KR20200035542A - Earthquake-proof assembly for terracotta ceramic panel mounting with omega groove support mullion and joint clip and construction method of the same - Google Patents

Abstract

The present invention provides a seismic bottom metal fitting unit for a terracotta ceramic panel and a construction method thereof which are to secure earthquake safety of a non-structural finishing material by a mullion with a groove for buffer deformation and a joining clip for coupling panels and to suppress or minimize a fall or detachment by seismic horizontal deformation to prevent secondary damage. According to a proper embodiment of the present invention, the seismic bottom metal fitting unit for a terracotta ceramic panel comprises: an anchor fixed on an outer wall to be installed; a bracket for anchor connection connected to the anchor to connect an omega groove bottom mullion; omega groove bottom mullions which include a clip binding unit having an omega groove for buffer deformation and clip binding parts formed through both sides of the omega groove for buffer deformation at regular intervals, and a side plate unit for fixing a metal fitting connection bent from the clip binding unit at a right angle, and are connected and supported on the bracket for anchor connection to be installed on the outer wall at regular intervals; a joining clip inserted into a horizontal groove formed on a rear surface of a terracotta ceramic panel after being coupled to the clip binding parts to support and transfer the weight of the terracotta ceramic panel and a wind load to the omega groove bottom mullions; and a waterproof gasket inserted into the omega groove for buffer deformation to secure buffering of the terracotta ceramic panel and waterproof performance of the outer wall.

Description

Earthquake-proof assembly for terracotta ceramic panel mounting with omega groove support mullion and joint clip and construction method of the same}

The present invention relates to a unit for installing a non-structured terracotta exterior panel which is an interior / exterior finishing material of a building or an infrastructure, a mullion formed with a buffer deformation groove (Omega Groove) and a bonding clip for joining panels (Fixed or Roller Clips) ) To secure seismic safety of non-structural finishing materials and to prevent or minimize secondary damage by preventing or minimizing falling or falling due to horizontal deformation of earthquakes.

In the case of the domestic Gyeongju earthquake (2016) and Pohang earthquake (2017), the main damage cases are damage and fall of exterior materials such as curtain walls and glass, damage and fall of ceiling materials, non-structural structures such as masonry non-structured walls, stucco cracks and collapses, etc. This was found to be larger than the damage caused by structural element damage.

Non-structural elements during an earthquake are highly likely to cause large-scale damage due to secondary and tertiary damages due to damage to buildings due to damage to facilities and important equipment, as well as direct and indirect human and property damage as well as self-damage, fall and fall Therefore, safety against earthquakes must be ensured. In the domestic building structure standard (KBC 2016), seismic design provisions for construction and mechanical non-structural elements have been added, but it is difficult to secure structural safety because no test method for verifying the seismic details and performance of non-structural elements has been proposed. There is this.

On the other hand, terracotta (Terracotta) means 'baked soil' in Italian, and refers to a panel for architectural exterior made using the properties of clay that becomes hard and dense when baked. It is produced by mixing natural clay with a small amount of quartz, ceramic powder, feldspar powder and colorants, and then pulverizing, kneading, extrusion molding, low temperature drying and high temperature firing. According to the installation method of the terracotta panel, it is possible to make a building exterior wall in a horizontal or vertical style, and it is possible to express a unique exterior or a variety of exterior walls because it is possible to finish in various colors and surfaces. Instead of ina tiles, the application is increasing as exterior materials of buildings.

 However, in order to apply the terracotta panel as a building exterior material, it is essential to develop a foundation frame that supports it by fixing it on the exterior wall of the building. Currently, the use of a welded tube frame structure that does not consider seismic performance or import and use of foreign systems to be. Therefore, we intend to develop a terracotta underframe system composed of a seismic bonding clip and a buffer deformation mullion that absorbs the lateral displacement due to seismic force suitable for domestic situations and does not cause the terracotta panel to fall off during an earthquake.

