KR20190003006U - finishing panel assembly having pollution preventing and quake proof structure - Google Patents

Abstract

Finishing panel assembly having a pollution prevention and earthquake-resistant structure according to the present invention comprises: a support frame formed in a square shape, installed on the outer wall of the building, the outer side of the four directions recessed drainage; And, an external composite panel fastened and fixed in close contact with the front of the support frame and closing the exterior of the building.
Air discharge holes communicated with each other through an air movement path formed inside the support frame are alternately formed at the inside and the outside of the adjacent rear portion of the portion in which the drainage paths are formed at four sides of the support frame. It is provided with a honeycomb structure made of silver metal, and each front end portion bent from four lateral sides of the supporting frame is formed with a sealant filling portion recessed to fill a structural sealant with the external composite panel. And one outer composite panel and the supporting frame are installed to have a gap spaced apart from the other outer composite panel and the supporting frame when the supporting frame is formed in one pair and installed on the outer wall of the building in a plurality of pairs in plan. ,
The spaced gap has a rear gasket made of an elastic material having a plurality of vent holes in a side cross section, a front gasket made of an elastic material having a plurality of vent holes in a side cross section in front of the rear gasket, and a watertight between the rear gasket and the front gasket. Silicone caulking is non-exposed,
The front outer side of the front gasket is provided so as to close the open portion between the drainage passage of the pair of the support frame spaced apart from each other, the four corner portions of the support frame is provided with a damping edge portion in the form of four-section link When the vibration in the up, down, left, and right directions is transmitted, it is characterized in that the displacement in each part is allowed.
Accordingly, even when an external shock such as an earthquake is applied, the fluidity of the frame against shaking in the up, down, left, and right directions is allowed in the form of a four-section link, so that the seismic performance due to vibration absorption is enhanced to prevent the panel assembly from being damaged. It is possible to provide a finish panel assembly having a pollution prevention and seismic structure that can be.

Description

Finishing panel assembly having pollution prevention and quake proof structure

The present invention relates to a finish panel assembly having an anti-pollution and seismic structure, and more particularly, to prevent contamination by silicon and the like to maintain a clean appearance, and to improve heat insulation performance by circulating air inside the panel. The present invention relates to a finish panel assembly having an anti-pollution and seismic structure that may allow fluidity to be allowed to some degree, thereby enhancing seismic performance.

In general, the exterior wall finishing panel is provided to configure the exterior wall of the building while a plurality of finishing panels are fixedly connected to each other. In other words, after fastening and assembling one finishing panel with a screw piece to the fixing frame, and then assembled next to the next to the next to the finishing panel in a horizontal or vertical order in order to finish the exterior wall to complete the exterior of the building.

These exterior wall finishing panels are made of stone, wood, concrete, or metal, and the back side is provided with insulation such as styrofoam, glass fiber, urethane, etc. to exclude the fixed frame portion, and between the exterior wall finishing panel and the inner wall. Insulation materials, including styrofoam, may be built into the space.

An example of a finish panel assembly according to the prior art is disclosed in Korean Patent Registration No. 10-1161142 (registered on June 25, 2012, hereinafter referred to as 'Patent Document 1').

However, since the finishing panel assembly according to the prior art is installed in a closed type in which the joints are filled with silicon caulking when the finishing panels are installed on the exterior wall of the building, the silicon caulking is exposed to the outside and is easily contaminated. There is a problem that can be the cause.

In addition, since external energy such as summer direct sunlight and winter strong wind is transmitted as it is without being blocked by the fixed frame in the exterior wall finishing panel, energy loss is greatly generated, which may significantly reduce the thermal insulation effect.

In particular, when the outer wall finishing panel is made of metal, heat is transferred to the inner insulation in the form of conduction or radiation, so that it accumulates in the space between the outer wall finishing panel and the insulating material and the surface of the outer wall finishing panel reaches about 120 ° C. There is a problem that the heat energy efficiency can be greatly reduced by increasing the room temperature significantly in the summer and dropping the room temperature in the winter.

In addition, the finishing panel assembly according to the prior art has a problem that the outer wall finishing panel can be easily separated from or separated from the outer wall when an external impact such as an earthquake is applied because the fixing frame is installed only by a fastening member such as a piece.

