JP2013256780A - Bridge plate - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a bridge plate capable of being laid across a place where a wheel chair hardly passes to make a flat passage path in the place and securing smooth passage of the wheel chair in the place.SOLUTION: A bridge plate 10 is formed by: two plates 11A, 11B adjacent in a lateral direction, extending in a longitudinal direction, and having a predetermined thickness; and a hinge 12 for connecting the plates 11A, 11B such that they are foldable and respective surfaces of the plates 11A, 11B face each other. In the bridge plate 10, a first end 13 of each of the plates 11A, 11B is formed to be tapered to decrease its thickness from an intermediate area 17 toward an edge 22 of the end 13, and a second end 14 of each of the plates 11A, 11B is formed to be tapered to decrease its thickness from an intermediate area 17 toward an edge 31 of the end 14 and inclined downward at a predetermined angle from the intermediate area 17 toward the edge 31 of the end 14.

Description

  The present invention relates to a transfer plate, and more specifically, for example, when a wheelchair passes a place having a step or a groove where a wheelchair is difficult to pass, a flat passageway straddling the step or the groove is provided. The present invention relates to a transfer plate that is easy to handle and easy to carry, while ensuring smooth movement of the wheelchair at those locations.

  In recent years, elevators and escalators have been installed as barrier-free measures in public facilities, etc. In addition, there are cases where slopes are created as detours along the stairs, making wheelchair access easy. Yes. Furthermore, in places where it is necessary to ascend and descend only by stairs, a wheelchair stair lift that goes up and down along the stairs may be installed near the wall. As social infrastructure has been gradually improved, for example, when a person with a disability or an elderly person goes out in a wheelchair, those elevators, escalators, a detour slope, or It is possible to pass without danger using a stair lift for wheelchairs. However, even though social infrastructure development as described above has progressed, there are many steps that have not been developed yet, such as steps between sidewalks and roadways, steps between bus entrances and roads, grooves created on roads, trains, etc. It is also true that the steps and grooves between the vehicle and the platform when getting on and off the vehicle hinder wheelchair traffic. In addition, when moving the wheelchair from the platform to the train, when moving from the train entrance to the platform, or when moving the wheelchair from the road into the bus or from the bus entrance to the road, In some cases, a transfer board that spans the platform and the inside of the train or a bridge that spans the road and the interior of the bus is used.

  Patent Document 1 discloses a portable slope used as such a transfer plate. The portable slope disclosed in Patent Document 1 is formed from two plate materials made of reinforced plastic, a non-slip material attached to the surface of the plate material, and a sheet material that connects the plate materials in a foldable manner. Has been. The non-slip material is a hard chip material or a soft chip material, and these chip materials are fixed to the surface of the plate material using a binder. The sheet material is made of a woven fabric or a non-woven fabric.

JP 2003-184249 A

  As an example of a procedure for using the portable slope disclosed in Patent Document 1 to get the wheelchair into the train from the platform, the first end of the slope is placed on the platform, and the second end of the slope is placed. Is placed on the train, and then the wheelchair is passed over the slope to move from the platform into the train. However, in the portable slope disclosed in Patent Document 1, the upper surface of the first end portion is located above the upper surface of the home, a step is generated between the first end portion and the home, and the second If the upper surface of the end is located above the upper surface of the inside of the train and there is a step between the second end and the inside of the train, the wheelchair can be moved from the platform into the train by moving up or down the step. Or it cannot move from the inside of a train to a home, it takes time to move the wheelchair, and the wheelchair cannot be moved smoothly.

  In addition, a guide rail is installed at the edge of the floor of the train entrance to guide the door from the door pocket to the entrance when the door is closed, and when the second end of the portable slope is installed in the train car The second end portion rides on the guide rail, and a large step is generated between the second end portion and the floor in the vehicle. If there is a large step between the second end of the portable slope and the floor of the train, the wheelchair cannot be moved smoothly from the platform to the inside of the train, and the second end of the slope When riding on the guide, the slope between the platform and the inside of the train is not stable, the wheelchair on the slope becomes unstable, and the wheelchair can be safely moved from the platform to the inside of the train. I can't.

  The object of the present invention is to build a flat passageway across a step or a groove by crossing over a portion having a step or a groove formed where it is difficult for the wheelchair to pass. It is in providing the delivery board which can ensure a movement. Another object of the present invention is that it is possible to stably install a wheelchair without causing a step when it is bridged from one place to the other, and to stably run the wheelchair. It is in providing the transfer board which can move a wheelchair smoothly and safely from the location of one to the other location.

  The premise of the present invention to solve the above-mentioned problems is a portable transfer plate that creates a traffic path that connects the points from one point to the other point.

  The feature of the present invention based on the above premise is that the transfer plate is connected in a foldable manner so that at least two plate members having a predetermined thickness extending in the front-rear direction adjacent to each other in the lateral direction face each other so that the surfaces of the plate members face each other. A first end portion extending in the lateral direction at one location, a second end portion extending in the lateral direction at the other location, and from one location to the other. The first and second side portions extending in the front-rear direction across the location, the remaining intermediate region excluding the first and second end portions and the first and second side portions, the first and second end portions and the first The first and fourth corners intersecting with the first and second sides, the hinges are installed between the first sides of the plates, and the first ends of the plates are from the middle region The thickness is tapered toward the edge of the first end, and the second end of the plate material The thickness is tapered from the intermediate region toward the edge of the second end, and is inclined downward at a predetermined angle from the intermediate region toward the edge of the second end. It is in.

  As an example of the present invention, in the transfer plate, when the edge of the second end portion of the plate material contacts the other location, a predetermined space is formed between the lower surface of the second end portion and the upper surface of the other location. Defined.

  As another example of the present invention, the first end portions of the plate members have an upper surface inclined upward from the edge toward the intermediate region and a flat lower surface from the edge toward the intermediate region. The second ends of the plate members have an upper surface inclined upward from the edge toward the intermediate region, and a lower surface inclined upward from the edge toward the intermediate region. The inclination angle of the upper and lower surfaces of the end portion is larger than that of the upper surface of the first end portion.

  As another example of the present invention, in the transfer plate, when the edge of the first end portion of the plate material is grounded to one place, and the edge of the second end portion of the plate material is grounded to the other location, A predetermined space is defined between the lower surface of the intermediate region of the plate members and the upper surface of those portions, and the upper surface of the intermediate region has a substantially flat passage between the first end and the second end. Form.

  As another example of the present invention, a guard plate that is erected upward from the second side portion and extends in the front-rear direction is formed on the second side portion of the plate material.

  As another example of the present invention, a flange is formed on the top of the guard plate so as to project in at least one of the laterally inner side and the laterally outer side and extend in the front-rear direction.

  As another example of the present invention, a protective member made of rubber or thermoplastic synthetic resin and covering the top is attached to the top of the guard plate.

  As another example of the present invention, a flexible handle for carrying the plate material in a folded state is attached to the second side portion of the plate material.

  As another example of the present invention, the hinge is made of a flexible tape extending in the front-rear direction, and the tape is located between the opposing surfaces of the first side portions of the plate members. A pair of fixed portions extending in the vertical direction and a free portion extending between the fixed portions and arcing upward toward the surface of the plate member, the upper surfaces of the fixed portions being opposed to the first side portion It is fixed to the surface.

  As another example of the present invention, the intermediate region of the plate member includes a core member, a plate-like first reinforcing member fixed to the upper surface of the core member, and an anti-slip member fixed to the upper surface of the first reinforcing member. A plate-like second reinforcing material fixed to the lower surface of the core material, and the first and second end portions of the plate material taper from the intermediate region toward the edge of the end portions; and A first reinforcing member fixed to the upper surface of the core member, a first aluminum plate fixed to the upper surface of the first reinforcing member and extending laterally, an anti-slip member fixed to the upper surface of the first aluminum plate, and a slip Anti-slip rubber fixed to the upper surface of the stopper member, a second reinforcing material fixed to the lower surface of the core material that tapers from the middle region toward the edge of the end portion, and fixed to the lower surface of the second reinforcing material The first and second side portions of the plate material are fixed to the core material and the upper surface of the core material. A second aluminum plate fixed to the upper surface of the first reinforcing material and extending in the front-rear direction, a second reinforcing material fixed to the lower surface of the core material, and fixed to the lower surface of the second reinforcing material in the front-rear direction The first to fourth corners of the plate material are fixed to the core material tapered from the middle region toward the edges of the first and second end portions, and the upper surface of the core material. The first reinforcing member, the first aluminum plate fixed to the upper surface of the first reinforcing member, the second aluminum plate fixed to the upper surface of the first aluminum plate, and the slip fixed to the upper surface of the second aluminum plate Stop rubber, a second reinforcing member fixed to the lower surface of the core member tapered from the intermediate region toward the edges of the first and second ends, and a third aluminum fixed to the lower surface of the second reinforcing member It is formed of a plate and a non-slip rubber fixed to the lower surface of the third aluminum plate.

  As another example of the present invention, in the first to fourth corners of the plate material, the second aluminum plate, the first aluminum plate, the first reinforcing material, the core material, the second reinforcing material, They are arranged in the order of three aluminum plates, which are firmly fixed via connecting means at the first to fourth corners, and the first to third aluminum plates define a frame structure in the plate material.

