JP6999285B2 - Stairs structure - Google Patents

Description

The present invention relates to a staircase structure including a staircase main body in which a plurality of treads are sandwiched between a pair of side girders, and treads arranged in each tread portion of the staircase main body.

Conventionally, as this kind of staircase structure, for example, in Patent Document 1, a staircase main body provided with a pair of side girders and a plurality of treads passed between the pair of side girders, and each stepped portion. A staircase structure with arranged treads has been proposed. The staircase main body is formed with an accommodating recess for accommodating the tread, and the tread is made of a mortar plate formed by placing mortar to a predetermined thickness in the accommodating recess (see, for example, Patent Document 1).

Japanese Unexamined Patent Publication No. 2014-20129

By the way, in the staircase structure shown in Patent Document 1, when the treads are provided, the treads of each tread are finished by plastering after the mortar is placed in the accommodating recesses of the stairs main body, which is troublesome. Is big. In addition, after finishing plastering, the stairs cannot be passed during the curing period until the mortar dries.

In addition, since the tread of the stairs is made of mortar plate, its weight is heavier than other materials, and when removing the stairs, it takes a lot of time to remove the mortar plate which is the tread from the main body of the stairs. Will take.

The present invention has been made in view of such a problem, and an object of the present invention is to provide a staircase structure that can be reduced in weight with a simple structure, can be easily constructed, and can be easily disassembled. To do.

In order to achieve the above object, the staircase structure according to the present invention includes a staircase main body having a pair of side girders and a plurality of treads passed between the pair of side girders, and each of the treads. A staircase structure including a mounted tread plate, wherein the tread plate is mounted on the tread portion so as to be freely attached to and detachable from the staircase main body and is made of a resin material or an inorganic material. It is characterized by comprising a base material and a finishing material laminated on the base material and made of a material different from the base material.

According to the staircase structure according to the present invention, since the tread is mounted on the tread portion so as to be freely attached to and detached from the staircase main body, the tread plate can be easily placed on the tread portion of the staircase main body. , The tread can be removed from the tread. Therefore, the construction and dismantling of the stairs can be easily performed as compared with the case where the tread is formed by mortar. Further, the resin material or the inorganic material constituting the base material is not only lighter than the mortar, but also less likely to swell than the moisture than the wood-based material such as plywood and solid wood. Therefore, it is possible to reduce the warp of the tread due to the warp of the base material. As a result, it is possible to prevent the tread from rising from the tread of the stair body.

Further, unlike the conventional case, when forming the tread, it is not necessary to place mortar or the like on the stair body, and the tread having a base material and a finishing material is simply placed on the tread to form the tread. can do. For this reason, it can be constructed by a dry method, and the tread can be easily separated from the main body of the stairs at the time of dismantling, so that the recycling work becomes easy.

Here, the base material and the finishing material constituting the tread may be adhered or screwed, but in a more preferable embodiment, the base material and the finishing material are not mutually compatible with each other. Overlapping in a restrained state.

In the staircase structure configured in this way, the base material and the finishing material overlap each other in an unrestrained state, so that the base material and the finishing material can be easily replaced at the time of maintenance. Since the base material and the finishing material can be easily separated, their recyclability can be improved. Since the base material and the finish material are made of different materials, the amount of expansion and contraction thereof differs depending on the humidity change and the temperature change, but according to this aspect, the base material and the finish material overlap each other in an unconstrained state. Therefore, these can be expanded and contracted independently, and the warp of the tread due to the difference in the amount of expansion and contraction between the base material and the finishing material can be suppressed.

Here, the base material may be made of one plate material or may be made of a plurality of plate materials fixed or bonded to each other, but in a preferred embodiment, the base material is laminated with a plurality of plate materials. The plurality of plate materials overlap each other in an unconstrained state. According to this aspect, since a plurality of plates as the base material are laminated in an unconstrained state with each other, the sound generated from the tread surface is absorbed between the plates of the base material, and when walking on the stairs. Noise is reduced. Further, even if each plate material is exposed to heat and humidity, they expand and contract independently, so that the base material as a whole is not easily warped.

