KR101768683B1 - Suspension device for exterior materials in building and construction method using that - Google Patents

Abstract

The present invention includes: an anchor installed on walls; a connection member placed on the anchor; and a support installed on the connection member and supporting an exterior material. The connection member comprises: a first connection part having a first fixing hole part through which the anchor passes; and a second connection part curved and extending from the first connection part, and having a second fixing hole part connected to the support. The second connection part is curved in a direction away from a direction in which the load of the exterior material is applied. Accordingly, the present invention is able to reduce the number of components of support devices when various shapes of external materials are continuously constructed.

Description

Technical Field [0001] The present invention relates to a supporting structure for a building exterior member, and a construction method for the exterior member using the same.

The present invention relates to a construction material supporting structure and a method of manufacturing a construction material using the same. More particularly, the present invention relates to a construction material for a building material, which is capable of preventing deformation or breakage of a support member, The present invention relates to a construction material for supporting a building material and a method of manufacturing a construction material using the same, and more particularly, to a construction material for a building material which can reduce the number of parts of a supporting device when a plurality of materials are successively installed.

Generally, a finishing material applied to an outer wall of a building is directly attached to a wall through a construction adhesive such as a cement mortar or an epoxy resin adhesive, a screw penetrating the finishing material itself, or a mechanical connection such as a bent metal plate connecting the finishing material and the wall To be fixed to the wall surface.

Particularly, in recent years, various types of stone work or natural stone, such as natural stone, and ceramic material, have been widely used as finishing materials for walls in accordance with the trend of high quality of buildings, and dry attachment methods using mechanical fastening means have been preferred as means for attaching such heavy finishing materials .

A typical method of dry finishing a plate finishing material is to form a fixing piece with a bent metal plate and to connect the finishing material to the outer wall body of the building through the fixing piece and the fixing screw. After drilling in the finishing material and connecting the finishing material to the fixing piece using a screw or a nail, the fixing piece is fixed to the wall with a fixing screw.

Through such a dry method, not only improvement in work speed and adhesion quality is improved, but also the appearance of the building can be beautifully and beautifully produced by the finishing material as compared with the wet method using cement mortar or the like.

However, in the case of the conventional dry method, an anchor bracket is directly installed on the outer wall of the building at a construction site, and a supporting bracket is connected to the anchor bracket and then a finishing panel such as a ceramic panel is installed on the supporting bracket.

Since the urethane foam is inserted between the finishing panel and the outer wall of the building, the construction period is considerably delayed due to the assembly of the respective components in the field, and the respective components are coupled to the outer wall of the high building So that the workability is lowered as the outer wall of the building is finished.

In order to solve the above problems, Japanese Unexamined Patent Application Publication No. 10-2016-0012794 discloses a wall integrally formed with a finishing material and a construction method thereof.

This is because the wall of the building constructed by the concrete structure is formed integrally with the composite thermal insulation finishing material composed of the composite finishing layer and the heat insulating layer and the concrete put on the composite thermal insulation finishing material and the concrete placed thereon and the composite finishing layer is made of at least one of the outer wall body and the inner wall of the wall And the insulation layer is attached to the poured concrete to form a wall.

The composite finishing layer comprises a polymer dispersing layer for imparting adhesiveness by spraying a polymer dispersion onto a heat insulating layer, a first layered stratification layer for laminating a sheet formed by dipping and immersing a water-repellent mixed liquid on the polymer dispersion layer, And a second laminated layer formed by applying a mixed solution uniformly on the laminated layer to a required thickness.

In the conventional invention as described above, the composite thermal insulation finishing material formed on the front side of the poured concrete has various steps such as a heat insulation layer adhered to the poured concrete, a polymer dispersion layer, a first lamination layer and a second lamination layer There is a drawback that it must go through.

In addition, there is a disadvantage that tiles or stones must be attached to the surface of the composite finish layer through a separate operation.

In addition, conventional civil engineering structures are being constructed using concrete and pattern molds. In the case of road structures, the appearance of the appearance is poor due to the corrosion of the concrete due to the corrosion of the concrete due to calcium chloride and pollutants, There is a problem that additional budget is required, waste is generated, pollution of the environment is caused, and cosmetic appearance is not eco-friendly and natural.

