JP4662865B2 - Renovation flooring - Google Patents

Description

  The present invention relates to a flooring for renovation that can be laid on an upper surface of an existing flooring such as flooring.

  Generally, the floor of a house is constructed by laying a floor material made of wood or the like on the upper surface of a floor base material such as plywood, particle board or concrete slab, and the floor material and the floor base material are adhesives. , Nails, double-sided adhesive tape, hook-and-loop fasteners or adsorbent resin. Therefore, when renovating the floor, the work of peeling off the existing floor material from the floor base material is not easy, and the work of removing the adhesive or the like attached to the floor base material is not easy.

Therefore, conventionally, a floor renovation method has been proposed in which a new floor material is laid on the upper surface of an existing floor material for the purpose of shortening the floor renovation work period. Moreover, various floor materials for renovation suitable for the floor renovation method have been developed, and an example thereof is disclosed in Patent Document 1. The flooring for reforming of Patent Document 1 is composed of a plate-like base material and a foam layer made of an acrylic polymer provided on the lower surface of the base material, and this flooring for reforming is used as an existing flooring. When laying on the upper surface of the floor, the foam layer was adsorbed on the upper surface of the existing flooring.
JP 2003-56167 A

  In the conventional floor material for remodeling (Patent Document 1), a simple plate-like base material is used, and no structural ingenuity has been made to give the base material flexibility. Therefore, when the base material is formed of a rigid material such as a wooden material, it cannot be easily bent, and there is a problem that the workability of the renovation work is deteriorated.

  In other words, when laying the flooring for renovation on the upper surface of the existing flooring, the flooring for remodeling is repeatedly attached to and detached from the existing flooring for position adjustment. If it is not possible, the separating force cannot be efficiently applied to the adsorbing surface, and the flooring material for reforming cannot be easily detached. In addition, even after remodeling, it may be necessary to replace part of the flooring material for reforming. In this case, if the flooring material for reforming cannot be bent, it is easily removed. I can't.

  On the other hand, when the base material is formed of a flexible material such as a soft synthetic resin, the base material can be bent, so that the floor material for remodeling can be easily detached from the existing floor material. It is possible to improve the workability of the renovation work. However, in this case, the floor material for remodeling is bent undesirably and sinks during walking, so that a sense of incongruity is felt in walking and the comfortability is remarkably impaired.

  Therefore, a main problem of the present invention is to provide a flooring material for renovation that can improve the workability of the renovation work without causing deterioration of habitability.

The invention described in claim 1 is “a long plate-like wood base material 16, an impact absorbing layer 20 provided on the bottom surface of the wood base material 16, and foaming provided on the bottom surface of the shock absorbing layer 20. A flooring material 10 for reforming comprising an adsorption layer 22 made of a resin, and a plurality of grooves 26c extending in a direction orthogonal to the longitudinal direction are formed on the lower surface of the wooden substrate 16 in the longitudinal direction. A plurality of fine holes 22c are formed in the lower surface of the adsorption layer 22 , and a plurality of grooves 22b extending in the longitudinal direction are orthogonal to the longitudinal direction. The floor material for reform 10 ”is formed in parallel with a distance from each other in the direction in which it is made.

In the present invention, since the plurality of grooves 26c extending in the direction perpendicular to the longitudinal direction are formed on the lower surface of the wooden base material 16, the wooden base material 16 is flexible by these grooves 26c. Can be made. Further, the sound energy near the resonance frequency can be absorbed by the resonance effect in the “slot 26 c” of the wooden substrate 16, and the sound energy can be absorbed by the viscous resistance of air in the “fine hole 22 c” of the adsorption layer 22. Incidentally, the foamed resin constituting the adsorbing layer 22 can be of independent bubbles is used.

In addition , since the plurality of grooves 22b extending in the longitudinal direction are formed on the lower surface 22a of the adsorption layer 22, a separating force can be efficiently applied to the adsorption surface 22a from the side edge portion of each groove 22b.

According to the first aspect of the present invention, the plurality of grooves extending in the direction orthogonal to the longitudinal direction are formed on the lower surface of the wooden base material in parallel in the longitudinal direction at intervals. The entire flooring material can be made flexible. Therefore, it becomes easy to attach and detach the flooring material for reforming to the existing flooring material, and the workability of the remodeling work can be improved. Further, since the wooden base material itself has high rigidity, the floor material for remodeling does not undesirably bend and sink during walking, and the comfortability is not deteriorated.

