KR102318039B1 - Light Weight Step for Stairs of Vehicle having Rigid Structure - Google Patents

Abstract

The present invention provides a rigid structure in which the impact force is absorbed by the combination of the step frame and the unit side plate even when the stepping force of the operator is repeatedly applied to the step plate, so that deformation can be prevented and the step plate can be lightened. Disclosed is a light-weight step for the elevator stairs of a vehicle having.
To this end, the present invention provides a frame coupling rib formed on the front and rear of the step plate bottom surface of the step unit constituting the elevator stairs so that it is closely attached to and assembled with the step frame, and a vertical support structure between the frame coupling ribs formed on the bottom surface of the step plate. and a transverse support structure.
Accordingly, according to the present invention, since the stepping force applied to the step plate is absorbed toward the step frame by the vertical and lateral support structures provided on the bottom surface of the step plate, the deformation of the step plate can be prevented, so that the life of the elevator stairs is long. In addition, it is possible to maintain a stable frictional force with the shoe outsole, which has a useful effect of preventing slippage.

Description

Light Weight Step for Stairs of Vehicle having Rigid Structure

The present invention relates to a lightweight step for a stair step for a vehicle having a rigid structure. In particular, even when an operator's stepping force is repeatedly applied to the step plate, the impact force is absorbed by the combination of the step frame and the unit side plate to prevent deformation. It relates to a light-weight step for a stair step of a vehicle having a rigid structure made to allow the step plate to be lightened as well as to reduce the weight of the step plate.

As is well known, in the prior art, a metal plate made by forming irregularities on the check plate was fixed to the frame of the step for the elevator and used as a step plate. : It can be confirmed by the slide rail limit device of the elevator stairs for automobiles; hereinafter referred to as 'cited invention').

As shown in FIG. 1 , the cited invention is cut into a plate shape to use the step plate 17 provided with an uneven pattern as a step of the stairs, and is mounted on the footrest frame 16 and fixed.

When the weight of the step plate 17 is excessive, it increases the carrying load of the vehicle and makes it difficult for the operator to handle it. would have done

On the other hand, the step plate 17 according to the cited invention is frequently deformed by the stepping force of the worker repeatedly applied while going up and down the elevator stairs. There is a problem in that the anti-slip function due to the pattern is weakened and falls accidents occur frequently.

Republic of Korea Utility Model Registration No. 20-0297551 (Name of the design: Slide rail limit device for elevator stairs for automobiles)

A first object of the present invention to solve the above problems, even when the stepping force of the operator is repeatedly applied to the step plate, the impact force is absorbed by the combination of the step frame and the unit side plate so that deformation can be prevented, and In addition, we propose a lightweight step for the elevator stairs of an automobile having a rigid structure made by making the step plate light-weight.

In addition, the second object of the present invention is to maintain friction with the shoe sole worn by the operator (hereinafter referred to as "Out Sole") by providing an anti-slip means of a partially different structure on the surface of the step plate. We propose a lightweight step for the elevator stairs of an automobile having a rigid structure designed to allow

In order to achieve this object, the present invention rotates the elevator stairs around the upper hinge and then pushes them to accommodate the storage frame fixed inside the vehicle, or pulls the lower cover and rotates the elevator stairs around the upper hinge to rotate the storage frame. Draw the elevator stairs from the

Frame coupling ribs are formed on the front and rear sides of the step plate bottom surface of the step unit constituting the elevating stairs so that they are closely attached to and assembled with the step frame, and a vertical support structure and a horizontal support structure between the frame coupling ribs formed on the bottom surface of the step plate It provides a lightweight step for the elevator stairs of a vehicle having a rigid structure by providing.

In this way, the present invention can prevent deformation of the step plate while the stepping force applied to the step plate is absorbed into the rigid structure composed of the step frame and the unit side plate by the vertical and lateral support structures provided on the bottom surface of the step plate. There is a useful effect that not only the life of the stairs is long, but also it is possible to maintain a stable frictional force with the sole, thereby preventing slipping.

In addition, since the surface of the step plate of the present invention is repeatedly formed by combining a rough surface, an uneven portion, and a triangular protrusion having a triangular cross section, the outsole of the shoe in contact with the step plate maintains high frictional force even if there is a difference in the length Therefore, it has an excellent effect of preventing a fall accident by preventing slipping on the step plate that maintains a stable state.