As a background technology of the present invention, as Korean Registered Patent Registration No. 10-1631224, an 'exterior material support for supporting the exterior finishing material of the interior and exterior walls for construction and a structure for installing the exterior finishing material for interior and exterior wall surfaces using the same' have been proposed. . This provides an effect of shortening the construction time by allowing the installation of the fitting in the front direction as well as the installation of a side sliding method in the lateral direction of the exterior material support that is pre-fixed on the wall. Even if it is necessary to replace, it is possible to perform a replacement operation in the front direction, thereby providing an effect of shortening the working time. However, in the background technology, when an external impact is transmitted to the finishing exterior material due to an earthquake or a strong wind, there is no structure capable of absorbing it, and there is a fear of damage.

As another background technology of the present invention, as Korean Registered Patent Registration No. 10-1365665, a 'installation device for metal panels for interior and exterior construction' has been proposed. This is a metal panel unit, vertical rail bar, using a fixing clip, it can reliably block the running water such as rainwater from the outside without the treatment of sealing material between adjacent metal panels, the bonding strength of the panel is excellent, and on the wall It has the advantage of easy construction of metal panels. However, this background technology allows a fixed clip to be used when a panel made of metal is used, and there is a problem that it cannot be used in a terracotta panel produced by applying an inorganic material, for example, clay. This is because terracotta panels cannot be manufactured to be as thin as metal panels. In addition, since the fixing clip is bolted to the vertical rail bar, it must have a separate fastening step.

Registered Patent Registration No. 10-1631224 Registered Patent Registration No. 10-1365665

The present invention secures the seismic safety of the non-structural finishing material by the mullion formed with the groove for buffer deformation (Omega Groove) and the bonded clip for fixing the panel (Fixed or Roller Clips) and prevents dropping or dropping due to the horizontal deformation of the earthquake. Another object of the present invention is to provide a seismic foundation hardware unit for terracotta ceramic panels and a construction method thereof to minimize secondary damage.

A seismic foundation hardware unit for terracotta ceramic panels according to a preferred embodiment of the present invention includes an anchor fixed to and installed on an outer wall; An anchor connection bracket that is connected to the anchor and connects the omega groove lower mullions; It consists of a clip attachment portion having a clip fastener formed through a predetermined distance on both sides of the buffer deformation omega groove and a buffer deformation omega groove, and a side plate portion for connecting a fixed hardware bent at a right angle from the clip binding portion, wherein the An omega groove lower extremity mullion connected to the anchor connection bracket and installed at regular intervals on the outer wall; A bonding clip for joining the clip to the transverse groove formed on the rear surface of the terracotta ceramic panel after being coupled to the clip fastener and transmitting and supporting the self-weight and wind load of the terracotta ceramic panel to the lower mullion of the omega groove; It is characterized in that it comprises; a gasket inserted into the omega groove for the buffer deformation to secure the cushioning performance of the outer wall and the terracotta ceramic panel.

In addition, the omega-groove lower mullion is further formed with a clip coupling hole penetrating through a lower portion of the clip fastener, and a clip fixing hole is further installed in the clip coupling hole to be fitted into the joint clip for panel coupling. .

In addition, the bonding clip for joining the panel is composed of a clip body and a cushioning material made of rubber or silicone that is fitted to the bottom of the clip body at the bottom and is in contact with the rear surface of the terracotta ceramic panel to absorb the shock applied to the terracotta ceramic panel; The clip body is a clip supporting plate, a clip supporting jaw protruding to one side on the upper portion of the clip supporting plate and contacting the rear surface of the terracotta ceramic panel, a clip supporting jaw extending from the supporting jaw to the other side and having a groove extending over the clip fastener. It is characterized by including a clip binding piece protruding from the rear surface and being inserted into the horizontal groove of the terracotta ceramic panel, a cushioning member coupling groove formed for fitting the cushioning material, and a clip fixture coupling groove formed on the front surface of the clip support plate.

