KR101975801B1 - Double Layered Aluminum Foam Panel for Architecture - Google Patents

Abstract

The present invention relates to a foaming aluminum panel for construction having a multi-layered structure, which forms a foaming aluminum panel of a double structure that upper and lower layer parts are integrated by stacking a mixed powder extrusion material of aluminum alloy powder and foaming agent powder mixed by a different ratio on one mold, and foaming and thermally treating the same in order to improve heat insulation properties and sound absorption properties of a building, wherein the upper layer part has relatively high porosity and low tensile strength, and the lower layer part has relatively low porosity and high tensile strength, thereby improving sound absorbing performance and impact resistance of the foaming aluminum panel by the upper layer part, and improving the strength of the foaming aluminum panel by the lower layer part.

Description

{Double Layered Aluminum Foam Panel for Architecture}

The present invention relates to a foamed aluminum panel to be attached to a slab or a wall surface of a building in order to improve thermal insulation and sound absorption properties of a building, and more particularly, to a foamed aluminum panel to which aluminum alloy powder and foaming agent powder The foamed aluminum panel with a double structure in which the upper and lower layers are integrated is formed by laminating the mixed powder extruded material and then subjected to the foaming heat treatment. The upper layer has higher porosity and lower tensile strength than the lower layer, and the lower layer has lower porosity and higher tensile strength than the upper layer The present invention relates to a foamed aluminum panel for construction having a multi-layer structure for improving the sound absorption performance and impact resistance of the foamed aluminum panel by the upper layer portion and improving the strength of the foamed aluminum panel by the lower layer portion.

Generally, in the temperate zone where the seasonal climate change is pronounced, in order to reduce the heating and cooling costs by keeping the indoor and outdoor temperature constant, insulation material is installed on the wall of the building and various finish materials are attached thereon to finish the wall. An exterior insulation finishing system which is simple and easy to install by fixing insulation material such as styrofoam on the wall by using an anchor etc. and finishing material on the surface of the insulation by applying an adhesive to the surface of the exterior wall of the building, It is widely applied.

However, there is a problem that the insulation is separated from the wall surface or the surface finishing material is easily damaged when the wall is constructed by the external insulation method. In case of a fire, the propagation speed of the flame is very fast and toxic gas is emitted and the surface finishing material is tile, brick, Is attached to the surface of the heat insulating material, the weight increases, which makes it difficult to fix the wall.

In addition, although a shock absorber is installed in a slab of a building, a foam concrete is laid and a mortar is installed to prevent the generation of interlayer noise. However, in such a method, impact sound transmitted to the floor surface can be absorbed, And the sound absorbing performance gradually deteriorates due to the deformation of the shock absorbing material when the time elapses after the application.

As described above, the finishing material used for slabs and walls of buildings must satisfy not only economical efficiency, durability and ease of installation but also various performances such as thermal insulation, flame retardance, sound absorption, etc. In order to satisfy such performance, Korean Patent Publication No. 10-1998-087557 , It is possible to form a space under the foamed aluminum panel by forming auxiliary members at both lower ends of the foamed aluminum panel and by inserting a sound absorbing material such as glass wool into the formed space and to provide a foamed aluminum panel .

However, since such a foamed aluminum panel forms a lot of pores inside to make it lighter, when it is used as a finishing material for a floor or an external force acting on a part having a low strength, when heavy power is applied, There is a problem that the shape of the aluminum panel is deformed or broken.

In order to prevent the sound absorbing performance of the sound absorbing material such as the glass wool inserted into the lower space of the foamed aluminum panel from being sagged by its own weight, the glass wool is adhered to the lower surface of the foamed aluminum panel using an adhesive agent. If used, toxic gas is generated from the adhesive agent in the event of fire, and fire is liable to be propagated, thereby deteriorating the flame retardant performance.

In order to solve the above problems, Korean Patent Registration No. 10-0934583 discloses a method of improving the strength and vibration damping performance by burying a wire mesh net inside a foamed aluminum panel, arranging a plurality of anti-vibration rubber on the slab, A method of improving the noise and vibration damping effect by forming an air layer between the slab, the steel fixing frame, the steel fixing frame and the foamed aluminum panel by placing the anti-vibration rubber on the steel fixing frame and placing the foamed aluminum panel thereon However, according to such a construction method, it takes a long time to stack the anti-vibration rubber, the steel fixing frame and the foamed aluminum in order, and the slab or wall thickness increases to form the air layer, The air formed by the arrangement of the anti- Layer alone has a problem that it is difficult to improve the thermal insulation performance.