  As another example of the present invention, the intermediate region of the plate member includes a core member, a plate-like first reinforcing member fixed to the upper surface of the core member, and an anti-slip member fixed to the upper surface of the first reinforcing member. A plate-like second reinforcing material fixed to the lower surface of the core material, and the first and second end portions of the plate material taper from the intermediate region toward the edge of the end portions; and A first reinforcing member fixed to the upper surface of the core member, an anti-slip member fixed to the upper surface of the first reinforcing member, an anti-slip rubber fixed to the upper surface of the anti-slip member, and end portions thereof from the intermediate region Fixed to the lower surface of the first aluminum plate, the second reinforcing material fixed to the lower surface of the core material tapered toward the edge, the first aluminum plate fixed to the lower surface of the second reinforcing material and extending laterally The first and second side portions of the plate material are fixed to the core material and the upper surface of the core material. A second aluminum plate fixed to the upper surface of the first reinforcing material and extending in the front-rear direction, a second reinforcing material fixed to the lower surface of the core material, and fixed to the lower surface of the second reinforcing material in the front-rear direction The first to fourth corners of the plate material are fixed to the core material tapered from the middle region toward the edges of the first and second end portions, and the upper surface of the core material. The first reinforcing member, the second aluminum plate fixed to the upper surface of the first reinforcing member, the anti-slip rubber fixed to the upper surface of the second aluminum plate, and the first and second end portions from the intermediate region A second reinforcing member fixed to the lower surface of the core member tapered toward the edge, a first aluminum plate fixed to the lower surface of the second reinforcing member, and a third aluminum fixed to the lower surface of the first aluminum plate It is formed of a plate and a non-slip rubber fixed to the lower surface of the third aluminum plate.

  As another example of the present invention, in the first to fourth corners of the plate material, the second aluminum plate, the first reinforcing material, the core material, the second reinforcing material, the first aluminum plate, They are arranged in the order of three aluminum plates, which are firmly fixed via connecting means at the first to fourth corners, and the first to third aluminum plates define a frame structure in the plate material.

  As another example of the present invention, the core material is any one of foamed polystyrene, foamed urethane, and foamed polyethylene having a predetermined thickness, and the first and second reinforcing materials are either one of a fiber reinforced plastic and a composite material. The composite material is formed of any one of polyethylene, polystyrene, and urethane and a reinforcing aluminum plate fixed to at least the upper surface of the upper and lower surfaces thereof.

  As another example of the present invention, the anti-slip member is a sheet member made of synthetic resin, and the sheet member is lined up at a predetermined interval in the front-rear direction and the lateral direction and protrudes upward from the upper surface of the core material. A plurality of convex portions are formed.

  As another example of the present invention, a transfer board is used by being bridged between a train and a platform. In the transfer board, the edge of the first end is grounded to the home, and the maximum height of the second edge is set. Has a dimension that exceeds the top of the guide rail laid on the floor of the train entrance and exit, and the edge of the second end crosses the guide rail and is grounded to the floor in the train car.

  According to the transfer plate of the present invention, the first end portion of the plate material is tapered from the intermediate region toward the edge of the first end portion, and the second end portion of the plate member is second from the intermediate region. Since the thickness is tapered toward the edge of the end, when the edge of the first end is grounded at one location and the edge of the second end is grounded at the other location In addition, there is no level difference between these end portions and those locations, and it can be stably installed at those locations, and the wheelchair can be smoothly moved from one location to the other location without trouble. At the same time, the wheelchair can be smoothly moved from the other location to one location. Since the second end portion of the transfer plate is inclined downward at a predetermined angle from the intermediate region toward the edge of the second end portion, a guide rail or the like is provided at the other location where the second end portion is grounded. Even if there is an obstacle, the second end will get over it and the edge will touch the other location, so the second end will not climb over the obstacle and the bridge plate should be installed stably. It is possible to stabilize the wheelchair traveling on the transfer plate. The transfer plate can safely move the wheelchair from one location to the other location, and can safely move the wheelchair from the other location to one location. Since the board members are connected via hinges and the board members can be folded so that the surfaces of the board members face each other, you can easily carry them around where you need them. The wheelchair can be used in a timely manner, and a flat passageway is formed by crossing over places with steps or grooves where it is difficult for the wheelchair to pass. Movement can be secured.

  When the edge of the second end portion of the plate material is grounded to the other location, the transfer plate in which a predetermined space is defined between the lower surface of the second end portion and the upper surface of the other location is the second plate Even if there is an obstacle such as a guide rail at the other location where the end is grounded, the second end is over the ground and the edge is grounded to the other location. There is no riding up, and the transfer plate can be stably installed, and the wheelchair can travel stably on the transfer plate. The transfer plate can safely move the wheelchair from one location to the other location, and can safely move the wheelchair from the other location to one location.

  The first end portion has an upper surface inclined upward from the edge toward the intermediate region and a flat lower surface from the end edge toward the intermediate region, and the second end portion extends from the edge to the intermediate region. And a lower surface inclined upwardly from the edge toward the intermediate region, and the inclination angle of the upper and lower surfaces of the second end is greater than that of the upper surface of the first end. Large delivery plates have a flat bottom surface at the first end of the plate material, and when the edge of the first end is grounded at one location, the first end can be stably installed at that location. In addition, the second end of the plate member has upper and lower surfaces inclined in an upward slope, the second end crosses over the obstacle, and the end edge contacts the other location. It can be stably installed at that location, and it can stabilize the wheelchair traveling on the crossing board. . The transfer plate can safely move the wheelchair from one location to the other location, and can safely move the wheelchair from the other location to one location.

  When the edge of the first end of the plate material is grounded at one location and the edge of the second end of the plate material is grounded at the other location, the lower surface of the intermediate region of the plate material and the upper surface of the location The intermediate plate defines a predetermined space, and the upper surface of the intermediate region forms a substantially flat passage between the first end portion and the second end portion. The lower surface of the intermediate region is spaced upward from the upper surface of the portion, and a substantially flat passage is formed in the intermediate region extending between the end portions because the upper portion and the second end portion are inclined upward. From the above, after the wheelchair gets over the first end or the second end, the wheelchair can be moved substantially horizontally in the intermediate region, and the wheelchair can be stably moved in the intermediate region. When the board is installed, the intermediate area does not run over the obstacle, and the wheelchair can be safely moved from one place to the other, and the wheelchair can be moved from one place to the other. Can be safely moved to

  A guard plate that stands upward from the second side and extends in the front-rear direction is formed on the second side of the plate material. The guard plate made of can prevent the wheelchair from coming off in the middle region, can safely move the wheelchair from one place to the other, and can safely move the wheelchair from one place to the other Can be moved to.

  A wheelchair with a predetermined weight on top of the guard plate that has a flange extending on the top of the guard plate that protrudes in at least one of laterally inward and laterally outward and extends in the front-rear direction. In doing so, a predetermined load acts on the transfer plate to try to bend the transfer plate downward, thereby deforming the guard plate to wave, but by forming a flange on the top of the guard plate, the flange It becomes a reinforcing material and can prevent not only the downward bending of the transfer plate but also the waviness of the guard plate.

  A wheelchair with a certain weight on which a person is placed passes over the transfer plate, where a protective member made of rubber or thermoplastic synthetic resin covering the top of the guard plate is attached to the top of the guard plate. At that time, even if the vehicle body or wheel of the wheelchair collides with the guard plate, the impact is mitigated by the protective member made of rubber, and damage to the vehicle body or wheel of the wheelchair can be prevented.

  A transfer plate in which a flexible handle for carrying the plate material in a folded state is attached to the second side portion of the plate material is carried by the folded transfer plate through the handle. Since it can be easily carried to the necessary place, it can be used at the right place in a timely manner, and it is bridged to the place where the wheelchair is difficult to pass or the place where the groove is made to form a flat passage. Thus, smooth movement of the wheelchair at those locations can be ensured.

  The hinge is made of a flexible tape extending in the front-rear direction, and the tape is positioned between the opposing surfaces of the first side and extends between the pair of fixed portions extending in the vertical direction. A transfer plate having a free portion extending upwardly and having an arc extending upward toward the surface of the plate member, and the upper surface of the fixed portion being fixed to the opposing surface of the first side portion via a tape forming a hinge Can be folded so that the surfaces of the plates are opposed to each other, so you can easily carry them around where you need them and use them in the right place at the right time At the same time, it is possible to ensure smooth movement of the wheelchair at those places by forming a flat passageway over a place having a step difference that makes it difficult for the wheelchair to pass or a place where a groove is formed.

  First and second end portions of the plate material are a core material, a first reinforcing material fixed to the upper surface of the core material, a first aluminum plate fixed to the upper surface of the first reinforcing material, an anti-slip member, an anti-slip rubber, A first reinforcing member formed from a non-slip rubber fixed to the lower surface of the core material, and a first reinforcing material fixed to the upper surface of the core material and the core material; First to fourth corners formed from a second aluminum plate fixed to the upper surface of the reinforcing material, a second reinforcing material fixed to the lower surface of the core material, and a third aluminum plate fixed to the lower surface of the second reinforcing material. A core member, a first reinforcing member fixed to the upper surface of the core member, a first aluminum plate fixed to the upper surface of the first reinforcing member, a second aluminum plate fixed to the upper surface of the first aluminum plate, Non-slip rubber, formed from a second reinforcing material fixed to the lower surface of the core material, a third aluminum plate fixed to the lower surface of the second reinforcing material, and an anti-slip rubber. The first and second end portions include the first aluminum plate in addition to the core material, the first and second side portions include the second and third aluminum plates in addition to the core material, Since the first to fourth corners include first to third aluminum plates in addition to the core material, the four sides of the transfer plate are reinforced by the first to third aluminum plates, and a wheelchair with a predetermined weight on which a person is placed is a transfer plate. The aluminum plate prevents inadvertent deformation and buckling of the transfer plate when passing over the wheel, ensuring safe driving of the wheelchair on the transfer plate, and moving the wheelchair from one location to the other While being able to move safely, a wheelchair can be safely moved from the other location to one location. Since the core material is reinforced by the first and second reinforcing members, the transfer plate is reinforced even if a load of a predetermined weight of a wheelchair on which a person is placed is applied to the core material and a force to bend the core material acts. Inadvertent deformation and buckling of the core material are prevented by the material, and the core material can maintain its form.

