JP6325408B2 - Wheelchair frame structure and wheelchair - Google Patents

Description

  The present invention relates to a wheelchair frame structure and a wheelchair including the frame structure.

  Conventionally, the frame structure of a wheelchair is configured by bending a long pipe or connecting a plurality of pipe-shaped frames by a technique such as welding. Generally, since the frame of a wheelchair employs an extruded pipe formed by extrusion, the frame has a certain diameter or thickness.

  Further, in the wheelchair frame structure, a pair of side frames having a seat portion, a back portion, and a leg portion are connected to the left and right so that a wheelchair user can sit, and the front and rear sides of the side frame are extended to the side. A support frame connected to the part frame is provided. Then, casters and main wheels are directly or indirectly attached to the support frame, and the support frame supports the side frames.

  The present invention provides an unprecedented wheelchair frame structure. That is, the present invention aims at improving the frame structure of a wheelchair and the wheelchair, focusing on the problem that the conventional wheelchair frame structure employs a pipe having a constant diameter (or thickness). . In particular, in a frame structure that employs a pipe having a constant diameter (or thickness) as in the prior art, for example, the frame portion that supports the main wheel on which the weight of the occupant concentrates has a certain strength or more. In necessary places, the entire frame is made larger in diameter. As a result, it has been necessary to increase the diameter of the frame portion where relatively high strength is not required, such as the vicinity of the caster on the front side where the burden due to the weight of the occupant is small. Alternatively, when the frame diameter is reduced, a reinforcing frame is added to ensure a predetermined strength. Therefore, the problem that the burden of material cost will become large while the weight of the whole wheelchair will arise.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a frame structure and a wheelchair that can reduce the weight and material cost while ensuring a predetermined strength.

The frame structure according to claim 1 is a pair of side frames having a seat, a back part to which the rear part of the seat part is connected and extending upward, and a leg part bent downward from the front part of the seat part;
The pair of side frames extends in the front-rear direction below the pair of side frames, the rear end is connected to the vicinity of the rear end of the seat portion, and the front end is connected to the vicinity of the lower end of the leg portion. A pair of support frames supported from below,
At the front end of the support frame, a caster holding part for installing a caster is provided, and at the rear end of the support frame, a main wheel holding part for installing a main wheel is provided,
The support frame is characterized by being inclined forward and downward so that the front end of the support frame is positioned below the rear end, and tapered so as to become thinner from the rear end toward the front end.

  The frame structure according to claim 2 is characterized in that, in the frame structure according to claim 1, the support frame is composed of a hollow hydroforming pipe formed by hydroforming.

  According to a third aspect of the present invention, the frame structure according to the first or second aspect is characterized in that inner surfaces of the pair of support frames facing each other are formed flat.

  According to a fourth aspect of the present invention, the frame structure of the third aspect further includes a cross frame that connects the pair of side frames and the support frame in the width direction, and the fixing plate of the cross frame is a flat inner part of the support frame. It is fixed to the side surface.

  The frame structure according to claim 5 is the frame structure according to any one of claims 1 to 4, wherein the main wheel holding portion is formed of one or a plurality of through holes formed at a rear end of the support frame. And

  The frame structure according to claim 6 is the frame structure according to any one of claims 1 to 5, wherein the main wheel holding portion includes a vertical frame extending in a vertical direction connected to a rear end of the support frame, and the vertical frame. A main wheel holding member fixed to be capable of height adjustment and having one or a plurality of through holes.

The frame structure according to claim 7, further comprising an arm support frame connected to the side frame via a clamp member in the frame structure according to any one of claims 1 to 6.
The arm support frame has a support pipe extending in the longitudinal direction and an arm rest extending in a forward direction at the upper end of the support pipe. A first plane is formed on the outer peripheral surface of the support pipe, and the first plane Is provided with one or more first fixing holes,
A second flat surface that can be engaged with the first flat surface is formed on the inner peripheral surface of the clamp member, and the second fixed hole is formed on the second flat surface so as to coincide with one or more first fixed holes. Is formed.

  A wheelchair according to an eighth aspect includes the frame structure according to any one of the first to seventh aspects.

