KR20170025256A - Prefabricated construction exterior structure of the building facades - Google Patents

Abstract

The present invention relates to a building-type earthquake-proof block (1) constituting an outer wall of a building by a combination of an outer block (10) and a core block (20) inserted into the outer block (10); A built-in spring 100 which covers the upper surface side of the outer block 10 constituting the assembled vibration-proof block 1 and is bent and extended to the outer room; A connecting member (200) having a vertical end (220) in contact with an extended portion of the built-in spring (100) and having the other end vertically extended; A guide horizontal part 330 extending from the bent part 320 horizontally is formed as a bent part 320 having a bent groove 321 bent to surround the vertical end 220 of the connecting member 200, An end of the rear guide horizontal part 330 is formed of a second vertical bending part 340 and an insulating finishing material guide 300; And a cover material guide 400 fixed to the second vertical bending portion 340 of the heat insulating finishing material guide 300 by fusion and fixing the cover material 410 by grasping the cover material 410 in a vertical plane.
It is possible to provide a relatively simple and robust construction when constructing an exterior material or the like to be applied to an outer wall body of a building in a building construction constructed and constructed by a building block having an anti-vibration property, The exterior material is fixedly installed by means of fixing the exterior material to each exterior block constituting the vibration-proof building block. Therefore, it is expected that the exterior material can be effectively mitigated when an external force due to external shock or earthquake occurs Which can be used to construct a building exterior wall.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a building exterior wall,

[0001] The present invention relates to a construction method of a building-type exterior material of an outer wall of a building, and it is possible to realize a semi-permanent construction for protecting a building from an external impact such as an earthquake, To a building exterior structure of a building exterior wall.

A number of walls are formed between the ceiling slab and the floor slab on the inside and outside of the building to divide and separate the rooms and other spaces. In the case of the outer wall buildings, not only can the interior and exterior of the building be distinguished, It can be said that it is generally installed.

After the wall of such a building has been constructed, it is provided with a beauty in the appearance of the building. In order to protect the wall layer, a stone panel made of natural stone or artificial stone such as marble or granite, And aluminum panels, ALC, and den.

In this case, the angle of mounting the finishing material along the reference line set on the wall may be firstly set at a predetermined interval, the heat insulating material may be attached, and the outer finishing material may be fixed to the outer end of each angle. In case of applying the wet method, it is necessary to apply the silicone to the joint portion between the external finishing material and the heat insulating material, the joint portion between the external finishing materials and the joint portion between the external finishing materials, Can be wet-bonded using a glass fiberglass mesh made of a blend of water and water.

In the conventional method of installing the exterior finishing material, silicon is mainly used in the joint portion of the member in the case of the dry method, and in the summer, silicon oil is melted due to high temperature and penetrates into the pores of the stone panel, And discoloration. In winter, condensation occurs due to the hermeticity between the wall and the finishing material due to silicone, which seriously affects the appearance of the building. In addition, it is necessary to repair the silicon in a period of about 3 to 4 years And the maintenance cost of the building is greatly increased.

In addition, in the case of the wet method, since water and mortar are mixed and filled in the joint part filling between the finishing materials at the construction site of the building, there is a difficulty in working in the winter, and it is difficult to uniformly apply the entire outer wall by applying the glass fiber mesh There is a problem in that defects due to peeling and cracks are caused in the area where the construction is insufficient, and the post-processing cost for processing the defect is increased.

In addition, the method and the method for installing the exterior finishing material do not have a structure capable of absorbing and dispersing an external force generated from a strong external impact applied to a building due to natural disasters such as an earthquake or a typhoon, The damage of the building itself is seriously damaged.

On the other hand, in Korean Patent No. 10-0867273, the exterior of a wall is finished with a lightweight, high-strength cement panel, and a foamed heat insulating material is injected between the wall and the finishing material to integrate the finishing of the inside and outside walls of the building, A construction method of a building wall having excellent insulation performance, as well as excellent earthquake resistance, fire resistance and sound insulation performance is disclosed.