In order to solve the above problems, a building and a civil engineering structure having a stone integrated wall have been developed. The construction and civil engineering structures according to the prior art have an inner wall formwork installed on the rear surface of a reinforcing steel rod and a plate having a nut, A stone mold which is installed on the front surface of the reinforcement after the stone is installed inside the mold after the fixing bolts are fastened to the nut of the plate and the stone is firmly fixed without being detached from the inside of the stone mold The concrete is placed between the inner wall formwork and the slab formwork to cure it, then the fixing plate of the fixing member is cut, and the form is removed.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Registered Patent No. 10-1646527 (published on Aug. 02, 2016, entitled " Architectural and Civil Engineering Structures with Integrated Stone and Their Construction Method).

The construction and civil engineering structures according to the prior art are difficult to apply to a structure in which a gap between a wall and a stone is required because the stone and the wall are integrally adhered to each other. When the wall is uneven, So that it is difficult for the stone to be installed continuously to be smoothly installed on the same plane.

In addition, since the construction and civil engineering structures according to the prior art can not control the distance between the wall and the stone, it is not possible to construct a structure having a gap between the wall and the stone, In the case of installing the supporting device, the support member for supporting the stone can be deformed downward, and if a plurality of stone materials are provided successively, it is difficult to arrange a plurality of stones successively at the same height.

Therefore, there is a need for improvement.

The present invention is capable of preventing deformation or breakage of a support member on which a relatively heavy casing member is mounted, such as a stone panel, and effectively supporting a plurality of casing members so that the casing members of various shapes and sizes are successively arranged. And an object of the present invention is to provide a construction material supporting structure capable of reducing the number of parts of a supporting device when the exterior material is continuously installed, and a method of constructing an exterior material using the same.

The present invention relates to an anchor provided on a wall; A connecting member for receiving the anchor; And a support member installed on the connection member and supporting the casing member, wherein the connection member includes: a first connection portion having a first fixing hole portion through which the anchor passes; And a second connection portion extending from the first connection portion and having a second fixing hole portion extending from the first connection portion and connected to the support member, wherein the second connection portion is bent in a direction away from a direction in which the load of the exterior member is applied .

The present invention further includes a main body which is disposed adjacent to the wall to enclose the anchor and is press-fitted into a heat insulating material provided on the wall.

The present invention further includes a length adjusting unit for connecting the connecting member and the supporting base so that the degree of protrusion of the supporting base from the connecting member can be changed stepwise.

Further, the length adjuster of the present invention may include: a first uneven portion provided on the connecting member; And a second concave-convex portion provided on the support and gear-connected to the first concave-convex portion.

The length adjuster of the present invention may further include a direction changing unit that changes the length adjusting direction of the support member coupled to the linking member to couple the linking member and the support.

The edge formed at the bent portion between the first connection portion and the second connection portion of the present invention is arranged to extend in the same direction as the direction in which the load of the exterior material acts.

(A) installing the wall so that a plurality of anchors are inserted into the wall; (b) mounting a body having a through hole in the wall to insert the anchor; (c) mounting the connecting member to the anchor projecting from the main body; (d) connecting the connecting member and the supporting member such that the supporting member protrudes from the main body; And (e) mounting the exterior member to the support frame and connecting the exterior frame to the support frame.

Further, in the step (d) of the present invention, when the support member is coupled to the connection member by the length adjusting unit in which the plurality of concavities and convexities are spaced apart from each other and are continuously arranged, the protruding degree of the support member is varied stepwise And the like.

A supporting structure for supporting a building material is provided with a body for supporting and supporting an anchor to be installed on a wall, and a support member for supporting the exterior material to a connecting member, which is fixed to an anchor extending through the body, So that the distance between the wall and the exterior material can be varied according to the operation of the operator, and the exterior wall and the exterior material can be installed. Thus, the exterior material can be constructed while having various connection structures.

In addition, since the plurality of concave / convex parts are gear-connected and the support member and the connection member are connected to each other, the support member is inserted into the protrusion or the inside of the connection member by the width of the protrusion / So that the position of the support can be precisely changed and the exterior material can be installed at various positions.

In addition, since the concave / convex portion for changing the direction of the convexo-concave portion is interposed between the connecting member and the support base, the supporting structure of the outside shell of the building according to the present invention and the method of constructing the exterior material using the same, So that it is possible to provide the exterior material so as to be compatible with various structures at the portion where the exterior material is installed.

