KR100786807B1 - floor structure of good sound and thermal performance - Google Patents

Abstract

The present invention relates to an ondol floor structure with improved insulation and sound insulation performance. More specifically, the present invention relates to an ondol floor structure configured to install a material having a predetermined shape made of synthetic polymer resin having excellent insulation and sound insulation on a slab, and to form a small latent reinforcement beam in an upper mortar.

The present invention is an ondol floor structure including a bone-shaped synthetic resin plate installed on the slab, a reinforcing bar provided on the synthetic resin plate, a mortar poured on the synthetic resin plate and the reinforcing bar. The synthetic resin plate is a structure excellent in sound insulation and heat insulating performance, especially when made of EVA.

The present invention provides an on-floor floor structure having excellent heat insulation and sound insulation performance, and the structure is simple and economical and air can be constructed shortly while maintaining insulation and sound insulation requirements without increasing the existing floor thickness. In addition, light and heavy floor impact sound is not transmitted to the lower side without increasing the overall thickness of the floor, thereby absorbing, mitigating and distributing a comfortable living space.

Impact sound, reduction, double bottom, edge, cushioning, dustproof, ondol

Description

Floor structure of good sound and thermal performance with improved sound insulation and insulation

1 is a cross-sectional view of the floor structure of the present invention.

2 is a partial perspective view of the floor structure of the present invention.

<Code Description of Main Parts of Drawing>

1: floor slab 11: corrugated synthetic resin

12: space part 13: reinforcement

14: bone reinforcement 15: piping

16: finishing mortar layer

The present invention relates to an ondol floor structure with improved insulation and sound insulation performance. More specifically, the present invention relates to an ondol floor structure configured to install a material having a predetermined shape made of synthetic polymer resin having excellent insulation and sound insulation on a slab, and to form a small latent reinforcement beam in an upper mortar.

In the case of multi-storey or single-story multi-storey buildings, the upper floor and the lower ceiling share the same floor slab, so various noises generated in the upper floor are transmitted to the lower floor or neighboring households through the floor slab. Has been. This was serious in the multi-unit housing, which is a residential space.In Korea, the Korean government set up a standard on housing construction standards to solve the floor impact sound problem of multi-unit housing. This regulation has been in effect since April 22, 2004. Here, the floor impact sound between floors of the apartment house is divided into light impact sound and heavy impact sound. It means the impact sound caused by heavy and soft impact. In the above regulations, the floor impact sound standard is set to 50 dB or less for the heavy impact sound and 58 dB or less for the light impact sound.

In the construction of a common apartment house, the floor structure should be (1) laying insulation (more than 20 mm) on the concrete slab floor, (2) placing light-weight foam concrete (more than 40 mm) on it and curing curing (3) on it. It has been completed by installing a hot water circulation pipe (4) finishing the curing of the finishing mortar (more than 40㎜) and finishing with the final floor finish. It is possible to change the top and bottom positions of the insulation and lightweight foam concrete, and recently, as the complaints of consumer's complaints about the noise effect between floors and floors have emerged as a social problem, the insulation is replaced with a shockproof soundproof cushion or a separate cushion is added. Is changing.

However, the change in the structure form as described above, although the effect to some extent to reduce the light impact sound was not significantly reduced. Therefore, by increasing the stiffness of the floor slab itself to increase the standard thickness of the slab from 12 ~ 13cm to 18cm or more, which is a method to prevent the slab from vibrating easily, it is still compensated for this, but still heavy impact sound Since it is not possible to reduce the X to below 50dB, the problem of increasing the slab thickness is further increased to meet this criterion.

In addition, the above method causes a problem that the self-weight of the building increases due to the increase of the slab thickness, and furthermore, the height of the floor is inevitably increased to secure the same ceiling height. It was.

On the other hand, in addition to increasing the thickness of the slab as described above as a method for reducing the inter-layer impact sound is formed between the slab and the upper mortar layer (double bottom layer) to form an interlayer buffer layer, which is to pass the interlayer noise directly through the slab There is a double bottom structure to block the However, this general double-floor structure does not reduce the natural frequency of the top plate, but it is known to cause resonance and resonance phenomena in the empty space and worsen the floor shock sound, and the wall and the necessary materials are integrated in close contact with the wall. Because of the conduction and propagation of, it was rather disadvantageous in terms of impact sound reduction effect.