In the case of the above-mentioned patent, the hollow extrusion-molded cement panel is fixed to the panel support on the wall of the building, and the joint portion is sealed. Then, the injection port for injecting the water soft foam is punched And an aqueous soft foam is injected through the injection port between the wall and the cement panel so as to be foamed therein to secure a heat insulation layer between the wall and the panel.

However, the technique disclosed in the patent document is a series of very complicated processes for inserting a cement panel to a wall of a building and then injecting an aqueous soft foam between the wall and the cement panel to insulate the building, It is pointed out that the construction panel joined to the frame of the wall is detached by the fixing clip when the foam volume of the waterproof flexible foam injected into the wall between the wall and the cement panel is increased.

Further, since the fixing clip is fixed to the panel support fixed to the wall by using fastening means such as a screw, a bolt, or the like, it is necessary to use an attaching tool.

Korean Patent Laid-Open No. 10-2014-0137273 (published on December 04, 2014) Korea Patent Registration No. 10-0867273 (registered on October 30, 2008)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

According to an aspect of the present invention,

An assembling-type earthquake-proof block constituting an outer wall of the building by a combination of an outer block and a core block inserted into the outer block;

A built-in spring covering the upper surface side of the external block constituting the assembled earthquake-proof block and being bent and extended to the outside room;

A connecting member having a vertical end which is in contact with an extended portion of the built-in spring and is vertically extended at the other end;

An insulating finishing material guide formed of a bent portion bent to surround a vertical end of the connecting member, the end of the guide horizontal portion after the guide horizontal portion extending from the gripping portion is formed, and a second vertical bent portion;

And an outer material guide which is fixedly welded to the second vertical bent portion of the heat insulating finishing material guide and has a vertical upper plane shape to fix and fix the outer case.

According to the present invention, it is possible to provide a relatively simple and robust construction when constructing a building material to be applied to an outer wall of a building in a building structure constructed and constructed by a prefabricated building block having an anti-vibration property, Can be expected.

Further, according to the present invention, after the outer wall member is formed by using the assembled block having the vibration-proof property, the outer wall member is fixedly installed by means of fixing the outer cover member for each of the outer blocks constituting the vibration- It is possible to effectively mitigate an external force due to an external impact or an earthquake.

1 is an exploded perspective view showing an example of the present invention.
2 is an exploded perspective view showing an example of application to a prefabricated earthquake-proof block in a building to which the present invention is applied.
3 is an exploded perspective view showing an example in which the heat insulating finishing material is combined in the constitution of the present invention to be coupled to an external block.
4 is an exploded perspective view showing a state in which the casing is joined to the front surface of the casing material guide in the present invention.
5 is a view showing a unit casing in a state of being coupled by Fig. 4
Figure 6 is a schematic cross-
7 is an overall schematic cross-sectional view showing a state in which the exterior material is installed and constructed on the outer wall of the building made of the assembled earthquake-proof block according to the constitution of the present invention
8 is a partially enlarged view showing an example of a state in which recesses are formed in the concave-convex portion of the heat insulating finishing material adopted in the present invention and the sealing material is inserted therein

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

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of a term in order to describe its invention in the best way Accordingly, the present invention should be construed as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the specification of the present invention and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. It should be understood that various equivalents and modifications are possible or possible.

As described above, the present invention proposes an installation construction structure for an exterior material to be installed on an outer wall of a building when a building is constructed using a building block having an anti-vibration property. The building includes a prefabricated earthquake-proof block constituting an outer wall body, And a guiding horizontal portion extending horizontally from the bent portion which is formed by bending and molding the connecting member to surround the connecting member. The guiding horizontal portion is guided horizontally, And an outer material guide which is welded and fixed to the second vertical bent portion of the heat insulating finishing material guide and is formed into a vertically upper plane shape to fix and fix the outer case.

2, the prefabricated earthquake-proof block 1 is divided into an outer block 10 and a core block 20, and a center of the outer block 10 is provided with a patent registration No. 10-1365485, the outer block, the core block and the core block in the dustproof assembled block unit, which is implemented by the 'dustproof prefabricated block unit and method of constructing the seismic wall structure using the same', are inserted into the outer block, And the elastic bulb 30 is inserted.

