Bed, and combining method and separating method of bed

TECHNICAL FIELD

The present invention relates to a bed in which a part thereof can be separated as a wheelchair, and a combining method and a separating method of the bed.

BACKGROUND ART

In a hospital or a nursing care facility, for example, a patient, a care-receiver, or the like (hereinafter, abbreviated as the care-receiver) is required to move to other places from a state where the care-receiver lies on a bed in a hospital room many times a day. At this time, transferring of the care-receiver from the bed to a wheelchair is usually manually performed by a nurse, a caregiver, or the like (hereinafter, abbreviated as the caregiver). By such transferring, the caregiver bears a physical burden.

In order to reduce the physical burden on the caregiver by the transferring of the care-receiver, a bed in which a part of the bed is separated therefrom so as to be utilized as a wheelchair is proposed.

FIG. 12 shows a conventional bed 1. A bed surface of the bed 1 is composed of three plates of a side bed plate 2, a center bed plate 3, and a side bed plate 4. In order to compose the bed surface, there is a need for moving the center bed plate 3 of a platform truck 5 to a space 3a between the side bed plate 2 and the side bed plate 4. A caregiver brings up the side bed plate 4 to an upper side of a bed main body 6 taking a rotation mechanism 7 as a rotation center.

The caregiver moves the center bed plate 3 to the space 3a in a state where the side bed plate 4 is brought up to the upper side of the bed main body 6. By returning the side bed plate 4 to an original position after moving the platform truck 5 to the space 3a, the bed surface of the bed 1 is composed.

The platform truck 5 separated from the bed 1 can also be used as a wheelchair. In that case, the center bed plate 3 serves as a seating bottom of the wheelchair.

FIG. 13 is a side view of the platform truck 5. The platform truck 5 has a chair posture change mechanism in which a leg portion 3c is inclined in conjunction with an inclination of a back surface portion 3b in order to simply change the center bed plate 3 from a flat posture to a seating posture. When the back surface portion 3b is lifted upward until the back surface portion 3b becomes substantially vertical, the leg portion 3c is lowered downward via a first link 8a and a second link 8b. That is, only by lifting the back surface portion 3b, the leg portion 3c is lowered downward, and the flat posture is changed to the seating posture. Therefore, the caregiver can simply perform posture change of the wheelchair (for example, refer to Patent Literature 1).

CITATION LIST

Patent Literature

[Patent Literature 1] Japanese Unexamined Utility Model Publication No. 5-51330

TECHNICAL PROBLEM

A bed for nursing care requires a flat posture in which a bed surface is flat, a back lifting posture in which a back part of the bed surface is lifted, and a knee lifting posture in which a knee part of the bed surface is lifted. In a conventional bed 1, a bed surface can be composed of a side bed plate 2, a center bed plate 3, and a side bed plate 4 in the flat posture. However, the conventional bed 1 has such a construction that parts of the side bed plate 2 and the side bed plate 4 of the conventional bed 1 cannot be lifted. Therefore, in the conventional bed 1, the back lifting posture or the knee lifting posture cannot be composed of the entire bed surface, but the back lifting or the knee lifting is performed only by the center bed plate 3. That is, in the conventional bed 1, the back lifting posture or the knee lifting posture as well as a general nursing care bed cannot be composed.

SUMMARY OF INVENTION

The present invention is to solve such a problem, and an object thereof is to provide a bed in which posture change can be performed to form the flat posture, the back lifting posture, and the knee lifting posture as well as the general nursing care bed when a wheelchair is combined with the bed, and a combining method and a separating method of the bed.

Solution to Problem

In order to achieve the above object, the present invention is configured as below.

In order to achieve the above object, a bed of the present invention, comprises: a support switching mechanism, the bed being composed of separably combining a wheelchair and a bed main body portion,

the wheelchair comprising:

- a seating bottom portion composed of bendably coupling a plurality of divided members to each other; and
- a chair bottom support member supporting the seating bottom portion,

the bed main body portion comprising:

- a bed bottom portion composed of bendably coupling a plurality of divided members to each other; and
- a bed bottom support member supporting the bed bottom portion,

the support switching mechanism switching a support member of the seating bottom portion of the wheelchair between the chair bottom support member and the bed bottom support member.

Further, in order to achieve the object, a combining method of a bed of the present invention comprises a support switching mechanism, the combining method for separably combining a wheelchair and a bed main body portion, wherein

the wheelchair comprises: a seating bottom portion composed of bendably coupling a plurality of divided members to each other; and a chair bottom support member supporting the seating bottom portion, and

the bed main body portion comprises: a bed bottom portion composed of bendably coupling a plurality of divided members to each other; and a bed bottom support member supporting the bed bottom portion,

the combining method comprising: switching a support member supporting the seating bottom portion of the wheelchair from the chair bottom support member to the bed bottom support member by the support switching mechanism in a case where the wheelchair and the bed main body portion are combined.

Furthermore, in order to achieve the object, a separating method of a bed of the present invention combinably separates a wheelchair and a bed main body portion, wherein

the separating method comprising: switching a support member supporting the seating bottom portion of the wheelchair from the bed bottom support member to the chair bottom support member in a case where the wheelchair and the bed main body portion are separated.

Advantageous Effects of Invention

In the present invention, when the wheelchair is combined with the bed, the seating bottom portion of the wheelchair is supported by the bed bottom support member. Thus, by the bed bottom support member, the seating bottom portion of the wheelchair and the bed bottom portion of the bed main body portion can integrally perform the posture change. Therefore, according to the present invention, the bed in which the posture change can be performed as well as a general nursing care bed, and the combining method and the separating method of the bed can be provided.

BRIEF DESCRIPTION OF DRAWINGS

These and other aspects and features of the present invention will become clear from the following description taken in conjunction with the preferred embodiments thereof with reference to the accompanying drawings, in which:

FIG. 1A is a schematic perspective view at the time of separation of a bed in a first embodiment of the present invention;

FIG. 1B is a schematic perspective view at the time of combination of the bed in the first embodiment of the present invention;

FIG. 1C is a block diagram of a control section and the like of the bed in the first embodiment of the present invention;

FIG. 2A is a perspective view of a wheelchair in a seating posture state in the first embodiment;

FIG. 2B is a schematic side view of a link mechanism of the wheelchair in the first embodiment in a flat posture state;

FIG. 2C is a schematic side view of the link mechanism of the wheelchair in the first embodiment in the seating posture state;

FIG. 3A is a perspective view of the bed at the time of the separation when the wheelchair is in a flat posture in the first embodiment;

FIG. 3B is a schematic side view of a link mechanism of a bed main body portion in the first embodiment in the flat posture state;

FIG. 3C is a schematic side view of the link mechanism of the bed main body portion in the first embodiment in the seating posture state;

FIG. 4A is a front view in which the bed with a posture change mechanism being switched is seen from the front side of the bed in a state where a seating bottom portion is supported by a chair bottom support member in the first embodiment;

