KR101294361B1 - Connection Type Outer Structure of Outer Wall for Building - Google Patents

Abstract

The present invention enables to install the building material of the building wall in a prefabricated manner, by implementing a structure capable of blocking the penetration and shock absorption according to the open joint method, to protect the building from the strong impact from the outside, any design or color It is possible to replace as many as possible, and provides a prefabricated exterior structure of the building wall to enable easy construction and reduced maintenance costs due to semi-permanent use conditions.
To this end, the present invention is assembling each long along the horizontal direction with respect to the seismic fixture, the upper and lower horizontal rain screen for flowing the rain down downward between the exterior panel attached to the front, and perpendicular to the front of the seismic fixture Fitted along the direction, it is fixed to the inner wall of the building in combination with the vertical rain screen, the upper and lower horizontal rain screen, and the vertical rain screen, respectively, for flowing rainwater vertically to support the joint portion of the exterior panel and insulation In addition, the seismic fixing body having a certain elasticity to perform the earthquake-resistant function to absorb the strong shock from the outside, and the horizontal fixing fixed to the wall inside the building to support the bearing force of the building exterior material by the seismic fixing body Characterized in that configured to include a bracket.

Description

Connection Type Outer Structure of Outer Wall for Building}

The present invention relates to a prefabricated exterior structure of a building wall to enable the semi-permanent construction through the implementation of the walls of the various buildings in a prefabricated manner to improve the beauty and prevent rain penetration, and protect the building from external impact.

In general, a plurality of walls are formed between the ceiling slab and the floor slab in the interior and exterior of the building to distinguish a room or other space. In the case of the exterior wall, not only the interior and exterior of the building is distinguished. Installed to fully support the building.

After constructing the walls of such buildings, external finishing materials such as stone panels made of natural or artificial stone such as marble or granite or artificial stone on the outer walls of the walls to enhance the beauty of the exterior of the building and to protect the wall layers. It is supposed to install.

In this case, first, the angle for mounting the external finishing material is installed side by side at a predetermined interval along the reference line set on the outer wall, and then the insulation is mounted and the external finishing material is fixed to the outer end of each angle. In the case of applying, the joint part between the external finishing material and the insulating material or the joint part between each external finishing material can be bonded by applying silicon after filling the backing, and when the wet method is applied, the joint part between the external finishing material and the insulating material In addition, it is possible to wet bond using a fiberglass mesh in which water is added to the joints between the outer finishing materials.

However, in the conventional external finishing material installation method, in the dry method, since the silicon is used for the joint portion of the member, the panel is contaminated by melting the oil of silicon due to the high temperature in summer and penetrating the pores of the stone panel. As the discoloration becomes easy, the beauty of the exterior of the building can be halved, and the cost of repairing the building increases due to the need for regular silicone repair every three or four years.

In addition, in the conventional external finishing material installation method, the wet method has a problem in that it is impossible to work in winter because the water must be mixed at the construction site of the building construction, and uniform construction throughout the outer wall because the glass fiber mesh is used. Due to this difficulty, there is a high possibility that peeling and crack defects occur at the site where construction is insufficient, and since decoloration / discoloration occurs frequently due to contamination of the construction joint part, maintenance using organic pigments or the like is frequently performed, but once If the construction is made, it is extremely difficult to change the color or design other than the partial maintenance method, there is a problem that it is difficult to reproduce the design or color desired by the user.

In addition, the conventional external finishing material installation method does not have a structure that can absorb a strong impact applied to the building due to natural disasters such as earthquake or typhoon, so if a strong impact occurs from the outside, Damage, of course, there is a problem that can cause serious damage to the building itself.

Therefore, the present invention has been made to solve the above-mentioned problems, the purpose of which is to be able to install the building material of the building wall in a prefabricated manner, according to the open joint (Open Joint) method of excellent penetration blocking and shock absorption By constructing a structure that can protect the building from strong impact from the outside, any design or color can be changed in any way, and the prefabrication of the building wall enables easy maintenance and reduced maintenance cost due to semi-permanent use. To provide an exterior structure.

