KR20090113031A - A structure of floor comprising a elastic cork layer - Google Patents

Abstract

PURPOSE: A structure between floors with an elastic cork layer is provided to construct higher building with the same base and the same materials by reducing the load of a building. CONSTITUTION: A structure between floors with an elastic cork layer comprises a concrete layer, an elastic layer, a mortar layer, and a coated layer. The elastic layer is made of corks as a main material formed on a concrete layer. The mortar layer is formed on the elastic layer. The coated layer is formed on the mortar layer. The elastic layer is formed by mixing the cork chip with the binder. The elastic layer is made of cork 50-99 weight% and binder 1-50 weight%. The elastic layer is formed by mixing and hardening the cork chip with the binder.

Description

A STRUCTURE OF FLOOR COMPRISING A ELASTIC CORK LAYER}

The present invention relates to a building interlayer structure, and more particularly, to a building interlayer structure comprising a cork elastic layer mainly composed of cork chips.

The stratified structure of a multi-family house is usually formed by forming a slab, foam concrete poured on it, a finishing mortar including hot water pipes thereon, and a floor finishing material thereon.

Patent No. 0695502, issued to NTPK Co., Ltd., contains 35 to 60% by weight of an inorganic binder which can be used to replace aerated concrete; 0.5-15.0 weight percent of porous minerals; 0.1-15.0 weight percent fibrous material; 0.1-5.0 wt.% Organic binder; 1.0 to 15.0 weight percent of cement, lime, or mixtures thereof; 0.1 to 5.0 weight percent foam; 0.1 to 3.0 wt% foaming agent; Water repellent 0.2-1.0 wt%; A heat insulating composition comprising 0.1 to 0.5% by weight of glass fibers and the balance of blended water is disclosed.

In the Republic of Korea Registered Room No. 378667 granted to Samseong Construction Co., Ltd., it is installed on the concrete slab layer at regular intervals instead of foam concrete to support the load on the upper side and to protect the impact on the upper side with a constant elastic force. In a state in which the two anti-vibration rubber mounts are arranged at regular intervals, a synthetic resin crushing chip of a predetermined size having a predetermined value of sound absorption is filled around the flat upper surface filled with the dust-proof rubber mount and the synthetic resin crushing chip. Disclosed is a method of forming an access flow layer provided with a support plate having a predetermined width for supporting and distributing a load.

Republic of Korea Patent No. 546445 issued to Iksung Co., Ltd. in the sound-absorbing sheet is formed in the floor slab in contact with it instead of the foam concrete, laminated on the upper side of the floor slab; A sound insulation panel disposed below the bottom slab; Disclosed is a method of forming a finishing mortar layer formed by pouring mortar on the sound insulation sheet to form an air layer between the sound insulation panel and the floor slab.

However, the foam concrete layer has a problem that it is difficult to replace it because it has a good insulation performance and strength of about 0.1-0.15 ㎉ / mh ℃ other than the long construction period.

Therefore, there is a continuing need for alternative materials for new materials that can solve the problem of foamed concrete.

It is an object of the present invention to provide a novel interlayer composition which is lighter than foam concrete and can reduce the load on a building while providing good thermal insulation and sound insulation.

Another object of the present invention is to provide an interlayer structure comprising a new interlayer composition which is lighter than foam concrete and can reduce the load on the building, while having good insulation and sound insulation.

It is still another object of the present invention to provide a method for producing a new interlayer composition which is lighter than foam concrete and can reduce the load on the building, while having good thermal insulation and sound insulation.

It is still another object of the present invention to provide a building construction method having a new interlayer structure which is lighter than foam concrete and can reduce the load on a building, while having good insulation and sound insulation.

To solve the above problem,

The present invention provides an interlayer floor structure comprising a light cork layer composed mainly of cork.

In addition, the present invention in one aspect,

Concrete floor;

A light cork layer mainly composed of cork formed on the concrete layer;

A mortar layer formed on the lightweight cork layer; and

A finishing layer formed on the mortar layer

It provides an interlayer floor structure comprising a.