FIG. 4B is a front view of a state where the seating bottom portion is supported by a bed bottom support member in a state where the seating bottom portion is supported by the chair bottom support member in the first embodiment;

FIG. 5 is a perspective view of the bed at the time of the combination in the flat posture state in the first embodiment;

FIG. 6 is a perspective view of the bed in back lifting posture and knee lifting posture states in the first embodiment;

FIG. 7A is a side view of the bed in the back lifting posture and knee lifting posture states and in a bed lowering state in the first embodiment;

FIG. 7B is a side view of the bed in the back lifting posture and knee lifting posture states and in a bed raising state in the first embodiment;

FIG. 8 is a flowchart of a combining method of the bed in the first embodiment;

FIG. 9 is a view showing an operating surface of an operating remote controller in the first embodiment;

FIG. 10 is a flowchart of a separating method of the bed in the first embodiment;

FIG. 11A is a schematic perspective view at the time of separation of a bed in a second embodiment of the present invention;

FIG. 11B is a schematic perspective view at the time of combination of the bed in the second embodiment of the present invention;

FIG. 12 is a perspective view of the bed with a conventional wheelchair serving as a part of the constituent of the bed; and

FIG. 13 is a perspective view of the conventional wheelchair.

DESCRIPTION OF EMBODIMENTS

Hereinafter, embodiments of the present invention will be described with reference to the drawings. It should be noted that the identical constituent elements will be given the identical reference numerals, and description thereof will sometimes be omitted. For easy understanding, the figures are schematic focusing on the constituent elements.

First Embodiment

FIGS. 1A and 1B are schematic perspective views of a bed 11 in a first embodiment of the present invention. The bed 11 of the first embodiment is composed of combining a separable wheelchair 9 and a bed main body portion 10. FIG. 1A is a schematic perspective view of the bed 11 when the wheelchair 9 and the bed main body portion 10 are separated. FIG. 1B is a schematic perspective view of the bed 11 when the wheelchair 9 and the bed main body portion 10 are combined.

The bed 11 has a function of an electric nursing care bed whose posture is changed by electric drive sections, for example. The wheelchair 9 separated from the bed main body portion 10 has a function of a manual reclining wheelchair in which posture change is manually performed.

As shown in FIG. 1A, the wheelchair 9 is composed of a seating bottom portion 15, a chair bottom support member (chair guide member) 14, a chair base portion 13, and traveling wheels 12.

The seating bottom portion 15 is composed of bendably coupling a plurality of plate shape chair bottom members (such as five chair bottom members 15a, 15b, 15c, 15d, 15e) at coupling parts, and they serve as parts to be respectively brought into contact with a body of a patient, a care-receiver, or the like (hereinafter, abbreviated as the care-receiver).

In the chair bottom support member 14, a plurality of chair bottom support members 14a, 14c, 14d, 14e form a chair posture change mechanism 114 and support the seating bottom portion 15 so as to perform the posture change.

The chair base portion 13 supports the chair bottom support member 14 while allowing a bending action of the chair bottom support member 14.

At least a pair of traveling wheels 12 is provided, and in this embodiment, four traveling wheels are rotatably provided on a lower part of the chair base portion 13. The traveling wheels 12 movably support the chair base portion 13 and are capable of traveling on a ground (or an installment surface of the wheelchair 9 and the bed main body portion 10) 44 along the horizontal direction, for example.

In the wheelchair 9, when the posture change is performed by the chair bottom support member 14, a posture of the seating bottom portion 15 is changed in accordance with the posture change of the chair bottom support member 14. In the first embodiment, the plate shape chair bottom members 15a, 15b, 15c, 15d, 15e composing the seating bottom portion 15 of the wheelchair 9 are freely bent at the coupling parts. Therefore, the seating bottom portion 15 cannot maintain a fixed posture. The seating bottom portion 15 is supported by the chair bottom support member 14 serving as the posture change mechanism 114 of the wheelchair 9. That is, in the first embodiment, the seating bottom portion 15 performs posture maintenance or the posture change integrally with a posture of the chair bottom support member 14.

Meanwhile, as shown in FIG. 1B, the bed main body portion 10 is composed of a bed bottom portion 17, a bed bottom support member (bed bottom guide member) 18, and a bed base portion 19.

The bed bottom portion 17 is composed of bendably coupling a plurality of plate shape bed bottom members (such as four bed bottom members 17a, 17b, 17c, 17d) at coupling parts, and those members serve as parts to be respectively brought into contact with the body of the care-receiver.

In the bed bottom support member 18, a plurality of bed bottom support members 18a, 18c, 18d compose a bed posture change mechanism 119, and support the bed bottom portion 17 so as to be able to perform the posture change.

The bed base portion 19 supports the bed bottom support member 18 while allowing a bending action of this bed bottom support member 18. A part corresponding to a recess portion 28 serving as an intermediate part of the bed base portion 19 and as a combination area is recessed in the width direction, so that the chair base portion 13 of the wheelchair 9 is insertable thereinto.

In this embodiment, four traveling wheels 25 are respectively rotatably provided on the front and rear sides of a lower part of the bed base portion 19. The traveling wheels 25 movably support the bed base portion 19 and are capable of traveling on the ground (or the installment surface of the wheelchair 9 and the bed main body portion 10) 44. However, in the case where there is no need for moving the bed main body portion 10, the traveling wheels 25 are not necessarily provided.

In the first embodiment, it is so constructed that the bed bottom members 17a, 17b, 17c, 17d composing the bed bottom portion 17 of the bed main body portion 10 are freely bent at the coupling parts. Therefore, the bed bottom portion 17 cannot maintain a fixed shape. Thus, the bed bottom portion 17 performs the posture maintenance or the posture change integrally with a posture of the bed bottom support member 18.

The chair base portion 13 of the wheelchair 9 is moved in the width direction to and positioned in the recess portion 28 serving as the combination area provided on the side of the bed waist bottom member 17b between the bed back bottom support member 18a and the bed knee bottom support member 18c. By this positioning, the wheelchair 9 and the bed main body portion 10 can be combined. In the first embodiment, in the case where the wheelchair 9 and the bed main body portion 10 are combined in such a way, a member supporting the seating bottom portion 15 is switched from the chair bottom support member 14 to the bed bottom support member 18 (that is, the seating bottom portion 15 is supported only by the bed bottom support member 18 instead of the chair bottom support member 14). An action of switching the member supporting the seating bottom portion 15 from the chair bottom support member 14 to the bed bottom support member 18 is performed by a support switching mechanism. The support switching mechanism is composed of an arrangement relationship between the chair bottom support member 14 and the bed bottom support member 18, and an elevating section 27. In the bed 11, by switching the support member supporting the seating bottom portion 15 by this support switching mechanism, when the posture change is performed by the bed bottom support member 18, the bed bottom portion 17 and the seating bottom portion 15 integrally perform the posture change.

