JP6263496B2 - Chair - Google Patents

Description

  The present invention relates to a chair having a function of assisting a seated user to get up.

  For example, there are chairs called wheelchairs with wheels and normal chairs without wheels. In particular, in the case of a wheelchair, a user who has difficulty in walking, such as an elderly person, is often used.

  By the way, when the user stands up from the state of sitting in the wheelchair, if the legs and hips are inconvenient, it may be inconvenient that the user cannot stand up without assistance from a caregiver. Moreover, even when a caregiver assists, it is desirable that the burden on the user is small.

  Therefore, recently, a chair has been proposed that allows a seated user to stand up relatively easily. As such a prior art, one disclosed in Patent Document 1 is known.

  In the chair shown in Patent Document 1, a rotation frame is rotatably provided between a front leg and a rear leg of the frame. At the rear end of the rotating frame, a seat portion that swings up and down together with the rotating frame is provided, and a footrest is provided at the tip. The rotating frame is urged in a direction in which the seat portion is lifted by, for example, a gas spring.

  The user sits on the seat and sits on the footrest. When standing, with his feet on the footrest, he stands with his hands on the armrests provided on both sides of the frame.

  As a result, the rotating frame rotates and the seat rises, so that the user can stand up with the collar being pushed forward by the seat. That is, the user is assisted to stand up by the rotation of the rotation frame.

JP 7-275295 A

  By the way, according to the chair having the above-described configuration, when the user sitting on the seat rises, the rotating frame rotates, so that the footrest and the buttocks on which the user's feet are placed are placed by this rotation. The seat will rotate together.

  Therefore, the user's foot placed on the footrest is rotated in a direction approaching the front surface from a position spaced apart from the front front of the chair, and the heel portion is pushed up obliquely forward by the seat portion. Will be.

  In other words, the user's body is pushed diagonally forward in the rotation direction while the leg is rotated backward by the rotation of the rotation frame, so that the body is supported by the rotation frame. It receives the force in the direction of rotation.

  As a result, the user is likely to stagger forward due to the movement of the leg and the force acting on the upper body, and thus the stability when standing up may be impaired. In addition, since a force is applied to the hand holding the armrest in order to cope with the forward wobbling, a relatively large load may be applied to both arms.

  That is, as described above, when the user stands up, the rotating frame is configured to rotate, and in the case of an elderly person who is incapacitated, the user cannot easily and stably stand up.

  An object of the present invention is to provide a chair that allows a user to stand up stably without causing the body to swing forward.

The present invention includes a main body,
A seat arranged on the upper surface side of the main body;
A first link mechanism provided on the front side of the main body;
A footrest that is connected to the first link mechanism and is vertically movable between a rising position and a grounding position on the front side of the main body;
The seat is connected to the upper surface of the main body so as to be movable in the vertical direction, and the footrest is moved downward in the vertical direction by operating the first link mechanism provided in conjunction with the first link mechanism. A second link mechanism that raises the seat when lifted,
When the user sitting on the seat rises while stepping on the footrest, the footrest moves vertically downward to the ground contact position, and the seat is displaced upward .

The present invention includes a main body,
Wheels provided rotatably on the main body;
A footrest provided on the front side of the main body so as to be vertically movable between a rising position and a grounding position;
A seat which is arranged on the upper surface side of the main body and rises in conjunction with the downward movement of the footrest;
And a brake mechanism for preventing rotation of the wheel in conjunction with the raising of the seat.

  According to the present invention, the footrest on which the user sitting on the seat puts his / her foot moves up and down in the vertical direction between the raised position and the ground contact position by the first link mechanism.

  Therefore, when the seated user stands up, the foot placed on the footrest is moved vertically downward, so that the user can stand up without receiving force in the rotational direction, so that the user is stable. Well, it is possible to stand up relatively easily.

The front view of the wheelchair which shows 1st Embodiment of this invention. The side view which shows the state which exists in the position which the footrest of the wheelchair rose. The side view which shows the state which exists in the position which the footrest of the wheelchair descended. Sectional drawing of the height adjustment mechanism for adjusting the height position of a footless. The side view of the chair in the state which the seat part which shows 2nd Embodiment of this invention descend | falls, and the brake mechanism was cancelled | released. The enlarged view of the brake mechanism of the chair of the state shown in FIG. The side view of the chair in the state which the seat part raised and the brake mechanism act | operated. The enlarged view of the brake mechanism of the chair of the state shown in FIG. The side view of the chair in the state which the seat part fell and the brake mechanism act | operated. The enlarged view of the brake mechanism of the chair of the state shown in FIG. The enlarged view of the brake mechanism which shows the state which the engagement pin provided in the slide link slid to the taper surface of the rotation link. The side view of the chair in the state which the seat part which shows 3rd Embodiment of this invention descend | falls, and the brake was cancelled | released. The side view of the chair in the state which the seat part went up and the brake act | operated.

  Embodiments of the present invention will be described below with reference to the drawings.

