first edge; And
And a second hole spaced apart from the second edge,
Wherein,
A third coupling unit coupled to the first hole; And
And a fourth engaging portion engaging with the second hole,
Wherein the third and fourth coupling portions have symmetrical shapes and are combined with a heat insulating material that is orthogonal to and integrally formed with the outer wall and the exterior panel of the building.
The method of claim 6, wherein the step (a)
The outer mold and the slab are joined to each other by a coupling part separable into two parts,
And a second fixing device embedded in the slab and through which the coupling hole passes, and screwing the iron plate of the outer molding,
Wherein the second fixing device comprises a mold coupled with a heat insulating material including the building exterior panel fixing device.

The method of claim 6, wherein the step (a)
The outer mold and the slab are joined to each other by a coupling part separable into two parts,
And a first joining member passing through the outer formwork and the second fixing apparatus embedded in the slab and coupling the outer formwork and the second fixing apparatus to the outer wall of the building using the formwork combined with the heat insulating material. Construction method of exterior panels for construction.

10. The method of claim 9,
Wherein the first joining member is combined with a heat insulating material including a hole to thereby form an outer wall of a building and an outer panel for a building.
The method according to claim 6,
The support is welded to the panel support of the first securing device and the lower part of the outer mold,
And a second joining member that is screwed to the panel support of the first fixing device. The method of claim 1,
The method according to claim 6,
The support is welded to the panel support of the first securing device,
And a third joining member screwed to the support and a third joining member welded to the lower portion of the outer formwork, the method comprising the steps of:
The method according to claim 6,
The step (c) further includes joining the outer mold and the heat insulating material using a spring device,
The spring device includes:
An inserting portion inserted into the heat insulating material; And
And an end portion that is exposed to the outside through the outer mold,
Wherein the outer wall of the building and the exterior panel of the building using the mold combined with the heat insulating material removed before the step (d).
7. The method of claim 6, wherein after step (e)
(f) removing the outer and inner molds; And
(g) filling the gap between the heat insulating material and the exterior panel fixing device for building with a heat insulating material, and inserting the heat insulating material into the exterior panel of the building.
7. The method of claim 6, wherein after step (e)
(f) removing the outer and inner molds; And
(h) joining a building exterior panel to a building exterior panel fixture, and further comprising the step of joining the building exterior panel to a building exterior panel fixture.

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