  Furthermore, noise can be efficiently absorbed by the “slots” formed on the lower surface of the wooden substrate and the “fine holes” of the foamed resin constituting the adsorption layer, so that high sound insulation can be obtained.

Furthermore , a plurality of grooves are formed on the lower surface of the adsorption layer, and the separation force can be efficiently applied from the side edges of the grooves to the adsorption surface. It can be easily detached from.

  1 is a perspective view showing a flooring 10 for reforming to which the present invention is applied, FIG. 2 is a sectional view taken along the line II-II in FIG. 1, and FIG. 3 is a sectional view taken along the line III-III in FIG. FIG.

  As shown in FIG. 4, the flooring 10 for reforming is newly laid on the upper surface of the existing flooring 14 laid on the upper surface of the floor base material 12 such as plywood, particle board or concrete slab. Yes, as shown in FIGS. 1 to 3, a long plate-like woody base material 16, an intermediate layer 18, a shock absorbing layer 20 and an adsorbing layer 22 are laminated in this order. A protective sheet 24 is attached to the lower surface of the adsorption layer 22, that is, the adsorption surface 22a.

  The woody base material 16 has a long plate-like base material body 26 having a substantially square shape in a plan view and having two long sides facing each other and two short sides facing each other. A male fruit 26a is formed on one long side and one short side, and a female fruit 26b fitted to the male fruit 26a is formed on the other long side and the other short side of the base body 26. Has been.

  A plurality of grooves 26c (FIG. 3) extending in a direction orthogonal to the longitudinal direction are formed on the lower surface of the substrate body 26 (that is, the lower surface of the wooden substrate 16) in the longitudinal direction (left-right direction in FIG. 3). Are formed in parallel to each other at intervals. These grooves 26c are formed to give flexibility to the base body 26, and the depth of the grooves 26c and the interval between the grooves 26c depend on the thickness and material of the base body 26. For example, it is set so that sufficient flexibility can be secured.

  In addition, the material of the wooden base material 16 should just be a wooden material which has the rigidity of the grade which does not impair a walkability, for example, sawwood, plywood, IB, MDF, particle board, strand board, OSB, etc. are used. it can. Further, a general “surface finish” may be applied to the upper surface of the wooden substrate 16, or a decorative sheet may be attached.

  The intermediate layer 18 prevents the adhesive for joining the wooden base material 16 and the shock absorbing layer 20 from penetrating between the fibers or the hollow portion of the shock absorbing layer 20, and the conformability of these joint surfaces. It is formed in a sheet shape with a nonwoven fabric or paper.

When the intermediate layer 18 is made of a nonwoven fabric, the basis weight is desirably 12 to 25 g / m ² or more. When the basis weight is less than 12 g / m ² , the adhesive penetrates into the fiber or the hollow part to be hardened, the “impact absorbing function” is impaired, and the “light floor impact sound performance” is deteriorated. . Moreover, productivity is lowered due to excess adhesive oozing out. On the other hand, if the basis weight is larger than 25 g / m ² , the flexibility is impaired, the “light floor impact sound performance” is lowered, and the cost is increased.

  When joining the wooden base material 16 and the shock absorbing layer 20, the intermediate layer 18 is impregnated with a fluid adhesive, and the wooden base material 16 and the shock absorbing layer 20 are bonded via the intermediate layer 18. Is done. Therefore, the adhesive does not flow excessively between the fibers or in the hollow portion of the shock absorbing layer 20, and the “shock absorbing function” of the shock absorbing layer 20 can be prevented from being lowered.

  The shock absorbing layer 20 has both an “impact absorbing function” for absorbing an impact propagated from the wooden base material 16 and an “sound absorbing function” for absorbing noise propagated from the wooden base material 16. It is formed in a sheet shape by a “nonwoven fabric” made of synthetic resin fibers such as fibers and polyethylene fibers or a “porous material” such as urethane foam resin.