  1 to 4 show a first embodiment of the present invention. FIG. 1 is a front view of a wheelchair 1, and FIGS. 2 and 3 are side views. The wheelchair 1 includes a vehicle body 2 as a main body. The vehicle body 2 is configured by connecting a pair of side frames 3 formed in a rectangular frame shape in parallel by a plurality of horizontal pipes 4 at a predetermined interval.

  The vehicle body 2 may be configured such that the pair of side frames 3 are connected in a foldable manner in the width direction by links or the like instead of the horizontal pipes 4. That is, the vehicle body 2 may be configured to be folded flat in the width direction.

  A front wheel 6 is provided at the lower part of the front end pipe of the pair of side frames 3, and a rear wheel 7 is provided in the middle of the rear end pipe. The front wheel 6 and the rear wheel 7 are grounded at the same height with respect to the floor surface F which is a grounding surface.

  The support arm 8 that rotatably supports the front wheel 6 is attached to the front end pipe of the side frame 3 so as to be rotatable in the horizontal direction. Thereby, the wheelchair 1 can change the traveling direction by the front wheel 6.

  The rear end pipes of the pair of side frames 3 extend upward, and the upper ends of the pipes are curved rearward. A grip 9 is attached to an end portion of the curved portion of the pipe to be held when an assistant performs a traveling operation of the wheelchair 1.

  Although not shown, a brake lever is provided near the grip 9. If the assistant holds the brake lever while operating the wheelchair 1, the rear wheel 7 can be braked.

  Between the pair of pipes extending above the rear ends of the pair of side frames 3, for example, a canvas 10 constituting a back portion is detachably stretched as shown by a chain line in FIG. A cushion body may be provided instead of the canvas 10.

  An armrest 11 having an L-shaped side surface is provided on the upper surface of both end portions in the width direction of the vehicle body 2, that is, on the upper ends of the pair of side frames 3, respectively. That is, the armrest 11 has one end connected to the upper end of the pipe at the front end of the side frame 3 and the other end connected to the middle part of the portion extending above the pipe at the rear end of the side frame 3. Yes.

  The front end pipe of the side frame 3 and the armrest 11 may be integrally formed with the same pipe.

  As shown in FIGS. 2 and 3, a first link mechanism 12 is provided on the front end side of the pair of side frames 3, that is, on the front side of the vehicle body 2. The first link mechanism 12 has a first link 13 having one end pivotally attached to a pipe at the front end of the side frame 3. One end of a second link 14 having the same length as the first link 13 is pivotally attached to the lower end portion of the armrest 11 positioned at the upper end of the front end pipe of the side frame 3.

  The other ends of the first link 13 and the second link 14 are pivotally connected to one end and the other end of a third link 15 as a connecting member, respectively. The distance between one end and the other end of the first link 13 and the second link 14 is the same, that is, the first link 13 and the second link 14 are connected in parallel or substantially parallel.

  The third link 15 is arranged vertically so as to be parallel to the pipe at the front end of the side frame 3. Accordingly, the third link 15, the first link 13, the second link 14, and a part of the pipe at the front end of the side frame 3 form a parallel link.

  The other ends of the first link 13 and the second link are connected by the third link 15 as a connecting member, but instead of the third link 15, the fixed cylinder 21 is vertically spaced by a predetermined distance. It is also possible to provide a pair of flanges that are separated from each other, and pivotally attach the other ends of the first link 13 and the second link to each flange.

  As shown in FIG. 1, a footrest 18 is horizontally provided on each of the pair of third links 15 via a height adjusting mechanism 17 as will be described later. As shown in FIG. 4, the height adjusting mechanism 17 has a fixed cylinder 21 connected and fixed to the third link 15. The fixed cylinder 21 is open at the lower end, and a movable cylinder 22 protruding from the lower end is slidably inserted therein. A height adjusting shaft 24 having a male threaded portion 24a with a tightening nut 23 screwed to the lower end is inserted into the movable cylinder 22.

  A pressing element 25 having a lower surface formed on an inclined surface 25 a is eccentrically connected to the tip of the height adjusting shaft 24. The upper end of the movable cylinder 22 is formed on an inclined surface 22 a having an angle corresponding to the inclined surface 25 a of the pressing element 25.

  When the tightening nut 23 is screwed and the height adjusting shaft 24 is slid downward, the inclined surface 25a of the pressing element 25 slides while being pressed against the inclined surface 22a of the movable cylinder 22, and a part of the outer peripheral surface thereof is The inner surface of the fixed cylinder 21 is in pressure contact. Thereby, the movable cylinder 22 is held in a non-slidable manner with respect to the fixed cylinder 21.

  In a state where the tightening nut 23 is loosened, the movable tube 22 is slid to a predetermined protruding length with respect to the fixed tube 21, and the tightening nut 23 is tightened at that position. The cylinder 21 can be fixed by protruding from the lower end of the cylinder 21 with a predetermined length. That is, the height adjusting mechanism 17 can set the length in the vertical direction formed by the fixed cylinder 21 and the movable cylinder 22.