In addition, the waterproof gasket extends from one end of the vertical ribs and vertical ribs, and the gasket coupling part is fitted into the omega groove for buffer deformation of the omega groove lower mullion, and extends from both sides of the vertical ribs to form arcs to form the arc of the terracotta ceramic panel. It is characterized in that it has a pair of adhesive waterproof blades that are in close contact with each other, and are formed at the other end of the vertical rib to form an installation gap between adjacent terracotta ceramic panels.

In addition, it is characterized in that it further comprises a press-fit fork insulator that is forcibly inserted into the outer wall-side insulation and connected to the anchor.

In addition, it is characterized in that it further comprises a reinforcing bracket having a function of adjusting the strength and height of the anchor connecting bracket interposed between the anchor connecting bracket and the insulation press-fit fork.

On the other hand, according to the construction method of the seismic underlaying unit for terracotta ceramic panels, fixing the anchor connecting bracket with an anchor at a fixing point of the terracotta undercarriage of the outer wall; Fixing the omega groove lower mullion on the anchor bracket side in consideration of the width of the terracotta ceramic panel; Joining a waterproof gasket to an omega groove for cushioning deformation of an omega groove lower mullion to cover a vertical joint to be formed between installation terracotta exterior panels; The step of installing a terracotta ceramic panel by inserting a bonding clip for joining the panel into the horizontal groove of the terracotta ceramic panel, and sandwiching the bonding clip for joining the panel into a clip fastener formed in an omega groove lower mullion. do.

In addition, it is characterized in that it further comprises; connecting the clip fastener to the bonding clip for the panel fastening to the omega groove lower mullion.

In addition, when the insulating material is installed on the outer wall, while inserting the insulating material press-fit fork into the anchor and forcibly press-fit the insulating material, and install a reinforcement bracket between the anchor connection bracket; It is characterized by.

According to the seismic foundation hardware unit for terracotta ceramic panels composed of the omega groove lower mullion and bonding clip of the present invention and its construction method, even when lateral displacement occurs due to the horizontal force caused by the earthquake acting on the terracotta ceramic panel attached to the outer wall, the lateral displacement On the other hand, the omega grooves for the buffer deformation of the Omega groove lower mullions can effectively prevent the shear damage of the terracotta ceramic panel by absorbing the seismic horizontal deformation.

In addition, the self-weight and wind load of the terracotta ceramic panel are secured by having the bonding strength that is firmly coupled to the clip fastener formed at regular intervals on the front surface of the omega groove lower mullion by inserting the bonding clip for panel bonding into the horizontal groove on the rear surface of the terracotta ceramic panel. Effective delivery and support to the Omega Home Haji Mullion can improve safety during use.

In addition, the waterproof gasket installed on the lower mullion of the Omega home can be additionally secured to the cushioning of the terracotta ceramic panel and the waterproof performance of the outer wall by being positioned on the vertical joint.

The following drawings attached in the present specification are intended to illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the present invention, so the present invention is only described in the accompanying drawings. It is not limited and should not be interpreted.
1 is an installation perspective view of a terracotta ceramic panel to which a seismic base material for terracotta ceramic panel according to the present invention is applied.
FIG. 2 is a partially enlarged view of FIG. 1.
FIG. 3 is an exploded perspective view of the earthquake-resistant foundation hardware unit for the terracotta ceramic panel illustrated in FIG. 1.
4a and 4b is a cross-sectional view of the installation of the seismic foundation hardware unit for terracotta ceramic panels according to the present invention and an enlarged view of the 'A' portion of FIG.
5 is a plan view of a portion in which a seismic foundation hardware unit for terracotta ceramic panels according to the present invention is installed.
Figure 6 is a side view of a bonding clip for panel bonding applied to the present invention.
7 is a cross-sectional view of the waterproof bracket applied to the present invention.
8A to 8D are sequential construction flow charts of a terracotta ceramic panel using a seismic foundation unit for terracotta ceramic panels according to the present invention.