FIG. 1 is an exploded perspective view illustrating a construction material supporting structure according to a first embodiment of the present invention.
FIG. 2 is a cross-sectional view of a building envelope supporting apparatus according to a first embodiment of the present invention.
3 is a perspective view illustrating a connecting member of a building exterior material supporting apparatus according to a first embodiment of the present invention.
FIG. 4 is an exploded perspective view illustrating a concave-convex assembly mounting structure of a building exterior material supporting apparatus according to a second embodiment of the present invention.
FIG. 5 is a perspective view illustrating an installation structure of a casing material supporting apparatus according to a third embodiment of the present invention.
6 is a perspective view illustrating a connection member installation structure of a building exterior material supporting apparatus according to a fourth embodiment of the present invention.
FIG. 7 is a state view showing a construction material for supporting a building material according to a fourth embodiment of the present invention.
FIG. 8 is a cross-sectional view of a building envelope supporting apparatus according to a fifth embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a construction material supporting apparatus and a method of manufacturing an exterior material using the same according to the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator.

Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is an exploded perspective view showing a construction material supporting structure according to a first embodiment of the present invention, FIG. 2 is a sectional view showing a construction material supporting structure according to a first embodiment of the present invention, FIG. FIG. 3 is a perspective view illustrating a connecting member of a building exterior material supporting apparatus according to a first embodiment of the present invention.

1 to 3, a building exterior material supporting apparatus according to an embodiment of the present invention includes an anchor 30 installed on a wall 1, a connecting member 70 mounted on an anchor 30, And a support member 50 installed on the connecting member 70 and supporting the casing member.

In the case where a facer material such as a stone panel 5 is provided on an outer wall or a slope of a building, a supporting device is provided on the wall 1, and after the facer is placed by the supporting device, a connection is made between the facer and the supporting device , And a sealing member is installed at an interval between each of the facings to form an outer wall or an outer wall of the slope of the building.

The present embodiment describes a case in which a stone panel 5 is provided on an outer wall of a building. In addition to the stone panel 5 provided on the outer wall of the building, Lt; / RTI >

The anchor 30 provided on the wall 1 is formed with the head portion 32 with a larger diameter at the inner end and the sleeve 32a is provided so that the head portion 32 of the anchor 30 is located inside the wall 1 The anchor 30 is extended from the wall 1 in the front direction so as to prevent the anchor 30 from being separated from the wall 1 by the sleeve 32a.

A connecting member 70 is provided at an end of the anchor 30 and a supporting base 50 is provided at the connecting member 70 so that the stone panel 5 can be seated on the upper surface of the supporting base 50.

The present embodiment further includes a main body 10 which is disposed adjacent to the wall 1 to enclose the anchor 30 and which is press-fitted into the heat insulating material 3 provided on the wall 1, And the connection member 70 is tightly coupled to the front surface of the main body 10. [

The main body 10 is formed in a cylindrical shape so as to surround the anchor 30 and is provided at the front surface of the wall 1 with its inner end opened so that the heat insulating material 3 can be inserted therein, And the outer end portion is cut off to form the through hole portion 12 through which the anchor 30 passes at the center portion.

The outer end of the anchor 30 is inserted from one end of the main body 10 and is formed at the other end of the main body 10 when the main body 10 is disposed on the front face of the wall 1 on which the anchor 30 is installed And extends through the through hole portion 12 so as to extend outwardly of the main body 10.

The main body 10 is provided with a cutting edge 16 disposed opposite to the wall 1 and the cutting edge 16 is formed to be serrated at one end of the opened main body 10, 1, when the heat insulating material 3 is provided on the outer wall of the main body 10, the main body 10 is installed while pressing one end of the main body 10 toward the heat insulating material 3, The main body 10 is disposed so as to be in close contact with the front surface of the wall body 1 while inserting the disc-like heat insulating material 3 into the main body 10. [

The nut plate 36 is coupled to the outer end of the anchor 30 to attach the nut 10 to the front surface of the main body 10 after the main body 10 is installed so that the outer end of the anchor 30 extends to the outside of the main body 10. [ The first nut member 38 is fastened to the end of the anchor 30 after the plate 36 is brought into close contact with the connecting member 70 and the connecting member 70 is fastened to the end of the anchor 30, In a state in which it is in close contact with the front surface.

