JP2004244988A - Floor noise absorbing staircase - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a floor noise absorbing staircase which reduces the occurrence of a floor noise and a squeak noise, and which is excellent in soundproof and sound-absorbing properties, sound insulating properties and dimensional stability. <P>SOLUTION: This floor noise absorbing staircase 1 comprises a tread 11, a riser 12 which is mounted almost orthogonally to the tread 11, a side board 13 for mounting the tread 11 and the riser, and a force girder 14 for supporting the tread 11, the riser 12 and the side board 13; in the tread 11, any one of a soundproof material, a sound-absorbing material and a damping material is provided on a backside 111; the tread 11, the riser 12 and the side board are composed of dimensionally stable wood; and the tread 11 and the riser 12 have a protrusion-recess fitting connection. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
TECHNICAL FIELD The present invention relates to a floor noise-reducing staircase which is less likely to generate floor noise and squeak noise, and is excellent in soundproof sound absorption, sound insulation and dimensional stability.
[0002]
[Prior art]
As shown in FIGS. 17 and 18, the conventional stairs 9 include a step board 91, a riser 92 attached to the step board 91 in a substantially orthogonal manner, a side plate 93 for mounting the step board 91 and the riser 92, Generally, it is composed of a force beam 94 for supporting a riser 91, a riser plate 92, and a side plate 93.
According to Patent Literature 1, as shown in FIG. 18, “an indentation material 95 made of a vibration damping material is mounted near the front uneven fitting joint of the tread plate 91 and the riser plate 92 and near the pedestal 96. ing."
[0003]
On the other hand, according to Patent Document 2, as shown in FIG. 19, "the damping material 97 is mounted between the tread plate 91 and the riser plate 92 provided on the back surface side." The noise generated between the step board 91 and the riser 92 is eliminated.
Further, according to Patent Document 2, an invention in which a cushion material is integrally combined with the vibration damping material 97 in Claim 4 is also proposed.
[0004]
The applicant of the present invention has previously proposed “safety tread stairs” according to Patent Document 3. This proposes a "safety stepboard stair" in which the foot does not slide or be removed from the stepboard 91 when the stairs are moved up and down.
In addition, the present applicant has proposed “Elevating and lowering silent stairs” in Patent Document 4. This is to provide a "silent staircase when ascending and descending" which is less likely to generate floor noise and squeaking noise, and is excellent in sound absorption and sound insulation.
[0005]
In addition, the present applicant has previously proposed “dimensional accuracy stabilization stairs” according to Patent Document 5. This proposes a "dimensional accuracy stabilization stair" in which the dimensional change is small, the dimensional stability is excellent, and the footboard 91, the riser plate 92, and the side plate 93 are less likely to warp or twist.
Further, the present applicant has previously proposed “Patent Application for Landing Member Using Glued and Connected Wood in Which Wood Fibers are Arranged in Multiple Directions” in Patent Document 6. This is characterized in that, unlike the conventional laminated bonded wood, a laminated lumber made of an omnidirectional fiber and a lumber plywood containing a sawn timber are used.
[0006]
On the other hand, Patent Literature 7 proposes “a laminated bonded wood for building, in which materials of small plate pieces and small square pieces are obtained by cutting parallel to the wood fiber and many of these materials are bonded in parallel with the wood fiber”. Have been.
[0007]
[Patent Document 1]
JP-A-10-292587
"Stairs damping structure"
[Patent Document 2]
JP-A-9-119205
"Wooden stairs"
[Patent Document 3]
Japanese Patent Application No. 2002-327972
[Patent Document 4]
Japanese Patent Application No. 2002-331541
[Patent Document 5]
Japanese Patent Application No. 2002-343581
[Patent Document 6]
Japanese Patent Application No. 2002-258033
[Patent Document 7]
JP-A-9-123127
[Problems to be solved by the invention]
However, according to the invention of Patent Literature 1, the sound generated on the stairs 9 passes through walls such as the tread plate 91, the riser plate 92, and the side plate 93, and the “bounced sound” is applied to these walls. It is conceivable that the corner material 95 as a vibration material does not sufficiently absorb the corner material. Further, in the uneven fitting joint portion between the tread plate 91 and the riser plate 92, a large dimensional change rate of the tread plate 91 and the riser plate 92 causes a poor connection due to a gap or distortion, thereby causing structural distortion or distortion. This is considered to be due to poor conformity of the concave / convex fitting joint due to bending.
[0008]
Therefore, a large amount of sound generated on the stairs through the gap or the like stays in the “in the box-like portion” 90 (see FIG. 17) surrounded by the tread plate 91, the riser plate 92, and the side plate 93, and serves as the vibration damping material. As shown in FIG. 6, the conventional stairs 9 have a higher "reverberation room sound absorption coefficient (%)" as compared with the first to sixth embodiments of the present invention. It is considered.
[0009]
As shown in FIG. 20, the above-mentioned "Reverberation chamber method sound absorption coefficient (%)" is obtained from the stand 3 installed above the "measurement stair model" 990 in which the tread plate 91, the riser plate 92 and the side plate 93 are assembled. The ball 4 was dropped, and the measurement was performed with the sound absorber at the “inside the box” 90 (average value of five measurements). In addition, although it is possible to measure using a sound level meter instead of the sound absorption meter, in the present invention, it is most desirable to know the sound-absorbing sound absorption of “floor sound and squeaky sound” in “in the box-like portion” 90 of the stairs. Sex.