The density and thickness of the shock absorbing layer 20 are set to optimum values obtained by experiments so that both the “shock absorbing function” and the “sound absorbing function” can be performed. In the case of a non-woven fabric, the basis weight is preferably 200 g / m ² or more. This is because if the basis weight is less than 200 g / m ² , the fiber density decreases and the “impact absorbing function” is impaired. Even when the condition of “weight per unit area is 200 g / m ² or more” is satisfied, it is desirable to appropriately consider the balance of thickness, basis weight, cost, productivity, and the like.

  The adsorbing layer 22 is a sheet-like member having an “adsorbing function” that adsorbs to the upper surface of the existing flooring 14, and a plurality of grooves 22b extending in the longitudinal direction are formed on the lower surface of the adsorbing layer 22, that is, the adsorbing surface 22a. In a direction orthogonal to the direction, they are formed in parallel with a space therebetween. The adsorption layer 22 is bonded to the lower surface of the shock absorbing layer 20 with an adhesive or the like.

  The material of the adsorption layer 22 may be any material as long as a plurality of fine holes 22c are opened on the lower surface, that is, the adsorption surface 22a, and has a predetermined flexibility. In this embodiment, the expansion ratio is 2 to 3 times. An acrylic resin foam made of an acrylic polymer is used. Accordingly, in the adsorption layer 22, each fine hole 22 c functions as a “suction cup”, and by attracting air from each fine hole 22 c, an adsorption force for the existing flooring 14 can be generated.

  In addition, when the adsorption layer 22 is comprised with the acrylic resin foam, it is desirable that the thickness exists in the range of 0.5-3 mm. If the thickness is less than 0.5 mm, the flexibility is impaired and “elasticity” and “impact absorbing function” cannot be exhibited, and “lightweight floor impact sound performance” and “adsorption” are lowered. . On the other hand, if the thickness is greater than 3 mm, the flexibility becomes too great, and when walking on the floor surface, the user feels uncomfortable due to the sinking.

Moreover, when the adsorption layer 22 is comprised with the acrylic resin foam, it is desirable that the density exists in the range of 0.1-0.5 g / cm < ³ >. If the density is less than 0.1 g / cm ³ , the strength may be reduced and durability may be impaired. If the density is greater than 0.5 g / cm ³ , the number of fine holes 22c is reduced and adsorbed. This is because power may be lost.

  The protective sheet 24 functions as “release paper” that protects the adsorption surface 22a of the adsorption layer 22, and is formed of a synthetic resin such as polypropylene.

  When renovating a floor using the flooring 10 for reforming, first, the dirt adhering to the upper surface of the existing flooring 14 (FIG. 4) is removed, and the flooring 10 for reforming (FIGS. 1 to 3) on the site. And the protective sheet 24 is peeled off from the suction surface 22a. Then, the reforming flooring 10 is positioned on the upper surface of the existing flooring 14. In this positioning step, the floor material 10 for remodeling is repeatedly attached to and detached from the existing floor material 14, but since a large adsorption force is not generated unless the adsorption layer 22 is pressed and deformed to expel air from the fine holes 22c, Positioning work is easy.

  When the positioning operation is completed, the suction surface 22a is attracted to the upper surface of the existing flooring 14 by applying a load from the upper surface of the reforming flooring 10.

  On the other hand, when the renovation flooring 10 is peeled off from the upper surface of the existing flooring 14, the longitudinal end of the wooden base material 16 is lifted and bent so as to be turned, thereby opening the suction surface 22a. Air is sent into the fine holes 22c. Then, since the adsorption | suction force in the fine hole 22c falls, the flooring 10 for remodeling can be easily peeled off from the upper surface of the existing flooring 14. In this operation, a separating force can be efficiently applied to the suction surface 22a from the side edges of the plurality of grooves 22b.

  In the state where the floor material 10 for renovation is laid, the wooden base material 16 has an appropriate “flexibility”, the shock absorption layer 20 has an “impact absorption function”, and the adsorption layer 22 has an “adsorption function”. Since it has “flexibility”, the familiarity with the existing flooring 14 is good, and even when the flooring 10 for reforming moves up and down during walking, a good adsorption state with respect to the existing flooring 14 can be maintained. Moreover, since the burden on the legs and legs during walking is reduced, it is particularly suitable for housing for the elderly.