In another aspect, the present invention,

It provides an interlayer floor structure construction method comprising the step of mixing and curing the cork and binder in the concrete layer.

In another aspect, the present invention,

There is provided a building structure, characterized in that a light cork layer mainly composed of cork chips is formed between layers.

In the present invention, the cork used in the manufacture of the lightweight cork layer is preferably used cork chips processed cork in the form of chips, products of 0.1-10 mm average diameter, preferably 1-5 mm average diameter Preference is given to using. Cork to manufacture the cork chip is a protective tissue made in the periphery of the stem or root of the plant growing overweight (肥大 生長), it is preferable to use a cork that is naturally produced to form a lightweight interlayer structure Do.

In the present invention, the lightweight cork layer may be prepared by mixing cork chips with a binder and curing.

In the practice of the present invention, the mixture of the cork chip and the binder which is laid and cured in the concrete layer is in the range of 50-99% by weight, preferably 60-95% by weight, more preferably 65-90% by weight of the cork chip. It is preferably used as. When the amount of cork chips is small, it is difficult to provide a light cork layer, and when the amount of cork chips is too large, it is difficult to maintain the mechanical strength.

In the practice of the present invention, in addition to the cork chip and the binder, the lightweight cork layer may further include various materials in a range that does not compromise the weight and mechanical strength of the light weight. For example, the elastic layer may further include environmentally friendly materials such as charcoal, tourmaline, and anion generating stones in the range of maintaining the mechanical strength or elasticity of the lightweight cork layer, preferably 100 wt% of the cork chip and binder mixture. It is preferable to use in the range of 1-20 weight part with respect to a part.

In the present invention, the lightweight cork layer may further include an additional elastic material in the cork chip and binder mixture. The additional elastic material may further include conventionally known rubbers such as urethane chips, EPDM chips, and the like. In the practice of the present invention, the elastic material may be used in the range of 1 to 95 parts by weight based on 100 parts by weight of the cork and the binder used in the lightweight cork layer, and further includes the same amount of rubber chips as the cork chip used as an example. Can be used.

In the practice of the present invention, the lightweight cork layer may be directly laid on the concrete layer and cured, and may also be cured after forming a primer layer such as urethane primer on the concrete layer for firm adhesion with the concrete layer. have.

In the present invention, the binder used together with the cork chip may use a conventional resin binder, preferably a polyurethane binder. The polyurethane binder may be a one-component or two-component urethane binder. There is no particular limitation as long as the binder can be cured to provide sufficient bonding force to the cork chip.

In the present invention, the lightweight cork layer is to replace the foam concrete layer formed in the concrete layer, but does not limit the use of the foam concrete. For example, in the practice of the present invention, the lightweight cork layer may be constructed to replace a part of the foam concrete layer. As an example, when foam concrete is formed to a thickness of about 50 mm, it may be used as a foam concrete layer having a thickness of 25 mm and a light cork layer having a thickness of 25 mm.

In addition, in the present invention, the lightweight cork layer may be used as an interlayer noise prevention layer as a kind of lightweight elastic layer. Accordingly, the interlayer noise protection layer formed on the upper part of the mortar layer may be unnecessary by the construction of the light cork layer, and when the construction is performed together with the noise prevention layer, it is possible to provide a sufficient interlayer noise prevention effect to the building. In addition, it may be formed on the mortar layer and used as an interlayer noise prevention layer. In this case, the lightweight cork layer may replace the foam concrete layer, and alternatively, foam concrete may be used as it is.

In the present invention, the lightweight cork layer is mixed with a binder on the concrete floor layer in the field, and then can be installed by compacting through a machine such as a compactor. In addition, in the present invention, the lightweight cork layer is formed by pouring a mixture of cork chips and a binder into a mold of a certain mold, for example, a flat mold, and curing it, and then forming a lightweight cork board member manufactured by demolding the concrete layer. Can be constructed. In a preferred embodiment of the invention, the lightweight corkboard member is a lightweight corkboard.

In the present invention, the structure in which the lightweight cork layer may be constructed or used is not particularly limited as long as it includes an interlayer structure, concrete, reinforced concrete. It can be used as an interlayer structure of various structures, such as steel structures, wooden structures, or wall structures.