Republic of Korea Patent Registration No. 10-1161142 (Registered June 25, 2012)

The present invention has been devised to solve the above problems, when installing the finishing panels on the outer wall of the building to have a structure in which the joint is open without the silicone caulking to fill the joint contamination by the silicone caulk exposed to the outside It is an object of the present invention to provide a finish panel assembly having an antifouling and seismic structure that can be prevented and ensures a clean appearance at all times.

In addition, the finishing panel has an anti-pollution and seismic structure that can open the joint and allow the internal air of the space between the finishing panel and the insulation to be discharged to the outside to improve thermal insulation performance and thermal energy efficiency by effective heat blocking. The purpose is to provide an assembly.

In addition, it is an object of the present invention to provide a finish panel assembly having a pollution prevention and earthquake resistant structure that can prevent the panel assembly from being damaged by enhancing the seismic performance by vibration absorption even when an external shock such as an earthquake is applied.

Finishing panel assembly having a pollution prevention and earthquake-resistant structure according to the present invention to achieve the above object is: a rectangular frame, is installed on the outer wall of the building, the supporting frame is formed on the outer side in four directions recessed; And, an external composite panel fastened and fixed in close contact with the front of the support frame and closing the exterior of the building.

Air discharge holes communicated with each other through an air movement path formed inside the support frame are alternately formed at the inside and the outside of the adjacent rear portion of the portion in which the drainage paths are formed at four sides of the support frame. It is provided with a honeycomb structure made of silver metal, and each front end portion bent from four lateral sides of the supporting frame is formed with a sealant filling portion recessed to fill a structural sealant with the external composite panel. And one outer composite panel and the supporting frame are installed to have a gap spaced apart from the other outer composite panel and the supporting frame when the supporting frame is formed in one pair and installed on the outer wall of the building in a plurality of pairs in plan. ,

The spaced gap has a rear gasket made of an elastic material having a plurality of vent holes in a side cross section, a front gasket made of an elastic material having a plurality of vent holes in a side cross section in front of the rear gasket, and a watertight between the rear gasket and the front gasket. Silicone caulking is non-exposed,

The front outer side of the front gasket is provided so as to close the open portion between the drainage passage of the pair of the support frame spaced apart from each other, the four corners of the support frame is provided with a damping edge portion in the form of a four-section link When the vibration in the up, down, left, and right directions is transmitted, it is characterized in that the displacement in each part is allowed.

Here, the damping edge portion is preferably provided in the form of a wedge inclined to form an angle of 45 ° with the four sides of the support frame.

In addition, the finishing panel assembly having a pollution prevention and seismic structure according to the present invention is inserted into the rear inner side of the supporting frame so as to be slidable in the longitudinal direction at four side surfaces of the supporting frame and fastened and fixed to the building outer wall to support the supporting frame. It is preferable to further include a plurality of sliding fastening brackets to be fixed to the outer wall of the building.

According to the present invention, by installing the finishing panels on the outer wall of the building to have a structure in which the joint is open without the silicone caulking to fill the joint, to prevent contamination by the silicone caulk exposed to the outside and to always maintain a clean appearance It is possible to provide a finish panel assembly having a pollution prevention and seismic structure that can be.

In addition, the joints are open and the internal air of the space between the finishing panel and the insulation is discharged to the outside, so that the finish having an anti-pollution and seismic structure that can improve thermal energy efficiency and thermal energy efficiency by effective heat shielding A panel assembly can be provided.

In addition, even when an external shock such as an earthquake is applied, the fluidity of the frame for shaking in the up, down, left, and right directions is allowed in the form of a four-section link, so that the seismic performance due to vibration absorption is strengthened to prevent the panel assembly from being damaged. It is possible to provide a finish panel assembly having an anti-pollution and seismic structure.

