KR102188787B1 - Floor structure of building - Google Patents

Abstract

The present invention relates to an inter-floor structure of a building using a repulsive force. According to the present invention, the inter-floor structure of a building using a repulsive force comprises: a wall structure part (100); a floor structure part (200); a floor structure movement range determining coupling part (300) formed at one side of the wall structure part (100); and a wall structure separation prevention coupling part (400) formed at one side of the floor structure part (200). According to the present invention, inter-floor noise can be reduced.

Description

Floor structure of building using repulsive force

The present invention relates to an interlayer structure of a building using repulsive force, and more particularly, by creating a space by being spaced apart from each other by a repulsive force between the layers and the layers of the building in which the layers are formed, the interlayer noise due to the generated constant space In addition to prevention, it relates to an interlayer structure of a building using a repulsive force that causes a seismic effect to occur.

Currently, multi-storey apartment houses have a lot of quarrels between neighbors due to inter-floor noise between the upper and lower floors, and when most buildings are constructed to prevent this, a means for inter-floor noise blocking is installed on the floor.

In general, the interfloor noise refers to the noise pollution mainly generated in common residential spaces such as multi-family houses and apartments, and refers to the sound of jumping, footsteps, turning off furniture, and the sound generated from electronic devices, and such interfloor noise is large, light and It can be divided into hard light impact sound, heavy and heavy impact sound, and air transmission sound, which is a light sound transmitted through the aircraft.

As of 2012, according to the'Regulations on Housing Construction Standards', the floor impact sound between each floor is 58 [dB] or less for the light impact sound (floor impact sound caused by a relatively light and hard impact), and the weight impact sound (floor impact sound due to a heavy and soft impact) is 50 It stipulates that the structure should be less than [dB].

For these regulations, generally, 30 [mm] of sound insulation material having a buffering force such as rubber is laid on the floor of the floor that divides the upper and lower floors of the apartment, and for fixing and insulating the sound insulation material on the upper floor. After foaming the aerated concrete layer to about 40 [mm], a heating coil having a diameter of 15 to 20 [mm] is fixed to the top of the pipe, and the mortar layer is 40 [mm] to finish the exterior while wrapping the pipe coil. ] It is built by forming 10[mm] finishing decorative materials such as wood as the upper layer of the mortar layer.

Nevertheless, the current problem of interfloor noise cannot be completely solved, and the floor material is gradually getting thicker, or, as a result, a mat to prevent inter-floor noise is laid out in residential spaces.

Therefore, the present invention, in addition to the floor material, as well as inter-floor noise, by allowing a space in which vibration transmitted from the outside is decomposed and absorbed is separately formed,

It is intended to provide an interlayer structure that reduces interlayer noise and exhibits seismic performance.

Thus, as a prior art for the interlayer structure of the building using repulsive force,

As shown in Figure 6 (a), the "floor sound insulation structure for preventing inter-floor noise and its construction method" of Korean Patent Publication No. 10-1624963,

A slab base layer, a sound insulation layer laminated by mixing crushed ethylene-vinylacetate copolymer (EVA) and polyethylene terephthalate (PET) at a certain ratio on the upper surface of the base layer, and the sound insulation layer provided on the upper surface of the sound insulation layer to prevent penetration of moisture and foreign substances. Including a penetration-prevention layer made of a waterproof sheet material, a mesh layer in the form of a net structure laminated on the upper surface of the penetration-prevention layer, and a mortar layer finish poured on the upper surface of the mesh layer

It relates to a floor sound insulation structure and construction method for preventing inter-floor noise.

Another prior art is,

As shown in (b) of Figure 6, as the "interlayer sound insulation floor structure of the building" in Korean Patent Publication No. 10-1679040,

In the interlayer sound insulation floor structure of a building including a plurality of unit panels and a support supporter for supporting the unit panels by being spaced apart from the floor, the unit panel is a panel seating portion on which a patterned finish panel is seated, and in the panel seating portion. A buffer chamber that reduces noise by a closed space, forms the bottom of the buffer chamber, and reduces noise in a form that converts the noise introduced into the buffer chamber into vibrational motion, and discharges the air from the buffer chamber. A diaphragm with a ball, a cardboard seal that is formed in a wave shape so that the diaphragm flexibly vibrates according to noise, elastically seals the circumference of the diaphragm and the open bottom of the buffer chamber, and seals the discharge hole and presses a preset pressure When the above impact occurs, a discharge valve that opens the discharge hole to prevent the occurrence of a resonance phenomenon of the buffer chamber, and a noise reduction unit installed below the discharge valve to reduce noise discharged through the discharge hole Including, so that the noise generated by the impact can be effectively extinguished by vibrating motion and sealing,

It is related to the sound insulation floor structure between floors of architecture.

