KR101006837B1 - Vibration & noise prevention apparatus capable of easy levelling between slab layers - Google Patents

Abstract

PURPOSE: An interlayer vibration and noise prevention device is provided to perform a leveling task of a panel by controlling the height of the panel even if the assembly of the panel is completed. CONSTITUTION: An interlayer vibration and noise prevention device comprises a panel(20), a body portion(31), a damping member(80) and a height adjustment matter. The panel is formed in a square. The panel comprises a protrusion and a groove. A through hole(29) in which a tool passes through is formed on the panel. The body portion accepts an elastic member(30) and is located on the lower part of the penal. The damping member is settled on the top of the building slab.

Description

Interlayer vibration and noise prevention device with easy leveling {VIBRATION & NOISE PREVENTION APPARATUS CAPABLE OF EASY LEVELLING BETWEEN SLAB LAYERS}

The present invention relates to an interlayer vibration and noise preventing device installed on slabs of various buildings such as apartment houses to prevent vibrations or noises applied between floors, and to shorten the assembly time of the panel and to complete the assembly of the panel. It is possible to easily adjust the height of the panel by using, and the damping member rotates freely according to the surface state of the inclined or curved slab so that the panel closely adheres to the slab, so that the leveling work of the panel can be easily performed. It relates to a noise prevention device.

Recently, the problems of floor vibration and noise in apartments such as apartments and multi-family houses have emerged as important issues.

Currently, a common apartment house has a structure in which the slab 11 is poured between the walls 10, as shown in FIG. The upper surface of the slab 11 is provided with a heat insulating material 12, the foam concrete 13 is poured on the upper portion of the heat insulating material (12).

The foamed concrete 13 performs a self leveling function as a slurry in which chemicals are added to concrete.

A floor heating layer 15 is formed on the foam concrete 13, and a heating pipe 14 for heating is buried in the floor heating layer 15.

By the way, in the multi-family house as described above, because the wall 10 and the slab 11 and the floor heating layer 15 are connected to each other in the form of a box, the vibration and noise between the floors 10 and the slab 11 are prevented. Is passed on.

In order to prevent vibration or noise generated between the floors of the building, there must be a part capable of absorbing the same. In the structure as shown in FIG. 1, all parts are integrally connected, so it is difficult to block the vibration and noise between floors. Therefore, vibration and noise generated in any one layer can not be transmitted to the various layers through the wall 10 and the slab 11.

Recently, houses are recognized as spaces to protect privacy, not just residential use, but in Korea, the housing is difficult to fundamentally prevent vibration and noise.

As a solution to this problem, there is a method of increasing the thickness of the slab (11). However, such a structure is also difficult to expect sufficient interlayer vibration and noise prevention effect because the wall 10 and the slab 11 are integrally connected.

In addition, when the thickness of the slab 11 is increased, the thickness of the wall 10 supporting the slab 11 should be increased. This is undesirable because it increases the weight of the entire building, which in turn leads to an increase in construction costs.

As another method of preventing vibration and noise, there is a method of inserting various dustproof pads between the slab 11 and the floor heating layer 15 or forming a waste tire dustproof layer.

However, as described above, the method of forming the anti-vibration pad or the anti-vibration layer also becomes an integrated structure with the slab and thus cannot solve the above-mentioned problems.

 In order to solve this problem, the applicant of the present invention has proposed an interlayer vibration and noise prevention device having a structure as shown in FIG. 2 (see Korean Registered Room No. 20-0404873).

The above technique is to install a panel 20 made of PVC material between the slab 11 and the heat insulator 12 and to install a spring 22 and a damping member 21 to absorb the vibration below.

According to the above technology, the space between the slab 11 and the panel 20 to absorb the vibration is secured, there is an advantage that can effectively absorb the vibration or noise generated between the floors.

However, the above technique has a disadvantage in that the damping member 21 is a fixed type and cannot adjust its height, so that the leveling operation of the panel 20 that is manufactured and assembled into a plurality is difficult. Therefore, there is a problem in that the bubble concrete 13 needs to be poured again on it for the leveling operation.