  In the first to fourth corners of the plate material, the second aluminum plate, the first aluminum plate, the first reinforcing material, the core material, the second reinforcing material, and the third aluminum plate are arranged in this order from the top to the bottom in the vertical direction. In the first to fourth corners, the first to third aluminum plates are firmly fixed to each other through the connecting means, and the first to third aluminum plates are the transfer plates in which the first to third aluminum plates define the frame structure in the plate material. A frame structure extending around the periphery of the plate material is defined, and the strength of the plate material is improved by the frame structure formed from these aluminum plates. Therefore, a wheelchair with a predetermined weight on it is passed when passing over the transfer plate. Inadvertent deformation and buckling of the plate can be prevented by the frame structure, the wheelchair can safely travel on the transfer plate, and the wheelchair can be safely moved from one place to the other. The wheelchair on the other side It can be safely moved to one location al.

  An intermediate region of the plate member is formed of a core member, a plate-like first reinforcing member fixed to the upper surface of the core member, an anti-slip member, and a second reinforcing member fixed to the lower surface of the core member. The second end is a core material, a first reinforcing material fixed to the upper surface of the core material, an anti-slip member, an anti-slip rubber, a second reinforcing material fixed to the lower surface of the core material, and the lower surface of the second reinforcing material A first aluminum plate fixed to a first anti-slip rubber, the first and second side portions of the plate material being fixed to the core material, the upper surface of the core material, and the upper surface of the first reinforcing material A first aluminum plate fixed to the lower surface of the core material, and a third aluminum plate fixed to the lower surface of the second reinforcing material. Is fixed to the lower surface of the core material, the first reinforcing material fixed to the upper surface of the core material, the second aluminum plate fixed to the upper surface of the first reinforcing material, the non-slip rubber, The second reinforcing member, the first aluminum plate fixed to the lower surface of the second reinforcing member, the third aluminum plate fixed to the lower surface of the first aluminum plate, and the transfer plate formed from the anti-slip rubber, The first and second end portions include a first aluminum plate in addition to the core material, the first and second side portions include second and third aluminum plates in addition to the core material, and further, first to fourth corners. Since the part includes the first to third aluminum plates in addition to the core material, the four sides of the transfer plate are reinforced by the first to third aluminum plates, and a wheelchair with a predetermined weight on which a person is placed passes over the transfer plate. Inadvertent deformation and buckling of the crossing board at the time can be prevented by the aluminum plate, safe driving of the wheelchair on the crossing board can be secured, and the wheelchair can be safely moved from one place to the other place Can safely move the wheelchair from one location to the other It can be dynamic. Since the core material is reinforced by the first and second reinforcing members, the transfer plate is reinforced even if a load of a predetermined weight of a wheelchair on which a person is placed is applied to the core material and a force to bend the core material acts. Inadvertent deformation and buckling of the core material are prevented by the material, and the core material can maintain its form.

  In the first to fourth corners of the plate material, the second aluminum plate, the first reinforcing material, the core material, the second reinforcing material, the first aluminum plate, and the third aluminum plate are arranged in this order from the top to the bottom in the vertical direction. In the first to fourth corners, the first to third aluminum plates are firmly fixed to each other through the connecting means, and the first to third aluminum plates are the transfer plates in which the first to third aluminum plates define the frame structure in the plate material. A frame structure extending around the periphery of the plate material is defined, and the strength of the plate material is improved by the frame structure formed from these aluminum plates. Therefore, a wheelchair with a predetermined weight on it is passed when passing over the transfer plate. Inadvertent deformation and buckling of the plate can be prevented by the frame structure, the wheelchair can safely travel on the transfer plate, and the wheelchair can be safely moved from one place to the other. The wheelchair on the other side It can be safely moved to one location al.

  The core material is one of foamed polystyrene, foamed urethane, and foamed polyethylene having a predetermined thickness, the first and second reinforcing materials are either one of a fiber reinforced plastic and a composite material, and the composite material is polyethylene or polystyrene. The transfer plate formed from one of urethane and a reinforced aluminum plate fixed to at least the upper surface of the upper and lower surfaces is made of any one of expanded polystyrene, expanded urethane, and expanded polyethylene. In addition to reducing the weight of the transfer plate, the core material has predetermined strength and elasticity, and the heart material elastically deforms due to the weight of the wheelchair on which the person is placed, and the wheelchair with the predetermined weight is placed on the transfer plate. Inadvertent deformation and buckling of the heartwood when passing through the door can be prevented, and safe travel of the wheelchair on the transfer plate can be ensured. It is possible to safely move from one location to another location, it can be safely moved to one position of the wheelchair from the other locations. In the transfer plate, the first and second reinforcing materials are either fiber reinforced plastic or composite material, and the core material is reinforced by fiber reinforced plastic or composite material. Even if the wheelchair load is applied to the core material and the force to bend the core material is applied, the fiber reinforced plastic or composite material prevents inadvertent deformation and buckling of the core material, and the core material maintains its shape. be able to.

  An anti-slip member is a sheet member made of synthetic resin, and a transfer plate in which a plurality of convex portions arranged at predetermined intervals in the front-rear direction and the lateral direction are formed on the sheet member, the friction of the sheet member by these convex portions Therefore, a wheelchair with a predetermined weight carrying a person can be prevented from inadvertently slipping when the wheelchair moves on the seat member (on the transfer plate). Can be secured. The transfer plate can safely move the wheelchair from one location to the other location, and can safely move the wheelchair from the other location to one location.

  A crossing board is used between the train and the platform, the edge of the first end is grounded to the platform, and the maximum height of the second edge is laid on the floor of the train entrance / exit A crossing plate having a dimension that exceeds the top of the rail and the edge of the second end crosses the guide rail and is grounded to the floor in the train car does not cause the second end of the plate to run on the guide rail. Therefore, it is possible to stably install the transfer plate, and to stabilize the wheelchair traveling on the transfer plate. The transfer plate can safely move the wheelchair from the home (one location) to the inside of the train (the other location) and can safely move the wheelchair from the train to the home.

The top view of the transfer board shown as an example. The rear view of a transfer board. The side view of a delivery board. The front view of a delivery board. FIG. 5 is an end view taken along line 5-5 in FIG. 1. FIG. 6 is an end view taken along line 6-6 of FIG. FIG. 7 is an end view taken along line 7-7 in FIG. 1. FIG. 8 is an end view taken along line 8-8 in FIG. 1. The partial end elevation of the composite material shown as an example. Partial end view of composite material shown as another example The fragmentary end elevation of a sheet member. The end view of the guard board shown as another example. The end view of the guard board shown as another example. The end view of the guard board shown as another example. The end view similar to FIG. 5 of the transfer board shown as another example. The end view similar to FIG. 6 of the transfer board shown as another example. The end view similar to FIG. 8 of the transfer board shown as another example. The perspective view of the transfer board shown in the folded state. The perspective view of the transition board shown in use condition. The side view of the transition board shown in use condition.

  The details of the transfer plate according to the present invention will be described with reference to the accompanying drawings such as FIG. 1 which is a top view of the transfer plate 10 shown as an example. FIG. 2 is a rear view of the transfer plate 10, and FIG. 3 is a side view of the transfer plate 10. 4 is a front view of the transfer plate 10, and FIG. 5 is an end view taken along line 5-5 of FIG. 6 is an end view taken along line 6-6 in FIG. 1, and FIG. 7 is an end view taken along line 7-7 in FIG. FIG. 8 is an end view taken along line 8-8 in FIG.

  1 to 4, the front-rear direction is indicated by an arrow A, the horizontal direction is indicated by an arrow B, and the up-down direction is indicated by an arrow C. In addition, in FIG. 4, the state in the middle of folding the transfer board 10 is shown with a virtual line. 3 and 4, the handles 37 </ b> A and 37 </ b> B are not shown. 5 to 8, the intermediate region 17 of the transfer plate 10 is partially omitted. The transfer plate 10 is bridged over a portion having a step or a groove where it is difficult for the wheelchair to pass, creating a flat passageway across the step or the groove, and ensuring a smooth movement of the wheelchair at the portion.

  The transfer plate 10 is formed of two plate members 11A and 11B arranged adjacent to each other in the lateral direction, and a hinge 12 that connects the plate members 11A and 11B. These plate materials 11A and 11B have a predetermined thickness and present a long rectangle in the front-rear direction. The plate members 11A and 11B have the same shape and the same size, and are mirror images of each other with the hinge 12 as a center. Note that the transfer plate 10 may be formed of three or more plate members arranged adjacent to each other in the horizontal direction. Moreover, there is no limitation in particular in the front-back direction length dimension of board | plate material 11A, 11B, According to the location which uses the transfer board 10, the length dimension of board | plate material 11A, 11B can be determined arbitrarily.

  The plate members 11A and 11B include a first end portion 13 and a second end portion 14 that extend in the lateral direction so as to face each other, a first side portion 15 and a second side portion 16 that face each other and extend in the front-rear direction, The remaining intermediate region 17 excluding the first and second end portions 13 and 14 and the first and second side portions 15 and 16, the first and second end portions 13 and 14, the first and second side portions 15, 16 and first to fourth corner portions 18 to 21 intersecting with each other.

  The first corner portion 18 is a portion where the first end portion 13 and the first side portion 18 intersect, and the second corner portion 19 is a portion where the first end portion 13 and the second side portion 16 intersect. is there. The third corner portion 20 is a portion where the second end portion 14 and the second side portion 116 intersect, and the fourth corner portion 21 is a portion where the second end portion 14 and the first side portion 15 intersect. is there. In a state where the plate members 11A and 11B are arranged in the lateral direction, the first corner portions 18 face each other, the fourth corner portions 21 face each other, and the first side portions 15 face each other, The side part 16 is located on the opposite side of the first side part 15.