As described above, the prior art 1 to the prior art 2 are similar and identical technical fields to the present invention, and some similar and identical technical concepts exist in the problems and effects to be solved by the invention, but the solution means for solving them The technical idea is different.

In other words, there is a difference in technical characteristics in the specific solution (element) of the invention for solving the problem to be solved by the invention and exerting its effect.

For example, the invention of the interlayer structure of a conventional building including Prior Art 1 to Prior Art 2, as a method to reduce inter-floor noise, mostly uses a sound insulation material that blocks noise or a floor material with a cushion feeling that absorbs noise. While forming a layered structure, in the present invention, a certain space is created between layers using repulsive force, so that a building is constructed by blocking and absorbing noise and vibration between layers.

Therefore, the present invention is a problem to be solved (object of the invention) of the present invention only, different from the technology related to the interlayer structure for the conventional building including the prior art 1 to the prior art 2, a solution to solve it Based on the means (components) and the effects exerted by solving them, the technical characteristics are attempted.

Republic of Korea Patent Publication No. 10-1624963 (registered on May 23, 2016) Republic of Korea Patent Publication No. 10-1679040 (registered on November 17, 2016)

Accordingly, the present invention was conceived to solve the above-described conventional problem,

The purpose of building construction is to provide an interlayer structure in which a certain space is created and maintained by repulsive force between floors and floors.

Another object of the present invention,

Due to the constant space between the floor and the floor created by the repulsive force, it includes seismic performance that prevents deformation and damage of the building by absorbing and canceling the vibration transmitted from the outside as well as reducing inter-floor noise. Its purpose is to provide the interlayer structure of architecture.

The present invention for achieving the above object is conceived to achieve the problem to be solved,

In the interlayer structure of the building using repulsive force,

A wall structure unit that becomes the outer and inner wall of the building;

A layered structure part that is stacked at regular intervals inside the wall structure part to form a layer;

A layer structure moving range fixed coupling part formed on one side of the wall structure part and combined with the layer structure part to prevent separation of the layer structure part;

It is formed on one side of the layer structure portion, is coupled to the layer structure moving range fixed coupling portion, the wall structure separation preventing coupling portion for preventing the separation of the layer structure portion from the wall structure portion; consisting of,

It is characterized in that the layered structure parts formed of layers inside the wall structure part generate a noise vibration absorbing repulsive force generating layer module in a certain space by repulsive force of each other.

At this time, the layered structure part,

A base plate module that becomes a floor or ceiling;

A magnet plate module stacked and coupled to a lower portion when the base plate module is placed on the floor, and on an upper portion when the base plate module is placed on the ceiling;

A noise vibration absorption repulsive force generating layer module generated due to the opposing relationship between the magnetic plate module stacked and coupled under the base plate module serving as a floor, and the magneck plate module stacked and coupled above the base plate module serving as the ceiling; Consists of,

The noise and vibration absorption repulsive force generation layer module reduces inter-floor noise and provides excellent seismic performance.

The noise and vibration absorption repulsive force generation layer module,

It is characterized in that it is generated due to the S pole of the magnetic plate module.

On the other hand, prior to this specification, terms or words used in the claims for patent registration should not be construed as being limited to their usual or dictionary meanings, and the inventor has the concept of terms in order to explain his own invention in the best way. Based on the principle that can be appropriately defined, it should be interpreted as a meaning and concept consistent with the technical idea of the present invention.

Accordingly, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all the technical ideas of the present invention, so various alternatives that can be substituted for them at the time of application It should be understood that there may be equivalents and variations.

According to the present invention as described above in the above configuration and operation,

1. When building a building, a certain space is created by repulsive force between floors and floors, so that noise is decomposed within the created space, thereby reducing inter-floor noise.