In a more preferred embodiment, a slit is formed on the lower surface of the finishing material in contact with the base material along a direction intersecting the longitudinal direction of the tread. In the staircase structure configured in this way, the surface of the finishing material is directly exposed to the outside air as compared with the base material, so that it easily expands and contracts due to humidity, but by forming slits along the direction intersecting the longitudinal direction. , The stress acting on the entire lower surface of the finishing material can be divided through the slit. As a result, the warp of the finishing material can be suppressed. The "longitudinal direction of the tread" as used in the present invention is a direction that coincides with the direction along the effective width of the stairs when the tread is placed on the tread.

Further, it is preferable that the finishing material is provided with a cover material that covers a part of the tread and a continuous nose of the tread over the longitudinal direction of the tread. In the staircase structure configured in this way, it is possible to prevent the finishing material from warping by a part of the tread and a cover material that covers the nose adjacent to the tread.

The material of the base material is not particularly limited as long as it is a resin material or an inorganic material, but in a more preferable embodiment, the base material is made of gypsum board. According to this aspect, by using gypsum board as the base material, it is possible to achieve cost reduction of material cost. Since gypsum board has lower elasticity than other materials, deformation of the base material due to humidity change and temperature change can be suitably suppressed. Further, since the base material is made of gypsum board, the fire resistance of the tread can be improved.

Further, the material of the finishing material is not particularly limited as long as it is a material different from the base material, but it is preferably a hard material rather than the material of the base material, for example, a wood-based material such as solid wood. It may be a material or the like. However, in a more preferred embodiment, the finishing material is made of plywood. According to this aspect, by using the finishing material made of plywood, the base material can be protected and the aesthetic appearance can be improved. In particular, when the base material is gypsum board, it is possible to prevent the gypsum board from being dented by a heel or the like during walking. Further, the plywood as a finishing material tends to warp due to moisture absorption and drying, but such warpage can be suppressed by providing the above-mentioned slit on the upper surface of the plywood, which overlaps with the base material in an unrestrained state. ..

It is preferable that the tread portion is formed with an accommodating recess for accommodating the tread plate by forming a nose extending upward from the mounting surface of the stair tread. According to this aspect, the tread that is attached to and detachably placed on each tread is inserted into the accommodating recess formed by the stepped nose that extends upward and is placed on the tread, so that the tread is horizontal. The movement in the direction is blocked, and the tread can be stably placed in a fixed position.

Since the staircase structure of the present invention can be constructed lightweight by dry construction, construction and dismantling can be easily performed. In addition, the main body of the stairs and the treads placed on the treads can be easily separated, and the recycling work becomes easy.

The first embodiment of the staircase structure which concerns on this invention is shown, (a) is the sectional view of the main part, (b) is the side view of the step part of (a). (A) is a perspective view of a main part of the staircase main body of the staircase structure shown in FIG. 1, and (b) is a perspective view of a tread mounted on the staircase main body of (a). (A) is an enlarged view of the tread shown in FIG. 2 (b), (b) is an exploded view of (a), (c) is a sectional view of a main part along the longitudinal direction of (b), and (d) is (c). ) Is a cross-sectional view of the main part of the modified example. A perspective view of a main part in which a landing is formed on the upper part of the staircase structure shown in FIGS. 1 to 3. A perspective view of a main part in which a landing is formed at the lower part of the staircase structure shown in FIGS. 1 to 3. (A) is a cross-sectional view of a main part of the second embodiment of the staircase structure according to the present invention, and (b) is a cross-sectional view orthogonal to the longitudinal direction of the cover material. FIG. 3 is a cross-sectional view of a main part of a third embodiment of the staircase structure according to the present invention. (A) is a cross-sectional view of a main part of the fourth embodiment of the staircase structure according to the present invention, and (b) is a side view of the stepped portion of (a). (A) is a perspective view of a main part of a staircase main body having a staircase structure shown in FIG. 8, and (b) is a perspective view of a tread plate mounted on the staircase main body of (a). (A) is a cross-sectional view of a main part of a modified example of a staircase body having a staircase structure shown in FIG. 8, and (b) is a side view of a step portion used for the staircase body of (a).

[First Embodiment]
Hereinafter, the first embodiment of the staircase structure according to the present invention will be described in detail with reference to FIGS. 1 to 5.
In FIGS. 1 to 3, the staircase structure 1 includes at least a pair of side girders 2, 2 and a plurality of treads 3, 3 ... And the tread plates 5, 5 ... To be placed on each of the treads 3, 3 ... The tread plate 5 is mounted on the tread portion 3 so as to be freely attached to and detached from the staircase main body 4.

