JP2000226894A - Building unit and unit building - Google Patents

Abstract

PROBLEM TO BE SOLVED: To facilitate layout to a building unit and facilitate laying work by determining the size of a vibration-damping and sound insulating sheet based on a reference size of a building unit, and fixing the sheet to an underfloor bed material by using nails. SOLUTION: A vibration-damping and sound insulating sheet 1 is formed by stacking a buffer layer on a damping layer, and sticking protective layers to the surface and back thereof. The vibration-damping and sound insulating sheet 1 is laid on an underfloor bed material 3 and fixed by staples 12, a floor finish material 2 is laid by actual contact, and a finish nail is driven and fixed to the underfloor bed material 3 through the floor finish material 2 and the vibration-damping and sound insulating sheet 1. When joints of the floor finish material 2 and the vibration-damping and sound insulating sheet 1 overlap, a tongue part 2b is fixed by a nail or the like to prevent opening. Accordingly, layout to a building unit can be facilitated, and the vibration-damping and sound insulating sheet 1 can be fixed to the underfloor bed material 3 without an adhesive.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a building unit and a unit having an excellent floor sound insulation structure for preventing vibration and sound of an upper floor from propagating downstairs in a multi-story house, particularly a wooden or steel structure house. About the building.

[0002]

2. Description of the Related Art Conventionally, a vibration damping / sound insulation sheet has been installed as a part of a floor finishing work after a building unit is installed on a building site in a vertical and front and rear combination. The size of the damping and sound insulation sheet used at that time is 910 mm x 9
A 10 mm piece was cut at the time of on-site work to match the floor plan of the room. As shown in FIG. 5, vibration control and vibration control were performed between the particle board 3 as the floor base material and the flooring 2 as the floor finish material.
The sound insulation sheet 1 is staggered and has a floor sound insulation structure that does not overlap the seams 11, 11 of the vibration damping / sound insulation sheet 1 and the seam 2b of the flooring.

However, in the conventional 910 mm × 910 mm size of the vibration damping / sound insulating sheet, the size is not based on the reference dimension of the inside of the building unit in the direction of the girder and the wife, so that the sheet is cut at the building site according to the layout. However, there is a problem that the number of work steps is increased and a large amount of cutting waste is generated. Also, the joint of the vibration damping and sound insulation sheet
If it overlaps the seam of the flooring flooring material, the flooring may open, and it is necessary to attach it to the staggered stitch so that the seam of the vibration damping and sound insulation sheet does not overlap, increasing the number of work steps. . Conventionally,
The sound insulation sheet and the particle board, which is the floor substrate, are fixed with an adhesive, which requires an adhesive application work, which has been a factor of an increase in the number of on-site work steps.

[0004]

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and has been made to reduce the number of work steps at a construction site and to reduce the number of vibration damping and sound insulation sheets to be laid. It is an object of the present invention to provide a building unit and a unit building having a floor sound insulation structure in which the total number of manufacturing steps is reduced.

[0005]

According to a first aspect of the present invention, there is provided a building unit having a floor sound insulation structure in which a vibration damping / sound insulation sheet is constructed between a floor covering material and a floor finishing material. The vibration-damping and sound-insulating sheet is sized based on a reference dimension of a building unit.

According to a second aspect of the present invention, there is provided a building unit provided with a floor sound insulation structure constructed between a floor covering material and a floor finishing material, wherein the vibration suppression / sound insulation sheet is provided. The sheet and the flooring material are fixed by the fixture, and the joint of the floor finishing material is fixed by the fixture at the overlapping portion of the seam of the vibration damping / insulation sheet and the seam of the floor finishing material.
It is characterized by having a floor sound insulation structure that is fixed to the floor base material through the sound insulation sheet.

[0007] The invention according to claim 3 is the invention according to claim 1 or 2.
The floor sound insulation structure described above is pre-assembled on a building unit production line.

According to a fourth aspect of the present invention, there is provided a unit building in which a building unit having the floor sound insulation structure according to any one of the first to third aspects is combined.

The vibration-damping and sound-insulating sheet used in the present invention is:
Basically, it is composed of a laminate of a vibration damping layer and a buffer layer, but may be at least one of the vibration damping layer and the buffer layer.
Further, a protective layer may be provided on at least one of the damping layer and the buffer layer of the laminate.

The above-mentioned vibration damping layer is basically composed of a binder and a filler for imparting mass, and an additive or the like may be added to this.

As the binder, bituminous substances such as asphalt and synthetic resins such as vinyl chloride resin are used. As the asphalt, for example, petroleum asphalt such as natural asphalt, straight asphalt, blown asphalt and cutback asphalt can be used. Among them, either straight asphalt or blown asphalt alone or a mixture of two or more thereof is suitably used.

