KR102096496B1 - Seismic type system panel - Google Patents

Abstract

The present invention relates to an earthquake-proof system panel which can absorb horizontal vibration of a facility and vertical vibration of the facility, caused by an earthquake, at the same time by simplifying assembly of a finishing panel in the facility and using an elastic gasket. To achieve the objective of the present invention, the earthquake-proof system panel includes: the finishing panel finishing the facility; a channel-shaped edge frame having an edge of the finishing panel inserted and connected thereto and a fixing insertion groove formed to be dented; a channel-shaped fixing frame inserted into and connected to the frame while being fixed to the facility, and having a frame insertion groove formed to be dented; and an elastic gasket enclosing the edge frame and the fixing frame, respectively, at a part where the edge frame and the fixing frame are coupled. An end of the edge frame is inserted into the frame insertion groove while being inserted into and coupled to the elastic gasket. An end of the fixing frame is inserted into the fixing insertion groove while being inserted into and coupled to the elastic gasket. Accordingly, the channel-shaped edge and fixing frames are inserted into and connected to each other.

Description

Seismic type system panel {SEISMIC TYPE SYSTEM PANEL}

The present invention relates to an earthquake-proof system panel, and more specifically, simplifies the assembly of a finishing panel in a facility, and uses an elastic gasket to absorb the vertical vibration of the facility due to the earthquake and the horizontal vibration of the facility at the same time. It relates to a linear system panel.

In general, Korea should be located in the ring of fire in the Pacific Rim to prepare for earthquakes. Since the frequency of earthquakes has increased in recent years, it is time to seismically strengthen existing buildings, major facilities such as tunnels or bridges. In this situation, Korea is still inadequately prepared and there is no concrete plan for an earthquake, so measures must be taken from now on.

In other words, Korea is recognized as a relatively safe area from earthquakes, but in recent years, the frequency of occurrence of earthquakes has increased, so we have interest in seismic repair and reinforcement methods of existing general buildings or facilities such as bridges, tunnels, and offshore structures. have.

In consideration of this situation, in 2005, seismic-related regulations have been realized, and reinforced seismic design regulations have been introduced to force the application of facilities such as new buildings and major new concrete structures.

However, existing facilities that do not have the reinforced seismic design regulations are not well considered for earthquakes, and if unexpected earthquakes occur due to weak seismic performance due to deterioration damage or degradation, etc., damage to facilities In addition to direct damage from collapse or collapse, there is a problem in that social and economic losses are caused by reconstruction of facilities.

Republic of Korea Registered Patent Publication No. 10-1602460 (Name of invention: Vibration absorption type seismic panel, 2016. 03. 10. announcement)

The object of the present invention is to solve the conventional problems, by simplifying the assembly of the finishing panel in the facility, and by using an elastic gasket, seismic type that can simultaneously absorb the vertical vibration of the facility due to the earthquake and the horizontal vibration of the facility In providing a system panel.

According to a preferred embodiment for achieving the object of the present invention described above, the earthquake-proof system panel according to the present invention is a finishing panel for closing a facility; The edge of the finishing panel is fitted, but a fixed frame is formed in a recessed channel frame-shaped frame; A fixed frame having a channel shape fitted with the edge frame while being fixed to the facility, and having an edge fitting groove recessed; And an elastic gasket surrounding the border frame and the fixed frame at a joint portion of the border frame and the fixed frame, respectively, wherein the end of the border frame is inserted into the border fitting groove while being fitted to the elastic gasket. The end of the fixed frame is inserted into the fixed fitting groove while being fitted to the elastic gasket, so that the frame of the channel and the fixed frame are fitted to each other.

Here, the border frame, the channel portion of the channel shape to be fitted to the edge of the finishing panel is fitted; An edge extension portion extending from the channel portion; And a frame fitting portion extending from the frame extending portion so as to face the channel portion, wherein the fixing frame comprises: a fixed support portion supported by the facility; A fixed extension portion extending from the fixed support portion; And a fixed fitting portion extending from the fixed extension portion so as to face the fixed support portion, wherein the frame fitting portion is formed between the fixed support portion and the fixed fitting portion while being fitted to the elastic gasket. Inserted into, the fixed fitting portion is inserted into the fixed fitting portion formed between the channel fitting portion and the frame fitting portion in a state of being fitted to the elastic gasket.

