KR101670794B1 - Floor structure for sound insulation in apartment houses - Google Patents

Abstract

According to the present invention, an inter-floor sound insulation floor structure of an apartment house comprises: a support panel arranged to maintain a gap with an upper surface of a slab dividing a floor of an apartment house, and provided with a plurality of seating grooves disposed on a lower surface thereof; an impact absorbing unit which is disposed between the support panel and the slab, supports the support panel to be moved in a vertical direction, and restricts a downward movement of the support panel to a prescribed value or lower; an impact absorbing mat stacked on an upper surface of the support panel, and provided with a plurality of impact absorbing units continuously formed on a lower surface thereof facing the support panel and a plurality of impact absorbing protrusions continuously formed on an upper surface thereof; a sound insulation sheet stacked on the upper surface of the impact absorbing mat, and formed by stacking an EVA resin pad, a Styrofoam pad, and a sponge pad on top of each other; a cement mortar layer deposited on an upper surface of the sound insulation sheet and impregnated to connect a plurality of hot water pipes to each other; and a surface finishing layer which is stacked on an upper surface of the cement mortar layer and forms an indoor floor of the apartment house. The impact absorbing unit comprises: a support rail seated on the upper surface of the slab; a plurality of elastic blocks arranged on the support rail while maintaining a gap; a case arranged in the gap between the elastic blocks, on which a plurality of support parts are installed to be appeared and disappeared; a fixing operation unit to fix the elastic blocks on the support rail; and a separation unit to relieve a restriction state of the fixing operation unit to switch the elastic blocks to a movable state.

Description

[0001] FLOOR STRUCTURE FOR SOUND INSULATION IN APARTMENT HOUSES [0002]

[0001] The present invention relates to an interlayer sound insulation bottom structure of a multi-unit house, and more particularly, The present invention relates to an interlayer sound insulating floor structure of a multi-storey house which can prevent the transmission of sound, and can reduce the time and cost required for the construction of the sound insulating floor structure.

Generally, a typical construction method of two or more stories such as an apartment or a residential house is performed by constructing a concrete slab according to the number of the buildings, completing the foundation work, and then arranging heating pipes on the concrete slab at regular intervals Gravel and cement mortar with a predetermined thickness.

Thus, slabs dividing layers and layers of multi-layered multi-storey buildings such as apartments, high-rise buildings, etc., are constructed only by concrete, so that vibration due to noise and impact generated in the corresponding layer of the building is directly transmitted through the inter- .

In general, the impact sound applied to the building structure of apartment houses or villas is transmitted to the four sides of the building due to the impact of the person's walking, opening and closing of the door, moving of the equipment, Thereby causing the surface of the building structure to vibrate, as well as being converted into an air transmission sound, which is perceived as noise when it is heard by people around the ear.

For example, a sound such as a falling object is applied to the floor or a sound of moving a chair generates a solid sound, and the sound transmitted through the floor slab to the lower layer is referred to as interlayer noise.

Nowadays, this kind of interstory noise problem is seriously arising in a multi-family house, and the government announced that it will impose a penalty by applying the crime of disturbance of the misdemeanor punishment law to the interstice noise induction act, and even the stranger noise, And the regulations on housing construction standards, etc. have been strengthened and revised.

The above provisions stipulate that floor impact sound between each floor should be less than 58 decibels (dB) for light impact sound, 50 dB (dB) or less for heavy impact sound, or standard floor structure notified by the Minister of Construction and Transportation.

Conventional interlayer floor structures for minimizing the interlayer noise so as to reduce the severely interlayer noise are proposed. In the conventional interlayer floor structure, a lightweight foamed concrete layer is formed on the basis of a concrete slab, A heating pipe and a mortar layer for finishing, and a floor decoration layer made of a decorative material such as monolith, wood, or tile.