  A support shaft 27 is mounted horizontally and forward in the front-rear direction of the vehicle body 2 on the outer peripheral surface of the pair of movable cylinders 22 protruding from the lower end of the fixed cylinder 21. A receiving portion 29 provided at one end portion in the width direction of the footrest 18 is rotatably attached to the support shaft 27. Accordingly, the footrest 18 is mounted so as to rotate in the width direction of the vehicle body 2 as indicated by an arrow r in FIG.

  That is, as shown in FIG. 1, the footrest 18 is in a horizontal state where the vehicle body 2 lies down inward in the width direction and in a state where the footrest 18 stands substantially vertically by being rotated outward in the width direction. And can be held in each state.

  On the lower surface of the pair of footrests 18, a non-slip member 31 formed in a plate shape by a material having a high coefficient of friction such as rubber or resin is attached. When the user stands up, as will be described later, when the user puts his / her weight on the foot placed on the footrest 18, the first link mechanism 12 is activated by the weight and the pair of footrests 18 are lowered as shown in FIG. To do.

  In the lowered footrest 18, the non-slip member 31 provided on the lower surface is pressed against the floor surface F. That is, since the footrest 18 descends vertically in a horizontal state, the entire lower surface provided with the anti-slip member 31 hits the floor surface F.

  Accordingly, when the user stands by lowering the footrest 18, the wheelchair 1 is prevented from moving with respect to the floor surface F. That is, when the user stands up from the wheelchair 1, it is possible to prevent the wheelchair 1 from shifting and the user's posture from becoming unstable.

  In addition, instead of sticking a plate-like material such as rubber or resin to the lower surface of the footrest 18, the anti-slip means makes the lower surface of the footrest 18 a shape with a high friction coefficient such as an uneven surface. May be.

  As shown in FIGS. 2 and 3, a rectangular seat portion 32 is provided on the upper surface side of the vehicle body 2 so as to be movable in the vertical direction by a second link mechanism 33. The second link mechanism 33 has a fourth link 34 having one end pivotally attached to the same portion as the one end of the second link 14 of the first link mechanism 12. The fourth link 34 is provided so as to rotate integrally with the second link 14.

  The second link 14 and the fourth link 34 are not separated from each other, and the fourth link 34 is integrally formed at one end of the second link 14 in a state bent at a predetermined angle. The portion may be pivotally attached to the pipe at the front end of the side frame 3.

  The other end of the fourth link 34 extends toward the rear of the vehicle body 2, and is pivotally attached to a portion on the front end side of the seat portion 32, in this embodiment, a lower portion of the front end portion. The other end of the fifth link 35 having one end pivoted to the rear end side of the fourth link 34 on the upper surface of the vehicle body 2 is pivotally attached to the lower portion on the rear end side of the seat portion 32. Yes. The fifth link 35 is set to have the same length as the fourth link 34.

  The fourth link 34 and the fifth link 35 have one end pivotally attached to the middle part of the fourth link 34 and the other end pivoted to the middle part of the fifth link 35. 36. Thereby, when the fourth link 34 rotates, the movement is reliably transmitted to the fifth link 35 by the sixth link 36.

  The fourth link 34, the fifth link 35, a member constituting the lower surface of the seat portion 32, and a member constituting the upper surface of the vehicle body 2 constitute a parallel link. That is, the fourth link 34 and the fifth link 35 are provided in parallel or substantially in parallel.

  Since the fourth link 34 and the fifth link 35 rotate in the same direction, the seat portion 32 rises from the upper surface of the vehicle body 2 in a horizontal state or is raised according to the rotation direction. It is driven in the direction of descending from. At that time, the seat 32 not only rises, but slightly moves forward of the vehicle body 2 as indicated by the arrow f in FIG. 3 in response to the rotation of the fourth and fifth links 34 and 35. become.

  The first link mechanism 12 and the second link mechanism 33 can be moved by applying an external force. In a state where no load (external force) is applied to the footrest 18 and the seat portion 32, the seat portion 32 is lowered to the lowering limit by the second link mechanism 33 as shown in FIG. Thus, the weight of the seat 32 and the footrest 18 is set so that the footrest 18 rises to the ascending limit.

  Therefore, in the state shown in FIG. 2, if a load is applied to the footrest 18, the footrest 18 can be displaced in the downward direction as shown in FIG.

  One of the link mechanisms cannot be operated by a stopper such as a pin so that the first and second link mechanisms 12 and 33 do not operate at the position where the seat portion 32 is lowered and the footrest 18 is raised. You may make it hold | maintain.

  Further, instead of holding one of the link mechanisms inoperable by the stopper, either one of the fourth or fifth links 34 and 35 of the second link mechanism 33 is biased by a gas spring or a spring. The seat portion 32 may be urged in a rising direction, which is a rising direction.

  By doing so, when the user sits on the seat 32, the seat 32 descends against the urging force of the urging means, and the footrest 18 rises. And when a user stands up, the said seat part 32 presses a user's buttocks upwards with the urging | biasing force of the said urging means. Therefore, it helps the user to get up.