The present invention will be described in detail below with reference to the embodiments presented in the accompanying drawings, but the presented embodiments are illustrative for a clear understanding of the present invention and the invention is not limited thereto.

The seismic base hardware unit 10 for terracotta ceramic panels according to the present embodiment is mediated by an omega groove lower extremity mullion 16 and a panel bonding bonding clip 18 on the outer wall 100 as shown in FIGS. 1 to 4. The terracotta ceramic panel 110 is installed to absorb horizontal deformation caused by the arrival of an earthquake to minimize or prevent dropping or damage, thereby increasing safety during public use. The terracotta ceramic panel 110 is produced by mixing natural clay with a small amount of quartz, ceramic powder, feldspar powder and colorants, and then pulverizing, kneading, extrusion molding, low temperature drying, and high temperature firing. .

An anchor 12 is provided on the outer wall 100 to support the omega groove lower extremity mullions 16. The anchor 12 may be, for example, an anchor bolt, a wedge assembled to the tip of the anchor bolt, or one or more fastening nuts screwed to the rear end of the anchor bolt. The anchor 12 is not limited to this kind.

An anchor connection bracket 14 is provided, which is connected to the anchor 12 and connects the omega groove lower mullion 16. The anchor connection bracket 14 is substantially U-shaped, and is inserted into the anchor 12 through the through-hole 141 and fixed to the anchor 12 with a fastening nut.

An omega groove lower mullion 16 is provided that is fastened with a bolt 15 to the bracket 14 for anchor connection and receives the load of the terracotta ceramic panel 110 through the bonding clip 18 for joining the panel. The Omega home lower mullion 16 supports the terracotta ceramic panel 110 and is connected to the anchor connection bracket 14. The Omega Home Haji Mullion 16 is installed in a vertical direction at regular intervals at a predetermined distance on the front surface of the outer wall 100. The omega-groove lower mullion 16 is composed of a clip binding portion 161 and side plate portions 162 and 162 for connecting a fixed hardware that is bent at a right angle from the clip binding portion 161. The clip binding portion 161 is formed with a buffer deformation omega groove 161a that is recessed to a certain depth along the longitudinal direction in the center. In addition, the clip fastening portion 161 is formed with clip fasteners 161b that are penetrated at regular intervals in the longitudinal direction on both sides of the buffer deformation omega groove 161a. The omega groove 161a for the buffer deformation deforms into a Ω (omega) shape by absorbing the horizontal deformation due to the inverted U shape due to the horizontal seismic force.

The omega groove lower mullion 16 may further include a clip coupling hole 161c penetrated to a lower portion of the clip fastener 161b. As shown in FIG. 4B, a clip fastener 22 fitted to the panel joining clip 18 is installed in the clip joining hole 161c so that the panel joining clip 18 to be described later is an omega groove lower mullion 16 ).

A bonding clip 18 for panel joining to the clip fastener 161b of the omega groove lower mullion 16 is provided. The bonding clip 18 for panel bonding is inserted into the horizontal groove 101 formed on the rear surface of the terracotta ceramic panel 100 to transfer and support the self-weight and wind load of the terracotta ceramic panel 100 to the omega groove lower mullion 16. .

2 and 6, the bonding clip 18 for panel bonding is coupled to the lower end of the clip body 18a and the lower end of the clip body 18a to contact the rear surface of the terracotta ceramic panel 110 to form a terracotta ceramic panel ( It consists of a cushioning material (18b) made of rubber or silicone to absorb the impact applied to 110). The clip body 18a protrudes to one side of the clip support plate 181 and the clip support plate 181 and extends from the support jaw 182 and the support jaw 182 to contact the rear surface of the terracotta ceramic panel 110 to the other side. Clip locking jaw 183 having a locking groove (183a) that extends over the clip fastener (161b), a clip binding that protrudes from the rear surface of the clip support plate (181) and fits into the horizontal groove (111) of the terracotta ceramic panel (110) It has a piece 184, a cushioning material engaging groove 185 formed for fitting the cushioning material 18b, and a clip fixture engaging groove 186 formed on the front surface of the clip support plate 181.