The nut plate 36 is interposed between the connecting member 70 and the main body 10 to serve as a nut so that the nut plate 36 does not have a gap between the connecting member 70 and the main body 10, Shaped panel and a hole through which the anchor 30 passes is formed at the center, and a screw thread is formed on the inner wall of the hole to be bolted to the thread 14 formed on the anchor 30.

In addition, a pair of concave groove portions 36a are formed on the outer edge of the nut plate 36 to provide a space in which the fastening tool is seated, so that the nut plate 36 having a thin plate shape is brought into close contact with the outer wall of the body 10 The nut plate 36 and the anchor 30 are engaged with each other while the fastening tool is rotated after the fastening tool is inserted into the pair of concave groove portions 36a when the fastening tool is fastened to the anchor 30, Install it.

The nut plate 36 is inserted into the seating groove portion when the nut plate 36 is assembled with the anchor 30. The nut plate 36 is inserted into the seating groove portion, It is possible to prevent a gap between the connection member 70 and the main body 10 from being formed by the nut plate 36 when the member 70 is closely attached to the front surface of the main body 10. [

Thereafter, the connecting member 70 is mounted on the outer end of the anchor 30 and the threaded member 34 and the nut member 38 formed on the outer end of the anchor 30 are fastened to fix the connecting member 70 .

The connecting member 70 includes a first connecting portion 72 disposed adjacent to the main body 10 and having a first fixing hole portion 72a through which the anchor 30 is passed and a second connecting portion 72 bent from the first connecting portion 72 And a second connection portion 74 having a second fixing hole portion 74a to which the support 50 is connected.

The first connection part 72 and the second connection part 74 are bent in a shape of a letter and the first connection part 72 has a first fixing hole part 72a into which the outer end of the anchor 30 is inserted And a second fixing hole portion 74a into which the bolt member 38a for engaging the supporter 50 is inserted is formed in the second connection portion 74 in the vertical direction.

Therefore, when the anchor 30 is inserted into the first fixing hole 72a when the connecting member 70 is mounted on the outer end of the anchor 30, the connecting member 70 is moved to the correct position while sliding the connecting member 70 in the vertical direction And the nut member 38 is fastened to the anchor 30 so that the connecting member 70 is tightly fixed to the front surface of the main body 10.

Since the second connection portion 74 is bent in a direction away from the direction in which the load of the stone panel 5 acts, the stone panel 5 is seated on the support base 50 provided on the second connection portion 74, The load of the stone panel 5 is concentrated on the edge formed at the connecting portion between the second connecting portion 74 and the first connecting portion 72 due to the load of the stone panel 5 acting on the support 50 .

One end of the first connection part 72 is bent forward to form a second connection part 74 in a planar shape and the second connection part 74 is also provided with a second fixing hole part The bolt member 38a fastened to the support 50 can be moved along the second fixing hole 74a to fix the support 50 in the correct position.

Since the corner formed at the bent portion between the first connecting portion 72 and the second connecting portion 74 is disposed in the same or similar direction as the vertical direction in which the load of the stone panel 5 acts, The second connecting portion 74 is deformed downward from the first connecting portion 72 to prevent the supporting stone panel 5 from being sagged.

As described above, in this embodiment, the first connecting portion 72 and the second connecting portion 74 are bent and connected to form a corner at a connecting portion, and the same or similar direction as the direction in which the load of the stone panel 5 acts Since the edges of the first connecting portion 72 and the second connecting portion 74 are disposed in the direction of the reinforcing ribs, the reinforcing ribs serve to support the stone panel 5.

Therefore, when a plurality of stone panels 5 are successively constructed using the supporting device according to the present embodiment, the stone panel 5 is installed at the correct position, and the built-up stone panel 5 can be prevented from being sagged So that a plurality of stone panels 5 can be maintained at a predetermined interval and can be installed beautifully and the position of the installed stone panel 5 can be prevented from being deformed.

The present embodiment further includes a length adjusting unit 80 for connecting the connecting member 70 and the support base 50 so that the degree of protrusion of the support base 50 from the connecting member 70 can be changed stepwise do.