However, the above-mentioned interlayer bottom structure is responsible for attenuating the noise by the lightweight foamed concrete layer formed on the concrete slab, but it is not able to properly absorb or block the noise such as the light impact sound and the heavy impact sound.

Therefore, when the building is constructed with such a conventional floor structure, for example, the noise and vibration caused by the impact applied to the floor due to the children running upstairs are directly transmitted to the lower layer, resulting in a significant deterioration in the comfort of the building.

As a result, many kinds of interlayer noise-proofing materials have been developed in order to more effectively block noise or impact. However, since all of them are closely attached to the concrete slab surface of the apartment house, the noise-blocking effect is not significant.

For example, the conventional interlayer noise preventing material has a disadvantage in that noise is not blocked because the lightweight foamed concrete and the mortar are laid on the slab surface of the apartment house mainly by the styrofoam heat insulating material or other synthetic resin foam sheet.

In addition, an interlayer noise preventing material using rubber chips and foamed polyester obtained by pulverizing waste tires has been used, but it has not been popularized because it can not be mass-produced in reality and is not economical.

In other words, waste tires, which are the raw material of rubber bodies, have advantages of easy recycling as well as recycling of resources. However, they are scattered all over the country, so that logistics cost is high in collecting and selective utilization rate due to bead wire The manufacturing cost of the rubber chip is inevitably high.

In order to have such a function as the interlayer noise preventing material of the rubber chip, it is necessary to impregnate tar and to adhere foamed polyester having an appropriate thickness to one side or both sides thereof. However, This is also pointed out as a cause of price increase because it takes a lot of adhesive and it is applied only to some high-grade houses due to expensive unit price, but it is not widely spreaded. Since manufacturing facilities are also not economical, This is not the case.

In addition, the interlayer noise preventing material using the rubber chip and the foamed polyester uses the pore, the restoring force and the elasticity, and the thicker it is, the higher the effect is obtained. Therefore, in order to obtain the noise preventing effect as necessary for the residential use, The interior space is taken away by that much. Since the layered noise preventing material of this structure is divided into plate type due to the characteristics of the material, it is inconvenient for handling and storage because it can not be formed in a long length during manufacture, and construction work is very troublesome .

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Registration No. 10-1323476 (published on October 31, 2013, entitled " Layer-to-Sound Noise Suppression Material for Building, " .

Since the conventional interlayer noise preventing material is interposed between the slab and the bottom finishing material, there is a problem that the impact can not be sufficiently canceled due to the action of compressing or expanding the interlayer noise preventing material when an impact generating the interlayer noise is applied.

Therefore, there is a need for improvement.

In the present invention, the shock that causes the interlayer noise is first canceled by the operation of the buffer portion, the second offset is performed by the buffer mat, the noise transmission is prevented by the sound insulating sheet, and the time and cost The present invention has an object to provide an interlayer sound insulation floor structure of a multi-storeyed house which can reduce the floor space.

The present invention provides a support panel comprising: a support panel which is arranged to maintain a gap from an upper surface of a slab defining a layer of a house and has a plurality of seating grooves on the bottom; A buffer member interposed between the support panel and the slab and movably supporting the support panel in a vertical direction and restraining a downward motion of the support panel to a set value or less; An absorbing mat laminated on an upper surface of the support panel, a plurality of buffer grooves formed continuously on a bottom surface opposite to the support panel, and a plurality of buffer protrusions formed on an upper surface of the buffer mat; A sound insulating sheet laminated on the top surface of the shock absorbing mat and laminated with an EVA resin pad, a styrofoam pad, and a sponge pad; A cement mortar layer laid on an upper surface of the sound insulating sheet and impregnated with a plurality of hot water pipes so as to communicate with each other; And a surface finishing layer laminated on the upper surface of the cement mortar layer and forming an indoor bottom surface of the multi-storey house, wherein the cushioning portion comprises: a supporting rail mounted on the upper surface of the slab; A plurality of elastic blocks arranged on the support rail with a gap therebetween; A case disposed in a space between the elastic blocks and provided with a plurality of supporting members capable of retracting; A fixing operation portion for fixing the elastic block to the support rail; And a separating part for releasing the restraining state of the fixed operating part to switch the elastic block into a flowable state.