Korean Patent Publication No. 10-1998-087557 (published on December 5, 1998) Korean Registered Patent No. 10-0934583 (Registered on December 22, 2009)

Embodiments of the present invention aim to provide improved strength and sound absorption performance of a foamed aluminum panel for construction.

In the embodiment of the present invention, when an adhesive is used in the process of attaching a foamed aluminum panel and a glass wool, toxic gas is generated from an adhesive when a fire occurs in a building, and the problem that the flame- .

In an embodiment of the present invention, it is an object of the present invention to minimize the space for installation of a foamed aluminum panel for construction, thereby increasing the efficiency of indoor space utilization.

It is an object of the present invention to provide a reduction in the time required for production and construction of a foamed aluminum panel for construction.

According to an embodiment of the present invention, a foamed aluminum panel having a cavity formed therein by heat-treating a mixed powder extruded material of an aluminum alloy powder and a foaming agent so as to be attached to a slab or a wall surface of a building to improve heat insulating property and sound absorption property, The upper and lower layers are formed by laminating the mixed powder extruded material of the aluminum alloy powder and the foaming agent powder mixed at different ratios in the upper and lower layers in one die and then performing the foaming heat treatment to obtain different porosity The foamed aluminum panel having an upper layer and a lower layer integrally formed thereon is improved in the sound absorption performance and the impact resistance of the foamed aluminum panel by the upper layer having a relatively high porosity and a low tensile strength and has a relatively low porosity and high tensile strength Have strength Is configured to improve the strength of the foamed aluminum panel by the lower layer portion.

According to the embodiment of the present invention, 98 to 99% by weight of the aluminum alloy powder and 1 to 2% by weight of the foaming agent powder are mixed in the upper layer portion, 95 to 97% by weight of the aluminum alloy powder, 2 to 3% by weight of the alumina powder, The alumina powder in the lower layer is dispersed in the aluminum alloy powder so that the foamed aluminum panel has a specific gravity of 0.7 to 1.5 and the upper and lower layers have tensile strengths of 5 to 7 MPa and 35 to 45 MPa respectively .

According to an embodiment of the present invention, the aluminum alloy powder and the foaming agent powder are Al 6063 powder and TiH ₂ powder, respectively.

According to the embodiment of the present invention, glass wool is adhered to the lower surface of the lower portion of the foamed aluminum panel to improve thermal insulation and sound absorption of the foamed aluminum panel.

According to the embodiment of the present invention, the glass wool and the foamed aluminum panel are fixed to each other by the fastening material, thereby further improving the flame retardancy.

According to an embodiment of the present invention, a frame is mounted on the lower surface of the foamed aluminum panel, and the frame is positioned between the lower surface of the joint between two or more foamed aluminum panels adjacent to each other and the slab or wall surface of the building, A glass wool is disposed as a space formed between the slabs or wall surfaces of the building and a shock absorbing layer made of an elastic material is formed on the lower surface of the foamed aluminum panel and the frame surface contacting the slab or wall surface of the building, Or vibration and noise transmitted to the wall surface are reduced.

According to the embodiment of the present invention, the washer is mounted on the upper surface corner of the joining portion between two or more adjacent aluminum aluminum panels disposed adjacent to each other, and the fixing bolt passing through the washer is connected to the frame, .

According to the embodiment of the present invention, the foamed aluminum panel is formed of a double structure in which upper and lower portions having different porosities are integrated to improve sound absorption performance and impact resistance by an upper portion having a relatively high porosity and a low tensile strength It is possible to simplify the production process by omitting a separate reinforcing structure forming process for improving the strength of the foamed aluminum panel by improving the strength by the lower portion having a relatively low porosity and high tensile strength.

According to the embodiment of the present invention, the alumina powder is dispersed in the aluminum alloy powder to further improve the compressive strength of the lower panel of the foamed aluminum panel to prevent breakage due to the action of external force, and to have a light weight of 0.7 to 1.5 It is possible to prevent a safety accident from occurring due to breakage or dropping of the foamed aluminum panel when the foamed aluminum panel is attached to the wall surface of the building.

According to the embodiment of the present invention, the glass wool is attached to the lower surface of the lower panel of the foamed aluminum panel, and the glass wool can be positioned between the slab or wall surface of the building and the foamed aluminum panel. There is an effect that can be improved.