1 is a perspective view showing a pair of one external composite panel coupled to the front of one support frame constituting the finishing panel assembly having a pollution prevention and seismic structure according to the present invention,
Figure 2 is an exploded perspective view of the support frame and the outer composite panel showing that the damping edge is provided at the four corners of the support frame of Figure 1,
3 is a plan view from above of the damping edge according to the present invention;
4 is a front view of the damping edge according to the present invention as viewed from the front,
Figure 5 is a side view of the damping edge according to the present invention viewed from the side,
FIG. 6 is a view illustrating examples in which the fluidity of the support frame is allowed in the form of a four-section link by a damping edge part according to the present invention when an earthquake occurs, according to the vibration direction
Figure 7 is a side cross-sectional view of the support frame and the outer composite panel of Figure 1,
8 is a side cross-sectional view of the support frame and the sliding fastening bracket of FIG. 7,
9 is an enlarged side cross-sectional view of the sliding fastening bracket of FIG. 8;
10 is a front view of the finish panel assembly having a pollution prevention and seismic structure according to the present invention from the front,
FIG. 11 is an enlarged side sectional view showing a side cross-sectional structure in the area “A” of FIG. 10.

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

Finishing panel assembly having a pollution prevention and seismic structure according to the present invention, as shown in Figures 1 and 7, is formed in a square shape and installed on the outer wall of the building and the drainage path 110 is formed on the outer side in four directions The supporting frame 100 and the external composite panel 200 which is fastened and fixed in close contact with the front of the supporting frame 100 and closes the exterior of the building form one pair and are installed on the outer wall of the building in a plurality of pairs on a plane.

Accordingly, one supporting frame 100 and one external composite panel 200 forming one pair of joints spaced apart from each other and the other supporting frame 100 and the external composite panel 200 forming one other pair Although it is installed to have a gap (10), even if the gap 10 is installed without a silicon caulking to directly fill the joint exposed structure, water such as rainwater or condensation later through the drainage channel (110) external composite panel By being neatly discharged from the inside of the 200, the water flows to the outside of the external composite panel 200 is prevented from being contaminated to prevent contamination by silicon, etc., and can always maintain a clean appearance.

The support frame 100 is a base made of aluminum, as shown in FIGS. 1 and 8, and the support frame is provided on the inside and the outside of an adjacent rear portion of a portion in which the drainage path 110 is recessed in the four directions. The air discharge holes 130 communicated with each other through the air movement passages 120 formed inside the 100 are staggered with each other, and a pair of rivets are provided at the front of each of the four directions in which the drainage passages 110 are formed. The rear of the outer composite panel 200 is tightly fixed through the same fastening member 300, and each front end portion bent from four lateral sides in which the drainage path 110 is formed has silicon and the outer composite panel 200 therebetween. The sealant filling part 140 is recessed to fill the same structural sealant 400.

Accordingly, the clearance gap 10 is opened and the inside of the support frame 100 by the air discharge hole 130 and the air movement path 120 so that the internal air of the space between the panel and the insulation is easily discharged to the outside. The furnace is secured to reduce heat accumulation by the internal air by effective heat dissipation so that the thermal energy efficiency can be improved, and between the outer composite panel 200 and the supporting frame 100 through the sealant filling part 140. When the structural sealant 400 is provided in the coupling member 300, the structural sealant 400 is squeezed when the external composite panel 200 is coupled to the supporting frame 100 by the fastening member 300, and the fastening member is spread to the peripheral part by close contact. The airtightness can be ensured by double close contact with the 300.

As an embodiment of the present invention, as shown in Figure 8, the air discharge hole 130 is the interior of the support frame 100 so that the air movement path 120 forms a substantially '' shaped path It is preferred that the compartment formed by the water blocking wall 150 protruding from the.

Accordingly, the air movement passage 120 forms a path of a substantially 'ㄹ' shape and the air discharge holes 130 are alternately formed up, down, left, and right in the inner and outer sides of the supporting frame 100 so that the space between the panel and the heat insulating material is reduced. Heat dissipation area can be expanded to increase the heat dissipation effect while the internal air is discharged to the outside, and the water blocking wall 150 also performs the function of the heat transfer fins to further increase the heat dissipation effect. When the water is discharged through the water can be prevented by the water blocking wall 150 to enter the air discharge hole 130, even if water leaks into the air discharge hole 130, water blocking wall 150 It can be prevented by entering the air movement path 120 is blocked by.

