KR102520870B1 - non-welding type open joint panel assembly without horizontal panel frame - Google Patents

Abstract

The present invention relates to a non-welded open joint panel assembly without a horizontal lower frame, which can improve insulation performance, comprising: a vertical lower frame for discharging rainwater; a vertical drain member provided in front of the vertical lower frame; a finishing panel provided in an open joint structure; a panel pedestal provided between the finishing panel and the vertical drain member; and a movement seismic clip.

Description

Non-welding type open joint panel assembly without horizontal panel frame}

The present invention relates to an open joint panel assembly of a non-welding method capable of omitting a horizontal lower frame, and more particularly, the seismic performance is improved by allowing the fixing structure of the open joint panel to be made in a flexible form between the clip and the panel, and the open joint panel The construction structure of the joint can maintain a beautiful appearance without contamination, and when constructing the lower frame, the construction is performed in a non-welding method to prevent fire, and the ventilation performance is improved to minimize thermal expansion to improve insulation performance. In case of fire, it is possible to block the spread of flame and heat by allowing the foam gasket to expand first, and to reduce the construction cost and time through the omission of the horizontal frame, and to make the construction process easy and convenient. It relates to an open joint panel assembly of a non-welding method in which a lower frame can be omitted.

In general, among the finishing methods in which wall finishing panels are fixed and installed on the outer wall of a building during exterior construction, the dry method intervenes a separate fixing device made of metal between the building and the wall finishing panel to attach the wall finishing panel to the outer wall of the building. It is attached and fixed to, and is largely divided into an open joint structure and a closed joint structure, and the construction time is short and the work convenience and construction advantages are many. It is a widely used technique.

The construction sequence of a dry wall using a metal frame as a base frame is 1) considering the designed pattern, the metal frame is placed horizontally and vertically on the wall and installed by welding or bolt assembly (at this time, metal fasteners are used to anchored to a struct); 2) After inserting and installing the insulation material between the frames by lattice method; 3) fixing and attaching the factory-manufactured finishing panels to each joint position with screws or exclusive brackets; 4) Joints are caulked with silicone sealant (closed-joint system) or, if the joints are exposed without caulking (open-joint system), use a thin metal plate or waterproof cloth between the frame and the finishing material before attaching the finishing panel. After waterproofing, the installation of the interior and exterior panels is carried out.

If there is a concrete structural wall, first attach the insulation to the wall, install the metal frame in the same way as in 1) above, and then construct as in 3) to 4) above. At this time, in order to fix and install the metal frame on the wall, the fastener portion is to secure insulation performance by removing the insulation material, installing the fastener, and then filling the urethane foam.

In the method of inserting and installing an insulator between metal frames by lattice insertion, perfect insulation cannot be achieved because the insulation line is severed due to the metal frame, which has a thermal conductivity about 1000 times higher than that of general insulators, and thermal energy is conducted through the metal frame. This results in significant energy loss. Even when an insulation material is first attached to the wall and a metal frame is installed, thermal energy is conducted to the metal fastener part with high thermal conductivity, and the area where the insulation material is removed around the fastener and filled with urethane foam is also difficult to exhibit the same insulation performance as the original insulation material. There is a problem in that it becomes a passage of a thermal bridge and a lot of energy loss occurs there. In such a building, significant heat loss and internal dew condensation occur in proportion to the size and size of each pipe structural frame interval according to the finished dimension (joint division dimension) of the panel. In addition, most of the process is performed on site, and at this time, the risk of damage to a part of the body by the cutter or electric shock or fire is very high in the process of cutting and processing each pipe and welding by workers, so safety accidents can occur. It happens frequently.

An example of a 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').

On the other hand, in the panel assembly according to the prior art, a square tube-shaped foundation is installed on the outer wall of the building, and an insulating material such as styrofoam, glass fiber, or urethane is installed between the lower body and the outer wall, and a metal material such as aluminum is used in front of the lower body The finished panels are installed, but the gaps between the joints between the finished panels are filled with silicon caulking.