The pair of side girders 2 and 2 are formed of a metal plate having sufficient strength, such as an iron plate, and are formed of, for example, a metal plate having a thickness of about 10 mm. The pair of side girders 2 and 2 are basically shaped to be inclined at a predetermined angle with respect to a horizontal base surface such as a foundation, and are formed in a shape having a horizontal landing at the upper or lower part as needed. ing.

As shown in FIG. 1 (b), each step 3 is formed into a shape close to an L shape by bending a metal plate material such as an iron plate thinner than the side girders 2 and 2. In the present embodiment, each step portion 3 is bent from a metal plate material at a bending angle θ further larger than a right angle. The width of each step 3 in the longitudinal direction corresponds to the effective width of the stairs and is set to about 80 to 100 cm. Each tread portion 3 has a tread portion 3a along the horizontal direction, and also has a riser portion 3b extending upward from the depth end of the tread portion 3a, and the upper portion of the riser portion 3b is a nose 3c. It has become.

The plurality of treads 3, 3 ... Are joined to the side girders 2, 2 by welding or the like at both ends in the horizontal direction. As shown in FIG. 1A, the plurality of tread portions 3, 3 ... Have a depth of the tread portion 3a of the tread portion 3 located at the upper stage from the upper end of the riser portion 3b of the tread portion 3 located at the lower stage. It is joined to the lower step portion 3 so as to be continuous at a position lowered by H. For this reason, the staircase main body 4 is formed with a step nose 3c extending upward by a portion corresponding to the depth H from the mounting surface 3f on which the tread plate 5 of the step portion 3 is placed. By this step nose 3c, a storage recess 3d opened upward for accommodating the tread plates 5, 5 ... Is formed on the tread portion 3a of the tread portion 3.

In the staircase structure 1 of the present embodiment, the tread plate 5 is placed on the tread portion 3a of the tread portion 3 so as to be freely attached to and detachable from the staircase main body 4. Specifically, the tread plate 5 is placed in the accommodating recess 3d in an unrestrained state from above with respect to the staircase main body 4. The thickness T of the tread 5 coincides with the depth H of the accommodating recess 3d. That is, in the present embodiment, the height of the step nose 3c and the thickness T of the tread plate 5 are the same, and the upper end of the step nose 3c and the tread surface 3g of the tread plate 5 are located on the same plane.

The tread plate 5 includes a base material 6 made of an inorganic material, and a finishing material 7 laminated on the base material 6 on the upper side of the base material 6 and made of a material different from the base material 6. Here, as the material constituting the finishing material 7, a hard material is preferable to the material of the base material 6. As a result, it is possible to reduce the denting of the tread surface 3g due to the heel or the like when using the stairs.

In the present embodiment, the base material 6 is composed of three laminated plate materials 6a. The base material 6 (that is, the uppermost plate material 6a) and the finishing material 7 overlap each other in an unconstrained state. Further, the plates 6a, 6a ... Of the three base materials 6 are also overlapped with each other in an unconstrained state. That is, the base material 6 and the finishing material 7 are not fixed by screwing or the like, and are not adhered to each other by an adhesive. Similarly, the plates 6a, 6a ... Of the three base materials 6 are not fixed to each other by screwing or the like, and are not adhered to each other by an adhesive.

More specifically, the three plate materials 6a, 6a ... Constituting the base material 6 are each made of gypsum board, and the finishing material 7 is made of plywood. In the present embodiment, as an example thereof, the depth H of the accommodating recess 3d is set to 50 mm, the thickness of one gypsum board is set to 12.5 mm, and the thickness of one plywood is set to 12.5 mm. , The thickness T of the tread 5 is set to 50 mm.

In the finishing material 7 located on the surface of the tread plate 5, a slit 7a is formed on the lower surface of the finishing material 7 in contact with the base material 6 located below in a direction intersecting the longitudinal direction of the tread plate 5. Specifically, the slit 7a is a groove-shaped slit cut upward from the lower surface thereof, and is orthogonal to the longitudinal direction of the finishing material 7 as shown in FIGS. 3A and 3B. It is preferably formed in the direction.

The slit 7a has, for example, a cut width of 3 mm or less, a depth set to 50% or more of the plate thickness of the finishing material 7, and has a function of dividing the stress acting on the entire lower surface of the finishing material 7. Further, although the slit 7a is formed in a direction orthogonal to the longitudinal direction of the finishing material 7, if the stress acting on the entire lower surface of the finishing material 7 can be divided, the slit 7a is formed in the longitudinal direction of the tread 5. The angle of intersection with respect to the object is not particularly limited.

