KR102054616B1 - Composite insulation panel constructing method - Google Patents

Abstract

The present invention relates to a method for constructing a composite insulation panel, which enables easy and stable construction. The method comprises the following steps of: (S1) fixing a pair of brackets to a left side and a right side of a construction wall; (S2) fixing a pair of vertical frames to one side of the brackets; (S3) fixing a horizontal frame to the pair of vertical frames; (S4) fixing a support to the horizontal frame; (S5) mounting a composite insulation panel on the support; (S6) fixing the support to the horizontal frame and supporting the composite insulation panel by using the support; and (S7) mounting the composite insulation panel on the support.

Description

Composite insulation panel constructing method

The present invention relates to a composite insulating panel construction method that can be easily and firmly constructed.

As a finishing material for constructing interior and exterior barriers of buildings such as buildings, panels such as marble and granite, which are processed into rectangular flat plates, have been adopted. Panels used as a building interior and exterior barrier finishing material is usually arranged in parallel with the outer wall of the building slab 30 at regular intervals as shown in Figure 9a and 9b to form a curtain wall-shaped exterior wall. Finish construction.

In the case of constructing the panel 10 as described above by finishing the exterior wall of the building, the truss 20 is generally used using a plurality of fasteners such as the anchor 41, the bracket 42, the bolt 43, and the like. Installed to be fixed to the building slab (30).

The truss 20 is made of a steel frame such that the vertical member 21 and the horizontal member 22 made of square pipes form a lattice-shaped unit module of a predetermined standard.

The panel 30 is fixed to the truss 20 as described above by fastening a plurality of fastening members 51 to 59 such as “b” type anchors or brackets and bolts and nuts, and constructing them as curtain wall-type outer walls. .

However, in the case of the panel construction method described above, there is a problem in that the construction process is complicated and the construction cost is increased by using a plurality of fastening members.

In addition, when a stone panel such as marble is used, the panel itself has a high unit cost and is difficult to process. Therefore, it is also necessary to develop a composite panel that can replace it or a composite insulating panel having strong flame retardancy against fire.

Republic of Korea Patent Publication No. 10-2007-0117790

Accordingly, the present invention has been made to solve the above problems, the object of the present invention is to provide a composite insulation panel construction method that can be easily and firmly constructed.

The problem to be solved of the present invention is not limited to those mentioned above, other problems not mentioned will be clearly understood by those skilled in the art from the following description.

To this end, the composite insulation panel construction method according to the present invention includes a wall fixing piece having an anchor insertion hole formed at the left and right sides of the construction wall, a first bent piece bent at one end of the wall fixing piece, and one end of the wall fixing piece being S1 step of fixing a pair of brackets consisting of a second bent piece protruding outward from the first bent piece, and the fitting groove provided between the first bent piece and the second bent piece;
S2 step of fixing a pair of vertical frame consisting of a first surface and a second surface bent from the first surface is inserted into the fitting groove on one side of the bracket;
It is disposed on the lower and upper ends of the pair of vertical frames, respectively, a support surface fixed to the second surface of the pair of vertical frames, an extension surface extending forward from the support surface, and a front end of the extension surface. And a seating protrusion comprising a first bent surface that is bent upward at the extended surface, a second bent surface that is horizontally bent at the first bent surface, and a third bent surface bent downward at the second bent surface. Step S3 of fixing the first and second horizontal frames of the pair;
A seating groove portion formed to be fitted to the seating protrusion formed of the first to third bent surfaces to the first horizontal frame disposed at the bottom and fixed to the seating protrusion with a fixing screw, and extending forward from a lower end of the seating recess; A lower extension bar, a vertical portion extending vertically upward from a front end of the lower extension bar, a rear fitting protrusion branching forward of the vertical portion and vertically protruding upward, and branching vertically upward and vertically; S4 step of fixing the base consisting of a front fitting protrusion to protrude;
S5 step of mounting a composite insulation panel on the pedestal;
A seating groove portion which is formed to be fitted to the seating protrusion formed of the first to third bent surfaces to the second horizontal frame disposed above and fixed to the seating protrusion with a fixing screw, and an extension extending forward of the seating recess; A step S6 of fixing the support bar including a rear fitting protrusion protruding vertically vertically to the front end of the extension bar and a front fitting protrusion and supporting the composite insulation panel as the support;
S7 step of seating the composite insulation panel on the support;
The composite insulation panel is made of a heat insulating material, a composite panel attached to the front of the heat insulating material,
The upper and lower surfaces of the heat insulating material is formed with a rear fitting groove into which the rear fitting protrusion of the support or the support is fitted.
The front and bottom of the composite panel is characterized in that the front fitting groove is formed in which the front fitting protrusion of the support or the support is formed.