However, according to the panel assembly according to the prior art, there is a problem in that a fire may occur because welding must be performed when the vertical and horizontal lower frames are first installed, and dropping or damage may occur in the event of an earthquake.

In addition, according to the panel assembly according to the prior art, surface contamination occurs due to the oil of the silicone caulk for waterproof purposes provided at the joint between the finishing panels, and thermal expansion occurs due to the closed structure by sealing the silicone, resulting in insulation. There is a problem that performance may be degraded.

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

An object of the present invention is to improve the seismic performance by making the fixing structure of the open joint panel flexible between the clip and the panel, and to maintain a beautiful appearance without contamination with the construction structure of the open joint, Fire is prevented by making the construction work in a non-welding method during construction, and thermal expansion can be minimized due to improved ventilation performance to improve insulation performance. To provide an open joint panel assembly of a non-welding type that can block the horizontal lower frame, reduce construction cost and time through the omission of the horizontal lower frame, and make the construction process easy and convenient.

In order to achieve the above object, the open joint panel assembly of the non-welding method according to the present invention, which can omit the horizontal lower frame, includes: a vertical lower frame installed vertically on the outer wall of the building and provided with a vertically penetrating square tube to discharge rainwater; a vertical drain member provided in front of the vertical lower frame and formed such that a vertical drainage path forms a drain structure by vertical partition rails protruding vertically from left and right sides of the vertical lower frame; A closing panel provided in an open joint structure spaced apart from each other vertically and horizontally in front of the vertical drain member; It is provided in the form of a square tube at the rear of the finishing panel along the edge of the finishing panel, and a through hole through which outside air and inside communicate with each other is formed in a wind pressure resistant structure, and a panel pedestal provided between the finishing panel and the vertical drain member. ; And, it is provided between a pair of finishing panels spaced apart in at least one direction of vertical and horizontal among the finishing panels and the vertical drain member, and the horizontal lower end and upper end of the panel seat are engaged with the upper and lower parts, respectively. It is characterized in that it includes; a floating earthquake-proof clip that allows the vertical left and right ends of the panel pedestal to be flexibly supported by being engaged with the right and left sides, respectively.

Here, the floating earthquake-proof clip is provided between a pair of closing panels spaced apart from left and right among the closing panels and the vertical drain member, and the vertical left and right ends of the panel seat are engaged with the right and left sides, respectively, to provide a flexible movement. to be supported by

It is preferable that a fixing clip is provided between a pair of closing panels spaced apart from each other and the vertical drain member so that the horizontal lower and upper ends of the panel pedestal are engaged and fixed to upper and lower portions, respectively.

In addition, the open joint panel assembly of the non-welding method, which can omit the horizontal lower frame according to the present invention, is installed by being inserted between a pair of panel seats spaced apart from each other vertically and horizontally among the panel seats, and carbonized and foamed by heat in case of fire. A foam gasket provided to make it possible; And, a metal gasket provided in front of the foam gasket to cover the foam gasket between the pair of panel pedestals equipped with the foam gasket to prevent the foam gasket from being exposed to the outside, and made of a metal material. It is preferable to include more.

According to the present invention, since the fixing structure of the open joint panel is formed in a flexible form between the clip and the panel, the seismic performance is improved, and the beautiful appearance can be maintained without contamination with the construction structure of the open joint, and the lower frame By making the construction work in a non-welding method during construction, fire can be prevented, and thermal expansion can be minimized due to improved ventilation performance to improve insulation performance. It is possible to provide an open joint panel assembly of a non-welding type that can block the spread of the horizontal lower frame, reduce construction cost and time through the omission of the horizontal lower frame, and make the construction process easier and simpler. there is.