According to the embodiment of the present invention, the glass wool attached to the foamed aluminum panel is fixed to the foamed aluminum panel by the fastening material, thereby preventing the generation of toxic gases and improving the flame retardant performance.

According to the embodiment of the present invention, it is possible to further facilitate the installation of the foamed aluminum panel through the frame on the surface of the contact surface, and to prevent vibration and noise from being generated through the frame having the shock absorbing layer.

1 and 2 are views showing a cross-sectional microstructure of a foamed aluminum panel according to an embodiment of the present invention.
3 is a view showing a structure in which a mixed powder extrusion material of an aluminum alloy powder and a foaming agent powder mixed at different ratios before a foaming heat treatment process is formed in a mold to form a double-layer foamed aluminum panel according to an embodiment of the present invention.
4 is a view showing a fastening structure for fixing a foamed aluminum panel and a glass wool according to an embodiment of the present invention.
5 is a view showing a cross-sectional structure of a connection part between a frame and a foamed aluminum panel according to an embodiment of the present invention.
6 is a view showing a connection structure between foamed aluminum panels according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. The present invention will be described in detail with reference to the portions necessary for understanding the operation and operation according to the present invention. In describing the embodiments of the present invention, description of technical contents which are well known in the art to which the present invention belongs and which are not directly related to the present invention will be omitted. This is for the sake of clarity of the present invention without omitting the unnecessary explanation.

In describing the constituent elements of the present invention, the same reference numerals may be given to constituent elements having the same name, and the same reference numerals may be given to different drawings. However, even in such a case, it does not mean that the corresponding component has different functions according to the embodiment, or does not mean that it has the same function in different embodiments, and the function of each component is different from that of the corresponding embodiment Based on the description of each component in FIG.

Also, the technical terms used herein should be interpreted in a sense generally understood by a person skilled in the art to which the present invention belongs, unless otherwise defined in this specification, and it should be understood that an overly comprehensive It should not be construed as a meaning or an overly reduced meaning.

Furthermore, the singular forms " a " as used herein include plural referents unless the context clearly indicates otherwise. In the present application, the term " comprising " or " comprising " or the like should not be construed as necessarily including the various elements or steps described in the specification, Or may be further comprised of additional components or steps.

Hereinafter, the configuration of the embodiments of the present invention will be described.

1 and 2, the foamed aluminum panel 10 according to the first embodiment of the present invention is formed by integrating a foamed aluminum panel 10 composed of a double layer of an upper layer portion 11 and a lower layer portion 12 In order to form a single panel and to form an integrated panel, as shown in FIG. 3, a mixed powder extruded material of aluminum alloy powder and foaming agent powder mixed in different ratios in one metal mold 100 is laminated Followed by foaming heat treatment to form a foamed aluminum panel 10 having voids therein.

The upper layer 11 of the foamed aluminum panel 10 has a higher porosity than that of the lower layer 12 because the aluminum alloy powder is mixed at a higher ratio than the lower layer 12, Aluminum powder is added to the mixed powder extruded material of the aluminum alloy powder and the foaming agent powder so that the tensile strength of the lower layer portion 12 is larger than the tensile strength of the upper layer portion 11 as the alumina powder is dispersed in the aluminum alloy powder .

The foamed aluminum panel 10 having been subjected to the foaming heat treatment is attached to the slab 1 or the wall surface 1A of the building so that the lower surface of the lower layer portion 12 of the foamed aluminum panel 10 is bonded to the slab 1 or the wall surface 1A The upper layer portion 11 provided to be in contact with the surface and having a relatively high porosity and a low tensile strength prevents the noise and vibration acting on the foamed aluminum panel 10 from being transmitted along the slab 1 or the wall surface 1A The lower layer portion 12 having a relatively low porosity and a high tensile strength improves the strength of the foamed aluminum panel 10 while maintaining the weight of the foamed aluminum panel 10, So that damage to the foamed aluminum panel 10 due to the cracks can be prevented.

At this time, since the upper and lower layers 11 and 12 are formed integrally with each other, unlike the case where a separate panel is fixed through an adhesive or a fastener, It is possible to prevent the upper layer portion 11 and the lower layer portion 12 from being separated from each other due to the factors, so that the durability of the foamed aluminum panel 10 can be further improved.

In addition, the foamed aluminum panel 10 is made of an integrated double structure, and the strength of the foamed aluminum panel 10 is improved through the lower layer portion 12, It is possible to omit the process of constructing a separate reinforcement structure for improving the strength of the panel 10, thereby shortening the time required for production or construction.

