JP5903235B2 - A soundproof and vibration-proof loft and its sound and vibration isolation method - Google Patents

Description

The present invention relates to a loft having sound insulation and vibration insulation and a sound insulation and vibration insulation method.

Loft originally meant an attic on the top floor of a building and was used in warehouses where things were rarely used.
On the other hand, in recent years, lofts are provided as means for effectively using residential spaces in apartment houses such as apartments. Such a loft for a house is a small room provided at a position higher than the floor in the living room, and is used as a study or a children's room (for example, Patent Documents 1 to 4).

Japanese Patent Application Laid-Open No. 2002-213091, “Ceiling Structure of Apartment House” JP 2007-239327 A, “Apartment Housing” JP 2002-285710 A, “Underfloor structure of apartment house” Utility Model Registration No. 3160267, “Dwelling Unit with Loft”

  The lofts of Patent Documents 1 to 3 need to determine a loft position in advance and provide a step on the ceiling slab or floor slab at the installation position in an apartment house such as an apartment. Therefore, there has been a problem that the loft cannot be installed at a desired position after the construction of the housing part such as the ceiling slab and the floor slab according to the desire of the user.

  Moreover, in the conventional housing complex, the loft was directly installed on the floor slab and was directly connected to the wall plate that partitions the room. Therefore, when the loft is used as a children's playground as in Patent Document 4, impact sound and vibration transmitted downstairs due to walking and jumping on the loft, walking and running on the stairs going up and down to the loft, etc. Could increase.

  The present invention has been developed to solve the above-described problems. That is, the object of the present invention is (1) can be installed in an arbitrary position after the construction of the housing part without determining the loft position in advance, and (2) used as a playground for children. Even when walking or jumping on the loft, walking or running on the stairs going up and down the loft, etc., it has sound insulation and vibration proofing that can greatly reduce the impact sound and vibration transmitted downstairs It is to provide a loft and its sound insulation and vibration isolation method.

According to the present invention, a loft that is installed between a floor slab and a ceiling slab and has sound insulation and vibration isolation,
A loft floor located in the middle of the ceiling slab and the floor slab, with a loft precursor and a loft stairs climbing into the loft floor,
The loft building frame, the floor slab are installed independently from the surrounding features wall connecting the ceiling slab and during,
Further, a plurality of lower vibration-proof material is sandwiched, for a first-order natural frequency of the loft skeleton smaller than the primary natural frequency of the floor slab between the floor slab and the loft skeleton,
And a plurality of vibration-proof anchors to prevent horizontal movement of relaxation vital the loft skeleton vibration to the floor slab from the loft skeleton,
The loft housing is
A loft base member extending horizontally and positioned below the loft floor in proximity to the floor slab;
A loft upper edge member extending above the loft floor and extending horizontally adjacent to the ceiling slab;
A plurality of vertical support members for connecting the loft base member and the loft upper edge member at an interval;
A loft ceiling that covers the upper surface of the loft upper edge member;
The loft stairs are supported at both ends by the vertical support member above the floor slab , and a loft having sound insulation and vibration isolation is provided.

Moreover, according to the present invention, the sound insulation and vibration isolation method of the loft installed between the floor slab and the ceiling slab,
Installation The loft floor located in the middle of the floor slab and the roof slab, a loft building frame and a loft stairs climbing into the loft floor, the floor slab, independently from the surrounding features wall connecting the ceiling slab and between And
The loft housing is
A loft base member extending horizontally and positioned below the loft floor in proximity to the floor slab;
A loft upper edge member extending above the loft floor and extending horizontally adjacent to the ceiling slab;
A plurality of vertical support members for connecting the loft base member and the loft upper edge member at an interval;
A loft ceiling that covers the upper surface of the loft upper edge member;
The loft stairs are supported at both ends by the vertical support member above the floor slab,
A plurality of lower vibration-proof material for the primary natural frequency of the loft skeleton smaller than the primary natural frequency of the floor slab, and sandwiched between the floor slab and the loft skeleton,
A plurality of vibration-proof anchors to prevent horizontal movement of relaxation vital the loft skeleton vibration to the floor slab from the loft skeleton, sound insulation antivibration method loft, characterized provided that.