[0010]
On the other hand, according to the invention of Patent Document 2, as shown in FIG. 6, the sound generated at the stairs 9 has a slightly higher “Reverberation chamber method sound absorption coefficient (%)” than the invention described in Patent Document 1. Although low, it was higher than any of the examples of the present invention.
Therefore, it is considered that the “reverberation chamber method sound absorption coefficient (%)” also shows a relatively high value in the stairs 9 in Patent Document 2 due to the formation of gaps and uneven bonding in the uneven fitting joint. Can be
[0011]
The main reasons are presumed as follows. According to Patent Literature 7, the wood fibers are arranged in a certain direction, whereas the bonded and joined wood of the anisotropic fibers used in the embodiment of the present invention has the wood fibers arranged in multiple directions. It is thought that there is.
This is because, in the conventional bonded wood, since the wood fibers are unevenly distributed in a certain direction, it is considered that the dimensional change rate of the wood is controlled by the wood fibers and causes expansion and contraction.
[0012]
Further, according to the embodiment of the present invention, as described later, various soundproofing materials and sound absorbing materials are used in addition to the vibration damping material, and the rough surface material of the uneven surface is also provided on the surface side of the tread plate, the fiber mat, the uneven mat, and the like. With non-slip sheet material.
And most notably, since the tread, riser and side plate are made of dimensionally stable wood, there is little occurrence of poor joints due to gaps and distortions, especially in uneven fitting joints between the tread and riser, Moreover, the joint accuracy is high due to the sickle-hook and groove fitting, the ridge-and-groove processing fitting, and the dovetail-hook and groove fitting, and furthermore, by using the corner material for decorative sound insulation, the “box” formed by the tread plate, the riser plate and the side plate In the `` like part '', the sound generated on the stairs remains or does not reverberate, the soundproofing material, the sound absorbing material, the vibration damping material, the anti-slip sheet material reduces the floor noise and creaking sound, It is considered that the “reverberation room sound absorption coefficient (%)” is higher than that of the conventional staircase 9.
[0013]
[Means for Solving the Problems]
In order to solve the problem of the above-mentioned conventional stairs 9, the means adopted by the present invention include a soundproof rubber material, a felt material, a soundproof material such as a perforated thin plate and a damping steel material, a sound absorbing material, and a damping material. Effectively utilizing the characteristics, using assembling wood of an omnidirectional fiber composed mainly of hardwood hardwood for the step board, riser board, and side board, and furthermore, sickle and concave fitting, concave and convex processing fitting, dovetail uneven fitting The present invention is to provide a floor sound-absorbing staircase having excellent soundproofing and sound absorbing properties, sound insulation properties and dimensional stability by forming uneven fitting joints having improved joining strength, strength and hardness by uneven fitting fitting such as joining. . As a result, floor noise and squeaking noise are less generated, and the acoustic environment of the stairs at midnight or in an apartment house can be improved. The sound insulation and dimensional stability of the synthetic resin foam coating roughened hardwood hardwood material will be described with reference numerals in the drawings.
[0014]
First, the means according to the first aspect of the present invention includes a step plate 11, a riser plate 12 mounted substantially orthogonal thereto, a side plate 13 on which the step plate 11 and the riser plate 12 are mounted, and a step plate 11. And a staircase composed of a power girder 14 as a receiving plate for supporting the riser plate 12 and the side plate 13,
On the back side, the tread plate 11 has any of a soundproofing material, a sound absorbing material, and a vibration damping material, and the tread plate 11, the riser plate 12, and the side plate 13 are made of dimensionally stable wood,
The step board 11 provides the floor noise-reducing staircase 1 having an uneven fitting joint.
As a result, it is possible to obtain the floor noise-reducing staircase 1 which is less likely to generate floor noise and squeaky noise, and is excellent in soundproof sound absorption, sound insulation and dimensional stability.
[0015]
According to a second aspect of the present invention, the soundproof material attached to the back surface 111 of the tread plate 11 is any one of a soundproof rubber material, a felt material, a dew sheet material, and a fiber mat. A floor noise-reducing staircase 1 is provided.
This makes it possible to effectively use inexpensive materials that are relatively easy to obtain and improve the soundproofing and sound absorption of stairs, reduce floor noise and squeaky noise, and provide excellent sound insulation and dimensional stability. Stairs 1 can be obtained.
[0016]
According to a third aspect of the present invention, the sound absorbing material attached to the back surface 111 of the tread plate 11 is any one of a felt material, a dew sheet material and a perforated thin plate. Step 1 is provided.
As a result, similarly to the soundproofing material, a relatively easily available and inexpensive material is used to particularly absorb high-frequency sounds such as floor sounds and squeak sounds generated on the stairs, thereby generating floor sounds and squeak sounds. The noise-reducing staircase 1 with less noise and excellent soundproofing and sound absorption can be obtained.
[0017]
The invention according to claim 4 is that the damping material mounted on the back surface 111 of the tread plate 11 is any one of a soundproof rubber material, a felt material, a dew sheet material, a fiber mat, and a damping steel material. It is intended to provide a floor noise-reducing staircase 1 characterized by the following.
