KR101693715B1 - Outside panel assembly for construction - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wall finishing assembly for a building, A closure member attached to an outer surface of the heat insulating panel in an identical manner; A panel rail fixed to the wall in a longitudinal direction at intervals corresponding to the height of the heat insulating panel, the adjacent pair being coupled to upper and lower ends of the heat insulating panel in a male and female form so that the heat insulating panel is slidably fitted; And a fixing member for fixing the panel rail to the wall, wherein the panel rail is fixed by the fixing member while facing the wall; A horizontal support portion which is formed in the same shape as the vertical fixing portion and is bent in a horizontal state to support the heat insulating panel while providing a joining portion of the heat insulating panel; And a panel coupling part protruding from a part of the horizontal support part and being fitted to the lower end of the heat insulating panel with the upper surface forming a male protrusion and being fitted to the upper end of another heat insulating panel with the bottom surface forming a female groove, The rail is characterized by providing an order line for cutting off water flowing to the wall along the heat insulating panel through the arm groove of the panel engaging portion disposed at the lowermost end of the wall.

Description

[0001] OUTSIDE PANEL ASSEMBLY FOR CONSTRUCTION [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wall finishing assembly for a building, and more particularly, to a wall finishing assembly for building in which an insulation panel can be installed on a wall of a building through a plurality of configurations of panel rails having the same shape.

Generally, the wall of the building is provided with a finishing material, and in the case of the finishing material applied to the wall, the function of providing insulation, soundproofing and appearance is performed.

For example, expandable poly-styrene (Styrofoam) is one of the typical examples of heat insulating materials that are commonly used. These expanded polystyrenes are inexpensive and readily available and widely used, but they are vulnerable to fire and moisture, so that a separate finish is applied to the outer surface.

The method of installing the heat insulating panel on the wall includes a method of directly adhering the heat insulating panel to the wall with the adhesive mortar and a method of attaching the heat insulating panel to the wall using the bracket fixed to the wall.

Here, when the heat insulating panel is adhered through the adhesive mortar, if the adhesive strength of the adhesive mortar is insufficient or if there is a small error in the construction, there is a problem that the heat insulating panel frequently peels off partly or entirely from the wall .

In addition, the method of adhering the adiabatic panel has a problem that the adhering mortar can not perform its function when the weather condition such as strong wind or bad weather is bad or vibration occurs in the building, so that the adiabatic construction can not be performed.

Accordingly, in recent years, a technique for constructing a heat insulating panel using a bracket fixed to a wall has been widely used.

As a prior art of the present invention, there is a heat insulation finishing panel structure proposed in Korean Patent Laid-Open Publication No. 10-2013-0082043.

As shown in Fig. 1, the prior art includes a fixing member 11 fixedly attached to a predetermined position of an outer wall 10 of a building, and a fixing member 11 extending in an L- An extension member 14 having one end connected to the other end of the connection member 12 and the other end having a coupling protrusion 13 and a coupling groove 150 on which the coupling protrusion 13 is seated, And an insulating finishing panel 16 vertically installed at a predetermined distance from the outer wall 10.

This prior art provides that the expansion member 14 coupled to the connecting member 12 is fixed along the longitudinal direction of the outer wall to provide the fixing portion of the heat insulating panel 16. [

However, in the prior art, since the structure for fixing the heat insulating panel 16 is composed of the fixing member 11, the connecting member 12, and the extending member 14, there is a problem that the structure is complicated and construction is troublesome.

Particularly, the prior art has a disadvantage in that the configuration is complicated because the expanding members 14 are manufactured in different shapes as shown in FIG.

Specifically, when the expansion member 14 is formed in the middle of the outer wall, it is formed in a 'T' shape, and when the expansion member 14 is installed in the lower end of the outer wall, it is formed in an L shape. The composition of the material becomes complicated.

In the prior art, since the expansion member 14 installed at the lower end of the outer wall is constructed at the lower end of the heat insulating panel 16 in the form of a flat surface, moisture flowing along the outer surface of the heat insulating panel 16 during rain So that it penetrates into the wall.