That is, the outer block 10 and the core block 20 in the dustproof building block unit constituting the outer wall of the dustproof building according to the present invention have a structure as shown in FIG. 2. For example, in the case of the outer block 10 A plurality of blocks 11 are formed in the inner side of the outer block 10 and a half weight 12 is formed at the side ends of the outer block 10. When the outer block 10 and the outer block 10 are disposed in contact with each other, The core block 20 is inserted into the inner joint 12 'in which the inner and outer half portions 11 and 12 of the side end portions are formed in contact with each other, The elastic ball 30 is inserted into the elastic ball insertion hole 21 to provide the seismic performance corresponding to the lateral pressure acting on the finished wall in a state in which the direct contact between the core block 20 and the outer block 10 is avoided It will be done.

The exterior material 410 is installed on the outside of the building constituting the outer wall body to provide the earthquake-proof performance.

Meanwhile, in order to install the exterior material 410, the exterior block 10 is connected to the exterior block 10 by using a built-in spring 100. The built-in spring 100 covers the upper surface of the exterior block 10, As shown in Fig.

One end of the built-in spring 100 is formed as a first bent piece 110 formed to be vertically bent in a downward direction and is provided with a block 11 formed at the center of the outer block 10 A second bending piece 130 is formed which extends from the upper end side of the first bending piece 110 to a horizontal extending piece 120 extending in a horizontal line and then is bent in a downward direction, And a second horizontal extension piece 140 extending on the horizontal line at the end of the second bending piece 130.

The first bent piece 110 is inserted into the block 11 of the block 10 of the outer block 10 and is in intimate contact with the inner surface of the block 11 as described above, The horizontal extension piece 120 extending horizontally from the upper end side of the piece 110 has a length equal to the width from the inner side surface to the outer side surface of the block 11 of the outer block 10.

The first and second bending pieces 110 and 130 and the horizontal extending piece 120 may be formed as a second bent piece 130 that is vertically bent downward from the end of the horizontal extending piece 120. [ So as to be wrapped from the inner side to the outer side of the block 11 of the outer block 10 as described above.

In order to assemble the horizontal extension piece 110 extending to the upper surface side of the external block 10 after the first bending piece 110 is inserted into the external block 10 as described above, It is preferable to form the groove 13 extending from the upper end side of the hollow portion 11 and extending outwardly.

When the groove 13 is formed, the horizontal extension piece 120 of the built-in spring 100 is inserted into the groove 13 when the built-in spring 100 is coupled, so that the upper surface of the outer block 10 It is possible to prevent interference with the external block 10 which is stacked again on the upper end thereof, and to maintain the horizontality.

The built-in spring 100 has an anti-vibration property by the external block 10, the core block 20 and the elastic ball 30, and is capable of effectively buffering the lateral pressure and the longitudinal pressure which are external forces transmitted from the external wall body It is possible to more effectively buffer the external force transmitted to the outside through the outer wall body out of the external force buffered first from the external block 10 and the core block 20 having the earthquake-proofness, thereby avoiding the transmission of the vibration power to the external casing do.

The connecting member 200 is configured to connect the built-in spring 100 and the heat insulating finishing material guide 300 described later. The connecting member 200 includes a second horizontal extending piece 140 And a vertical end 220 bent upwardly in a direction of 90 degrees in a state of forming the horizontal end 210 in contact with one end.

The second horizontal extension piece 140 of the built-in spring 100 and the horizontal end 210 of the connection member 200 contacting the second horizontal extension piece 140 are fixed to each other. Or may be fixed by welding.

The central through holes 141 and 211 are formed at the centers of the second horizontal extension pieces 140 of the built-in spring 100 and the horizontal ends 210 of the connecting member 200, The connection member 200 and the built-in spring 100 are connected.

As shown in FIG. 6, the connection member 200 having the vertical end 220 connected to the second horizontal extension piece 140 of the built-in spring 100, The outer surface of the external block 10 is formed by the protruding length of the horizontal end 210 and the second horizontal extending piece 140 from the outside of the external block 10, .

The spaced-apart and built-in spring 100 can prevent transmission of an external force and a vibration force, which may be transmitted from the outer wall body made up of the outer block 10 and the core block 20.