According to the present invention for achieving the above object, the upper and lower horizontal rain screen for assembling each long along the horizontal direction with respect to the seismic fixing body, to flow the rain down downward between the exterior panel attached to the front, A vertical rain screen fitted in a vertical direction on the front of the seismic fixing body and fixed to an inner wall of the building in combination with the upper and lower horizontal rain screens and the vertical rain screen, respectively, for vertically flowing rainwater; In addition to supporting the coupling portion of the heat insulating material, the seismic fixing body having a certain elasticity to perform the earthquake-resistant function to absorb a strong shock from the outside, and to support the bearing strength of the building exterior material by the seismic fixing body Construction comprising a horizontal fixing bracket fixed to the wall of the Provides a prefabricated exterior structure of a water wall.

According to the present invention as described above, the seismic vertical / horizontal fixed structure made of aluminum, reinforced plastic, stainless steel, painted steel, etc., and the horizontal rain screen, vertical rain screen on the wall of the building to be installed prefabricated using anchor bolts. By using a prefabricated method that does not use adhesives such as silicone or fiberglass mesh, construction can be performed at any time regardless of the season and climatic conditions. And since the maintenance is not necessary after the completion of the maintenance cost can be reduced.

In addition, according to the characteristics of the prefabricated exterior material, the air circulation between the rear of the material and the outer wall space can be made smoothly, so that no condensation occurs, and the horizontal rain screen and the vertical rain screen are installed so that the rain from the outside can be smoothly. It is possible to drain easily, so it is excellent in waterproof function, and the smooth drainage function is excellent in washing function of dust, so that the appearance of the building can be managed cleanly, thereby extending the life of the building.

In addition, the prefabricated exterior material can be easily dismantled, and thus, when remodeling the building, it is possible to replace it with another exterior material having a desired design and a desired color.

1 is a view showing the appearance of the building wall to which the prefabricated exterior structure according to the present invention is applied,
2 is a view showing a continuous connection relationship to the prefabricated exterior structure of the building wall according to the invention,
Figure 3 is an exploded perspective view for explaining the assembly shape of the prefabricated exterior structure of the building wall according to the invention,
4 is a view showing the configuration of the upper horizontal rain screen and the lower horizontal rain screen of the type integrated with various materials according to the present invention,
5 is a view showing a state in which the horizontal and vertical rain screen according to the invention is applied to the building wall,
6 is a view showing the configuration of a horizontal fixing bracket according to another embodiment of the present invention.

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

1 is a view showing the appearance of the building wall to which the prefabricated exterior structure according to the present invention is applied, Figure 2 is a view showing a continuous connection relationship to the prefabricated exterior structure of the building wall according to the present invention.

As shown in Figures 1 and 2, the exterior wall 10, which is assembled by the prefabricated exterior structure of the present invention to the building wall is fixedly coupled to the front, respectively, the rear end of the exterior panel 10 of the present invention The heat insulating material 15 fixed through the prefabricated exterior structure is installed.

The exterior panel 10 may be formed of any one material such as aluminum panel, EPS panel, enamel panel, non-asbestos extruded cement panel, artificial and natural stone panel, ALC panel, ceramic tile, and the like.

The heat insulator 15 is preferably made of flame-retardant styrofoam or the like that can reduce the generation of toxic gases in the event of a fire, and can be omitted when there is no need for heat insulator in the structure of the building.

In the same figure, the prefabricated exterior structure according to the present invention has an upper horizontal rain screen 20, a lower horizontal rain screen 30, a vertical rain screen 40, a seismic vertical / horizontal fixing member 50, a shock absorbing elastic It consists of a spring 60, a seismic fixing bracket 70, a horizontal fixing bracket (80).

Here, as shown in FIG. 2, the upper and lower horizontal rain screens 20 and 30, the vertical rain screen 40, the seismic vertical and horizontal fixing members 50, and the shock absorbing elastic springs 60, respectively. ), The seismic fixing bracket 70, the horizontal fixing bracket 80 is made of a structure that can be assembled continuously and regularly along the horizontal direction and vertical direction in accordance with the overall assembly area of the building wall.

