JPH0882080A - Floor finish - Google Patents

Abstract

PURPOSE: To enhance the impact noise insulating property of a floor, to prevent a floor face from becoming soft and likely to dent, to make the total thickness of a floor finish as small as possible, and to prevent a surface finish from deflecting as it absorbs moisture. CONSTITUTION: A floor finish to be laid over a floor bed has a surface finish 1 made from a relatively soft material such as wood or synthetic resin and a cushion layer 2 which makes contact with the floor bed 10. A damping layer 3 is provided between the surface finish 1 and the cushion layer 2, the thickness of the surface finish 1 is 6mm or less, and the cushion layer 2 is 1 to 4mm thick and has a static spring constant of 25kg/cm.cm<2> or less for a local load of 100cm<2> .

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a floor finishing material as a building interior material.

[0002]

2. Description of the Related Art Carpets have been the mainstream of conventional floor finishing materials for apartment houses. However, recently, wood floor finishing materials have begun to be reconsidered in terms of hygiene complaints such as occurrence of mites and dust on carpets, and lack of natural feeling. However, when this wood-based finishing material is used as a floor finishing material for condominiums, there is a major drawback that the floor impact sound insulation is poor. That is, the floor impact sound (lightweight floor impact sound) such as the footsteps of the upper floor and the sound of dropping an object is transmitted to the downstairs, causing a noise complaint. Therefore,
A foaming plastic (low-foaming polyethylene foam having a thickness of 2 mm) is attached to the back surface of a wood-based surface finishing material having a thickness of 9 to 12 mm to develop a lightweight floor impact sound. The foam at floor covering which is provided on the lower layer of plastic, since the static spring constant also for local loads of 100 cm ² to form a thickness of the buffer layer to 4mm was 25kg / cm · cm ² greater than the sound insulation performance It was not possible to satisfy the required level (L-55 for light weight impact source). In order to satisfy this required level, by increasing the thickness of the foamed plastic layer applied to the back surface of the surface finishing material to about 15 mm, the static spring constant of the foamed plastic layer for a local load of 100 cm ² is 25 kg / cm · cm. Needed to be ² or less.

Further, a paint is generally applied to the surface of a wood-based surface finishing material, and this paint layer serves as a moisture-proof layer. However, the lower surface of the finishing material is usually coated with a paint. Didn't.

[0004]

The conventional floor finishing material having a foamed cushioning layer of about 6 to 15 mm has a drawback that the floor surface is soft and is easily recessed. As a typical conventional wooden floor finishing material, the thickness of the wooden layer is 7 mm, the thickness of the buffer layer (low-foaming polyethylene foam) is 8 mm, and the total thickness is 15 mm (static spring constant is 70 mm).
kg / cm · cm ² ), which was directly attached to a concrete slab and its light-weight floor impact sound insulation performance was measured. As a result, as shown in a graph 100 in FIG.

Further, since there is no moisture-proof layer on the back surface of the wood-based surface finishing material, the back surface side absorbs moisture and causes the finishing material to warp.

In view of this, the present invention improves the floor impact sound insulation and prevents the floor surface from becoming soft and easily dented, the overall thickness is suppressed as much as possible, and the warp due to moisture absorption of the surface finish material is prevented. It is intended to provide floor finishing materials.

[0007]

In order to achieve the above object, the present invention is a floor finishing material to be spread on a floor substrate, which is a surface finishing material made of a relatively hard material such as wood or synthetic resin. And a buffer layer in contact with the floor base, a damping layer is provided between the surface finishing material and the buffer layer, the thickness of the surface finishing material is 6 mm or less, and the thickness of the buffer layer is 1 to 4 mm. 25 kg / cm ・ for a local load of 100 cm ²
It is formed so as to have a static spring constant of cm ² or less, and a moisture-proof layer is formed on the upper and lower surfaces of the surface finish material.