8 and 11, the inner end of the outer composite panel 200 toward the center of the outer composite panel 200 at the front portion where the sealant filling portion 140 of the support frame 100 is formed. When combined, the front inner protrusion 160 protrudes from about 0.5 mm to about 1 mm from the outer composite panel 200, and when the outer composite panel 200 is coupled, the rear surface and the front inner side of the outer composite panel 200 are combined. The structural sealant 400 is also filled between the protrusions 160.

Accordingly, the structural sealant 400 is filled in the sealant filling part 140, and the front inner protrusion 160 and the outer composite panel are coupled after the outer composite panel 200 is coupled to the front of the supporting frame 100 by the fastening member 300. Applying silicon to fill the structural sealant 400 even with the gap between the 200 can ensure more airtightness between the support frame 100 and the outer composite panel 200 by triple close contact.

On the other hand, as shown in Figure 2, the four corner portions of the support frame 100 according to the present invention is provided with a damping edge portion 850 in the form of four-section link, each part when the vibration in the up, down, left and right direction is transmitted It is desirable to allow displacement in.

Accordingly, as shown in FIG. 6, even when an external shock such as an earthquake is applied, the fluidity of the support frame 100 for shaking in the up, down, left, and right directions is allowed in the form of a four-section link, thereby preventing seismicity by vibration absorption. It is possible to provide a finish panel assembly having an antifouling and seismic structure that can be enhanced to prevent performance of the panel assembly from being broken.

FIG. 6A is a front view of the support frame 100 as viewed from the front, and FIGS. 6B and 6C show the support frame 100 when a vibration shock caused by an earthquake or the like is transmitted in the horizontal left and right directions. ) Is a front view showing that the displacement by the damping edge 850, Figure 6 (d) is the damping edge 850 when the support frame 100 when the vibration shock caused by the earthquake or the like is transmitted in the horizontal front and rear direction. It is a side view showing the displacement by).

As an embodiment of the present invention, as shown in Figures 2 and 3, the damping edge portion 850 is in the form of a wedge inclined to form an angle of approximately 45 ° with each of the four direction side of the support frame 100, respectively It is preferable that the prepared.

Accordingly, as shown in FIG. 6, when an impact due to vibration is transmitted to the support frame 100 when an earthquake or the like occurs, the transmitted direction is horizontally left and right directions (FIGS. 6B and 6C). Regardless of whether it is vertically or vertically or horizontally forward and backward (refer to (d) of FIG. 6), the displacement of the supporting frame 100 by the damping edge part 850 is in the form of a four-section link. By allowing the furnace to be smoothly allowed, it is possible to more effectively absorb the impact of vibration.

More specifically, the damping edge portion 850, as shown in Figures 3 to 5, is provided in the center and provided to protrude upwards to form a flat projection (851) forming a flat surface with the front surface of the support frame 100 And, provided on both sides of the flat protrusion (851) is provided so as to have a lower height than the top of the flat protrusion (851) when the support frame 100 is fitted, the front of the support frame 100 and the top of the flat protrusion (851) Frame coupling portion 855 to form a flat surface at the same height.

Here, as shown in FIG. 3, a buffer groove 853 is formed on the upper surface of the flat protrusion 851 in the form of a plurality of corrugations having an uneven shape, and as shown in FIGS. 4 and 5, the frame coupling The portion 855 is preferably formed with a frame engaging portion (857) engaged by the engaging frame 100 and the engaging operation when the support frame 100 is fitted.

Accordingly, the buffer groove 853 can be more effectively buffered according to the elastic support of the support frame 100 by the damping edge portion 850 according to the present invention, by the frame bite 857 While the state in which the supporting frame 100 is connected to the damping edge portion 850 is maintained firmly, the displacement of the supporting frame 100 with respect to the damping edge portion 850 may be freely allowed.

On the other hand, the damping edge portion 850 according to the present invention may be provided including a metal material having elasticity, such as aluminum, it may be provided including a synthetic resin material to further improve the elastic buffer function.

As shown in FIGS. 1 and 7, the external composite panel 200 has a honeycomb structure made of metal such as aluminum, and has a thickness of about 4 mm to 10 mm. That is, an external steel sheet is provided on the outside of the external composite panel 200, and a plurality of metal plates are formed to form a core material having a substantially hexagonal honeycomb structure in a lattice form or a zigzag form to strengthen the panel strength. The rear is provided with an internal steel sheet.