The wheelchair according to claim 9 is the wheelchair according to claim 8, wherein the main wheel holding portion is capable of changing the axial support position of the main wheel along the horizontal direction and / or the vertical direction of the wheelchair,
Side guards are attached to the outside of the pair of side frames,
The side guard includes a panel portion extending so as to protect the occupant from the side, a flange portion extending outward from the upper edge of the panel portion, and being curved in an arc along the outer peripheral surface of the main wheel, One or more connecting parts for connecting to the side frame,
The connecting portion is composed of a plurality of slits spaced at a predetermined interval in the vertical direction of the wheelchair, and each slit extends in the longitudinal direction in the horizontal direction of the wheelchair,
The connecting portion is characterized in that the flange portion can be arranged concentrically with the main wheel in accordance with the position change of the main wheel.
The wheelchair according to claim 10 is a wheelchair including a caster, a main wheel, and a frame structure,
The frame structure is
A pair of side frames having a seat portion, a back portion to which the rear portion of the seat portion is connected and extending upward, and a leg portion bent downward from the front portion of the seat portion;
A pair that supports the pair of side frames from below by extending forward and backward under the pair of side frames and having front and rear ends thereof connected directly or indirectly to the side frames. And a support frame,
A caster holding part for installing a caster is provided at the front end of the support frame, and a main wheel holding part for installing a main wheel is provided at the rear end of the support frame. ,
The main wheel holding unit is capable of changing the axial support position of the main wheel along the horizontal direction and / or the vertical direction of the wheelchair,
Side guards are respectively attached to the outside of the pair of side frames,
The side guard includes a panel portion extending so as to protect the occupant from the side, and a flange extending outward from the upper edge of the panel portion and curved in an arc along the outer peripheral surface of the main wheel. And one or more connecting parts for connecting to the side frame,
The connecting portion is composed of a plurality of slits spaced at a predetermined interval in the vertical direction of the wheelchair, and each slit extends in a longitudinal direction in the horizontal direction of the wheelchair,
The connecting portion is characterized in that the flange portion can be arranged concentrically with the main wheel in accordance with a position change of the main wheel.

  According to the present invention, the support frame is tapered so that the cross-sectional area of the support frame decreases from the rear end to the front end. That is, since the cross-sectional area is maximum at the rear end of the support frame where the burden due to the weight of the occupant provided with the main wheel holding portion is the largest, the strength is relatively high. On the other hand, at the front end of the support frame where the burden due to the weight of the occupant provided with the caster holding portion is the smallest, the cross-sectional area is minimized, and thus the strength is relatively low. In other words, by varying (or optimizing) the strength distribution along the longitudinal direction as needed in one support frame, the predetermined strength required for the support frame is guaranteed according to the location of the wheelchair. However, the weight and material cost can be reduced.

  According to another aspect of the present invention, in addition to any of the above effects, a tapered hollow support frame can be easily formed by hydroforming.

  According to another aspect of the present invention, in addition to any of the above effects, the inner surfaces of the pair of support frames facing each other are formed in a flat shape. This member can be stably fixed to the inner surface.

  According to another aspect of the present invention, in addition to any of the above effects, the through-hole for the main wheel holding portion can be drilled in the side surface of the support frame because the cross-sectional area of the rear end of the support frame is large. It becomes possible.

  According to another aspect of the present invention, in addition to any of the above effects, since the cross-sectional area of the rear end of the support frame is large, it is possible to firmly connect the rear end of the support frame and the vertical frame of the main wheel holding portion. It becomes possible.

The schematic perspective view seen from the front of the wheelchair of one embodiment of the present invention. The schematic side view of the wheelchair of FIG. The (a) longitudinal cross-sectional view of the frame main body of the support frame of the wheelchair of FIG. 2, (b) AA cross-sectional view, and (c) BB cross-sectional view. The schematic rear view of the cross frame of the wheelchair of FIG. The schematic perspective view of the arm support frame of the wheelchair of FIG. The disassembled perspective view of the arm support frame of FIG. The schematic perspective view of the side guard of the wheelchair of FIG. The (a) side view of the side guard of FIG. 7, (b) Top view, (c) Front view. (A) A schematic side view of a wheelchair in which the main wheel shaft support position is moved from the front to the rear of the support frame, but the side guard position is not adjusted, (b) the main wheel shaft support position of the support frame The schematic side view of the wheelchair which was moved back from the front and the position of the side guard was adjusted. The perspective view seen from the front of the wheelchair of another embodiment (2nd embodiment) of the present invention. The side view of the wheelchair of FIG. (A) Schematic side view of a wheelchair in which the pivot position of the main wheel is moved from the front and top to the rear and bottom of the support frame, but the side guard position is not adjusted, (b) the pivot position of the main wheel FIG. 3 is a schematic side view of a wheelchair in which a side guard is adjusted while moving the support frame from the front and the top to the back and the bottom.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In addition, the shape of each figure referred in the following description is a conceptual diagram or a schematic diagram for explaining a suitable shape dimension, and a dimension ratio etc. do not necessarily correspond with an actual dimension ratio. That is, the present invention is not limited to the dimensional ratio in the drawings.

[First Embodiment]
FIG. 1 is a perspective view seen from the front of a wheelchair 10 according to an embodiment of the present invention. FIG. 2 is a side view of the wheelchair 10.