In addition, in the center of the case of the present invention, a plurality of elastic members on which a stopper formed on the inner end of the support is installed, and a second protrusion formed on the protrusion guide inner wall of the case, And the protruding guide protrudes outwardly by the elastic member.

The fixing operation portion of the present invention may further include: a restricting projection projecting and retracting from the elastic block into the guide groove portion; A first rail formed on the upper surface of the slab, the guide protrusion being formed to face the restricting projection; And a plurality of fixing holes formed in the guide protrusions to insert the locking protrusions.

The interlayer sound insulation floor structure of the apartment house according to the present invention firstly compensates for the impact of causing the interlayer noise by the operation of the buffer portion and secondly compensates the interlayer noise by the buffer mat, So that it is possible to effectively prevent the interlayer noise from being transmitted through the slab.

In addition, in the inter-layer sound insulation floor structure of the present invention, since the support frame supported by the plurality of support blocks in a vertically movable manner supports the support panel, the support panel is supported without the elastic member having a size covering the entire bottom surface. So that the shock generated by the flow of the support panel can be canceled by the elastic member, thereby effectively preventing the interlayer noise.

In addition, since the plurality of support rods are installed so as to protrude / retract from the case, the support floor is arranged in an upright position so that it can be easily accommodated in the space between the elastic blocks without being installed, There is an advantage that the plate can be easily arranged on the upper side so that the construction of the floor structure can be performed easily.

1 is a plan view showing an interlayer sound insulating floor structure of a multi-unit house according to an embodiment of the present invention.
2 is a cross-sectional view illustrating an interlayer sound insulating floor structure of a multi-unit house according to an embodiment of the present invention.
3 is a perspective view illustrating a buffer portion of an interlayer sound insulating floor structure of a multi-unit house according to an embodiment of the present invention.
FIG. 4 is a cross-sectional view illustrating a support block and a supporting structure of a bottom floor structure of a floor panel of a multi-unit house according to an embodiment of the present invention.
5 is a perspective view illustrating a case and a support of an interlayer sound insulation floor structure of a multi-unit house according to an embodiment of the present invention.
6 is a cross-sectional view illustrating a case and a support of an interlayer sound insulation floor structure of a multi-unit house according to an embodiment of the present invention.
7 is a view illustrating a hot water piping connection structure of an interlayer sound insulating floor structure of a multi-unit house according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of an interlayer sound insulation floor structure of a multi-unit house according to the present invention will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator.

Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a plan view showing an interlayer sound insulation floor structure of a multi-unit house according to an embodiment of the present invention, FIG. 2 is a sectional view showing the inter-layer sound insulation floor structure of a multi-unit house according to an embodiment of the present invention, Is a perspective view illustrating a buffer portion of an interlayer sound insulation floor structure of a multi-unit house according to an embodiment of the present invention.

4 is a cross-sectional view illustrating a support block and a support structure of a floor structure of an inter-layer sound insulation floor of a multi-unit house according to an embodiment of the present invention. FIG. 5 is a cross- 6 is a cross-sectional view illustrating a case and a support of an interlayer sound insulation floor structure of a multi-unit house according to an embodiment of the present invention, and FIG. 7 is a perspective view of a case and a support of the structure according to an embodiment of the present invention. FIG. 1 is a view showing a hot water piping connection structure of an interlayer sound insulating floor structure of a multi-family house.