Korean Patent Publication No. 10-2013-0082043

It is an object of the present invention to provide a panel rail for fixing a heat insulating panel to a wall of a building, It is an object to provide a building wall finishing assembly that can be attached to a wall.

In particular, it is an object of the present invention to provide a building wall finishing assembly capable of blocking the water flowing along the heat insulating panel while supporting the lowermost end of the heat insulating panel.

It is another object of the present invention to provide a building wall finishing assembly capable of preventing the panel rail from sagging by selectively reinforcing a part of the panel rail supporting the heat insulating panel.

According to an aspect of the present invention, there is provided a wall finishing assembly for a building, comprising: a heat insulating panel installed on a wall of a building to insulate the wall; A closure member attached to an outer surface of the heat insulating panel in an identical manner; A panel rail fixed to the wall in a longitudinal direction at intervals corresponding to the height of the heat insulating panel, the adjacent pair being coupled to upper and lower ends of the heat insulating panel in a male and female form so that the heat insulating panel is slidably fitted; And a fixing member for fixing the panel rail to the wall, wherein the panel rail is fixed by the fixing member while facing the wall; A horizontal support portion which is formed in the same shape as the vertical fixing portion and is bent in a horizontal state to support the heat insulating panel while providing a joining portion of the heat insulating panel; And a panel coupling part protruding from a part of the horizontal support part and being fitted to the lower end of the heat insulating panel with the upper surface forming a male protrusion and being fitted to the upper end of another heat insulating panel with the bottom surface forming a female groove, The rail may provide an order line for cutting off water flowing to the wall along the heat insulating panel through the female groove of the panel engaging portion disposed at the lowermost end of the wall.

For example, the closing member may include: a first adhesive mortar coated on an outer surface of the heat insulating panel; A reinforced glass fiber net bonded and fixed to an outer surface of the heat insulating panel by the first adhesive mortar; A second adhesive mortar applied to the reinforced glass fiber net; And a finishing plate adhered and fixed to an outer surface of the reinforced glass fiber net by the second adhesive mortar.

For example, the fixing member may include: a pad pad interposed between the panel rail and the wall; And an anchor which penetrates the panel rail and the pad and is fastened to the wall.

The panel rail may be formed such that the length of the horizontal support portion is smaller than the width of the heat insulating panel to provide a gap between the heat insulating panel and another heat insulating panel, And an adhesive foam for fixing the heat insulating panel.

The panel rail may further include a sag prevention part for preventing sagging while reinforcing the horizontal support part.

For example, the deflection preventing portion may include a latching slot formed in the horizontal support portion to provide a latching portion. And a reinforcing angle disposed at a lower portion of the horizontal support while being fitted in the catch slot and supporting the horizontal support while the mill portion is in close contact with the wall.

According to the wall finishing assembly for building according to the present invention, since the panel rail has a plurality of the same configuration, it is possible to simplify the structure of the construction material and shorten the idle time.

Particularly, since the panel rail provided at the lowermost stage provides an order line through the groove constituting the panel connecting portion, the water flowing down along the adiabatic panel during rain can be prevented from penetrating into the wall.

Further, since the adhesive foam is filled in the gap provided by the horizontal support portion of the panel rail, the heat insulating panels laminated on the horizontal support portion can be more firmly fixed.

In the present invention, when the reinforcing angle constituting the deflection preventing portion is disposed at the lower portion of the horizontal supporting portion and is in close contact with the wall, since the load applied to the horizontal supporting portion is dispersed in the reinforcing angle, deflection of the horizontal supporting portion is prevented, Can be improved.

1 is an exploded perspective view showing a prior art.
Figure 2 is a perspective view of a building wall finishing assembly according to the present invention;
3 is a longitudinal sectional view showing a building wall finishing assembly according to the present invention.
4 is a longitudinal sectional view showing another embodiment of the present invention.
5 is a perspective view showing still another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted.

Embodiments in accordance with the concepts of the present invention can make various changes and have various forms, so that specific embodiments are illustrated in the drawings and described in detail in this specification or application. It is to be understood, however, that it is not intended to limit the embodiments according to the concepts of the present invention to the particular forms of disclosure, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between. Other expressions that describe the relationship between components, such as "between" and "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, the terms "comprises ", or" having ", or the like, specify that there is a stated feature, number, step, operation, , Steps, operations, components, parts, or combinations thereof, as a matter of principle.