  As shown in FIG.1 and FIG.2, the wheelchair 10 of one Embodiment is provided with the main wheel 11 and the frame structure 100 which supports this main wheel 11 rotatably.

  The frame structure 100 includes a pair of side frames 110 having a seat portion 111, a back portion 112 bent upward from the rear portion of the seat portion 111, and a leg portion 113 bent downward from the front portion of the seat portion 111; A pair of support frames 120 extending forward and backward under the pair of side frames 110, a cross frame 130 for connecting a pair of frame assemblies including the side frames 110 and the support frames 120 in the width direction, and the pair of frames A pair of arm support frames 140 coupled to the side frames 110 via clamp members 145, respectively.

  The side frame 110 is bent in a substantially Z shape in a side view, the seat 111 corresponds to the position of the seat surface of the occupant, the back portion 112 corresponds to the back of the occupant, and the leg portion 113 is It corresponds to the occupant's knee. That is, the seat 111 extends mainly with a horizontal component, and the back 112 and the legs 113 extend mainly with a vertical component. The rear end of the seat portion 111 is connected to the back portion 112, and the lower end of the back portion 112 further extends below the seat portion 111. In addition, footrests 13 are respectively attached to the lower ends of the leg portions 113 of the pair of side frames 110. A support frame 120 is installed between the lower end of the back portion 112 and the vicinity of the lower end of the leg portion 113.

  In the present embodiment, a seat can be stretched between the seat portions 111 of the pair of side frames 110, but the upper surface of the cross frame 130 positioned between the seat portions 111 (the shape portion pipe 133). ) Is stretched with a cloth-like sheet. A cloth-like backrest sheet is stretched between the back portions 112 of the pair of side frames 110.

  The support frame 120 is provided at the frame main body 121 extending from the front end to the rear end, the caster holding portion 123 for attaching the caster 12 provided at the front end of the frame main body 121, and the rear end of the frame main body 121. The main wheel holding part 124 for attaching the main wheel 11 is provided. By connecting the front end and the rear end of the support frame 120 to the side frame 110, the pair of side frames 110 are supported by the support frame 120 from below. More specifically, the front end of the support frame 120 is connected in the vicinity of the lower end of the leg portion 113 of the side frame 110, and the rear end of the support frame 120 is the lower end of the back portion 112 of the side frame 110 (or the vicinity of the rear end of the seat portion 111). It is connected to. The support frame 120 is inclined forward and downward so that the front end thereof is located below the rear end.

  As shown in FIG. 3A, the frame main body 121 is a hollow long frame, and is formed in a tapered shape so as to become thinner from the rear end toward the front end. Further, as shown in FIG. 3B, the frame main body 121 faces the inner side in the width direction of the wheelchair 10 (that is, the pair of support frames 120 face each other) and the outer side in the width direction. And an outer side surface 121b. In the present embodiment, the cross-sectional shape of the frame body 121 is a pentagon. And in the support frame 120 of this embodiment, the inner surface 121a is formed in flat shape. Thus, since the inner surface 121a is formed in a flat shape, an area necessary for stably fixing members such as the cross frame 130 is secured. Further, the outer surface 121b is refracted at an inclination angle so as to be folded outward. Thus, since the outer surface 121b is refracted so as to bulge outward, the bending strength in the longitudinal direction of the frame body 121 is improved.

  More specifically, referring to FIGS. 3B and 3C, when the cross-sectional shapes of the front end side and the rear end side of the frame main body 121 are compared, the length of the side on the inner surface 121a side is the rear end side. Is longer. Further, the inclination angle of the outer surface 121b is sharper on the front end side than on the rear end side. Furthermore, the lengths of the sides of the upper and lower side surfaces 121c and 121c that connect the inner side surface 121a and the outer side surface 121b are substantially constant between the rear end side and the front end side, and the outermost side surfaces of the inner side surface 121a and the outer side surface 121b are the same. The distance to the outer end is substantially constant between the rear end side and the front end side. The frame body 121 has a substantially uniform (constant) thickness from the front end to the rear end.

  That is, as shown in FIG. 3B, the cross-sectional area of the frame body 121 is configured to be larger at the rear end and smaller at the front end. In other words, since the amount of the metal material used on the rear end side is large, it has high rigidity. That is, at the rear end of the support frame 120 where the burden due to the weight of the occupant provided with the main wheel holding portion 124 is the largest, the cross-sectional area is maximized, and thus the strength is relatively high. On the other hand, at the front end of the support frame 120 where the burden due to the weight of the occupant provided with the caster holding portion 123 is the smallest, the cross-sectional area is minimized, and thus the strength is relatively low.

