KR20190036445A - the hybrid Insulated board with horizontal type compressive strength material and the foundation structure using the same - Google Patents

Abstract

The present invention provides a hybrid insulating board with a horizontal type compressed stiffener, including: an insulating material (200) horizontally installed thereon; and a plurality of stiffeners provided in the insulating material (200) in a row at the same level, wherein an upper end and a lower end of the stiffener corresponds to an upper end and a lower end of the insulating material (200) and a load applied from the upper end corresponds to the stiffener, and a foundation structure using the same.

Description

The present invention relates to a hybrid insulated board with a horizontal compression stiffener and a base structure using the same,

The present invention relates to a hybrid insulation board with a horizontal compression stiffener insertion structure for transferring an upper load to the lower part without damaging the insulation board, and a base structure using the same, in forming an outer insulation board structure at the base of a building structure.

Fig. 1 is a conceptual diagram of the lowest-level insulation reinforcement of a building structure.

Insulation standards in architectural structures are regulated as 'energy conservation design standards for buildings' according to the necessity of energy conservation due to global warming and depletion of resources and are strengthened each year.

In particular, walls and slabs that are in contact with the outside are required to install insulation,

The prior art for the bottom-

 Fig. 1 (a) is a plan view showing a heat insulation method in which a heat insulating material I is installed on the upper part of a slab S

There is an external heat insulating method in which a slab S is installed under the slab S (outside the living room) of Fig. 1 (b)

Since the above-mentioned endothermic method must be reinforced with the press mortar (M) on the heat insulating material (I) in order to prevent settlement by the heat insulating material (I), it is disadvantageous in terms of cost and securing of the flooring.

The above-mentioned external insulation method is originally applied to a pilotti building having two or more lowermost layers of a building,

As shown in Fig. 1 (c), it is often applied to a mat foundation (MF) supporting a load of a building facing the ground. That is, there is a structure in which a heat insulating material I is provided between the abandoned concrete (IC) and the mat foundation (MF) for leveling the ground surface on the ground (G) supporting the load of the building.

In the case of Fig. 1 (c), there is a contradiction that supports the building due to the compressive strength of the insulating material I having no structural performance.

Generally, the insulation is composed of air for insulation. Since the air leaks over time, it is vulnerable to long-term compressive load and settlement occurs. Therefore, as shown in FIG. 1 (c) Applying to a supporting mat foundation (MF) is a big problem in the safety of the building from a long-term point of view.

Long-term compressive load test of 40 KPa to density of 33 kg / ㎥ shows that the creep is 1.9% even for rigid urethane foam insulation which is most effective for long-term compressive load of insulation. It is about 20 to 30 KPa considering deformation (settlement) Is the limit to support a building of about one story.

The inventor of the present invention has found that there is no adequate alternative to the above-mentioned problems and there is a problem in the safety of the building, and the wrong construction method as shown in FIG. 1 (c) It came to the following.

[Patent Document 1] Korean Utility Model Registration No. 20-0265130 entitled " Flexible Insulated Plate with Pipe Fixing ", February 06, 2002 [Patent Document 2] Korean Utility Model Registration No. 20-0347490 entitled "Condensation-proof Insulating Plate", March 31, 2004

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The object of the present invention is to provide a hybrid insulation board with a horizontal compression stiffener insertion structure for transferring an upper load to the lower part without damaging the insulation board in forming the outer insulation board structure at the base of a building structure and a base structure using the hybrid insulation board.

According to an aspect of the present invention, there is provided a heat insulating material comprising: a heat insulating material disposed horizontally;

A plurality of reinforcing members arranged in parallel on the same level in the heat insulating material 200;

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The upper and lower ends of the reinforcing member coincide with the upper and lower ends of the heat insulating material 200, and the load acting on the upper portion corresponds to the stiffener. The present invention also provides a base structure using the same. .

According to the present invention, there is provided a hybrid insulation board with a horizontal compression stiffener for transferring an upper load to the lower part without damaging the insulation board, and a base structure using the same, in forming an outer insulation board structure at the base of a building structure.

Fig. 1 is a conceptual diagram of the lowest-level insulation reinforcement of a building structure.
2 is a perspective view of a hybrid insulation board with a horizontal compression stiffener of the present invention.
FIG. 3 is an exploded perspective view of FIG. 2. FIG.
4 is a conceptual view of a base structure using a hybrid insulation board with a horizontal compression stiffener of the present invention.
Fig. 5 is another embodiment of Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view of a hybrid insulation board with a horizontal compression stiffener of the present invention,

FIG. 3 is an exploded perspective view of FIG. 2. FIG.