The building wall finishing assembly according to the present invention may be configured to include the heat insulating panel 100, the finishing member 200, the panel rail 300, and the fixing member 400 as shown in FIG.

The heat insulating panel 100 is formed in a plate having a predetermined size and is installed on a wall such as an outer wall of a building to insulate the wall.

The heat insulating panel 100 may be made of styrofoam, for example, known as EPS (Expandable Polystyrene).

Further, the heat insulating panel 100 may be made of a mineral wool material which is known as a fire-retardant material and is resistant to fire.

In addition, any material is satisfactory as long as the heat insulating panel 100 has the characteristics of heat insulation.

The finishing member 200 is a component attached to the outer surface of the heat insulating panel 100 to finish the heat insulating panel 100. For example, as shown in FIGS. 2 and 3, the first adhesive mortar 210, A glass fiber net 220, a second adhesive mortar 230 and a finishing plate 240.

Specifically, after the first adhesive mortar 210 is applied, the reinforced glass fiber net 220 is attached, and after the second adhesive mortar 230 is applied to the reinforced glass fiber net 2200, The plate 240 is attached and closed.

That is, the reinforced glass fiber net 220 is a reinforcing member for reinforcing the adhesion of the finishing plate 240, and the finishing plate 240 is bonded to the heat insulating panel 100 via the reinforced glass fiber net 220 So that it can be bonded more firmly.

Here, the finishing plate 240 may be made of any material as long as it is made of a non-combustible material.

For example, the finishing plate 240 may be formed of a magnesium board or a cement board composed of a material such as glass fiber, carbon fiber, natural mineral or the like. Alternatively, the finishing plate 240 may be made of tempered glass, It may be composed of an aluminum steel plate.

In addition, the finish plate 240 may be coated with a finish material such as paint or pattern paint.

The panel rail 300 is a component for fixing the heat insulating panels 100 to the wall in a stacked state. The panel rail 300 is fixed to the wall while forming an angle of approximately 'B' shape as shown in FIG. 3, And are joined to the upper and lower ends of the heat insulating panel 100 together with the other panel rails 300 to allow the heat insulating panel 100 to slide.

That is, the pair of panel rails 300 are fixed to the wall at intervals corresponding to the height of the heat insulating panel 100, and the heat insulating panel 100 is slid through the male and female structures by the panel joining part 330, As far as possible.

The panel rails 300 have the same structure from the lower part to the upper part of the wall and have a single structure.

2 and 3, the panel rail 300 includes a vertical fixing portion 310, a horizontal supporting portion 320, and a panel connecting portion 330 while being bent by a plate having a length corresponding to the wall. ≪ / RTI >

The vertical fixing part 310 is fixed by a fixing member 400, which will be described later, facing the wall as shown in FIG.

3, the horizontal support part 320 is bent horizontally at the lower end of the vertical fixing part 310 to support the heat insulating panel 100 while providing a joining part of the heat insulating panel 100. [

As shown in FIG. 3, the panel coupling part 330 is protruded in a channel shape on the horizontal support part 320 to provide a male and female structure for coupling the heat insulating panel 100.

That is, the panel connecting portion 330 is slidably fitted on the lower end of the heat insulating panel 100 with the upper surface forming the male protrusion, and the lower surface of the panel connecting portion 330 is slidably fitted on the upper end of another heat insulating panel 100, .

It is needless to say that coupling grooves and coupling protrusions corresponding to the panel coupling portion 330 are formed at the upper and lower ends of the heat insulating panel 100.

As shown in FIG. 3, the panel rail 300, which is disposed at the lowermost end of the wall, is connected to the panel coupling part 330 To provide an order line on the bottom surface of the heat insulating panel 100 to block the water flowing along the heat insulating panel 100.

That is, when raining, the water flows down along the heat insulating panel 100, and the panel connecting portion 330 of the panel rail 300 disposed on the bottom surface of the heat insulating panel 100 can not flow to the wall, do.