At this time, the chair bottom support member 14 is in a flat posture as shown in FIG. 1B but substantially in contact with the bed main body portion 10. Thus, the chair bottom support member 14 does not cause a disturbance in terms of structure.

That is, in the case where by moving the chair base portion 13 of the wheelchair 9 in the width direction and drawing out from the recess portion 28 serving as the combination area, the wheelchair 9 is separated from the bed main body portion 10, the seating bottom portion 15 of the wheelchair 9 is supported only by the chair bottom support member 14 serving as the chair posture change mechanism 114 (that is, the seating bottom portion 15 is supported only by the chair bottom support member 14 instead of the bed bottom support member 18), and the posture change of the seating bottom portion 15 of the wheelchair 9 is performed by the chair bottom support member 14.

Conversely, in the case where the wheelchair 9 and the bed main body portion 10 are combined, a posture change mechanism of the seating bottom portion 15 is switched from the posture change mechanism 114 having the chair bottom support member 14 to the posture change mechanism 119 having the bed bottom support member 18 by the support switching mechanism (that is, the seating bottom portion 15 is supported only by the bed bottom support member 18 instead of the chair bottom support member 14), and regarding the seating bottom portion 15 and the bed bottom portion 17, the posture change of the seating bottom portion 15 of the wheelchair 9 and the posture change of the bed bottom portion 17 of the bed main body portion 10 are performed by the bed bottom support member 18 serving as the bed posture change mechanism 119.

In such a way, by switching the posture change mechanism of the seating bottom portion 15 by the support switching mechanism between the time of separation and the time of combination of the bed 11, the posture of the seating bottom portion 15 can be set to a seating posture (a posture in which the care-receiver is seated) as shown in FIG. 1A at the time of the separation, and the postures of the seating bottom portion 15 and the bed bottom portion 17 can be set to a back lifting posture and a knee lifting posture as shown in FIG. 1B at the time of the combination. Here, the back lifting posture indicates a state where the seating bottom portion 15 and the bed bottom portion 17 are inclined in such a manner that a back of the care-receiver supported by the seating bottom portion 15 and the bed bottom portion 17 becomes slightly rearward oblique relative to the vertical direction. The knee lifting posture indicates a state where the seating bottom portion 15 and the bed bottom portion 17 are bent into an inverted V shape in such a manner that knees of the care-receiver supported by the seating bottom portion 15 and the bed bottom portion 17 are bent into an inverted V shape. Therefore, the bed 11 in which a part of the constituent thereof is the wheelchair 9 does not require a specific control or a power source on the side of the wheelchair 9 but obtains the functions of both the reclining wheelchair and the nursing care bed. That is, even in the bed 11 in which a part of the constituent thereof is the wheelchair 9, the knee lifting posture or the back lifting posture which is necessary as the nursing care bed can be composed. In the separated wheelchair 9, a posture of a back surface part of the seating bottom portion 15 can be changed as a general wheelchair.

Further, at the time of the combination of the wheelchair 9 and the bed main body portion 10, the seating bottom portion 15 and the bed bottom portion 17 are supported by the bed bottom support member 18. Thus, the seating bottom portion 15 and the bed bottom portion 17 integrally perform the posture change.

Next, details of the wheelchair 9 and the bed main body portion 10 composing the bed 11 will be described.

FIG. 2A is a perspective view of the wheelchair 9 in a seating posture state.

The chair base portion 13 has the four traveling wheels 12 in a lower part thereof. The wheelchair 9 is moved by these four traveling wheels 12. In the first embodiment, there is no power in the wheelchair 9 but the wheelchair is moved by hand. The wheelchair 9 is moved when a nurse, a caregiver, or the like (hereinafter, abbreviated as the caregiver) pushes a handle 23 provided in the chair bottom support member 14.

The seating bottom portion 15 is composed of the chair back bottom member 15a, the chair waist bottom member 15b, the chair knee bottom member 15c, the chair leg first bottom member 15d, and the chair leg second bottom member 15e. Among the members composing the seating bottom portion, the adjacent members are bendably coupled to each other via the coupling parts of thin parts or hinges. The coupling parts of the thin parts may be composed of parts each having a thickness thinner than a thickness of each of the chair back bottom member 15a to the chair leg second bottom member 15e mainly composing the seating bottom portion 15, and thereby the coupling parts are bendable. The chair back bottom member 15a, the chair waist bottom member 15b, the chair knee bottom member 15c, the chair leg first bottom member 15d, and the chair leg second bottom member 15e are parts to be brought into contact with a back, a waist, knees, legs, and heels of the care-receiver, respectively. The chair back bottom member 15a, the chair waist bottom member 15b, the chair knee bottom member 15c, the chair leg first bottom member 15d, and the chair leg second bottom member 15e usually each have a cushion function. It should be noted that the chair leg second bottom member 15e serves as a footrest when the wheelchair 9 is in the seating posture.

As shown in FIG. 2B, the chair bottom support member 14 is composed of the square frame shape chair back bottom support member (chair back guide member) 14a, the square frame shape chair knee bottom support member (chair knee guide member) 14c, the square frame shape chair leg first support member (chair leg first guide member) 14d, the square pole shape chair leg second support member (chair leg second guide member) 14e, and four chair first to fourth bending portions 14j, 14k, 14m, 14n bendably coupling the adjacent support members each other. The chair back bottom support member 14a is capable of supporting the chair back bottom member 15a. The chair base portion 13 is capable of supporting the chair waist bottom member 15b. The chair knee bottom support member 14c supports the chair knee bottom member 15c. The chair leg first support member 14d is capable of supporting the chair leg first bottom member 15d. The chair leg second support member 14e is capable of supporting the chair leg second bottom member 15e. The chair back bottom support member 14a and the chair waist bottom member 15b are bendably coupled to each other by the chair first bending portion 14j. The chair waist bottom member 15b and the chair knee bottom support member 14c are bendably coupled to each other by the chair second bending portion 14k. The chair knee bottom support member 14c and the chair leg first support member 14d are bendably coupled to each other by the chair third bending portion 14m. The chair leg first support member 14d and the chair leg second support member 14e are bendably coupled to each other by the chair fourth bending portion 14n. The handle 23 is fixed to a front end on the back surface side of the chair back bottom support member 14a.

Since the chair waist bottom member 15b, the chair back bottom support member 14a, and the chair knee bottom support member 14c are coupled to one another, position displacement is not generated between the chair bottom member 15 and the chair bottom support member 14.