In the present invention, the thickness of the lightweight cork layer can be selected by those skilled in the art according to various purposes of use, preferably less than 50 mm.

In order to provide the interlayer structure of the present invention, a primer applying step; Cork chip composition application step; There is provided a building construction method comprising a curing step.

In the present invention, the concrete layer, mortar layer, or interlayer noise prevention layer, finishing layer, etc. can be constructed by a conventional construction method and there is no particular limitation. In addition, the construction can be omitted depending on the construction of the lightweight cork layer according to the present invention,

According to the present invention, an interlayer composition using a cork layer which is lighter than foam concrete and can reduce the load on a building while having good heat insulation and sound insulation is provided.

In addition, the present invention provides a new interlayer structure and a building having the same, which is lighter than the foam concrete and can reduce the load on the building while having a light insulation and soundproof cork layer.

In addition, the load of the building is reduced according to the present invention, it is possible to build a higher-floor building from the same base and material, and in the same sense it is possible to build a more solid foundation for the same floor.

Hereinafter, the present invention will be described in detail through examples.

Example 1.

As shown in FIG. 1, 100 kg of cork chips having an average diameter of 2 mm were mixed with 30 kg of a polyurethane binder (hard chemical) in a concrete layer, and cured to 50 mm thickness for 15 hours to form a light cork layer. Mortar was formed 40 mm thick in the lightweight cork layer, and a finishing layer was formed 10 mm thick thereon.

Example 2.

As shown in Figure 2, after forming a lightweight concrete layer to a thickness of 25mm in the concrete layer, 100 kg of cork chips with an average diameter of 4mm is mixed with 30 kg of polyurethane binder (hard chemistry), 15 to 25 mm thick It hardened | cured in time and the lightweight cork layer was formed. Mortar was formed 40 mm thick in the lightweight cork layer, and a finishing layer was formed 10 mm thick thereon.

Example 3

As shown in FIG. 3, a light cork is laid on a concrete layer by laying a lightweight cork board prepared by curing a raw material of 100 kg of cork chips having an average diameter of 3 mm and 30 kg of a polyurethane binder (hard chemical) to a thickness of 50 mm. The layer was constructed. Mortar was formed in the lightweight cork layer to a thickness of 40 mm, and a finishing layer was formed thereon to a thickness of 10 mm.

Comparative Example 1

A lightweight concrete layer was formed in the concrete layer to a thickness of 50 mm, mortar was formed to a thickness of 40 mm, and a finishing layer was formed thereon to a thickness of 10 mm.

Table 1 shows the physical properties of the lightweight cork layer and the lightweight concrete layer formed in Examples 1-3 and Comparative Example 1.

Remarks Weight (g) Example 1 0.215 Example 2 0.357 Example 3 0.227 Comparative Example 1 0.510

Weight is weight per cm 3.

1 is a cross-sectional view of an interlayer structure according to an embodiment of the present invention.

2 is a cross-sectional view of an interlayer structure according to another embodiment of the present invention.

3 is a cross-sectional view of an interlayer structure according to another embodiment of the present invention.

Claims (7)

Concrete floor; An elastic layer composed mainly of cork formed on the concrete layer; A mortar layer formed on the elastic layer; and A finishing layer formed on the mortar layer Interlayer floor structure comprising a. 3. The interlayer floor structure according to claim 2, wherein the elastic layer is formed by mixing cork chips with a binder to cure.  The interlayer floor structure according to claim 1 or 2, wherein the elastic layer is made of 50-99% by weight of cork and 1-50% by weight of the binder. An interlayer floor structure, characterized in that an elastic layer composed mainly of cork is formed. 5. The interlayer floor structure according to claim 4, wherein the elastic layer is formed by mixing cork chips with a binder and curing the binder. The interlayer floor structure according to claim 4, wherein the elastic layer is an interlayer noise prevention layer. Method of building an interlayer floor structure comprising the step of mixing and laying the cork and binder in the concrete layer.

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