KR200488429Y1 - Panel materials using seismic design - Google Patents

Abstract

The vibration damping panel member of the present invention is characterized in that it includes an air layer forming portion to form an air passage between the panel and the vibration damping panel member so as to absorb shock or vibration. The air layer forming portion of the present invention can be used to absorb impact and vibration when an earthquake occurs. Therefore, an earthquake is more secure than a building constructed with conventional panel members.

Description

[0001] Panel materials using seismic design [0002]

The present invention relates to a vibration-proof panel member, and more particularly, to a vibration-proof panel member capable of withstanding an earthquake.

In recent years, earthquakes occur more frequently than before, and the scale of earthquakes increases. When building a building, seismic design is becoming a necessity, not an option. Therefore, it is necessary to apply the seismic design to the structural composite panel members which are basically required when building the building. Although there are various methods of earthquake-proofing, conventional composite composite panel members are provided with leaf springs inside a plurality of corners located on the diagonal line of the square formed frame as shown in Fig. 1 or the following prior art documents. Accordingly, the conventional composite panel member for construction improves the workability and suppresses the wall and the damage due to the distortion caused by the earthquake, thereby improving the durability of the building against earthquakes.

However, since the conventional composite panel member for construction requires the plate spring to be installed inside the corner, a configuration for installing the plate spring is additionally required. There arises a problem that the structure is complicated due to the added structures, so that there is a problem that it is difficult to install it in actual buildings.

1. Korean National Registered Patent No. 10-1852721 ("Method of building a wooden panel using the panel and a reflective panel for a building ", 2018.04.27.)

The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a vibration-proof panel member having an earthquake-proof design to withstand an earthquake.

The vibration damping panel member of the present invention is a member for supporting the panel 600 composed of the vertical plate 610 and the horizontal plate 620, and includes a base portion 100 formed in a flat plate shape; An outer vertical supporting part 200 formed in a flat plate shape and formed in a direction perpendicular to the upper surface of the base part 100; And is spaced apart from the outer surface vertical support part 200 and is formed to be higher than the outer surface vertical support part 200 vertically on the upper surface of the base part 100, An inner vertical supporting portion 300 for supporting the vertical plate 610 of the base plate 600; An air layer forming part 500 which is bent at an end of the inner surface vertical support part 300 in a direction opposite to the outer surface vertical support part 200; And an inner surface horizontal support portion 400 connected to the end of the air layer forming portion 500 in parallel with the base portion 100 and supporting the horizontal plate 620 of the panel 600 in a flat plate shape. And a control unit.

The air layer forming part 500 is formed in a flat plate shape and is formed at an end of the inner surface vertical supporting part 300 in a direction perpendicular to the outer surface vertical supporting part 200, A horizontal portion 520; An air layer vertical portion 510 formed in a flat plate shape at an end of the air layer horizontal portion 520 in a direction perpendicular to the base portion 100 and parallel to the inner surface vertical support portion 300; .

The dustproof panel member 1000 is characterized in that the inner vertical support portion 300, the air layer forming portion 500, and the inner horizontal support portion 400 are integrally bent.

In addition, the seismic panel member 1000 further includes an impact-absorbing material on at least one surface thereof.

The dustproof panel member 1000 includes a horizontal auxiliary passage 710 formed by bending a surface of the inner surface horizontal support portion 400 contacting the panel 600; And a vertical auxiliary passage 720 formed by bending a surface of the inner vertical supporting portion 300 contacting the panel 600.

The dustproof panel member 1000 according to the present invention having the above-described structure can form an air passage between the panel and the building panel to absorb the shock generated by the earthquake, It is possible to construct a safer building.

Fig. 1 is a perspective view of a conventional composite panel member for construction supporting a panel
2 is a perspective view of a first embodiment of the present invention;
3 is a side view of the coupling according to the first embodiment of the present invention
Fig. 4 is a side view of a modification according to the modification of the first embodiment of the present invention
5 is a side view of the coupling according to the second embodiment of the present invention
Fig. 6 is a side view of the coupling according to the third embodiment of the present invention
Fig. 7 is a side view of the coupling according to the fourth embodiment of the present invention

Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings.

Fig. 2 shows a perspective view according to a first embodiment of the present invention. Fig. The vibration-proof panel member 1000 includes a base portion 100, an outer vertical supporting portion 200, an inner vertical supporting portion 300, an inner horizontal supporting portion 400, and an air layer forming portion 500. The panel 600 composed of the vertical plate 610 and the horizontal plate 620 is engaged with the vibration-resistant panel member 1000. The vertical plate 610 of the panel 600 is positioned between the inner vertical supporting portion 300 of the dustproof panel member 1000 and the outer vertical supporting portion 200 and the vertical vertical supporting portion 300, The vertical support 200 supports the vertical plate 610 of the panel 600. In addition, the horizontal plate 620 of the panel 600 is supported by the inner horizontal support portion 400.