The wheelchair 9 of this first embodiment is provided with a chair bottom support member biasing section for always imposing bias force on the chair back bottom support member 14a from the flat posture along the horizontal direction toward the seating posture oblique relative to the vertical direction. As one example of the chair bottom support member biasing section, a gas damper 20 is used. However, a translation actuator can be used instead. A hand brake 20b of the gas damper 20 is attached to the chair back bottom support member 14a beside the handle 23, and the hand brake 20b and the gas damper 20 are coupled to each other by a brake wire 20c. A piston rod 20a of the gas damper 20 is coupled to a front end of a branch coupling portion 14f branched on a back surface on the base end side of the chair back bottom support member 14a. This piston rod 20a is capable of pivoting the chair back bottom support member 14a between the seating posture and the flat posture via the first bending portion 14j between the chair back bottom support member 14a and the chair waist bottom portion 15b. An intermediate part of the branch coupling portion 14f of the chair back bottom support member 14a is coupled to a front end of a branch coupling portion 14g branched on a back surface of an end on the chair leg second bottom member side of the chair leg first support member 14d by a first coupling link member 14p. Therefore, in the posture change mechanism 114 of the present embodiment, irrespective of a pivoting action of the chair back bottom support member 14a about the chair first bending portion 14j, a gap between the intermediate part of the branch coupling portion 14f of the chair back bottom support member 14a and the front end of the branch coupling portion 14g of the chair leg first support member 14d is always the same. In the posture change mechanism 114, a tensile force is imposed from the chair knee bottom support member 14c to the chair leg first support member 14d or the tensile force is cancelled in such a manner that the gap between the intermediate part of the branch coupling portion 14f and the front end of the branch coupling portion 14g is always the same. A front end of a branch coupling portion 14h and a front end of a branch coupling portion 14j are coupled to each other by a second coupling link member 14q. Here, the branch coupling portion 14h is branched on a back surface of an end on the chair leg first support member side of the chair knee bottom support member 14c. The branch coupling portion 14j is branched on a back surface of an end on the chair leg first support member side of the chair leg second support member 14e. Therefore, irrespective of the pivoting action of the chair back bottom support member 14a about the chair first bending portion 14j, a gap between the front end of the branch coupling portion 14h of the chair knee bottom support member 14c and the front end of the branch coupling portion 14j of the chair leg second support member 14e is always the same. As will be described later, when a shape of the seating bottom portion 15 of the wheelchair 9 is changed between the flat posture and the seating posture, the first coupling link member 14p and the second coupling link member 14q function to easily and reliably form the postures.

In the wheelchair 9, the shape of the seating bottom portion 15 can be changed from the seating posture to the flat posture. Here, as shown in FIG. 2A, the seating posture is a posture in which the chair back bottom member 15a is lifted, the chair knee bottom member 15c is inclined slightly upward relative to the chair waist bottom member 15b, and the chair leg first bottom member 15d and the chair leg second bottom member 15e are lowered downward. As shown in FIG. 3A, the flat posture is a posture in which the entire seating bottom portion 15 becomes a flat surface.

The seating posture will be described in detail based on FIG. 2A. In the seating posture, the chair back bottom member 15a and the chair back bottom support member 14a stand up obliquely in the vertical direction in such a manner that upper ends thereof are positioned on the rear side of lower ends. The chair waist bottom member 15b is positioned substantially along the horizontal direction. The chair knee bottom member 15c and the chair knee bottom support member 14c are positioned slightly obliquely in such a manner that ends on the side of the chair waist bottom member 15b are positioned on the lower side of ends on the side of the chair leg first bottom member 15d. The chair leg first bottom member 15d and the chair leg first support member 14d are positioned obliquely downward from ends on the chair knee bottom support member side to ends on the chair leg second bottom member side. The chair leg second bottom member 15e and the chair leg second support member 14e are positioned substantially in the horizontal direction or slightly obliquely upward from ends on the chair leg first bottom member side to a front end of the chair leg second bottom member 15e.

In the flat posture, the chair back bottom member 15a, the chair waist bottom member 15b, the chair knee bottom member 15c, the chair leg first bottom member 15d, and the chair leg second bottom member 15e form one flat surface substantially along the horizontal direction. In other words, the chair back bottom support member 14a, the chair knee bottom support member 14c, the chair leg first support member 14d, and the chair leg second support member 14e form one flat surface substantially along the horizontal direction, and this flat surface and the longitudinal directions of the first coupling link member 14p, the second coupling link member 14q, and the piston rod 20a of the gas damper 20 are parallel to each other.

That is, with the above configuration of the link mechanism of the wheelchair 9, when the caregiver grips the hand brake 20b of the gas damper 20, the bias force of the gas damper 20 can be imposed on the chair back bottom support member 14a, so that a protruding amount (length) of the piston rod 20a of the gas damper 20 can be changed. When the hand is released from the hand brake 20b of the gas damper 20, the piston rod 20a of the gas damper 20 is locked with the protruding amount (length) of that time, and the posture is maintained.

Therefore, for example, when the caregiver grips the hand brake 20b of the gas damper 20 in the flat posture as shown in FIG. 2B, lock of the piston rod 20a of the gas damper 20 is cancelled, so that the bias force of the gas damper 20 can be imposed on the chair back bottom support member 14a. Therefore, even when the care-receiver gets on the wheelchair 9 and the back of the care-receiver is supported by the chair back bottom member 15a and the chair back bottom support member 14a, the bias force of the gas damper 20 and the weight of the care-receiver are substantially cancelled out, so that the caregiver can easily perform the posture change. That is, the bias force of the gas damper 20 and the weight of the care-receiver are substantially cancelled out, and the caregiver can change the chair back bottom support member 14a from the flat posture to the seating posture and from the seating posture to the flat posture. The strength of the bias force of the gas damper 20 is preferably preliminarily adjusted so as to be cancelled out with the weight of the care-receiver. By imposing the bias force of the gas damper 20 on the chair back bottom support member 14a in such a way, for example, when the flat posture is changed to the seating posture, the chair back bottom support member 14a can be easily pivoted anticlockwise of FIG. 2B about the chair first bending portion 14j. Then, the chair leg first support member 14d is pulled to the chair back bottom support member side via the first coupling link member 14p, and the chair knee bottom support member 14c is pivoted clockwise about the chair second bending portion 14k relative to the chair waist bottom portion 15b. At the same time as this clockwise pivoting, the chair leg first support member 14d is pivoted anticlockwise about the chair third bending portion 14m, and the chair leg second support member 14e is pivoted clockwise about the chair fourth bending portion 14n via the second coupling link member 14q. Therefore, as shown in FIG. 2C, the wheelchair 9 can be changed from the flat posture to the seating posture.