  The thicknesses of the first end portions 13 of the plate members 11A and 11B are tapered from the intermediate region 17 toward the edge 22 thereof. The first end portion 13 has an upper surface 23 that is inclined upward from the edge 22 toward the intermediate region 17, and a flat lower surface 24 that extends from the edge 22 toward the intermediate region 17. As shown in FIG. 6, the first end portion 13 is formed by a taper-shaped core member 25 from the intermediate region 17 toward its end edge 22, and a plate-like first reinforcing member 26 fixed to the upper surface of the core member 25. The first aluminum plate 27 fixed to the upper surface of the first reinforcing member, the sheet member 28 (non-slip member) fixed to the upper surface of the first aluminum plate 27, and the anti-slip fixed to the upper surface of the sheet member 28 Rubber 29 </ b> A, a plate-like second reinforcing member 30 fixed to the lower surface of the taper core 25 toward the end edge 22 from the intermediate region 17, and an anti-slip fixed to the lower surface of the second reinforcing member 30 Rubber 29B.

  The thicknesses of the second end portions 14 of the plate members 11A and 11B are tapered from the intermediate region 17 toward the end edge 31, and at a predetermined angle from the intermediate region 17 toward the end edge 31. Inclined downhill. The second edge 14 has an upper surface 32 that is inclined upward from the edge 31 toward the intermediate region 17, and a lower surface 33 that is inclined upward from the edge 31 toward the intermediate region 17. The inclination angle of the upper and lower surfaces 32 and 33 of the second end portion 14 is larger than that of the upper surface 23 of the first end portion 13. The angle (inclination angle) formed by the surface and the second edge 14 when the transfer plate 10 is installed on a flat surface is in the range of 0 to 45 °, preferably in the range of 5 to 30 °.

  The second end portion 14 is formed by tapering the core material 25 from the intermediate region 17 toward the edge 31 thereof, the plate-like first reinforcing material 26 fixed to the upper surface of the core material 25, and the upper surface of the first reinforcing material. A first aluminum plate 27 fixed to the upper surface of the first aluminum plate 27, an anti-slip rubber 29A fixed to the upper surface of the sheet member 28, and an intermediate region. The second reinforcing member 30 is fixed to the lower surface of the core member 25 that is tapered from the edge 17 toward the edge 31 thereof, and the non-slip rubber 29B is fixed to the lower surface of the second reinforcing member 30.

  As shown in FIG. 5, the first side portions 15 of the plate members 11 </ b> A and 11 </ b> B are fixed to the core member 25, the first reinforcing member 26 fixed to the upper surface of the core member, and the upper surface of the first reinforcing member 26. The second aluminum plate 34, the second reinforcing member 30 fixed to the lower surface of the core member 25, and the third aluminum plate 35 fixed to the lower surface of the second reinforcing member 30. The second side portions 16 of the plate members 11A and 11B include a core member 25, a first reinforcing member 26 fixed to the upper surface of the core member, and a second aluminum plate 34 fixed to the upper surface of the first reinforcing member 26. The second reinforcing member 30 is fixed to the lower surface of the core member 25, and the third aluminum plate 35 is fixed to the lower surface of the second reinforcing member 30.

  The second side portion 16 is formed with a guard plate 36 that rises upward from the side portion 16 and extends in the front-rear direction. The second side portion 16 is provided with flexible handles 37A and 37B for carrying the plate materials 11A and 11B in a folded state. The base ends of the handles 37A and 37B are fixed to the third aluminum plate 35 by fixing means (screws). Since the transfer plate 10 can be carried through the handles 37 </ b> A and 37 </ b> B and the transfer plate 10 can be easily carried to a necessary place, the transfer plate 10 can be used at an appropriate time in a timely manner.

  The first and second corners 18 and 19 of the plate members 11A and 11B are fixed to the core member 25 that is tapered from the intermediate region 17 toward the edge 22 of the first end portion 13 and the upper surface of the core member 25. First reinforcing member 26, first aluminum plate 27 fixed to the upper surface of first reinforcing member 26, second aluminum plate 34 fixed to the upper surface of first aluminum plate 27, and upper surface of second aluminum plate 34 An anti-slip rubber 29A fixed to the second reinforcing member 30, a second reinforcing member 30 fixed to the lower surface of the core member 25 tapering from the intermediate region 17 toward the edge 22 of the first end 13; The third aluminum plate 35 is fixed to the lower surface of the third aluminum plate 35, and the anti-slip rubber 29B is fixed to the lower surface of the third aluminum plate 35.

  In the first and second corner portions 18 and 19, the second aluminum plate 34, the first aluminum plate 27, the first reinforcing member 26, the core member 25, the second reinforcing member 30, and the third one from the top to the bottom in the vertical direction. The aluminum plates 35 are arranged in this order. The second aluminum plate 34 and the first aluminum plate 27, the first reinforcing member 26, the core member 25, the second reinforcing member 30, and the third aluminum plate 35 positioned at the first and second corners 18 and 19 are threaded. Bolt holes with holes are drilled. In the first and second corner portions 18 and 19, bolts 57 (connection means) are screwed into the bolt holes, and the second aluminum plate 34, the first aluminum plate 27, the first reinforcing member 26, the core member 25, and the second member. The reinforcing material 30 and the third aluminum plate 35 are firmly fixed.

  The third and fourth corner portions 20 and 21 of the plate members 11A and 11B are fixed to the core member 25 that is tapered from the intermediate region 17 toward the edge 31 of the second end portion 14 and the upper surface of the core member 25. First reinforcing member 26, first aluminum plate 27 fixed to the upper surface of first reinforcing member 26, second aluminum plate 34 fixed to the upper surface of first aluminum plate 27, and upper surface of second aluminum plate 34 A non-slip rubber 29A fixed to the second reinforcing member 30, a second reinforcing member 30 fixed to the lower surface of the taper core 25 from the intermediate region 17 toward the end edge 31 of the second end 14; The third aluminum plate 35 is fixed to the lower surface of the third aluminum plate 35, and the anti-slip rubber 29B is fixed to the lower surface of the third aluminum plate 35.

  In the third and fourth corner portions 20 and 21, the second aluminum plate 34, the first aluminum plate 27, the first reinforcing member 26, the core member 25, the second reinforcing member 30, and the third one from the upper side to the lower side in the vertical direction. The aluminum plates 35 are arranged in this order. The second aluminum plate 34 and the first aluminum plate 27, the first reinforcing member 26, the core member 25, the second reinforcing member 30, and the third aluminum plate 35 positioned at the third and fourth corners 20 and 21 are threaded. Bolt holes with holes are drilled. In the third and fourth corner portions 20 and 21, bolts 57 (connection means) are screwed into the bolt holes, and the second aluminum plate 34, the first aluminum plate 27, the first reinforcing member 26, the core member 25, and the second member. The reinforcing material 30 and the third aluminum plate 35 are firmly fixed. In these plate materials 11A and 11B, the first to third aluminum plates 27, 34, and 35 define a frame structure (frame structure) that extends to the periphery of the plate materials 11A and 11B.

  The intermediate regions 17 of the plate members 11A and 11B have a first intermediate region 17A formed with substantially the same thickness, and a second intermediate portion whose thickness is slightly tapered toward the first and second end portions 13 and 14. It is divided into a region 17B. The first intermediate region 17A has flat upper and lower surfaces 38 and 39. The second intermediate region 17B has an upper surface 40 inclined slightly upward from the first and second end portions 13 and 14 toward the first intermediate region 17A, and a flat lower surface 41. The intermediate region 17 is fixed to the core member 25, the first reinforcing member 26 fixed to the upper surface of the core member 25, the sheet member 28 fixed to the upper surface of the first reinforcing member 26, and the lower surface of the core member 25. The second reinforcing material 30 is formed.

  FIG. 9 is a partial end view of a composite material shown as an example, and FIG. 10 is a partial end view of a composite material shown as another example. For the core material 25, expanded polystyrene having a predetermined thickness is used. The core material 25 has a maximum thickness in the range of 20 to 30 mm. Since the core member 25 is reinforced by the first and second reinforcing members 26, 30, even if a force that bends the core member 25 acts on the core member 25, the first and second reinforcing members 26, 30 Inadvertent deformation and buckling of the core material 25 are prevented, and the core material 25 maintains its form. In addition to foamed polystyrene, the core material 25 may be made of foamed urethane or foamed polyethylene having a predetermined thickness.

  For the first and second reinforcing members 26 and 30, either one of fiber reinforced plastic or composite material is used. An example of the composite material is formed of polyethylene 42 and a reinforcing aluminum plate 43 fixed to the upper surface of the polyethylene 42 as shown in FIG. Another example of the composite material is formed of polyethylene 42, a reinforcing aluminum plate 43 fixed to the upper surface of polyethylene 42, and a reinforcing aluminum plate 44 fixed to the lower surface of polyethylene 42, as shown in FIG. Yes. The reinforced aluminum plate 43 and the reinforced aluminum plate 44 are firmly fixed to the upper and lower surfaces of the polyethylene 42 by means (not shown). In addition, in the composite material, in addition to polyethylene 42, either polystyrene or urethane can be used.

  In the plate materials 11A and 11B of the transfer plate 10 shown in FIGS. 5 to 8, the composite material of FIG. 9 is used as the first reinforcing material 26, and the fiber reinforced plastic is used as the second reinforcing material. 5 to 8, the composite material of FIG. 10 is used as the first reinforcing material 26, and the fiber reinforced plastic (FRP) is used as the second reinforcing material. Alternatively, the composite material of either FIG. 9 or FIG. 10 may be used as the first and second reinforcing members 26 and 30. Further, fiber reinforced plastic may be used as the first and second reinforcing members 26 and 30, fiber reinforced plastic is used as the first reinforcing member 26, and either of FIG. 9 or FIG. 10 is used as the second reinforcing member 30. Such a composite material may be used.