  The frame main body 121 of the support frame 120 is made of a metal (aluminum, titanium, stainless steel, etc.) hollow hydroforming pipe formed by hydroforming (or bulge forming). More specifically, in the hydroforming process, after setting a hollow pipe-shaped frame material in the mold, the frame material is clamped, and both ends of the frame material are pivoted while filling the hollow space of the frame material with high-pressure liquid. A support frame 120 having a predetermined taper shape (the shape of the frame body 121) can be obtained by hollow-molding the frame material by causing the flesh of the frame material to flow into the shape of the mold while compressing in the direction. By such a hydroforming technique, the hollow frame can be easily formed into a predetermined shape (tapered shape), and a local reduction in the plate thickness in forming can be minimized or prevented. .

  A caster holding portion 123 is integrally connected (welded) to the front end of the frame body 121 of the support frame 120. The caster holding part 123 has a through-hole 123a penetrating vertically, and a stem of the caster 12 is pivotably attached to the through-hole 123a. The front part of the caster holding part 123 is integrally connected (welded) to the vicinity of the lower end of the leg part 113 of the side frame 110. That is, the frame main body 121 of the support frame 120 is integrally and indirectly coupled to the leg portion 113 of the side frame 110 via the caster holding portion 124.

  A main wheel holding portion 124 is integrally formed at the rear end of the frame body 121 of the support frame 120. The main wheel holding portion 124 extends from the rear end of the support frame 120 to the lower end of the back portion 112 of the side frame 110. The main wheel holding portion 124 has a plurality of (four in this embodiment) shaft holes 124 a penetrating in the width direction of the wheelchair 10. The plurality of shaft holes 124a are continuously provided in the horizontal direction (the front-rear direction of the wheelchair 10) so as to overlap each other. Each shaft hole 124a has a diameter that can pivotally support the axle 11a of the main wheel 11. Some of the plurality of shaft holes 124 a penetrate the inner surface 121 a and the outer surface 121 b of the frame body 121. By selecting one of the plurality of shaft holes 124 a and arranging the axle 11 a of the main wheel 11, the axial support position of the main wheel 11 can be changed along the horizontal direction (front and rear) of the wheelchair 10.

  The cross frame 130 connects a pair of frame assemblies including the side frame 110 and the support frame 120 in the width direction of the wheelchair 10 and allows the wheelchair 10 to be folded in the width direction. FIG. 4 is a schematic view of the cross frame 130 as viewed from the back of the wheelchair 10. As shown in FIG. 4, the cross frame 130 includes a pair of bar members 131 that are rotatably coupled to each other at a center thereof, and a lower end portion of the pair of bar members 131. A pair of fixed plates 132 connected to each other, a pair of upper pipes 133 extending in the advancing direction (front and rear) of the wheelchair 10 above the pair of bar members 131, the pair of bar members 131, and A pair of auxiliary plates 135 rotatably connected to both side frames 110.

  The pair of fixing plates 132 are fixed to the flat inner surface 121 a of the support frame 120. That is, since the inner side surface 121a where the pair of support frames 120 face each other is formed in a flat shape, the fixing plate 132 of the cross frame 130 is stably fixed to the inner side surface 121a. In other words, the bonding area between the fixing plate 132 and the frame body 121 is large. Further, the upper pipe 133 is supported on a receiving portion 114 that extends inside the seat portion 111 of the side frame 110. A seat sheet (not shown) is stretched between the pair of upper pipes 133.

  In order to fold the wheelchair 10 in the width direction by operating the cross frame 130, the rotation shaft 134 is loosened, the pair of bar members 131 are rotated relative to each other, and the lower ends of the pair of bar members 131 are fixed to the fixing plate 132. Rotate with respect to. Then, a pair of upper pipe 133 floats from the receiving part 114 of the side frame 110, and the wheelchair 10 is folded in the width direction.

  The arm support frame 140 is held by the wheelchair 10 so that an occupant can place his / her arm by being sandwiched between clamp members 145 fixed to the back portion 112 of the side frame 110. As shown in FIG. 5, the arm support frame 140 includes a support pipe 141 that extends in the vertical direction and an armrest 142 that refracts and extends forward at the upper end of the support pipe 141. As shown in FIG. 6, the armrest 142 is configured by covering a hollow tube made of carbon fiber reinforced plastic with a flexible tube 142a and inserting a cap 142b at the tip thereof. In addition, although a shape restriction | limiting arises in an armrest, you may employ | adopt a metal pipe instead of a carbon fiber reinforced plastic for the armrest of this invention.