Conversely, at the time of performing the posture change from the seating posture to the flat posture, when the caregiver grips the handle 23 with one hand thereof while gripping the hand brake 20b with the other hand thereof in the seating posture state of the wheelchair 9, the lock of the piston rod 20a of the gas damper 20 is cancelled, so that the bias force of the gas damper 20 can be imposed on the chair back bottom support member 14a. At this time, by utilizing the weight of the care-receiver, the chair back bottom support member 14a is manually brought downward. That is, the chair back bottom support member 14a can be easily and slowly pivoted clockwise of FIG. 2B about the chair first bending portion 14j. Then, the tensile force imposed on the first coupling link member 14p is cancelled and loosened, and the chair knee bottom support member 14c and the chair leg first support member 14d are respectively relatively pivoted about the chair second bending portion 14k, the chair third bending portion 14m, and the chair fourth bending portion 14n and respectively changed from an obliquely inclined posture to the flat posture, thereby performing the posture change. This posture change is performed by weight of the vicinity of the knees of the care-receiver imposed on the chair knee bottom support member 14c via the chair knee bottom member 15c, and by weight of the legs of the care-receiver imposed on the chair leg first support member 14d via the chair leg first bottom member 15d. That is, the chair knee bottom support member 14c is pivoted anticlockwise about the chair second bending portion 14k, and at the same time, the chair leg first support member 14d is pivoted clockwise about the chair third bending portion 14m, and the chair leg second support member 14e is pivoted anticlockwise about the chair fourth bending portion 14n via the second coupling link member 14q. Therefore, the postures of the chair knee bottom support member 14c supporting the chair knee bottom member 15c of a leg surface part, the chair leg first support member 14d supporting the chair leg first bottom member 15d, and the chair leg second support member 14e supporting the chair leg second bottom member 15e are changed so as to be close to the flat posture. Further, when the chair back bottom support member 14a is brought down until the chair back bottom member 15a and the chair waist bottom member 15b are in a flat surface, the chair waist bottom member 15b, the chair knee bottom member 15c, the chair leg first bottom member 15d, and the chair leg second bottom member 15e are also in one flat surface. The chair back bottom member 15a, the chair waist bottom member 15b, the chair knee bottom member 15c, the chair leg first bottom member 15d, and the chair leg second bottom member 15e are in one continuous flat surface. As shown in FIG. 2B, the wheelchair 9 is changed from the seating posture to the flat posture. This is because of the link mechanism in which the chair bottom support member 14 supports the seating bottom portion 15, and in conjunction with inclination of the chair back bottom support member 14a, the postures of the chair knee bottom support member 14c, the chair leg first support member 14d, and the chair leg second support member 14e are changed via the first coupling link member 14p and the second coupling link member 14q.

The chair leg second support member 14e is coupled to the chair knee bottom support member 14c via the second coupling link member 14q. Thus, the chair leg second support member 14e is only moved parallel in a vertical direction whether the wheelchair 9 is in the flat posture or the seating posture, and always maintains a position along the horizontal direction.

With such a configuration, in the wheelchair 9 of the first embodiment, only by changing inclination of the chair back bottom member 15a of the wheelchair 9, the postures of the chair knee bottom member 15c, the chair leg first bottom member 15d, and the chair leg second bottom member 15e can be changed in conjunction with the change. That is, only by performing one action by the caregiver, the wheelchair 9 performs the posture change of the back and the legs simultaneously. Thus, the posture change of the wheelchair 9 can be easily and reliably performed although the posture change is manually performed.

FIG. 3A is a perspective view of the bed 11 at the time of the separation in which the seating bottom portion 15 of the wheelchair 9 is in the flat posture in order to combine the wheelchair 9 and the bed main body portion 10. At this time, the bed bottom portion 17 of the bed main body portion 10 is also in the flat posture.

The bed bottom portion 17 has the bed back bottom member 17a, the bed waist bottom member 17b, the bed knee bottom member 17c, and the bed leg bottom member 17d bendably coupled to one another. That is, the bed bottom portion 17 is composed of the four bed bottom members 17a, 17b, 17c, 17d. Among these members, the adjacent members are bendably coupled to each other at three points via the coupling parts of thin parts or hinges. The coupling parts of the thin parts may be composed of parts each having a thickness thinner than a thickness of each of the bed back bottom member 17a to the bed leg bottom member 17d mainly composing the bed bottom portion 17, and thereby the coupling parts are bendable. The bed back bottom member 17a, the bed waist bottom member 17b, the bed knee bottom member 17c, and the bed leg bottom member 17d are parts to be brought into contact with the back, the waist, the knees, and the legs including the heels of the care-receiver, respectively, and generally have the cushion function.

It should be noted that since the seating bottom portion 15 has the five divided members 15a, 15b, 15c, 15d, 15e and are bent at four points, a division structure is different between the bed bottom portion 17 and the seating bottom portion 15. However, the three divided members 17a, 17b, 17c of the bed bottom portion 17 respectively correspond to the three divided members 15a, 15b, 15c of the seating bottom portion 15, and the remaining one divided member 17d of the bed bottom portion 17 corresponds to the remaining two divided members 15d, 15e of the seating bottom portion 15.

As shown in FIG. 3A, the bed bottom support member 18 is composed of the bed back bottom support member 18a composed into a ladder shape in which a large number of crosspieces are fixed in the width direction between a pair of support rod members in the longitudinal direction, the bed knee bottom support member 18c composed into a similar ladder shape to the bed back bottom support member 18a, the bed leg bottom support member 18d composed into a similar ladder shape to the bed back bottom support member 18a, and three bed first to third bending portions 18j, 18k, 18m bendably coupling the adjacent support members to each other. The bed back bottom support member 18a always supports the bed back bottom member 17a, and a protruding portion 118 protruding in the width direction from the bed back bottom member 17a is capable of supporting the chair back bottom member 15a. The bed knee bottom support member 18c always supports the bed knee bottom member 17c, and a protruding portion 118 protruding in the width direction from the bed knee bottom member 17c is capable of supporting the chair knee bottom member 15c. The bed leg bottom support member 18d always supports the bed leg bottom member 17d, and a protruding portion 118 protruding in the width direction from the bed leg bottom member 17d is capable of supporting the chair leg first bottom member 15d and the chair leg second bottom member 15e. In such a way, the bed back bottom support member 18a, the bed knee bottom support member 18c, and the bed leg bottom support member 18d respectively compose the protruding portions 118 respectively exposed to protrude on one side in the width direction from the bed back bottom member 17a, the bed waist bottom member 17b, the bed knee bottom member 17c, and the bed leg bottom member 17d. These protruding portions 118 are capable of supporting the chair back bottom member 15a, the chair waist bottom member 15b, the chair knee bottom member 15c, the chair leg first bottom member 15d, and the chair leg second bottom member 15e of the wheelchair 9 after the wheelchair 9 is combined with the bed main body portion 10.

That is, the bed back bottom support member 18a and the bed waist bottom member 17b are bendably coupled to each other by the bed first bending portion 18j. The bed waist bottom member 17b and the bed knee bottom support member 18c are bendably coupled by the bed second bending portion 18k. The bed knee bottom support member 18c and the bed leg bottom support member 18d are bendably coupled to each other by the bed third bending portion 18m.

Since the bed waist bottom member 17b, the bed back bottom support member 18a, and the chair knee bottom support member 18c are coupled to one another, the position displacement is not generated between the bed bottom member 17 and the bed bottom support member 18.

