JP7379799B2 - Variable slope staircase device - Google Patents

Description

The present invention relates to a variable slope staircase device.

Patent Document 1 discloses a technology related to a staircase slope comparison experience facility that allows users to experience a plurality of stairs with different slopes. In this prior art, a plurality of experience stairs with different slopes are provided, and all of these stairs are stored in a storage unit in a vertically overlapping manner. All or some of these stairs can be pulled out from inside the storage section to the side, allowing the user to compare and experience the slopes of each staircase. In this way, the prior art is capable of effectively utilizing a narrow space by accommodating a plurality of stairs one on top of the other.

Japanese Patent Application Publication No. 2004-264574

However, in the above-mentioned prior art, a plurality of stairs are stacked and stored in a storage section, and these stairs are pulled out from the storage section, so that an installation space for at least two stairs is required. In other words, space for both the storage area and the pull-out staircase is required.

The present invention takes the above-mentioned facts into account and aims to provide a variable slope staircase device that allows users to experience a plurality of stairs with different slopes in a narrow space.

The variable slope staircase device according to the first aspect includes a vertical member arranged along the vertical direction, and one end in the longitudinal direction fixed to the lower end of the vertical member and arranged perpendicular to the vertical member. a pair of supports disposed opposite to each other; A plurality of treadboard materials arranged at predetermined intervals along the longitudinal direction of the material, one longitudinal end of which is fixed to the diagonal material, and the other longitudinal end of the plurality of treadboard materials. One end in the longitudinal direction is rotatable, and the other end in the longitudinal direction is fixed to the diagonal member while adjusting the angle formed between the plurality of tread members. a plurality of risers horizontally supporting each of the tread materials, and a plurality of treads each spanning between a pair of tread materials arranged horizontally opposite each other in the pair of supports. There is.

The variable slope staircase device according to the first aspect includes a pair of supports. The support is configured to include a vertical member, a bottom member, and a diagonal member. The vertical member is arranged along the vertical direction, and the bottom member is fixed to the lower end of the vertical member. placed perpendicular to the Further, the diagonal member is set to be fixed to the vertical member and the lower member so that the angle of inclination thereof can be adjusted.

Further, in this aspect, the variable slope staircase device includes a plurality of tread members, a plurality of risers, and a plurality of treads. A plurality of tread members are arranged at predetermined intervals along the longitudinal direction of the diagonal member, and one end portion in the longitudinal direction of the tread member is fixed to the diagonal member. In addition, one longitudinal end of the riser can be rotated relative to the other longitudinal end of the tread, and the riser can be rotated with the angle formed between it and the tread being adjusted. The other end in the longitudinal direction is fixed to the diagonal member so as to horizontally support the tread member. The footboard is spanned between a pair of footboard members arranged to face each other in the horizontal direction.

In this aspect, the inclination angle of the diagonal member can be adjusted, and the tread members are arranged at predetermined intervals along the longitudinal direction of the diagonal member. Then, the tread plate is bridged between a pair of opposing tread plate materials. That is, in this aspect, the inclination angle of the stairs can be adjusted simply by changing the inclination angle of the diagonal members. Further, in this aspect, the angle formed between the riser and the tread member can be adjusted. This allows the height difference in the stairs to be adjusted.

That is, in this aspect, the slope of the stairs can be adjusted simply by adjusting the inclination angle of the diagonals, so it is possible to experience a plurality of stairs with different slopes within the space where the variable slope staircase device is installed. It becomes possible.

Note that the "vertical direction" here is not necessarily limited to a completely vertical direction, but is a concept that includes a "substantially vertical direction." Similarly, "orthogonal" and "horizontal" are concepts that include "substantially orthogonal" and "substantially horizontal," respectively.

A variable slope stairway device according to a second aspect is a variable slope stairway device according to the first aspect, which is movable within a first elongated hole portion formed along the longitudinal direction in the vertical member; and a first fixing part that fixes one end in the longitudinal direction of the diagonal member, and a second elongated hole formed in the lower member in the longitudinal direction. The diagonal member further includes a second fixing portion that fixes the other end in the longitudinal direction and makes it possible to adjust the inclination angle of the diagonal member with respect to the first fixing portion.