A waterproof gasket 20 is installed in the omega groove 161a for cushioning deformation to secure the cushioning performance of the terracotta ceramic panel 100 and the waterproof performance of the outer wall. The waterproof gasket 20 may be made of soft synthetic resin, rubber or silicone.

As shown in FIG. 7, the waterproof gasket 20 extends from one end of the vertical rib 201 and the vertical rib 201 and is fitted into the omega groove 161a for cushioning deformation of the omega groove lower mullion 16 to be tightly coupled. Neighbors are formed on the other end of the vertical ribs 201, a pair of adhesive waterproof blades 203 and 203, which extend from both sides of the vertical ribs 202 to form arcs and adhere to each surface of the terracotta ceramic panel 110. It has a gap forming piece 204 forming an installation gap G between one terracotta ceramic panel 110 and 110.

On the other hand, as shown in Figures 2 and 5, the outer wall 100 side of the heat insulating material 102 is forcibly inserted into the anchor 12 may further include a press fit fork 24. At this time, the reinforcing bracket 26 having a strength and height adjustment function of the anchor connecting bracket 14 may be further interposed between the anchor connecting bracket 14 and the insulation press-fit fork 24.

The construction method of the terracotta ceramic panel 100 using the seismic foundation hardware unit 10 for the terracotta ceramic panel configured as described above will be described.

First, as shown in FIG. 8A, the anchor connecting bracket 14 is fixed to the outer wall 12 at anchor points for each terracotta base structure fixing point.

Then, considering the width of the terracotta ceramic panel 110 as shown in Figure 8b, the omega groove lower mullion 16 is fixedly installed on the anchor bracket 16 side. The Omega home lower mullion 16 is installed at regular intervals in the vertical direction. At this time, after the bolt 15 is inserted into the long hole 142 on the anchor bracket 16 side, it is coupled to the fastening hole 162a on the lower side of the omega groove 16, so that the fixed installation of the lower edge of the omega groove 16 is made. .

Next, as shown in FIG. 8c, the omega grooves 161a for buffer deformation of the omega groove lower mullion 16 to cover the vertical joint 5 to be formed in the installation gap G between the terracotta exterior panels 10 and 10. Water gasket 20 is coupled to the. At this time, the waterproof gasket 20 is installed by forcibly fitting the gasket coupling portion 202 into the omega groove 161a for buffer deformation of the mega groove mullion 16.

Then, it has an installation step of the terracotta ceramic panel 110 as shown in Figure 8d. This inserts a bonding clip 18 for panel joining into the transverse groove 111 of the terracotta ceramic panel 110, and the clip fastener formed on the lower mullion 16 of the omega groove for joining the bonding clip 18 for panel bonding ( 161b). In this case, in this embodiment, all four panel joining clips 18 are fitted on the rear surface of one terracotta ceramic panel 110 to be stably installed on the omega-groove lower mullions 16 and 16. At this time, by attaching the clip fastener 22 to the joint clip 18 for panel joining, it is possible to securely install the joint clip 18 for panel joining by being fixedly installed in the omega groove lower mullion 16.

As described above, when the terracotta ceramic panel 110 is hung over the omega groove lower extremity mullion 16 through the bonding clip 18 for panel bonding, the terracotta ceramic panel 110 has a rear side bonding clip for panel bonding (Fig. 4B). It is in close contact with the cushioning material 18b of 18). At the same time, the support jaw 182 of the joining clip 18 for joining the panel has a certain gap between the omega groove lower mullion 16 and the terracotta ceramic panel 110, and at the same time, the terracotta ceramic panel 110 shakes. It can be installed without.