As a result, using relatively inexpensive materials that are relatively easy to obtain like the soundproofing material or the sound absorbing material, the vibration of the floor noise and the squeaky noise generated by the vibration of the stairs is reduced, and particularly, as in the case of the damping steel material. A material having a large weight is excellent in low-frequency sound insulation.
[0018]
The means adopted by the invention according to claim 5 is that the dimensionally stable wood is any one of glued and joined wood of anisotropic fibers in which wood fibers are arranged in multiple directions, lumber plywood containing sawn timber, and wood lumarized wood. It is intended to provide a floor noise-reducing staircase 1 characterized by the following.
As a result, the floor is small in dimensional change, excellent in dimensional stability, and less warped or twisted, particularly in the uneven joint portion between the tread plate 11, the riser plate 12, and the side plate 13, and has high strength and excellent durability. The noise-reducing staircase 1 can be obtained. The warpage is determined by measuring the arrow height.
[0019]
According to a sixth aspect of the present invention, there is provided the floor noise-reducing staircase 1 characterized in that the lumber plywood containing the laminated bonded wood or the sawn timber contains hardwood hardened material selected from construction waste. Is what you do.
As a result, it is possible to effectively use waste materials of wooden buildings that are not actively recycled at the present time and to recycle materials. The waste material is preferably hardwood hardwood such as beech, zelkova, and apiton. This is because it is superior in strength and height to coniferous wood such as cedar, hinoki and pine.
[0020]
According to a seventh aspect of the present invention, there is provided a floor noise which is characterized in that the concave-convex fitting joint is any one of concave-convex ridge processing fitting, dovetail concave-convex fitting, and sickle concave-convex fitting. A silencing stair 1 is provided.
As a result, the concave / convex fitting joint between the tread plate 11, the riser plate 12, and the side plate 13 becomes strong and has excellent dimensional stability, so that a joint failure due to a gap, distortion or warpage occurs in the concave / convex fitting joint. Without this, it is possible to obtain the floor noise-absorbing staircase 1 having a high “Reverberation room method sound absorption rate (%)”.
[0021]
According to an eighth aspect of the present invention, there is provided the floor noise-reducing staircase 1 characterized in that the riser plate 12 has any one of a soundproofing material, a sound absorbing material, and a vibration damping material on the back surface side 121. Is what you do.
Thereby, even when the feet touch the riser plate 12 and "stumble", especially at the time of ascent, the generated sound can be absorbed on the back side 121 of the riser plate 12.
[0022]
According to a ninth aspect of the present invention, the soundproofing material attached to the back side 121 of the riser plate 12 is any one of a soundproofing rubber material, a felt material, a dew sheet material, and a fiber mat. The floor noise silencing staircase 1 is provided.
This makes it possible to use the relatively easily available and inexpensive material to absorb the noise generated at the rise of the riser 12 such as the stumbling noise of the toe of the riser 12 on the rear surface 121 of the riser 12. Can be done.
[0023]
According to a tenth aspect of the present invention, the sound absorbing material mounted on the back surface side 121 of the riser plate 12 is any one of a felt material, a dew sheet material, and a perforated thin plate. It is possible to provide a floor noise-reducing staircase 1.
As a result, similarly to the above-mentioned soundproofing material, a relatively easily available and inexpensive material is used, and the noise generated at the rise of the riser 12, such as the stumbling noise of the riser 12, is reduced. It can be absorbed advantageously on the back side 121.
[0024]
According to a preferred embodiment of the present invention, the damping material mounted on the back side 121 of the riser plate 12 is any of a soundproof rubber material, a dew sheet material, a fiber mat, and a damping steel material. It is intended to provide a floor noise-reducing staircase 1 characterized by the following.
Thus, using a relatively easily available and inexpensive material like the soundproofing material and the sound-absorbing material, the noise generated at the rise of the riser 12 such as the stumbling noise of the foot of the riser 12 can be reduced. 12 can be advantageously absorbed on the back side 121.
[0025]
According to a twelfth aspect of the present invention, there is provided a floor noise-reducing staircase 1 in which a non-slip sheet material is mounted on the surface of the tread plate 11.
This makes it possible to use a relatively easily available and inexpensive material to advantageously absorb the floor noise and the squeaky noise generated particularly on the surface side of the tread plate 11.
[0026]
According to a thirteenth aspect of the present invention, there is provided the floor noise-reducing staircase 1 characterized in that the riser plate 12 has a stepped nose portion formed with a non-slip uneven surface on the upper end head. .
Thus, by using a so-called prefabricated product or precut product in which the riser plate 12 is produced and processed in a factory or the like in advance, it is possible to obtain the floor noise-reducing staircase 1 with improved work efficiency at the construction site of the staircase. .
[0027]
According to a fourteenth aspect of the present invention, there is provided the floor noise-reducing staircase 1 characterized in that the riser plate 12 has a cutout recess near the lower end tread plate.
As a result, the tread surface (stepping area) of the tread plate 11 is enlarged, and the stairs can be safely moved up and down.
[0028]
The means adopted by the invention according to claim 15 is a floor noise-reducing staircase having a decorative sound-insulating corner material 15 at a front corner formed at the front end of the tread plate 11 and the riser plate 12. 1 is provided.
This prevents sound from entering the “box-shaped portion” formed by the tread plate 11, the riser plate 12, and the side plate 13 from the outside of the riser plate 12, thereby advantageously reducing floor noise and creaking noise. Ingress can be prevented.