The variable slope staircase device according to the second aspect further includes a first fixing part fixed to the vertical member and a second fixing part fixed to the bottom member. The first fixing part is movable within a first elongated hole formed in the longitudinal direction of the vertical member, and one end of the longitudinal member and the diagonal member in the longitudinal direction is fixed by the first fixing part. Ru. Further, the second fixing part is movable within a second elongated hole formed in the longitudinal direction of the lower member, and the second fixing part allows the other end of the lower member and the diagonal member in the longitudinal direction to be moved. is fixed.

In this way, the inclination angle of the diagonal member can be adjusted by the first elongated hole portion and the first fixing portion provided on the vertical member side and the second elongated hole portion and second fixing portion provided on the lower member side. Ru.

In the variable slope staircase device according to a third aspect, in the variable slope staircase device according to the second aspect, one end in the longitudinal direction of the riser member can be rotated with respect to the other end in the longitudinal direction of the tread member. The angle formed between the tread plate material and the riser member is adjusted by moving within the third elongated hole formed along the longitudinal direction in the riser material, and It further includes a third fixing part that fixes the diagonal member.

The variable slope staircase device according to the third aspect further includes a shaft portion provided between the tread material and the riser material, and a third fixing portion fixed to the riser material. The shaft part rotatably supports one longitudinal end of the riser material relative to the other longitudinal end part of the tread material, and the riser material is connected to the tread material via the shaft part. It is possible to adjust the angle at which it is formed.

Further, the third fixing part is movable within a third elongated hole formed in the riser along the longitudinal direction, and the riser and the diagonal member are fixed by the third fixing part. Thereby, the riser can be fixed to the diagonal member while the angle of the riser is adjusted with respect to the horizontally supported tread member. As a result, it becomes possible to adjust the step height of the stairs.

A variable slope stairway device according to a fourth aspect is a variable slope stairway device according to any one of the first to third aspects, in which the lengthwise direction of the riser member supporting the tread material constituting the lower step is The other end is fixed to the base material.

As mentioned above, the third elongated hole is formed in the riser along the longitudinal direction, and the third fixing part that fixes the riser and the diagonal is connected to the riser through the third elongated hole. It is movable along the length of the material. The height difference of the stairs is adjusted depending on the position of the third fixing part relative to the riser, but when the height difference of the stairs is low, the angle formed between the tread material and the riser becomes an acute angle. In this case, the other end in the longitudinal direction of the riser that supports the tread material constituting the lower stage may protrude from below the diagonal member. For this reason, when installing the stairs in this aspect on the floor surface, it is necessary to prevent the diagonal members from protruding from below.

In the variable slope staircase device according to the fourth aspect, the other end in the longitudinal direction of the riser that supports the tread material constituting the lower step is fixed to the lower member, so that the other end in the longitudinal direction of the riser This makes it possible to prevent the diagonal from protruding from below the diagonal member. Therefore, in this aspect, it becomes possible to install the stairs on the floor surface.

A variable slope stairway device according to a fifth aspect is a variable slope stairway device according to any one of the first to fourth aspects, wherein the vertically adjustable handrail has a slope of the diagonal member. It is installed according to the angle.

In the variable slope staircase device according to the fifth aspect, the handrail that can be adjusted in the vertical direction is installed according to the inclination angle of the diagonal member, so the user can experience a handrail that changes the height along the vertical direction. becomes possible.

As explained above, the variable slope staircase device according to the present embodiment has an excellent effect of allowing the user to experience a plurality of stairs with different slopes in a narrow space.

FIG. 1 is a perspective view of a staircase to which the variable slope staircase device according to the present embodiment is applied, as viewed diagonally from the front side. FIG. 1 is a side view of a staircase to which the variable slope staircase device according to the present embodiment is applied. FIG. 1 is a side view of a staircase to which the variable slope staircase device according to the present embodiment is applied. FIG. 1 is an exploded perspective view showing a main part of a staircase to which the variable slope staircase device according to the present embodiment is applied.

Hereinafter, a staircase 10 to which a variable slope staircase device according to the present embodiment is applied will be explained using the drawings.

(Configuration of variable slope staircase device)
First, the configuration of the variable slope staircase device according to this embodiment will be explained.