The length adjuster 80 includes a first concave and convex portion 82 provided on the connecting member 70 and a second concave and convex portion 84 provided on the support base 50 and gear-connected to the first concave and convex portion 82, .

The first concavo-convex portion 82 is formed on the outer wall of the second connecting portion 74 so that a plurality of concavities and convexities are continuously arranged in a vertical direction. A plurality of concavities and convexities are vertically formed on the upper surface of the inner end portion of the support base 50 The second concavo-convex portion 84 is formed continuously.

The first concavo-convex portion 82 and the second concavo-convex portion 84 are brought into close contact with each other and the first concavo-convex portion 82 is brought into contact with the outer surface of the second connection portion 74, The concave and convexes forming the second concave-convex portion 84 are inserted into the gap, so that the gear connection is made between the second connection portion 74 and the support base 50.

The first concave-convex portion 82 and the second concave-convex portion 84 are formed by protruding the concavo-convexes having a rectangular side shape at a constant interval, The length of the support member 50 protruding from the connecting member 70 can be varied according to the width of the overlapping portion.

The first concavo-convex portion 82 and the second concavo-convex portion 84 may be arranged so that the distance between the stone panel 5 and the main body 10 is relatively large, And the distance between the main body 10 and the stone panel 5 should be kept relatively narrow, the first concave-convex portion 82 and the second concave-convex portion The support base 50 is arranged so that the overlapping portion of the first connection member 72 and the support member 50 is widened so that the first connection portion 72 and the support base 50 are engaged with the bolt member 38a and the first nut member 38.

As described above, in the present embodiment, the length of the support base 50 protruding from the main body 10 is adjusted while the support base 50 is projected forward from the main body 10 or the support base 50 is moved toward the main body 10 So that it is possible to adjust the distance between the stone panel 5 and the wall 1 that is seated on the support 50.

In this embodiment, since the length adjusting portion 80 is formed by the first concave-convex portion 82 and the second concave-convex portion 84 in which a plurality of concavities and convexities are continuously arranged with a constant interval, It is possible to precisely control the degree of protrusion of the supporter 50 because it is possible to adjust the number of the irregularities that are arranged so as to overlap the portions where the first and second irregular portions 84 and 82 are overlapped.

The first concavo-convex portion 82 and the second concavo-convex portion 84 are elongated in the vertical direction, and the first concavo-convex portion 82 and the second concavo-convex portion 84 are alternately inserted and connected in a gear- It is possible to prevent the supporter 50 which is in close contact with the second connection portion 74 from being rotated and slip around the bolt member 39 so as to more effectively prevent the supporter 50 from sagging in the downward direction do.

The reinforcing bent portion 52 of the support base 50 of this embodiment is elongated in the longitudinal direction at the center of the outer wall of the support base 50. The connection hole portion 54 formed in the second concave and convex portion 84 is formed in the reinforcing bent portion 52, A pair is formed on the upper side and the lower side with the center line 152 as a center.

The support base 150 includes a plate 50a extending longer in the front and rear direction and a reinforcing member extending longer than the plate 50a and orthogonally connected to the plate 50a in the longitudinal direction at the center of the outer wall of the plate 50a And includes a bent portion 52.

The reinforcement bent portion 52 is formed so as to protrude from the end portion of the plate 50a so that the outer end portion of the reinforcement bent portion 52 is protruded from the plate 50a so that the support portion on which the stone panel 5 is seated is formed, At the end thereof, a coupling hole portion 52a into which a projection projecting from the stone panel 5 is inserted is formed.

Since a plurality of coupling hole portions 52a are formed at different positions, protrusions protruding from the stone panel 5 are inserted into any one of the plurality of coupling hole portions 52a in accordance with the structural feature of the space in which the stone panels 5 are installed So that the stone panel 5 can be seated at an appropriate position of the support stand 52.

A method of constructing the exterior material using the exterior material supporting apparatus according to an embodiment of the present invention will now be described.

A method of constructing an exterior material using a building exterior material supporting apparatus according to an embodiment of the present invention includes a step of installing a wall body 1 such that a plurality of anchors 30 are inserted into a wall body 1, A step of mounting the main body 10 having the through holes 12 in the wall 1 and mounting the connecting member 70 to the anchor 30 protruding from the main body 10, Connecting the connecting member 70 and the supporting member 50 so that the supporting member 50 is mounted in a state where the supporting member 50 is protruded from the supporting member 50 and attaching the supporting member 50 to the supporting member 50, .