  According to the above-described apparatus and method of the present invention, the loft frame is installed independently from the floor slab, the ceiling slab and the surrounding construction wall connecting between them, so that the loft position is determined in advance in the apartment house such as an apartment. Without being done, it can be installed at any position after the construction of the housing.

  In addition, since a plurality of lower vibration damping materials that make the primary natural frequency of the loft housing smaller than the primary natural frequency of the floor slab are sandwiched between the loft housing and the floor slab, the loft can be used as a children's playground. Even when used, it is possible to greatly reduce the impact sound and vibration transmitted downstairs via the floor slab due to walking and jumping on the loft, walking and running on the stairs going up and down to the loft, etc. .

In addition, multiple anti-vibration anchors mitigate vibration from the loft housing to the floor slab and prevent horizontal movement of the loft housing, so walking and jumping on the loft and walking and running on the stairs going up and down to the loft. It is possible to greatly reduce the impact sound and vibration transmitted to the downstairs through the surrounding construction wall due to, and the like.

It is a perspective view which shows the structure of the loft housing by this invention. It is a top view which shows the loft floor in FIG. It is a top view which shows the downward direction of the loft floor in FIG. It is a top view which shows the loft ceiling in FIG. It is sectional drawing which shows the structure of a vibration proof anchor. It is a figure which shows the relationship between the frequency and amplitude of the loft by this invention. It is a related figure of the deflection and load of a lower vibration isolator. It is a relationship figure of the loft walking state by a sound insulation performance test, and a noise level. It is a figure which shows the test result by the JIS rubber ball measurement of the loft by a sound insulation performance test. It is a figure which shows the floor impact sound level of the loft by a sound insulation performance test. It is a related figure of the walk state and noise level in an actual apartment house.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, the same code | symbol is attached | subjected to the common part in each figure, and the overlapping description is abbreviate | omitted.

FIG. 1 is a perspective view showing the structure of a loft housing according to the present invention.
The loft housing 10 according to the present invention is installed between the floor slab 1 and the ceiling slab 2. The distance between the floor slab 1 and the ceiling slab 2, that is, the ceiling height of the room where the loft is installed is preferably 2500 mm or more.

As shown in this figure, the loft housing 10 of the present invention has a loft floor 12, a loft base member 16, a loft upper edge member 18, a plurality of vertical support members 20, a loft ceiling 22, and a loft step 24.
In this example, the loft base member 16, the loft upper edge member 18, and the vertical support member 20 are wood having a rectangular cross section of 72 mm × 72 mm, for example.

  FIG. 2 is a plan view showing the loft floor 12 in FIG.

1 and 2, the loft floor 12 is a deformed hexagonal horizontal floor located between the floor slab 1 and the ceiling slab 2 and connecting the points a2, b2, c2, d2, g2, and h2. Among these, between the a2-b2 and the g2-h2, the loft staircase 24 is installed to float from the floor slab 1.
The loft frame member 14 is connected to the plurality of vertical support members 20 and extends horizontally around the loft floor 12.
The loft floor 12 can be used as a children's playground on which a plurality of children are placed by a support member (not shown). Further, the loft floor 12 has a straight sound insulation flooring finish.

  Further, in three directions connecting the intermediate part I2a of c2-d2 to the points d2a, g2a, h2a, a fall prevention wall having a height for preventing children from falling is provided on the outer edge of the loft floor 12, and from above the fall prevention wall. A child playing on the loft floor 12 can see the living room, and a child playing on the loft floor 12 can be seen from the living room side.

The distance between the loft floor 12 and the loft ceiling 22, that is, the ceiling height of the loft is preferably a height at which a child can stand upright, for example, 1400 mm or more.
In Examples described later, the area of the loft floor 12 is 4.5 mats, 30kg weighs one child, the maximum loading capacity based on the floor design load is at ^{180kg / m 2 × 7.43m 2 ≒} 1337kg is there.

  FIG. 3 is a plan view showing a lower portion of the loft floor 12 in FIG.