The above-mentioned straight asphalt is mainly a residue obtained after atmospheric distillation of asphalt base crude oil, and has a large elongation, adhesive strength, waterproofness, etc., and is often used for road pavement. Also, blown asphalt blows hot air into the distillation residue of semi-asphalt base oil,
It is obtained by oxidative polymerization and has features such as a high softening point and high elasticity.

Examples of the filler include iron ore crushed into fine powder, converter slag generated in iron making, rolling, and surface treatment processes, a rolling scale, a pickling scale, and a BF.
Cast floor scales, iron sand and the like can be mentioned. Among them, iron ore fine powder, pickling scale and BF cast floor scale having high specific gravity are preferable. These have an iron oxide-based specific gravity of 4.5 to 4.5.
5.5. Filler particle size is 5-100μ
m is preferred. The shape of the filler is not limited at all, and various shapes such as fibrous, spherical, granular, and flake shapes can be used.

Along with the iron oxide-based filler, specific gravity is 2.
The rigidity and density of the vibration damping layer can be improved by using at least one light metal-based filler selected from the group consisting of 0 to 3.0 light metal carbonates and hydroxides. Examples of the light metal filler having a specific gravity of 2.0 to 3.0 used in combination include, for example, calcium carbonate, magnesium hydroxide, potassium carbonate, and sodium carbonate. Among them, calcium carbonate and magnesium hydroxide are preferably used. Further, the particle size is preferably 2 to 60 μm.

The mixing ratio of the filler and the binder is as follows:
90-65% by weight to 10-35% by weight is preferred. When the amount of the filler is less than 65% by weight, the surface density of the base material layer becomes small, and the vibration damping / sound insulation may decrease. On the other hand, when the amount of the filler exceeds 90% by weight, the amount of the binder becomes small, so that the mechanical strength and elongation of the base material layer become insufficient and the moldability may be deteriorated. In addition, when it is used for vibration damping and sound insulation of the floor, particularly, 88 to 75% by weight to 12 to 75% by weight.
25% by weight is preferred.

As the above-mentioned buffer layer, non-woven fabric, buffer rubber,
A plastic foam or the like is used, and preferably a plastic foam. As this plastic foam,
Closed-cell foams such as ethylene-vinyl acetate copolymer, polyethylene, polypropylene, and polyurethane; open-cell foams such as polyvinyl chloride, vinylon, nylon, phenolic resin, fluororesin, polyethylene, polyurethane, and urea resin; .

When selecting the plastic foam, it is necessary to consider the thickness of the floor covering. That is, it is preferable that the vibration damping / sound insulation performance against floor impact and the compression resistance performance of the floor material are maintained in a well-balanced manner. In consideration of this point, when a floor finish having a thickness of 9 mm or less is used, a closed-cell foam is preferred.
5 to 40 times the foam is more preferred.

When a floor finishing material having a thickness of more than 9 mm is used, an open-cell foam is preferable, and a 15- to 50-fold foam of polyurethane is more preferable.

Examples of the protective layer include natural fibers,
Planar products made by weaving or knitting synthetic fibers or thread-like metals, etc., nonwoven fabrics that are planar products made without the process of weaving or knitting similar materials, or Examples thereof include a polymer compound formed into a sheet or a mesh, and a metal sheet. The sheet-like material may be subjected to post-processing such as split processing or punching processing in some cases.

The method for laminating the vibration damping layer and the buffer layer, and the method for laminating these and the protective layer are not particularly limited, but generally an adhesive is used.

The fixtures used for fixing the vibration-damping and sound-insulating sheet to the floor finishing material or the vibration-damping and sound-insulating sheet to the floor base material include nails, staples (tucker nails), and finish nails.

(Function) The building unit according to the first aspect of the present invention is a building unit having a floor sound insulation structure in which a vibration damping / sound insulation sheet is constructed between a floor covering material and a floor finishing material. Since the vibration-damping and sound-insulating sheet is sized based on the standard dimensions of the building unit, it can be easily allocated, cut off chips are reduced, and the number of work steps at the building site can be reduced.

According to a second aspect of the present invention, there is provided a building unit,
A vibration damping / sound insulating sheet is a building unit having a floor sound insulating structure constructed between a floor covering material and a floor finishing material, wherein the vibration damping / sound insulating sheet and the floor covering material are fixed by a fixture. Therefore, the laying operation is facilitated, the laying is easily performed in advance on the production line of the building unit, and the same operation as described above can be obtained. Also, at the overlapping portion between the joint of the vibration damping / sound insulating sheet and the joint of the floor finishing material, the joint of the floor finishing material is passed through the vibration damping / sound insulating sheet by a fixture and fixed to the floor base material. It has good sound insulation without opening.

The building unit according to the third aspect of the invention and the unit building according to the fourth aspect of the invention are the building units according to the first and second aspects and the unit buildings obtained by combining the same. Since they are pre-assembled on the line, the number of work steps at the construction site can be reduced, and a building unit and a unit building with a short construction period and a stable sound insulation structure can be provided.