As another example of the prior art, there is Korean Patent No. 10-0603040 to which the applicant has applied for and registered.

3 and 4, while maintaining a space for absorbing vibration between the slab 11 and the panel 20, the panel 20 by the adjustment member 50, The height of the can be adjusted.

The prior art shown in FIGS. 3 and 4 includes a plurality of contact members 120 at the bottom of the panel 20. The contact member 120 is provided with a push protrusion 25, an extension surface 23 and the locking jaw 24.

The lower portion of the contact member 120 is provided with a receiving member 40 for receiving the elastic member 30. The accommodating member 40 includes a body 41, an accommodating groove 43 for accommodating the elastic member 30, and a protrusion 42 formed on an upper portion of the body 41. The inner threaded portion 44 is formed on the inner surface of the receiving member 40 so that the adjusting member 50 can be screwed.

The accommodation member 40 is provided with an adjustment member 50 for adjusting the height, the adjustment member 50 is composed of a male screw portion 51 and the leg portion (52).

The fixing member 60 is assembled to the lower portion of the adjusting member 50. The fixing member 60 includes a head 61, a receiving groove 62 into which the damping member 64 is inserted, and a leg 63 inserted into the slab 11.

The damping member 64 is inserted into the receiving groove 62 of the fixing member 60, and the leg portion 52 of the adjusting member 50 is inserted thereon.

The prior art of the above structure, the height of the panel 20 can be adjusted by the adjustment of the adjustment member 50 has the advantage that no casting of foam concrete for leveling. In addition, there is an advantage that the vibration and noise can be effectively absorbed by the space portion formed between the slab 11 and the panel 20.

However, the prior art has a disadvantage in that the leveling operation of the panel 20 is difficult because the panel is installed after adjusting the height.

Therefore, the leveling operation of the panel 20 takes a lot of time, it is not easy to match the level to adjust the height at the bottom of the panel 20.

In addition, there is a problem in that a separate hole for inserting the fixing member 60 in the slab 11 is also required.

The present invention is to solve the above-mentioned problems of the prior art, it is possible to shorten the assembly time of the panel, and to adjust the height of the panel even when the assembly of the panel is completed to facilitate the leveling operation of the panel There is a purpose.

Another object of the present invention is to prevent the damping member from lifting by efficiently damping the damping member by freely rotating the damping member according to the surface state of the inclined or curved slab to effectively block vibration and noise.

Still another object of the present invention is to provide a sound absorbing material at the bottom of the panel and further include a separate buffer member at the bottom of the damping member to completely absorb vibration and noise generated between the layers.

Still another object of the present invention is to make it easy to perform a leveling operation without pouring foam concrete.

Still another object of the present invention is to reduce the manufacturing cost of the vibration and noise suppression apparatus, and to significantly shorten the construction period due to the installation of the vibration and noise suppression apparatus.

Vibration and noise suppression apparatus according to the present invention for achieving the above object, a rectangular panel, a body portion provided in the lower portion of the panel to accommodate the elastic member, and a damping member seated on the upper portion of the building slab and In the interlayer vibration and noise prevention device comprising a height adjusting member for adjusting the height of the damping member to prevent the vibration and noise applied between the floors of the building, the panel, projections and grooves to be fitted together And a through hole through which a tool for adjusting the height of the height adjusting member passes in the state where the panel is assembled, and the damping member has a hinge portion of the height adjusting member assembled thereon. Spherical contact with, characterized in that freely rotated according to the surface state of the slab.

The height adjusting member may include a male screw portion coupled to a female screw portion formed in the body portion, a tool groove formed on an upper surface of the male screw portion, and a spherical hinge portion provided below the male screw portion.

In addition, the cross section of the tool groove is characterized in that the hexagon or square.

In addition, a cross-shaped groove is formed on the upper surface of the tool groove.

In addition, the elastic member is characterized in that the coil spring.