  In this example, the loft base member 16 includes three horizontal members that connect the points a1, b1, c1, and d1, and two horizontal members that connect the points e1, f1, g1, and h1, and is attached to the floor slab 1. It is located close to the lower part of the loft floor 12 and surrounds the underfloor storage space 3 located below the loft floor 12 and extends horizontally.

  The underfloor storage space 3 is a rectangular space on the floor slab located below the loft floor 12, and the lower space of the loft floor 12 is used as a storage space. This storage space is preferably 1100 mm or less in height.

  FIG. 4 is a plan view showing the loft ceiling 22 in FIG.

In this example, the loft upper edge member 18 includes four horizontal members connecting the points a3, b3, c3, and d3.
Further, a horizontal member is also fixed so as to intersect with the inside of the loft upper edge member 18.
Furthermore, a sound insulating wall 21 is configured by attaching sound insulating plates having sound insulating properties and vibration insulating properties to the inner surface and the outer surface of the loft ceiling 22.
With this configuration, since the sound insulation wall 21 surrounds the upper part of the loft floor 12, noise transmitted from the upper surface of the loft floor 12 is confined in the loft floor 12, and noise insulation from the loft housing 10 to the outside is provided. Can be increased.

The plurality of vertical support members 20 connect the loft base member 16 and the loft upper edge member 18 with an interval therebetween. Some of the vertical support members 20 connect the loft base member 16 and the loft upper edge member 18.
Further, a sound insulating wall 23 is configured by attaching sound insulating plates having sound insulating properties and vibration insulating properties to the inner surface and the outer surface of the vertical support member 20.
With this configuration, since the sound insulating wall 23 surrounds the upper part of the loft floor 12 and the lower part of the loft floor 12, the noise transmitted from the lower surface of the loft floor 12 is confined inside the sound insulating wall 23, and the sound insulating property of the loft housing 10 is achieved. Can be increased.

The loft stairs 24 are stairs for climbing from the floor slab 1 to the loft floor 12, and are supported at both ends by the vertical support member 20 above the floor slab 1. The inner and outer surfaces of the vertical support member 20 that supports the loft staircase 24 at both ends also form a sound insulation wall 23 by attaching sound insulation plates having sound insulation properties and vibration insulation properties.
With this configuration, both sides of the loft staircase 24 are surrounded by the sound insulation wall 23, so that noise generated in the loft staircase 24 can be confined in the loft staircase 24, and the sound insulation of the loft housing 10 can be enhanced.

  In this example, the sound insulation board is a gypsum board. Note that a sound insulating material may be filled between the sound insulating plates.

The above-described loft housing 10 is installed independently from the floor slab 1, the ceiling slab 2, and the surrounding construction wall 4 that connects the slab 1 and the ceiling slab 2.
That is, the loft staircase 24 is incorporated in the loft housing 10 and floated from the floor slab 1.
In addition, between the sound insulation walls 21 and 23 of the loft and the surrounding structure wall 4 and between the loft ceiling 22 and the surrounding structure ceiling (not shown), the base, the board, and the cloth are not continuous, and a well-known parting material is used. It is preferable to improve the appearance while suppressing the transmission of noise and vibration.
With this configuration, vibration generated in the loft housing 10 can be prevented from being directly transmitted to the floor slab 1, the ceiling slab 2, and the surrounding construction wall 4, and the vibration isolation performance of the loft housing 10 can be improved.

  In FIG. 3, the vertical support members 20 are installed vertically at a substantially constant pitch over the entire length of the loft base member 16. This pitch is in this example in the range of 400 mm to 800 mm. In addition, between the maximum pitches of 800 mm, a door (not shown) is provided on the indoor side so that a person can access the underfloor storage space 3.

In FIG. 3, the loft housing 10 of the present invention further includes a plurality of lower vibration isolating materials 30 sandwiched between the loft housing 10 and the floor slab 1. The gripping position of the loft housing 10 is the position of the vertical support member 20, and the loft base member 16 is disposed almost uniformly over the entire length of the loft base member 16.
Further, the lower vibration isolating material 30 is made of an elastic member having sound insulation and vibration isolating properties, and is set so that the primary natural frequency of the loft housing 10 is smaller than the primary natural frequency of the floor slab 1. .
Lower vibration-proof material 30, compared with the conventional vibration-proof material such as rubber, an elastic member that vibration damping ability, durability and the like is excellent, in the range Young's modulus of 0.18~10.8N / mm ² Yes, the load resistance is preferably in the range of 1.0 to 82 t / m ² . As such an elastic member, a special foamed polyurethane anti-vibration material (registered trademark “Shiromer”) is known.