A plurality of anchors 30 are installed on the wall 1 so that they are integrally formed with one end of the anchors 30 inserted into the wall 1, A plurality of main bodies 10 are arranged on the entire surface of the wall body 1 so as to maintain a predetermined gap therebetween.

The other end of the anchor 30 protrudes forward from the front surface of the main body 10 through a through hole 12 formed at the other end of the main body 10 and anchors 30 are coupled to each other by a nut plate 36 and a nut member 38 at the other end.

The first concavo-convex portion 82 and the second concavo-convex portion 84 are closely contacted to the first concavo-convex portion 82 formed on the outer wall of the connecting member 70, The bolt member 38a is fitted to the first fixing hole portion 72a and the second fixing hole portion 74a and is connected to the nut member 38 so that the connecting member 70 and the support base 50 are coupled do.

The step of connecting the supporter 50 according to the present embodiment includes the step of connecting the supporter 50 to the connecting member 70 by the length adjusting unit 80 in which a plurality of irregularities are continuously arranged with a predetermined gap The degree of protrusion of the support table 50 can be varied and adjusted stepwise.

When the gap between the wall 1 and the stone panel 5 is widened, the support frame 50 is arranged so that the first concave and convex portions 82 and the second concave and convex portions 84 are narrowly overlapped so that a small number of concave- A relatively large number of concavities and convexities are gear-connected so that the first concavo-convex portion 82 and the second concavo-convex portion 84 overlap with each other when the space between the wall 1 and the stone panel 5 is relatively narrowed. (50).

The degree of protrusion of the support table 50 from the wall body 1 can be precisely controlled while adjusting the number of concave-convex portions constituting the first concave-convex portion 82 and the second concave-convex portion 84, The distance between the stone panel 5 and the wall 1 can be adjusted according to the condition of the wall 1 on which the stone panel 5 is installed.

The support base 50 of the present embodiment is provided with a plate 50a extending in the vertical direction and a reinforcing bend 52 extending in the lateral direction so that the stone panel is seated on the reinforcement bend portion and is vertically arranged The reinforcing bending portion 52 is joined to the second connecting portion 74 of the connecting member 70 by the bolt member 39 and the second nut member 39a.

At this time, the second connecting portion 74 is formed such that one end of the first connecting portion 72 is curved toward the center to form a corner, and the extending direction of the corner is the same as or similar to the direction in which the load of the stone panel 5 So that the reinforcing rib serves to prevent the bent portion between the second connecting portion 74 and the first connecting portion 72 from being deformed or damaged by the load of the stone panel 5. [

FIG. 4 is an exploded perspective view illustrating a concave-convex assembly mounting structure of a building exterior material supporting apparatus according to a second embodiment of the present invention.

Referring to FIG. 4, the length adjusting portion 80 of the building exterior supporting device according to the second embodiment of the present invention changes the length adjusting direction of the support frame 50 coupled to the connecting member 70, 70) and the support base (50).

The direction changing portion includes a concave-convex piece 86 made of a metal interposed between the first concave-convex portion 82 and the second concave-convex portion 84. The first concave-convex portion 82 is formed on the upper surface of the concave- And a fourth concavo-convex portion 86b extending in a direction orthogonal to the third concavo-convex portion 86a is formed on the bottom surface of the concavo-convex piece 86 .

Therefore, when the concave-convex piece 86 is interposed between the first concave-convex portion 82 and the second concave-convex portion 84, the third concave-convex portion 86a and the fourth concave-convex portion 86b, The arrangement direction of the second concave-convex portions 84 can be arranged in a direction orthogonal to the first concave-convex portions 82.

The present embodiment is characterized in that the concave-convex piece 86 is interposed between the connecting member 70 and the support base 50, and the third concave-convex portion 86a and the fourth concave-convex portion 86b The first concavo-convex portion 82 and the second concavo-convex portion 84 can be arranged in a direction orthogonal to each other.

When the second concave-convex portion 84 is arranged in a direction perpendicular to the first concave-convex portion 82, the second concave-convex portion 84 can be arranged in the longitudinal direction of the support base 50, It can be manufactured by an extrusion process or a drawing process.