Here, the elastic gasket, the edge gasket into which the frame fitting portion is inserted; And a fixed gasket including a first fitting gasket into which the fixed fitting portion is inserted.

Here, the fixed gasket further includes a second fitting gasket into which the fixed support is inserted.

Here, in any one of the frame and the frame gasket, a border protrusion; is formed to protrude, and in the other of the frame and the frame gasket, a border groove that is fitted with the frame protrusion is recessed.

Here, in any one of the fixed frame and the fixed gasket, a fixed protrusion; a protrusion is formed, and in another one of the fixed frame and the fixed gasket, a fixed groove part fitted with the fixed protrusion is recessed.

The seismic system panel according to the present invention includes a fixing piece member for fixing the fixing frame to a facility; An angle-shaped border corner fitted to the border frame so that two adjacent border frames are connected; An angle-shaped fixed corner fitted to the fixed frame so that two adjacent fixed frames are connected to each other; And an insulating member stacked on the finishing panel between the finishing panel and the facility or supported by the frame. It further includes at least one of.

According to the earthquake-proof system panel according to the present invention, the assembly of the finishing panel in the facility is simplified, and by using an elastic gasket, vertical vibration of the facility due to the earthquake and horizontal vibration of the facility can be simultaneously absorbed.

In addition, the present invention can simplify the coupling structure between the facility and the finishing panel through the detailed coupling structure of the frame and the fixed frame, and in the event of an earthquake, the flow of the fixed frame based on the frame at the joining part of the frame and the fixed frame It is possible to minimize the vibration transmitted from the facility to the finishing panel.

In addition, the present invention prevents interference between two adjacent frame frames in correspondence to the longitudinal direction of the frame through the detailed coupling structure of the frame and the fixed frame, and when constructing a plurality of system panels, the construction of two adjacent system panels It does not interfere with each other and can shorten the construction time and manpower.

In addition, the present invention can block the thermal conductivity between the finishing panel and the facility through the elastic gasket, as well as the heat transfer between the fixed frame and the facility. In addition, by blocking the inflow of outside air between the finishing panel and the facility, it is possible to maximize the insulation effect.

In addition, the present invention can stably fix the fixing frame to the facility through the fixing piece member.

In addition, the present invention can minimize the exposure of the fixed piece member by the frame when the fixed frame is fixed in the facility, it is possible to make the appearance beautiful.

In addition, the present invention can absorb the vibration by the buffering action at the coupling portion of the frame and the fixed frame through the detailed configuration of the elastic gasket, it is possible to prevent noise due to friction between the frames.

In addition, the present invention can form an integrated fixed gasket and an integrated elastic gasket through a detailed configuration of the fixed gasket, as well as exhibit a waterproof effect between the facility and the fixed frame.

In addition, the present invention can prevent the rim gasket from being separated from the rim frame by vibration through the coupling structure of the rim frame and the rim gasket.

In addition, the present invention can prevent the fixed gasket from being separated from the fixed frame by vibration through the coupling structure of the fixed frame and the fixed gasket.

In addition, the present invention can minimize the deformation of the border frame through the combined structure of the border corner and the border frame, and can maintain the shape of the border frame stably in response to the finishing panel.

In addition, the present invention can minimize the deformation of the fixed frame through the combined structure of the fixed corner and the fixed frame, and can maintain the shape of the fixed frame stably in response to the finishing panel.

1 is a front view showing an earthquake-proof system panel according to an embodiment of the present invention.
2 is a cross-sectional view showing an earthquake-proof system panel according to an embodiment of the present invention.
Figure 3 is an exploded view showing a state of engagement of the frame and the frame edge frame in the seismic system panel according to an embodiment of the present invention.
FIG. 4 is an exploded view showing a coupling state of a fixed frame and a fixed gasket in an earthquake-proof system panel according to an embodiment of the present invention.
5 is an enlarged cross-sectional view showing a flow state of a fixed frame based on an edge frame in an earthquake-proof system panel according to an embodiment of the present invention.
6 is a cross-sectional view showing the installation state of the insulating member in the earthquake-proof system panel according to an embodiment of the present invention.

Hereinafter, an embodiment of the earthquake-proof system panel according to the present invention will be described with reference to the accompanying drawings. At this time, the present invention is not limited or limited by the examples. In addition, in describing the present invention, detailed descriptions of known functions or configurations may be omitted to clarify the gist of the present invention.