FIG. 5 is a cross-sectional view showing the structure of the vibration proof anchor.
1 and 5, the loft housing 10 of the present invention further includes a plurality of anti-vibration anchors 32 that reduce vibration from the loft housing 10 to the floor slab 1 and prevent the loft housing 10 from moving horizontally.
In order to prevent the horizontal movement of the loft base member 16 of the loft housing 10, it is preferable to provide the anti-vibration anchors 32 in at least two places.

  In this example, the vibration proof anchor 32 includes an anchor bolt 33, a vibration proof bush 34, and a nut 35.

  The anchor bolt 33 has a lower end fixed to the floor slab 1 and extends upward. In this example, the anchor bolt 33 extends upward from the loft base member 16 through a through hole provided in the loft base member 16.

  The vibration isolating bush 34 is made of an elastic member having sound insulation and vibration isolating properties, and is positioned between the anchor bolt 33 and the loft base member 16 of the loft housing 10 to relieve horizontal vibration and vertical vibration therebetween. In this example, the vibration isolating bush 34 includes a reduced diameter portion that fits into a through hole provided in the loft base member 16 and an enlarged diameter portion on the upper portion thereof, and is interposed between the anchor bolt 33 and the loft base member 16. The elastic member is located so that it does not come into direct contact therewith.

  The nut 35 is screwed into the anchor bolt 33, and fixes the loft base member 16 of the loft housing 10 to the floor slab 1 through the vibration isolating bush 34. In this example, two nuts 35 and a washer are used, but other configurations may be used.

  With the configuration of the vibration-proof anchor 32 described above, vibration from the loft housing 10 to the floor slab 1 can be mitigated, and horizontal movement of the loft housing 10 can be prevented.

  The loft housing 10 of the present invention preferably further includes a plurality of upper vibration isolating materials (not shown) sandwiched between the loft housing 10 and the ceiling slab 2. The upper vibration isolating material is made of an elastic member having sound insulation and vibration isolating properties, and alleviates vertical vibration from the loft housing 10 to the ceiling slab 2.

Next, the sound insulation and vibration isolating method for the loft according to the present invention will be described.
(A) In the sound insulation and vibration isolating method for a loft according to the present invention, the loft housing 10 having the loft floor 12 positioned between the floor slab 1 and the ceiling slab 2 and the loft stairs 24 climbing to the loft floor 12 is used. And installed independently from the ceiling slab 2 and the surrounding construction wall 4 connecting the ceiling slab 2.
(B) Further, a plurality of lower vibration isolating materials 30 that make the primary natural frequency of the loft housing 10 smaller than the primary natural frequency of the floor slab 1 are sandwiched between the loft housing 10 and the floor slab 1.
(C) Furthermore, vibrations from the loft housing 10 to the floor slab 1 are mitigated by the plurality of anti-vibration anchors 32 and horizontal movement of the loft housing 10 is prevented.
(D) Further, preferably, a plurality of upper vibration isolating materials that mitigate vertical vibration from the loft housing 10 to the ceiling slab 2 are sandwiched between the loft housing 10 and the ceiling slab 2.

  According to the above-described apparatus and method of the present invention, the loft frame 10 is installed independently from the floor slab 1, the ceiling slab 2, and the surrounding construction wall 4 connecting between them, It can be installed at any position after the construction of the housing without determining the loft position.

  Further, since a plurality of lower vibration isolation materials 30 that make the primary natural frequency of the loft housing 10 smaller than the primary natural frequency of the floor slab 1 are sandwiched between the loft housing 10 and the floor slab 1, Even when used as a children's playground, the impact sound and vibration transmitted downstairs through the floor slab 1 due to walking and jumping on the loft, walking and running on the stairs going up and down to the loft, etc. Can be reduced.