When the second concave-convex portion 84 is formed in a direction orthogonal to the longitudinal direction of the support base 50 as in the first embodiment, the support base 50 is manufactured by the compression process or the drawing process, However, in the case where the second concavo-convex part 84 is formed in the longitudinal direction of the support base 50, the shape of the concave-convex part is added to the mold for performing the extrusion step or the drawing step, Or the support base 50 on which the second concave-convex portion 84 is formed by the drawing process can be manufactured.

Therefore, when the concave / convex piece 86 is interposed between the connecting member 70 and the support base 50, the support base 50, in which the second concave / convex portion 84 is formed in the longitudinal direction, So that it can be installed in the protruding direction.

The through hole 86c is formed in the concave and convex portion 86 in a direction orthogonal to the third concave and convex portion 86a so that one bolt member 86a is formed on the connecting member 70, So that they can be joined at the same time.

FIG. 5 is a perspective view illustrating an installation structure of a casing material supporting apparatus according to a third embodiment of the present invention.

Referring to FIG. 5, the connecting member 70 of the cladding material supporting structure according to the third embodiment of the present invention includes a plurality of first fixing hole portions 72a and a second fixing hole portion 74a, In the vertical direction.

Accordingly, the plurality of anchors 30 can be connected and joined together by one connecting member 70, and the plurality of supports 50 are coupled to the respective second fixing holes 74a, A plurality of support rods 50 can be installed on one connecting member 70 which is arranged long.

In addition, in the support base 50 of this embodiment, a pair of connection hole portions 54 are formed in parallel to each other in the vertical direction while maintaining a gap therebetween.

When the supporter 50 is provided so that the reinforcing bends 52 are disposed at the intervals between the plurality of second fixing holes 74a, the connecting hole 54 located on the upper side of the pair of connecting holes 54, The connection hole portion 54 located below the pair of connection hole portions 54 is connected to the second fixing hole portion 74a disposed on the upper side by the bolt member, As shown in Fig.

Of course, the pair of connection hole portions 54 can be simultaneously coupled to one second fixing hole portion 74a, and the plurality of second fixing hole portions 74a or one second fixing hole portion 74a, as described above, Since the pair of connection hole portions 54 can be connected in various ways, the position of the support base 50 can be varied in various ways.

FIG. 6 is a perspective view illustrating a connection member installation structure of a building exterior support apparatus according to a fourth embodiment of the present invention, and FIG. 7 is a state diagram illustrating a construction exterior member support apparatus according to a fourth embodiment of the present invention.

6 and 7, a connecting member 70 of a building exterior supporting apparatus according to an embodiment of the present invention includes a first connection portion 70a in which a first fixing hole portion 72a is formed to insert an anchor 30, And a pair of second connection portions 74 having both ends of the first connection portion 72 bent to the center side and having a second fixing hole portion 74a to which the support 50 is connected.

Therefore, the present embodiment is characterized in that a pair of support rods 50 can be installed on one connecting member 70, and a different stone panel 5 is supported on the pair of support rods 50, A pair of supports 50 can be installed on one anchor 30 and the connecting member 70 by disposing the connecting member 70 of the present embodiment in the connecting portion between the placed stone panels 5, It is possible to simultaneously support the pair of stone panels 5 which are formed by the above-mentioned method.

As described above, a pair of supports 50 are provided by one anchor and one connecting member 70, and a plurality of pieces of continuous stone panels 5 are placed on the pair of supports 50, It is possible to reduce the number of supporting devices required for the retaining wall on which the stone panel 5 is installed.

FIG. 8 is a cross-sectional view of a building envelope supporting apparatus according to a fifth embodiment of the present invention.

Referring to FIG. 8, the connecting member of the present invention is installed on a wall 1 of a building constructed by a ramen structure, and is connected to a plurality of frames by an anchor 30 in a vertical direction at the same time. A typical connecting member 70 is provided long in the vertical direction, and a support base 50 is provided on a plurality of portions of the connecting member 70.

The support base 50 is slid in the vertical direction along the connection member 70 and can be disposed at various positions so that the support base 50 can be moved to the connection member 70 while moving the support base 50 according to the interval between the wall bodies 1 forming the framework .

