JP2024067653A - Slope platform - Google Patents

Abstract

[Problem] It is possible to improve the load-bearing capacity while reducing the weight. [Solution] The slope platform has a mounting portion 22a on which the wheels of a vehicle are placed, and an inclined portion 22b that guides the wheels to the mounting portion 22a. The slope platform includes a polygonal bottom wall 11, a polygonal top wall 21 located above the bottom wall 11 and having the mounting portion 22a and the inclined portion 22b, an intermediate member 30 made of a foam material having a lower surface that abuts against the bottom wall 11, an upper surface 32 that abuts against the top wall 21, and a plurality of side surfaces 33 extending along a plurality of sides of the bottom wall 11, and a side wall 23 that covers the plurality of side surfaces 33. The bottom wall 11, the top wall 21, and the side wall 23 are formed of a material harder than the intermediate member 30. [Selected Figure] Figure 3

Description

The present invention relates to a slope platform.

Conventionally, there are ramps used to raise the wheels of an automobile by several centimeters to several tens of centimeters from the ground.
Such slope platforms include those made of wood and synthetic resin. An example of a slope platform made of resin is described in Patent Document 1. The slope platform described in Patent Document 1 has a mounting portion on which the wheels of a vehicle are placed and an inclined portion that guides the wheels to the mounting portion.

JP 2004-42817 A

However, such conventional slope platforms have the problem that they are heavy and difficult to move. For this reason, there is a demand for a slope platform that can improve load-bearing capacity while reducing weight.

Various aspects of the slope platform to solve the above problems will be described below.
[Aspect 1]
A slope platform having a placement portion on which a wheel of a vehicle is placed and an inclined portion for guiding the wheel to the placement portion,
A polygonal bottom wall;
a polygonal top wall located above the bottom wall and having the placement portion and the inclined portion;
an intermediate member made of a foam material having a lower surface that contacts the bottom wall, an upper surface that contacts the top wall, and a plurality of side surfaces that extend along a plurality of sides of the bottom wall;
and a side wall covering the plurality of side surfaces,
The bottom wall, the top wall, and the side wall are formed of a material harder than the intermediate member.
Slope platform.

According to this configuration, the load applied to the top wall acts in a distributed manner across the entire upper surface of the intermediate member via the top wall. In addition, the lower surface of the intermediate member is covered by the bottom wall, and the upper surface of the intermediate member is covered by the top wall. Furthermore, multiple side surfaces of the intermediate member are covered by side walls. This suppresses deformation of the intermediate member. This improves the shape retention, i.e., the load-bearing capacity, of the slope base. In addition, because the intermediate member is made of a foam material, the weight of the slope base can be reduced. Therefore, the load-bearing capacity can be improved while still reducing the weight.

[Aspect 2]
The side wall is continuous with the periphery of the top wall over the entire periphery.
2. The ramp base according to claim 1.

When the top wall and the side wall are separate members and are connected to each other, the connecting portion is easily deformed when a load acts on the connecting portion.
In this regard, according to the above configuration, the side wall is continuous around the entire periphery of the top wall, so that deformation of the portion between the top wall and the side wall can be suppressed compared to when the top wall and the side wall are made of separate members.

[Aspect 3]
The side wall covers the entirety of the plurality of side surfaces.
The slope base according to aspect 1 or 2.

With this configuration, deformation of the intermediate member is further suppressed, so that the shape retention of the slope base, i.e., the load-bearing capacity, can be further improved.
[Aspect 4]
The bottom wall, the top wall, and the side walls are made of metal.
A slope base according to any one of aspects 1 to 3.

According to this configuration, the bottom wall, top wall, and side walls are made of metal, so that weather resistance can be improved compared to when they are made of resin.
[Aspect 5]
A plurality of casters are provided on the outer surface of the side wall.
A slope base according to any one of aspects 1 to 4.

With this configuration, the slope base can be easily moved using multiple casters.
[Aspect 6]
A handle is provided on a portion of the outer surface of the side wall opposite to a portion where the plurality of casters are provided across the intermediate member.
6. The ramp base according to claim 5.

With this configuration, the user can easily move the slope platform by gripping the handle.

The present invention makes it possible to improve load-bearing capacity while reducing weight.

FIG. 1 is a perspective view of a slope platform from above in accordance with one embodiment of the slope platform. FIG. 2 is a perspective view of the slope platform of FIG. 1 from below. FIG. 3 is an exploded perspective view of the slope base of FIG. FIG. 4 is a cross-sectional view of the ramp base of FIG. FIG. 5 is a diagram showing how the slope base of FIG. 1 is moved. FIG. 6 is a diagram showing the slope base of FIG. 1 standing by itself.