[0029]
A means adopted by the invention according to claim 16 is that the corner material for decorative sound insulation is any one of a curved concave portion, a member having a triangular cross section, and a notch member having a substantially triangular cross section. Is to provide.
Thereby, the appearance is good by a relatively inexpensive method, the tread surface of the tread plate 11 can be efficiently enlarged, and the safety at the time of ascending and descending can be improved.
[0030]
A means adopted by the invention according to claim 16 is that the decorative sound-insulating corner material is any one of a curved concave portion, a member having a triangular cross section, and a cutout member having a substantially triangular cross section. Is provided.
Thereby, the appearance is good by a relatively inexpensive method, the tread surface of the tread plate 11 can be efficiently enlarged, and the safety at the time of ascending and descending can be improved.
[0031]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiments of the present invention will be specifically described with reference to the drawings based on the embodiments in the examples.
The floor noise-reducing staircase 1 according to the present invention includes a tread plate 11, a riser plate 12 which is mounted substantially orthogonal to the tread plate 11, a side plate 13 on which the tread plate 11 and the riser plate 12 are mounted, and a step plate 11 and a riser. It is composed of a force beam 14 that supports the plate 12 and the side plate 13 (see FIG. 1 and the like).
For this reason, it is mainly applied to the "back side of clogs", and other components such as landings, handrails and handrails (not shown), as well as receiving plates (spinners), bottom plates, wedges, etc. which can be appropriately adopted by those skilled in the art. Can be used.
[0032]
The tread plate 11 has any one of a soundproofing material, a sound absorbing material, and a vibration damping material on the back surface side 111.
Examples of the soundproofing material include a soundproofing rubber material, a felt material, a dew sheet material, and a fiber mat.
Examples of the soundproof rubber material include natural rubber, budadiene rubber, acrylonitrile rubber, styrene butadiene rubber, chloroprene rubber, butyl rubber, and urethane rubber. In addition, a foamable rubber sheet can be used.
The soundproof rubber material has elasticity as a “spring” of the rubber itself, and has a vibration damping effect in three axial directions. The soundproofing material has a large internal friction and is therefore suitable for absorbing high-frequency vibration.
The soundproof rubber material is suitable for mass production, is relatively easy to obtain, is inexpensive and lightweight, and can be advantageously used for transportation and mounting.
[0033]
Examples of the felt material include natural and synthetic resins, organic or inorganic fiber sheets, foamed synthetic resin sheets, foamed synthetic resin sheets, and various cloths having high flexibility and elasticity, such as carpets and roof carpets.
It should be noted here that, by using the felt material and the roof carpet, the felt material can be attached to a detachable felt material after the attachment.
[0034]
Examples of the sound absorbing material include a felt material, a dew sheet material, a perforated thin plate, and a cork thin plate. As perforated sheets, perforated boards of gypsum board, plywood, in particular lumber plywood containing sawn timber, can be advantageously used. Further, a non-through hole can be formed in a perforated plate of a fiber board or an insulation board, and a material exhibiting excellent characteristics of high frequency sound absorption can be used.
[0035]
As the damping material, for example, a damping steel material can be used in addition to a soundproof rubber material, a felt material, a dew sheet material, and a fiber mat. A material containing a liquid such as ethylene glycol in a thin plate of the damping steel material can be used particularly advantageously. This damping steel material was found to be able to absorb "slap noise and noise" generated when a child or the like climbs the stairs, particularly as a heavy impact sound, by measuring the "Reverberation room method sound absorption coefficient (%)".
On the other hand, the sound-insulating material and the sound-absorbing material having flexibility of the fiber mat and the dew sheet material are supported by a sound insulation class such as "falling sound of an object" or "moving sound of a chair or the like, rubbing sound" as a lightweight floor impact material. 40 to 50 can be advantageously absorbed.
[0036]
Further, in the present invention, any of the laminated bonded wood of the omnidirectional fibers in which the wood fibers are arranged in multiple directions, the lumber plywood including the sawn timber, and the lumberized wood is used as the tread plate 11, the riser plate 12, the side plate. 13 is preferred. Since the dimensional change is small and the dimensional stability is excellent in these concavo-convex fitting joints, gaps and distortion are not generated, and so-called defective joints can be advantageously prevented from occurring.
It is preferable that the concave-convex fitting joint is any one of concave-convex ridge processing fitting, dovetail concave-convex fitting, and sickle concave-convex fitting. This is because the concave-convex fitting joint is firmly formed, and a defective joint due to a gap or distortion is not generated. It is possible to reduce the passage and reflection of various sounds generated when the stairs are moved up and down by the defective joint.
[0037]
As a result, according to the present invention, since the occurrence of floor noises and creaking sounds is reduced, the sound generated when moving up and down stairs is well absorbed, the reflection is reduced, and the generation of vibration chords can be prevented.
Therefore, according to the present invention, compared with the conventional staircase 9, the "reverberation method sound absorption rate (%)" is higher (see FIG. 16), floor noise and squeaking noise are less generated, and the soundproof and sound absorbing and sound insulating properties are reduced. It is possible to provide the floor noise-reducing staircase 1 having excellent performance and dimensional stability.