  The first aluminum plate 27 is molded into a rectangular shape that is long in the horizontal direction, extends in the horizontal direction between the first corner portion 18 and the second corner portion 19, and has a third corner portion 20 and a fourth corner portion 21. It extends in the horizontal direction. The lower surface of the first aluminum plate 27 is firmly fixed to the first reinforcing member 26 with an adhesive (not shown) applied to the upper surface of the first reinforcing member 26. The second and third aluminum plates 34 and 35 are formed into a rectangle that is long in the front-rear direction, extends in the front-rear direction between the first corner portion 18 and the fourth corner portion 21, and It extends in the front-rear direction between the third corner portion 20. The first to third aluminum plates 27, 34, and 35 have a thickness dimension in the range of 1 to 3 mm.

  The second aluminum plate 34 extending to the first and second side portions 15 and 16 is firmly fixed to the first reinforcing member 26 with an adhesive (not shown) whose lower surface is applied to the upper surface of the first reinforcing member 26. Has been. The second aluminum plate 34 extending to the first to fourth corner portions 18 to 21 is firmly fixed to the first aluminum plate 27 by an adhesive (not shown) applied to the upper surface of the first aluminum plate 27. . The upper surface of the third aluminum plate 35 extending to the first and second side portions 15 and 16 and the first to fourth corner portions 18 to 21 is applied to the lower surface of the second reinforcing material 30 (fiber reinforced plastic). It is firmly fixed to the second reinforcing member 30 with an adhesive (not shown). The second aluminum plate 34 and the third aluminum plate 35 are integrally molded, and the portions extending in the vertical direction cover the side surfaces of the first and second side portions 15 and 16.

  FIG. 11 is a partial end view of the sheet member 28. As the sheet member 28, a sheet made of polyvinyl chloride is used. As the sheet member 28, a sheet made of another synthetic resin such as synthetic rubber, polyvinyl acetate, or polyvinyl chloride in addition to polyvinyl chloride can be used. The lower surface of the sheet member 28 extending to the intermediate region 17 is firmly fixed to the first reinforcing member 26 with an adhesive (not shown) applied to the upper surface of the first reinforcing member 26. The sheet member 28 extending to the first and second end portions 13 and 14 has its lower surface firmly fixed to the first aluminum plate 27 by an adhesive (not shown) applied to the upper surface of the first aluminum plate 27. Yes. A plurality of convex portions 45 projecting upward from the upper surface of the core material 25 are formed in the entire area of the sheet 28 member. The convex portions 45 are arranged at equal intervals (predetermined intervals) in the front-rear direction and the horizontal direction. In addition, illustration of the convex part 45 is abbreviate | omitted in FIGS.

  The first reinforcing material 26 (composite material) has a thickness dimension in the range of 1 to 3 mm. The first reinforcing material 26 (composite material) is the first and second end portions 13 and 14, the first and second side portions 15 and 16, the intermediate region 17, and the first to fourth corner portions 18 to 21. The lower surface is firmly fixed to the core material 25 by an adhesive (not shown) applied to the upper surface of the core material 25, and the upper surface is applied to the lower surface of the second aluminum plate 34 at the first and second side portions 15 and 16. It is firmly fixed to the second aluminum plate 34 by an adhesive (not shown). The first reinforcing member 26 (composite material) has an upper surface applied to the lower surface of the first aluminum plate 27 at the first and second end portions 13 and 14 and the first to fourth corner portions 18 to 21. (Not shown) is firmly fixed to the first aluminum plate 27, and the upper surface of the intermediate region 17 is firmly fixed to the sheet member 28 by an adhesive (not shown) applied to the lower surface of the sheet member 28. ing.

  The second reinforcing member 30 (fiber reinforced plastic) has a thickness dimension in the range of 1 to 3 mm. The second reinforcing member 30 (fiber reinforced plastic) has the first and second end portions 13 and 14, the first and second side portions 15 and 16, the intermediate region 17, and the first to fourth corner portions 18 to 21, The upper surface is firmly fixed to the core material 25 by an adhesive (not shown) applied to the lower surface of the core material 25, and in the first and second side portions 15 and 16 and the first to fourth corner portions 18 to 21, The lower surface is firmly fixed to the third aluminum plate 35 by an adhesive (not shown) applied to the upper surface of the third aluminum plate 35.

  The non-slip rubbers 29 </ b> A and 29 </ b> B are molded into a rectangular shape that is long in the lateral direction, and extend in the lateral direction between the first corner portion 18 and the second corner portion 19. The anti-slip rubbers 29 </ b> A and 29 </ b> B are connected at the end edge 22 of the first end portion 13. The anti-slip rubbers 29 </ b> A and 29 </ b> B extending to the first end portion 13 are firmly fixed to the sheet member 28 by an adhesive (not shown) applied to the upper surface of the sheet member 28, and the second reinforcing material 30. It is firmly fixed to the second reinforcing member 30 by an adhesive (not shown) applied to the lower surface of (fiber reinforced plastic). Anti-slip rubbers 29A and 29B extending to the first and second corners 18 and 19 are firmly fixed to the second aluminum plate 34 by an adhesive (not shown) applied to the upper surface of the second aluminum plate 34. And firmly fixed to the third aluminum plate 35 by an adhesive (not shown) applied to the lower surface of the third aluminum plate 35.

  The non-slip rubbers 29 </ b> A and 29 </ b> B are molded into a rectangular shape that is long in the lateral direction, and extend in the lateral direction between the third corner portion 20 and the fourth corner portion 21. The anti-slip rubbers 29 </ b> A and 29 </ b> B are connected at the end edge 31 of the second end portion 14. The anti-slip rubbers 29 </ b> A and 29 </ b> B extending to the second end portion 14 are firmly fixed to the sheet member 28 by an adhesive (not shown) applied to the upper surface of the sheet member 28, and the second reinforcing member 30. It is firmly fixed to the second reinforcing member 30 by an adhesive (not shown) applied to the lower surface of (fiber reinforced plastic). Anti-slip rubbers 29A and 29B extending to the third and fourth corner portions 20 and 21 are firmly fixed to the second aluminum plate 34 by an adhesive (not shown) applied to the upper surface of the second aluminum plate 34. And firmly fixed to the third aluminum plate 35 by an adhesive (not shown) applied to the lower surface of the third aluminum plate 35.

  The guard plate 36 is formed of an aluminum plate having a predetermined thickness, and is made integrally with the second aluminum plate 34 and the third aluminum plate 35 that extend to the second side portion 14. The guard plate 36 is formed on the second side portion 14 in the intermediate region 17. The hinge 12 is made of a tape 46 that is flexible and long in the front-rear direction. The tape 46 is positioned between the opposing side surfaces of the first side portions 13 of the plate members 11A and 11B and extends in the vertical direction, and extends between the fixed portions 47 to extend the plate member 11A. , 11B and a free portion 48 that arcs upward toward the surface. In the tape 46 (hinge 12), the upper surfaces of the fixing portions 47 are firmly fixed to the opposite side surfaces of the first side portion 15 via fixing means (adhesive and screws).

  The tape 46 is made of a fiber reinforced tape, a woven fabric or a knitted fabric in which a plurality of reinforcing fibers (warp yarns) extending in the front-rear direction and a plurality of reinforcing fibers (weft yarns) extending in the lateral direction are installed on a sheet made of synthetic resin. Any tough tape having a predetermined strength can be used.

  FIG. 12 is an end view of the guard plate 36 shown as another example, and FIG. 13 is an end view of the guard plate 36 shown as another example. FIG. 14 is an end view of a guard plate 36 shown as another example. The guard plate 36 shown in FIG. 12 is integrally formed with the second aluminum plate 34 and the third aluminum plate 35, and the protective member 50 is made of rubber or thermoplastic synthetic resin at the top portion 49 and covers the entire region of the top portion 49. Is attached. Even if the wheelchair body or wheel collides with the guard plate, the impact of the guard plate 36 in FIG. 12 is mitigated by the protective member 50 made of rubber or thermoplastic synthetic resin. Prevent damage.

  The guard plate 36 shown in FIG. 13 is integrally formed with the second aluminum plate 34 and the third aluminum plate 35, and a flange 51 is formed on the top 49 of the guard plate 36 so as to project inward in the lateral direction and extend in the front-rear direction. Further, the guard plate 36 is attached to the top portion 49 with a protective member 50 made of rubber or thermoplastic synthetic resin and covering the entire region of the top portion 49 and the entire flange 51. In the guard plate 36 of FIG. 13, even if the wheelchair body or wheel collides with the guard plate, the shock is mitigated by the protective member 50 made of rubber or thermoplastic synthetic resin, and the wheelchair body or wheel Prevent damage. The guard plate 36 of FIG. 13 tries to bend the transfer plate 10 (first and second plate members 11A and 11B) downward by applying a predetermined load to the transfer plate 10, so that the guard plate 36 undulates. Although deformed, by forming the flange 51 on the top portion 49 of the guard plate 36, the flange 51 becomes a reinforcing material, which not only prevents bending downward of the transfer plate 10, but also prevents the guard plate 36 from wavy.

  The guard plate 36 shown in FIG. 14 is integrally formed with the second aluminum plate 34 and the third aluminum plate 35, and a flange 51 extending in the front-rear direction is formed at the top 49 of the guard plate 36 so as to project inward in the lateral direction and outward in the lateral direction. Has been. Further, the guard plate 36 is attached to the top portion 49 with a protective member 50 made of rubber or thermoplastic synthetic resin and covering the entire region of the top portion 49 and the entire flange 51. 14, even if the wheelchair body or wheel collides with the guard plate, the shock is mitigated by the protective member 50 made of rubber or thermoplastic synthetic resin. Prevent damage. The guard plate 36 shown in FIG. 14 tries to bend the transfer plate 10 (first and second plate members 11A and 11B) downward by applying a predetermined load to the transfer plate 10, so that the guard plate 36 undulates. Although deformed, by forming the flange 51 on the top portion 49 of the guard plate 36, the flange 51 becomes a reinforcing material, which not only prevents bending downward of the transfer plate 10, but also prevents the guard plate 36 from wavy.