Further, in the present embodiment, the slit 7a is formed in the center of the lower surface of the finishing material 7 in the longitudinal direction, but the present invention is not limited to this, and a plurality of two or more slits are formed on the lower surface of the finishing material 7. May form, or these may intersect. Further, in FIG. 3C, the cross-sectional shape of the slit 7a is rectangular, but the cross-sectional shape is not limited to this, and for example, as shown in FIG. 3D, the cross-sectional shape is a triangle with a sharp tip. It may be a slit 7b having a shape, a slit having a semicircular cross section, or the like.

As shown in FIG. 1 (b), since the riser portion 3b constituting the step portion 3 is bent more than a right angle, it is slightly inclined more than a right angle. Therefore, the finishing materials 7 and the plate materials 6a, 6a ... Of the base material 6 that are overlapped with each other in an unconstrained state are overlapped with each other slightly shifted according to the bending angle θ. When the riser 3b is at a right angle, it is not necessary to shift and overlap.

As shown in FIG. 4, an upper landing 8A is provided on the upper part of the staircase structure 1, and a step portion 11 which is a part of the upper landing 8A is arranged. Horizontal portions 2A and 2A extending in the horizontal direction are formed on the side girders 2 and 2 of the staircase main body 4, and the step portion 11 is formed so as to pass between the horizontal portions 2A and 2A. It is joined to 2A by welding or the like.

The tread portion 11 includes a tread portion 11a extending on a horizontal plane and a rising portion 11b extending upward from the end portion of the tread portion 11a, and the tread portion 11a has an area corresponding to the upper landing 8A. is doing. An accommodating recess 11c opened upward for accommodating the tread plate 12 is formed on the tread portion 11a. In the upper landing 8A, the accommodating recess 11c is formed by surrounding the horizontal portions 2A and 2A of the side girders 2 and 2, the rising portion 11b, and the nose 3c. The treads 12 accommodated in the accommodating recesses 11c are placed on the treads 11 in a mutually unconstrained state so that the treads 12 can be attached to and detached from the stairs main body 4.

The tread plate 12 is made of the same material as the tread plate 5 described above, and includes a base material 13 and a finishing material 14 laminated on the base material 13. In the present embodiment, the base material 13 is a stack of three plate materials 13a, 13a .... The base material 13 and the finishing material 14 are overlapped with each other in an unconstrained state, and the plate materials 13a, 13a ... Of the base material 13 are also overlapped with each other in an unconstrained state. In the upper landing 8A, the upper end of the nose 3c of the adjacent lower step portion 3 and the tread surface 11g of the tread plate 12 are flush with each other.

Similarly, a lower landing 8B is provided at the lower part of the staircase structure 1 shown in FIG. 5, and a step portion 15 that is a part of the lower landing 8B is arranged. The tread portion 15 is joined to the horizontal portions 2B and 2B by welding or the like so as to pass between the horizontal portions 2B and 2B formed on the side girders 2 and 2.

The tread portion 15 includes a tread portion 15a extending on a horizontal plane and a riser portion 15b extending upward from the end portion of the tread portion 15a. The riser portion 15b has the same bending angle as the riser portion 3b of the step portion 3, and a step nose 15c is formed on the upper portion thereof. Further, on the side facing the riser portion 15b, a rising portion 15d having a height of about 50 mm corresponding to the thickness of the tread 16 is formed.

An accommodating recess 15e opened upward for accommodating the tread plate 16 is formed on the tread portion 15a. In the lower landing 8B, the accommodating recess 15e is formed by being surrounded by the horizontal portions 2B and 2B of the side girder, the riser portion 15b, and the rising portion 15d. The tread 16 is mounted and detachably mounted. The tread plate 16 is mounted on the tread portion 15 in a state of being accommodated in the accommodating recess 15e and in an unrestrained state so as to be freely attached to and detached from the staircase main body 4.

The tread 16 is made of the same material as the tread 5, and includes a base material 17 and a finishing material 18 laminated on the base material 17. In the present embodiment, the base material 17 is a stack of three plate materials 17a, 17a .... The base material 17 and the finishing material 18 are overlapped with each other in an unconstrained state, and the plate materials 17a, 17a ... Of the base material 17 are also overlapped with each other in an unconstrained state.