1 is a perspective view illustrating a conventional elevator staircase for a vehicle.
Figure 2 is a perspective view showing the overall configuration of a light-weight step for the elevator stairs of a vehicle according to the present invention.
Figure 3 is an exploded perspective view showing a state in which the frame of the lightweight step and the step plate according to the present invention are coupled.
4 is a longitudinal cross-sectional view showing the structure of the step unit in which the step plate is coupled to the frame of the lightweight step according to the present invention.
5 is a perspective view showing a stair unit in an assembled state according to the present invention.
Fig. 6 is an enlarged side view of a step plate according to the present invention;
Fig. 7 is a plan view of a step plate according to the present invention;
Fig. 8 is an enlarged view of part "A" of Fig. 7;
Fig. 9 is a longitudinal sectional view specifically illustrating another embodiment of a step plate according to the present invention;

Hereinafter, embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily carry out the present invention with reference to the accompanying drawings.

The overall configuration of the hoisting stairs 100 of a vehicle having a rigid structure according to the present invention is shown in FIG. 2 , and as is known, the hoisting stairs 100 are mainly loaded or loaded with cargo in a cargo box such as a truck. It is used for the purpose of moving up and down by the worker so that it can be lowered.

For reference, the multiple step unit 200 on the left shown in FIG. 2 rotates around the upper hinge 50 to lift it clockwise in the drawing and then push it horizontally (right in the drawing) so that the cover 51 is the vehicle. You can drive safely after pushing it to touch the tip of the storage frame 52 fixed inside, and when you need to load or unload the vehicle at a stop, it is stored by pulling the lower cover 51 horizontally (left side in the drawing). A plurality of step units 200 are drawn out from the frame 52, and a plurality of step units 200 are rotated counterclockwise in the drawing around the upper hinge 50, as shown in FIG. 2, the step frame As the 101 is inclined state, a plurality of stair units 200 are inclinedly arranged to provide an ascending/lowering staircase 100 that allows an operator to climb up and down.

In particular, the present invention is to prevent a fall accident by allowing the step plate 201 of the elevating staircase 100 to be maintained in a solid state and not deformed and to maintain high friction with the worker's shoes.

Hereinafter, a specific embodiment of a light-weight step for an elevator stair of a vehicle having a rigid structure according to the present invention will be described in more detail as follows.

3 to 5, a state in which the step frame 202 and the step plate 201 of the step unit 200 according to the present invention are coupled is shown in an exploded perspective view, a longitudinal sectional view, and an assembled perspective view. As can be seen from this, in the present invention, the frame coupling rib 240 of the step plate 201 is closely attached to the step frame 202 of the step unit 200 and assembled, and the unit side plate 203 is provided on both sides thereof. It is fixed, and the hinge 102 is fastened through the hinge hole 301 of the bracket 300 protruding upward of the unit side plate 203 or fastened through the hinge hole 301 provided on the side. It is fixed between the stair frame 101 and the stair unit 200 .

In addition, a vertical support structure 220 and a horizontal support structure 230 are provided on the bottom surface of the step plate 201 . As shown in the cross section of FIG. 4, the horizontal support structure 230 is curved like a bow toward the step plate 201, and the vertical support structure 220 forms one surface of the horizontal support structure 230 with a step plate ( It is connected to the 201) and transmits the impact and force applied to the step plate 201 to the lateral support structure 230 . Accordingly, according to the present invention, the worker steps up and down the elevator stairs 100 and in most cases steps on the middle portion S of the step plate 201 as shown in FIG. 7 , the step plate 201 is In order to transmit the load to the step frame 202 while reducing the weight, the vertical support structure 220 and the horizontal support structure 230 were crossed in the vertical and horizontal directions below the thin plate.

Therefore, the force due to the weight of the operator is applied in the arrow direction (a) of FIG. 4, and this force is transmitted to the lateral support structure 230 through the vertical support structure 220, and then the frame coupling rib 240. is transmitted to the step frame 202 as shown by b and c of FIG. In this way, the present invention applies a force in the direction of the arrow that develops as shown in FIG. 4 while resisting the deflection force of the step plate 201, and this force is applied to the two unit side plates fixed on both sides of the step frame 202 ( 203), since the unit side plate 203 is molded of a solid material, it absorbs the force in the direction of arrow a in FIG. 4 as a result.

Accordingly, according to the present invention, not only it is possible to prevent the step plate 201 from being deformed by the weight of the operator repeatedly applied to the step plate 201, but also vertical support even if the material thickness of the step plate 201 is thin. Since the load is distributed and shared by the structure 220, the transverse support structure 230, and the step frame 202 and the unit side plate 203 fixing both ends of the step frame 202, it is supported in a solid state to prevent deformation. it can be

Therefore, the sagging deformation of the step plate 201 is prevented, and it is possible to maintain stable friction with the worker's shoe outsole.