1 to 6, the earthquake-proof system panel according to an embodiment of the present invention includes a finishing panel 10, an edge frame 20, a fixed frame 30, and an elastic gasket 40 And, it may further include at least any one of the fixed piece member 50, the border corner 60, the fixed corner 70, and the heat insulating member 80.

Here, the facility C may be implemented as an existing building, tunnel, bridge, or offshore structure. In addition, the lower frame (F) may be longitudinally and horizontally coupled to the facility (C) corresponding to the arrangement shape of the seismic system panel according to an embodiment of the present invention. The lower frame F may represent a lattice shape corresponding to the arrangement shape of the earthquake-resistant system panel according to an embodiment of the present invention. In one embodiment of the invention the facility (C) may include a lower frame (F).

The finishing panel 10 closes the facility C. The finishing panel 10 may have a rectangular or square shape. Although not shown, the finishing panel 10 may have a rhombic or parallelogram shape or an unspecified square shape.

The panel reinforcement member 11 may be coupled to the finishing panel 10. Panel reinforcement member 11 is coupled to the surface facing the facility (C) in the finishing panel (10). The panel reinforcement member 11 may form a “T” -shaped or “L” -shaped cross-section, and may prevent bending of the finishing panel 10.

The edge of the finishing frame 10 is fitted to the frame frame 20. The frame 20 may have a fixed fitting groove 26 recessed according to the shape of the channel. To the fixed fitting groove 26, the fixed fitting portion 33, which is an end of the fixed frame 30, is fitted.

The frame 20 is a channel portion 21 of a channel shape in which the edges of the finishing panel 10 are fitted, and an edge extension portion 22 extending from the channel portion 21, and a channel portion 21 facing each other. By including the rim fitting portion 23 extending from the rim extension portion 22 to be seen, a channel shape can be exhibited, and between the channel portion 21 and the rim fitting portion 23, a fixed fitting groove 26 is formed. do.

Here, an edge protrusion 25 may be formed at an end of the edge fitting portion 23. In conclusion, an edge protrusion 25 may protrude from any one of the edge fitting portion 23 and the edge gasket 41 of the edge frame 20.

The fixed frame 30 is fitted to the frame 20 while being fixed to the facility (C). The fixed frame 30 may have a chamfered groove 36 recessed as it exhibits a channel shape. In the frame fitting groove 36, the frame fitting portion 23, which is the end of the frame 20, is fitted.

The fixed frame 30 includes a fixed support portion 31 supported by the facility C, a fixed extension portion 32 extending from the fixed support portion 31, and a fixed extension portion 32 facing the fixed support portion 31 By including the fixed fitting portion 33 extending from, it is possible to exhibit a channel shape, to form a frame fitting groove 36 between the fixed support portion 31 and the fixed fitting portion 33.

At this time, the width of the fixed support portion 31 based on the fixed extension portion 32 is formed to be larger than the width of the fixed fitting portion 33, thereby using the fixed piece member 50 to secure the fixed support portion 31 (C ) Can be stably fixed, and it is possible to prevent the fixing piece member 50 from being exposed to the outside. As an example, the width of the fixed support portion 31 may satisfy 1.5 to 2.5 times the width of the fixed fitting portion 33. More specifically, the width of the fixing support portion 31 may satisfy 1.8 to 2.3 times the width of the fixing fitting portion 33. More specifically, the width of the fixing support portion 31 may satisfy 2.0 to 2.2 times the width of the fixing fitting portion 33.

Here, in the fixing frame 30, the fixing protrusions 49 may be protruded on the outer circumferential surface of the fixing support portion 31 and the outer circumferential surface of the fixing fitting portion 33, respectively. Consequently, a fixed protrusion 49 may protrude from any one of the fixed frame 30 and the fixed gasket 43.

The elastic gasket 40 wraps the edge frame 20 and the fixed frame 30 at the joint portions of the edge frame 20 and the fixed frame 30, respectively.

The elastic gasket 40 may include an edge gasket 41 and a fixed gasket 43. In one embodiment of the present invention, the rim gasket 41 and the fixed gasket 43 are illustrated as separate, but the present invention is not limited thereto, and the rim gasket 41 and the fixed gasket 43 may be integrally formed. .