FIG. 1 shows a perspective view of a staircase 10 to which a variable slope staircase device according to the present embodiment is applied, as viewed diagonally from the front side. The stairs 10 shown in FIG. 1 are, for example, stairs 10 installed in an exhibition hall or the like, and the slope of the stairs 10 can be adjusted.

In this embodiment, the staircase 10 includes a pair of supports 12 that constitute both sides 10A of the staircase 10. The support body 12 is fixed in an inclined state between the vertical members 14 arranged substantially vertically, the lower members 16 arranged substantially horizontally, and the vertical members 14 and the lower members 16. The vertical member 14, the lower member 16, and the diagonal member 18 are each made of elongated plate-shaped metal.

A fixing hole (not shown) is formed in the lower end 14A of the vertical member 14, and a fixing hole (not shown) is formed in the one end 16A of the lower member 16 in the longitudinal direction. One longitudinal end portion 16A of the lower member 16 is fixed to the lower end portion 14A of the vertical member 14 through these fixing holes via bolts 20 and nuts (not shown). It is arranged substantially perpendicular to the

Further, a plurality of fixing holes 18A (see FIG. 4) are formed in the diagonal member 18 at predetermined intervals along the longitudinal direction. One end 18B in the longitudinal direction of the diagonal member 18 is fixed to the vertical member 14 via a bolt (first fixing portion) 22 and a nut (not shown) that is fixed to the vertical member 14 side through the fixing hole 18A.

The other end 18C in the longitudinal direction of the diagonal member 18 is fixed to the lower member 16 via a bolt (second fixing portion) 24 and a nut (not shown) which is fixed to the lower member 16 through the fixing hole 18A. . As a result, the diagonal member 18 is fixed in an inclined state with respect to the vertical member 14 and the lower member 16 (described later).

Further, a beam member 23 is spanned over the lower end portions 14A of the pair of vertical members 14 so as to connect the pair of supports 12, and the upper end portions 14B of the pair of vertical members 14 are A beam material 25 is spanned so as to connect the supports 12. Furthermore, a pair of braces 26 are strung across in a cross shape, including a pair of vertical members 14 and beam members 23 and 25.

Furthermore, a beam member 27 is spanned over one end 16A of the pair of lower members 16 in the longitudinal direction so as to connect the pair of supports 12, and the other end of the pair of lower members 16 in the longitudinal direction A beam material 29 is spanned over the 16B side so as to connect the pair of supports 12 to each other. Furthermore, a pair of braces 28 are strung across in a cross shape, including a pair of lower members 16 and beam members 27 and 29.

These braces 26 and 28 make it possible to further improve the rigidity of the stairs 10 and suppress deformation of the stairs 10.

Here, in this embodiment, a long hole portion (first long hole portion) 30 is formed in the upper end portion 14B of the vertical member 14 along the longitudinal direction of the vertical member 14. Further, on the other end 16B side of the lower material 16 in the longitudinal direction, an elongated hole portion (second elongated hole portion) 32 (see FIG. 3) is formed along the longitudinal direction of the lower material 16.

Therefore, the inclination angle θ of the diagonal member 18 can be adjusted by moving the bolt 22 within the elongated hole 30 of the vertical member 14 and moving the bolt 24 within the elongated hole 32 of the lower member 16. Ru. The inclination angle θ of the diagonal member 18 is, for example, θ1 in the staircase 10 shown in FIG. 2, and θ2 in the staircase 10 shown in FIG. 3.

In addition, in this embodiment, since it is only necessary to be able to adjust the inclination angle θ of the diagonal member 18, it is only necessary to be able to adjust the positions of the bolts 22 and 24 with respect to the vertical member 14 and the lower member 16, respectively. . Therefore, the elongated holes 30 and 32 are not necessarily required. For example, a plurality of fixing holes (for example, the fixing hole 33 shown in FIG. 2) are formed along the longitudinal direction of the vertical member 14 and the lower member 16, and the bolts 22 and 24 are fixed to the fixing holes. The inclination angle θ of the material 18 may be adjusted.