That is, since the noise generated from the lower and upper layers is decomposed within a certain space generated by the repulsive force, the interlayer noise reduction effect is exhibited.

2. A certain space between the floor and the floor generated by the repulsive force absorbs and cancels the vibration transmitted from the outside to the building, and prevents the deformation and damage of the building.

In other words, it protects the building from natural phenomena (especially earthquakes) by allowing the building to exhibit excellent seismic performance.

That is, due to the characteristics of the interlayer structure of the present invention, a certain space is created between layers and, due to the generated certain space, it is a very effective invention to reduce inter-floor noise and exhibit the effect of seismic performance.

1 is a diagram showing the configuration of an interlayer structure of a building using a repulsive force of the present invention.
Figure 2 shows a conceptual diagram of the interlayer structure of the building using the repulsive force of the present invention.
3 is a schematic view showing an embodiment of a layer structure part among the components of an interlayer structure of a building using a repulsive force according to the present invention.
4 is a schematic view of an embodiment of a layer structure moving range determination coupling part applied to a wall structure part and a wall structure separation prevention coupling part applied to a layer structure part, among components of an interlayer structure using a repulsive force of the present invention.
5 is a schematic view of an embodiment of a noise vibration absorption repulsive force generating layer module formed on a layer structure, among the components of an interlayer structure using a repulsive force of the present invention.
Figure 6 shows a representative diagram of the prior art for the interlayer structure of the building using the repulsive force of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the functions, configurations, and actions of the interlayer structure (1) using the repulsive force of the present invention.

FIG. 1 is a diagram showing a configuration diagram of an interlayered structure using a repulsive force of the inventor, and FIG. 2 is a conceptual diagram of an interlayered structure of a building using a repulsive force of an inventor.

1 to 2, the present invention,

In the architectural interlayer structure (1) using repulsive force,

Outside of the building, the wall structure unit 100 that becomes the inner wall;

A layer structure part 200 for forming a layer by being stacked at a predetermined interval inside the wall structure part 100;

A layer structure moving range fixed coupling part 300 formed on one side of the wall structure part 100 and combined with the layer structure part 200 to prevent separation of the layer structure part 200;

It is formed on one side of the layer structure part 200, is combined with the layer structure moving range fixed coupling part 300, the wall structure separation prevention coupling to prevent the separation of the layer structure part 200 from the wall structure part 100 It consists of;

It is characterized in that the layer structure part 200 formed as a layer inside the wall structure part 100 generates a noise vibration absorption repulsive force generating layer module 230 in a certain space by repulsive force from each other.

That is, the present invention is constructed so that a certain space is formed by repulsive force between the floors of the building (for example, between the ceiling of the lower floor and the floor of the upper floor), so that inter-floor noise and vibration transmitted from the outside are It is about an interlayer structure of a building that extincts and cancels in, thereby exerting the effect of inter-floor noise reduction and seismic performance.

Looking at the present invention in more detail,

First, as described above, the wall structure unit 100 is a component that becomes an outer wall and an inner wall of a building, and corresponds to a basic frame that protects the inner space of the building from the external environment.

The layer structure part 200, which is the main technical feature of the present invention, which forms a layer in the inner space of the wall structure part 100, as shown in FIG. 3,

A base plate module 210 that becomes a floor or ceiling;

A magnet plate module 220 that is laminated and coupled to a lower portion when the base plate module 210 is positioned on the floor, and on an upper portion when the base plate module 210 is positioned on the ceiling;

In the opposite relationship between the magnetic plate module 220 stacked and coupled to the bottom of the base plate module 210 serving as the floor, and the magnetic plate module 220 stacked and coupled to the top of the base plate module 210 serving as the ceiling. Consists of; noise vibration absorption repulsive force generation layer module 230 generated due to;

By the noise vibration absorption repulsive force generation layer module 230, the effect of inter-floor noise reduction and excellent seismic performance is exhibited.