In the edge gasket 41, the edge fitting portion 23 is inserted in the edge frame 20. The edge gasket 41 exhibits a channel shape so that the edge fitting portion 23 is stably fitted. On the inner wall of the groove in which the frame fitting portion 23 is inserted in the frame gasket 41, a frame groove portion 42 that is fitted with the frame protrusion 25 may be recessed.

As a result, an edge groove portion 42 that is fitted with the edge protrusion 25 may be recessed in the other of the edge frame 20 and the edge gasket 41.

The fixed gasket 43 may include a first fitting gasket 44 into which the fixed fitting portion 33 is inserted in the fixed frame 30. The first fitting gasket 44 exhibits a channel shape so that the fixed fitting portion 33 is stably fitted. In the first fitting gasket 44, a fixing groove portion 35 fitted with the fixing protrusion 49 may be recessed in the inner wall of the groove into which the fixing fitting portion 33 is inserted.

The fixed gasket 43 further includes a second fitting gasket 46 into which the fixing support 31 is inserted, and the first fitting gasket 44 and the second fitting gasket 46 at the bottom of the edge fitting groove 36 are provided. It may further include a gasket connecting member 48 for connecting the. In the fixed gasket 43, it is advantageous that the first fitting gasket 44, the gasket connecting member 48 and the second fitting gasket 46 are integrally formed.

The second fitting gasket 46 exhibits a channel shape so that the fixed support portion 31 is stably fitted. On the inner wall of the groove in which the fixing support portion 31 is inserted in the second fitting gasket 46, a fixing groove portion 35 fitted with the fixing protrusion 49 may be recessed.

As a result, the fixed frame 30 and the fixed gasket 43 may be formed with a fixed groove portion 35 that is fitted into the fixed protrusion 49 to be recessed.

The fixing piece member 50 fixes the fixing support portion 31 to the facility C. The fixed piece member 50 may be screwed to the facility C or the lower frame F through the fixed support portion 31 of the fixed frame 30.

The border corner 60 is fitted to the border frame 20 so that two adjacent border frames 20 are connected. The border corner 60 usually has an angle shape, and it is possible to determine an angle between the corner corners 60 that is an angle shape corresponding to the shape of the finishing panel 10. In one embodiment of the present invention, the angle between the corners of the border shape 60 is shown to represent substantially 90 degrees.

The border frame 20 is formed with a border hole 24 through which the border corners 60 are fitted, thereby exhibiting a hollow bar shape. The edge hole 24 may be formed to penetrate through at least one of the channel portion 21 and the edge extension portion 22 in the longitudinal direction. In one embodiment of the present invention, the rim hole 24 is illustrated as being formed through the rim extension 22. When the edge corners 60 are fitted to the edge holes 24, the edge corners 60 are not exposed to the outside, so that two adjacent edge frames 20 can be stably adhered.

The fixed corner 70 is fitted to the fixed frame 30 so that two adjacent fixed frames 30 are connected. The fixed corner 70 usually has an angle shape, and it is possible to determine an angle between the fixed corners 70 in an angle shape corresponding to the shape of the finishing panel 10. In one embodiment of the present invention, the angle between the fixed corners 70 in an angle shape is illustrated as substantially representing 90 degrees.

The fixed frame 30 may be formed with a fixed hole 34 through which the fixed corner 70 is fitted, thereby exhibiting a hollow bar shape. The fixed hole 34 may be formed to penetrate through at least one of the fixed support portion 31 and the fixed extension portion 32 in the longitudinal direction. In one embodiment of the present invention, the fixing hole 34 is illustrated as being formed through the fixing extension portion 32. When the fixed corner 70 is fitted into the fixed hole 34, the fixed corner 70 is not exposed to the outside, so that two adjacent fixed frames 30 can be stably brought into close contact.

The insulating member 80 is stacked on the finishing panel 10 between the finishing panel 10 and the facility C, or is supported by an edge frame 20. The insulating member 80 insulates between the finishing panel 10 and the facility C. As the insulating member 80, various known insulating materials such as glass wool can be used.

Hereinafter, an installation structure of an earthquake-proof system panel according to an embodiment of the present invention will be described. In one embodiment of the present invention will be described as a structure in which the seismic system panel is coupled to the lower frame (F) formed in a grid shape on the facility (C).

In response to the finishing panel 10, the fixing frame 30 is fixed to the lattice-shaped lower frame F using a fixing piece member 50 in a lattice shape.