Hereinafter, one embodiment will be described with reference to FIGS.
As shown in Figs. 1 and 3, the slope platform has a mounting portion 22a on which the wheels of a vehicle are placed, and an inclined portion 22b that guides the wheels to the mounting portion 22a.

The slope base of this embodiment includes a lower member 10 , an upper member 20 , an intermediate member 30 , screws 40 , casters 50 , and a handle 60 .
Next, each component of the slope base will be described.

<Lower member 10>
1 and 3, the lower member 10 has a polygonal bottom wall 11. In this embodiment, the bottom wall 11 has a rectangular shape.

1 to 3, a rising portion 12 is provided around the entire periphery of the bottom wall 11. It is preferable that the height of the rising portion 12 is constant around the entire periphery.
The lower member 10 is preferably made of metal. In this embodiment, the lower member 10 is made of aluminum.

In the following description, the long side direction and the short side direction of the bottom wall 11 are referred to as a length direction L and a width direction W, respectively.
<Upper member 20>
1 and 3, the upper member 20 has a polygonal top wall 21 located above the bottom wall 11. In this embodiment, the top wall 21 has a rectangular shape.

The upper surface 22 of the top wall 21 has a mounting portion 22a and an inclined portion 22b. The upper surface 22 can also be provided with an uneven shape to prevent the wheels from slipping, or a sheet material for preventing slipping can be attached.

The inclined portion 22b is arranged alongside the mounting portion 22a in the longitudinal direction L. The inclined portion 22b is inclined so that it is positioned lower the further away it is from the mounting portion 22a in the longitudinal direction L.

As shown in FIGS. 1 to 3, in this embodiment, a side wall 23 is continuous with the entire peripheral edge of the top wall 21.
4, the rising portion 12 is preferably adjacent to the outer circumferential side of the side wall 23. The lower end of the side wall 23 is preferably in contact with the upper surface of the bottom wall 11.

The upper member 20 is preferably made of metal. In this embodiment, the upper member 20 is made of aluminum.
<Intermediate member 30>
As shown in FIGS. 3 and 4 , the intermediate member 30 has a lower surface 31 that abuts against the bottom wall 11 , an upper surface 32 that abuts against the top wall 21 , and a number of side surfaces 33 that extend along a number of sides of the bottom wall 11 .

The lower surface 31 of this embodiment has a rectangular shape that conforms to the upper surface of the bottom wall 11. The upper surface 32 of this embodiment has a shape that conforms to the lower surface of the top wall 21. The intermediate member 30 of this embodiment has four side surfaces 33.

The intermediate member 30 is made of a foam material. The foam material is, for example, polystyrene foam. That is, the bottom wall 11, the top wall 21, and the side walls 23 are made of a material harder than the intermediate member 30.

A plurality of side surfaces 33 of the intermediate member 30 are covered by the side walls 23. In this embodiment, the plurality of side surfaces 33 are entirely covered by the side walls 23.
<Screw 40>
4, the rising portion 12 of the lower member 10 and the side wall 23 of the upper member 20 are connected by a plurality of screws 40. The screws 40 are screwed into holes provided in the rising portion 12 and the side wall 23 from the outer periphery.

Although not shown in FIGS. 1 to 3, a plurality of screws 40 are provided at intervals from one another in the circumferential direction around the entire circumference of the slope base.
<Caster 50>
As shown in FIGS. 1 to 4, a plurality of casters 50 are provided on the outer surface of the side wall 23.

In this embodiment, four casters 50 are provided on a portion of the outer surface of the side wall 23 along the longitudinal direction L.
As shown in Figures 1 and 3, the four casters 50 are configured by a pair of lower casters 50a and a pair of upper casters 50b.

The pair of lower casters 50a are spaced apart from each other in the longitudinal direction L, closer to the bottom wall 11 than the upper casters 50b. The pair of upper casters 50b are spaced apart from each other in the longitudinal direction L. The pair of upper casters 50b are located between the pair of lower casters 50a in the longitudinal direction L.

<Handle 60>
As shown in Figs. 2 and 4, a handle 60 is provided on the outer surface of the side wall 23 on the opposite side to the portion where the casters 50 are provided, with the intermediate member 30 in between.

In this embodiment, the two handles 60 are attached at a distance from each other in the longitudinal direction L.
Next, the effects of this embodiment will be described.

(1) The slope base includes a bottom wall 11, a top wall 21, an intermediate member 30, and a side wall 23. The bottom wall 11, the top wall 21, and the side wall 23 are formed of a material harder than the intermediate member 30.

With this configuration, the load applied to the top wall 21 is distributed and acts on the entire upper surface 32 of the intermediate member 30 via the top wall 21. The lower surface 31 of the intermediate member 30 is covered by the bottom wall 11, and the upper surface 32 of the intermediate member 30 is covered by the top wall 21. Furthermore, the multiple side surfaces 33 of the intermediate member 30 are covered by the side walls 23. This suppresses deformation of the intermediate member 30. This improves the shape retention, i.e., the load-bearing capacity, of the slope base. In addition, because the intermediate member 30 is made of a foam material, the weight of the slope base can be reduced. Therefore, the load-bearing capacity can be improved while still reducing the weight.