In addition, the damping member is provided with a hinge seating portion to which the hinge portion is assembled, and further comprising a buffer member at the bottom.

In addition, an air spring is further provided below the buffer member.

In addition, the lower portion of the panel characterized in that it further comprises a sound absorbing material.

According to the present invention, there is an effect that a plurality of panels can be easily assembled by the protrusions and the grooves formed on the side of the panel.

In addition, since the height can be adjusted at the top of the panel even when the assembly of the panel is completed, the leveling operation of the panel is very easy.

In addition, even when the surface state of the slab is inclined or curved, the damping member is freely rotated and closely adhered to the slab, thereby preventing the damping member from being lifted up, thereby effectively absorbing vibration and noise.

In addition, by installing a sound absorbing material in the lower portion of the panel, and further provided with a buffer member in the lower portion of the damping member there is an effect that can maximize the vibration and noise protection.

In addition, there is an effect that can easily perform the leveling work of the panel without pouring foam concrete.

In addition, since the structure is simple, the manufacturing cost can be reduced, and the construction is simple, and the construction period can be greatly shortened.

1 is a cross-sectional view showing a slab structure of a general multi-family house.
Figure 2 is a cross-sectional view showing an example of the vibration and noise prevention device according to the prior art.
Figure 3 is a cross-sectional view showing another example of the vibration and noise prevention device according to the prior art.
Figure 4 is an exploded view of the vibration and noise prevention device of FIG.
Figure 5 is a perspective view of a panel provided with a vibration and noise prevention device according to the present invention.
Figure 6 is a cross-sectional view showing a vibration and noise prevention device according to the present invention.
Figure 7 is an exploded view of the vibration and noise prevention device according to the present invention.
Figure 8 shows a state in which the vibration and noise prevention device is installed on the inclined slab, (a) is a prior art, (b) is a cross-sectional view showing a vibration and noise prevention device according to the present invention.
Figure 9 is a perspective view showing a method of adjusting the height of the damping member in the vibration and noise prevention device according to the present invention.
10 is an enlarged view of a portion of FIG. 9;

Hereinafter, preferred embodiments of the present invention will be described with reference to FIGS. 5 to 10.

Vibration and noise suppression apparatus according to the present invention, which is installed on the upper surface of the building slab 11, such as a multi-family house, as shown in Figure 5, has a rectangular panel 20.

The panel 20 is preferably formed of a PVC material, fabricated in various sizes and used to assemble each other. Sides of the panel 20 are provided with protrusions 27 and grooves 28 so that a plurality of panels can be easily assembled.

Near the four corners of the panel 20 is formed a through hole 29 for the tool 100 (see FIG. 9) to pass through. By the through-holes 29 formed in the panel 20, the height of the panel can be easily adjusted using the tool 100 even when the assembly of the panel 20 is completed.

Although the number of the through holes 29 and the damping members 80 is illustrated in FIG. 5, the number of the through holes 29 and the damping members 80 may be appropriately added or subtracted according to the size of the panel 20. Can be.

6 and 7, the lower part of the panel 20 is provided with a body part 31 for receiving the elastic member 30. Inside the body portion 31, a female screw portion 32 for assembling the height adjusting member 110 is formed.

The body portion 31 is assembled to the lower portion of the panel 20 to accommodate the elastic member 30 therein.

The elastic member 30 may be configured as a coil spring as a portion for absorbing vibration.

The lower portion of the body portion 31 is provided with a height adjusting member 110 for adjusting the height of the panel 20.

As shown in FIG. 7, the height adjusting member 110 is rotatably assembled to the male screw portion 83 assembled to the female screw portion 32 of the body portion 31 and the damping member 80. It consists of a hinge part 82. The hinge portion 82 is preferably formed in a spherical shape so as to be in spherical contact with the damping member 80 assembled in the lower portion, but is not limited thereto.

The upper part of the male screw portion 83 is formed with a tool groove 85 for inserting the tool 100 (see FIG. 9).