Moreover, in this embodiment, as shown in FIG. 2, the staircase 10 further includes a plurality of tread members 34, a plurality of risers 36, and a plurality of treads 38. The footboard 38 is formed of a long plate-like metal, resin, or the like. Further, the tread member 34 and the riser member 36 are formed of elongated plate-shaped metal, and are capable of supporting the tread board 38.

As shown in FIGS. 2 and 4, a plurality of tread members 34 are arranged at predetermined intervals along the inclination direction in which the diagonal member 18 inclines. A fixing hole 34B is formed in one end 34A of the longitudinal direction of the tread plate material 34, and the tread plate material 34 is fixed to the diagonal member 18 through the fixing hole 34B with bolts 40 and nuts 42 ( (described later). Further, a fixing hole 34D is formed in the other end 34C of the tread plate material 34 in the longitudinal direction.

On the other hand, a fixing hole 36B is formed in one longitudinal end 36A of the riser 36, and a fixing hole 34D formed in the other longitudinal end 34C of the tread plate 34 is formed in the fixing hole 36B. The inserted bolt (shaft portion) 44 can be inserted.

The riser member 36 can rotate relative to the tread member 34 around this bolt 44, and the riser member 36 forms an angle θ' with the tread member 34 via the bolt 44 and nut 46. It is adjustable. Note that the angle θ' formed between the tread material 34 and the riser material 36 is, for example, in the staircase 10 shown in FIG. 2, the angle formed between the tread material 34 and the riser material 36 is θ'1, as shown in FIG. In the staircase 10, the angle formed between the tread material 34 and the riser material 36 is θ'2.

Further, a washer 37 is provided between the other longitudinal end 34C of the tread plate 34 and one longitudinal end 36A of the riser 36, so that the tread plate 34 and the riser 36 are arranged at a predetermined angle θ'. It is restrained from relative rotation while being fixed.

Further, on the other end 36C side in the longitudinal direction of the riser 36, a long hole (third long hole) 48 is formed along the longitudinal direction of the riser 36, and the inside of the long hole 48 is opened. A bolt (third fixing part) 40 is movable.

Therefore, when adjusting the angle θ' between the riser 36 and the tread plate 34, the bolt 40 is moved within the elongated hole 48 at the other end 36C in the longitudinal direction of the riser 36, and the tread plate The other longitudinal end portion 36C of the riser 36 is fixed to the diagonal member 18 through the fixing hole 18A of the diagonal member 18 and via the bolt 40 and nut 42 so that the member 34 is supported horizontally.

As shown in FIG. 3, the riser 41 that supports the tread material 35 over which the tread 38B that constitutes the lower tier (here, the tier one step above the tread 38A that constitutes the lowest tier) is It is fixed to the lower member 16 through the elongated hole 48 of the riser 41 and the elongated hole 32 of the lower member 16 with bolts 40 and nuts 42 shown in FIG.

On the other hand, as described above, the footboard 38 is formed into a long plate shape, and the stoppers 50 are suspended from the back surface of the footboard 38 at both ends of the footboard 38 in the longitudinal direction. When the tread plate 38 is placed on the tread plate material 34, the stopper 50 comes into contact with a pair of tread plate materials 34 arranged to face each other in the substantially horizontal direction, so that the tread plate 38 is moved in the width direction of the stairs 10. Movement will be regulated. As shown in FIG. 4, the stopper 50 is formed with a notch 52, and the side where the notch 52 is formed is the front side of the riser 36.

By the way, a handrail 54 can be attached to the upper end 14B of the vertical member 14 and the other longitudinal end 16B of the lower member 16. The handrail 54 includes a vertical member 56 and a diagonal member 58, and the diagonal member 58 is rotatable with respect to the vertical member 56 via a shaft portion 60. The diagonal member 58 is fixed in a state in which the angle of the diagonal member 58 with respect to the vertical member 56 is adjusted in accordance with the inclination angle θ of the diagonal member 18 that adjusts the slope of the stairs 10.

Further, the height (vertical direction) of the vertical member 56 is adjustable. For example, the vertical member 56 is composed of an outer cylinder and an inner cylinder (not shown), and the height of the vertical member 56 can be adjusted by moving the outer cylinder along the axial direction of the inner cylinder. The height of the vertical member 56 is set by fixing the outer cylinder while moving it relative to the inner cylinder.