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In addition, in the composite insulating panel construction method according to the present invention, the composite panel is characterized by consisting of a core material molded into a plate shape by mixing magnesium hydroxide with an adhesive resin, and an aluminum sheet attached to the surface of the core material.

In addition, in the composite insulation panel construction method according to the present invention, a flange is disposed on the left or right side of the composite insulation panel, the flange is fixed surface fixed to the third bent surface, and extends forward from the fixing surface An extension surface and an insertion surface extending from the extension surface to the left and right to be inserted into the insertion groove formed on the left and right sides of the composite panel is formed.

Accordingly, the present invention has been made to solve the above problems, the composite panel processing and construction method according to the present invention has an effect that can be easily and easily installed.

The effects of the present invention are not limited to those mentioned above, and other effects that are not mentioned will be clearly understood by those skilled in the art from the following description.

1 to 3 are perspective views illustrating a state in which the composite insulation panel according to the present invention is constructed.
4 and 5 is a longitudinal cross-sectional view and a cross-sectional view showing a state in which the composite insulation panel according to the present invention is constructed.
6 is a perspective view showing a composite insulation panel of the present invention.
7a to 7c is a state diagram showing the state in which the composite insulation panel according to the invention is constructed.
8A and 8B are longitudinal and cross-sectional views illustrating an embodiment different from FIGS. 4 and 5.
9A and 9B are diagrams illustrating a conventional wall finishing structure.

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

In describing the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intention or precedent of an operator or an operator. Therefore, the definition should be made based on the contents throughout the specification.

1 to 3 are perspective views showing the construction of the composite insulation panel according to the present invention, Figures 4 and 5 is a longitudinal cross-sectional view and a cross-sectional view showing the construction of the composite insulation panel according to the present invention, Figure 6 Is a perspective view showing a composite insulation panel of the present invention. And 7a to 7c is a state diagram showing the state in which the composite insulation panel according to the invention is constructed.

1 to 7C, the composite insulation panel construction method according to the present invention includes a step S1 of fixing a pair of brackets 110 to the left and right of the construction wall surface 10, and one side of the bracket 110. Step S2 of fixing the pair of vertical frames 120, step S3 of fixing the pair of first and second horizontal frames 130a and 130b on the lower and upper portions of the pair of vertical frames 120, and S4 step of fixing the pedestal 140 to the first horizontal frame (130a) disposed in the step, S5 step of seating the composite insulation panel 150 on the pedestal 140, and the second horizontal Fixing the support 160 to the frame (130b) step S6 to support the composite insulation panel 150 with the support 160, and step S7 to seat the composite insulation panel 150 on the support 160 It can be configured to include.

The bracket 110 of step S1 includes a wall fixing piece 111 having an anchor insertion hole 112 into which an anchor 113 is inserted, and a first bent piece 114 bent at one end of the wall fixing piece 111. ), A second bending piece 115 which is bent at one end of the wall surface fixing piece 111 and protrudes outward from the first bending piece 114, and the first bending piece 114 and the second bending piece. It consists of a fitting groove 116 provided between (115). The pair of first bent pieces is disposed on both sides of the second bent piece 115.

A screw insertion hole 117 is formed in each of the wall fixing piece 111 and the first bent piece 114, and is firmly fixed to a construction wall or a vertical frame by a fastening member such as a screw 118.

The vertical frame 120 includes a first surface 121 inserted into the fitting groove 116 and a second surface 122 bent from the first surface 121. Unevenness may be formed on one side of the first surface 121, and unevenness may be formed on a surface of the second surface 122 contacting the horizontal frame 130.

Since the first surface 121 of the vertical frame 120 is forcibly fitted into the fitting groove 116 of the bracket 110, assembly is facilitated, and at the same time, the screw is joined together with the first surface 121 of the vertical frame 120. 118 is firmly fixed because it is fastened.

The first and second horizontal frames 130a and 130b are horizontally fixed between the pair of vertical frames 120 to support the pedestal 140 or the support 160, and both ends of the first and second horizontal frames 130a and 130b are provided in the pair. A support surface 131 fixed to the second surface 122 of the vertical frame 120, an extension surface 132 extending forward from the support surface 131, and a front end of the extension surface 132. It is composed of a seating protrusion 133.