Since the tool groove 85 is exposed to the upper part of the panel 20 by the through hole 29 formed in the panel 20 (see FIG. 6), the tool groove 85 is completed even when the assembly of the panel 20 is completed. The height of the panel can be easily adjusted using the 100.

The cross-sectional shape of the tool groove 85 may be formed in a hexagonal or rectangular shape. When the tool groove 85 is a hexagon or a square, the height may be adjusted by inserting and rotating an L wrench corresponding thereto.

In addition, the tool groove 85 may be formed as a cross-shaped groove, in this case, the height can be easily adjusted using a power tool.

A damping member 80 is assembled below the height adjusting member 110. A hinge seating portion 86 corresponding to the shape of the hinge portion 82 of the height adjusting member 110 is formed at the center of the damping member 80.

By spherical coupling of the hinge portion 82 of the height adjustment member 110 and the hinge seat portion 86 of the damping member 80, the damping member 80 is free to rotate according to the surface state of the slab 11 It becomes the state to do.

Therefore, even when the slab 11 is inclined or curved, the slab 11 is contacted according to the surface state of the slab 11, so that a separate supporting member 90 is not required as in the related art (see FIG. 8).

A lower portion of the damping member 80 is provided with a buffer member 84 in contact with the surface of the slab (80). The buffer member 84 can improve the adhesion to the slab 11 and can efficiently absorb vibration.

An air spring (not shown) may be further provided below the buffer member 84.

In addition, the sound absorbing material 70 is preferably provided in the space portion between the panel 20 and the damping member 80. The sound absorbing material 70 absorbs the noise transmitted between the layers.

The damping member 84 provided below the damping member 80 and the sound absorbing material 70 and the air spring provided between the panel 20 and the damping member 80, to prevent vibration and noise between the building floors. Can be maximized.

Hereinafter, the assembly sequence and operation of the vibration and noise prevention device according to the present invention will be described with reference to FIGS.

First, as shown in FIG. 7, the elastic member 30 and the body portion 31 are assembled to the lower portion of the panel 20. Subsequently, the height adjusting member 110 is screwed to the female screw portion 32 of the body portion 31, and the sound absorbing material 70 is mounted to the lower portion of the panel 20.

Then, when the hinge portion 82 of the height adjusting member 110 and the hinge seat portion 86 of the damping member 80 are combined, the assembly of the unit panel 20 is completed.

In some cases, an air spring (not shown) may be further provided below the damping member 80.

Thereafter, a plurality of unit panels 20 in which the assembly of the damping member 80 is completed are combined. In this case, since the protrusions 27 and the grooves 28 formed on the panel 20 need only be fitted to each other, the assembling operation of the panel 20 becomes very easy as compared with the related art.

When the assembly of the plurality of panels 20 is completed, as shown in FIG. 9, the tool 100 passes through the through hole 29 of the panel 20 to the tool groove 85 of the height adjusting member 110. Insert and rotate it to level the panel.

According to the present invention, the leveling operation is very simple since the leveling operation is performed in the state in which all the panels 20 are assembled.

After the leveling operation of the panel 20, the insulation 12 is laid and the bottom heating layer 15 is formed thereon, all the work is completed.

According to the present invention, since the damping member 80 rotates freely according to the surface state of the slab 11 during the leveling operation of the panel 20, even if the slab 11 is inclined or curved, the damping member 80 is It comes in close contact with the slab 11.

Therefore, it is possible to efficiently absorb vibrations and noises generated between floors of a building.

In fact, when the slab 11 is poured in the construction of the multi-family house, the surface state is not a perfect planar state, but the inclined or curved portion exists.

In this case, according to the prior art, as shown in Figure 8 (a), in order to match the level, a separate supporting member 90 must be provided. Accordingly, there is a problem that takes a lot of time for the leveling operation.

However, according to the present invention, as shown in Figure 8 (b), the damping member 80 is in close contact with the slab 11 while rotating freely, the leveling operation becomes very simple.