(Operations and effects of variable slope staircase device)
Next, the operation and effect of the variable slope staircase device according to this embodiment will be explained.

As shown in FIG. 1, a staircase 10 to which the variable slope staircase device according to the present embodiment is applied includes a pair of supports 12, and the supports 12 include a vertical member 14, a lower member 16, and an oblique member. material 18. The vertical member 14 is arranged substantially vertically, and the lower member 16 is arranged substantially perpendicular to the longitudinal member 14.

The diagonal member 18 is set to be fixed to the vertical member 14 and the lower member 16 so that the inclination angle θ can be adjusted. Specifically, as shown in FIG. 3, a long hole 30 is formed in the upper end portion 14B of the vertical member 14 along the longitudinal direction of the vertical member 14, and a long hole portion 30 is formed in the upper end portion 14B of the vertical member 14, and A long hole 32 is formed along the longitudinal direction of the lower material 16 on the other end 16B side.

With the above configuration, in this embodiment, the bolts 22 move within the elongated holes 30 of the vertical member 14 and the bolts 24 move within the elongated holes 32 of the lower member 16, so that the diagonal members 18 The inclination angle θ is adjustable.

Furthermore, in this embodiment, as shown in FIGS. 2 and 4, the stairs 10 further include a plurality of tread members 34, a plurality of risers 36, and a plurality of treads 38. A plurality of tread plates 34 are arranged at predetermined intervals along the longitudinal direction of the diagonal plate 18, and one end 34A of the tread plates 34 in the longitudinal direction is fixed to the diagonal plate 18.

Moreover, this embodiment further includes a bolt 44 provided between the tread member 34 and the riser member 36, and a bolt 40 fixed to the riser member 36. The bolt 44 rotatably supports one longitudinal end 36A of the riser 36 relative to the other longitudinal end 34C of the tread plate 34, and the bolt 44 allows the riser 36 to connect with the tread plate 34. It is possible to adjust the angle θ' formed between the two. Further, the bolt 40 is movable within a long hole 48 formed in the riser 36 in the longitudinal direction, and the riser 36 and the diagonal member 18 are fixed by the bolt 40 .

Thereby, the riser 36 can be fixed to the diagonal member 18 while adjusting the angle θ' of the riser 36 with respect to the substantially horizontally supported tread member 34. As a result, in this embodiment, the step H can be adjusted according to the inclination angle θ of the stairs 10. Note that the step H of the stairs 10 is, for example, a step H1 in the stairs 10 shown in FIG. 2, and a step H2 in the stairs 10 shown in FIG. 3.

That is, in this embodiment, the slope of the staircase 10 can be adjusted simply by adjusting the inclination angle θ of the diagonal member 18. Therefore, it is possible to experience a plurality of stairs 10 with different slopes in a space such as an exhibition hall where the stairs 10 are installed.

Here, in this embodiment, a long hole 48 is formed along the longitudinal direction of the riser 36, and the bolt 40 for fixing the riser 36 and diagonal member 18 is inserted through the long hole 48 into the riser. 36 is movable along the longitudinal direction.

Accordingly, in this embodiment, the step H of the stairs 10 is adjusted by the position of the bolt 40 with respect to the riser 36, but as shown in FIG. is fixed at the upper end side of a long hole 48 formed at the other end 36C of the riser 36 in the longitudinal direction. In this case, the other longitudinal end 36C of the riser 36 may protrude from below the diagonal member 18, and when installing the stairs 10 on the floor 11, the other end 36C of the riser member 36 in the longitudinal direction may protrude from below the diagonal member 18. There is a need to.

Therefore, in this embodiment, the riser 41 that supports the footboard 38B constituting the lower step is fixed to the lower member 16 at the other end 36C in the longitudinal direction. This makes it possible to prevent the other end 36C of the riser 41 in the longitudinal direction from protruding from below the diagonal member 18. As a result, in this embodiment, the stairs 10 can be installed on the floor surface 11.

Further, in this embodiment, the staircase 10 is configured to include a vertical member 14, a lower member 16, a diagonal member 18, a tread member 34, a riser member 36, and a tread member 38, and these members are connected via bolts and nuts. It is designed to be fixed.