The base portion 100, the outer vertical supporting portion 200, the inner vertical supporting portion 300 and the inner horizontal supporting portion 400 may be formed in a flat plate shape to support the base portion 100, the outer vertical supporting portion 200 The inner surface vertical support portion 300, and the inner surface horizontal support portion 400, but may be formed by bending an integral plate. Although the outer surface vertical support part 200 is formed in a direction perpendicular to the upper surface of the base part 100, the outer surface vertical support part 200 may be formed on the upper surface of the base part 100 at various angles as required by the user. The inner vertical supporting part 300 is spaced apart from the outer vertical supporting part 200 and is formed higher than the vertical supporting part 200 vertically on the upper surface of the base part 100. The inner vertical supporting part 300 is formed in a vertical direction on the upper surface of the base part 100 similar to the vertical supporting part 200. The inner supporting part 300 may be formed on the upper surface of the base part 100 at various angles, .

The air layer forming part 500 is bent at an end of the inner vertical supporting part 300 in a direction opposite to the vertical vertical supporting part 200. The inner surface horizontal support part 400 is connected to the end of the air layer forming part 500 in parallel to the base part 100. The outer surface vertical support 200 and the inner surface vertical support 300 are shown to be parallel. Although the outer vertical supporting portion 200 and the inner vertical supporting portion 300 are shown as being formed in a single number, the present invention is not limited thereto, and the outer vertical supporting portion 200 and the inner vertical supporting portion 300 The supporting unit 300 may be variously modified in accordance with the needs of the user.

 The inner surface of the inner surface horizontal support part 400 is formed in a straight line in the opposite direction to the base part 100 at the end of the inner surface vertical support part 300, As shown in FIG. That is, the air layer forming unit 500 may be designed in various shapes according to the needs of the user in addition to the shape of the curved line or the straight line.

Figure 3 shows an assembled side view according to a first embodiment of the present invention. An air passage 700 is formed between the panel 600 and the bent air layer forming part 500. In the present invention, the air passage 700 plays an important role. Since the air passage 700 is present, vibration or impact is not directly transmitted to the seismic panel member 1000. Therefore, even if the seismic resistant panel member 1000 is impacted by the seismic resistant panel member 1000, the air path 700 absorbing the impact can be formed to support the panel 600. Therefore, even if an impact is transmitted to the building due to the occurrence of an earthquake, the air layer forming unit 500 capable of attenuating vibrations and impacts is much safer than conventional architectural composite panels.

Further, if a material or device capable of absorbing the impact is further provided in the air passage 700, the impact can be further absorbed, and a safer building can be constructed. For the shock absorption of the air layer forming unit 500, various materials such as silicone, rubber, and sponge may be used, and the present invention is not limited to the above-described materials, and various modifications may be made.

In addition, the air layer forming unit 500 may be provided with a phase change material. As the phase change material is filled in the air layer forming unit 500, not only earthquake but also deformation due to temperature change can be prevented, and the effect of heat insulation can be obtained by blocking heat. The phase change material may be Tedradecane, octadecane, nonadecane, calcium chloride, etc., and may be filled into the air layer forming unit 500 using other materials according to the user's needs.

Figure 4 shows an assembled side view according to a variant of the first embodiment of the present invention. The horizontal auxiliary passage 710 is formed on the surface of the inner horizontal support portion 400 contacting the panel 600, that is, the lower surface of the horizontal plate 620 of the panel 600 and the upper surface of the inner horizontal support portion 400 And is formed between the side surfaces. The horizontal auxiliary passage 710 is formed by bending the inner horizontal support portion 400. The horizontal auxiliary passage 710 may include a first horizontal auxiliary air passage 711 and a second horizontal auxiliary air passage 712 as shown in FIG.

In addition, the vertical auxiliary passage 720 is formed on the surface where the inner vertical supporting portion 300 is in contact with the vertical plate 610 of the panel 600. Although the vertical support 720 is shown to be formed by bending the inner vertical support 300, the present invention is not limited thereto, and it is also possible that the inner flat vertical support 300, Or the like, and the like. The vertical auxiliary passage 720 may include a first vertical auxiliary air passage 721 and a second vertical auxiliary air passage 722 as shown in FIG.

Figure 5 shows an assembled side view according to a second embodiment of the present invention. The horizontal plate 620 of the panel 600 is supported by the inner horizontal support portion 400. The air layer forming unit 500 may include an air layer vertical unit 510 and an air layer horizontal unit 520. The air layer horizontal portion 520 may be formed in a direction perpendicular to the outer surface vertical support portion 200 at an end of the inner surface vertical support portion 300 and may be parallel to the base surface 100.

In addition, the air layer vertical part 510 is formed at an end of the air layer horizontal part 520 in a direction perpendicular to the base part 100. Although the air layer vertical part 510 and the air layer horizontal part 520 are shown to be orthogonal to each other, the present invention is not limited thereto, and various modifications may be made. In addition, although the air layer forming part 500 is formed at a part of the end of the inner surface vertical supporting part 300, the present invention is not limited thereto, and various modifications may be made. The air passage (700) formed by the air layer vertical part (510) and the air layer horizontal part (520) is formed.