  15 is an end view similar to FIG. 5 of the transfer plate 10 shown as another example, and FIG. 16 is an end view similar to FIG. 6 of the transfer plate 10 shown as another example. FIG. 17 is an end view similar to FIG. 8 of the transfer plate 10 shown as another example. 15 to 17 are different from those of the transfer plate 10 of FIG. 1 in the configuration of the first and second end portions 13 and 14 and the first to fourth corner portions 18 to 21 of the transfer plate 10 shown in FIGS. Is the same as that of the transfer plate 10 shown in FIGS.

  As shown in FIGS. 16 and 17, the first end portion 13 of the transfer plate 10 of FIGS. 15 to 17 is fixed to the core material 25 tapered from the intermediate region 17 toward the edge 22 thereof, and fixed to the upper surface of the core material 25. The first reinforcing member 26 (composite material), the sheet member 28 fixed to the upper surface of the first reinforcing member 26, the anti-slip rubber 29A fixed to the upper surface of the sheet member 28, and the intermediate region 17 A second reinforcing member 30 (fiber reinforced plastic (FRP)) fixed to the lower surface of the core member 25 tapered toward the end edge 22; a first aluminum plate 27 fixed to the lower surface of the second reinforcing member 30; The anti-slip rubber 29 </ b> B is fixed to the lower surface of the first aluminum plate 27.

  The second end portion 14 of the transfer plate 10 of FIGS. 15 to 17 is tapered from the intermediate region 17 toward the edge 31 thereof, and a first reinforcing member 26 (composite composite) fixed to the upper surface of the core member 25. Material), a sheet member 28 fixed to the upper surface of the first reinforcing member 26, a non-slip rubber 29A fixed to the upper surface of the sheet member 28, and a tapered core from the intermediate region 17 toward the edge 30 thereof A second reinforcing member 30 (fiber reinforced plastic) fixed to the lower surface of the material 25, a first aluminum plate 27 fixed to the lower surface of the second reinforcing member 30, and a slip fixed to the lower surface of the first aluminum plate 27. The stopper rubber 29B is formed. The angle (inclination angle) formed by the surface and the second edge 14 when the transfer plate 10 is installed on a flat surface is in the range of 0 to 45 °, preferably in the range of 5 to 30 °.

  As shown in FIG. 15, the first side portion 15 of the transfer plate 10 of FIGS. 15 to 17 includes a core member 25, a first reinforcing member 26 (composite material) fixed to the upper surface of the core member 25, and a first member. A second aluminum plate 34 fixed to the upper surface of the reinforcing member 26, a second reinforcing member 30 (fiber reinforced plastic) fixed to the lower surface of the core member 25, and a third fixed to the lower surface of the second reinforcing member 30. The aluminum plate 35 is formed. The second side portion 16 includes a core member 25, a first reinforcing member 26 fixed to the upper surface of the core member 26, a second aluminum plate 34 fixed to the upper surface of the first reinforcing member 26, and the core member 25. The second reinforcing member 30 is fixed to the lower surface, and the third aluminum plate 35 is fixed to the lower surface of the second reinforcing member 30.

  The first and second corners 18 and 19 of the transfer plate 10 of FIGS. 15 to 17 are tapered on the upper surface of the core member 25 and the core member 25 tapering from the intermediate region 17 toward the edge 22 of the first end portion 13. A fixed first reinforcing member 26 (composite material), a second aluminum plate 34 fixed to the upper surface of the first reinforcing member 26, an anti-slip rubber 29A fixed to the upper surface of the second aluminum plate 34, The second reinforcing member 30 (fiber reinforced plastic) fixed to the lower surface of the taper core 25 toward the edge 22 of the first end portion 13 from the intermediate region 17 and the lower surface of the second reinforcing member 30 were fixed. The first aluminum plate 27, the third aluminum plate 35 fixed to the lower surface of the first aluminum plate 27, and the anti-slip rubber 29 </ b> B fixed to the lower surface of the third aluminum plate 35 are formed.

  In the first and second corner portions 18 and 19, the second aluminum plate 34, the first reinforcing member 26, the core member 25, the second reinforcing member 30, the first aluminum plate 27, and the third one from the top to the bottom in the vertical direction. The aluminum plates 35 are arranged in this order. The second aluminum plate 34, the first reinforcing member 26, the core member 25, the second reinforcing member 30, the first aluminum plate 27, and the third aluminum plate 35 positioned at the first and second corners 18 and 19 are threaded. Bolt holes with holes are drilled. In the first and second corner portions 18 and 19, bolts 57 (connection means) are screwed into the bolt holes, and the second aluminum plate 34, the first reinforcing member 26, the core member 25, the second reinforcing member 30, and the first The aluminum plate 27 and the third aluminum plate 35 are firmly fixed.

  The third and fourth corners 20 and 21 of the transfer plate 10 of FIGS. 15 to 17 are formed on the upper surface of the core member 25 and the core member 25 tapered from the intermediate region 17 toward the edge 31 of the second end portion 14. A fixed first reinforcing member 26 (composite material), a second aluminum plate 34 fixed to the upper surface of the first reinforcing member 26, an anti-slip rubber 29A fixed to the upper surface of the second aluminum plate 34, The second reinforcing member 30 (fiber reinforced plastic) fixed to the lower surface of the taper core 25 toward the edge 31 of the second end portion 14 from the intermediate region 17 and the lower surface of the second reinforcing member 30 were fixed. The first aluminum plate 27, the third aluminum plate 35 fixed to the lower surface of the first aluminum plate 27, and the anti-slip rubber 29 </ b> B fixed to the lower surface of the third aluminum plate 35 are formed.

  In the third and fourth corner portions 20, 21, the second aluminum plate 34, the first reinforcing member 26, the core member 25, the second reinforcing member 30, the first aluminum plate 27, the third, from the upper and lower sides to the lower side. The aluminum plates 35 are arranged in this order. The second aluminum plate 34, the first reinforcing member 26, the core member 25, the second reinforcing member 30, the first aluminum plate 27, and the third aluminum plate 35 positioned at the third and fourth corners 20 and 21 are threaded. Bolt holes with holes are drilled. In the third and fourth corner portions 20 and 21, bolts 57 (connection means) are screwed into the bolt holes, and the second aluminum plate 34, the first reinforcing material 26, the core material 25, the second reinforcing material 30, and the first The aluminum plate 27 and the third aluminum plate 35 are firmly fixed. In these plate materials 11A and 11B, the first to third aluminum plates 27, 34, and 35 define a frame structure (frame structure) that extends to the periphery of the plate materials 11A and 11B.

  The intermediate region 17 of the transfer plate 10 shown in FIGS. 15 to 17 is slightly tapered toward the first and second end portions 13 and 14 and the first intermediate region 17A having the same thickness. It is divided into a second intermediate region 17B. The intermediate region 17 includes a core member 25, a first reinforcing member 26 (composite material) fixed to the upper surface of the core member 25, a sheet member 28 fixed to the upper surface of the first reinforcing member 26, and the core member 25. The second reinforcing member 30 (fiber reinforced plastic) fixed to the lower surface is formed. The core member 25, the first to third aluminum plates 27, 34, and 35, the sheet member 28, the anti-slip rubbers 29A and 29B, the first reinforcing member 26, and the second reinforcing member 30 are those of the transfer plate 10 in FIG. Is the same.

  The upper surface of the first aluminum plate 27 is firmly fixed to the second reinforcing member 30 with an adhesive (not shown) applied to the lower surface of the second reinforcing member 30. The second aluminum plate 34 extending to the first and second side portions 15 and 16 and the first to fourth corner portions 18 to 21 has a lower surface applied to the upper surface of the first reinforcing material 26 (composite material). It is firmly fixed to the first reinforcing material 26 by an agent (not shown). The third aluminum plate 35 extending to the first and second side portions 15 and 16 has the upper surface thereof made of an adhesive (not shown) applied to the lower surface of the second reinforcing material 30 (fiber reinforced plastic). 30 is firmly fixed. The third aluminum plate 35 extending to the first to fourth corner portions 18 to 21 is firmly fixed to the first aluminum plate 27 by an adhesive (not shown) whose upper surface is applied to the lower surface of the first aluminum plate 27. Has been.

  The sheet member 28 extending to the first and second end portions 13 and 14 and the intermediate region 17 has a lower surface applied to the first reinforcing member 26 by an adhesive (not shown) applied to the upper surface of the first reinforcing member 26. It is firmly fixed. The second reinforcing member 30 (fiber reinforced plastic) extending to the first and second side portions 15 and 16 and the intermediate region 17 has an upper surface coated with an adhesive (not shown) applied to the lower surface of the core material 25. It is firmly fixed to. The second reinforcing member 30 extending to the first and second end portions 13 and 14 and the first to fourth corner portions 18 to 21 has an adhesive (not shown) whose lower surface is applied to the upper surface of the first aluminum plate 27. To the first aluminum plate 27.

  FIG. 18 is a perspective view of the transition plate 10 shown in a folded state, and FIG. 19 is a perspective view of the transition plate 10 shown in a use state. FIG. 20 is a side view of the crossover plate 10 shown in use. In FIGS. 19 and 20, the handles 37 </ b> A and 37 </ b> B are not shown, and the wheelchair is not shown. 10 and 20, the transfer plate 10 is shown in a state of being bridged between the platform 52 and the entrance / exit 54 of the train 53.