The constitution of the second embodiment of the present invention is the same as that of the first embodiment and suggests a component mixture ratio for exhibiting optimized sound-absorbing property and lighter weight. More specifically, the upper layer 11 according to the first embodiment, The aluminum alloy powder, the alumina powder and the foaming agent powder are mixed in a ratio of 98 to 99 wt% and 1 to 2 wt%, respectively, in the lower layer portion 12 according to the first embodiment. 95 to 97% by weight, 2 to 3% by weight and 1 to 2% by weight.

In addition, when the foamed aluminum panel 10 is heated to form voids by controlling the amount of voids so that the specific gravity of the foamed aluminum panel 10 is within the range of 0.7 to 1.5, the weight of the foamed aluminum panel 10 is reduced. , The alumina powder contained in the lower layer portion 12 is dispersed in the aluminum alloy powder so that the compressive strength of the lower layer portion 12 is further improved and the foamed aluminum panel 10 having a light weight is attached to the wall surface of the building, It is possible to prevent a safety accident from occurring due to breakage or dropout of the battery 10.

The tensile strength of the upper layer portion 11 is formed within the range of 5 to 7 MPa, while the alumina powder contained in the lower layer portion 12 is dispersed in the aluminum alloy powder so that the compressive strength of the lower layer portion 12 is further improved, 12 are formed within a range of 35 to 45 MPa. Thus, the strength of the foamed aluminum panel 10 can be maintained while maintaining the weight of the foamed aluminum panel 10, and the damage of the foamed aluminum panel 10 due to the action of external force can be more effectively As described in the first embodiment.

Al 6063 powder is used for the aluminum alloy powder contained in the upper layer portion 11 and the lower layer portion 12 and the powder of the foaming agent is TiH ₂ Powder is used.

The structure of the fourth embodiment of the present invention is the same as that of the first embodiment. The glass wool 20 is attached to the lower surface of the lower layer portion 12 of the foamed aluminum panel 10 according to the first embodiment. (SiO ₂ ) -based amorphous glass fiber has a heat-resistant temperature of 300 to 650 ° C., and when combined with the foamed aluminum panel 10, the incombustible, sound-absorbing, lightweight, and heat insulating properties are greatly improved.

The structure of the fifth embodiment of the present invention is the same as that of the fourth embodiment. As shown in Fig. 4, the glass wool 20 attached to the foamed aluminum panel 10 is folded by the fastening material 21, The fastening member 21 is fixed to the foamed aluminum panel 10 by forming a thread on one end of the fastening member 21 which is fastened to the foamed aluminum panel 10, The wool 20 is fitted and fixed and the foamed aluminum panel 10 and the glass wool 20 are fixed to each other through the fastening material 21 to further improve the flame retardant performance.

Particularly, when an adhesive is used to attach the glass wool 20 to the foamed aluminum panel 10, a toxic gas is generated from the adhesive when a fire occurs in the building, and the adhesive itself is burned, To solve the problem of being vulnerable to fire.

The construction of the sixth embodiment of the present invention is the same as the construction of the fourth or fifth embodiment. As shown in Fig. 5, the lower surface of the foamed aluminum panel 10 according to the fourth or fifth embodiment and the slab 1 or the surface of the wall surface 1A to form a space between the foamed aluminum panel 10 and the slab 1 or the wall surface 1A and the foamed aluminum panel 10 and the slabs The glass wool 20 attached to the foamed aluminum panel 10 is inserted into the space formed between the wall surface 1A and the wall surface 1A.

When two or more foamed aluminum panels 10 are arranged on the slab 1 or the wall surface 1A of the building, the connection between the foamed aluminum panels 10 arranged adjacent to each other, The frame 30 having a rectangular sectional shape is arranged in a lattice shape on the lower surface so that the corner surfaces of two adjacent foamed aluminum panels 10 are raised on one frame 30.

An impact absorbing layer 31 made of an elastic material made of synthetic rubber or the like is formed on the surface of the frame 30 in contact with the foamed aluminum panel 10 and the slab 1 or the wall surface 1A to form a foamed aluminum panel 10 So that vibration and noise transmitted to the slab 1 or the wall 1A of the building can be reduced.

At this time, the glass wool 20 is free from compression and deformation, so that even if the glass wool 20 is overlapped with the pipe or wiring passing the surface of the slab 1 or the wall surface 1A, the contact surface with the pipe or wiring is deformed The installation process of the foamed aluminum panel 10 to which the glass wool 20 is attached is further facilitated.