When a rough surface material such as an anti-slip sheet material, a fiber mat, a rough mat, or the like is mounted on the front side of the tread plate 11, a friction noise between the foot and the tread plate 11 generated on the front side of the tread plate 11. And the "rubbing sound" are advantageously absorbed, and the floor noise-eliminating staircase 1 which is less likely to produce floor noise and creaking noise and has excellent sound-absorbing sound-absorbing properties, sound-insulating properties and dimensional stability can be obtained.
As described above, by absorbing or reflecting the light impact sound of the sound insulation grade support bearings 40 to 50 and the heavy impact sound of the support bearings 50 to 60 or more, the generation of floor noise and squeaky noise is reduced, and the soundproof sound absorption and sound insulation properties are reduced. In addition, the floor noise-reducing staircase 1 having excellent dimensional stability can be obtained.
[0038]
In the following, preferred embodiments of the present invention will be proved.
(Example 1)
As shown in FIGS. 1 to 6, the floor noise-reducing staircase 1 of the present embodiment includes a step board 11, a riser plate 12 that is attached substantially perpendicular thereto, and a side plate 13 that attaches the step board 11 and the riser plate 12. And a force girder 14 for supporting the tread plate 11, the riser plate 12, and the side plate 13.
As shown in FIGS. 1 and 2, the tread 111 has a felt 112 as a soundproofing material on the back surface 111. The felt material 112 is made of a synthetic resin foam sheet and has many closed cells. Therefore, it is excellent in sound insulation and sound absorption, and also excellent in heat insulation.
[0039]
As shown in FIG. 1, the floor noise-reducing staircase 1 has an uneven mat 113 as a non-slip sheet material on the surface side, and a corner material for decorative sound insulation at the front uneven fitting joint between the tread plate 11 and the riser plate 12. 15 Accordingly, the noise as the “slip noise” generated on the tread plate 11 is absorbed by the uneven mat 113, and the “rattle noise” generated at the front side of the tread plate 11 and the riser plate 12 is kicked from the tread plate 11. It is possible to prevent intrusion into the “in the box-like portion” 10 surrounded by the insert plate 12 and the side plate 13.
[0040]
As shown in FIG. 2, the step board 11 has a wet-expandable fitting wedge 16 which absorbs moisture (moisture) in the air for a long period of time, and its volume expands. For this reason, at the concave / convex fitting portion of the side plate 13, the concave / convex fitting between the tread plate 11 and the side plate 13 is performed by a strong fitting force.
[0041]
In addition, the tread plate 11 has, on the back surface side 111, a concave / convex fitting / recessing recess 117 with the riser plate 12. As a result, a strong concave-convex fitting joint is formed between the step plate 11 and the riser plate 12.
The tread plate 11 has a non-slip recess 115 on the front end surface side.
[0042]
As shown in FIG. 3, the uneven mat 113 as a non-slip sheet material attached to the surface side of the tread plate 11 is previously adhered with an adhesive during production processing at a factory or the like.
For this reason, the tread 11 as a prefabricated product or a precut product can be easily attached and mounted at the construction site of the stairs, is excellent in work speed, and can save labor. The step board 11 can prevent the foot from slipping on the step board 11 and falling when climbing up and down the stairs, and does not step off the foot from the step board 11. Therefore, the safety of climbing up and down the stairs can be sufficiently ensured.
[0043]
Next, the order of assembling the floor noise-reducing staircase 1 according to the present embodiment will be described.
First, as shown in FIG. 4, a “top” 16 serving as a cradle formed as an anti-slip sheet material formed on the back side 111 of the tread plate 11 as an anti-slip sheet material above the force beam 14. The concave and convex fitting is performed. Then, the long nail 3 is driven from obliquely rearward of the tread plate 11 to strengthen the concave / convex fitting joint. As a result, the tread plate 11 can be firmly attached on the force beam 14. For this reason, floor noises and creaking sounds generated when the stairs are moved up and down are reduced.
[0044]
Finally, as shown in FIG. 2, the riser plate 12 is slid from the lateral direction into the “dovetail recess 117” as an uneven fitting joint formed on the back surface 111 of the tread plate 11. , Insert and fit. As a result, the tread plate 11 and the riser plate 12 are firmly fitted to each other. Therefore, no gap is generated at the concave / convex joint between the tread plate 11 and the riser plate 12. Note that the step board 11, the riser board 12, and the side board 13 use lumber plywood, which is made of laminated bonded wood in which wood fibers are arranged in multiple directions and has little dimensional change, or lumber. Thus, particularly at the uneven fitting joint between the tread plate 11, the riser plate 12, and the side plate 13, there is no occurrence of a gap or a defective joint as distortion. In addition, the floor noise-reducing staircase 1 according to the present example is less likely to generate floor noises and creaking sounds, and is excellent in soundproofing and sound absorbing properties, sound insulating properties and dimensional stability.
[0045]
The floor noise-reducing staircase 1 thus configured has an dovetail recess 118 and a dovetail protrusion 119 at its upper end, as shown in FIG. Therefore, the floor noise-reducing staircase 1 can be quickly and easily attached to a column or a second floor (not shown) by fitting and joining these uneven portions.