[0008]

The floor finishing material of the present invention is laid so that the buffer layer is in contact with the floor substrate, and when a floor impact sound is applied to the surface finishing material, sufficient blocking performance is exhibited without impairing walking feeling. Also, with this floor finishing material, since the total thickness can be made 10 mm or less, it is possible to reattach a floor already finished with a carpet or the like. Further, by forming a moisture-proof layer on the upper and lower surfaces of the surface finishing material, the warpage of the surface finishing material is prevented.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A preferred embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 and FIG. 2 show an embodiment of the present invention. A buffer layer 2 is brought into contact with a floor base 10 (concrete slab) via a damping layer 3 on a wood-based surface finishing material 1 such as plywood.
Is pasted. Rubber sponge,
Porous inorganic fibers, low-foaming / low-loss polyethylene foam, polyurethane foam and the like are used. The buffer layer 2 has a static spring constant of 25 kg / cm · cm ² or less for a local load of 100 cm ² at a thickness of 1 to 4 mm. The surface finishing material 1 in this embodiment is constructed by attaching a base plate plywood to the back surface of a wood finishing veneer. The vibration damping layer 3 has a flexible thickness of about 1 to 3 mm, and is made of vinyl chloride, rubber, or asphalt. As the floor base 10, it is possible to lay the floor finishing material of the present invention on a conventional wooden large draw joist type in addition to the concrete slab, and other various floor base structures.

In a floor finishing material in which a damping layer 3 is stuck on the buffer layer 2 and a surface finishing material 1 is stuck on the damping layer 3,
For a local load of 00 cm ² , the buffer layer 2 with a thickness of 4 mm is 8
^{0kg / cm · cm 2 50kg /} cm · cm 2 30kg / cm · cm 2
As a result of using four types having each static spring constant of 20 kg / cm · cm ² , the floor having the buffer layer 2 has a sound insulation performance exceeding L-70, the sinking amount of the floor is 0.5 mm, Exceeds L-60, 1.3 mm, L-57, 2.2
mm was less than L-55 and 2.9 mm. Buffer layer 2
The thickness is formed in 1 to 4 mm, be a 25kg / cm · cm ² or less static spring constant with respect to local loads of 100 cm ² is effective to improve the sound insulation performance.

The thickness of the surface finishing material 1 (the wooden finishing veneer 1A and the base plate plywood 1B) is formed to be 6 mm or less, preferably 2.
The thickness is 5 to 4.5 mm, and the thickness of the buffer layer 2 is 1 to 4 mm. Setting the thickness of the buffer layer 2 to 1 to 4 mm means
The sound insulation performance is improved as the static spring constant is made smaller, but the amount of sinking of the floor is also increased accordingly, so that the thickness of the buffer layer 2 should be set to 1 to 4 mm so as not to sink below this thickness. This is because

The above-mentioned static spring constant is not always constant depending on the material, but varies depending on the hardness, expansion ratio, density, etc. of the material used, and also on the thickness, shape, etc. Therefore, in the present invention, the “static spring constant for a local load of 100 cm ² is 25 kg / cm · cm ² or less” within a range of 1 to 4 mm depending on the type of material used for the buffer layer 2 and the like. It was made. For example, the above-mentioned static spring constant can be obtained with a thickness of 2 mm for a certain material, but 3 mm for another material.
In some cases.

As the surface finish material 1, a relatively hard material such as a synthetic resin material may be selected in addition to the wood material. The advantage of using a wood-based material as the surface finish material 1 is that it has low thermal conductivity and good heat retention, has a relatively high surface hardness and is strong against static load, and has appropriate elasticity after lamination. It has a natural feel and is not a hotbed for house mites, and is easy to clean.

In another embodiment of the present invention shown in FIG. 2, the surface finishing material 1 is made of only a wood-finished veneer 1A, and these are directly adhered to the upper surface of the vibration damping layer 3. As a result, the impact applied to the floor surface is dispersed to each of the wood finishing veneers 1A, so that the sound insulation effect is improved.

FIG. 3 shows another embodiment of the invention in which a moisture-proof layer 4 made of a coating film or a film is formed on the upper and lower surfaces of the surface finishing material 1. Usually, the upper surface 2 of the surface finishing material is coated with urethane or amino alkyd resin paint or the like so that the coating layer is a moisture-proof layer. The side absorbs moisture and causes the surface finishing material 1 to warp. When the moisture-proof layers 4 are formed on the upper and lower surfaces of the wood-based surface finishing material 1, the flatness of the surface finishing material 1 is stabilized and the floor substrate 1 of the entire floor finishing material is formed.
It is also easy to perform the affixing to zero.