  Further, since the plurality of anti-vibration anchors 32 alleviate vibration from the loft housing 10 to the floor slab 1 and prevent the loft housing 10 from moving horizontally, walking or jumping on the loft or jumping up and down the loft Impact sounds and vibrations transmitted to the downstairs via the surrounding construction wall 4 due to walking, running, etc. can be greatly reduced.

(basic plan)
4.5 tatami area loft floor 12, 30kg the weight of one child, the maximum loading capacity based on the floor design load, when a ^{180kg / m 2 × 7.43m 2 ≒} 1337kg, the concept described above loft The weight of the housing 10 is 940 kg when there is no load, 970 kg when the child is placed on the minimum load, and 1337 kg when the maximum load is applied.
As the lower vibration isolator 30 that supports the loft housing 10, a special foamed polyurethane anti-vibration material (registered trademark “Siromer P”) that is superior in anti-vibration performance, durability, etc., compared to conventional anti-vibration materials such as rubber. Was selected.
Further, the lower natural vibration isolator 30 is 60 mm × 60 mm, the thickness is 25 mm, 22 pieces, and the total installation area is 792 cm ² , so that the primary natural frequency of the loft housing 10 is changed to the primary natural frequency of the floor slab 1. It was set to be smaller.

FIG. 6 is a diagram showing the relationship between the loft frequency and amplitude according to the present invention based on the basic plan. FIG. 7 is a diagram showing the relationship between the deflection of the lower vibration isolator 30 and the load.
From FIG. 6, it was confirmed that the primary natural frequency of the loft housing 10 is 15.3 Hz, which is smaller than the primary natural frequency of the floor slab 1 of 21 Hz. FIG. 6 shows the case where the weight of the loft housing 10 is at the minimum load (970 kg), but when a plurality of children are placed and the weight approaches the maximum load (1337 kg), the loft housing 10 is primary. Since the natural frequency is further lowered, it is further advantageous in terms of performance.
Further, from FIG. 7, under this condition, the maximum load is equal to or less than the allowable load of the vibration isolator, and the deflection change of the vibration isolator at no load and at the maximum load is about 0.5 mm. It was confirmed that there was no hindrance in the installation.

(Sound insulation performance test)
The loft described above was prototyped in the laboratory and a sound insulation performance test was conducted. In addition, the thickness of the floor slab 1 in the laboratory was 200 mm.

FIG. 8 is a relationship diagram between the loft walking state and the noise level in the sound insulation performance test.
In normal loft walking and stair climbing, the noise level on the lower floor was approximately 25 dBA or less, which was lower than the background noise of ordinary houses, and the noise was not audible.
Moreover, it was about 30 dBA or less even in loft-intensified walking and stair-intensified ascending / descending, which was the same level as background noise (30 dBA or less) in general houses. From this result, it was confirmed that the sound insulation performance of the loft was exhibited as expected and had high sound insulation properties.

FIG. 9 is a diagram showing a test result of a loft JIS rubber ball measurement by a sound insulation performance test.
The rubber ball impact source specified by JIS is an impact source that is close to human walking and running. In the measurement using this rubber ball impact source, the noise level on the lower floor is approximately 35 dBA or lower for both the loft floor and the loft staircase, and is equivalent to the underfloor storage configured with the general floor structure of an apartment house. From this, it was confirmed that the film had high vibration proofing properties.

FIG. 10 is a diagram showing the floor impact sound level by the sound insulation performance test.
In the case of the loft floor 12, the floor impact sound level on the lower floor of the light floor impact sound by the tapping machine was the sound insulation grades Lr and L-35 determined by JIS due to the effect of the vibration isolator as shown in the figure.
The floor impact sound level from the underfloor storage (underfloor storage space 3) is higher than that of the loft floor 12 because the floor material of the underfloor storage space 3 is directly stretched on the floor slab 1. The sound insulation grades Lr and L-40 determined by

(Actual test)
FIG. 11 is a relationship diagram between the walking state and the noise level in an actual apartment house.
The above-mentioned loft was installed in an actual apartment and the noise on the lower floor was measured.
As a result, as in the laboratory, both strong walking and strong lifting were approximately 30 dBA or less, and it was confirmed that even in an actual apartment house, it has good sound insulation and vibration isolation.