In an end on the back surface side of the bed base portion 19 positioned on the lower side of a front end on the back surface side of the bed back bottom support member 18a in the flat posture, a first flat posture detection sensor 21 is arranged. By contact with the front end on the back surface side of the bed back bottom support member 18a in the flat posture, the first flat posture detection sensor 21 detects that the bed back bottom support member 18a is in the flat posture. In an end on the leg side of the bed base portion 19 positioned on the lower side of a front end on the back surface side of the bed leg bottom support member 18d, a second flat posture detection sensor 22 is arranged. By contact with the front end on the back surface side of the bed leg bottom support member 18d in the flat posture, the second flat posture detection sensor 22 detects that the bed leg bottom support member 18d is in the flat posture. The first flat posture detection sensor 21 and the second flat posture detection sensor 22 can be, for example, respectively composed of limit switches for respectively detecting the contact of the bed back bottom support member 18a in the flat posture and the contact of the bed leg bottom support member 18d in the flat posture. Detection information of the first flat posture detection sensor 21 and the second flat posture detection sensor 22 is respectively outputted to a control section 100, and the control section 100 can respectively determine the flat posture of the bed back bottom support member 18a and the flat posture of the bed leg bottom support member 18d.

As shown in FIG. 1C, the control section 100 is to control actions of a combining method and a separating method of the bed, and to control drive of a drive section or a drive device based on input information from the sensors.

A rotatable roller 24 is arranged on the front end of the bed leg bottom support member 18d. In the back lifting posture and the knee lifting posture, the roller 24 rolls and moves on a flat rail or an interior of a groove of the bed base portion 19, so that the bed leg bottom support member 18d can smoothly perform a bending or bending cancellation action between the knee lifting posture and the flat posture relative to the bed base portion 19.

In the first embodiment, a first electric drive section 41a and a second electric drive section 41b are further provided so that a back lifting action and a knee lifting action are independently performed on a bed bottom portion 16 composed of integrating the seating bottom portion 15 and the bed bottom portion 17.

The first electric drive section 41a can change inclination of the back bottom support member 18a. The second electric drive section 41b can change the postures of the knee bottom support member 18c and the leg bottom support member 18d.

An arm 42a of a back lifting translation actuator 41a serving as one example of the first electric drive section 41a is coupled to a front end of a branch coupling portion 18f branched on a back surface on the base end side of the bed back bottom support member 18a so as to lift or bring down the bed back bottom support member 18a via the arm 42a. Therefore, by driving the back lifting translation actuator 41a so as to make the piston rod 42a travel back and forth, the bed back bottom support member 18a can be pivoted between the seating posture and the flat posture via the first bending portion 18j between the bed back bottom support member 18a and the bed waist bottom member 17b.

It should be noted that as another example, as shown in FIGS. 7A and 7B, instead of providing the branch coupling portion 18f on the back surface on the base end side of the bed back bottom support member 18a, a front end of the piston rod 42a may be curved toward the base end side of the bed back bottom support member 18a so as to be separably bring into contact with the back surface on the base end side of the bed back bottom support member 18a. In such a way, only when the bed back bottom support member 18a stands up, the back lifting translation actuator 41a is driven and the back surface on the base end side of the bed back bottom support member 18a is pressed by the piston rod 42a. Meanwhile, when the bed back bottom support member 18a is brought down to the flat posture, by not pulling the bed back bottom support member 18a by the piston rod 42a but only by driving the back lifting translation actuator 41a so as to retreat the piston rod 42a, the bed back bottom support member 18a may be brought down with utilizing the weight of the care-receiver. Therefore, in this case, the back surface of the bed back bottom support member 18a and the front end of the piston rod 42a are simply brought into contact with each other and easily separable for each other, so that a force transmission switching mechanism 90a for switching between transmission and blocking of force for a kind of posture change is formed.

An arm 42b of a knee lifting translation actuator 41b serving as one example of the second electric drive section is coupled to a front end of a branch coupling portion 18g branched on a back surface on the base end side of the bed knee bottom support member 18c so as to lift or bring down the bed knee bottom support member 18c via the arm 42b, so that the bed knee bottom support member 18c and the bed leg bottom support member 18d are bent into an inverted V shape or made to be a flat surface. Therefore, by driving the knee lifting translation actuator 41b so as to extend the piston rod 42b, the bed knee bottom support member 18c is pivoted clockwise about the bed second bending portion 18k relative to the bed waist bottom member 17b, and at the same time, the bed leg bottom support member 18d is pivoted anticlockwise about the bed third bending portion 18m. Thus, as shown in FIG. 3C, the bed main body portion 10 can be changed from the flat posture to the back lifting posture and the knee lifting posture. Conversely, by driving the knee lifting translation actuator 41b so as to contract the piston rod 42a, the bed knee bottom support member 18c is pivoted anticlockwise about the bed second bending portion 18k relative to the bed waist bottom member 17b, and at the same time, the bed leg bottom support member 18d is pivoted clockwise about the bed third bending portion 18m. Therefore, as shown in FIG. 3B, the bed main body portion 10 can be changed from the back lifting posture and the knee lifting posture to the flat posture.

It should be noted that as another example, as shown in FIGS. 7A and 7B, instead of providing the branch coupling portion 18g on the back surface on the base end side (the side of the leg bottom support member 18d) of the bed knee bottom support member 18c, a front end of the piston rod 42b may be curved toward the base end side of the bed knee bottom support member 18c so as to be separably brought into contact with the back surface on the base end side of the bed knee bottom support member 18c. In such a way, only when the bed knee bottom support member 18c stands up, the back lifting translation actuator 41b is driven and the back surface on the base end side of the bed knee bottom support member 18c is pressed by the piston rod 42b. Meanwhile, when the bed knee bottom support member 18c is brought down to the flat posture, by not pulling the bed knee bottom support member 18c by the piston rod 42b but only by driving the back lifting translation actuator 41b so as to retreat the piston rod 42b, the bed knee bottom support member 18c may be brought down with utilizing the weight of the care-receiver. Therefore, in this case, the back surface of the bed knee bottom support member 18c and the front end of the piston rod 42b are simply brought into contact with each other and easily separable for each other, so that a force transmission switching mechanism 90b for switching between the transmission and the blocking of the force for a kind of posture change is formed.

The back lifting translation actuator 41a and the knee lifting translation actuator 41b are respectively independently driven. Thus, a back lifting action/back lowering action and a knee lifting action/knee lowering action can be independently performed. By respectively operating the back lifting translation actuator 41a and the knee lifting translation actuator 41b by an operating remote controller 61 as described later, the care-receiver can autonomously perform the back lifting action and the knee lifting action from his/her own motive.

On one of left and right sides in the width direction of the bed bottom portion 17 (for example, on the left side in FIG. 3A), the recess portion 28 serving as the combination area is formed as a space into which the chair base portion is inserted between the bed back bottom support member 18a and the bed knee bottom support member 18c, so that the chair base portion 13 of the wheelchair 9 is insertable into the recess portion 28.