In addition, as illustrated in FIG. 9 , the step plate 201 of the present invention protrudes from one end of the step plate 201 in the inclined upward direction so that the end of the step plate 201 can be known and the step at the same time. A step portion 250 for fixing the frame coupling rib 240 of the plate 201 in close contact with the step frame 202 in the direction may be configured, and the other end of the step plate 201 may prevent foot slippage when climbing. A foot-fall prevention unit 260 having a hook to prevent and fix the step plate 201 to the step frame 202 may be configured.

In addition to this, in the present invention, it is possible to prevent a fall accident due to slipping by providing a complex anti-slip means on the surface of the step plate 201 .

That is, the step plate 201 according to the present invention includes a rough surface 210 manufactured by pulverizing a powder such as garnet with high strength such as geumgangsa to a coarse particle size and attaching it to the surface, and a concave-convex portion in which protrusions and concavities are continuously formed. (212) and the triangular protrusion 211 having a triangular cross section is repeatedly formed to maintain a high frictional force with the worker's shoes. In the present invention, the rough surface 210 generates a high friction force no matter which surface is in contact with the sole sole of the shoe, and the protrusion shape of the concave-convex part 212 and the triangular protrusion part 211 is provided in the worker's shoe outsole. In addition to increasing the friction coefficient by engaging with the protrusions and grooves, foreign substances attached to the worker's shoe outsole are accommodated in the recessed portions of the concave-convex portion 212 and the triangular protrusion 211, so that the outsole and the concave-convex portion 212 and the triangular protrusion ( 211) to secure and maintain the frictional force between them.

In addition, in the present invention, since the plurality of concave-convex portions 212 and the triangular protrusion 211 are repeatedly formed on the surface of the step plate 201, frictional force is generated in all cases where the length of the outsole is long or short.

In addition, the step plate 201 in the present invention is preferably extruded and molded from an aluminum alloy or the like in order to lighten the material, and polycarbonate (PC) having heat resistance and cold resistance, modified polyphenylene oxide (mPPO) , can also be extrusion-molded with engineering plastics such as butylene terephthalate (PBT), polyacetal (polyoxymethylene (POM) or Acetal).

In addition, in the present invention, although the corners of the concave-convex portion 212 and the triangular protrusion 211 are shown somewhat gently, it can be formed to be sharpened to an appropriate degree if necessary. By making the other surface inclined, more frictional force is generated in one direction and foreign substances on the outsole can be quickly accommodated in the recessed portions of the concave-convex portion 212 and the triangular protrusion 211.

In addition, in the present invention, it goes without saying that the dimensions such as the height and spacing of the concave-convex portion 212 and the triangular protrusion 211 should be designed so that the highest frictional force is maintained in accordance with various designs and specifications of the sole sole.

In addition, in the present invention, the bottom surface of the step plate 201 is supported by the vertical support structure 220 and the lateral support structure 230, but this may be a cross support structure crossed in an "X" shape if necessary. is of course

In the above, the technical idea of the present invention has been described along with the accompanying drawings, but this is an exemplary description of the best embodiment of the present invention, and does not limit the present invention, if those of ordinary skill in the art It is a clear fact that anyone can make various modifications and imitations of dimensions, shapes, and structures within the scope of the technical spirit of the present invention, and such modifications and imitations are included in the scope of the technical spirit of the present invention.

50: upper hinge 51: cover 52: storage frame
100: elevator stair 101: stair frame 102: hinge
200: stair unit 201: step plate 202: step frame
203: unit side plate 210: rough surface 211: triangular protrusion
212: uneven portion 220: vertical support structure 230: horizontal support structure
240: frame coupling rib 250: step part 260: foot fall prevention part
300: bracket 301: hinge ball

Claims (3)

Rotate the elevator stairs around the upper hinge and push them to be stored in the storage frame fixed inside the vehicle, or pull the lower cover and rotate the elevator stairs around the upper hinge to withdraw the elevator stairs from the storage frame and unfold. ,
Frame coupling ribs are formed on the front and rear of the bottom surface of the step plate of the step unit constituting the elevating step, and are closely attached to and assembled with the step frame,
A vertical support structure and a horizontal support structure are provided between the frame coupling ribs formed on the bottom surface of the step plate,
The horizontal support structure has a shape curved like a bow toward the step plate, and the vertical support structure is made by connecting one surface of the horizontal support structure with the step plate. delete delete

Images