The vertical support portion 200 and the inner vertical support portion 300 support the panel 600 so that the vertical plate 610 of the panel 600 supports the outer vertical support portion 200 and the inner vertical support portion 300, (300). Although not shown, a material that absorbs impact on the surface where the outer surface vertical support portion 200, the inner surface vertical support portion 300, the inner surface horizontal support portion 400, and the base portion 100 are in contact with the panel 600 So as to absorb the impact applied to the dustproof panel member 1000 and the panel 600, thereby making it possible to construct a safer building. The shock absorbing member may absorb shock by using various materials such as silicone, rubber, sponge, etc., on the dustproof panel member 1000 in contact with the panel 600, and the present invention is not limited thereto. Change can be carried out.

Figure 6 shows an assembled side view according to a third embodiment of the present invention. The vibration proof panel member 1000 includes the base unit 100, the outer surface vertical support unit 200, the inner surface vertical support unit 300, the inner surface horizontal support unit 400, and the air layer formation unit 500 . The panel 600 including the vertical plate 610 and the horizontal plate 620 is coupled to the vibration-proof panel member 1000. The vertical plate 610 of the panel 600 is positioned between the inner vertical supporting portion 300 of the dustproof panel member 1000 and the outer vertical supporting portion 200 and the vertical vertical supporting portion 300, The vertical support 200 supports the vertical plate 610 of the panel 600. In the third embodiment, the air layer forming unit 500 is shown as a straight line. If the air layer air layer forming part 500 of the third embodiment shown by the straight line is bent into a curved line, the process for manufacturing the dustproof panel may be difficult. Therefore, the air layer forming unit 500 may be designed in a straight plate shape and connected to the inner surface vertical support unit 300 and the inner surface horizontal support unit 400. In the third embodiment, although the air layer forming part 500 is shown as a straight line and the air path 700 is not shown clearly, the present invention is not limited thereto, .

Figure 7 shows an assembled side view according to a fourth embodiment of the present invention. The dustproof panel member 1000 of the fourth embodiment shows that an air layer 530 is formed between the bottom part 100 and the panel 600. [ The air layer 530 has a structure similar to that of the air passage 700. The air layer 530 is not formed by bending the inner vertical support portion 300 like the air passage 700, So that the length of the bottom portion 100 does not reach the bottom portion 100. That is, the panel 600 can be used even when the length of the panel 600 is short, and the air layer 530 can be formed by forming the inner vertical supporting part 300 to be long. A structure capable of absorbing shock by adding various materials such as silicon, rubber, and sponge to the air layer 530 may be added. The present invention is not limited to the above-described materials and can be variously modified . When the panel 600 is formed of an aluminum composite material, if the air layer 530 is formed, the aluminum composite material melts and the generated material stays in the air layer 530, so that the diffusion of fire can be prevented . In the absence of the air layer 530, there is no space where the aluminum panel is melted and the generated material is released, so that the diffusion of fire may occur.

The technical idea should not be construed to be limited to the above embodiment of the present invention. 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 in the appended claims. Accordingly, such improvements and modifications are within the scope of the present invention as long as it is obvious to those skilled in the art.

1000: Seismic panel member
100:
200: outer vertical support
300: inner vertical support
400: Inner horizontal support
500: Air layer forming part
510: air layer vertical portion 520: air layer horizontal portion
530: air layer
600: Panel
610: vertical plate 620: horizontal plate
700: Air passage 710: Horizontal auxiliary air passage
711: first horizontal auxiliary air passage 712: second horizontal auxiliary air passage
720: vertical auxiliary air passage 721: first vertical auxiliary air passage
722: second vertical auxiliary air passage

Claims (5)

A panel member for supporting a panel made of a vertical plate and a horizontal plate,
A base portion formed in a flat plate shape;
An outer surface vertical support portion formed in a flat plate shape and formed in a direction perpendicular to the upper surface of the base portion;
An inner vertical supporting part which is disposed in a flat plate shape so as to be spaced apart from the outer vertical support part and which is formed higher than the vertical supporting part perpendicular to the upper surface of the base part and supports the vertical plate of the panel together with the outer vertical supporting part;
An air layer forming part which is bent at an end of the inner surface vertical supporting part in a direction opposite to the outer surface vertical supporting part; And
An inner surface horizontal supporting portion connected to the end of the air layer forming portion in parallel with the base portion and supporting the horizontal plate of the panel,
Wherein the air layer forming unit comprises:
An air layer horizontal portion formed in a flat plate shape and perpendicular to the outer surface vertical support portion at an end of the inner surface vertical support portion and parallel to the base portion;
An air layer vertical portion formed in a plate-like shape in an opposing vertical direction of the base portion at an end of the air layer horizontal portion and parallel to the inner surface vertical support portion;
And an inner circumferential surface of the elastic member.

delete The dustproof panel according to claim 1,
Wherein the inner surface vertical support portion, the air layer formation portion, and the inner surface horizontal support portion are integrally bent.
The dustproof panel according to claim 1,
A vibration damping panel member further comprising an impact-absorbing material on at least one side.
The dustproof panel according to claim 1,
A horizontal auxiliary passage bent in a direction in which the inner horizontal support portion is in contact with the panel;
A vertical auxiliary passage formed by bending a surface of the inner vertical support portion contacting the panel;
Further comprising an elastic member.

Images