  In the wheelchair 1 having such a configuration, an operation when a user who sits on the seat 32 and puts both feet on the footrest 18 stands up will be described.

  A user sitting on the seat 32 holds the armrest 11 with both hands and presses the footrest 18 downward with both feet while reducing the weight on the seat 32. When the footrest 18 is pressed downward, the first link mechanism 12 is activated and the footrest 18 is displaced downward in the vertical direction in a horizontal state as indicated by an arrow d in FIG.

  At this time, the first and second links 13 and 14 of the first link mechanism 12 have the other end on the footrest 18 side displaced downward with one end pivoted on the vehicle body 2 side as a fulcrum. Accordingly, the footrest 18 is lowered while slightly approaching the front surface of the vehicle body 2 as shown in FIG.

  When the first link mechanism 12 is operated, the second link mechanism 33 is interlocked with the operation. That is, when the second link 14 of the first link mechanism 12 rotates, the fourth link 34 of the second link mechanism 33 is interlocked with the rotation.

  As a result, the fourth link 34 rotates from the lying state as shown in FIG. 2 to the standing direction as shown in FIG. The fifth link 35 is linked via the 32 and the sixth link 36.

  That is, as shown in FIG. 2, the seat portion 32 that has been in the lowered position moves slightly forward in front of the vehicle body 2 in a horizontal state in response to the rotational rise of the fourth and fifth links 35. As shown.

  As a result, the user stands up with his / her legs pushed upward in the vertical direction by the ascending seat 32 while extending both legs vertically downward by the descending footrest 18.

  In this way, the user stands up while pushing down the footrest 18 in a horizontal state vertically downward with both feet. Therefore, when the user stands up, the user extends the bent leg downward in the vertical direction. Therefore, the movement of the footrest 18 causes the lower part from the knee of the leg to bend toward the rear of the vehicle body 2. You can stand up without receiving the power of.

  That is, when the user stands up, since the footrest 18 descends vertically, the user is not subjected to an external force that bends the leg portion, so that the user can stand up in a stable state without wobbling the lower body.

Moreover, the seat 32 is displaced upward in a horizontal state. Therefore, the user when a hip by the movement of the seat 32 coming up pushed upward, there is almost no Rukoto pushed forward upper body. That is, since the user does not receive the force in the rotational direction on the upper body, the user can stand up in a stable posture.

  When the footrest 18 is displaced downward in the vertical direction, the footrest 18 is horizontally displaced in a direction slightly approaching the front surface of the vehicle body 2 by the movement of the first link mechanism 12. When the seat portion 32 moves up, it moves slightly from the rear to the front of the vehicle body 2 due to the movement of the second link mechanism 33.

  Accordingly, when the user seated on the seat portion 32 stands up, the heel portion shifts forward while the position of the footrest 18 approaches the user, so that the footrest 18 can be lowered relatively easily. it can.

  When the footrest 18 is stepped on until it hits the floor surface F, the non-slip member 31 provided on the lower surface of the footrest 18 comes into pressure contact with the floor surface F. That is, the lower surface of the footrest 18 that descends vertically in a horizontal state uniformly and reliably contacts the floor surface F.

  Therefore, even when the vehicle body 2 is in a state of being easily moved by the front wheels 6 and the rear wheels 7 provided on the vehicle body 2, the vehicle body 2 is moved by the non-slip member 31 pressed against the floor surface F when the user stands up. As a result, the user can stand up in a stable state.

  The footrest 18 can be adjusted in height in the vertical direction by the height adjusting mechanism 17. Therefore, by changing the height position of the footrest 18, even users with different heights can use the footrest 18 in an easy-to-use state.

  Moreover, even when the height position of the footrest 18 is changed, the footrest 18 that moves vertically up and down in a horizontal state has the same condition that the bottom surface provided with the slip prevention member 31 is the same as the floor surface F as described above. Securely press-contact with. Therefore, even users with different heights can stand up from the wheelchair 1 in a stable state.

  In the first embodiment, the fourth link 34 and the fifth link 35 of the second link mechanism 33 that actuates the seat 32 have the same length, but the fifth link 35 is the fourth link. It may be longer than 34.

  By doing so, when the second link mechanism 33 is actuated and the seat portion 32 is raised, the seat portion 32 rises in a state of being inclined low toward the front, so that the user's buttock is directed forward. Will be raised while pushing.

  In this case, the user's buttocks are pushed obliquely upward by the seat portion 32, but the leg portion descends vertically, which makes it possible to ensure stability when standing up.

  Although the height of the footrest 18 in the vertical direction can be adjusted by the height adjusting mechanism 17, the height adjusting mechanism 17 is replaced with the above-described configuration, for example, by inserting the movable cylinder 22 into the fixed cylinder 21. The height may be adjusted stepwise by screws or screws, and the configuration is not limited at all.

  In the first embodiment, an example applied to a wheelchair has been described, but the above-described configuration can be applied even to a normal chair other than a wheelchair in which no wheel is provided.