  As shown in FIG. 6, the support pipe 141 is supported by the side frame 110 by being sandwiched between the inner peripheral surfaces of the clamp members 145. A flat first plane 141a (rotation restricting portion) is formed on the outer surface of the outer peripheral surface of the support pipe 141. A plurality of first fixing holes 141b are formed in the first plane 141a. On the other hand, a second flat surface 145a (rotation restricting portion) that can be engaged with the first flat surface 141a is formed on the inner surface of the inner peripheral surface of the clamp member 145. The second flat surface 145a has one second fixing hole 145b formed so as to coincide with any one of the plurality of first fixing holes 141b. In other words, the armrest 142 is held at a predetermined height by matching one first fixing hole 141b selected from the plurality of first fixing holes 141b with the second fixing hole 145b and penetrating them with screws. can do. At this time, rotation of the support pipe 141 relative to the clamp member 145 is restricted by the first plane 141a and the second plane 145b coming into contact with each other.

  In the wheelchair 10 of the present embodiment, side guards 150 are respectively attached to the outside of the pair of side frames 110 to protect the occupant from the side. FIG. 7A is a perspective view of the side guard 150 viewed from the inside of the wheelchair 10, and FIG. 7B is a perspective view viewed from the outside. FIG. 8A is a plan view of the side guard 150, FIG. 8B is a side view thereof, and FIG. 8C is a front view thereof.

  As shown in FIGS. 7 and 8, the side guard 150 includes a panel portion 151 that extends in a flat plate shape, and a flange portion 152 that extends outward from the upper edge of the panel portion 151 at a substantially right angle. The panel portion 151 extends so as to cover and protect the body of the occupant and the side of the waist. And the upper edge of the panel part 151 is curving in the shape corresponding to the tire outer periphery of the main wheel 11. FIG. That is, as shown in FIG. 2, the flange portion 152 is curved along the outer peripheral surface (tire contact surface) of the main wheel 11 and extends so that the outer peripheral surface of the main wheel 11 can be covered from above. . In particular, the flange portion 152 is curved in an arc shape having a radius of curvature (R) that is substantially the same (or slightly larger) as that of the main wheel 11, and the lower surface of the flange portion 152 and the outer peripheral surface of the main wheel 11 face each other. So that they are arranged close to each other on a concentric circle. And the flange part 152 has covered the outer peripheral surface of the main wheel 11 located in the range between the seat part 111 and the back part 112 of the side part flame | frame 110. FIG. Accordingly, mud is prevented from splashing on the occupant from the outer peripheral surface of the main wheel 11 while the wheelchair 10 is traveling.

  Further, the panel portion 151 is formed with a plurality of connecting portions 153 for connecting to the side frame 110. More specifically, the connecting portion 153 is formed at three positions of the rear upper end, the rear lower end, and the front lower end of the panel portion 151. The rear lower end and front lower end connecting portion 153 is connected to the seat portion 111 of the side frame 110, and the rear upper end connecting portion 153 is connected to the back portion 112 of the side frame 110. Each connecting portion 153 has a plurality of (four in this embodiment) slits 153 a arranged in the vertical direction of the wheelchair 10 at a predetermined interval. By passing the bolt shaft through the slit 153 a and the side frame 110, the side guard 150 can be fixed to the side frame 110. Each slit 153 a extends in the longitudinal direction along the horizontal direction of the wheelchair 10. The length of the slit 153a in the longitudinal direction is preferably equal to or larger than the maximum movement distance of the axle 11a in the main wheel holding portion 124. The side guard 150 is made of carbon fiber.

  Next, a mechanism for adjusting the position of the side guard 150 according to the position of the main wheel 11 in the wheelchair 10 of the present embodiment will be described with reference to FIG. FIG. 9A is a side view of the wheelchair 10 in which the pivot position of the main wheel 11 is moved from the front (see FIG. 2) of the support frame 120 to the rear, but the position of the side guard 150 is not adjusted. . As shown in FIG. 9A, in the same manner as in FIG. 2, in each connecting portion 153, a bolt is inserted into the right end of the third-stage slit 153a from the top, and the panel portion 151 is fixed to the side frame 110. ing. On the other hand, the axle 11 a of the main wheel 11 is inserted into the shaft hole 124 a at the right end of the main wheel holding portion 124. The flange portion 152 of the side guard 150 is spaced forward from the outer peripheral surface of the main wheel 11. That is, the flange portion 152 is not arranged on the concentric circle with the main wheel 11. Therefore, the outer peripheral surface of the main wheel 11 is exposed upward in the vicinity of the back portion 112 of the side frame 110. In the form of FIG. 9 (a), there is a portion that is not covered by the flange portion 152 in the range between the seat portion 111 and the back portion 112 (corresponding to the position at which the occupant sits). Mud splash to the seated passengers cannot be sufficiently prevented.

