KR102363685B1 - A constructing method of a apartment slab for deminishing interfloor noise - Google Patents

Abstract

The present invention relates to a method of constructing a slab between floors in an apartment to minimize a noise between floors. The method of constructing a slab between floors in an apartment comprises a step of arranging a tensile force reinforcement (100) for reinforcing the tensile force of concrete, wherein the tensile force reinforcement (100) is a glass fiber reinforced plastic.

Description

{A constructing method of a apartment slab for deminishing interfloor noise}

The present invention relates to an apartment inter-floor slab construction method capable of minimizing noise between floors in an apartment building, and instead of using rebar as a tensile strength reinforcing material for concrete when constructing an apartment inter-floor slab, by replacing it with a tensile strength reinforcing material having a lower density but higher tensile strength than rebar , relates to an apartment inter-floor slab construction method that can minimize the noise between floors in an apartment by minimizing the intensity of vibrations generated on the upper floor and propagated to the lower floors.

A multi-family apartment is a space in which several households reside in a building. The concrete floor and the lower ceiling are connected with a single slab between the floors, so that when an impact sound occurs from the upper floor, it is easily propagated to the lower floor. Conflicts occur between floors below and above, and social interest is emerging in order to solve the problems caused by noise between floors in apartments.

Let's look at Korean Utility Model Registration No. 20-0421088, which is a prior art for preventing noise between floors in an apartment.

The prior art reinforces/forms a sound-absorbing and waterproof layer in which a honeycomb-structured sound-insulating network and a waterproof sheet are combined to absorb the impact sound transmitted from the heating and sound insulation layer, and absorbs/buffers the sound through the lattice-shaped wood supported on the lower layer to make impact noise. It relates to an invention in which direct vibration and impact noise are directly vibration-proofed by reducing/absorbing vibration and impact noise transmitted to the slab as a vibration-proof rubber built into the bottom C channel.

However, according to the prior art, the noise between floors is minimized by configuring a separate noise prevention structure that is laminated on the slab separately from the slab, rather than depending on the configuration of the slab itself in alleviating or extinguishing the vibration that is the cause of the noise between floors. In addition, since a separate complex structure is required, there is a problem in that the time and cost of the operation are consumed more.

Accordingly, there is an urgent need for research on a method to minimize noise between floors during the self-construction of inter-floor slabs in apartments.

In order to solve the problems according to the prior art described above, it is possible to reduce or minimize the intensity of vibration, which is a cause of inter-floor noise, during the construction of an inter-floor slab in an apartment without adding a separate structure or device to minimize the noise between floors in an apartment. We would like to propose a slab construction method between floors in an apartment.

In order to solve the problems of the prior art described above, the method for constructing an apartment interfloor slab according to the present invention includes arranging a tensile strength reinforcing material 100 for reinforcing the tensile force of concrete, the tensile force reinforcing material (100) may be a glass fiber reinforced plastic (Glass Fiber Reinforced Plastic).

Preferably, the tensile strength reinforcing material 100 may be in the form of a hollow.

Preferably, a thread may be formed on the outer circumferential surface of the tensile force reinforcing material 100 .

Preferably, a plurality of protrusions 120 of a constant thickness extending along the outer circumferential surface are formed on the outer circumferential surface of the tensile force reinforcing material 100 , and the plurality of protrusions 120 may be formed at regular intervals from each other.

Preferably, the protrusion 120 is formed to extend in an inclined state at an angle of less than 90 degrees or more than 90 degrees with respect to the longitudinal direction of the tensile force reinforcing material 100,

Based on a reference line extending in a direction perpendicular to the longitudinal direction of the tensile force reinforcing material at a predetermined point of the tensile force reinforcing material 100, any one of the plurality of protruding portions 120 is extended. The shape and the extended shape of the other protrusion 120 adjacent to the one protrusion 120 may be symmetric with respect to the reference line.
As the one protrusion 120 extends, it is formed to extend close to the other protrusion 120 extending in the direction in which the one protrusion 120 is located, and at the same time, the one protrusion ( 120) is formed to extend away from another protrusion 120 positioned in a direction symmetrical to the direction in which the other protrusion 120 is positioned, and the one protrusion 120 is It is formed to extend without contacting the other protrusion 120 and the other protrusion 120,
When the one protrusion 120 maintains the closest distance to the other protrusion 120, the one protrusion 120 maintains the space farthest from the other protrusion 120, ,
The distance between the one protrusion 120 and the other protrusion 120 when the one protrusion 120 is closest to the other protrusion 120 is, 120) is less than 0.5 times the distance between the one protrusion 120 and the other protrusion 120 when the other protrusion 120 is furthest away,
The protrusion 120 is formed to extend in an inclined state with respect to the longitudinal direction of the tensile force reinforcing material 100 , and the protruding portion 120 is inclined in one direction along the outer surface of the tensile force reinforcing material 100 . After extending in the state, the protrusion 120 may be formed to extend while being bent in a direction opposite to the one direction at any point between the upper end and the lower end of the tensile force reinforcing material 100 .