That is, in this embodiment, the stairs 10 are assembled and can be disassembled. In other words, this staircase 10 can be assembled and disassembled at an exhibition hall or the like. Therefore, when the stairs 10 are not in use, they can be stored in a disassembled state, so that the storage space can be made compact. Further, when installing the stairs 10 in an exhibition hall or the like, it is convenient because the stairs 10 can be transported in a disassembled state. Note that the stairs 10 may be welded in advance at portions of each member that are not rotated.

Further, in this embodiment, a handrail 54 that can be adjusted in a substantially vertical direction can be attached to match the inclination angle of the diagonal member 18. This makes it possible to experience the handrail 54 with varying heights along the vertical direction.

Although an example of the embodiment of the present invention has been described above, the embodiment of the present invention is not limited to the above, and one embodiment and various modifications may be used in combination as appropriate, and the embodiment of the present invention It goes without saying that the invention can be implemented in various ways without departing from the spirit of the invention.

10 Stairs (variable slope staircase device)
12 Support 14 Vertical member 14A Lower end (lower end of vertical member)
16 Bottom material 16A One end (one end in the longitudinal direction of the bottom material)
18 Diagonal member 18B One end (one end in the longitudinal direction of the diagonal member)
18C Other end (other longitudinal end of diagonal member)
22 bolts (first fixing part)
24 bolts (second fixing part)
30 Long hole part (first long hole part)
32 Long hole part (second long hole part)
34 Treadboard material (treadboard material constituting the lower tier)
34A One end (one end in the longitudinal direction of the tread material)
34C Other end (other end in the longitudinal direction of the tread material)
35 Treadboard material (treadboard material constituting the lower tier)
36 Riser material 36A One end (one end in the longitudinal direction of the riser material)
36C Other end (other end in the longitudinal direction of the riser)
38 Step board 40 Bolt (third fixed part)
41 Risers (risers that support the treads that make up the lower tier)
44 bolt (shaft)
48 Long hole part (third long hole part)
54 Handrail θ Inclination angle (inclination angle of diagonal material)
θ' angle (angle between riser and tread)

Claims (4)

A vertical member arranged along the vertical direction, a lower member having one longitudinal end fixed to the lower end of the vertical member and arranged perpendicular to the vertical member, the vertical member and the lower member a pair of supports disposed opposite to each other, each of which includes a diagonal member that is fixed so as to be adjustable in its inclination angle;
a plurality of tread members arranged at predetermined intervals along the longitudinal direction of the diagonal member, and having one longitudinal end fixed to the diagonal member;
One end in the longitudinal direction is rotatable relative to the other end in the longitudinal direction of the plurality of tread materials, and the other end in the longitudinal direction is adjusted so that the angle formed with the plurality of tread materials is adjusted. a plurality of risers whose portions are respectively fixed to the diagonal members and horizontally support the plurality of tread members;
a plurality of treadboards each spanning between a pair of treadboard materials arranged horizontally opposite to each other in the pair of supports;
Equipped with
a first fixing part that is movable within a first elongated hole formed in the longitudinal direction of the vertical member and fixes one end of the longitudinal member and the diagonal member in the longitudinal direction;
The lower member is movable within a second elongated hole formed along the longitudinal direction, fixes the other end of the lower member in the longitudinal direction of the diagonal member, and is connected between the lower member and the first fixing portion. a second fixing part that makes it possible to adjust the inclination angle of the diagonal member;
A variable slope staircase device. a shaft portion that rotatably supports one longitudinal end of the riser relative to the other longitudinal end of the step board;
A third member that moves within a third elongated hole portion formed along the longitudinal direction in the riser member, adjusts the angle formed between the tread member and the riser member, and fixes the riser member and the diagonal member. A fixed part,
The variable slope staircase device according to claim 1, further comprising: 3. The variable slope staircase device according to claim 1, wherein the other end in the longitudinal direction of the riser supporting the tread material constituting the lower step is fixed to the lower member. The variable slope staircase device according to any one of claims 1 to 3, wherein a vertically adjustable handrail is attached to match the inclination angle of the diagonal member.