5 to 11 show a wheelchair 1A according to a second embodiment of the present invention. Note that the same parts as those in the first embodiment are denoted by the same reference numerals and description thereof is omitted.

  The second embodiment includes a brake mechanism 41 that prevents the rear wheel 7 from rotating. The brake mechanism 41 includes a flat plate-like base member 42 that is suspended from the upper side of the vehicle body 2 along the front-rear direction. A guide slot 43 is formed in the lower end portion of the base member 42 along the front-rear direction.

  In the guide long hole 43, a slide link 44 is provided so as to be slidably engaged with a guide pin 45 provided in the middle part in the longitudinal direction. Although not shown, the guide pin 45 has a head having a diameter larger than the width of the guide long hole 43. Accordingly, the guide pin 45 is prevented from being removed from the guide long hole 43.

  An engagement pin 46 is provided at one end of the slide link 44. The engaging pin 46 is engaged with the tip of the rotation link 47. The tip end (the other end) of the rotation link 47 is formed on a tapered surface 47a (shown in FIGS. 6 and 11).

  An attachment member 48 is provided on the front end side of the base member 42. A base end portion (one end) of the rotation link 47 is pivotally attached to the attachment member 48 by a support shaft 48a. That is, the rotation link 47 and the support shaft 48a are integrated, and the support shaft 48a is rotatably attached to the attachment member 48.

  A base end (one end) of a brake link 49 is rotatably attached to a middle portion of the attachment member 48. The front end of the brake link 49 faces the outer peripheral surface of the rear wheel 7, and a brake member 51 is provided at the front end (the other end).

  One end of the first interlocking link 52 is connected to the support shaft 48a pivotally attached to the base end of the rotation link 47, that is, to rotate together with the support shaft 48a. One end of a second interlocking link 53 is pivotally attached to the middle portion of the brake link 49. The other end of the first interlocking link 52 and the other end of the second interlocking link 53 are pivotally attached.

  The first interlocking link 52 and the second interlocking link 53 are bent in a reverse shape as shown in FIG. 6 when the seat 32 is in the lowered position, and the seat 32 is in the raised position. In some cases, it is almost linear as shown in FIG.

  In the second embodiment, one end of the fourth link 34 that connects the seat portion 32 to the vehicle body 2 is pivotally attached to a lower position of the vehicle body 2 than one end of the fifth link 35. ing.

  Accordingly, the fourth link 34 and the fifth link 35 are in a non-parallel state, and when the seat 32 is raised as shown in FIGS. 7 and 8, the seat 32 is moved forward. It is designed to incline toward the bottom.

  In the second embodiment, the fourth link 34 and the fifth link 35 are not connected by the sixth link 36 as in the first embodiment.

  As shown in the first embodiment, one end of the first link 13 and the second link 14 of the first link mechanism 12 is provided in the fixed cylinder 21 as a connecting member. Instead of being pivotally attached to the three links 15, they are pivotally attached to a pair of connecting members 15 a as connecting members provided at upper intervals of the fixed cylinder 21.

  The fourth link 34 and the fifth link 35 may be provided in parallel so that the seat portion 32 rises in a horizontal state. That is, as shown in the first embodiment, one end and the other end of the fourth link 34 and the fifth link 35 having the same length are connected to the vehicle body 2 so that they are parallel to each other. The seat portion 32 may be pivotally attached to the same height position.

  At the end of the fifth link 35 pivotally attached to the vehicle body 2 by the support shaft 55, one end of the first transmission link 54 has the same rotation fulcrum as the fifth link 35, and It is connected so as to rotate integrally with the support shaft 55.

  One end of a second transmission link 56 is pivotally attached to the other end of the first transmission link 54. The other end of the second transmission link 56 is pivotally attached to the other end of the slide link 44. Accordingly, the first transmission link 54 and the second transmission link 56 transmit the movement (rotation) of the fifth link 35 to the slide link 44 when the seat portion 32 is raised and lowered. The transmission means is configured.

  The base end of the operation lever 61 is integrally formed with the rotation link 47 on the support shaft 48a in which the base end of the rotation link 47 and one end of the first interlocking link 52 are pivotally attached to the mounting member 48. It is connected to rotate.

  As a result, the operation lever 61 is rotated between a state in which the operation lever 61 stands substantially vertically as shown in FIGS. 5 and 6 and a state in which the operation lever 61 is inclined forward of the vehicle body 2 as shown in FIGS. It can be moved.

  As shown in FIG. 5, when the footrest 18 is raised and the seat portion 32 is in the lowered position and the operation lever 61 is erected almost vertically, the first interlocking link 52 is shown in FIG. The second interlocking link 53 is bent in a reverse letter shape. In this state, the brake link 49 is rotated so that the brake member 51 provided at the tip part is separated from the outer peripheral surface of the rear wheel 7.

  As shown in FIG. 5, when the user sitting on the seat 32 rises with the foot resting on the footrest 18 from the state where the seat 32 is lowered, the footrest 18 is moved to the first by the load of the user. The link mechanism 12 is operated to descend.