The elevating section 27 functioning as one example of an elevating machine of the bed main body portion 10 is a part of the members composing the bed main body portion 10, is arranged between the bed bottom support member 18 and the bed base portion 19, and is provided with a link mechanism extendable and contractible in the vertical direction so as to move the entire bed bottom support member 18 parallel in the vertical direction, and an elevating motor 27m coupled to a link of the link mechanism so as to extend and contract the link mechanism by forward/backward rotation of a rotation shaft. As a mechanism for coupling the rotation shaft of the elevating motor 27m to the link of the link mechanism so as to move the link mechanism up and down, for example, a mechanism in which a ball screw is rotated by the rotation shaft so as to make a nut member screwed to the ball screw travel back and forth in the axial direction and this linear motion is converted into a vertical motion by a pantagraph type link mechanism, or the like can be adopted. Although the bed waist bottom member 17b is fixed to the bed base portion 19 via the elevating section 27, the bed bottom support members 18a, 18c, 18d are supported bendably relative to the elevating section 27 (movably in the longitudinal direction relative to the elevating section 27 and partially separably in the vertical direction). Under control of the control section 100, the elevating motor 27m of the elevating section 27 is driven and the rotation shaft thereof is rotated forward and backward so as to extend and contract the elevating section 27 in the vertical direction, and the bed bottom support member 18 supported on the elevating section 27 can be moved parallel in the vertical direction between an upper end position for a combination action and a lower end position for a separation action, and within a bed elevating range d after the combination. A lowest end position of the bed elevating range d is the upper end position for the combination action. When the bed bottom support member 18 is positioned at the upper end position for the combination action, the bed bottom support member 18 is brought into contact with the seating bottom portion 15 of the chair 9 and the seating bottom portion 15 is brought up by the bed bottom support member 18. Thus, the seating bottom portion 15 is away from the chair bottom support member 14. Since the seating bottom portion 15 is away from the chair bottom support member 14, the seating bottom portion 15 of the chair 9 is supported only by the bed bottom support member 18 instead of the chair bottom support member 14. Meanwhile, when the bed bottom support member 18 is positioned at the lower end position for the separation action, the chair bottom support member 14 is brought into contact with the seating bottom portion 15 of the chair 9 and the seating bottom portion 15 is brought up by the chair bottom support member 14. Since the seating bottom portion 15 is brought up by the chair bottom support member 14, the seating bottom portion 15 is away from the bed bottom support member 18, and the seating bottom portion 15 is supported only by the chair bottom support member 14 instead of the bed bottom support member 18. By such an elevating action of the elevating section 27, the posture change mechanism of the seating bottom portion 15 can be switched between the chair bottom support member 14 and the bed bottom support member 18 by the support switching mechanism.

As shown in FIG. 4A, a contact detection sensor 45 serving as one example of a contact detection means for detecting that the bed bottom support member 18 supports the seating bottom portion 15 is provided in the bed bottom support member 18. Detection information of the contact detection sensor 45 is outputted to the control section 100. Therefore, based on the detection information of the contact detection sensor 45, the control section 100 can determine whether or not the bed bottom support member 18 supports the seating bottom portion 15.

FIG. 9 is a view showing an operating surface of the operating remote controller 61. The operating remote controller 61 has an elevating button 62, a back lifting and lowering button 63, a knee lifting and lowering button 64, a combining button 66, and a separating button 67. The operating remote controller 61 is connected to the control section 100 of the bed main body portion 10 by a communication cord or wirelessly, and provides an operating instruction to the control section 100 so as to drive the back lifting translation actuator 41a, the knee lifting translation actuator 41b, and the elevating motor 27m of the elevating section 27. The operating remote controller is provided with a speaker for audibly notifying of various information.

The elevating button 62 is a switch for driving the elevating motor 27m of the elevating section 27, and changes height of the bed bottom portion 16 of the bed 11 after completion of the combination, in the vertical direction within the bed elevating range d. That is, the elevating button 62 is to perform operations of raising and lowering the bed bottom portion 16 within the bed elevating range d shown in FIG. 4B serving as a high range which is a position where the bed bottom support member 18 is brought into contact with the seating bottom portion 15 or more.

The back lifting and lowering button 63 is a switch for driving the back lifting translation actuator 41a, and performs the back lifting action or the back lowering action of the bed 11.

The knee lifting and lowering button 64 is a switch for driving the knee lifting translation actuator 41b, and performs the knee lifting action or the knee lowering action of the bed 11.

The combining button 66 is a switch for driving the elevating motor 27m of the elevating section 27 so as to combine the separated bed 11 (that is, to combine the wheelchair 9 and the bed main body portion 10), and raises the bed bottom support member 18 to the upper end position for the combination action by drive of the elevating motor 27m while the combining button 66 is being pressed.

The separating button 67 is a switch for driving the elevating motor 27m of the elevating section 27 so as to separate the combined bed 11, and lowers the bed bottom support member 18 to the lower end position for the separation action by the drive of the elevating motor 27m while the separating button 67 is being pressed. By pressing only the separating button 67, the elevating motor 27m, the back lifting translation actuator 41a, and the knee lifting translation actuator 41b may be driven, so that the bed 11 performs the back lowering action, the knee lowering action, and a lowering action so as to be changed to the flat posture, and the bed bottom portion 16 is lowered from the upper end position for the combination action to the lower end position for the separation action so as to become a state of capable of performing the separation action.

A positioning sensor 51 is provided in the bed base portion 19 in an innermost part of the recess portion 28 serving as the combination area, so as to detect that the chair base portion 13 is moved to and rightly positioned in the recess portion 28. As one example, the positioning sensor 51 is composed of a limit switch to be brought into contact with the chair base portion 13 when the chair base portion 13 is rightly positioned in the recess portion 28. Detection information of the positioning sensor 51 is outputted to the control section 100. Therefore, when the chair base portion 13 is not rightly positioned in the recess portion 28, the positioning sensor 51 cannot detect, and the control section 100 can determine that the chair base portion 13 is not rightly positioned in the recess portion 28.

A locking portion 40 for coupling and fixing the seating bottom portion 15 and the bed bottom portion 17 with a locking member (not shown) or canceling the coupling by manually pivoting a coupling lever 39 between a lock position and a lock cancellation position is provided in the bed base portion 19. When the seating bottom portion 15 and the bed bottom portion 17 are coupled and fixed by this locking portion 40, the seating bottom portion 15 and the bed bottom portion 17 are integrated so as to compose the bed bottom portion 16. The height of the bed bottom portion 16 at this time is the lowest state as the bed 11 at the time of the combination.