  Further, noise can be efficiently absorbed by the “slot 26 c” of the wooden substrate 16, the “fiber (or hollow portion)” of the shock absorbing layer 20, and the “fine hole 22 c” of the adsorption layer 22. That is, the sound energy near the resonance frequency can be absorbed by the resonance effect in the “slot 26 c”, and the sound energy can be converted into vibration energy by the vibration of the “fiber” or the like, and the “fine hole 22 c (and hollow portion)”. The sound energy can be absorbed by the viscous resistance of the air at. Accordingly, in combination with the “soundproof function” of the existing flooring 14, the overall “soundproofing” of the reformed floor structure can be enhanced.

  The inventors confirmed the effects such as “constructability”, “walking ability”, “soundproofing” and the like of the flooring 10 for reforming by the following experiment.

  That is, a floor base material 12 made of a concrete slab having a thickness of 150 mm was employed, and an existing floor material 14 having a thickness of 13 mm was directly attached to the upper surface thereof with an adhesive. Then, the above-described renovation flooring 10 was laid on the upper surface of the existing flooring 14. When laying the renovation flooring 10, after peeling off the protective sheet 24 of the adsorption surface 22 a, the renovation flooring 10 is placed on the upper surface of the existing flooring 14, and lightly applied from the upper surface of the renovation flooring 10. By applying a load, the adsorption surface 22a was adsorbed on the upper surface of the existing flooring 14. Then, “constructability”, “walkability”, “soundproofing” and the like in this reformed floor structure were verified as follows.

  (A) A hand was placed on the long side end face (end surface in the width direction) of the floor material 10 for renovation after construction, and this was pushed in the horizontal direction. As a result, the floor material 10 for remodeling was not displaced. Thereby, it turned out that practically sufficient adsorption power can be obtained.

  (B) When the longitudinal end of the reform flooring 10 was lifted and bent so as to be turned, the reforming flooring 10 could be easily peeled off from the upper surface of the existing flooring 14. . Further, when the renovated flooring 10 was laid again on the upper surface of the existing flooring 14 and pushed in the horizontal direction, the renovating flooring 10 was not displaced. Thereby, even when the flooring 10 for renovation was used repeatedly, it turned out that predetermined | prescribed adsorption | suction power can be maintained.

  (C) When walking on the upper surface of the flooring 10 for reforming, there was no sense of incongruity due to sinking or the like. That is, it was found that good “walking ability” can be obtained.

  (D) After the renovation flooring 10 has been used for a predetermined period of time, it was confirmed that the renovation flooring 10 and the existing flooring 14 were “dirt” or “damaged”. Conspicuous “dirt” or “damage” had occurred. There wasn't.

  (E) When "lightweight floor impact sound performance" was measured according to "JISA1440" with respect to the existing floor structure, evaluation of "LL-45" was able to be obtained. Moreover, when "lightweight floor impact sound performance" was measured according to "JISA1440" with respect to the reformed floor structure, evaluation of "LL-45" was able to be obtained. Thereby, even when the flooring 10 for renovation was laid, it turned out that the "sound insulation" which the existing floor structure had was not impaired.

Perspective view showing floor material for renovation II-II sectional view in FIG. III-III sectional view in FIG. Sectional drawing which shows the use condition of flooring for renovation

Explanation of symbols

10 ... remodeling flooring 12 ... underfloor member 14 ... existing floor member 16 ... wood substrates 18 ... intermediate layer 20 ... shock absorbing layer 22 ... adsorption layer 22a ... suction surface 22 c ... fine hole 24 ... protection sheet 26 ... group Material body 26a ... male 26b ... female 26c ... slave

Claims (1)

A floor material for remodeling comprising a long plate-like wood base material, a shock absorbing layer provided on the bottom surface of the wooden base material, and an adsorption layer made of a foamed resin provided on the bottom surface of the shock absorbing layer. There,
On the lower surface of the wooden substrate, a plurality of grooves extending in a direction perpendicular to the longitudinal direction are formed in parallel in the longitudinal direction at intervals.
A plurality of fine holes are opened on the lower surface of the adsorption layer , and a plurality of grooves extending in the longitudinal direction are formed in parallel with a gap in the direction orthogonal to the longitudinal direction . , Flooring for renovation.

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