  When the first link mechanism 12 is operated, the second link mechanism 33 is interlocked with the operation. That is, in conjunction with the rotation of the second link 14 of the first link mechanism 12, the fourth link 34 that has been in a lying state as shown in FIG. The fifth link 35 is interlocked with the rotation of the fourth link 34 via the seat portion 32. As a result, the seat 32 rises in a state of being inclined downward toward the front as shown in FIGS.

  When the seat portion 32 is raised and the fifth link 35 is rotated in the standing direction, the first transmission link 54 is interlocked with the rotation. That is, the first transmission link 54 rotates in the counterclockwise direction indicated by the arrow a in FIG. 6 integrally with the fifth link 35 with the support shaft 55 as a fulcrum.

  When the first transmission link 54 is rotated, the second transmission link 56 having one end connected to the first transmission link 54 is rotated in the direction of rotation of the first transmission link 54, that is, an arrow in FIG. Move in the direction indicated by b. The slide link 44 connected to the second transmission link 56 is interlocked with the movement.

  That is, the slide link 44 slides toward the rear of the vehicle body 2 while the guide pin 45 provided in the middle is guided by the guide long hole 43 formed in the base member 42. FIG. 8 shows a state in which the slide link 44 is slid.

  When the slide link 44 slides, the rotation link 47 supports the support shaft 48a by the engagement between the engagement pin 46 provided at one end of the slide link 44 and the tip of the rotation link 47. As shown in FIG. 6, it rotates together with the support shaft 48a in the counterclockwise direction indicated by the arrow c in FIG.

  As a result, the first interlocking link 52 and the second interlocking link 53 that have been bent in a reverse shape as shown in FIG. 6 until then are shown in FIG. 8 starting from the support shaft 48a. It becomes almost linear. As a result, the brake link 49 whose middle part is pivotally attached to one end of the second interlocking link 53 is opposite to the base end pivotally attached to the mounting member 48 as shown by an arrow d in FIG. Rotate clockwise.

  As shown in FIG. 8, when the brake link 49 rotates counterclockwise, the brake member 51 provided at the tip of the brake link 49 comes into pressure contact with the outer peripheral surface of the rear wheel 7, so that the rear wheel 7 cannot rotate. Retained. That is, when a user puts his / her foot on the footrest 18 and stands up while lowering the footrest 18, the brake of the brake mechanism 41 is automatically operated, so that the vehicle body 2 moves when the user stands up. Is prevented.

  On the other hand, when the seat 32 is lowered as shown in FIGS. 5 and 6, the operation lever 61 that is standing substantially vertically is moved to the vehicle body 2 as shown by an arrow e as shown in FIG. 10. When the first interlocking link 52 and the second interlocking link 53 bent in a substantially reverse shape are rotated as shown in FIG. It becomes a shape.

  Accordingly, the brake link 49 is pressed by the second interlocking link 53 and rotates, so that the brake member 51 provided at the tip of the brake link 49 is pressed against the outer peripheral surface of the rear wheel 7. The brake is applied.

  That is, even when the user is still seated on the seat portion 32, the brake mechanism 41 can be operated to apply the brake and prevent the wheelchair 1A from moving.

  To release the brake applied by the user seated on the seat 32 in a state where the brake is applied while the user is seated on the seat 32, the operation lever 61 is moved to an arrow in FIG. A clockwise operation is performed, which is the opposite direction to the direction indicated by e.

  As a result, the first interlocking link 52 and the second interlocking link 53 that are in a substantially straight state bend in a reverse shape, so that the braked state by the brake link 49 can be released. it can.

  As shown in FIGS. 9 and 10, when the user seated on the seat 32 rises while lowering the footrest 18 with the rear wheel 7 braked, the second link mechanism 33 operates to raise the seat 32.

  Accordingly, the first link mechanism 12 and the second link mechanism 33 are operated, and the slide link 44 slides in the direction indicated by the arrow f in FIG.

  However, the rotation link 47 has been rotated in the counterclockwise direction in advance, and the engagement pin 46 provided at one end of the slide link 44 is separated from the tip of the rotation link 47. is there.

  Therefore, even if the slide link 44 slides along the guide slot 43, the brake link 49 does not rotate. That is, the state where the brake is applied by the brake member 51 is maintained.

  As shown in FIGS. 7 and 8, when the seat 32 is raised and the rear wheel 7 is braked, when the user sits and lowers the seat 32, the slide link 44 is moved. Slides in the direction indicated by arrow g in FIG.

  However, at that time, since the engagement pin 46 provided at the tip of the slide link 44 does not press the rotation link 47, the rotation link 47 is rotated by the slide of the slide link 44. There is no.

  Accordingly, in a state where the brake is applied to the rear wheel 7, even if the user sits on the raised seat 32 and lowers the seat 32, the brake applied to the rear wheel 7 is automatically released. It will not be done.