It is also possible to provide a separate support between the wall 1 and the wall 1 so that a plurality of stone panels 5 can be successively installed between the wall 1 and the wall 1, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Accordingly, it is possible to prevent deformation or breakage of the support member, which is relatively heavy, such as a stone panel, and to support a plurality of outer materials so that the outer materials of various shapes and sizes are successively arranged. And a method of constructing the exterior material using the same, which can reduce the number of parts of the supporting device when the continuous construction is performed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

Also, although the description has been made by taking the example of the building exterior supporting apparatus as an example, this is merely an example, and the supporting apparatus of the present invention can be used for products other than the building exterior supporting apparatus.

Accordingly, the true scope of the present invention should be determined by the following claims.

1: wall 3: insulation
5: Stone panel 10: Body
12: through hole portion 14: communicating hole portion
16: cutting blade 30: anchor
32: head 34: threaded
36: nut plate 36a: concave groove
38: nut member 38a: bolt member
50: support member 52: reinforcement member
54: connecting hole portion 70: connecting member
72: first connection part 72a: first fixing hole part
74: second connecting portion 74a: second fixing hole portion
80: length adjuster 82: first concave /
84: second concave-convex portion 86: concave-convex portion
86a: third irregular portion 86b: fourth irregular portion
86c: through hole portion

Claims (8)

Anchors installed on walls;
A connecting member for receiving the anchor; And
And a support member installed on the connecting member and supporting the casing member,
The connecting member includes:
A first connection part having a first fixing hole part through which the anchor passes; And
And a second connection part extending from the first connection part and having a second fixing hole part connected to the support part,
The second connection portion is bent in a direction away from a direction in which a load of the exterior material acts,
Further comprising a length adjusting unit for connecting the connecting member and the supporting base so that the degree of protrusion of the supporting base from the connecting member can be changed stepwise,
The length-
A first irregular portion provided on the connecting member; And
And a second uneven portion provided on the support and gear-connected to the first uneven portion,
Wherein the first fixing hole portion in which the outer end of the anchor is inserted is formed in the first connection portion in the vertical direction and the second fixing hole portion in which the bolt member for coupling the support is inserted is formed in the second connection portion in a vertical direction As shown in FIG.
The support includes:
A plate which is arranged long in the longitudinal direction; And
And a reinforcing bend extending longer than the plate and perpendicularly connected to the plate in the longitudinal direction at the center of the outer wall of the plate.
The method according to claim 1,
Further comprising a main body which is disposed adjacent to the wall to enclose the anchor and is press-fitted into a heat insulating material provided on the wall.
delete delete The method according to claim 1,
Wherein the length adjusting unit further comprises a direction changing unit that changes the length adjusting direction of the supporting member coupled to the connecting member and couples the connecting member to the supporting member.
The method according to claim 1,
Wherein a corner formed at a bent portion between the first connection portion and the second connection portion is disposed so as to extend in the same direction as a direction in which a load of the exterior material acts.
(a) installing the wall such that a plurality of anchors are inserted into the wall;
(b) mounting a body having a through hole in the wall to insert the anchor;
(c) mounting the connecting member to the anchor projecting from the main body;
(d) connecting the connecting member and the supporting member such that the supporting member protrudes from the main body; And
(e) mounting the casing to the support and connecting the casing to the casing,
Wherein the steps (a) to (e)
Anchors installed on the wall;
The connecting member resting on the anchor; And
And a support member installed on the connecting member and supporting the exterior member,
The connecting member includes:
A first connection part having a first fixing hole part through which the anchor passes; And
And a second connection part having a second fixing hole part bent and extending from the first connection part and connected to the support part,
In the step (d), when the support member is coupled to the connection member by the length adjusting unit having a plurality of irregularities arranged at regular intervals,
The length-
A first irregular portion provided on the connecting member; And
And a second uneven portion provided on the support and gear-connected to the first uneven portion,
Wherein the first fixing hole portion in which the outer end of the anchor is inserted is formed in the first connection portion in the vertical direction and the second fixing hole portion in which the bolt member for coupling the support is inserted is formed in the second connection portion in a vertical direction As shown in FIG.
The support includes:
A plate which is arranged long in the longitudinal direction; And
And a reinforcing bend extending longer than the plate and perpendicularly connected to the plate in the longitudinal direction at the center of the outer wall of the plate. delete

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