On the other hand, as shown in Figure 10 and 11, the finish panel assembly having a pollution prevention and earthquake-resistant structure according to the present invention is the outer composite panel 200 and the support frame 100 to form a pair of plane When the outer composite panel 200 and the supporting frame 100 are installed on the outer wall of the building in a plurality of pairs, the gap 10 spaced apart from each other and the outer composite panel 200 and the supporting frame 100 is formed. Is installed.

As shown in FIG. 11, the spaced gap 10 includes a rear gasket 500 made of elastic material such as rubber or silicon, and a front of the rear gasket 500, in which a plurality of vent holes 20 are formed on a side cross section. The waterproof silicone caulking 700 is non-exposed between the front gasket 600 and the back gasket 500 and the front gasket 600 made of an elastic material such as rubber or silicone having a plurality of vent holes 20 formed on the side cross-section thereof. Prepared.

To this end, as shown in Figures 8 and 11, for fixing the gasket in front of the extended portion bent backward from one side of the drainage path 110 so that the front locking jaw of the front gasket 600 is coupled to the support frame 100. It is preferable that the protrusions 170 protrude toward the opposite supporting frame 100 spaced apart from each other.

Accordingly, by having a structure in which the separation gap 10 is simply opened without the silicone caulk filling the gap 10 directly with an external exposure type, contamination by the silicon caulk exposed to the outside is prevented at all times, and the appearance is always clean. Can be maintained.

As shown in FIG. 11, the rear gasket 500 includes a vent hole 20 formed at a center of a side cross section, and a plurality of vent holes 20 are formed up and down on both sides to seal the gap between the gaps 10. By maintaining this, it is possible to perform a waterproof function to prevent the water flowing from the outside to penetrate between the panel assembly and the building exterior wall according to the present invention.

As shown in FIG. 11, the front gasket 600 has a vent hole 20 formed at the center of the side cross section and a plurality of vent holes 20 are formed up and down on both sides of the front gasket 500 in front of the rear gasket 500. By maintaining airtightness between the separation gaps 10, the water flowing in from the outside is primarily waterproof before entering the rear gasket 500, and at the same time through the vent that the internal air of the space between the panel and the insulation is discharged to the outside To perform the function of.

As shown in FIG. 11, the waterproof silicone caulking 700 is silicon-coated on the front outer surface of the rear gasket 500 so as to be formed non-exposedly between the front gasket 600 and the separation gap 10. The airtightness is maintained to perform a waterproof function to prevent water from penetrating between the supporting frame 100 and the rear gasket 500 and the front gasket 600.

The front outer side of the front gasket 600 according to the present invention is preferably provided to block the open portion between the drainage path 110 of the pair of support frame 100 spaced apart from each other.

Accordingly, the gap 10 of the panel assembly according to the present invention can be an open type structure that is open without silicon caulking exposed to the outside.

On the other hand, as shown in Figures 1 and 8, the finish panel assembly having a pollution prevention and earthquake-resistant structure according to the present invention of the support frame 100 to be slidable in the longitudinal direction in the four direction side of the support frame 100 It is preferable to further include a plurality of sliding fastening brackets 800 inserted into the rear inside and fastened and fixed to the outer wall of the building to support the support frame 100 to be fixed to the outer wall of the building.

To this end, as shown in Figures 8 and 11, it is preferable that the sliding rail groove 180 is formed recessed to guide the sliding movement of the sliding fastening bracket 800 is engaged in the rear inner side of the support frame 100.

Accordingly, even when an external shock such as an earthquake is applied, the sliding fastening bracket 800 reduces the left and right shaking vibrations by sliding up, down, left and right to ensure seismic performance, thereby preventing the panel assembly according to the present invention from being damaged. have.