At this time, since the fixed support portion 31 is fitted to the second fitting gasket 46, the sealing force between the lower frame F and the fixed supporting portion 31 can be improved (waterproof effect) in a non-caulking manner. Heat conduction and vibration between the (F) and the fixed support 31 may be blocked.

And the edge of the finishing panel 10 is fitted to the channel portion 21 of the frame frame (20). At this time, a structural sealant may be supplied to the bonding portion between the finishing panel 10 and the channel part 21. The combined structure of the finishing panel 10 and the channel part 21 can improve the sealing force (waterproof effect), and can prevent or minimize contamination of the finishing panel 10.

At this time, the width and depth of the groove of the channel part 21 may be variously designed according to the thickness of the finishing panel 10 to be installed, and it is possible to diversify the finishing panel 10.

And the end of the rim frame 20 is inserted into the rim fitting groove 36 in a state of being fitted to the elastic gasket 40, the end of the fixed frame 30 is fixed in a state of being fitted to the elastic gasket 40 Inserted into the fitting groove 26, the channel-shaped border frame 20 and the fixed frame 30 are mutually fitted.

In more detail, the rim fitting portion 23 of the rim frame 20 is a rim fitting formed between the fixed support portion 31 and the fixed fitting portion 33 while being fitted to the rim gasket 41 among the elastic gaskets 40. Inserted into the groove 36, the fixed fitting portion 33 of the fixed frame 30 is a channel portion 21 in the state of being fitted to the first fitting gasket 44 of the fixed gasket 43 of the elastic gasket 40 ) And inserted into the fixed fitting portion 33 formed between the edge fitting portion 23.

Then, the vibration is absorbed by the elastic gasket 40 at the joint portion between the frame 20 and the fixed frame 30, has a waterproof function, and can block heat conduction.

At this time, the rim frame 20 and the fixed frame 30 aim to fit the coupling between the channel structures, and avoid sliding sliding along the longitudinal direction, thereby preventing interference due to installation work between two adjacent seismic system panels. You can.

Seismic-type system panel according to an embodiment of the present invention, while fitting the fitting of the frame frame 20 and the fixed frame 30 and insulating the space between the finishing panel 10 and the facility (C), the facility (C ) Is prevented from being transmitted directly to the finishing panel 10. In addition, the earthquake-resistant system panel according to an embodiment of the present invention can provide a facility (C) capable of minimizing earthquake damage, exhibits an insulation effect in response to climate change, and selects the finishing panel (10). It can be diversified, and it is possible to prevent contamination of the sealant and environmental pollution by a non-coking method.

In conclusion, according to the above-described seismic system panel, by simplifying the assembly of the finishing panel 10 in the facility (C), and using the elastic gasket 40, the vertical vibration of the facility (C) due to the earthquake and the facility ( The horizontal vibration of C) can be simultaneously absorbed.

In addition, through the detailed coupling structure of the frame 20 and the fixed frame 30, the coupling structure between the facility C and the finishing panel 10 can be simplified, and when the earthquake occurs, the frame 20 and the fixed frame ( It is possible to free the flow of the fixed frame 30 based on the border frame 20 at the joining portion of 30), and minimize the vibration transmitted from the facility C to the finishing panel 10.

In addition, through the detailed coupling structure of the frame 20 and the fixed frame 30 to prevent interference between two adjacent frame 20 corresponding to the longitudinal direction of the frame, and in constructing a plurality of system panels, adjacent The construction of the two system panels does not interfere with each other, and the construction time and manpower can be shortened.

In addition, through the elastic gasket 40, the heat conduction between the finishing panel 10 and the facility (C) can be blocked, as well as the heat conduction between the fixed frame 30 and the facility (C). In addition, by blocking the inflow of outside air between the finishing panel 10 and the facility (C), it is possible to maximize the insulation effect.

In addition, the fixing frame 30 can be stably fixed to the facility C through the fixing piece member 50.

In addition, when the fixed frame 30 is fixed in the facility C, exposure of the fixed piece member 50 can be prevented or minimized by the edge frame 20, and the appearance can be made beautiful.

In addition, through the detailed configuration of the elastic gasket 40, vibration can be absorbed by a buffering action at a coupling portion between the frame 20 and the frame 30, and noise caused by friction between the frames can be prevented. .