1 is a perspective view of an open joint panel assembly of a non-welding method capable of omitting a horizontal lower frame according to the present invention;
2 is an enlarged view of “A” area in FIG. 1;
3 is a top plan view of an open joint panel assembly of a non-welding type that can omit a horizontal lower frame according to the present invention from above;
4 is an enlarged view of the “B” region of FIG. 3;
5 is a cross-sectional side view of a non-welding open joint panel assembly capable of omitting a horizontal lower frame according to the present invention;
6 is an enlarged view of the “C” region of FIG. 5;
7 is a front view showing an example of a finishing panel according to the present invention.

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

As shown in FIGS. 1 and 2, the open joint panel assembly of the non-welding type that can omit the horizontal lower frame according to the present invention includes a vertical lower frame 100 vertically installed on the outer wall of the building, and a vertical lower frame ( 100), and includes a vertical drain member 200, a closing panel 300, a panel pedestal 400, and a floating earthquake-proof clip 500 provided in front.

As shown in FIGS. 1 and 3, the vertical lower frame 100 is installed vertically on the outer wall of the building and is provided as a square tube vertically penetrated so that rainwater is discharged.

As shown in FIGS. 1 to 4 , the vertical drain member 200 is provided in front of the vertical lower frame 100, and on both left and right sides of the vertical lower frame 100, vertically protruding and extending vertical partition rails ( 210), the vertical drain 220 is formed to form a drain structure.

As one embodiment of the present invention, the vertical drain member 200, as shown in Figures 1 and 3, is provided to be formed as a long member by extrusion molding method of a metal material such as aluminum, for the outer wall of the building It is installed vertically spaced apart, and in the front center, the lower extremity engagement portion 205 is formed to open toward the rear so as to cover the front of the vertical lower extremity frame 100, and vertically protrudes and extends on both left and right sides of the lower extremity engagement portion 205. A plurality of vertical drainage channels 220 are formed by the vertical partition rails 210 to form an overdrain drainage structure through which rainwater is discharged.

As shown in FIGS. 1 and 3 , the finishing panel 300 is made of a metal material and is provided with an open joint structure spaced apart in front of the vertical drain member 200 by a pair in the vertical and horizontal directions.

Here, the finishing panel 300 is made of a metal material such as aluminum and is provided to have a flat or curved plate-shaped cross-sectional shape, and ends are provided in an angled shape.

Accordingly, the end of the finishing panel according to the prior art should be provided in a rounded corner in consideration of the silicon caulking operation, but according to the present invention, the corner of the finishing panel 300 can be provided at an angle, thereby , it is possible to further improve the beauty of the exterior, such as making it look grand and neat.

As shown in FIGS. 1 to 5, the panel pedestal 400 is provided in the form of a square tube along the edge of the closing panel 300 at the rear of the closing panel 300, and has a wind pressure resistance structure to allow outside air to enter. A through hole 410 communicating with each other is formed and is provided between the finishing panel 300 and the vertical drain member 200 .

As one embodiment of the present invention, the panel pedestal 400, as shown in FIGS. 4 and 6, is formed such that an end thereof forms an 'L' shape, so that a flat portion on one side abuts the finishing panel 300. Coupled, a plurality of hollow spaces are formed in the vertical portion of the other side, and are provided in pairs symmetrically oriented with respect to the front center of the vertical drain member 200.

Accordingly, as shown in FIG. 7, the closing panels 300 are coupled to the front of the vertical drain member 200 by the panel pedestal 400 to be spaced apart from each other based on the vertical drain member 200, thereby opening the open With the joint structure, air circulation inside and outside the finishing panel 300 can be smoothly performed together with the through hole 410, and an air layer can be formed inside the panel to improve insulation performance.

In order to confirm this, as a result of repeated experiments by comparing the open joint structure of the panel assembly according to the present invention with the conventional closed joint structure, according to the open joint structure of the panel assembly according to the present invention, about 2 ℃ between indoor and outdoor It was confirmed that a temperature difference occurred.