  On the other hand, FIG. 9B shows the wheelchair 10 in which the axial support position of the main wheel 11 is moved from the front (see FIG. 2) of the support frame 120 to the rear and the position of the side guard 150 is adjusted. It is a side view. As shown in FIG. 9B, in each connecting portion 153, a bolt is inserted into the left end of the third-stage slit 153 a from the top, and the panel portion 151 is fixed to the side frame 110. On the other hand, the axle 11 a of the main wheel 11 is inserted into the shaft hole 124 a at the right end of the main wheel holding portion 124. The flange portion 152 of the side guard 150 is adjacently disposed along the outer peripheral surface of the main wheel 11. That is, the flange portion 152 is disposed on a concentric circle with the main wheel 11. Accordingly, the flange portion 152 covers the outer peripheral surface of the main wheel 11 located in the range between the seat portion 111 and the back portion 112 of the side frame 110. Therefore, according to the present embodiment, the side guard 150 can be moved in the horizontal direction and attached to the side frame 110 following the horizontal movement of the pivot support position of the main wheel 11. Thereby, the position adjustment of the main wheel 11 can be performed while maintaining the mud splash preventing function of the side guard 150.

[Second Embodiment]
FIG. 10 is a perspective view seen from the front of a wheelchair 20 according to another embodiment of the present invention. FIG. 11 is a side view of the wheelchair 20.

  As shown in FIGS. 10 and 11, the wheelchair 20 of one embodiment includes a main wheel 21 and a frame structure 200 that rotatably supports the main wheel 21. The wheelchair 20 of the present embodiment is partially common in configuration and structure with the wheelchair 10 of the above embodiment. In the description of the present embodiment, the description of the constituent elements common to the first embodiment is omitted, but the members indicated by two digits or three digits and having the same code of the lower one digit or the lower two digits are Generally refers to similar or similar members or features.

  The frame structure 200 includes a pair of side frames 210 having a seat portion 211, a back portion 212 bent upward from the rear portion of the seat portion 211, and a leg portion 213 bent downward from the front portion of the seat portion 211; A pair of support frames 220 extending back and forth below the pair of side frames 210, a cross frame 230 connecting a pair of frame assemblies composed of the side frames 210 and the support frames 220 in the width direction, and the pair of sides A pair of arm support frames 240 respectively connected to the part frame 210 via a clamp member 245. And in the side part frame 210 of the frame structure 200 of this embodiment, the point which the rear end of the seat part 211 and the lower end of the back part 212 are connected, and the main wheel holding | maintenance part 224 is the pivotal support position of the main wheel 21. Is different from the wheelchair 10 mainly in that it can be changed in the horizontal direction and the vertical direction of the wheelchair 10.

  The main wheel holding portion 224 includes a vertical frame 224a that hangs down from the lower end of the seat portion 211 of the side frame 210 along the vertical direction of the wheelchair 20, and an axle fixed to the vertical frame 224a so that its support height can be adjusted. And a support plate 224b. The main wheel holding portion 224 (vertical frame 224a) is connected (welded) to the rear end of the support frame 220 and is provided integrally.

  The vertical frame 224a has a plurality of position adjustment holes provided at predetermined intervals in the vertical direction of the wheelchair 20, and the axle support plate 224b is fixed to the selected position adjustment hole. The axle support plate 224b can be adjusted in several steps in the vertical direction (four steps in the present embodiment), and its support height can be adjusted at predetermined intervals of the position adjustment holes. That is, by fixing the axle support plate 224b to the position adjustment hole below the vertical frame 224a, the side frame 210 of the wheelchair 20 can be supported at a high position. In the present embodiment, the interval between the position adjustment holes and the interval between the slits 253a of the side guard 250 are determined to be equal.

  The axle support plate 224b has a plurality of (four in this embodiment) shaft holes 224a penetrating in the width direction of the wheelchair 20. The plurality of shaft holes 224a are continuously provided in the horizontal direction (the front-rear direction of the wheelchair 20) so that each overlaps. Each shaft hole 224a has a diameter that can pivotally support the axle 21a of the main wheel 21 in a rotational manner. By selecting one of the plurality of shaft holes 224 a and arranging the axle 21 a of the main wheel 21, the axial support position of the main wheel 21 can be changed along the horizontal direction (front and rear) of the wheelchair 20.