The seating protrusion 133 serves to allow the seating recess 141 of the support 160 to be described below to be inserted from above and supported by the seating protrusion 133. The first bending surface 133a bent upward from the extension surface 132. ), A second bent surface 133b horizontally bent from the first bent surface 133a, and a third bent surface 133c bent downwardly from the second bent surface 133b.

When the seating groove 141 of the support 160 is seated on the seating protrusion 133, a fastening member such as a screw 118 is fastened to the seating recess 141 and the second bent surface 133b.

The pedestal 140 is a seating groove 141 to be fitted to be fitted to the seating protrusion 133 consisting of the first bent surface (133a) to the third bent surface (133c), and the lower end of the seating groove 141 At the lower extension bar 142 extending forward, the vertical portion 143 vertically extending upward from the front end of the lower extension bar 142, and branched forward of the vertical portion 143 to the upper side It consists of a rear fitting protrusion 144 protruding vertically, and a front fitting protrusion 145 protruding vertically upward and downward, branching to the rear of the vertical portion 143.

The seating groove 141 is formed in a 'c' shape to fit with the seating protrusion 133.

The lower extension bar 142 has a thickness corresponding to the thickness of the composite insulation panel 150.

On the other hand, the composite insulation panel 150 is composed of a heat insulating material 151, a composite panel 153 attached to the front of the heat insulating material 151, the pedestal 140 on the upper and lower surfaces of the heat insulating material 151. Alternatively, a rear fitting groove 154 into which the rear fitting protrusion 144 of the support 160 is fitted is formed, and the front fitting protrusion of the pedestal 140 or the support 160 is formed on the upper and lower surfaces of the composite panel 153. The front fitting groove 155 to which the 145 is fitted is formed.

The rear fitting groove 154 provided on the bottom surface of the heat insulator 151 is inserted into the rear fitting protrusion 144 of the pedestal 140.

Similarly, the front front fitting protrusion 145 of the pedestal 140 is inserted into the front fitting groove 155 provided on the bottom surface of the composite panel 153 disposed on the upper side, and the lower front fitting protrusion 145 is placed on the lower side. The front fitting groove 155 closed on the upper surface of the disposed composite panel 153 is inserted and mounted.

When the pedestal 140 is installed at the lowermost end of the construction wall surface 10, the composite insulation panel 150 and the support 160 are sequentially repeatedly installed in the upward direction of the pedestal 140, and the composite insulation panel 150 is installed on the construction wall surface 10. Will be constructed.

The support 160 is a seating groove 160 to be fitted to fit into the seating protrusion 133 consisting of the first bent surface (133a) to the third bent surface (133c), and the front of the seating groove 160 It consists of an extension bar 162, a rear fitting protrusion 163 and a front fitting protrusion 164 vertically projecting up and down vertically in the front end of the extension bar 162.

The support 160 also has a rear fitting protrusion 163 and a front fitting protrusion 164 formed like the pedestal 140 so that the rear fitting groove 154 and the front fitting groove 155 of the composite insulation panel 150 are formed. It is inserted into and fixed.

Composite insulation panel 150 of the present invention is attached to the composite panel 153 on one surface of the heat insulating material 151 for ease of assembly, the composite panel 153 is bonded to the magnesium hydroxide which is a flame-retardant material. What consists of the core material mixed with resin, shape | molded in plate shape, and the aluminum sheet adhered to the surface of the said core material can be illustrated.

After attaching the heat insulator 151 and the composite panel 153, the rear fitting groove 154 and the front fitting groove 155 are processed on the upper and lower surfaces, and the insertion groove 156 into which the flange 170 to be described later is fitted. ) Will be processed.

In order to construct the composite insulation panel 150 in the lateral direction, a flange 170 is used. For example, in order to connect another composite insulation panel 150 to the side of any one of the composite insulation panels 150, The flange 170 is disposed between the two composite insulation panels 150 to fix each composite insulation panel 150.

In this case, the flange 170 has a fixed surface 171 fixed to the third bent surface 133c, an extension portion 172 extending forward from the fixing surface 171, and the extension portion 172 An insertion surface 173 is formed to extend from side to side to fit into the insertion groove 156 formed on the left and right sides of the composite panel 153.

8A and 8B are longitudinal and cross-sectional views showing an embodiment different from FIGS. 4 and 5.