As one embodiment of the present invention, as shown in FIGS. 4 and 6, a metal gasket 800 to be described later is inserted into and engaged with a gasket fitting groove 420 on the side of the pair of panel pedestals 400 facing each other. This depression is formed, and a packing accommodating groove 430 is formed in a flat part of one side of the panel pedestal 400, and a packing member made of a material such as rubber or silicon is inserted into the packing accommodating groove 430 to form a panel pedestal 400. and the closing panel 300 to be sealed with a packing member, and in the flat part of one side of the panel pedestal 400, the remaining area where the packing receiving groove 430 is not formed is a fastening bolt such as a stud bolt for fixing It is preferable to ensure that the closing panel 300 is fixedly coupled by.

As shown in FIGS. 2 and 4 , the floating earthquake-proof clip 500 includes a pair of closing panels 300 and a vertical drain member ( 200), and the horizontal lower and upper ends of the panel pedestal 400 are engaged with the upper and lower portions, respectively, or the vertical left and right ends of the panel pedestal 400 are engaged with the right and left sides, respectively, so that they are supported flexibly.

Accordingly, by allowing the fixed structure of the open joint panel to be formed in a flexible form between the clip and the panel, the seismic performance is improved, and the beautiful appearance can be maintained without contamination with the construction structure of the open joint. By allowing the construction to be carried out in a non-welding method, fire can be prevented, and thermal expansion can be minimized due to improved ventilation performance to improve insulation performance. It is possible to provide an open joint panel assembly of a non-welding method capable of omitting a horizontal lower frame, which makes the process easy and convenient.

As one embodiment of the present invention, as shown in FIGS. 2 and 4, the floating earthquake-proof clip 500 includes a pair of closing panels 300 spaced apart from left to right among the closing panels 300 and a vertical drain member. 200, and the vertical left and right ends of the panel pedestal 400 are engaged with the right and left sides to be fluidly supported, and as shown in FIGS. 2 and 6, among the finishing panels 300 Between the pair of closing panels 300 and the vertical drain member 200 spaced apart from each other, a fixing clip 600 is provided so that the horizontal lower and upper ends of the panel pedestal 400 are engaged and fixed to the upper and lower parts, respectively. it is desirable

Accordingly, the seismic performance can be improved by making the fixing structure of the open joint panel flexible between the clip and the panel by the floating earthquake-proof clip 500, and the closing panel 300 by the fixing clip 600. It is stably fixed to the vertical drain member 200 to improve durability.

As shown in FIGS. 2 and 4 , the floating earthquake-proof clip 500 is made of a metal material such as aluminum to which elasticity is imparted, and a fastening member such as a screw bolt or piece is placed at the front center of the vertical drain member 200. , and a pair of panel pedestals 400 provided in a mutually symmetrical orientation with respect to the front center of the vertical drain member 200 are interlocked so that the pair of panel pedestals 400 are installed to permit movement. .

Here, as shown in FIG. 4 , the floating earthquake-proof clip 500 is disposed vertically between the pair of panel pedestals 400 and the vertical drain member 200 provided with spaced left and right among the panel pedestals 400. It is provided on, one side and the other side are engaged with a pair of panel pedestals 400, respectively, and the middle portion thereof is provided to have a cross-sectional shape bent several times so as to be coupled to the vertical drain member 200 as a surface contact and fastening member. .

Accordingly, the fluidity of the finishing panel 300 is secured by the floating seismic clip 500, and the seismic performance can be improved together with the vertical lower frame 100 having a drainage structure.

As shown in FIGS. 2 and 6, the fixing clip 600 is made of a metal material such as aluminum to which elasticity is imparted, and is a fastening member such as a screw bolt or piece at the front center of the vertical drain member 200. The pair of panel pedestals 400 are coupled to each other so that the pair of panel pedestals 400 are engaged with each other and are vertically symmetrically aligned at the front center of the vertical drain member 200 so that the pair of panel pedestals 400 are fixedly installed.