The hybrid insulation board (IB) with a horizontal compression stiffener insert of the present invention,

A heat insulating material 200 installed horizontally;

A plurality of reinforcing members arranged in parallel on the same level in the heat insulating material 200;

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The upper and lower ends of the reinforcing member coincide with the upper and lower ends of the heat insulating material 200, and the load acting on the upper end corresponds to the stiffener.

Since the reinforcing material has a small cross-sectional area and only performs structural performance, the heating bridges and the cooling bridges due to the reinforcing materials are negligible or negligible.

Particularly, when the truss reinforcing bar 100 described later is used as the reinforcing material, the cross section of the lattice 130 is almost neglected and the heating bridge and the cooling bridge due to the lattice 130 are negligible .

If the rigidity of the reinforcing material is ensured, any material such as steel or non-steel can be used. In particular, the use of non - steel with low heat transfer rate will increase the insulation performance.

The reinforcing member is a truss reinforcing bar 100 including an upper reinforcing bar 110, a lower reinforcing bar 120, and a lattice 130 connecting the reinforcing bar 110 and the reinforcing bar 120 It can be featured,

An I-shaped steel, an T-shaped steel, an inverted T-shaped steel or a U-shaped steel.

The upper portion of the upper reinforcing bar 110 and the lower portion of the lower reinforcing bar 120 may be maintained at the same height as the surface of the heat insulating material 200 so as to be in direct contact with the outside,

When the compressive load acts on the upper and lower rigid plates (ground surface and mat foundation) on the upper and lower sides of the insulating plate IB, the load is transmitted from the truss reinforcing bar 100 formed by the truss to the upper reinforcing bar 110- ) To the lower reinforcing bars 120. As a result, only the truss reinforcing bars 100 bear the compressive load,

And the heat insulating material 200 is a hybrid system that only carries heat insulation.

The truss reinforcing bars 100 may be truss reinforcing bars used in a so-called 'ferrodeck'.

However, rigid polyurethane foam (EPS) and expanded polystyrene (EPS) may be used in consideration of heat insulation performance, formability, compressive strength, and long-term deformation. desirable.

Therefore, the hybrid insulation board (IB) of the present invention with a horizontal type compression stiffener is factory-manufactured and can be installed in a field on a dry basis,

The insulator 200 may be foamed and hardened after the reinforcing material is installed according to circumstances.

In addition, attaching or attaching a waterproof sheet to the upper or the upper surface of the heat insulating material 200 prevents corrosion of the upper reinforcing bar 110 and the lower reinforcing bar 120. When the heat insulating material 200 is a liquid concrete So that it is effective.

4 is a conceptual view of a base structure using a hybrid insulation board with a horizontal compression stiffener of the present invention.

The present invention provides a base structure using a hybrid insulation board with a horizontal compression stiffener,

The hybrid insulation board (IB) with the horizontal compression stiffener insertion type is used,

Ground (G);

An abandoned concrete (IC) installed on the ground G;

The horizontal compression stiffener insertion type hybrid insulation board (IB) installed above the abandoned concrete (IC);

A mat foundation (MF) installed on top of the horizontal hybrid stiffener insertion type hybrid insulation board (IB);

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The load of the building structure is transmitted to the lower portion through the mat base MF and the reinforcing member in turn so that the heat insulating material 200 is dissolved in the load sharing.

The base structure using the horizontal type compression reinforcement-inserted hybrid type insulated plate of the present invention is constructed such that abandoned concrete (IC) for flattening the surface of the ground is laid on a ground G equipped with grounding force, and the above- ) And the mat foundation (MF) is constructed,

The building load is dispersed in the mat foundation MF and transferred from the heat insulating plate IB in the order of the upper reinforcing bar 110 to the lower reinforcing bar 120 in the order of the upper reinforcing bar 110 and the lower reinforcing bar 120, And is supported in the ground G.

With respect to the building load, the proof stress of the horizontal hybrid stiffener insertion type hybrid insulation board IB of the present invention,

The distance between the truss reinforcing bars 100 and the insulating plate I is set so that the distance between the truss reinforcing bars 100 and the lattice 130 is greater than the distance between the upper reinforcing bars 110, The concrete strength and the rebar strength of the mat foundation (MF) and the abandoned concrete (IC) are parameters,

Basically, it is possible to calculate the spacing of the truss reinforcing bars 100, the diameter of the upper reinforcing bar 110, and the concrete strength of the mat foundation (MF).

For example, when the upper reinforcing bar 110 is 10 mm in diameter, the truss reinforcing bars 100 are arranged at an interval of 300 mm, and the concrete base of the mat foundation (MF) has a compressive strength of 24 N / mm 2 (7.2 N / , The proof strength of the heat insulating plate IB at 1 m < 2 >

10 mm (diameter of the upper reinforcing bar 110) x 0.5 (reduction ratio considering curvature) x

1000 mm (length) x 1000/300 (number of truss reinforcing bars 100 at a width of 1 m) x

7.2 N / ㎟ (Allowable Compressive Strength of Concrete in Mat Foundation (MF)) = 120,000 N

And can be applied to buildings with a required floor space of 120 kN / ㎡ or less.