6, the structure of the seventh embodiment of the present invention is the same as that of the sixth embodiment. The structure of the seventh embodiment of the present invention is the same as that of the sixth embodiment, A fixed bolt 33 passing through the foam aluminum panel 10 is mounted and the fixed bolt 33 is connected to the frame 30 disposed so as to be in close contact with the lower surface of the coupling portion between the foamed aluminum panels 10, The two aluminum panels 10 adjacent to each other, which are raised on the first and second panels 30 and 30, can be fixed at the same time.

Accordingly, when the foamed aluminum panel 10 and the glass wool 20 according to the embodiment of the present invention are fixed to the frame 30, the number of fastening of the washer 32 and the fixing bolt 33 is minimized, And the glass wool 20 is sandwiched in the space formed in the lattice-shaped frame 30 to minimize the increase in the thickness of the finishing material at the time of finishing the slab 1 or the wall surface 1A, . ≪ / RTI >

Although the embodiments of the present invention have been described with reference to the above description, those skilled in the art will understand that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

It is to be understood, therefore, that the embodiments described above are to be considered in all respects as illustrative and not restrictive, the scope of the invention being described in the foregoing specification as defined by the appended claims and their equivalents, Ranges and equivalents thereof are to be construed as being included within the scope of the present invention.

1: Slab 1A: Wall
10: foam aluminum panel 11: upper layer
12: lower layer portion 20: glass wool
21: fastening material 30: frame
31: Strength absorbing layer 32: Washer
33: Fixing bolt 100: Mold

Claims (7)

A foamed aluminum panel (10) which is attached to a slab (1) or a wall surface (1A) of a building to heat a mixed powder extruded material of an aluminum alloy powder and a foaming agent powder to improve thermal insulation and sound absorption,
The foamed aluminum panel 10 is obtained by laminating the mixed powder extruded material of the aluminum alloy powder and the foaming agent powder in which the upper layer portion 11 and the lower layer portion 12 are mixed at a different ratio in one metal mold 100, By forming the foamed aluminum panel 10 having a multilayered structure in which the upper and lower layers 11 and 12 having different porosities such that the porosity is higher than the porosity of the lower layer portion is formed by the upper layer having a relatively high porosity and a low tensile strength Is configured to improve sound absorption performance and impact resistance of the foamed aluminum panel (10) and to improve the strength of the foamed aluminum panel (10) by the lower layer portion (12) having a relatively low porosity and high tensile strength,
The upper layer portion 11 contains 98 to 99% by weight of the aluminum alloy powder and 1 to 2% by weight of the foaming agent powder and the lower layer portion 12 contains 95 to 97% by weight of the aluminum alloy powder, 2 to 3% by weight of the alumina powder, The upper aluminum layer 11 has a specific gravity of 0.7 to 1.5 and the upper aluminum layer 11 has a specific gravity of 5 to 5 and the lower aluminum layer 12 has a specific gravity of 5 to 5, To 7 MPa and a tensile strength of 35 to 45 MPa. delete The method according to claim 1,
Wherein the aluminum alloy powder and the foaming agent powder are Al 6063 powder and TiH ₂ powder, respectively. The method according to claim 1,
Wherein a glass wool (20) is attached to a lower surface of the lower layer portion (12) of the foamed aluminum panel (10) to improve thermal insulation and sound absorption of the foamed aluminum panel (10). 5. The method of claim 4,
Wherein the glass wool (20) and the foamed aluminum panel (10) are fixed to each other by the fastening material (21), thereby further improving the flame retardant performance. 6. The method according to any one of claims 4 to 5,
A frame 30 is mounted on the lower surface of the foamed aluminum panel 10 and the frame 30 is connected to the lower surface of the joint between two or more foamed aluminum panels 10 arranged adjacent to each other, The glass wool 20 is positioned between the foamed aluminum panel 10 and the slab 1 or the wall surface 1A of the building and the lower surface of the foamed aluminum panel 10 and the structure An impact absorbing layer 31 made of an elastic material is formed on the surface of the frame 30 contacting the slab 1 or the wall 1A so that the slab 1 or the wall 1A Wherein the vibration and noise transmitted are reduced. The method according to claim 6,
A washer 32 is mounted on the upper surface corner of the joint portion between two or more foamed aluminum panels 10 disposed adjacent to each other and a fixing bolt 33 passing through the washer 32 is connected to the frame 30, Characterized in that the foamed aluminum panel (10) is firmly fixed to the frame (30).

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