Here, as shown in FIG. 6 , the fixing clip 600 is disposed between a pair of panel pedestals 400 and a vertical drain member 200 that are spaced vertically among the panel pedestals 400 arranged horizontally. One side and the other side are engaged with the pair of panel pedestals 400, and the middle portion thereof is provided to have a cross-sectional shape bent several times to be coupled to the vertical drain member 200 as a surface contact and fastening member.

Accordingly, the fixing clip 600 is provided between the pair of finishing panels 300 and the pair of panel pedestals 400, which are vertically spaced apart from the front of the vertical drain member 200, so that the horizontal lower frame This can be omitted, and the panel pedestal 400 and the finishing panel 300 can be firmly installed in front of the vertical drain member 200 by the fixing clip 600 .

On the other hand, as shown in FIGS. 4 and 6, in the open joint panel assembly of the non-welding type that can omit the horizontal lower frame according to the present invention, a pair of panels spaced apart from each other vertically and horizontally among the panel pedestal 400 It is inserted between the pedestal 400 and installed inside the joint of the panel, and is provided to carbonize and foam by heat in case of fire. It is provided in front of the foam gasket 700 to cover the gasket 700 to prevent the foam gasket 700 from being exposed to the outside, and includes aluminum to block the flame at the panel joint together with the foam gasket 700 in case of fire. It is preferable to further include a metal gasket 800 made of a metal material.

Accordingly, by allowing the foam gasket 700 to expand first in case of fire, it is possible to block the spread of flame and heat, and it is possible to prevent the spread of fire because it is not easily ignited and burned in case of fire, and at the same time, the sealant is released to the outside. Since it is not exposed, contamination of the panel surface can be prevented and a beautiful appearance can be achieved.

As one embodiment of the present invention, as shown in FIGS. 4 and 6, the foam gasket 700 is made of a thermal foam rubber material forming an incombustible carbonized layer, and the floating earthquake-resistant clip 500 and the fixing clip 600 ) and the foam gasket 700, it is preferable that a caulking portion 710 made of silicon is provided.

Accordingly, when heat is applied to the foam gasket 700 in case of fire, it self-expands and expands, thereby blocking the spread of fire.

On the other hand, as shown in FIG. 3, the open joint panel assembly of the non-welding type that can omit the horizontal lower frame according to the present invention is coupled to the rear of the vertical lower frame 100 so that the vertical lower frame 100 is attached to the outer wall of the building. It is preferable to further include a fixed support 900 to be firmly installed.

Accordingly, it is constructed in a non-welded structure by a bolt fastening method without using the conventional lower body, so that the welding work that follows during construction using the lower body is omitted, so that the occurrence of fire can be prevented in advance, and vertical By using the fixed support 900 as an L-shaped fastener for fixing the lower frame 100 to the outer wall of the building, construction costs can be reduced and construction can be performed easily.

Although the technical aspect has been described in the above description and accompanying drawings, the technical spirit of the present invention is for the purpose of explanation, not limiting it, and those having ordinary technical knowledge in the technical field of the present invention It will be understood that the technical spirit of the present invention can be variously modified and changed within the scope of not departing from the technical scope described in the claims to be described later.

100: vertical lower frame 200: vertical drain member
210: vertical compartment rail 220: vertical drainage
300: finishing panel 400: panel pedestal
410: through hole 500: floating seismic clip
600: fixing clip 700: foam gasket
710: caulking part 800: metal gasket
810: fitting protrusion 820: support fitting part
900: fixed support

Claims (3)