Therefore, even if the terracotta ceramic panel 110 is impacted by the arrival of a gust of wind, strong wind, or earthquake, the cushioning material 18b of the bonding clip for panel bonding 18 elastically deforms and absorbs it, thereby preventing damage to the terracotta ceramic panel 110. can do.

On the other hand, when the insulating material 102 is installed on the outer wall 100 in the present method as shown in Figures 1 and 5, inserting the insulating material press fork 24 into the anchor 12 and at the same time forcibly in the insulating material 102 It can be press-fitted, and the reinforcement bracket 26 can be installed between the anchor connection bracket 14. This has a height adjustment function when the verticality of the outer wall 100 is different from the verticality of the omega lower mullion 16.

As described above, when the terracotta ceramic panel 110 is installed according to the present method, even if a lateral displacement occurs by acting on the terracotta ceramic panel 110 attached to the outer wall 100 with a horizontal force due to the earthquake, even if the lateral displacement occurs, the omega groove is not far away from the lateral displacement. The omega grooves 161a for the buffer deformation in the form of an inverted U shape of the frozen 16 are deformed into a Ω (omega) shape to absorb the earthquake horizontal deformation, thereby preventing shear damage of the terracotta ceramic panel 110.

In addition, the bonding clip 18 for panel joining is inserted into the horizontal groove 111 on the rear surface of the terracotta ceramic panel 110 and firmly coupled to the clip fastener 161b formed at regular intervals on the front of the omega groove lower mullion 16. By having the combined strength to be effectively transmitted and supported by the self-weight and wind load of the terracotta ceramic panel 110 to the omega groove lower mullion 16, safety during public use is improved.

In addition, the waterproof gasket 20 installed on the lower mullion 16 of the Omega home is positioned on the vertical joint 5 to additionally secure the buffer of the terracotta ceramic panel 110 and the waterproof performance of the outer wall 100. .

The present invention has been described in detail with reference to the presented embodiments, but those skilled in the art can make various modifications and modified inventions without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by such modified and modified inventions, but is limited by the appended claims.

12: anchor
16: Omega Home Haji Mullion
18: Joining clip for panel joining
18a: clip body
18b: cushioning material
20: waterproof bracket
22: Clip fixture
24: Press-fit fork insulation
26: Bracket for reinforcement

Claims (9)