Residential ondol floors must not transmit noise from the upper floor to the lower floor, and the function of preventing the heating heat of the upper floor from being transmitted to the lower floor is required.

An object of the present invention is to provide an ondol floor structure excellent in heat insulation and sound insulation performance.

Another object of the present invention is to provide an on-floor floor structure that is simple in structure and economical and short in air construction while providing insulation and sound insulation requirements without increasing the existing floor thickness.

The present invention is configured to include a bone-shaped synthetic resin plate installed on the slab, reinforcement bar provided on the synthetic resin plate, mortar poured on the synthetic resin plate and the reinforcement bar.

The invention is illustrated by the embodiments shown in the accompanying drawings.

1 is a cross-sectional view of the floor structure of the present invention, Figure 2 is a partial perspective view of the floor structure of the present invention.

The synthetic resin plate is installed on the bottom slab (1). The synthetic resin plate is trapezoidal corrugated. The lower portion of the trapezoidal valleys form a space (12, air pocket) to function to respond to the light impact sound.

As the material of the synthetic resin plate, various materials such as polyurethane and polyethylene may be used. In particular, EVA (Ethylene Vinyl-acetate) is used by foaming or injection. EVA has proven to be lightweight and excellent in thermal insulation. If you use a synthetic resin board made of EVA material does not need to install a separate insulation material does not increase the floor thickness.

It is preferable that the thickness of the synthetic resin board is 25mm, 120mm for one side and the next, 60mm in height, considering the construction and overall floor thickness, and the dimension can be adjusted according to special requirements.

The reinforcing bar 13 is installed on the synthetic resin plate. In addition to controlling the cracking of the mortar to be poured later, the reinforcing bar has a function of making the mortar layer have structural stiffness to transmit and attenuate the impact sound applied to a specific part to the surroundings. Welded wire mesh is the preferred reinforcing bar, but small diameter deformed bar and round bar can be used.

In the bone portion of the synthetic resin plate can be further put the bone reinforcement 14 in the bone direction. If the heavy impact sound is not enough to the surrounding reinforcement 13 is to compensate for this function. The bone reinforcement can be installed selectively or both at the bottom and top of the bone portion. This installation acts as an invisible small beam. When a heavy impact is applied to the hidden beam area, the hidden beam receives it and transmits it to the surrounding mortar and other hidden beams, greatly reducing the impact sound from reaching the floor.

The heating pipe 15 installed on the floor is installed for heating, but may be a function of reinforcing the floor when the material is a steel pipe or a copper pipe.

The finishing mortar 16 is poured on the synthetic resin plate 11 and the reinforcing bar. The finishing mortar fills the valleys and tops of the resin plate. From the slab to the finish, there is a total of 110mm and from the top of the resin plate to the finish, 50mm.

Conventional floor slabs are laid with insulation (20 mm or more) on the concrete slab floor, light weight foam concrete (40 mm or more) is poured on them, a hot water circulation pipe for heating is installed thereon, and a finishing mortar (40 mm or more). After the casting finish curing and proceeds in the order of finishing the final floor finishing material, the process of pouring / curing concrete enters twice. Since the concrete curing required a lot of time, the two-splitting process was a long time. In contrast, the present invention has the advantage that the air is greatly reduced because the mortar is completed in one place.

The present invention provides an on-floor floor structure having excellent heat insulation and sound insulation performance, and the structure is simple and economical and air can be constructed shortly while maintaining insulation and sound insulation requirements without increasing the existing floor thickness. In addition, light and heavy floor impact sound is not transmitted to the lower side without increasing the overall thickness of the floor, thereby absorbing, mitigating and distributing a comfortable living space.

Claims (4)

A bone synthetic resin plate installed on the slab; Reinforcing bars installed on the synthetic resin plate; A mortar poured on the synthetic resin board and reinforcing bars; Ondol floor structure, characterized in that configured to include In claim 1, The bone-shaped synthetic resin board is an ondol floor structure, characterized in that the EVA material In claim 1, Ondol floor structure, characterized in that the bone reinforcement further arranged in the bone direction to the bone portion of the bone synthetic resin plate A bone synthetic resin board is installed on the slab; Installing reinforcing bars and pipes on the synthetic resin plate; Pouring mortar on the synthetic resin plate; Ondol floor construction method characterized in that the construction including

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