(2) In a structure in which top wall 21 and side wall 23 are separate members and are connected to each other, the connection portion is easily deformed when a load is applied to the connection portion.
In this regard, according to the above configuration, the side wall 23 is continuous around the entire periphery of the top wall 21, so that deformation of the portion between the top wall 21 and the side wall 23 can be suppressed compared to when the top wall 21 and the side wall 23 are made of separate members.

(3) The side walls 23 cover the entirety of the multiple side surfaces 33 .
With this configuration, deformation of the intermediate member 30 is further suppressed, so that the shape retention of the slope base, i.e., the load-bearing capacity, can be further improved.

(4) The bottom wall 11, the top wall 21, and the side walls 23 are made of metal, so that the weather resistance can be improved compared to when they are made of resin.
(5) A plurality of casters 50 are provided on the outer surface of the side wall 23.

With this configuration, as shown in FIG. 5, the slope base can be easily moved by the multiple casters 50.
(6) A handle 60 is provided on the outer surface of the side wall 23. Therefore, as shown in FIG. 5, a user can easily move the slope platform by holding the handle 60.

(7) Four casters 50 are provided. This allows the slope base to stand on its own, as shown in FIG. 6, and allows the slope base to be easily moved when in a freestanding state.

<Example of change>
The above embodiment can be modified as follows: The present embodiment and the following modifications can be combined with each other to the extent that there is no technical contradiction.

The shape and number of the handle 60 may be changed as appropriate. The handle 60 may also be omitted.
The number and positions of the casters 50 can be changed as appropriate. For example, the pair of upper casters 50b can be omitted. Even in this case, the slope platform can be moved by the pair of lower casters 50a. In addition, multiple casters 50 may be provided on the outer surface of the side wall 23 in the width direction W. The casters 50 can also be omitted.

The lower member 10 and the upper member 20 may be made of steel, such as stainless steel, or other metals. The lower member 10 and the upper member 20 may also be made of synthetic resin, such as fiber-reinforced plastic. The lower member 10 and the upper member 20 are not limited to being made of the same material, and may be made of different materials.

The manner in which the side wall 23 and the rising portion 12 are connected is not limited to using the screws 40. For example, the side wall 23 and the rising portion 12 may be connected by crimping. Also, for example, if the lower member 10 and the upper member 20 are made of synthetic resin, the side wall 23 and the rising portion 12 may be connected by adhesive.

The lower member 10 and the intermediate member 30 may be bonded to each other, and the intermediate member 30 and the upper member 20 may be bonded to each other. In other words, the lower member 10 may be fixed to the upper member 20 via the intermediate member 30. In this case, the connecting structure between the side wall 23 and the rising portion 12 may be omitted.

The side wall 23 does not have to cover the entire side surface 33 of the intermediate member 30, and may have a hole or a notch in part of the side wall 23.
A portion of the side wall 23 may be provided on the upper member 20, and the remaining portion may be provided on the lower member 10. Also, instead of providing the side wall 23 on the upper member 20, the side wall 23 may be provided on the lower member 10.

REFERENCE SIGNS LIST 10 lower member 11 bottom wall 12 rising portion 20 upper member 21 top wall 22 upper surface 22a placement portion 22b inclined portion 23 side wall 30 intermediate member 31 lower surface 32 upper surface 33 side surface 40 screws 50 casters 50a lower casters 50b upper casters 60 handle

Claims (6)

A slope platform having a placement portion on which a wheel of a vehicle is placed and an inclined portion for guiding the wheel to the placement portion,
A polygonal bottom wall;
a polygonal top wall located above the bottom wall and having the placement portion and the inclined portion;
an intermediate member made of a foam material having a lower surface that contacts the bottom wall, an upper surface that contacts the top wall, and a plurality of side surfaces that extend along a plurality of sides of the bottom wall;
and a side wall covering the plurality of side surfaces,
The bottom wall, the top wall, and the side wall are formed of a material harder than the intermediate member.
Slope platform. The side wall is continuous with the periphery of the top wall over the entire periphery.
The ramp base according to claim 1. The side wall covers the entirety of the plurality of side surfaces.
The ramp base according to claim 1. The bottom wall, the top wall, and the side walls are made of metal.
A slope table according to any one of claims 1 to 3. A plurality of casters are provided on the outer surface of the side wall.
The ramp base according to claim 1. A handle is provided on a portion of the outer surface of the side wall opposite to a portion where the plurality of casters are provided across the intermediate member.
The ramp base according to claim 5.

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