In addition, through the detailed configuration of the fixed gasket 43, the integrated fixed gasket 43 and the integrated elastic gasket 40 are formed, as well as the waterproof effect between the facility C and the fixed frame 30 can be exhibited. .

In addition, through the coupling structure of the frame 20 and the frame gasket 41, it is possible to prevent the frame gasket 41 from being separated from the frame frame 20 by vibration.

In addition, through the coupling structure of the fixed frame 30 and the fixed gasket 43, it is possible to prevent the fixed gasket 43 from being separated from the fixed frame 30 by vibration.

In addition, through the combined structure of the border corner 60 and the border frame 20, deformation of the border frame 20 is minimized, and the shape of the border frame 20 can be stably maintained in response to the finishing panel 10. have.

In addition, through the combined structure of the fixed corner 70 and the fixed frame 30, deformation of the fixed frame 30 is minimized, and the shape of the fixed frame 30 can be stably maintained in response to the finishing panel 10. have.

Although the preferred embodiments of the present invention have been described with reference to the drawings as described above, those skilled in the art may vary the present invention without departing from the spirit and scope of the invention as set forth in the claims below. It can be modified or changed.

C: Facility F: Lower frame 10: Finishing panel
11: Panel reinforcement member 20: Border frame 21: Channel part
22: Border extension 23: Border fitting 24: Border hole
25: border protrusion 26: fixed fitting groove 30: fixed frame
31: fixed support 32: fixed extension 33: fixed fitting
34: fixing hole 35: fixing groove 36: frame fitting groove
40: elastic gasket 41: rim gasket 42: rim groove
43: Fixed gasket 44: First fitting gasket 46: Second fitting gasket
48: gasket connecting member 49: fixing protrusion 50: fixing piece member
60: corner corner 70: fixed corner 80: insulation member

Claims (7)

A finishing panel for closing facilities;
The edge of the finishing panel is fitted, but a fixed frame is formed in a recessed channel frame-shaped frame;
A fixed frame having a channel shape fitted with the edge frame while being fixed to the facility, and having an edge fitting groove recessed; And
It includes; an elastic gasket surrounding each of the frame and the frame at the coupling portion of the frame and the frame;
The edge of the frame is inserted into the frame fitting groove while being fitted to the elastic gasket, and the edge of the frame is inserted into the fixing fitting groove while being fitted to the elastic gasket to form a channel shape. The frame and the fixed frame are combined with each other,
The border frame,
A channel portion having a channel shape in which edges of the finishing panel are fitted; An edge extension portion extending from the channel portion; And a frame fitting portion extending from the frame extending portion so as to face the channel portion.
The fixed frame,
A fixed support part supported by the facility; A fixed extension portion extending from the fixed support portion; And a fixed fitting portion extending from the fixed extension portion so as to face the fixed support portion.
The edge fitting portion is inserted into the edge fitting groove formed between the fixed support portion and the fixed fitting portion while being fitted to the elastic gasket,
The fixed fitting part is inserted into the fixed fitting groove formed between the channel part and the frame fitting part while being fitted to the elastic gasket,
The elastic gasket,
An edge gasket into which the edge fitting portion is inserted;
A first fitting gasket into which the fixed support is inserted; A second fitting gasket into which the fixed fitting portion is inserted; And a gasket connecting member connecting the first fitting gasket and the second fitting gasket at the bottom of the rim fitting groove.
Including,
The first fitting gasket, the gasket connecting member and the second fitting gasket is an earthquake-proof system panel, characterized in that formed integrally.
delete delete delete According to claim 1,
In one of the frame and the frame gasket,
Edge protrusion; is formed protruding,
In the other of the frame and the frame gasket,
Seismic type system panel, characterized in that the rim groove portion is fitted with the rim protrusions are recessed.
According to claim 1,
In any one of the fixed frame and the fixed gasket,
Fixing protrusion; is formed protruding,
On the other of the fixed frame and the fixed gasket,
Seismic type system panel, characterized in that the fixing groove portion is fitted with the fixing protrusions are recessed.
According to claim 1,
A fixing piece member fixing the fixing frame to a facility;
An angle-shaped border corner fitted to the border frame so that two adjacent border frames are connected;
An angle-shaped fixed corner fitted to the fixed frame so that two adjacent fixed frames are connected to each other; And
An insulating member stacked on the finishing panel between the finishing panel and the facility or supported by the frame;
Seismic system panel further comprises at least one of the.

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