At this time, the wall structure part 100 and the layer structure part 200 are organically combined with each other,

The wall structure part 100 has a layer structure moving range fixed coupling part 300, and the layer structure part 200 has a wall structure separation prevention coupling part 400 formed therein,

The layer structure moving range definite coupling part 300, as shown in FIG. 4,

In an embodiment,

It is formed in a certain arrangement on one side of the inner wall of the wall structure part 100, one side of the wall structure separation prevention coupling part 400 is inserted, the layer structure part 200 is not separated from the wall structure part 100, It is formed with a layer structure moving range determining space module 310; formed in a hole shape having a certain depth and a certain height to be located within the range,

In response,

The wall structure separation prevention coupling part 400,

In an embodiment,

The layer structure part 200 is formed in a certain arrangement on one side of the outer circumferential surface of the layer structure part 200, and is inserted into one side of the layer structure moving range determination coupling part 300, and the layer structure part 200 is not separated from the wall structure part 100. It is formed with a wall structure insertion protrusion module 410 protruding to a certain length so as to be positioned within a specific range,

By inserting and combining the wall structure insertion protrusion module 410 applied to the layer structure part 200 to the floor structure moving range determination space module 310 applied to the wall structure part 100,

Noise generated due to the opposing relationship between the magnet plate module 220 formed in the floor structure part 200 that becomes the ceiling and the magnet plate module 220 formed in the floor structure part 200 that becomes the floor of the upper floor The vibration-absorbing repulsive force generating layer module 230 is stably maintained within a specific range.

In addition, in the present invention, although not shown in the drawing, the Gaussian adjustment unit 500 for measuring and adjusting the strength of the magnetic force of the magnetopan module 220; further includes, is configured,

The noise vibration absorbing repulsive force generating layer module 230 generated by the repulsive force of the magnet plate module 220 may be kept constant.

That is, for example, by forming the magnet plate module 220 as an electromagnet capable of Gaussian adjustment, the strength of the magnetic force of the magnet plate module 220 is adjusted through the Gauss adjustment unit 500, and the noise and vibration generated by the repulsive force are absorbed. The repulsive force generating layer module 230 is always spaced at a uniform interval, so that the teeth are maintained.

At this time, the magneton plate module 220, as in the embodiment shown in Figure 3,

A single layer (Fig. 3 (a)), or divided into zones (Fig. 3 (b)), or a specific arrangement (for example, zigzag, edge, radial shape, etc. can be formed in various ways. ) To form,

When formed as a single layer, the strength of the overall magnetic force of the magnet plate module 220 is configured to be selectively adjustable to the strength of the magnetic force of one area when formed in a region or a specific arrangement,

The noise and vibration absorption repulsive force generation layer module 230 may be kept uniformly at regular intervals at all times.

The Gaussian adjustment unit 500,

A first sensor module 510 positioned and formed on one side of the magnet plate module 220 or one side of the base plate module 210 to measure Gaussian of the magnet plate module 220 in real time;

A second sensor module 520 that measures the separation distance between the floor structure unit 200 serving as the ceiling and the floor unit unit 200 in real time;

Consists of; Gaussian control module 530 for adjusting the strength of the magnetic force of the magnet plate module 220,

It is possible for a manager or a resident living in a building to check and adjust the magnetic force and the separation distance of the noise and vibration absorption repulsive force generation layer module 230 generated on the floor in which they reside in real time.

In addition, to the Gaussian adjustment unit 500,

Real-time information obtained from the first sensor module 510 and the second sensor module 520, and a history in which the strength of the magnetism of the magnetopan module 220 is adjusted through the Gaussian control module 530 (magnetic strength value, adjustment frequency ) To store the database module 540; is further included, configured,

Based on the information acquired in real time from the first sensor module 510 and the second sensor module 520 and the information acquired in real time, the intensity of magnetic force of the magnetopan module 220 is adjusted using the Gauss control module 530 By storing and accumulating information so that it can be used as big data,

It is possible to derive an optimum separation distance of the noise vibration absorption repulsive force generation layer module 230.

Further, the Gaussian adjustment unit 500,

In addition to being able to be directly controlled at the site by a manager or a resident, IoT technology and AI technology are grafted, so that the noise vibration absorbing repulsive force generating layer module 230 at regular intervals is automatically maintained at all times.

On the other hand, the noise vibration absorption repulsive force generation layer module 230, as shown in Figure 5,

It is to be generated due to the S pole of the magnet plate module 220.