Therefore, the components of the prefabricated exterior structure according to the present invention is possible to be easily applied to any building as a continuous and regular assembly arrangement is possible irrespective of the wall area of the building or the height, size of the building.

Next, Figure 3 is an exploded perspective view for explaining the assembly shape of the prefabricated exterior structure of the building wall according to the present invention.

As shown in FIG. 3, the upper horizontal rain screen 20 has the lower rain screen 30 along a horizontal direction with respect to horizontal coupling blades 54 formed on both sides of the seismic vertical / horizontal fixing member 50. And as long as it is assembled, to block the rain between the exterior panel 10 attached to the front to flow downward.

The upper horizontal rain screen 20 is combined with the horizontal coupling portion 54 formed on both sides of the seismic vertical / horizontal fixing member 50 while being coupled to the heat insulating material 15 of the upper portion, and the horizontal fixing bracket ( In order to couple with the upper coupling protrusion 84 of the 80, the binding recess line 22 is formed long in the longitudinal direction of the lane screen, the front is formed at a predetermined angle along the longitudinal direction of the lane screen. The inclined line 24 is formed to be bent downwardly inclined, and the inclined line 24 for flowing rainwater is long.

The lower horizontal lane screen 30 is a corresponding upper horizontal lane along a horizontal direction with respect to the horizontal coupling portion 54 formed on both sides of the seismic vertical / horizontal fixing member 50 at the lower portion of the upper horizontal rain screen 20. Assembled long with the screen 20, it is for flowing the rain down downward between the exterior panel 10 attached to the front.

The lower horizontal rain screen 30 is coupled to the heat insulating material 15 of the lower, and coupled to the horizontal coupling portion 54 formed on both sides of the seismic vertical / horizontal fixing member 50, the horizontal fixing bracket ( In order to engage with the lower coupling projection 86 of the 80, the long recess formed in the recessed groove line 32 is formed long along the longitudinal direction of the rain screen, the front of the downward downward at a predetermined angle along the longitudinal direction of the rain screen The inclined line 34 is formed to be bent inclined to form a long inclined line 34, and the bent forming portion of the inclined line 34 supports the lower portion of the upper horizontal rain screen 30 to support the upper horizontal rain screen. Protruding lines 36 protruding along the longitudinal direction of the rain screen are formed long in order not to be coupled to the 30 and to form a predetermined space therebetween.

The vertical rain screen 40 is inserted in the front of the earthquake-resistant vertical / horizontal fixing member 50 in a vertical direction to block rainwater inflow and to flow rainwater vertically. In the rear, a coupling line 42 for fixedly fitting to the seismic vertical / horizontal fixing member 50 is formed long along the longitudinal direction of the rain screen 40, and the front surface thereof is generally along the vertical longitudinal direction. Protruding in a round shape.

The seismic vertical / horizontal fixing member 50 is coupled to the upper / lower horizontal lane screens 20 and 30 and the vertical rain screen 40, respectively, and the exterior panel 10 and the heat insulating material 15 are coupled to each other. In addition to supporting a part, the shock absorbing elastic spring 60 is coupled to the seismic fixing bracket 70 to have a predetermined elasticity, and serves to support the wall covering material of the building as a whole. It is to perform the seismic function to absorb the strong impact from.

The seismic vertical / horizontal fixing member 50 has an insertion groove 52 formed on the front side thereof to elongate and assemble the coupling line 42 of the vertical rain screen 40 in a vertical direction. On both sides, horizontal coupling blades 54 are formed to be inserted into each of the binding recess lines 22 and 32 of the upper horizontal lane screen 20 and the lower horizontal lane screen 30 so as to extend, respectively. A spring connector 56 is formed at a rear side of the shock absorbing elastic spring 60 to connect with one end of the shock absorbing elastic spring 60, and is inserted into the heat insulating material 15 to improve the coupling with the heat insulating material 15. Insertion protrusions 58 having a ⊥ " shape are formed on both sides, respectively.