8A and 8B, unlike the embodiment described above, the present embodiment omits the horizontal frame 130, the pedestal 140, and the support 160, and not the composite insulation panel () including the heat insulating material. There is a difference in installing the panel 153.

In other words, in the present embodiment, only the bracket 110 and the vertical frame 120 are installed on the construction wall, and the construction is performed by fixing the composite panel with fastening members such as screws and taka to the vertical frame. It can be applied to interior decoration of.

On the other hand, in the detailed description of the present invention and the accompanying drawings, specific embodiments have been described, but the present invention is not limited to the disclosed embodiments and those skilled in the art to which the present invention belongs, Many substitutions, modifications and variations are possible without departing from the scope thereof. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be construed as including not only the claims below but also equivalents thereof.

110: bracket 111: wall fixing
112: anchor insertion hole 113: anchor
114: first bending section 115: second bending section
116: fitting groove 117: screw insertion hole
118 screw 120 vertical frame
121: first page 122: second page
130: horizontal frame 131: support surface
132: extension surface 133: seating protrusion
133a: first bent surface 133b: second bent surface
133c: third bending surface 140: pedestal
141: mounting groove 141a: fixing screw
142: lower extension bar 143: vertical portion
144: rear fitting 145: front fitting
150: composite insulation panel 151: insulation
153: composite panel 154: rear fitting groove
155: front fitting groove 156: insertion groove
160: support 161: seating groove
161a: fixing screw 162: extension bar
163: rear fitting 164: front fitting
170: flange 171: fixed surface
172: extension 173: insertion surface
10: construction wall surface

Claims (5)

A wall surface fixing piece having an anchor insertion hole formed at the left and right sides of the construction wall; a first bent piece bent at one end of the wall surface fixing piece; S1 step of fixing a pair of brackets consisting of a piece, the fitting groove provided between the first bent piece and the second bent piece;
S2 step of fixing a pair of vertical frame consisting of a first surface and a second surface bent from the first surface is inserted into the fitting groove on one side of the bracket;
It is disposed on the lower and upper ends of the pair of vertical frames, respectively, a support surface fixed to the second surface of the pair of vertical frames, an extension surface extending forward from the support surface, and a front end of the extension surface. And a seating protrusion comprising a first bent surface that is bent upward at the extended surface, a second bent surface that is horizontally bent at the first bent surface, and a third bent surface bent downward at the second bent surface. Step S3 of fixing the first and second horizontal frames of the pair;
A seating groove portion formed to be fitted to the seating protrusion formed of the first to third bent surfaces to the first horizontal frame disposed at the bottom and fixed to the seating protrusion with a fixing screw, and extending forward from a lower end of the seating recess; A lower extension bar, a vertical portion extending vertically upward from a front end portion of the lower extension bar, a rear fitting protrusion branching forward of the vertical portion and vertically protruding upward, and branching vertically upward and downward; S4 step of fixing the base consisting of a front fitting protrusion to protrude;
S5 step of mounting a composite insulation panel on the pedestal;
A seating groove portion which is formed to be fitted to the seating protrusion formed of the first to third bent surfaces to the second horizontal frame disposed above and fixed to the seating protrusion with a fixing screw, and an extension extending forward of the seating recess; A step S6 of fixing the support bar including a rear fitting protrusion protruding vertically vertically to the front end of the extension bar and a front fitting protrusion and supporting the composite insulation panel as the support;
S7 step of seating the composite insulation panel on the support;
The composite insulation panel is made of a heat insulating material, and a composite panel attached to the front of the heat insulating material,
The upper and lower surfaces of the heat insulating material is formed with a rear fitting groove into which the rear fitting protrusion of the support or the support is fitted.
The upper and lower surfaces of the composite panel is a composite insulation panel construction method characterized in that the front fitting groove is formed in which the front fitting projection of the support or the support is formed.
delete delete The method of claim 1,
The composite panel,
A composite insulation panel construction method comprising: a core material in which a magnesium hydroxide is mixed with an adhesive resin and formed into a plate shape, and an aluminum sheet attached to a surface of the core material.
The method of claim 1,
A flange is disposed on the left or right side of the composite insulation panel,
The flange is
A fixing surface fixed to the third bent surface, an extension portion extending forward from the fixing surface, and an insertion surface extending from the extension portion to the left and right to be inserted into the insertion grooves formed on the left and right sides of the composite panel. Composite insulation panel construction method characterized in that.

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