  In order to fold the transfer plate 10 from the state of FIG. 1, the handles 37A and 37B attached to the second side part 16 are held by hand, the handles 37A and 37B are lifted up and down, and the plate members 11A and 11B. The second side portion 16 is lifted upward in the vertical direction. Or the 2nd side part 16 of these board | plate materials 11A and 11B is held by hand, and the 2nd side part 16 is lifted up and down the upper direction. When the second side portions 16 of the plate members 11A and 11B are lifted upward, the second side portions 16 of the plate members 11A and 11B pivot upward about the hinge 12, and are folded so that the surfaces of the plate members 11A and 11B overlap each other. It is.

  In the folded state of FIG. 18, the guard plate 36 of the plate member 11B is positioned inside the guard plate 36 of the plate member 11A, and the top portion 49 of the guard plate 36 of the plate member 11B contacts the second side portion 16 of the plate member 11A. When the transfer plate 10 is lifted by holding the handles 37A and 37B while the transfer plate 10 is folded, the folded state of the transfer plate 10 is maintained, and in that state, the transfer plate 10 can be carried to a necessary place. it can. The transfer plate 10 is made of a core member 25, first and second reinforcing members 26, 30, first to third aluminum plates 27, 34, 35, a sheet member 28, and anti-slip rubbers 29A, 29B. Since these members are lightweight, the weight of the transfer plate 10 itself is light and can be easily carried.

  The procedure for using the transfer board 10 will be described as follows, taking as an example a case where a passenger in a wheelchair gets into the train 53 from the platform 52. The station staff pushes the wheelchair to move the passenger to the boarding position of the platform 52, and at the same time, the station staff carries the folded board 10 and carries the board 10 from the storage location to the boarding position of the platform 52. When the train 53 arrives at the station and stops at the platform 52, the station staff moves up and down so that the second side portions 16 of the plate members 11A and 11B are separated from each other with the first side portions 15 of the plate members 11A and 11B down. It is swung downward in the direction, the folded transfer plate 10 is developed, and preparation for use (use state in FIG. 1) is made.

  When the door of the train 53 is opened at the boarding position, the floor 55 in the train 53 is positioned above the platform 52, a step is formed between the platform 52 and the floor 55, and the entrance / exit 54 of the train 53 is opened. Is separated from the home 52 and a space (groove) is formed between the entrance 54 and the home 52. In the vicinity of the edge of the floor 55 of the entrance / exit 54 of the train 53, a guide rail 56 is laid to guide the door from the door pocket to the entrance / exit 54 when the door is closed, and between the platform 52 and the floor 55 of the train 53. In addition to the difference in level, a failure due to the guide rail 56 occurs, and it is difficult to move the wheelchair directly into the train 53 without using the transfer plate 10.

  After the door of the train 53 is opened at the boarding position, the edge 22 of the first end portion 13 of the plate material 11A, 11B of the transfer plate 10 is grounded to the platform 52 side (one location) in the door open state. The edge 31 of the second end 15 of the plate members 11A and 11B is grounded to the floor 55 (the other part) of the entrance / exit 54 in the vicinity of the door of the train 53. The connecting plate 10 can be installed by grounding the edges 22 and 31 of the first and second end portions 13 and 14 to the platform 52 and the floor 55 of the train 53, and the connecting plate 10 is connected to the platform 52 and the train 53. It can be bridged between cars.

  When the transfer plate 10 is bridged, as shown in FIG. 19, the first end portion 13, the intermediate region 17, the first and second corner portions 18 and 19 of the plate materials 11 </ b> A and 11 </ b> B of the transfer plate 10 are on the home 52 side. The second end portion 14 and the third and fourth corner portions 20, 21 of the plate members 11 </ b> A, 11 </ b> B are positioned in the train 53. The first and second side portions 15 and 16 of the plate members 11A and 11B are located between the platform 52 and the inside of the train 53, and straddle the step formed between the platform 52 and the floor 55 of the train 53. , Straddling the space between the platform 52 and the train 53.

  When the transfer plate 10 is bridged, a road that crosses the steps and grooves is created. As shown in FIG. 20, the end edge 22 of the first end portion 13 of the plate members 1A and 11B is grounded to the home 52, and the end edge 31 of the second end portion 14 of the plate members 11A and 11B is the train 53. In a state of being grounded to the floor 55 of the entrance / exit 54 in the vicinity of the door, a predetermined space is defined between the lower surfaces 39 and 41 of the intermediate region 17 of the plate members 11A and 11B and the platform 52 (the upper surfaces of those portions). At the same time, the upper surfaces 38 and 40 of the intermediate region 17 form a substantially flat passage between the first end portion 13 and the second end portion 14. Further, the maximum height of the second end edge 14 exceeds the top of the guide rail 56, and the edge 31 of the second end 14 of the plate members 11 </ b> A and 11 </ b> B is an entrance / exit near the door of the train 53. In a state in which the floor 55 is grounded, a predetermined space is defined between the lower surface 33 of the second end portion 14 and the floor 55 (the upper surface of the other portion), and the second end portion 14 is connected to the entrance 54. The top of the guide rail 56 (obstacle) laid near the edge of the floor 55 is exceeded.

  After bridging the transfer plate 10, the wheelchair located at the platform 52 is pushed toward the transfer plate 10, and the wheelchair wheel is placed on the first end 13, against the upward slope of the upper surface 23 of the first end 13. The wheelchair is moved in the front-rear direction from the first end 13 side toward the second end portion 14 side. When the wheelchair is moved from the first end portion 13 toward the second end portion 14 side, the wheelchair passes from the first end portion 13 through the intermediate region 17, passes through the second end portion 14, and enters the train 53. Move to. When the wheelchair passes through the intermediate region 17, even if the wheelchair wheel is about to be derailed from the second side portions 16 of the plate members 11 </ b> A and 11 </ b> B by mistake in directionality, the derailment is prevented by the guard plate 36. After moving the wheelchair into the train 53, the transfer board 10 is folded in the above-described procedure, and the transfer board 10 is carried to the storage location.

  When moving the wheelchair from the inside of the train 53 to the platform 52, the transfer board 10 is bridged between the platform 52 and the inside of the train 53, as in the case of getting the wheelchair into the train 53. Push the wheelchair located at the transfer plate 10, place the wheelchair wheel on the second end 14, and move the wheelchair from the second end 14 side against the ascending slope of the upper surface 32 of the second end 14. It is moved in the front-rear direction toward the first end 13 side. When the wheelchair is moved from the second end portion 14 toward the first end portion 13, the wheelchair moves from the second end portion 14 through the intermediate region 17 to the home 52 beyond the first end portion 13. To do.

  The case where the transfer board 10 is used for getting on and off the train 53 has been described as an example. It can be used in various places such as a level difference between the vehicle and the floor, a level difference between the inside and outside of the vehicle, and a crossing of a side ditch on the road.

  In the transfer plate 10, the first end portions 13 of the plate materials 11 </ b> A and 11 </ b> B are tapered from the intermediate region 17 toward the edge 22 of the first end portion 13, and the second end portions 14 of the plate materials 11 </ b> A and 11 </ b> B are formed. Since the thickness is tapered from the intermediate region 17 toward the edge 31 of the second end 14, the edge 22 of the first end 13 is grounded to the home 52 (one location), and the first When the edge 31 of the two end portions 14 is grounded to the floor 55 (the other portion) of the train 53, there is no step between the end portions 13 and 14 and the platform 52 or the floor 55. The wheelchair can be stably installed on the floor 55 of the train 53, the wheelchair can be smoothly moved from the home 52 to the inside of the train 53 without trouble, and the wheelchair can be smoothly moved from the inside of the train 53 to the home 52. Can be moved.

  In the transfer plate 10, the second end portion 14 is inclined downward at a predetermined angle from the intermediate region 17 toward the end edge 31 of the second end portion 14, and the maximum height of the second end edge 14 is the guide rail 56. Therefore, even if there is a guide rail 56 (obstacle) on the floor 55 of the entrance / exit 54 of the train 53, the second end portion 14 extends over the guide rail 56 and reaches its end. Since the edge 31 contacts the floor 55 of the train 53, the second end portion 14 does not ride on the guide rail 56, and the transfer plate 10 can be stably installed, and the wheelchair travels on the transfer plate 10 is stabilized. be able to. The transfer board 10 can safely move the wheelchair from the home 52 (one location) to the inside of the train 53 (the other location) and can safely move the wheelchair from the inside of the train 53 to the home 52. it can.

  Since the board | plate materials 11A and 11B are connected via the hinge 12, and the board | plate materials 11A and 11B can be folded so that the surface of these board | plate materials 11A and 11B may face each other, the delivery board 10 is necessary for carrying around. It can be easily carried to a place (boarding position of the train 53) and can be used at the right place in a timely manner, and it is flat across a place with a step or a groove where a wheelchair is difficult to pass. By forming a simple traffic path, it is possible to ensure smooth and safe movement of the wheelchair at those locations.

  In the transfer plate 10, the first and second end portions 13 and 14 include a first aluminum plate 27 in addition to the core material 25, and the first and second side portions 15 and 16 have second and third in addition to the core material 25. Since the first to fourth corner portions 18 to 21 include the first to third aluminum plates 27, 34, and 35 in addition to the core material 25, the four sides of the transfer plate 10 are provided with the aluminum plates 34 and 35. Unintentional deformation and buckling of the transfer plate 10 when a wheelchair with a predetermined weight, which is reinforced by the first to third aluminum plates 27, 34, and 35, passes over the transfer plate 10, is the aluminum plate. 27, 34, and 35, the safe travel of the wheelchair on the transfer plate 10 can be ensured. Further, the transfer plate 10 defines a frame structure in which the first to third aluminum plates 27, 34, and 35 extend to the peripheral edges of the plate materials 11 </ b> A and 11 </ b> B, and the frame structure defined by the aluminum plates 27, 34, and 35. Since the strength of the plate members 11A and 11B is improved, the frame structure prevents inadvertent deformation and buckling of the transfer plate 10 when a wheelchair with a predetermined weight on the person passes over the transfer plate 10. Safe traveling of the wheelchair on the transfer plate 10 can be ensured.