The shock-absorbing elastic spring 60 is made of titanium, low carbon steel, stainless steel, etc., which can maintain a constant elastic force and does not cause deformation even after repeated stretching and contraction, and prevents rust coating to prevent rust. It is preferable to

The seismic fixing bracket 70 is connected to the seismic vertical / horizontal fixing member 50 through the shock absorbing elastic spring 60 at the rear surface of the seismic vertical / horizontal fixing member 50, and the inside of the building. It is fixed to the wall via anchor bolts.

The seismic fixing bracket 70 is formed to be bent in the shape of the "" "shape, and the bolt contact opening 72 is inserted into the portion in contact with the inner wall of the building, the anchor bolt is inserted, the other side is At least two or more spring connectors 74 connected to the ends of the shock absorbing elastic spring 60 are formed in a row.

The reason why the spring connector 74 is formed at least two is to absorb the shock in consideration of the distance and thickness of the building wall and the exterior panel 10, the heat insulating material 15 according to the measurement of seismic performance of the building. It is for adjusting the connection position of the elastic spring (60).

Meanwhile, the seismic vertical / horizontal fixing member 50, the shock absorbing elastic spring 60, and the seismic fixing bracket 70 may be collectively referred to as a “seismic fixing body”.

The horizontal fixing bracket 80 is the weight of the building exterior material by the structure of the seismic fixing body, that is, the seismic vertical / horizontal fixing member 50, the shock absorbing elastic spring 60, the seismic fixing bracket 70 is connected to It is to maintain the support force, is fixed to the wall inside the building through the anchor bolt.

The horizontal fixing bracket 80 is bent in the shape of the '', the contact portion with the building inner wall is formed with a bolt insertion port 82 is inserted into the anchor bolt, the other side of the upper portion An upper coupling protrusion 84 inserted into and fixed to the binding indentation line 22 of the horizontal rain screen 20 and a lower coupling protrusion inserted into and fixed to the binding indentation line 32 of the lower horizontal rain screen 30 ( 86 is protruded from the upper and lower portions, respectively.

Next, Figure 4 is a view showing the configuration of the upper horizontal rain screen and the lower horizontal rain screen according to the present invention, Figure 5 is a view showing a state in which the horizontal and vertical rain screen according to the present invention is applied to the building wall to be.

As shown in FIG. 4, when the upper horizontal rain screen 20 and the lower horizontal rain screen 30 are combined, the inclined lines 24 and 34 formed on the front surfaces of the respective horizontal rain screens 20 and 30, respectively. The rainwater from the exterior panel 10 flows downward to prevent the penetration of the rainwater into the building, and the projection line 36 formed on the lower horizontal rain screen 30 (that is, the rainwater). By acting as a barrier to block rainwater inflow), a certain space may be formed between each horizontal rain screen.

That is, as shown in Figure 5, even when the heat insulating material 15 is coupled to the upper horizontal rain screen 20 and the lower horizontal rain screen 30, respectively, a constant between each horizontal rain screen (20, 30) The space may be formed, the ventilation through the predetermined space is made smoothly and as the breathability is secured, it is possible to naturally dry the interior of the building, it is possible to prevent the moss, mold, etc. due to the residual moisture.

On the other hand, the upper horizontal rain screen 20 and the lower horizontal rain screen 30 can be manufactured by combining in advance in the manufacturing process with each of the heat insulating material 15, it is possible to be assembled immediately at the construction site of the building. desirable.

Next, Figure 6 is a view showing the configuration of a horizontal fixing bracket according to another embodiment of the present invention.

1 and 2, the horizontal fixing bracket 80 according to one embodiment of the present invention is the seismic fixing member, that is, the seismic vertical / horizontal fixing member 50, the shock absorbing elastic spring 60, the seismic fixing bracket Although it is configured in the form of a plurality of individual brackets on each side around the connection configuration of 70, the integral horizontal fixing bracket 90 according to another embodiment of the present invention, as shown in Figure 6, It performs a role of horizontal fixing of the building exterior material at both sides as a center, but has a structure that is integrally connected.