  In order to release the brake applied to the rear wheel 7 in the state where the seat portion 32 is lowered, the operation lever 61 lying on the front side of the vehicle body 2 is moved in the direction indicated by the arrow e in FIG. It is rotated in the clockwise direction, that is, the direction to stand up.

  As a result, the first interlocking link 52 and the second interlocking link 53 that have been linear until then are bent in a reverse shape as shown in FIG. Since the member 51 can be rotated in a direction away from the rear wheel 7, the brake of the rear wheel 7 is released.

  Thus, according to the wheelchair 1A of the second embodiment, when a user puts his / her foot on the footrest 18 and stands up while lowering the footrest 18, the seat portion is interlocked with the rise of the footrest 18. 32 rises.

  When the seat portion 32 rises, the brake mechanism 41 is operated in conjunction with the rise, and the rotation of the rear wheel 7 of the wheelchair 1A is prevented. That is, when the user stands up from the wheelchair 1A, the rear wheel 7 is automatically braked.

  Therefore, in order to stabilize the body in a state where the user has grabbed the armrest 11 and got up from the wheelchair 1A, the wheelchair 1A is inadvertently prepared by, for example, applying force to the hand gripping the armrest 11 of the wheelchair 1A. The wheelchair 1A does not move even if a strong external force is applied, and the user can maintain the standing posture in a stable state.

  The brake mechanism 41 can be operated by operating the operation lever 61 even when the user is sitting on the seat portion 32. Therefore, for example, when a user takes a break while sitting on the seat 32, the wheelchair 1A can be prevented from inadvertently moving by operating the operation lever 61 and applying a brake. it can.

  As shown in FIGS. 7 and 8, even if a user sits and lowers the seat 32 while the seat 32 is raised and the rear wheel 7 is braked, the rear wheel 7 The brake is not released.

  In order to release the brake of the rear wheel 7 while the user is seated, as shown in FIG. 10, the operating lever 61 in a state of lying down in front of the vehicle body 2 is shown in FIG. Rotate manually to almost vertical.

  Thereby, the brake link 49 can be rotated to release the brake of the rear wheel 7. That is, even if the user sits on the seat 32, the wheelchair 1A does not move carelessly until the operation lever 61 is operated.

  The seat portion 32 can change the rising height of the seat portion 32 by the height adjusting mechanism 17. When the rising height of the seat portion 32 is increased, the slide distance of the slide link 44 is increased.

  As shown in FIG. 11, the lower end portion of the rotation link 47 is formed on a tapered surface 47a. Therefore, even if the slide distance of the slide link 44 is increased, the engaging pin 46 provided on the slide link 44 slides along the tapered surface 47a, so that the seat portion 32 is prevented from rising. There is nothing. That is, the rising height of the seat portion 32 can be increased according to the length of the tapered surface 47a.

  12 and 13 show a wheelchair 1B according to a third embodiment of the present invention. This embodiment is a modification of the second link mechanism 33 shown in the second embodiment.

  The second link mechanism 33 of this embodiment is composed of one interlocking link 63 whose one end is connected and fixed to the lower surface on the front end side of the seat portion 32 at a predetermined inclination angle. The other end of the interlocking link 63 is integrally attached to one end of the second link 14 pivotally attached to the upper part of the front end side of the vehicle body 2 of the first link mechanism 12. That is, the interlocking link 63 rotates integrally with the second link 14.

  In this embodiment, the interlocking link 63 is formed separately from the second link 14, but these are integrated, that is, the second link 14 and the interlocking link 63 are bent. The bent boundary portion may be pivotally attached to the front end portion of the side frame 3.

  A pressing arm 64 is connected to one end of the second link 14 and the interlocking link 63 so as to rotate integrally with the interlocking link 63. The other end of the pressing arm 64 is engaged with an interlocking pin 65 provided at the tip of the slide link 44.

  In the third embodiment, the slide link 44 is formed longer than the slide link 44 of the second embodiment so that the other end of the pressing arm 64 is engaged with the interlocking pin 65. ing.

  As in the second embodiment, the slide link 44 has an engagement pin 46 that engages with the distal end portion of the rotation link 47 on the rear end side of the interlocking pin 65, and this engagement. The guide pins 45 that are engaged with guide long holes 43 formed in the base member 42 are sequentially provided on the rear end side of the pins 46.

  According to the wheelchair 1 </ b> B having such a configuration, as shown in FIG. 12, in a state where the seat portion 32 is lying down and the footrest 18 is lifted, a user sits on the seat portion 32 and puts his feet on the footrest 18. When the footrest 18 rises, the footrest 18 is lowered, and the seat portion 32 is interlocked with the lowering.

  As a result, the seat 32 rotates in the direction in which the rear rises with the front end as a fulcrum as shown in FIG. That is, the seat 32 is tilted and lifted.

  When the seat 32 is rotated and raised, the pressing arm 64 is provided at the tip of the slide link 44 at the tip, which is the other end, while the other end pivots backward with the one end serving as a fulcrum. The interlocking pin 65 is pressed.