Due to the above-mentioned problem solving means, instead of using rebar as a reinforcing material for reinforcing the tensile force of concrete, by using a glass fiber reinforced plastic having a lower density than rebar but higher tensile force, the amplitude of propagating vibration is minimized, or glass fiber Inter-floor noise can be minimized by minimizing the intensity of vibration due to destructive interference generated according to the shape of the outer peripheral surface of the reinforced plastic.

1 is a view showing a state in which tension reinforcement materials are arranged in an apartment inter-floor slab construction method according to the present invention.
2 is a view showing various embodiments of the tensile strength reinforcement in the apartment inter-floor slab construction method according to the present invention.

Hereinafter, preferred embodiments of the method according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

It will be described with reference to FIG. 1 .

According to the apartment interfloor slab construction method according to the present invention, glass fiber reinforced plastic may be used instead of the reinforcing bar used as the tensile strength reinforcing material of concrete during the construction of the apartment interfloor slab.

The physical properties of reinforcing bars and glass fiber reinforced plastics will be investigated.

The density of the steel rebar used as the tensile force reinforcing material is known to be about 6.8 g/cm ³ , and the density of the glass fiber reinforced plastic used as the tensile force reinforcing material 100 in the present invention is 1.9 to 2.2 g/cm ³ It is known . It is known that the density of rebar is three times higher than that of glass-reinforced plastic.

Furthermore, the tensile strength of steel rebar is 500 to 800Mpa, but the tensile strength of glass-reinforced plastic is known to be 600-1,000Mpa. It is known to be twice as high.

The intensity of vibration is proportional to the magnitude of the propagation speed and amplitude of vibration, and the magnitude of the propagation speed and amplitude of vibration is proportional to the density of the material. The higher the density of the material, the faster the propagation speed of vibration. That is, the lower the density of the material, the lower the intensity of the vibration.

Since the density of glass fiber reinforced plastic is about 1/3 lower than that of reinforcing bars, the propagation speed is slower than that of reinforcing bars and the amplitude is smaller than that of reinforcing bars even for vibrations caused by the same impact. That is, the intensity of the vibration transmitted to the lower floor is rapidly reduced to minimize noise between floors.

Furthermore, the glass fiber-reinforced plastic according to the present invention may be in the form of a hollow formed with an empty space inside. Therefore, as the density of the hollow shape is lowered, the intensity of the vibration is further lowered. In addition, the inner side is formed as an empty space, and during the process of transmission of vibration, the effect of providing vibration isolation or absorbing vibration is exhibited while passing through the inner empty space.

It will be described with reference to FIG. 2 .

A thread may be formed on the outer circumferential surface of the tensile force reinforcing material 100 according to the present invention (FIG. 2 (a)), or a plurality of protrusions 120 of a certain thickness extending along the outer circumferential surface on the outer circumferential surface of the tensile force reinforcing material 100 can be formed with The plurality of protrusions 120 may be formed to be spaced apart from each other at regular intervals (FIGS. 2(b) and (c)).

These protrusions 120 may be formed to extend in an inclined state at a constant angle of less than 90 degrees or more than 90 degrees with respect to the longitudinal direction of the tensile force reinforcing material 100 .

Based on a reference line extending in a direction perpendicular to the longitudinal direction of the tensile force reinforcing material 100 at a predetermined point of the tensile force reinforcing material 100 , the extended form of any one of the plurality of protrusions 120 , and any one The extended shape of the other protrusion adjacent to the protrusion may be symmetrical with respect to the reference line.

As mentioned above, when vibrations due to the impact applied from the upper floors propagate from top to bottom, the amplitude decreases and the propagation speed becomes slower as it propagates along the glass fiber-reinforced plastic, which has a lower density than the reinforcing bars, as described above. same.