  Note that the scope of the present invention is not limited to the above-described embodiments, is shown by the description of the scope of claims, and further includes all modifications within the meaning and scope equivalent to the description of the scope of claims.

1 floor slab, 2 ceiling slab,
3 storage space under the floor, 4 surrounding wall
10 loft enclosures, 12 loft floors,
14 loft frame members, 16 loft base members,
18 loft upper edge member, 20 vertical support member,
21 sound insulation wall, 22 loft ceiling,
23 sound insulation wall, 24 loft stairs,
30 Lower anti-vibration material, 32 Anti-vibration anchor,
33 Anchor bolt, 34 Anti-vibration bush,
35 nuts

Claims (6)

A loft that is installed between the floor slab and the ceiling slab and has sound insulation and vibration isolation,
A loft floor located in the middle of the ceiling slab and the floor slab, with a loft precursor and a loft stairs climbing into the loft floor,
The loft building frame, the floor slab are installed independently from the surrounding features wall connecting the ceiling slab and during,
Further, a plurality of lower vibration-proof material is sandwiched, for a first-order natural frequency of the loft skeleton smaller than the primary natural frequency of the floor slab between the floor slab and the loft skeleton,
And a plurality of vibration-proof anchors to prevent horizontal movement of relaxation vital the loft skeleton vibration to the floor slab from the loft skeleton,
The loft housing is
A loft base member extending horizontally and positioned below the loft floor in proximity to the floor slab;
A loft upper edge member extending above the loft floor and extending horizontally adjacent to the ceiling slab;
A plurality of vertical support members for connecting the loft base member and the loft upper edge member at an interval;
A loft ceiling that covers the upper surface of the loft upper edge member;
The loft staircase is soundproof and vibration-proof loft characterized in that both ends of the loft stairs are supported by the vertical support member above the floor slab . Is sandwiched between the ceiling slab and the loft skeleton, sound insulation according to claim 1, wherein a plurality of upper vibration-proof material to alleviate vertical vibration to the ceiling slab loft building frame, characterized in that And a loft with anti-vibration properties . The vibration-proof anchor and anchor bolts extending upward lower end is fixed to the floor slab,
A vibration damping bushing to alleviate the position horizontally vibration and vertical vibration between them between the loft skeleton and the anchor bolts,
The loft having sound insulation and vibration proofing according to claim 1, further comprising a nut screwed onto the anchor bolt and fixing the loft housing through a vibration proof bush. Loft having sound insulating and vibration damping properties of claim 1, wherein fixed to the vertical support member having a sound insulating wall having sound insulating properties, it is characterized. A sound insulation and vibration isolation method for lofts installed between floor slabs and ceiling slabs,
Installation The loft floor located in the middle of the floor slab and the roof slab, a loft building frame and a loft stairs climbing into the loft floor, the floor slab, independently from the surrounding features wall connecting the ceiling slab and between And
The loft housing is
A loft base member extending horizontally and positioned below the loft floor in proximity to the floor slab;
A loft upper edge member extending above the loft floor and extending horizontally adjacent to the ceiling slab;
A plurality of vertical support members for connecting the loft base member and the loft upper edge member at an interval;
A loft ceiling that covers the upper surface of the loft upper edge member;
The loft stairs are supported at both ends by the vertical support member above the floor slab,
A plurality of lower vibration-proof material for the primary natural frequency of the loft skeleton smaller than the primary natural frequency of the floor slab, and sandwiched between the floor slab and the loft skeleton,
A plurality of vibration-proof anchors to prevent horizontal movement of relaxation vital the loft skeleton vibration from the loft precursor to the floor slab, sound insulation antivibration method loft, characterized in that. A plurality of upper vibration-proof material to alleviate vertical vibration to the ceiling slab from the loft skeleton, is sandwiched between the ceiling slab and the loft skeleton, sound insulation of the loft of claim 5, characterized in that Anti-vibration method.