DESCRIPTION OF SYMBOLS 10 Transfer board 11A Board | plate material 11B Board | plate material 12 Hinge 13 1st edge part 14 2nd edge part 15 1st side part 16 2nd side part 17 Intermediate | middle area | region 17A 1st intermediate | middle area | region 17B 2nd intermediate | middle area | region 18 1st corner | angular part 19 2nd Corner portion 20 Third corner portion 21 Fourth corner portion 22 Edge 23 Upper surface 24 Lower surface 25 Core material 26 First reinforcing material (composite material)
27 First aluminum plate 28 Sheet member (non-slip member)
29A Non-slip rubber 29B Non-slip rubber 30 Second reinforcing material (fiber reinforced plastic)
31 edge 32 upper surface 33 lower surface 34 second aluminum plate 35 third aluminum plate 36 guard plate 37A handle 37B handle 38 upper surface 39 lower surface 40 upper surface 41 lower surface 42 polyethylene 43 reinforced aluminum plate 44 reinforced aluminum plate 45 convex portion 46 tape 47 Fixed part 48 Free part 49 Top part 50 Protection member 51 Flange 52 Home 53 Train 54 Entrance / exit 55 Floor 56 Guide rail 57 Bolt (connection means)

Claims (16)

In a portable transfer board that creates a passage that connects those locations by passing from one location to the other,
The transfer plate is formed of at least two plate members having a predetermined thickness adjacent to each other in the lateral direction and extending in the front-rear direction, and a hinge that foldably connects the plate members so that the surfaces of the plate members face each other. A first end portion extending in the lateral direction positioned at the one location, a second end portion extending in the lateral direction positioned at the other location, and front and back straddling from the one location to the other location First and second side portions extending in the direction, the remaining intermediate region excluding the first and second end portions and the first and second side portions, the first and second end portions and the first And the first to fourth corners intersecting the second side, the hinge is installed between the first side of the plate,
The first end portions of the plate members are tapered from the intermediate region toward the edge of the first end portion, and the second end portions of the plate members are formed from the intermediate region to the second end portion. The connecting plate is characterized in that the thickness thereof is tapered toward the end edge of the second end portion and is inclined downwardly at a predetermined angle from the intermediate region toward the end edge of the second end portion. .   In the transfer plate, a predetermined space is defined between the lower surface of the second end portion and the upper surface of the other portion when the edge of the second end portion of the plate material contacts the other portion. The delivery board according to claim 1.   The first end portions of the plate members have an upper surface that is inclined upward from the end edge toward the intermediate region, and a lower lower surface that is flat from the end edge toward the intermediate region. An end portion has an upper surface inclined upward from the edge toward the intermediate region, and a lower surface inclined upward from the edge toward the intermediate region, the upper end of the second end The transfer plate according to claim 1 or 2, wherein an inclination angle of the lower surface is larger than that of the upper surface of the first end portion.   In the transfer plate, when the edge of the first end portion of the plate material is grounded to the one place and the edge of the second end portion of the plate material is grounded to the other location, the intermediate region of the plate material A predetermined space is defined between the lower surface of the first region and the upper surface of those portions, and the upper surface of the intermediate region forms a substantially flat passage between the first end portion and the second end portion. The transfer plate according to any one of claims 1 to 3.   The transfer plate according to any one of claims 1 to 4, wherein a guard plate that stands upward from the second side portion and extends in the front-rear direction is formed on the second side portion of the plate member.   The transfer plate according to claim 5, wherein a flange that extends in at least one of a laterally inward and a laterally outward direction and extends in the front-rear direction is formed on a top portion of the guard plate.   The transfer plate according to claim 5 or 6, wherein a protection member made of rubber or thermoplastic synthetic resin and covering the top portion is attached to the top portion of the guard plate.   The transfer plate according to any one of claims 1 to 7, wherein a handle having flexibility for carrying the plate material in a folded state is attached to the second side portion of the plate material.   The hinge is made of a flexible tape extending in the front-rear direction, and the tape is positioned between a pair of opposing surfaces of the first side portions of the plate members and extends in a vertical direction. And a free portion extending between the fixed portions and arcing upward toward the surface of the plate member, and the upper surfaces of the fixed portions are fixed to the opposing surface of the first side portion. The transfer plate according to any one of claims 1 to 8.   An intermediate region of the plate member includes a core member, a plate-like first reinforcing member fixed to the upper surface of the core member, an anti-slip member fixed to the upper surface of the first reinforcing member, and a lower surface of the core member The core material is formed of a plate-like second reinforcing material fixed to the core, and the core material is formed such that the first and second end portions of the plate material taper from the intermediate region toward the edge of the end portions, and the core. The first reinforcing member fixed to the upper surface of the material, the first aluminum plate fixed to the upper surface of the first reinforcing member and extending in the lateral direction, and the anti-slip member fixed to the upper surface of the first aluminum plate An anti-slip rubber fixed to the upper surface of the anti-slip member, the second reinforcing material fixed to the lower surface of the core member that tapers from the intermediate region toward the edge of the end, A non-slip rubber fixed to the lower surface of the second reinforcing member; A second side portion of the core member; the first reinforcing member fixed to the upper surface of the core member; a second aluminum plate fixed to the upper surface of the first reinforcing member and extending in the front-rear direction; and the core Formed from the second reinforcing material fixed to the lower surface of the material and a third aluminum plate fixed to the lower surface of the second reinforcing material and extending in the front-rear direction, the first to fourth corners of the plate material, The core material tapering from the intermediate region toward the edges of the first and second end portions, the first reinforcing material fixed to the upper surface of the core material, and fixed to the upper surface of the first reinforcing material The first aluminum plate, the second aluminum plate fixed to the upper surface of the first aluminum plate, the anti-slip rubber fixed to the upper surface of the second aluminum plate, and the intermediate region from the intermediate region The second reinforcing member fixed to the lower surface of the core member tapered toward the edges of the first and second end portions; 10. The device according to claim 1, wherein the third aluminum plate is fixed to the lower surface of the second reinforcing member, and the anti-slip rubber is fixed to the lower surface of the third aluminum plate. The delivery board described.   In the first to fourth corners of the plate material, the second aluminum plate, the first aluminum plate, the first reinforcing material, the core material, the second reinforcing material, The three aluminum plates are arranged in order, and they are firmly fixed via connecting means at the first to fourth corners, and in the plate material, the first to third aluminum plates define a frame structure. Item 10. The transfer board according to Item 10.   An intermediate region of the plate member includes a core member, a plate-like first reinforcing member fixed to the upper surface of the core member, an anti-slip member fixed to the upper surface of the first reinforcing member, and a lower surface of the core member The core material is formed of a plate-like second reinforcing material fixed to the core, and the core material is formed such that the first and second end portions of the plate material taper from the intermediate region toward the edge of the end portions, and the core. The first reinforcing member fixed to the upper surface of the member, the anti-slip member fixed to the upper surface of the first reinforcing member, the anti-slip rubber fixed to the upper surface of the anti-slip member, and the intermediate region The second reinforcing member fixed to the lower surface of the core member tapered toward the edge of the end portion thereof, the first aluminum plate fixed to the lower surface of the second reinforcing member and extending in the lateral direction, A non-slip rubber fixed to the lower surface of the first aluminum plate, and A second side portion of the core member; the first reinforcing member fixed to the upper surface of the core member; a second aluminum plate fixed to the upper surface of the first reinforcing member and extending in the front-rear direction; and the core Formed from the second reinforcing material fixed to the lower surface of the material and a third aluminum plate fixed to the lower surface of the second reinforcing material and extending in the front-rear direction, the first to fourth corners of the plate material, The core material tapering from the intermediate region toward the edges of the first and second end portions, the first reinforcing material fixed to the upper surface of the core material, and fixed to the upper surface of the first reinforcing material Said second aluminum plate, said anti-slip rubber fixed to the upper surface of said second aluminum plate, and said core material tapering from said intermediate region toward the edge of said first and second end portions The second reinforcing member fixed to the lower surface of the first reinforcing plate, the first aluminum plate fixed to the lower surface of the second reinforcing member, 10. The method according to claim 1, wherein the third aluminum plate is fixed to the lower surface of the first aluminum plate, and the anti-slip rubber is fixed to the lower surface of the third aluminum plate. The delivery board described.   In the first to fourth corners of the plate material, the second aluminum plate, the first reinforcing material, the core material, the second reinforcing material, the first aluminum plate, the first, The three aluminum plates are arranged in order, and they are firmly fixed via connecting means at the first to fourth corners, and in the plate material, the first to third aluminum plates define a frame structure. Item 13. The transfer board according to Item 12.   The core material is any one of foamed polystyrene, foamed urethane, and foamed polyethylene having a predetermined thickness, and the first and second reinforcing materials are any one of a fiber reinforced plastic and a composite material, and the composite The transfer plate according to any one of claims 10 to 13, wherein the material is formed of any one of polyethylene, polystyrene, and urethane and a reinforcing aluminum plate fixed to at least the upper surface of the upper and lower surfaces thereof.   The anti-slip member is a sheet member made of synthetic resin, and the sheet member has a plurality of protrusions that are arranged at predetermined intervals in the front-rear direction and the lateral direction and protrude upward from the upper surface of the core material. The transfer board according to claim 10, wherein: is formed.   The transfer board is used by being bridged between a train and a platform. In the transfer board, an edge of the first end is grounded to the home, and a maximum height of the second edge is 2. The vehicle has a dimension that exceeds a guide rail laid on a floor of a train entrance and exit, and an edge of the second end crosses the guide rail and is grounded to a floor inside the train. The transfer board according to claim 15.

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