[0025]

Embodiments of the present invention will be described below. The embodiment of the present invention can be applied to a building having a wall structure and a building having a frame structure unless otherwise specified. Further, the present invention is not limited to these embodiments at all, and various modifications are possible.

FIG. 1 is a schematic sectional view showing an embodiment of a vibration damping / sound insulating sheet used in the present invention, FIG. 2 is a schematic sectional view showing a floor sound insulating structure used in the present invention, and FIG. FIG. 4 is a plan view showing an example in which a vibration damping / sound insulating sheet is previously incorporated in a unit, and FIG. 4 is a plan view showing an example in which a vibration damping / sound insulating sheet is previously incorporated in a unit building.

(Preparation of Vibration Suppression / Sound Insulation Sheet) A vibration suppression / sound insulation sheet 1 having the structure shown in FIG. 1 was obtained by the following method. That is, 65% by weight of an iron oxide-based filler composed of a pickling scale (specific gravity of 5.1) having a particle diameter of 30 μm, 20% by weight of a light metal-based filler composed of calcium carbonate having a particle diameter of 10 μm (specific gravity of 2.7), and a binder. A sheet-like vibration damping layer 1a having a thickness of 4 mm formed by heating and kneading 15% by weight of blown asphalt to form a film, and a 2 mm-thick sheet of polyethylene closed cell foam having a foaming ratio of 20 times as a buffer layer 1b are laminated. Then, the protective layer 1c is formed on both sides of the laminate.
Then, a polyester nonwoven fabric having a basis weight of 50 g / m2 was bonded with a solvent rubber-based adhesive to obtain a vibration-damping and sound-insulating sheet 1 having a thickness of 6 mm.

(Size of Vibration Suppression / Sound Insulation Sheet)
The size of the sound insulation sheet is set based on the reference dimensions (module) of the building unit. For example, the standard dimensions of the standard building unit are 900 mm (A) modules in the girder direction, and the internal dimensions in the wife direction are 900 mm (A) and 212 mm.
(B) Module. Therefore, the size of the vibration-damping and sound-insulating sheet used for a building unit of such a size is 900 mm × 1078 mm (900 mm is a girder-side module, 1078 mm is a wife-side module, and A + B
−C / 2, where C is a partition thickness of 68 mm). Compared with the conventional 910 mm × 910 mm size, the size is adjusted to the size of the building unit, so there is no waste and the size is large. Therefore, the number of laying is reduced, and efficient laying can be performed.

(Floor sound insulation structure) The above 900 mm × 1078
When a vibration-damping and sound-insulating sheet having a size of mm is installed on a multi-story house, particularly a wooden or steel-framed house, the buffer layer 1b is placed on the floor finishing material 2 side as shown in FIG. To that end, place it on a particle board having a thickness of 20 mm, which is the floor base material 3, and fix the staples 12 (tucker nails) at intervals of 150 mm.
m, where the joint between the vibration-damping and sound-insulating sheet 1 and the floor finishing material 2 overlaps, the real part 2b of the floor finishing material 2 is fixed with nails 2c, and a finish nail having a length of 25 mm is further mounted to a thickness of 150 mm. The floor is sound-insulated by nailing at intervals.

The method of allocating the vibration damping / sound insulating sheet 1 is not particularly limited. Conventionally, since there is a possibility that the seam of the floor finishing material 2 may be opened, it is a condition that the seam 11 is stuck so as not to overlap the seam 11 of the vibration damping / sound insulation sheet 1. In the building unit having the floor sound insulation structure of the present invention, the seam of the floor finish material 2 and the seam 11 of the vibration damping / sound insulation sheet 1 may overlap with each other. Fix with nails, etc., to prevent openings. Therefore, the sticking operation can be performed without worrying that the seam 11 of the vibration damping / insulation sheet 1 overlaps the seam of the floor finishing material 2.

As a method of fixing the vibration damping / sound insulating sheet 1, nailing is generally used. First, the vibration damping / sound insulation sheet 1 and the floor base material 3 are fixed. As a fixing method, staple (tucker nail) fixing is good workability, and the work of applying adhesive is unnecessary compared to the conventional adhesive fixing,
This reduces the overall man-hours. Next, nails are cast at regular intervals from the real part 2b on the floor finishing material 2 side and the floor finishing material 2 so as to penetrate the vibration damping / sound insulating sheet 1, and the vibration damping / sound insulating sheet 1 is put together with the floor finishing material 2 under the floor. It is fixed to the base material 3.