The heat insulating finishing material guide 300 has a bending portion 320 bent at one end thereof to form a bending groove 321 as shown in the figure, for constructing and installing the heat insulating finishing material 310 outside the outer wall body A guide horizontal portion 330 extending horizontally from the bent portion 321 is formed so that the vertical end 220 of the connecting member 200 is inserted into and engaged with the bent groove 321, One end of the guide horizontal portion 330 is formed of a second vertical bent portion 340 bent in a vertical direction.

The heat insulating finishing material 310 is fitted to and joined to the guide horizontal portion 330 of the heat insulating finishing material guide 300.

As shown in the drawing, the heat insulating finishing material 310 is coupled to the guide horizontal portion 330. The side end portions of the heat insulating finishing materials 310, which are in contact with each other, A concave and convex portion 311 is formed at each of the upper and lower ends and the other side end corresponding to the planar side end portion to form an engaging groove 312 in which the horizontal portion 330 is fitted, Lt; / RTI >

It is preferable that a groove 311a is formed in the concavo-convex portion 311 and a sealing material 311b inserted in the groove 311a is formed.

The gap between the heat insulating finishing materials 310 is filled with the sealing material 311b by the groove 311a while being fitted to each other by the concave and convex portions 311 of the heat insulating finishing material 310, Effect can be obtained.

A step area 313 is formed on one side of the front and rear sides of the heat insulating finishing material 310 so that the heat insulating finishing material 310 is attached to the guide horizontal part 330 of the heat insulating finishing material guide 300 by the coupling groove 312 When the rear surface is in contact with the bent portion 320, the step portion 313 is formed by the thickness of the exterior material guide 400 so that the exterior material guide 400 can be engaged.

Therefore, when the heat insulating finishing material 310 is coupled by the stepped region 313, the front surface and the rear surface can be kept smooth.

The exterior material guide 400 is welded and fixed to the second vertical bending portion 340 of the heat insulating finishing material guide 300 and has a vertical upper plane shape and is shown as means for grasping and fixing the exterior material 400.

As shown in FIGS. 1 and 6, the exterior material guide 400 is formed in a flat plate shape, and both ends of the exterior material guide 400 are folded outwardly. The cutout 430 is formed at the center of the exterior material guide 400, 400 are welded and fixed in a state in which the second vertical bending portion 340 of the heat insulating finisher guide 300 is fitted.

After the casing member 410 is fitted on the outer side of the casing member 400 having the above-described configuration, that is, the casing member 420, the casing member 410 and the casing member guide 400 may be fixed to complete the installation .

In the process of laminating the heat insulating finishing material 310 from the lower side to the upper side of the building, the exterior material guide 400 and the heat insulating finishing material guide 300 to which the heat insulating finishing material 310 is coupled, When the end side of the built-in spring 100 is seated and engaged with the groove 13 of the external block 10 due to the engagement of the built-in spring 100, the whole of the built-in spring 100 may not be horizontally aligned.

In this case, the position of the heat insulating finishing material 310 is shifted, and the entire surface of the heat insulating finishing material 310 is horizontally aligned. Thus, it is difficult to uniformly install the heat insulating finishing material 310. In this case, ) Needs to be adjusted.

To this end, a height adjusting member 350 is provided on the base bottom wall of the building outer wall, and the initial height of the base heat insulating finishing member 360 located at the lowermost end is adjusted by the height adjusting member 350.

The height adjuster 350 includes a bolt 352 fixed to the upper surface of the base 351. The bolt 352 is inserted into the bolt 352 and is vertically moved And then the base 351 is fixed to the non-shrinkage mortar 354.

The nut 353 is inserted into the base heat insulating finishing material 360 having the hole 361 formed from the bottom face to the inside side by the base 351 to which the nut 353 is horizontally adjusted and fixed. So that it is possible to complete the installation of the heat insulating finishing material 310 and the installation of the exterior material 410 according to the above description.

While the present invention has been described with reference to the particular embodiments and drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Various modifications and changes may be made.

Accordingly, it is to be understood that the technical idea of the present invention is to be understood by the following claims, and all of its equivalents or equivalents fall within the technical scope of the present invention.