The manufacturing method of the staircase structure 1 of the present embodiment configured as described above will be described below. First, a plurality of treads 3, 3 ... Are arranged so that the nose 3c is formed on the opposite inner surfaces of the pair of side girders 2, 2. In this state, both sides of the tread portion 3 and the side girders 2 and 2 are joined by welding or the like. Further, the tip of the tread portion 3a in the upper stage and the riser portion 3b of the tread portion 3 located in the lower stage are also joined by welding or the like.

In the upper landing 8A, a step portion 11 is provided between the horizontal portions 2A and 2A of the side girders 2 and 2, and these are joined by welding or the like. In the lower landing 8B, a step portion 15 is provided between the horizontal portions 2B and 2B of the side girders 2 and 2, and these are joined by welding or the like. In this way, the staircase main body 4 is completed.

After that, each tread plate 5 is accommodated from above the accommodating recess 3d, and each tread plate 5 is placed on the tread portion 3a of the tread portion 3. Similarly, the tread plate 12 is accommodated from above the accommodating recess 11c, the tread plate 12 is placed on the tread portion 11a of the tread portion 11, the tread plate 16 is accommodated from above the accommodating recess 15e, and the tread plate 16 is treaded. It is placed on the tread portion 15a of the portion 15.

As described above, since the tread 5 (12, 16) is freely removed from the stair body 4 and placed on the tread 3 (11, 15), it can be easily installed by a dry method. As a result, the stairs can be easily constructed and dismantled as compared with the case where mortar or the like is placed in the tread to form the tread.

Further, the tread plate 5 (12, 16) has a structure in which the base material 6 (13, 17) and the finishing material 7 (14, 18) are overlapped with each other in an unconstrained state, and the base material 6 (13, 17). Is a structure in which three plate members 6a (13a, 17a) are stacked in a non-restrained state. Therefore, the base material 6 (13, 17) and the finishing material 7 (14, 18) can be expanded and contracted independently, and the warpage of the tread plate 5 (12, 16) as a whole can be suppressed. Further, since the three plate materials 6a (13a, 17a) are also laminated in an unconstrained state, the sound generated from the tread surface is the plate material 6a (13a, 17a) of the base material 6 (13,17). It is absorbed between the stairs and the noise when walking on the stairs is reduced. Further, even if each of the plate materials 6a (13a, 17a) is exposed to heat and humidity, they expand and contract independently, and it is possible to prevent the base material 6 (13, 17) from being significantly deformed as a whole.

Further, since the base material 6 (13, 17) is formed of gypsum board, which is an inorganic material, it can be constructed at low cost, and since it is less likely to swell than moisture, the warp of the tread 5 (12, 16) is reduced. can do. Further, since the staircase main body 4 is made of a metal material and the base material 6 (13, 17) is gypsum board, the fire resistance of the staircase can be improved. Since the finishing material 7 (14, 18) is made of plywood, it is possible to protect the gypsum board as the base material when pressure is applied to the tread portion 3 and the like, and it is possible to improve the aesthetic appearance. When the tread 5 (12, 16) is to be maintained, the tread 5 (12, 16) can be easily removed because the members are simply stacked on each other in an unconstrained state. Will be easy.

Further, by forming the slit 7a in the finishing material 7, the stress acting on the entire lower surface of the finishing material 7 can be divided through the slit 7a. As a result, the warp of the finishing material 7 can be suppressed. Slits may also be formed in the finishing materials 14 and 18 constituting the upper and lower landings 8A and 8B to reduce the warpage of the finishing materials 14 and 18. Since the finishing materials 14 and 18 constituting the upper and lower landings 8A and 8B have a shape close to a square, slits may be provided so as to intersect each other in a cross shape. Further, the finishing materials 14 and 18 constituting the upper and lower landings 8A and 8B may be composed of a plurality of divided plate materials.

[Second Embodiment]
A second embodiment of the present invention will be described in detail with reference to FIG. FIG. 6A is a cross-sectional view of a main part of the second embodiment of the staircase structure 1A according to the present invention, and FIG. 6B is a cross-sectional view orthogonal to the longitudinal direction of the cover material 25. It should be noted that this embodiment is different from the above-described embodiment in that the cover material 25 is further provided. The same reference numerals are given to other substantially equivalent configurations, and detailed description thereof will be omitted.