[0046]
Therefore, according to this example, as shown in FIG. 6, it is possible to obtain the floor noise-reducing staircase 1 having the uneven mat 113 as a non-slip sheet material on the surface side of the tread plate 11. As shown in FIG. 6, the floor noise-reducing staircase 1 has a decorative sound-insulating corner material 15 at the upper front end of the tread plate 11 and the riser plate 12. Therefore, it is possible to obtain the floor noise-reducing staircase 1 which is less likely to generate floor noise and squeak noise as noise generated when moving up and down the stairs, and is excellent in soundproofing sound absorption, sound insulation and dimensional stability. As shown in FIG. 16, the floor noise-reducing staircase 1 of the present example has a higher “reverberation chamber method sound absorption rate (%)” for each frequency (horizontal axis) than the staircase 9 of the conventional examples 1 and 2, and It can be seen that the sound insulating and absorbing properties, the sound insulating properties and the dimensional stability are superior to those of the conventional examples 1 and 2.
(Example 2)
As shown in FIGS. 7 to 9, the floor noise-reducing staircase 1 of this example has a cutout recess 110 below the riser plate 12.
As shown in FIG. 8, on the front surface side of the tread plate 11, there is a textured roughened surface 114 as a non-slip sheet material. In addition, as shown in FIG. 9, at the upper end of the floor noise-reducing staircase 1, the cutout recess 110 attached to the pillar 4 and the second floor 5 can enlarge the tread surface (the area to be stepped on) of the tread plate 11. Therefore, the step board 11 is not stepped off when the floor noise-reducing staircase 1 is moved up and down. The rest was configured in the same manner as in Example 1.
[0047]
Further, as shown in FIG. 9, the side plate 13 is joined to the column 4 and the floor column 5 by dovetail engagement (not shown).
On the other hand, the tread 11 has a textured roughened surface 114 on the surface side. Thereby, especially when the floor noise-reducing staircase 1 is descended, there is no possibility of a slip accident or falling off the footplate 11.
Therefore, according to the present embodiment, it is possible to obtain the floor noise-reducing staircase 1 which is less likely to produce floor noise and squeaky noise and has excellent sound-absorbing and sound-absorbing properties, sound insulation and dimensional stability, as in the first embodiment. As shown in FIG. 16, the floor noise-reducing staircase 1 of this example has a higher “reverberation-room-method sound absorption rate (%)” than the conventional examples 1 and 2, and has particularly excellent sound-absorbing sound absorption. Can be obtained.
(Example 3)
As shown in FIG. 13, the floor noise-reducing staircase 1 of this example is formed as a fiber mat in “in a box-like portion” 10 formed by being surrounded by a tread plate 11, a riser plate 12, and a side plate 13 (not shown). Rock wool is filled. The tread plate 11 has a roughened surface material 115 as a rough surface of synthetic resin foam coating on the surface side. Therefore, the tread plate 11 does not step off the tread plate 11 when climbing up and down the stairs, so that sufficient safety can be ensured.
[0048]
As shown in FIG. 13, the “in the box-like portion” 10 is filled with a fiber mat or a linear rock wool. As a result, it is possible to obtain the floor noise-reducing staircase 1 which is less likely to generate floor noise and squeaky noise, and is excellent in soundproof sound absorption, sound insulation and dimensional stability.
Further, as shown in FIG. 16, the “Reverberation room method sound absorption coefficient (%)” is the highest among the examples, and the sound insulation and the heat insulation are improved. Therefore, according to this example, it is possible to obtain the floor noise-reducing staircase 1 having more excellent sound insulation and heat insulation than the first and second embodiments.
As shown in FIG. 16, the floor noise-reducing staircase 1 according to this example has a higher “sound absorption coefficient (%)” in the reverberation chamber method than the other examples, as in Example 5, and particularly has a sound insulation property and dimensions. The floor noise-reducing staircase 1 having excellent stability can be obtained.
As in the case of the floor noise-reducing staircase 1 of the present example, the rock wool is filled in the "in the box-shaped portion" 10, so that low-frequency noise can be cut off and absorbed.
Otherwise, the configuration was the same as in the first embodiment.
(Example 4)
In this example, as shown in FIG. 14, a soundproof rubber material 119 is mounted on the back surface 111 of the tread plate 11 of the first embodiment instead of the felt material 112.
Further, a soundproof rubber member 124 is mounted on the front side of the tread plate 11 instead of the felt member 112. As a result, as shown in FIG. 16, it is possible to obtain a floor noise-reducing staircase 1 having a higher “sound-absorbing rate (%)” in the reverberation chamber method than in the first embodiment, and having excellent sound-absorbing sound-absorbing properties, sound-insulating properties, and dimensional stability. .
Since other configurations are the same as those of the first embodiment, it is possible to obtain the floor noise-reducing staircase 1 which is less likely to generate floor noise and squeak noise, and is excellent in soundproof sound absorption, sound insulation and dimensional stability. .
In addition, in the floor noise-reducing staircase 1 according to the present example, since the tread plate 11, the riser plate 12, and the side plate 13 are all made of bonded and joined wood in which wood fibers are arranged in multiple directions, the "reverberation chamber method" is used. It is considered that the "sound absorption coefficient (%)" was higher than that in Example 1.
(Example 5)
As shown in FIG. 15, the floor noise-reducing staircase 1 of the present example has, as shown in FIG. 15, all the riser plates 12 in particular, all of which are made of bonded and joined wood in which wood fibers are arranged in multiple directions, and at the upper head of the riser plate 12. It has a nose 119. The nosing portion 119 is a prefabricated product or a precut product formed integrally with the main body of the riser plate 12 at a factory or the like. For this reason, the floor noise-reducing staircase 1 according to this example is excellent in workability at the construction site of the staircase.