An anchor 12 fixed and installed on the outer wall 100;
An anchor connection bracket (14) connected to the anchor (12) to connect the omega groove lower mullion (16);
In the clip binding portion 161, the clip binding portion 161 having a clip fastener (161b) formed through a predetermined distance to both sides of the buffer deformation omega groove (161a) and the buffer deformation omega groove (161a) Omega groove lower mullion (16) made of side plates (162, 162) for connecting a fixed hardware that is bent at a right angle and connected to the bracket (14) for anchor connection and installed in the transverse direction at regular intervals on the outer wall (100) )and;
After being coupled to the clip fastener 161b, it is inserted into a transverse groove 101 formed on the rear surface of the terracotta ceramic panel 100 to transmit the self-weight and wind load of the terracotta ceramic panel 100 to the omega groove lower extremity mullion 16 A bonding clip 18 for panel bonding to support;
A terracotta consisting of an omega groove lower mullion and a bonding clip, including; a waterproof gasket 20 fitted to the buffer deformation omega groove 161a to secure the cushioning and waterproof performance of the outer wall of the terracotta ceramic panel 100 Seismic base hardware unit for ceramic panels. According to claim 1,
The omega groove lower mullion 16 is further formed with a clip coupling hole 161c penetrated to a lower portion of the clip fastener 161b, and a clip coupling hole 161c has a panel coupling bonding clip 18. Seismic base hardware unit for a terracotta ceramic panel consisting of an omega groove lower mullion and a bonding clip, further comprising a clip fastener 22 that is fitted into the fitting. According to claim 1,
The bonding clip 18 for panel bonding is fitted to the bottom of the clip body 18a and the lower end of the clip body 18a to contact the rear surface of the terracotta ceramic panel 110 to absorb the impact applied to the terracotta ceramic panel 110. It consists of a cushioning material (18b) made of absorbing rubber or silicone;
The clip body 18a protrudes to one side of the clip support plate 181 and the clip support plate 181, and extends from the support jaw 182 and the support jaw 182 to contact the rear surface of the terracotta ceramic panel 110 to the other side. The clip is fitted to the horizontal groove 111 of the terracotta ceramic panel 110 by protruding from the rear surface of the clip supporting plate 181, the clip holding jaw 183a having a hanging groove 183a that extends over the clip fastener 161b. Omega groove not far away, characterized in that it comprises a binding piece (184), a cushioning material engaging groove (185) formed for the fitting of the cushioning material (18b), and a clip fastener engaging groove (186) formed on the front of the clip support plate (181) A seismic foundation hardware unit for terracotta ceramic panels consisting of frozen and splicing clips. According to claim 1,
The waterproof gasket 20 extends from one end of the vertical rib 201, the vertical rib 201, and is fitted into the omega groove 161a for cushioning deformation of the omega groove lower mullion 16, and the gasket coupling portion 202 is tightly coupled. , A pair of close contact waterproof blades 203 and 203 which are extended to both sides of the vertical ribs 202 to form arcs and are in close contact with each surface of the terracotta ceramic panel 110, and are formed on the other end of the vertical ribs 201 to neighbor terracotta ceramic panels A seismic foundation hardware unit for terracotta ceramic panels consisting of an omega groove lower mullion and a bonding clip, characterized by having a gap forming piece 204 forming an installation gap (G) between (110 and 110). According to claim 1,
Omega groove lower extremity for the terracotta ceramic panel consisting of mullions and bonding clips, further comprising a heat-insulating fork 24 which is forcibly inserted into the outer wall 100 side insulation 102 and connected to the anchor 12 Hardware unit. The method of claim 5,
Omega grooves interposed between the bracket 14 for anchor connection and the insulation press-fit fork 24 further comprising a reinforcement bracket 26 having strength and height adjustment function of the anchor connection bracket 14 Seismic base hardware unit for terracotta ceramic panels consisting of lower mullion and bonding clips. Fixing the anchor connection bracket (14) with an anchor (12) at a fixing point of the terracotta base structure of the outer wall (12);
Fixing and installing the omega-groove lower mullion 16 on the side of the anchor bracket 16 in consideration of the width of the terracotta ceramic panel 110;
In order to cover the vertical joint (5) to be formed in the installation gap between the terracotta exterior panels (10 and 10), the waterproof gasket (20) is coupled to the omega groove (161a) for buffer deformation of the lower mullion (16). Step and;
The bonding clip 18 for panel joining is inserted into the horizontal groove 111 of the terracotta ceramic panel 110, and the clip fastener 161b formed in the mullion 16 of the omega grooves is inserted into the bonding clip 18 for panel bonding. ) To install the terracotta ceramic panel 110 by interposing it; a method for constructing a seismic foundation hardware unit for a terracotta ceramic panel consisting of an omega groove lower mullion and a bonding clip. The method of claim 7,
Terracotta consisting of an omega groove lower mullion and a bonding clip, further comprising: connecting the clip fastener 22 to the panel bonding joint clip 18 to secure the omega groove lower mullion 16; Construction method of seismic foundation hardware unit for ceramic panel. The method of claim 7,
When the insulating material 102 is installed on the outer wall 100, the insulating material press-fitting fork 24 is inserted into the anchor 12 and forcibly pressed into the insulating material 102, and the anchor connection bracket 14 and Step of installing a reinforcement bracket 26 between the; construction method of a seismic base hardware unit for terracotta ceramic panels consisting of omega groove lower mullions and bonding clips further comprising a.

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