In other words, the N pole is positioned toward the space in which a person resides.

This is to use the characteristics of the N-pole to facilitate the flow of energy.

In addition, in addition, although not shown in the drawings, the repulsive power generation layer module (ES) made of a coil between the base plate module 210 and the magnet plate module 220; is further included, configured,

The repulsive force generated in the noise and vibration absorbing repulsive force generating layer module 230 is transmitted to the repulsive force generating layer module (ES), and this is stored as energy (eg, stored in a storage battery), and the energy required for the Gaussian adjusting unit 500 is self-contained. (The energy stored in the storage battery can be used not only to consume the energy required for the Gaussian adjustment unit 500, but also to the energy required for the corresponding residence.)

That is, energy is generated due to the interaction between the repulsive force generated in the noise and vibration absorbing repulsive force generating layer module 230 and the repulsive force generating layer module (ES) made of a coil, and is stored, so that the energy is used where it is needed. I can.

For reference, the term'constant space' described in the present invention,

It means the noise vibration absorption repulsive force generation layer module 230 generated by the repulsive force,

"Specific range" means,

It refers to a range in which the wall structure insertion protrusion module 410 formed in the layer structure part 200 can move freely within a certain height of the layer structure moving range determination space module 310 formed in the wall structure part 100.

In addition, in the present invention, the letter described through'[]' means the unit of the number.

In addition, Figure 3 shown in the present invention,

Among the constituent elements of the interlayer structure of the building using the repulsive force of the present inventor,

Figure 4,

Among the constituent elements of the building interlayer structure using the inventors repulsive force, an embodiment of the layer structure coupling part applied to the wall structure part,

Figure 5,

Among the constituent elements of the construction interlayer structure using the present inventor's repulsive force, an embodiment of a noise vibration absorbing repulsive force generating layer module formed in a layer structure portion is briefly shown.

As described above, it is apparent to those of ordinary skill in the art that the present invention is not limited to the described embodiments, and that various modifications and variations can be made without departing from the spirit and scope of the present invention.

Therefore, since it can be implemented in various forms without departing from the technical idea or main characteristics, the embodiments of the present invention are merely illustrative in all respects and should not be interpreted as limiting, and various modifications may be made.

The present invention relates to an interlayer structure of a building using repulsive force, and can be applied to contribute to the improvement of the building construction industrial field that requires interfloor noise reduction design and seismic design.

1: Structure of the building floor using repulsive force
100: wall structure part 200: layer structure part
210: base plate module 220: magnet plate module
230: noise vibration absorption repulsive force generation layer module 300: layer structure moving range fixed coupling unit
310: floor structure movement range determination space module 400: wall structure separation prevention coupling
410: wall structure insertion and protrusion module 500: Gaussian adjustment unit
510: first sensor module 520: second sensor module
530: Gaussian control module 540: database module
ES: repulsive power generation layer module

Claims (3)