[0049]
Further, as shown in FIG. 15, the riser plate 12 is thicker than the other embodiments 1 to 4.
Therefore, as shown in FIG. 16, as in the third embodiment, the “Reverberation room method sound absorption coefficient (%)” is higher than in the other embodiments 1 and 2, and particularly excellent in sound insulation of high-frequency noise.
Other configurations are the same as those of the first and second embodiments, and are attached to the column 4 and the second floor 5.
Therefore, according to this embodiment, similarly to the third embodiment, it is possible to obtain a floor sound-absorbing staircase 1 dew sheet material having a better sound insulation and dimensional stability than the other embodiments 1 and 2.
[0050]
【The invention's effect】
The present invention is constituted by the technical features described in claims 1 to 16. Therefore, it has various excellent effects as described below.
First, according to the first aspect of the present invention, it is possible to obtain the floor noise-reducing staircase 1 which is less likely to generate floor noise and squeak noise, and is excellent in soundproof sound absorption, sound insulation and dimensional stability.
In addition, the “Reverberation chamber method sound absorption coefficient (%)” is higher than that of the conventional examples 1 and 2, and the sound insulation and the sound absorption can be particularly improved.
[0051]
According to the second to fourth aspects of the present invention, it is possible to obtain the floor noise-reducing staircase 1 having a relatively easily available and inexpensive material. Then, the floor noise-reducing staircase 1 capable of absorbing low-frequency or high-frequency noise can be obtained.
[0052]
According to the fifth aspect of the present invention, the dimensional change is small, the dimensional stability is excellent, and the warpage or the twist (distortion) is particularly generated at the uneven fitting joint between the tread plate 11, the riser plate 12, and the side plate 13. ) Is less likely to occur, and the floor noise-reducing staircase 1 having high strength and excellent durability can be obtained. The warpage is determined by measuring the arrow height.
[0053]
According to the invention as set forth in claim 6, it is possible to effectively use waste materials of a wooden building, which are not actively used at the present time, and to recycle resources. In addition, when the said waste material is hardwood hardwoods, such as beech, zelkova, and apiton, in particular, the strength and hardness are superior to coniferous woods such as pine, cedar, and hinoki.
[0054]
According to the invention as set forth in claim 7, the uneven fitting joint of the tread plate 11, the riser plate 12, and the side plate 13 is strong and has excellent dimensional stability. A floor noise-reducing staircase 1 having a high "reverberation-room-method sound absorption coefficient (%)" can be obtained without causing a joint failure due to the above.
According to the invention as set forth in claim 8, even when the stepping up is performed, especially when the stepping up is performed, the sound generated by the stepping on the back surface of the riser plate 12 is generated even if the riser abuts on the riser plate 12 and “stumbles”. At 121, it can be efficiently absorbed.
[0055]
According to the ninth to eleventh aspects of the invention, a relatively easily available and inexpensive material is used. It can be absorbed advantageously on the back side 121.
According to the twelfth aspect of the present invention, similarly to the ninth to eleventh aspects, it is possible to use a relatively easily available and inexpensive material to reduce floor noise generated particularly on the surface side of the tread plate 11. Kisimi sound can be advantageously absorbed.
[0056]
According to the invention of claim 13, the work efficiency at the construction site of the stairs is improved by adopting a so-called prefabricated product or precut product in which the riser plate 12 is produced and processed in a factory or the like in advance. It is possible to obtain the floor noise-reducing staircase 1.
Further, according to the invention of claim 14, the tread surface of the tread plate 11 is enlarged, and the stairs can be safely moved up and down without stepping off the tread plate 11 at the time of ascending and descending.
[0057]
According to the invention described in claim 15, it is possible to prevent sound from entering the “in the box-shaped portion” 10 formed by the tread plate 11, the riser plate 12, and the side plate 13 from the outside of the riser plate 12, Floor noises and creaking sounds can be advantageously prevented.
According to the invention of claim 16, the tread surface of the tread plate 11 can be advantageously enlarged below the riser plate 12.
As described above, according to the present invention, the “sound reverberation method sound absorption rate (%)” is high, floor noise and squeak noise are less generated, and the floor noise-absorbing staircase is excellent in sound-absorbing sound-absorbing property, sound-insulating property and dimensional stability. 1 can be advantageously obtained.
[Brief description of the drawings]
FIG. 1 is a partial cross-sectional view of a central portion of a floor noise-reducing staircase according to a first embodiment.
FIG. 2 is a partial perspective view of the tread plate according to the first embodiment as viewed from the back surface side.
FIG. 3 is a perspective view of a non-slip sheet material mounted on the front side of the tread plate in the first embodiment.
FIG. 4 is a perspective view showing a mounting state of a tread plate in the first embodiment.
FIG. 5 is a partial perspective view showing an attached state of an upper end portion of the stairs in the first embodiment.
FIG. 6 is a partial perspective view of the floor noise silencing staircase according to the first embodiment as viewed from the front side.
FIG. 7 is a partial cross-sectional view of a central portion of a floor noise silencing staircase in a second embodiment.
FIG. 8 is a perspective view of a rough surface attached to the front side of the tread plate in the second embodiment.
FIG. 9 is a perspective view showing a state in which the floor noise-reducing staircase according to the second embodiment is mounted on a column or a second floor.