  As a result, the slide link 44 is slid rearward as shown in FIG. 13, so that the brake link 49 is pressed and rotated by the engagement pin 46 provided in the middle of the slide link 44. .

  When the brake link 49 is rotated, the first interlocking link 52 and the second interlocking link 53 that have been bent in a reverse letter shape until then become substantially linear, and the tip of the brake link 49 A brake member 51 provided on the rear wheel 7 is in pressure contact with the rear wheel 7.

  That is, when the user stands up from the seat portion 32 while lowering the footrest 18, the rear wheel 7 is automatically braked.

  As shown in FIG. 13, when a user sits on the seat 32 that has been rotated and raised, the seat 32 rotates together with the interlocking link 63 that constitutes the second link mechanism 33 in the lying down direction. At that time, the second link mechanism 33 is interlocked with the rotation of the seat portion 32 and the footrest 18 is raised.

  However, since the brake link 49 is not interlocked with the rise of the seat portion 32 and the rise of the footrest 18, the rear wheel 7 is still in a braked state. That is, the state in which the brake of the rear wheel 7 is applied is not released simply by the user sitting on the wheelchair 1B to which the brake is applied. Therefore, even if the user sits on the wheelchair 1B, the wheelchair 1B does not move unnecessarily.

  In order for the user seated on the seat 32 to release the brake of the rear wheel 7, the operation lever 61 in a state where it lies forward as shown in FIG. Rotate backwards until

  Accordingly, the brake link 49 can be rotated in a direction in which the brake member 51 is separated from the rear wheel 7, so that the brake of the rear wheel 7 can be released.

  At this time, since the rotation link 47 rotates together with the operation lever 61, the slide link 44 slides in the front direction of the vehicle body 2, and the tip thereof contacts the tip of the pressing arm 64. That is, the state returns to the state shown in FIG.

  Thus, also in the chair 1B of the third embodiment, as in the second embodiment, when the user is seated on the seat portion 32 in the raised state and the seat portion 32 is lowered, The brake of the wheel 7 is in the applied state, and the operation lever 61 must be operated to release the state.

  Therefore, when the user is seated, the wheelchair 1B can be prevented from moving carelessly. Moreover, when the user lowers the footrest 18 and raises the seat 32 and then stands up from the seat 32, the rear wheel 7 is automatically braked. Therefore, even if the user stands up while holding the vehicle body 2, the vehicle body 2 does not move carelessly.

  DESCRIPTION OF SYMBOLS 2 ... Vehicle body, 3 ... Side frame, 11 ... Armrest, 12 ... 1st link mechanism, 13 ... 1st link, 14 ... 2nd link, 15 ... 3rd link, 17 ... Height adjustment mechanism, 18 ... Footrest, 31 ... Anti-slip member, 32 ... Seat, 33 ... Second link mechanism, 34 ... Fourth link, 35 ... Fifth link, 41 ... Brake mechanism, 44 ... Slide link, 45 ... Guide pin 46 ... engagement pin, 47 ... rotation link, 49 ... brake link, 51 ... brake member, 61 ... operating lever.

Claims (7)

The body,
A seat arranged on the upper surface side of the main body;
A first link mechanism provided on the front side of the main body;
A footrest that is connected to the first link mechanism and is vertically movable between a rising position and a grounding position on the front side of the main body;
The seat is connected to the upper surface of the main body so as to be movable in the vertical direction, and the footrest is moved downward in the vertical direction by operating the first link mechanism provided in conjunction with the first link mechanism. A second link mechanism that raises the seat when lifted ,
When the user who sits down on the seat rises while stepping on the footrest, the footrest moves vertically downward to the ground contact position, and the seat is displaced upward . The chair according to claim 1 , wherein the footrest moves up and down in a horizontal state with respect to a vertical direction. The chair according to claim 1 , wherein the footrest is provided so that the height of the footrest can be adjusted in a vertical direction by a height adjustment mechanism with respect to the first link mechanism. The chair according to claim 1, wherein the lower surface of the footrest is provided with a non-slip means that hits the floor when grounded. The chair according to claim 4, wherein the main body is provided with a front wheel and a rear wheel. The first link mechanism includes:
A first link having one end pivotally attached to a middle part in the vertical direction on the front side of the main body;
A second link having one end connected to the upper part on the front side of the main body;
The other end of the first link and the second link is constituted by a connecting member pivotally attached to be the same as the distance between the ends of the first and second links,
The second link mechanism is
A fourth link having one end connected to one end of the second link and interlocked with the rotation of the second link and the other end pivotally attached to the front end side of the seat;
And the other end is pivotally mounted to the rear of the upper surface of the body is 5 depending on link configuration which is pivotally mounted on the rear end side of the seat portion than the one end said fourth link The chair according to claim 1. The first link mechanism is lowered from the raised position to the ground position while moving the footrest in a direction approaching the front surface of the main body,
The chair according to claim 1, wherein the second link mechanism is configured to raise the seat while moving the seat forward of the main body.

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