(Incorporation into building unit production line)
The vibration-damping and sound-insulating sheet can be partially pasted on a production line of a building unit production plant, and the remaining unpasted portion may be pasted on a construction site, thereby reducing the number of on-site work steps. For example, the building unit in FIG.
6 units (3600mm in the girder direction x 22 in the wife direction)
Although it is a standard size building unit called 24 mm, six vibration damping / sound insulation sheets 1 are pasted on a production line of a production factory in advance. The remaining part will be affixed in the floor finishing process after wiring and piping work. In this case, building unit area is 3.6m × 2.224m ≒ 8m ^2, vibration-damping
The area of the sound insulation sheet 1 is 0.9m x 1.078m
0.97 m ² / sheet, 0.97 m ² × 6 ≒ 5.
This is 8 m ² , and the sticking rate on the production line is about 73%. At the building site, only the remaining 27% is needed to be stuck, and the number of on-site work steps is greatly reduced.

As another embodiment, FIG.
Shows an example in which a damping / sound insulation sheet is pre-installed in a building
It is a top view. In FIG. 4, the unit building Ua is T1.
3 units (45 units), T2 unit (45 units)
Unit) and one T3 unit (54 units)
A unit building that combines three units of seven units
It is a top view which shows a 2nd-floor part. In FIG. 4, 90
2 vibration-damping and sound-insulating sheets 1 with a size of 0 mm x 1078 mm
Production of 9 building units (T1, T2, T3)
Pre-installed in line. That is, the floor area of the second floor
Is 81.56m ^TwoAnd the vibration damping and sound insulation sheet 1
The required area is storage space, corridors, stairs, utilities
-Approx. 63m excluding the part^TwoBecomes the pre-installed part
The total is 28.13m^TwoThe rate of installation at the factory
Is about 45%, and the on-site sticking operation is halved. Also,
Reduced generation of offcuts of vibration damping and sound insulation sheet 1 at building sites
Wear.

[0034]

The building unit according to the first aspect of the present invention is a building unit having a floor sound insulation structure in which a vibration damping / sound insulation sheet is constructed between a floor covering material and a floor finishing material. Since the vibration-damping / sound-insulating sheet is sized based on the standard dimensions of the building unit, it is easy to allocate, the amount of cutting waste is reduced, and the number of work steps at the building site can be reduced.

The building unit of the invention according to claim 2 is
A vibration damping / sound insulating sheet is a building unit having a floor sound insulating structure constructed between a floor covering material and a floor finishing material, wherein the vibration damping / sound insulating sheet and the floor covering material are fixed by a fixture. Therefore, the laying work is facilitated, the laying is easily performed in advance on the production line of the building unit, and the same effect as above can be obtained. Also, at the overlapping portion between the joint of the vibration damping / sound insulating sheet and the joint of the floor finishing material, the joint of the floor finishing material is passed through the vibration damping / sound insulating sheet by a fixture and fixed to the floor base material. It has good sound insulation without opening.

The building unit according to the third aspect of the invention and the unit building according to the fourth aspect of the present invention are the building units according to the first and second aspects and the unit buildings obtained by combining the same. Since they are pre-assembled on the line, the number of work steps at the construction site can be reduced, and a building unit and a unit building with a short construction period and a stable sound insulation structure can be provided.

[Brief description of the drawings]

FIG. 1 is a schematic sectional view showing one embodiment of a vibration damping / sound insulation sheet used in the present invention.

FIG. 2 is a schematic sectional view showing a floor sound insulation structure used in the present invention.

FIG. 3 is a plan view showing an example in which a vibration damping / sound insulation sheet is incorporated in a building unit in advance.

FIG. 4 is a plan view showing an example in which a vibration damping / sound insulation sheet is incorporated in a unit building in advance.

FIG. 5 is a schematic sectional view showing a conventional floor sound insulation structure.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Vibration suppression / sound insulation sheet 1a Vibration suppression layer 1b Buffer layer 1c Protective layer 2 Floor finishing material 3 Floor base material 4 Pillar 5 Wall T Building unit Ua Unit building

Claims (4)

[Claims] 1. A building unit having a floor sound-insulating structure constructed between a floor covering material and a floor finishing material, wherein the vibration-damping / sound insulating sheet has a standard dimension of the building unit. A building unit characterized in that it is sized based on. 2. A building unit provided with a floor sound insulation structure constructed between a floor covering material and a floor finishing material, wherein the vibration suppression / sound insulation sheet and the floor covering material are provided. In addition to being fixed by the fixing device, the joint of the floor finishing material is penetrated by the fixing device into the floor base material at the overlapping portion of the seam of the vibration damping and sound insulating sheet and the seam of the floor finishing material. A building unit comprising a fixed floor sound insulation structure. 3. A building unit, wherein the floor sound insulation structure according to claim 1 or 2 is pre-assembled in a building unit production line. 4. A unit building, wherein the building unit provided with the floor sound insulation structure according to any one of claims 1 to 3 is combined.