  Next, a mechanism for adjusting the position of the side guard 250 in accordance with the position of the main wheel 21 in the wheelchair 20 of the present embodiment will be described with reference to FIG. FIG. 12A shows the wheelchair 20 in which the pivot position of the main wheel 21 is moved from the front and top of the support frame 220 to the rear and bottom (see FIG. 11), but the position of the side guard 250 is not adjusted. It is a side view. As shown in FIG. 12A, as in the embodiment of FIG. 11, in each connecting portion 253, a bolt is inserted into the right end of the fourth-stage slit 253a from the top, and the panel portion 251 is fixed to the side frame 210. ing. On the other hand, the support frame 220 is supported at a high position, and the axle 21a of the main wheel 21 is inserted into the shaft hole 224a at the right end of the main wheel holding portion 224. Further, the flange portion 252 of the side guard 250 is greatly separated forward and upward from the outer peripheral surface of the main wheel 21. Therefore, in the vicinity of the back portion 212 of the side frame 210, the outer peripheral surface of the main wheel 21 is exposed upward. Further, since the flange portion 252 is largely separated from the outer peripheral surface of the main wheel 21, it cannot be said that the flange portion 252 covers the outer peripheral surface of the main wheel 21. That is, in the form of FIG. 12A, there is a portion that is not covered by the flange portion 252 in the range between the seat portion 211 and the back portion 212 (corresponding to the position where the occupant sits). Mud splashing to the occupant from the outer peripheral surface cannot be sufficiently prevented.

  On the other hand, in FIG. 12B, the shaft support position of the main wheel 21 is moved from the front and top (see FIG. 11) to the back and bottom of the support frame 220, and the position of the side guard 250 is adjusted. FIG. As shown in FIG. 12B, in each connecting portion 253, a bolt is inserted into the left end of the first-stage slit 253 a from the top, and the panel portion 251 is fixed to the side frame 210. On the other hand, the support frame 220 is supported at a high position, and the axle 21a of the main wheel 21 is inserted into the shaft hole 224c at the right end of the main wheel holding portion 224. The flange portion 252 of the side guard 250 is adjacently disposed along the outer peripheral surface of the main wheel 21. At this time, the flange portion 252 is disposed concentrically with the main wheel 21. Accordingly, the flange portion 252 covers the outer peripheral surface of the main wheel 21 located in the range between the seat portion 211 and the back portion 212 of the side frame 210. Therefore, according to the present embodiment, the side guard 250 is moved in the horizontal direction and the vertical direction following the movement in the horizontal direction and the vertical direction of the shaft support position of the main wheel 21 and attached to the side frame 210. It is possible. Thereby, the position of the main wheel 21 can be adjusted while maintaining the mud splash preventing function of the side guard 250.

  Hereinafter, the function and effect of the frame structures 100 and 200 of the present embodiment will be described.

  According to the frame structures 100 and 200 of the present embodiment, the frame bodies 121 and 221 of the support frames 120 and 220 are formed in a tapered shape so that the cross-sectional area decreases from the rear end to the front end. That is, at the rear ends of the support frames 120 and 220 where the burden due to the weight of the occupant provided with the main wheel holding portions 124 and 224 is the largest, the cross-sectional area is maximized, so that the strength is relatively high. On the other hand, at the front ends of the support frames 120 and 220 where the burden due to the weight of the occupant provided with the caster holding portions 123 and 223 is the smallest, the cross-sectional area is minimized, and thus the strength is relatively low. Therefore, according to the present embodiment, the strength distribution is varied or optimized along the longitudinal direction in the frame main bodies 121 and 221 of the single support frame 120 and 220 as necessary, thereby supporting the support frame 120. , 220 while ensuring the predetermined strength required for each part, it is possible to reduce the weight and material cost.

(Modification)
The frame structure and wheelchair of the present invention are not limited to the above embodiment, and can be modified as follows, for example.

(1) In the above embodiment, the cross-sectional shape of the frame body of the support frame is a pentagon, but the present invention is not limited to this shape. For example, the inner surface of the cross section of the frame body may be a flat surface and the outer surface may be semicircular. Alternatively, the cross section may be a triangle or the like.

(2) In the above embodiment, the side frame and the support frame are connected via the cross frame, but the present invention is not limited to this. That is, instead of the cross frame, a beam-like bar material that cannot be folded may be employed.

(3) In the above embodiment, the main wheel holding unit is configured to be able to hold the axle of the main wheel at a plurality of positions along the horizontal direction or the vertical direction, but the present invention is not limited to this. For example, the main wheel holding part may consist of a single shaft hole. Alternatively, unlike the above embodiment, the position may be adjustable only in the vertical direction.

  The present invention is not limited to the above-described embodiments and modifications, and can be implemented in various modes as long as they belong to the technical scope of the present invention.