FIG. 10 is a partial cross-sectional view of a central portion of a floor noise-reducing staircase according to a third embodiment.
FIG. 11 is a perspective view showing a state in which a step board according to the third embodiment is mounted on a power girder.
FIG. 12 is a perspective view showing a state as viewed from a front surface side of a tread plate according to the third embodiment.
FIG. 13 is a partial cross-sectional view of a central portion of a floor noise silencing staircase according to a third embodiment.
FIG. 14 is a partial cross-sectional view of a central portion of a floor noise-reducing staircase according to a fourth embodiment.
FIG. 15 is a partial cross-sectional view of a central portion of a floor noise-reducing staircase according to a fifth embodiment.
FIG. 16 is an explanatory diagram showing “Reverberation room method sound absorption rate (%)” of the floor noise-reducing stairs according to Examples 1 to 5.
FIG. 17 is a partial cross-sectional view at the center of a conventional staircase.
FIG. 18 is a perspective view showing a state of the conventional example 1 as viewed from the back side of the stairs.
FIG. 19 is a perspective view showing a state of the staircase according to Conventional Example 2 viewed from the back surface side.
FIG. 20 is an explanatory side view of a measuring apparatus for “Reverberation room method sound absorption coefficient (%)” (vertical axis) for each frequency (horizontal axis).
[Explanation of symbols]
1 floor noise-reducing stairs
11 Stepping board
111 Back side of tread
112 felt material
113 Uneven mat
114 Texture Finish Rough Surface
115 Rough surface material
119 Soundproof rubber material
12 riser
13 Side plate
14 power digits

Claims (16)

A step board, a riser mounted substantially orthogonal thereto, a side plate on which the step board and the riser are mounted, and a stair comprising a force girder supporting the step board, the riser and the side plate,
The tread plate has a soundproofing material, a sound absorbing material, or a vibration damping material on the back surface side,
The tread, riser and side plate are made of dimensionally stable wood,
A floor noise-reducing staircase, wherein the step plate and the riser plate have an uneven fitting joint. 2. The floor noise-reducing staircase according to claim 1, wherein the soundproofing material attached to the back side of the tread is any one of a soundproofing rubber material, a felt material, a dew sheet material, and a fiber mat. The sound-absorbing staircase according to claim 1, wherein the sound-absorbing material attached to the back side of the tread is any one of a felt material, a dew sheet material, and a perforated thin plate. The vibration damping material mounted on the back side of the tread plate is any one of a soundproof rubber material, a felt material, a dew sheet material, a fiber mat, and a vibration damping steel material. 3. The floor noise silencing stairs according to 3. The dimensionally stable wood is any one of a laminated bonded wood of an omnidirectional fiber in which wood fibers are arranged in multiple directions, a lumber plywood containing a sawn timber, and a formalized wood. The floor noise-reducing staircase according to any one of claims 3, 4, and 5. The lumbar plywood containing glued joint wood or sawn timber contains hardwood hardened material selected from construction waste material, The claim 1, The claim 2, The claim 3, The claim 4, The claim 5 characterized by the above-mentioned. Floor noise silencing stairs. The concave / convex fitting connection is any of concave / convex ridge processing fitting, dovetail concave / convex fitting, and sickle concave / convex fitting. Item 7. The floor noise-reducing staircase according to claim 5 or claim 6. The riser plate has any one of a soundproofing material, a sound absorbing material, and a vibration damping material on a back surface side thereof. 6. The floor-sounding silencing staircase according to claim 7. The soundproofing material attached to the back side of the riser plate is any one of a soundproofing rubber material, a felt material, a dew sheet material, and a fiber mat. Item 7. The floor noise-reducing staircase according to Item 7 or 8. The sound absorbing material attached to the back side of the riser plate is any one of a felt material, a dew sheet material, and a perforated thin plate. The floor-sounding silencing staircase according to claim 8 or claim 9. The vibration damping material mounted on the back side of the riser is any one of a soundproof rubber material, a felt material, a dew sheet material, a fiber mat, and a vibration damping steel material. The floor noise-reducing stairs according to claim 6, claim 7, claim 8, claim 9, or claim 10. The non-slip sheet material is mounted on the surface side of the tread plate, wherein the non-slip sheet material is mounted. The floor noise-reducing stairs according to claim 8, claim 9, claim 10, or claim 11. The riser plate has a nose portion having a non-slip uneven surface on the upper end head portion. The floor noise-reducing stairs according to claim 7, claim 8, claim 9, claim 10, claim 11, or claim 12. The riser plate has a notch recess in the vicinity of the lower stepping plate, and the riser plate has a notch recess. The floor noise-reducing stairs according to claim 8, claim 9, claim 10, claim 11, claim 12, or claim 13. The front corner portion formed at the front end of the tread plate and the riser plate has a decorative sound insulating corner-inserting material, characterized in that it has a corner material for decorative sound insulation. The floor noise-reducing staircase according to claim 6, claim 7, claim 8, claim 9, claim 10, claim 10, claim 11, claim 12, claim 13, or claim 14. The decorative cornering material for sound insulation is any one of a curved concave portion, a member having a substantially triangular cross section, and a notched member having a substantially triangular cross section. The floor noise-reducing staircase according to claim 5, claim 6, claim 7, claim 8, claim 9, claim 9, claim 11, claim 12, claim 13, claim 14, or claim 15.

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