A feature of the present invention is that the panel 20 is provided with the protrusions 27 and the grooves 28 so that the panel can be easily assembled, and the panel 20 has a through hole 29 through which the tool 100 penetrates. And by forming a tool groove 85 in the height adjusting member 110, it is possible to easily match the level of the panel even when the assembly of the panel 20 is completed.

In addition, the damping member 80 seated on the slab 11 is formed in a structure that can be freely rotated, so that the damping member 80 is in close contact with each other regardless of the surface state of the slab 11, thereby quickly performing the leveling operation. It can be done.

Conventional vibration and noise prevention device is excellent in the vibration and noise prevention effect, but takes a lot of time for the leveling operation of the panel 20, especially when the surface state of the slab 11 is uneven damping member 80 There is a problem that is not completely in close contact with the slab (11).

However, according to the present invention, assembling and leveling work of the panel 20 is very simple, and the damping member 80 is completely adhered to the surface of the slab 11 without a separate supporting member, thereby preventing interlayer vibration and noise. The effect can be maximized.

The present invention relates to an interlayer vibration and noise preventing device installed on slabs of various buildings such as apartment houses to prevent vibrations or noises applied between floors, and can be widely used in various construction fields.

10: wall 11: slab
12: insulation 13: bubble concrete
14: heating pipe 15: floor heating layer
20: Panel 21: Damping member
22: spring 23: extension surface
24: engaging portion 25: push projection
27: protrusion 28: groove
29: through hole 30: elastic member
31: body 32: female thread
40: receiving member 41: body
42: projection 43: receiving groove
44: female thread 50: adjustment member
51; Male part 52: Leg part
60: fixing member 51: head
62; Receiving Groove 63: Leg
70: sound absorbing material 80: damping member
81: support portion 82: hinge portion
83: male portion 84: buffer member
85: tool groove 86: hinge seat
90: support member 100: tool
110: height adjustment member 120: contact member

Claims (9)

A panel 20 having a rectangular shape, a body part 31 provided below the panel 20 to accommodate the elastic member 30, and a damping member 80 seated on an upper portion of the building slab 11; In the interlayer vibration and noise prevention device comprising a height adjusting member 110 for adjusting the height of the damping member 80 to prevent the vibration and noise applied between the floors of the building,
The panel 20,
Protruding portion 27 and groove portion 28 is provided so as to be assembled to each other, the tool 100 for adjusting the height of the height adjusting member 110 in the state where the panel 20 is assembled around the four corners pass through It is provided with a through hole 29,
The damping member 80,
Leveling easy interlayer vibration and noise prevention device, characterized in that the spherical contact with the hinge portion 82 of the height adjustment member 110, which is assembled on the upper surface, freely rotated according to the surface state of the slab (11). The method of claim 1,
The height adjusting member 110 is a male screw portion 83 coupled to the female screw portion 32 formed on the body portion 31, a tool groove 85 formed on the upper surface of the male screw portion 83, and the male screw Leveling easy interlayer vibration and noise prevention device characterized in that it comprises a spherical hinge portion 82 provided in the lower portion of the portion (83). The method of claim 2,
Leveling easy interlayer vibration and noise prevention device, characterized in that the cross section of the tool groove (85). The method of claim 2,
Leveling easy interlayer vibration and noise prevention device, characterized in that the cross section of the tool groove (85). The method of claim 2,
Leveling easy interlayer vibration and noise prevention device, characterized in that the cross-shaped groove is formed on the upper surface of the tool groove (85). The method of claim 1,
Leveling easy interlayer vibration and noise prevention device, characterized in that the elastic member 30 is a coil spring. The method of claim 1,
The damping member 80 has a hinge seating portion 86 to which the hinge portion 82 is assembled, and further includes a shock absorbing member 84 at a lower level. . The method of claim 7, wherein
Leveling easy interlayer vibration and noise prevention device further comprises an air spring in the lower portion of the buffer member (84). The method of claim 1,
Leveling easy interlayer vibration and noise prevention device further comprises a sound absorbing material (70) in the lower portion of the panel (20).

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