The following table is applicable for each 1 m 2 of the insulation board (IB) of the present invention, assuming that the spacing between the upper reinforcing bar 110 and the truss reinforcing bars 100 is variable with respect to the concrete compressive strength 24 N / This is a comparison table that estimates the load history.

The cross section occupied by the lattice 130 passing through the heat insulating material 200 is about 0.2% and the influence of the heating bridge by the lattice 130 is negligible and negligible.

Fig. 5 is another embodiment of Fig.

As shown in Fig. 5,

Another embodiment of the hybrid insulation board (IB) with a horizontal compression stiffener insert of the present invention is characterized in that,

In the above-described embodiment, the upper end of the reinforcing member is exposed at the upper portion of the heat insulating material 200 by the height d,

And the upper end of the reinforcing member functions as a spacer of the underlying lower reinforcing bar (R1).

Another embodiment of the base structure using the hybrid insulation board of the present invention using the horizontal flat type stiffener insertion type hybrid insulation board (IB) according to another embodiment of the present invention,

Ground (G);

An abandoned concrete (IC) installed on the ground G;

The horizontal compression stiffener insertion type hybrid insulation board (IB) installed above the abandoned concrete (IC);

The bottom underlying reinforcing bars (R1) laid on top of the reinforcing material;

A mat foundation (MF) formed by placing concrete on top of the horizontal hybrid stiffener-inserted hybrid insulation board (IB) so as to include the bottom foundation steel (R1) therein;

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The load of the building structure is transmitted to the lower portion through the mat base MF and the reinforcing member in turn so that the heat insulating material 200 is dissolved in the load sharing.

At this time, the upper end of the reinforcing material is embedded in the concrete of the mat foundation (MF), so that the reinforcing material behaves integrally.

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 embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

It is therefore intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

I: Insulation
IB:
G: Ground
IC: abandoned concrete
MF: Matt Foundation
R1:
S: Slab
M: Click Mortal
100: Truss reinforcement
110: Upper reinforcing bar
120:
130: Lattice
200: Insulation

Claims (6)

A heat insulating material 200 installed horizontally;
A plurality of reinforcing members arranged in parallel on the same level in the heat insulating material 200;
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Wherein the upper and lower ends of the reinforcing member coincide with the upper and lower ends of the heat insulating material 200, and the load acting on the upper portion corresponds to the stiffener.
The method of claim 1,
The upper end of the reinforcing material is exposed at the upper portion of the heat insulating material 200,
And the upper end of the reinforcing member functions as a spacer of the underlying lower reinforcing bar (R1).
3. The method according to claim 1 or 2,
The stiffener
And a truss reinforcing bar (100) including an upper reinforcing bar (110), a lower lower reinforcing bar (120), and a lattice (130) connecting the upper reinforcing bars (110) and the lower reinforcing bars (120) Hybrid insulation board with horizontal compression stiffener (IB).
3. The method according to claim 1 or 2,
The stiffener
Wherein the reinforcing steel plate is an I-shaped steel, a T-shaped steel, an inverted T-shaped steel or a U-shaped steel.
A hybrid insulation board (IB) with a horizontal compression stiffener insert according to claim 1 is used,
Ground (G);
An abandoned concrete (IC) installed on the ground G;
The horizontal compression stiffener insertion type hybrid insulation board (IB) installed above the abandoned concrete (IC);
A mat foundation (MF) installed on top of the horizontal hybrid stiffener insertion type hybrid insulation board (IB);
, ≪ / RTI >
And the load of the building structure is transmitted to the lower portion through the mat foundation (MF) and the reinforcing member in turn, so that the heat insulating material (200) is eliminated from the load sharing.
A hybrid insulation board (IB) with a horizontal compression stiffener insert according to claim 2 is used.
Ground (G);
An abandoned concrete (IC) installed on the ground G;
The horizontal compression stiffener insertion type hybrid insulation board (IB) installed above the abandoned concrete (IC);
The bottom underlying reinforcing bars (R1) laid on top of the reinforcing material;
A mat foundation (MF) formed by placing concrete on top of the horizontal hybrid stiffener-inserted hybrid insulation board (IB) so as to include the bottom foundation steel (R1) therein;
, ≪ / RTI >
And the load of the building structure is transmitted to the lower portion through the mat foundation (MF) and the reinforcing member in turn, so that the heat insulating material (200) is eliminated from the load sharing.

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