1 to 7, an inter-layer sound insulation floor structure of a multi-unit house according to an embodiment of the present invention is arranged to maintain a gap with an upper surface of a slab 1 partitioning a floor of a multi- A support panel 50 provided between the support panel 50 and the slab 1 and supporting the support panel 50 so as to be vertically movable, A plurality of cushioning grooves 54b formed on the bottom surface of the support panel 50 facing the support panel 50 and stacked on the top surface of the support panel 50, A cushioning pad 54 which is formed by continuously stacking cushioning protrusions 54a on the upper surface of the cushioning pad 54 and an EVA resin pad 72, a styrofoam pad 74 and a sponge pad 76 stacked on the cushioning pad 54 A plurality of hot water pipes 82 laid on the upper surface of the sound insulating sheet 70, And a surface finishing layer 90 which is laminated on the upper surface of the cement mortar layer 80 and constitutes the indoor bottom surface of the apartment house.

The support panel 50 is stacked on the upper surface of the buffer part 30 and the upper surface of the support panel 50 is provided with the buffer part 30 on the upper surface of the slab 1, A sound insulating sheet 70 is laminated on the upper surface of the cushioning mat 54 and a cement mortar layer 80 on which a hot water pipe 82 is impregnated at regular intervals is formed on the upper surface of the sound insulating sheet 70 ) Is installed.

Therefore, when the impact is transmitted to the surface finishing layer 90 while a person is running or a heavy object is transported from the upper side, the impact is transmitted downward from the cement mortar layer 80. At this time, The support panel 50 is moved downward to offset the impact transmitted from the surface finish layer 90.

When the shock applied to the surface finishing layer 90 is continuously transmitted without being canceled by the operation of the buffer 30, the buffer mat 54 is compressed and secondarily collapses the shock, And the canceling action by the buffer mat 54 can be simultaneously generated.

The EVA resin pad 72, the styrofoam pad 74, and the sponge pad 76 constituting the sound insulating sheet 70 can be compressed in the third order to compress the shock, and the offsetting action by the operation of the buffering portion 30 The canceling action by the buffering mat 54 and the canceling action by the sound insulating sheet 70 can occur at the same time.

The cushioning portion 30 includes a support rail 32 that is seated on the upper surface of the slab 1, a plurality of elastic blocks 36 that are spaced apart from the support rail 32, A fixing operation part 110 for fixing the elastic block 36 to the support rail 32 and a fixing part 130 for fixing the elastic block 36 to the fixing operation part 110. [ And a separating portion 120 for releasing the restricting state to convert the elastic block 36 into a flowable state.

A plurality of rails 32 including a first rail 32a and a second rail 32c are arranged on the upper surface of the slab 130 in a lattice shape and a first rail 32a on which a guide protrusion 32c is formed, So that a plurality of elastic blocks are spaced apart from each other.

The pair of guide grooves 36a extending from the bottom surface of the elastic block 36 is formed in the elastic block 36 so that the guide protrusion 32c of the first rail 32a is inserted into the guide groove 36a, ).

At this time, the elastic blocks 36 are arranged at intervals between the grid-shaped rails, and the elastic blocks 36 and 36 are arranged such that the supports 34 and the case 130 are disposed at intervals between the elastic blocks 36 and 36 ).

An elastic body 136 having a stopper 34b formed at an inner end portion of a plurality of support rods 34 is installed at a central portion of the case 130. A protrusion protrusion formed at a central portion of the support roster 34, And protrudes outwardly of the protrusion guide 132 by the second elastic member 128 interposed between the inner walls of the guide 132.

The fixed operating portion 110 includes a restricting projection 114 that protrudes and retracts from the elastic block 36 inside the guide groove 36a and a guide protrusion 32c that is opposed to the restricting projection 114, And a plurality of fixing holes 32d formed in the guide protrusion 32c so that the locking protrusion 114 is inserted.

A restricting projection 114 is provided on the inside of the guide groove 36a of the elastic block 36 so as to protrude and retract inside the guide groove 36a and a protrusion formed at the center of the restricting protrusion 114 And the first elastic member 116 is interposed between the protruding portion formed on the inner side of the restricting protrusion 114 and the protruding guide end so that the restricting protrusion 114 protrudes from the protruding guide 132).