In addition to this, the inside of the process propagating along the hollow glass fiber reinforced plastic may be dustproofed or vibration may be absorbed while passing through the hollow of the empty space.

Furthermore, when vibration due to the impact applied from the upper floor is propagated in the vertical direction from top to bottom, the screw thread or protrusion extends in an inclined state that is less than 90 degrees or more than 90 degrees rather than the vertical direction in which the vibration is transmitted. The phases of the vibrations dispersed from the upper surface of the fiber-reinforced plastic to the lower surface through the threads or the protrusions 120 are inevitably different from each other.

Accordingly, when vibrations are combined again on the lower surface of the glass fiber-reinforced plastic, the possibility of destructive interference rather than reinforcing interference increases, so that the amplitude and the like are lowered and the intensity of the vibration can be further lowered.

Furthermore, as shown in (c) of FIG. 2 , the protrusion 120 is formed so that the adjacent protrusions 120 are symmetrical to each other with the vertical direction of a certain point as the reference line, and the vibration is further dispersed and propagated, and again the glass fiber When vibrations are combined again on the lower surface of the reinforced plastic, the possibility of destructive interference becomes greater, and the strength of vibration can be further lowered.

As a result, when the same impact is applied from the upper floor, the intensity of vibration propagating to the lower floor is lower in the glass fiber reinforced plastic with low density than in the high density reinforcing bar (the tensile strength is stronger in the glass reinforced plastic), and furthermore, the thread or regular spacing The intensity of the vibration transmitted to the lower layer is further lowered due to destructive interference caused by the protrusions 120 formed as ? Noise between floors can be minimized.

In the above, the present specification has been described with reference to the embodiments shown in the drawings so that those skilled in the art can easily understand and reproduce the present invention, but these are merely exemplary, and those skilled in the art can make various modifications and equivalent other modifications from the embodiments of the present invention. It will be appreciated that embodiments are possible. Therefore, the protection scope of the present invention should be defined by the claims.

100: tensile strength reinforcement
120: protrusion

Claims (5)

In the apartment interfloor slab construction method comprising the step of arranging a tensile strength reinforcement 100 for reinforcing the tensile strength of concrete,
The tensile strength reinforcing material 100 is a glass fiber reinforced plastic (Glass Fiber Reinforced Plastic),
The tensile strength reinforcing material 100 is in the form of a hollow,
A plurality of protrusions 120 of a certain thickness extending along the outer circumferential surface are formed on the outer circumferential surface of the tensile force reinforcing material 100,
The plurality of protrusions 120 are formed at regular intervals from each other,
The protrusion 120 is formed to extend in an inclined state at an angle of less than 90 degrees or more than 90 degrees based on the longitudinal direction of the tensile force reinforcing material 100,
Based on a reference line extending in a direction perpendicular to the longitudinal direction of the tensile force reinforcing material at a predetermined point of the tensile force reinforcing material 100, any one of the plurality of protruding portions 120 is extended. The shape and the extended shape of the other protrusion 120 adjacent to the one protrusion 120 are symmetrical to each other with respect to the reference line,
As the one protrusion 120 extends, it is formed to extend close to the other protrusion 120 extending in the direction in which the one protrusion 120 is located, and at the same time, the one protrusion ( 120) is formed to extend away from another protrusion 120 positioned in a direction symmetrical to the direction in which the other protrusion 120 is positioned, and the one protrusion 120 is It is formed to extend without contacting the other protrusion 120 and the other protrusion 120,
When the one protrusion 120 maintains the closest distance to the other protrusion 120, the one protrusion 120 maintains the space farthest from the other protrusion 120, ,
The distance between the one protrusion 120 and the other protrusion 120 when the one protrusion 120 is closest to the other protrusion 120 is, 120) is less than 0.5 times the distance between the one protrusion 120 and the other protrusion 120 when the other protrusion 120 is furthest away,
The protrusion 120 is formed to extend in an inclined state with respect to the longitudinal direction of the tensile force reinforcing material 100 , and the protruding portion 120 is inclined in one direction along the outer surface of the tensile force reinforcing material 100 . After extending to the state, the protrusion 120 is bent in a direction opposite to the one direction at an arbitrary point between the upper end and the lower end of the tensile force reinforcing material 100, and the apartment interfloor slab construction method is formed.
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