The graph shown in FIG. 4 shows the result of measuring the light floor impact sound insulation performance of the conventional product as indicated by reference numeral 100 as described above, and also shows the performance of the embodiment shown in FIG. 1 of the present invention. The measurement result is indicated by reference numeral 20. The embodiment of the present invention shown by reference numeral 20 is a wood-based surface finishing material 1
Was 2.8 mm, the damping layer 3 had a thickness of 1 mm, the buffer layer had a thickness of 2 mm, and the total thickness was 5.8 mm, and was directly attached to a concrete slab.

Lightweight floor impact sound insulation performance is measured according to JIS
Based on A1419, a 500 g steel hammer as a buffer source was dropped on the surface finishing material 1 from a height of 5 cm and measured. Since the impact force is small to block the light floor impact sound, it is sufficient that the thickness of the buffer layer 2 is 1 to 4 mm and the static spring constant is 25 kg / cm · cm ² or less. The greater the thickness of the surface finishing material 1 exceeds 6 mm, the greater the flexural rigidity (bending Young's modulus), the smaller the deflection of the surface finishing material 1 due to the impact applied to the floor, and the higher the resilience. As a result, the cushioning property and shock absorbing property of the lower buffer layer 2 are deteriorated, and the sound insulation performance is reduced. Therefore, the surface finishing material 1
By setting the thickness to be 6 mm or less, the surface finishing material 1 is appropriately deformed (deflected) when an impact is applied to the floor, so that the effect of the lower buffer layer 2 is sufficiently exerted. .

In the measurement results shown in FIG. 4, the conventional product has L
-65, the product of the present invention is L-55, and the sound insulation grade is 2
About half the noise was heard on the rank and hearing.

[0020]

As described above, according to the present invention, a surface finishing material and a buffer layer which comes into contact with the floor substrate are provided, and a vibration damping layer is provided between the surface finishing material and the buffer layer. The thickness of the material is 2 to 6 mm, the thickness of the buffer layer is 1 to 4 mm, and 25 kg / cm for a local load of 100 cm ^2.
・ Since it was formed to have a static spring constant of less than cm ² ,
Since it is possible to commercialize the floor finishing material with a total thickness of 10 mm or less, it is possible to reattach (repair) a floor already finished with a carpet or the like. In addition, it also has excellent light floor impact sound insulation performance without impairing walking sensation. In the present invention, the thickness of each of the surface finish material and the buffer layer is optimized, and the static spring constant of the buffer layer is set to the above value,
The sound insulation performance has been improved to prevent sinking. In addition, the presence of the vibration-damping layer also exerts vibration-damping performance.

In the case where the moisture-proof layers are formed on the upper and lower surfaces of the surface finishing material, the surface finishing material can be prevented from warping and the flatness can be stabilized.

[Brief description of drawings]

FIG. 1 is a sectional view showing a preferred embodiment of the present invention.

FIG. 2 is a perspective view of an embodiment in which a surface finishing material is changed.

FIG. 3 is a cross-sectional view in which anti-vibration layers are formed on the upper and lower surfaces of the surface finish material.

FIG. 4 is a graph showing the results of measuring the light floor impact sound insulation performance of the conventional product and the product of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Surface finishing material 2 Buffer layer 3 Damping layer 4 Moistureproof layer 10 Floor base

Claims (2)

[Claims] 1. A floor finish material to be spread on a floor base material, which comprises a surface finish material made of a relatively hard material such as wood or synthetic resin, and a buffer layer in contact with the floor base material. A damping layer is provided between the buffer layer and the surface finishing material to a thickness of 6 mm or less, and a buffer layer thickness of 1 to 4 mm and 100 cm ²
The floor finishing material is characterized by having a static spring constant of 25 kg / cm · cm ² or less with respect to the local load of. 2. A floor finish material to be spread on a floor base material, which comprises a surface finish material made of a relatively hard material such as wood or synthetic resin and a buffer layer in contact with the floor base material. Moisture-proof layers are formed on the upper and lower surfaces, the thickness of the surface finish material is 6 mm or less, and the thickness of the buffer layer is 1 to 4 mm and 100 cm ²
The floor finishing material is characterized by having a static spring constant of 25 kg / cm · cm ² or less with respect to the local load of.