One; Prefabricated earthquake-proof block 10; Exterior block
11; Study in Block 12; Half study
12 '; Bond study 13; home
20; Core block 21; Elastic ball insertion hole
30; Elastic ball 100; Built-in spring
110; A first bending piece 120; Horizontal extension piece
130; A second bending piece 140; The second horizontal extension
141; Central aperture 200; Connecting member
210; Level 211; Central passage
220; Vertical stage 300; Insulation Finish Guide
310; An insulating finish 311; Uneven portion
312; A coupling groove 313; Step region
320; A bent portion 321; Bending groove
330; Guide horizontal portion 340; The second vertical bend
400; An exterior material guide 410; Exterior material
420; An outer sheath ridge 430; Incision

Claims (11)

An earthquake-proof block (1) constituting an outer wall of a building by a combination of an outer block (10) and a core block (20) inserted into the outer block (10);
A built-in spring 100 which covers the upper surface side of the outer block 10 constituting the assembled vibration-proof block 1 and is bent and extended to the outer room;
A connecting member (200) having a vertical end (220) in contact with an extended portion of the built-in spring (100) and having the other end vertically extended;
A guide horizontal part 330 extending from the bent part 320 horizontally is formed as a bent part 320 having a bent groove 321 bent to surround the vertical end 220 of the connecting member 200, An end of the rear guide horizontal part 330 is formed of a second vertical bending part 340 and an insulating finishing material guide 300;
And an outer material guide (400) welded and fixed to the second vertical bent part (340) of the heat insulating finishing material guide (300) and configured to have a vertically upper plane shape to grasp and fix the outer case (410) Construction of the Exterior Facing Material of.
The method according to claim 1,
One end of the built-in spring 100 is inserted into the block 11 formed at the center of the outer covering block 10 as a first bent piece 110 formed to be vertically bent downward, A second bending piece 130 is formed which extends from the upper end side of the first bending piece 110 to a horizontal extending piece 120 extending horizontally and then is bent downward. And a second horizontal extension piece (140) extending from the end portion to a horizontal line.
The method according to claim 1,
And forming a groove (13) extending from the upper end side of the block (11) in the block of the outer block (10) to the outer side.
The method according to claim 1,
The connection member 200 is formed of a vertical end 220 bent upward in a 90 ° direction in a state where the horizontal extending portion 140 of the built-in spring 100 and the horizontal end contacting one end are formed, And having an "a" -shaped angle shape.
The method according to claim 1,
The side edges of the heat insulating finishing material 310 coupled to the guide horizontal portion 330 are in planar contact with each other, and an engaging groove 312 is formed in which the guide horizontal portion 330 can be fitted and engaged. And the upper and lower ends and the other side end corresponding to the planar side end portion are formed to have a concavo-convex portion 311 to be fitted and fitted together, respectively.
The method according to claim 1,
The exterior material guide 400 is formed in a flat plate shape and has upper and lower end portions bent outwardly and a cutting portion 430 formed at the center of the exterior material guide portion 400, And the second vertical bending portion (340) of the guide (300) is welded and fixed in a state of being engaged with each other.
6. The method of claim 5,
Wherein the concave portion 311 is formed with a groove 311a and the sealing member 311b is inserted into the groove 311a.
6. The method of claim 5,
And forming a step area (313) on one side of the front and rear sides of the heat insulating finishing material (310).
The method according to claim 1,
And a height adjuster (350) provided on a foundation bottom surface of the building outer wall to adjust an initial setting height of the foundation heat insulation finishing material (360) positioned at the lowermost end by the height adjustor (350) Prefabricated exterior construction construction.
10. The method of claim 9,
The height adjuster 350 includes a bolt 352 fixed to the upper surface of the base 351. The bolt 352 is vertically moved by a nut 353 vertically moved by the bolt 352, And then fixing the base (351) to the non-shrinking mortar (354).
10. The method of claim 9,
The upper and the side surfaces of the base heat insulating finishing material 360 are formed with concavo-convex portions 311 and the bottom surface is smooth. A hole 361 is formed from the bottom surface to the inside, (353) so as to be horizontally supported by the outer wall (353).

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