If the panel rail 300 at the lower end of the wall is separately constructed and configured as a flat bottom surface, the water flowing down along the heat insulating panel 100 is guided to the wall so that the water penetrates into the wall.

The fixing member 400 is a component for fixing the panel rail 300 to the wall and includes a vertical fixing part 310 of the panel rail 300 and a pad And an anchor 420 which penetrates through the panel rail 300 and the pad pad 410 and is fastened to the wall.

3, a space formed by the pad pad 410 is formed between the wall and the heat insulating panel 100. The space between the wall and the heat insulating panel 100 is filled with an adhesive mortar 100a for adhering and fixing the heat insulating panel 100 to the wall ).

Also, a space is formed between the panel rail 300 disposed at the lowermost end of the wall and the wall by the pad pad 410, and the sealant 100b is applied to the space to be water tight.

3, the horizontal length of the panel rail 300 may be less than the width of the heat insulating panel 100. Accordingly, the length of the horizontal support 320 may be less than the width of the heat insulating panel 100, Thereby forming a gap between the heat insulating panels 100.

As shown in FIG. 3, the adhesive foam 340 is filled in the gap to adhere and fix the heat insulating panels 100.

4, the panel rail 300 of the present invention may further include a sag preventing unit 350. [

The sag preventing unit 350 is a component for preventing sagging by reinforcing the supporting force of the horizontal supporting unit 320 to which the heat insulating panel 100 is coupled in a laminated state.

For example, the anti-sagging portion 350 may be configured to include a catching slot 351 and a reinforcing angle 352 as shown in FIG.

The latching slot 351 is formed in a groove shape along the longitudinal direction on the lower surface of the horizontal support part 320, and the reinforcing angle 352 to be described later is interposed.

As shown in FIG. 4, the reinforcing angle 352 is formed as an 'A' -shaped angle structure and is a component supporting the horizontal support part 320 while being coupled to the lower part of the horizontal support part 320, Is supported on the horizontal supporting portion 320 while the vertical surface of the angle is in close contact with the wall. The locking protrusion 352a protrudes from the upper surface of the angle.

In other words, the reinforcing angle 352 is selectively attached to the lower portion of the horizontal support portion 320 and is in close contact with the wall, thereby reinforcing the support force of the horizontal support portion 320, thereby preventing the horizontal support portion 320 from sagging.

Here, the reinforcing angle 352 may be in close contact with the wall while the not shown pad is interposed, or may be fixed to the wall through an unillustrated anchor.

Meanwhile, the panel rail 300 of the present invention may further include the pointer protrusion 360 as shown in FIG.

The pointer protrusion 360 is a component for preventing any movement of the heat insulating panel 100 while providing a reference for measuring the length of the panel rail 300 at the time of construction.

5, the pointer protrusion 360 may protrude from the panel coupling portion 330, the horizontal support portion 320, or the vertical fixing portion 310 of the panel rail 300, and the panel rail 300 ) At regular intervals along the longitudinal direction of the frame.

In addition, the pointer protrusion 360 is embedded in the heat insulating panel 100 in a protruded state to prevent the heat insulating panel 100 from moving arbitrarily.

Here, the pointer protrusion 360 is preferably protruded so as to allow sliding of the heat insulating panel 100 by pressurization.

That is, since the insulating panel 100 is made of a material such as poly-foamed styrene or mineral wool, it has an elastic force, so that even when the pointer protrusion 360 protrudes to the pan rail 300, The pointer protrusion 360 is fixed while being embedded in the embedment state through the restoring force so that arbitrary movement of the pointer protrusion 360 can be prevented.

A construction method of a wall finishing assembly according to the present invention including the above-described components will be described.

The installer fixes the panel rail 300 to the wall at intervals corresponding to the height of the heat insulating panel 100.

The constructor fixes the panel rail 300 by striking the anchor 420 with the pad 410 interposed therebetween on the back surface of the vertical fixing part 310 of the panel rail 300.

The constructor applies the adhesive mortar 100a to the wall between the panel rails 300 and then installs the heat insulating panel 100 in a laminated state by inserting the heat insulating panel 100 into the pair of panel rails 300, And then the sealant 100b is applied between the panel rail 300 at the lowermost stage and the wall.