10, 20 Wheelchair 11, 21 Main wheel 11a, 21a Axle 12, 22 Caster 13, 22 Footrest 100, 200 Frame structure 110, 210 Side frame 111, 211 Seat 112, 212 Back 113, 213 Leg 114, 214 120,220 Support frame 121,221 Frame body (hydroforming pipe)
121a, 221a Inner side surface 121b, 221b Outer side surface 123, 223 Caster holding part 123a, 223a Through hole 124, 224 Main wheel holding part 124a Shaft hole 224a Vertical frame 224b Axle support plate 224c Shaft hole 130, 230 Cross frame 131, 231 Bar Materials 132, 232 Fixed plates 133, 233 Upper pipes 134, 234 Rotating shafts 135, 235 Auxiliary plates 140, 240 Arm support frames 141, 241 Support pipes 141a, 241a First plane (rotation restricting portion)
141b, 241b First fixing holes 142, 242 Armrests 145, 245 Clamp members 145a, 245a Second plane (rotation restricting portion)
145b, 245b Second fixing hole 150, 250 Side guard 151, 251 Panel portion 152, 252 Flange portion 153, 253 Connection portion 153a, 253a Slit

Claims (10)

A pair of side frames having a seat portion, a back portion to which the rear portion of the seat portion is connected and extending upward, and a leg portion bent downward from the front portion of the seat portion;
The rear end of the pair of side frames extends in the front- rear direction , the rear end thereof is connected to the vicinity of the rear end of the seat portion, and the front end thereof is connected to the vicinity of the lower end of the leg portion . A pair of support frames that support the side frames from below,
A caster holding part for installing a caster is provided at the front end of the support frame, and a main wheel holding part for installing a main wheel is provided at the rear end of the support frame. ,
The support frame is formed so as to be inclined obliquely forward and downward so that the front end of the support frame is positioned below the rear end, and to be tapered from the rear end toward the front end. Wheelchair frame structure to play.   The frame structure according to claim 1, wherein the support frame is formed of a hollow hydroforming pipe formed by a hydroforming process.   The wheelchair frame structure according to claim 1 or 2, wherein inner surfaces of the pair of support frames facing each other are formed flat.   The cross frame for connecting the pair of side frames and the support frame in the width direction is further provided, and a fixing plate of the cross frame is fixed to the flat inner surface of the support frame. Frame structure as described in.   The frame structure according to any one of claims 1 to 4, wherein the main wheel holding portion includes one or a plurality of through holes formed in a rear end of the support frame.   The main wheel holding portion includes a vertical frame that is connected to the rear end of the support frame and extends in the vertical direction, and is fixed to the vertical frame so that the height can be adjusted. The main wheel has one or more through holes. The frame structure according to claim 1, further comprising a holding member. An arm support frame connected to the side frame via a clamp member;
The arm support frame includes a support pipe extending in a longitudinal direction, and an arm rest extending in a forward direction at an upper end of the support pipe, a first plane is formed on an outer peripheral surface of the support pipe, and The first plane has one or more first fixing holes, and
A second plane that can be engaged with the first plane is formed on the inner peripheral surface of the clamp member, and the second plane is formed so as to match the one or more first fixing holes. The frame structure according to any one of claims 1 to 6, wherein a second fixing hole is formed.   A wheelchair comprising the frame structure according to any one of claims 1 to 7. The main wheel holding unit is capable of changing the axial support position of the main wheel along the horizontal direction and / or the vertical direction of the wheelchair,
Side guards are respectively attached to the outside of the pair of side frames,
The side guard includes a panel portion extending so as to protect the occupant from the side, and a flange extending outward from the upper edge of the panel portion and curved in an arc along the outer peripheral surface of the main wheel. And one or more connecting parts for connecting to the side frame,
The connecting portion is composed of a plurality of slits spaced at a predetermined interval in the vertical direction of the wheelchair, and each slit extends in a longitudinal direction in the horizontal direction of the wheelchair,
The wheelchair according to claim 8, wherein the connecting portion can arrange the flange portion concentrically with the main wheel in accordance with a position change of the main wheel. A wheelchair comprising casters, main wheels and a frame structure,
The frame structure is
A pair of side frames having a seat portion, a back portion to which the rear portion of the seat portion is connected and extending upward, and a leg portion bent downward from the front portion of the seat portion;
A pair that supports the pair of side frames from below by extending forward and backward under the pair of side frames and having front and rear ends thereof connected directly or indirectly to the side frames. And a support frame,
A caster holding part for installing a caster is provided at the front end of the support frame, and a main wheel holding part for installing a main wheel is provided at the rear end of the support frame. ,
The main wheel holding unit is capable of changing the axial support position of the main wheel along the horizontal direction and / or the vertical direction of the wheelchair,
Side guards are respectively attached to the outside of the pair of side frames,
The side guard includes a panel portion extending so as to protect the occupant from the side, and a flange extending outward from the upper edge of the panel portion and curved in an arc along the outer peripheral surface of the main wheel. And one or more connecting parts for connecting to the side frame,
The connecting portion is composed of a plurality of slits spaced at a predetermined interval in the vertical direction of the wheelchair, and each slit extends in a longitudinal direction in the horizontal direction of the wheelchair,
The connecting portion is a wheelchair characterized in that the flange portion can be arranged concentrically with the main wheel in accordance with a position change of the main wheel.

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