The horizontal fixing bracket 90 has a plurality of bolt insertion holes 91 in which anchor bolts are inserted in an integral structure, and the first bent portion 92 and the second bent to both sides of the installation position of the seismic fixing body. A bent portion 94 is formed to be bent, and the first bent portion 92 and the second bent portion 94 are respectively formed at the binding recess lines 22 and 32 of the upper and lower horizontal rain screens 20 and 30, respectively. The upper coupling protrusions 96a and 98a and the lower coupling protrusions 96b and 98b which are inserted and fixed are protruded from the upper and lower portions, respectively.

In the present invention, the seismic vertical / horizontal fixing member 50, the upper and lower horizontal rain screen (20, 30), the vertical rain screen 40, the horizontal fixing bracket 80 is aluminum, reinforced plastic, stainless It is preferable to form with any one of steel and steel materials, and it is possible to color the surface of each material with inorganic pigments of various colors.

In addition, in the case of the vertical rain screen 40, the upper / lower horizontal rain screen (20, 30), the exterior panel 10, even if the color is colored in any one color at the time of initial construction it is always painted in the color desired by the user It is possible to apply it by changing a desired color, without dismantling a construction part or carrying out a separate maintenance work by discoloration, contamination, etc.

While specific embodiments of the invention have been described and shown above, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. Such modified embodiments should not be understood individually from the technical idea and viewpoint of the present invention, but should be regarded as belonging to the claims attached hereto.

10: exterior panel, 15: insulation material,
20: upper horizontal rain screen, 30: lower horizontal rain screen,
40: vertical rain screen, 50: seismic vertical and horizontal fixing member,
60: elastic spring for shock absorption, 70: seismic fixing bracket,
80: Horizontal fixation bracket.

Claims (5)

delete Upper and lower horizontal rain screens each of which are long assembled in a horizontal direction with respect to the seismic fixing body, for flowing rainwater downwardly between the exterior panels attached to the front surface;
A vertical rain screen inserted in a vertical direction on the front of the seismic fixing body to vertically flow rainwater;
It is fixed to the inner wall of the building in the state coupled to the upper and lower horizontal rain screen and the vertical rain screen, respectively, to support the coupling portion of the exterior panel and the heat insulating material, and has a certain elasticity to absorb strong impact from the outside An earthquake-resistant fixture performing a seismic function; And
Horizontal fixing bracket fixed to the wall inside the building in order to support the bearing strength of the building exterior material by the seismic fixing body
/ RTI >
The upper and lower horizontal rain screens are coupled with the seismic fixing member, and the binding recess line is formed in a long recess along the longitudinal direction to be coupled to the seismic fixing member, and is fixed along the longitudinal direction of the front surface. Prefabricated exterior structure of a building wall, characterized in that formed bent inclined downward at an angle, including an inclination line for flowing rainwater. Upper and lower horizontal rain screens each of which are long assembled in a horizontal direction with respect to the seismic fixing body, for flowing rainwater downwardly between the exterior panels attached to the front surface;
A vertical rain screen inserted in a vertical direction on the front of the seismic fixing body to vertically flow rainwater;
It is fixed to the inner wall of the building in the state coupled to the upper and lower horizontal rain screen and the vertical rain screen, respectively, to support the coupling portion of the exterior panel and the heat insulating material, and has a certain elasticity to absorb strong impact from the outside An earthquake-resistant fixture performing a seismic function; And
Horizontal fixing bracket fixed to the wall inside the building in order to support the bearing strength of the building exterior material by the seismic fixing body
/ RTI >
The seismic fixing body is coupled to the upper and lower horizontal rain screen and the vertical rain screen, respectively, and is coupled to the seismic fixing bracket fixed to the wall inside the building through the anchor bolt through the shock absorbing elastic spring to have a certain elasticity. Prefabricated exterior structure of a building wall, characterized in that it comprises a seismic vertical / horizontal fixing member. delete delete

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