8 and 9, the sliding fastening bracket 800 is provided with a metal material such as aluminum is provided with elasticity, the diameter of the end is expanded so that the state engaged with the sliding rail groove 180 is not separated The inner side of the sliding rail groove 180 and fitted into the sliding rail groove 180 to be slid along the sliding rail groove 180, and the bending bent extending backward from the sliding rail portion 810. The fastening plate 830 is bent and extended toward the outside of the support frame 100 at the bent portion 820 and fastened to the base member steel member installed on the outer wall of the building.

On the other hand, as shown in Figures 7 and 11, the finish panel assembly having a pollution prevention and seismic structure according to the present invention is a heat shielding plate 900 provided to block the rear portion from the inside of the support frame 100 It may further include.

The heat shield plate 900 is provided as a heat insulating material to block or reflect heat accumulated through the air inside the space between the panel and the heat insulating material.

To this end, as shown in Figure 8, the heat shielding projections in front of the sliding rail groove 180 in the rear inner side of the support frame 100 so that the heat shielding plate 900 is coupled to the inside of the support frame 100 ( It is preferable that 190 is formed to protrude.

Accordingly, as illustrated in FIG. 11, the heat blocking plate 900 blocks the heat transferred to the external composite panel 200 through the internal air in the space between the panel and the heat insulating material, thereby preventing the air of the support frame 100. Along with the discharge hole 130 and the air movement passage 120, it is possible to further increase the thermal energy efficiency improvement effect by the panel assembly according to the present invention.

Accordingly, according to the present invention, the joint is opened and the internal air of the space between the finishing panel and the heat insulating material is discharged to the outside, thereby improving thermal energy efficiency and thermal energy efficiency by effective heat blocking, and excellent seismic performance. It is possible to provide a finish panel assembly having an antifouling and seismic structure having also.

Although the present invention has been described in detail only with respect to the specific embodiments described, it will be obvious to those skilled in the art that various modifications and changes can be made within the technical spirit of the present invention, and such modifications and modifications belong to the appended claims of utility model registration. It is natural.

100: support frame 110: drainage
120: air movement path 130: air discharge hole
140: sealant filler 150: water blocking wall
200: External composite panel 400: Structural sealant
500: rear gasket 600: front gasket
700: waterproof silicone caulking 800: sliding fastening bracket
850: damping edge

Claims (3)

A support frame is formed in a square shape, which is installed on the outer wall of the building, the outer side of the four directions formed recessed drainage; And
An external composite panel fastened and fixed in close contact with the front of the support frame and closing the exterior of the building;
Including,
On the inner and outer sides of the adjacent rear portion of the portion in which the drainage path is formed at the four sides of the support frame, the air discharge holes communicated with each other through the air movement passage formed in the support frame are alternately formed.
The external composite panel is provided with a honeycomb structure of a metal material,
Sealant filling portions are formed in the front both ends bent from the four direction side of the support frame to fill the structural sealant with the outer composite panel.
When the outer composite panel and the supporting frame are formed in one pair and installed on the outer wall of the building in a plurality of pairs in a plane, any one of the outer composite panel and the supporting frame is spaced apart from each other with the outer composite panel and the supporting frame. Installed to have,
The spaced gap has a rear gasket made of an elastic material having a plurality of vent holes in a side cross section, a front gasket made of an elastic material having a plurality of vent holes in a side cross section in front of the rear gasket, and a watertight between the rear gasket and the front gasket. Silicone caulking is non-exposed,
The front outer side of the front gasket is provided to close the open portion between the drainage passage of the pair of the supporting frame spaced apart from each other,
Four corners of the support frame is provided with a damping corner portion in the form of a four-section link to the end of the panel having a pollution prevention and earthquake resistant structure characterized in that the displacement is allowed in each part when the vibration is transmitted in the up, down, left and right directions Assembly. The method of claim 1,
The damping edge portion is a panel assembly having a pollution prevention and earthquake-proof structure, characterized in that provided in the form of a wedge inclined to form an angle of 45 ° with the four sides of the support frame. The method according to claim 1 or 2,
And a plurality of sliding fastening brackets inserted and inserted into the rear inner side of the supporting frame so as to be slidable in the longitudinal direction at four side surfaces of the supporting frame, and fastened to the building outer wall to support the supporting frame to be fixed to the building outer wall. Finishing panel assembly having a pollution prevention and seismic structure, characterized in that.

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