In FIG. 6, in the staircase structure 1A of the present embodiment, the cover material 25 is adjacent to a part (end edge portion) of the tread surface of the tread plate 5 in the longitudinal direction (effective width direction) of the tread plate 5. It covers the stair nose 3c and the stairs. The cover material 25 is formed of, for example, an aluminum angle material, and the horizontal portion 25a of the cover material 25 is positioned so as to cover a part of the tread plate 5, and the vertical portion 25b is positioned so as to cover a part of the nose 3c. .. A plurality of anti-slip grooves (not shown) are formed in the horizontal portion 25a along the longitudinal direction. The cover material 25 is fixed to the finishing material 7 which is a plywood by a fixing tool 26 such as a screw in a plurality of through holes 25c formed along the longitudinal direction of the horizontal portion 25a.

In this embodiment, by attaching the cover material 25 that covers a part of the tread surface of the tread plate 5 and the step nose 3c adjacent thereto, the finishing material 7 is prevented from falling off from the staircase main body 4. can. Further, since a part of the finishing material 7 is covered with the cover material 25, it is possible to prevent the finishing material 7 from warping. If the fixing tool 26 is fixed only to the finishing material 7, the finishing material 7 and the base material 6 can be overlapped with each other in an unconstrained state.

[Third Embodiment]
Next, a third embodiment of the staircase structure 1B according to the present invention will be described with reference to FIG. 7. FIG. 7 is a cross-sectional view of the main part thereof. It should be noted that this embodiment is different from the above-described embodiment in that the tread is composed of one base material. The same reference numerals are given to other substantially equivalent configurations, and detailed description thereof will be omitted.

In this embodiment, the tread 5A is attached to and detachably mounted on each of the treads 3, 3 ..., A base material 6A made of one gypsum board, and one plywood located on the base material 6A. It is provided with a finishing material 7A made of. The tread plate 5A is accommodated in the accommodating recess 3d of the staircase main body 4 and placed on the tread portion 3. In this embodiment, since the tread 5A is composed of one base material 6A and one finishing material 7A, the configuration can be simplified and the construction can be facilitated.

[Fourth Embodiment]
Next, a fourth embodiment of the staircase structure according to the present invention will be described in detail with reference to FIGS. 8 and 9. 8 (a) is a cross-sectional view of a main part of the fourth embodiment of the staircase structure 1C according to the present invention, and FIG. 8 (b) is a side view of the stepped portion 33 of FIG. 8 (a). 9 (a) is a perspective view of a main part of the staircase main body 4 of the staircase structure 1C shown in FIG. 8, and FIG. 9 (b) is a perspective view of the tread plate 5 mounted on the staircase main body 4 of FIG. 9 (a). It is a figure.

As shown in FIG. 8B, in the staircase structure 1C according to the present embodiment, each step 33 is formed by bending one metal plate material. The tread portion 33 has a tread portion 33a formed along the horizontal direction, a riser portion 33b extending at a right angle from the rear end of the tread portion 33a upward, and an upward portion from the front end of the tread portion 33a. It is provided with a step nose 33c as an anterior extending portion extending at a right angle.

In the present embodiment, each step 33 of the staircase main body 4 is formed with a storage recess 33d for accommodating the tread 5. The depth H of the accommodating recess 33d and the thickness T of the tread 5 are the same size. The tread 5 has the same configuration as that of the above-described embodiment, and is composed of a base material 6 and 6 made of three gypsum boards and a finishing material 7 made of one plywood. The finishing material 7 overlaps with each other in an unrestrained state.

In the tread portion 33 of this embodiment, tread portions 33a, riser portions 33b, and step nose 33c at both ends in the longitudinal direction are joined between the side girders 2 and 2. Further, since the upper end of the riser 33b of the lower step 33 is joined to the lower surface of the upper tread 33a at a position retracted by a distance L in the depth direction from the nose 3c of the upper step 33. The staircase structure 1C can be made compact.

Next, a modified example of the staircase structure 1C of the fourth embodiment will be described with reference to FIG. 10. 10 (a) is a cross-sectional view of a main part of a modified example of the staircase main body 4 of the staircase structure 1D shown in FIG. 8, and FIG. 10 (b) is a stepped portion 35 used for the staircase main body 4 of FIG. 10 (a). It is a side view of.