The constructor applies the first adhesive mortar 210 to the outer surface of the heat insulating panel 100 to attach the reinforced glass fiber net 220 to the outer surface of the reinforced glass fiber net 220, The mortar 230 is applied and the finishing plate 240 is installed to complete the construction.

When the reinforcing angle 352 for preventing sagging of the panel rail 300 is provided, the reinforcing angle 352 is coupled to the engaging slot 351 before the heat insulating panel 100 is installed, The rear heat insulation panel 100 is coupled to the panel rail 300.

As described above, the wall finishing assembly for building according to the present invention can simplify the construction of the construction material because the panel rails 300 have the same structure and have a plurality of structures, and the panel rail installed at the lowermost end forms a groove It is possible to prevent the water flowing along the heat insulating panel from penetrating into the wall during rainstorms.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be apparent to those skilled in the art that various changes, substitutions, and alterations can be made therein without departing from the spirit of the invention.

100: Insulating panel
100a: Adhesive mortar
100b: sealant
200: Closing member
210: first adhesive mortar
220: Tempered glass fiber mesh
230: second adhesive mortar
240: Finishing plate
300: Panel rail
310: Vertical fixing part
320: horizontal support
330: Panel coupling portion
340: Adhesive foam
350:
351: catch slot
352: Reinforcement angle
360: Turning the pointer
400: Fixing member
410: Sim pad
420: anchor

Claims (6)

An insulating panel installed on the wall of the building to insulate the wall;
A closure member attached to an outer surface of the heat insulating panel in an identical manner;
A panel rail fixed to the wall in a longitudinal direction at intervals corresponding to the height of the heat insulating panel, the adjacent pair being coupled to upper and lower ends of the heat insulating panel in a male and female form so that the heat insulating panel is slidably fitted; And
And a fixing member for fixing the panel rail to the wall,
The panel rail includes:
A vertical fixing unit fixed by the fixing member while facing the wall;
A horizontal support portion which is formed in the same shape as the vertical fixing portion and is bent in a horizontal state to support the heat insulating panel while providing a joining portion of the heat insulating panel; And
And a panel coupling part protruding from a part of the horizontal support part to be engaged with a lower end of the heat insulating panel, the upper surface of the horizontal support part forming a male protrusion, and the bottom surface of the horizontal support part being fitted to the upper end of another heat insulating panel,
The panel rail includes:
Providing an order line for cutting off water flowing to the wall along the heat insulating panel through the female groove of the panel engaging portion disposed at the lowermost end of the wall,
Wherein:
A core pad interposed between the vertical fixing part and the wall; And
And an anchor which penetrates the vertical fixing part and the pad and is fastened to the wall,
An adhesive mortar for applying and fixing the heat insulating panel to the wall is applied to a space formed between the wall and the heat insulating panel by the pad,
The panel rail includes:
And a sag preventing part for preventing sagging while reinforcing the horizontal supporting part,
The sag preventing unit
A latching slot formed in the horizontal support portion to provide a latching portion; And
And a reinforcing angle that protrudes from the upper surface of the latching protrusion corresponding to the latching slot and is inserted into the latching slot while being inserted into the latching slot and is disposed at a lower portion of the horizontal supporting portion and the portion is in contact with the wall to support the horizontal supporting portion Features of the architectural wall finishing assembly.
The method according to claim 1,
The closure member,
A first adhesive mortar applied to an outer surface of the heat insulating panel;
A reinforced glass fiber net bonded and fixed to an outer surface of the heat insulating panel by the first adhesive mortar;
A second adhesive mortar applied to the reinforced glass fiber net; And
And a finishing plate adhered and fixed to an outer surface of the reinforced glass fiber net by the second adhesive mortar.
delete The method according to claim 1,
The panel rail includes:
Wherein a length of the horizontal support portion is smaller than a width of the heat insulating panel to provide a gap between the heat insulating panel and another heat insulating panel,
Further comprising an adhesive foam to fill the gap between the adiabatic panel and another adiabatic panel while filling the gap.
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