In the architectural interlayer structure (1) using repulsive force,
Outside of the building, the wall structure unit 100 that becomes the inner wall;
A layer structure part 200 for forming a layer by being stacked inside the wall structure part 100 at regular intervals;
A layer structure moving range fixed coupling part 300 formed on one side of the wall structure part 100 and combined with the layer structure part 200 to prevent separation of the layer structure part 200;
It is formed on one side of the layer structure part 200, is combined with the layer structure moving range fixed coupling part 300, the wall structure separation prevention coupling to prevent the separation of the layer structure part 200 from the wall structure part 100 Part 400;
A Gaussian adjustment unit 500 that measures and adjusts the strength of the magnetic force of the magnet plate module 220 so that the noise vibration absorption repulsive force generation layer module 230 generated by the repulsive force of the magnet plate module 220 is kept constant; Consists of,
The layer structure part 200 formed as a layer inside the wall structure part 100 allows the noise vibration absorption repulsive force generation layer module 230 in a certain space to be generated by repulsive force from each other,
The layered structure part 200,
A base plate module 210 that becomes a floor or ceiling;
A magnet plate module 220 that is laminated and coupled to a lower portion when the base plate module 210 is positioned on the floor, and on an upper portion when the base plate module 210 is positioned on the ceiling;
In the opposite relationship between the magnetic plate module 220 stacked and coupled to the bottom of the base plate module 210 serving as the floor, and the magnetic plate module 220 stacked and coupled to the top of the base plate module 210 serving as the ceiling. Consists of; noise vibration absorption repulsive force generation layer module 230 generated due to;
By the noise vibration absorption repulsive force generation layer module 230, the effect of inter-floor noise reduction and excellent seismic performance is exhibited,
Noise vibration absorption repulsive force generation layer module 230,
So that it is generated due to the S pole of the magnetic plate module 220,
The layer structure moving range definite coupling unit 300,
It is formed in a certain arrangement on one side of the inner wall of the wall structure part 100, one side of the wall structure separation prevention coupling part 400 is inserted, the layer structure part 200 is not separated from the wall structure part 100, It is formed with a layer structure moving range determining space module 310; formed in a hole shape having a certain depth and a certain height to be located within the range,
The wall structure separation prevention coupling part 400,
The layer structure part 200 is formed in a certain arrangement on one side of the outer circumferential surface of the layer structure part 200, and is inserted into one side of the layer structure moving range determination coupling part 300, and the layer structure part 200 is not separated from the wall structure part 100. It is formed with a wall structure insertion protrusion module 410 protruding to a predetermined length so as to be positioned within a specific range,
By inserting and combining the wall structure insertion protrusion module 410 applied to the layer structure part 200 to the floor structure moving range determination space module 310 applied to the wall structure part 100,
Noise generated due to the opposing relationship between the magnet plate module 220 formed in the floor structure part 200 that becomes the ceiling and the magnet plate module 220 formed in the floor structure part 200 that becomes the floor of the upper floor To ensure that the vibration-absorbing repulsive force generation layer module 230 is stably maintained within a specific range,
By constructing so that a certain space is formed by repulsive force between floors and floors of the building, inter-floor noise and vibration transmitted from the outside are extinguished and canceled within a certain space, thereby reducing inter-floor noise and exhibiting the effect of seismic performance. Make it possible,
Gaussian adjustment unit 500,
By forming the magnet plate module 220 as a Gaussian adjustable electromagnet, the strength of the magnetic force of the magnet plate module 220 is adjusted through the Gaussian adjusting unit 500, and the noise vibration absorption repulsive force generation layer module 230 generated by the repulsive force ) Are always spaced at even intervals, so that teeth are maintained,
A first sensor module 510 positioned and formed on one side of the magnet plate module 220 or one side of the base plate module 210 to measure Gaussian of the magnet plate module 220 in real time;
A second sensor module 520 that measures the separation distance between the floor structure unit 200 serving as the ceiling and the floor unit unit 200 in real time;
Gauss control module 530 for adjusting the strength of the magnetic force of the magnet plate module 220;
Real-time information obtained from the first sensor module 510 and the second sensor module 520 and the strength of the magnetic force of the magnetopan module 220 through the Gauss control module 530 is adjusted Consists of; a database module 540 for storing,
Allows a manager or a resident living in a building to check and adjust the magnetic force and separation distance of the noise and vibration absorbing repulsive force generating floor module 230 generated in the floor where they live in real time, and the first sensor module 510 and 2 Based on the information acquired in real time from the sensor module 520, by using the Gaussian control module 530 to store and accumulate the information obtained by adjusting the strength of the magnetic force of the magneto-pan module 220 to be used as big data,
In order to derive the optimum separation distance of the noise vibration absorption repulsive force generation layer module 230,
Repulsive power generation layer module (ES) consisting of a coil between the base plate module 210 and the magnet plate module 220; further includes, is configured,
Repulsive force generated in the noise and vibration absorbing repulsive force generating layer module 230 due to the interaction between the repulsive force generated in the noise and vibration absorbing repulsive force generating layer module 230 and the repulsive force generating layer module (ES) made of a coil is generated in the repulsive force generated in the noise and vibration absorbing repulsive force generating layer module 230 It is delivered to the floor module (ES) and stored as energy in a storage battery, so that the energy required for the Gaussian adjustment unit 500 can be supplied by self-generation, as well as the energy required for the corresponding residence. With,
Construction interlayer structure using repulsive force. delete delete

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