In the staircase structure 1D of this modification, the tread portion 35 ... has a tread portion 35a formed along the horizontal direction, a rising portion 35b extending upward from the rear end of the tread portion 33a, and a tread portion 35b. It is provided with a step nose 35c extending at a right angle upward from the front end of the face portion 35a.

In the present embodiment, the upper step portion 33 and the lower step portion 33 are not directly joined, and in this modification, the stair body 4 does not have a kicking portion, and the stair body 4 has Has a through hole 36 formed between the upper step portion 33 and the lower step portion 33. As a result, in the staircase structure 1D according to this modification, the staircase body 4 can be made lighter and the staircase structure can have improved ventilation performance.

Although the embodiments of the present invention have been described in detail above, the present invention is not limited to the above-described embodiments, and various designs are designed without departing from the spirit of the present invention described in the claims. You can make changes. For example, as an example of three gypsum boards as a base material, an example of three gypsum boards is shown, but it goes without saying that a larger number of gypsum boards may be used.

Further, although gypsum board is exemplified as a board material made of an inorganic material constituting the base material, an ALC board, a caical board, a flexible board or the like may be used in addition to the gypsum board. In particular, since the ALC plate and the caical plate have a small expansion rate and low elasticity, the difference in expansion and contraction between the front and back surfaces is small, and the warp of the plate material is small, which is suitable.

Further, the plate material constituting the base material may be a plate material from a resin material, and the resin material is not particularly limited, but for example, a PP (polyethylene) resin plate, a PE (polyethylene) resin plate, or the like can be used. Can be used. Since these resin materials have almost no hygroscopicity, they are not easily affected by moisture and are suitable.

Further, a flooring material such as a P tile or a cushion floor may be appropriately laid on the finishing material located on the surface of the tread. Further, the cover material can also be installed in the staircase structure shown in FIGS. 7 to 10.

1,1A, 1B, 1C, 1D: Stairs structure 2: Side girder 3: Tread part, 3a: Tread part, 3b: Kicking part, 3c: Nose, 3d: Containment recess, 4: Stairs body, 5, 5A: Tread, 6,6A: Base material, 6a: Plate, 7,7A: Finishing material, 7a: Slit, 11: Tread (landing), 11a: Tread, 11b: Rising part, 11c: Storage recess, 12: tread, 13: base material, 14: finishing material, 15: tread, 15a: tread, 15b: riser, 15e: accommodating recess, 16: tread, 17: base material, 18: finishing material, 21 : Tread (landing), 22: Tread, 25: Cover material, 33: Tread, 33a: Tread, 33c: Nose, 33d: Containment recess, 35: Tread, 35c: Nose, 35d: Containment recess

Claims (6)

A staircase structure including a pair of side girders, a plurality of treads passed between the pair of side girders, a staircase main body having the pair of side girders, and a tread plate placed on each of the treads. ,
The tread plate is mounted on the tread portion so as to be freely attached to and detached from the staircase main body.
With a base material made of resin material or inorganic material,
A finishing material laminated on the base material and made of a material different from the base material,
Equipped with
The base material and the finishing material overlap each other in an unconstrained state .
A staircase structure characterized in that a slit is formed on the lower surface of the finishing material in contact with the base material along a direction intersecting the longitudinal direction of the tread . A staircase structure including a pair of side girders, a plurality of treads passed between the pair of side girders, a staircase main body having the pair of side girders, and a tread plate placed on each of the treads. ,
The tread plate is mounted on the tread portion so as to be freely attached to and detached from the staircase main body.
With a base material made of resin material or inorganic material,
A finishing material laminated on the base material and made of a material different from the base material,
Equipped with
The base material and the finishing material overlap each other in an unconstrained state .
A staircase structure characterized in that a cover material covering a part of the tread and a continuous nose is fixed only to the finishing material over the longitudinal direction of the tread . The staircase structure according to claim 1 or 2 , wherein the base material is a stack of a plurality of plate materials, and the plurality of plate materials are overlapped with each other in an unconstrained state. The staircase structure according to any one of claims 1 to 3 , wherein the base material is made of gypsum board. The staircase structure according to any one of claims 1 to 4 , wherein the finishing material is made of plywood. Claims 1 to 5 are characterized in that the tread portion is formed with a storage recess for accommodating the tread plate by forming a stair nose extending above the mounting surface of the stair tread. The staircase structure described in any one of the items.

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