Therefore, the operator can vary the position of the elastic block 36 while sliding the elastic block along the first rail, and the elastic block 36 fixed at the predetermined position is guided by the guide protrusion 32c protruding toward the guide groove 36a. Is inserted into the fixing hole portion 32d formed in the first rail 32a to prevent the elastic block 36 from flowing.

The present embodiment is provided with a separating portion 120 for releasing the restraint state of the fixed operating portion 110 and releasing the restraint of the elastic block 36. The separating portion 120 is disposed outside the elastic block 36 A pushing slope 124 formed at the inner end of the knob 122 and a rising slope 126 formed at the inner side of the restraining protrusion 114 so as to face the pushing slope 124, And a second elastic member 128 installed to press the knob 122 inside the elastic block 36.

When the operator grips the elastic block 36 and presses the knob 122 to the inside of the elastic block 36, the knob 2 is inserted into the elastic block 36 so that the pressure sloped surface 124 is located inside the guide groove 36a And the pressing slope 124 pushes up the slope 126 to lift the restricting protrusion 114 into the first elastic member 128 to release the restricting state of the elastic block 36. [

A second elastic member 128 is provided at the center of the knob 2 to push the knob 122 outwardly of the elastic block 36 to hold the elastic block in a restrained state.

Thereby, the impact that causes the interlayer noise is canceled first by the operation of the buffer portion, the second order cancellation is performed by the buffer mat, the noise transmission is prevented by the sound insulating sheet, and the time and cost required for the construction of the sound insulating floor structure It is possible to provide an interlayer sound insulating floor structure of a house that can be saved.

1: Slab 30: Buffer
32: support block 32a: curved surface groove portion
34: support plate 34a:
34b: pressing surface 36: elastic block
50: support panel 52:
54: buffer mat 54a: buffering projection
54b: cushioning groove portion 70: sound insulating sheet
72: EVA resin pad 74: Styrofoam pad
76: sponge pad 80: cement mortar layer
82: hot piping 84: corrugated pipe
86: water pipe 90: surface finish layer

Claims (3)

A support panel disposed to maintain a gap with an upper surface of a slab defining a layer of the apartment house, and having a plurality of seating grooves on a bottom surface thereof;
A buffer member interposed between the support panel and the slab and movably supporting the support panel in a vertical direction and restraining a downward motion of the support panel to a set value or less;
An absorbing mat laminated on an upper surface of the support panel, a plurality of buffer grooves formed continuously on a bottom surface opposite to the support panel, and a plurality of buffer protrusions formed on an upper surface of the buffer mat;
A sound insulating sheet laminated on the top surface of the shock absorbing mat and laminated with an EVA resin pad, a styrofoam pad, and a sponge pad;
A cement mortar layer laid on an upper surface of the sound insulating sheet and impregnated with a plurality of hot water pipes so as to communicate with each other; And
And a surface finishing layer laminated on the upper surface of the cement mortar layer and forming an indoor bottom surface of the multi-
The buffering portion
A support rail seated on an upper surface of the slab;
A plurality of elastic blocks arranged on the support rail with a gap therebetween;
A case disposed at an interval between the elastic blocks and provided with a plurality of supporting members capable of retracting;
A fixing operation portion for fixing the elastic block to the support rail; And
And a separating section for releasing the restraining state of the fixed operating section to switch the elastic block to a flowable state,
And a second elastic member interposed between the protruding guide inner wall of the case and the protruding protrusion formed at the central portion of the protruding portion, The protruding guide is maintained in a protruded state,
The fixed operation portion
A restricting projection projecting and retracting from the elastic block into the guide groove portion;
A first rail formed on the upper surface of the slab, the guide protrusion being formed to face the restricting projection; And
And a plurality of fixing holes formed in the guide protrusions for inserting the restraining protrusions. delete delete

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