A vertical lower frame (100) installed vertically on the outer wall of the building and provided as a vertically penetrating square tube to discharge rainwater;
It is provided in front of the vertical lower frame 100, and on both left and right sides of the vertical lower frame 100, vertical drains 220 are formed by vertically protruding and extending vertical partition rails 210 to form a drain structure. member 200;
A closing panel 300 provided in an open joint structure in front of the vertical drain member 200 and spaced one pair vertically and horizontally;
It is provided in the form of a square tube at the rear of the closing panel 300 along the edge of the closing panel 300, and a through hole 410 through which the outside air and the inside communicate with each other is formed in a wind pressure resistant structure, and the closing panel 300 and a panel pedestal 400 provided between the vertical drain member 200; and
It is provided between a pair of finishing panels 300 spaced apart from each other in at least one of the vertical and horizontal directions among the finishing panels 300 and the vertical drain member 200, and is provided at the horizontal lower end of the panel pedestal 400. A floating earthquake-proof clip 500 whose upper and upper ends are engaged with the upper and lower portions, respectively, or the vertical left and right ends of the panel pedestal 400 are engaged with the right and left portions to be flexibly supported;
Including,
The floating earthquake-proof clip 500 is provided between a pair of closing panels 300 spaced left and right among the closing panels 300 and the vertical drain member 200, The vertical left and right ends are engaged with the right and left sides, respectively, so that they are flexibly supported,
Between the pair of closing panels 300 spaced vertically and the vertical drain member 200 among the closing panels 300, the horizontal lower and upper ends of the panel pedestal 400 are engaged and fixed to the upper and lower portions, respectively. A fixing clip 600 is provided,
a foam gasket 700 installed between a pair of panel pedestals 400 spaced apart from each other vertically and horizontally among the panel pedestals 400 and carbonized and foamed by heat in case of fire; and
It is provided in front of the foam gasket 700 to cover the foam gasket 700 between the pair of panel pedestals 400 equipped with the foam gasket 700, and exposes the foam gasket 700 to the outside. To prevent this, a metal gasket 800 made of a metal material;
Including more,
The floating earthquake-proof clip 500 is made of an aluminum metal material to which elasticity is imparted, is coupled to the front center of the vertical drain member 200 as a fastening member, and is based on the front center of the vertical drain member 200. The pair of panel pedestals 400 provided in a mutually symmetrical orientation are interlocked so that the pair of panel pedestals 400 are installed to allow movement,
The floating earthquake-proof clip 500 is provided between a pair of panel pedestals 400 spaced apart from left and right among the panel pedestals 400 that are vertically disposed and the vertical drain member 200, and has one side and The other side is engaged with a pair of panel pedestals 400, and the middle portion thereof is provided to have a cross-sectional shape bent several times to be coupled to the vertical drain member 200 as a surface contact and fastening member,
The fixing clip 600 is made of an aluminum material to which elasticity is imparted, is coupled to the front center of the vertical drain member 200 as a fastening member, and mutually mutually vertically at the front center of the vertical drain member 200. A pair of panel pedestals 400 provided in a symmetrical orientation are interlocked so that the pair of panel pedestals 400 are fixedly installed,
The fixing clip 600 is provided between a pair of panel pedestals 400 that are arranged horizontally and spaced vertically among the panel pedestals 400 and the vertical drain member 200, one side and the other. The sides are engaged with a pair of panel pedestals 400, and the middle portion thereof is provided to have a cross-sectional shape bent several times to be coupled to the vertical drain member 200 as a surface contact and fastening member,
The vertical drain member 200 is made of an aluminum metal material and formed into a long member by extrusion molding, is installed to be vertically spaced apart from the outer wall of the building, and the front center of the vertical lower frame 100 is provided. The lower extremity engaging portion 205 is formed to be open toward the rear, and the plurality of vertical drainage channels 220 are formed by the vertical partition rails 210 vertically protruding and extending on both left and right sides of the lower extremity engaging portion 205. Is formed to form an overdrain drainage structure through which rainwater is discharged,
The panel pedestal 400 has an end formed in an 'L' shape, so that a flat part on one side is coupled to the finishing panel 300, and a plurality of hollow spaces are formed symmetrically on the vertical part on the other side. A non-welding type open joint panel assembly that can omit the horizontal lower frame, characterized in that it is partitioned and provided with a pair so as to be mutually symmetrical with respect to the front center of the vertical drain member (200). delete delete

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