A lock sensor 43 for detecting whether or not the seating bottom portion 15 and the bed bottom portion 17 are locked by the locking portion 40 is provided in the bed base portion 19. The lock sensor 43 is, for example, composed of a limit switch or a proximity switch for detecting movement of the locking member when the seating bottom portion 15 and the bed bottom portion 17 are locked by the locking member of the locking portion 40. Detection information of the lock sensor 43 is respectively outputted to the control section 100, and the control section 100 determines whether or not the locking portion 40 provides lock. Based on the detection information of the lock sensor 43, when the control section 100 determines that the locking portion 40 provides the lock (a lock state), the control section 100 activates the elevating button 62, the back lifting and lowering button 63, and the knee lifting and lowering button 64 of the operating remote controller 61. Conversely, based on the detection information of the lock sensor 43, when the control section 100 determines that the locking portion 40 does not provide the lock (a non-lock state), the control section 100 deactivates the elevating button 62, the back lifting and lowering button 63, and the knee lifting and lowering button 64 of the operating remote controller 61.

With using the above configuration, in order to combine the wheelchair 9 and the bed main body portion 10, the wheelchair 9 in the flat posture is brought close to the bed main body portion 10 in the flat posture along the width direction of the bed main body portion 10 (refer to FIG. 2A). The chair base portion 13 of the wheelchair 9 is moved to and positioned in the recess portion 28 serving as the combination area provided on the side of the bed waist bottom member 17b between the bed back bottom support member 18a and the bed knee bottom support member 18c. At this time, the positioning sensor 51 provided in the bed base portion 19 in the innermost part of the recess portion 28 detects that the chair base portion 13 is moved to and rightly positioned in the recess portion 28, and the control section 100 determines that the chair base portion 13 is rightly positioned in the recess portion 28. When the chair base portion 13 is moved to and positioned in the recess portion 28, the seating bottom portion 15 and the bed bottom portion 17 are arranged side by side.

The chair base portion 13 is moved into the recess portion 28, the chair base portion 13 is positioned in the recess portion 28, and based on the information from the positioning sensor 51, the control section 100 determines that the chair base portion 13 is rightly positioned in the recess portion 28, and thereafter the bed 11 performs a switching action of the posture change mechanism by the support switching mechanism. Firstly, the elevating motor 27m of the elevating section 27 of the bed main body portion 10 is driven under the control of the control section 100 so as to raise the bed bottom support member 18 supported by the elevating section 27, so that height of the bed bottom support member 18 of the bed main body portion 10 is increased to the upper end position for the combination action. Then, the support member supporting the seating bottom portion 15 is switched from the chair bottom support member 14 to the bed bottom support member 18 by the support switching mechanism. That is, from a state where the seating bottom portion 15 is supported only by the chair bottom support member 14 through a state where the seating bottom portion 15 is supported by the chair bottom support member 14 and the bed bottom support member 18, when the bed bottom support member 18 is raised to the upper end position for the combination action, the seating bottom portion 15 is supported only by the bed bottom support member 18. As a result, the support member supporting the seating bottom portion 15 is switched from the chair bottom support member 14 to the bed bottom support member 18 by the support switching mechanism. The contact detection sensor 45 detects that the bed bottom support member 18 is raised to the upper end position for the combination action.

FIGS. 4A and 4B are front views in which the bed 11 during a switching action of the posture change mechanism is seen from the front side. FIG. 4A is a front view of a state where the seating bottom portion 15 is supported only by the chair bottom support member 14. FIG. 4B is a front view of a state where the seating bottom portion 15 is supported only by the bed bottom support member 18. With using FIGS. 4A and 4B, switching of a point supporting the seating bottom portion 15 from the chair bottom support member 14 to the bed bottom support member 18 by the support switching mechanism will be described in detail.

Firstly, when the wheelchair 9 and the bed main body portion 10 start the switching action of the posture change mechanism by the support switching mechanism, the posture change mechanism of the seating bottom portion 15 is switched from the chair bottom support member 14 to the bed bottom support member 18. In other words, the seating bottom portion 15 is disposed only on the bed bottom support member 18 and supported by the bed bottom support member 18. At this time, the seating bottom portion 15 is put on the protruding portions 118 of the bed bottom support member 18 protruding from the bed bottom portion 17 toward the side of the wheelchair 9 in the horizontal direction and supported by the protruding portions 118. A lower surface of the seating bottom portion 15 is supported by the protruding portions 118 of the bed bottom support member 18 in such a manner that the seating bottom portion 15 and the bed bottom portion 17 are integrated so as to compose the bed bottom portion 16. Parts of the bed bottom support member 18 other than the protruding portions 118 support a lower surface of the bed bottom portion 17.

Describing this based on the figures, firstly, as shown in FIG. 4A before switching, in a state where the seating bottom portion 15 is supported only by the chair bottom support member 14, the bed bottom support member 18 is placed under the seating bottom portion 15. At this time, the bed bottom portion 17 is lower than the seating bottom portion 15, and an upper surface of the bed bottom support member 18 supporting the bed bottom portion 17 is lower than an upper surface of the chair bottom support member 14 supporting the seating bottom portion 15. Therefore, the protruding portions 118 of the bed bottom support member 18 and the seating bottom portion 15 are away from each other, and the protruding portions 118 of the bed bottom support member 18 do not support the seating bottom portion 15.

By pressing the combining button 66, the elevating section 27 is driven under the control of the control section 100, so that the bed bottom support member 18 is raised from the lower end position for the separation action to the upper end position for the combination action. By raising the protruding portions 118 of the bed bottom support member 18 to a point where the protruding portions 118 are brought into contact with the seating bottom portion 15 (the upper end position for the combination action) as shown in FIG. 4B, the seating bottom portion 15 is supported by the protruding portions 118 of the bed bottom support member 18.

In such a way, the bed base portion 19 can raise and lower the bed bottom support member 18 between the upper end position for the combination action and the lower end position for the separation action by the elevating section 27 under the control of the control section 100. When the wheelchair 9 and the bed main body portion 10 start the switching action of the posture change mechanism by the support switching mechanism, the bed bottom support member 18 is raised by the elevating section 27 under the control of the control section 100, so that the bed bottom support member 18 placed under the seating bottom portion 15 is brought into contact with the lower surface of the seating bottom portion 15. Since the seating bottom portion 15 is brought into contact with the bed bottom support member 18 and supported by the bed bottom support member 18, the seating bottom portion 15 performs the posture change following the bed bottom support member 18. At this time, the seating bottom portion 15 does not follow an action of the chair bottom support member 14 and not perform the posture change by the chair bottom support member 14.

After that, by fixing the seating bottom portion 15 and the bed bottom support member 18 by the locking portion 40, the seating bottom portion 15 and the bed bottom portion 17 are integrated so as to compose the bed bottom portion 16. At this time, the height of the bed bottom portion 16 is the lowest state as the bed 11 at the time of the combination. In other words, the bed bottom portion 16 is at the lowest end of the bed elevating range d within which the bed 11 at the time of the combination can be moved up and down by actuating the elevating section 27. At this time, all the four traveling wheels 12 of the wheelchair 9 are in contact with the ground (or the installment surface of the wheelchair 9 and the bed main body portion 10) 44. In the bed 11 in which the wheelchair 9 and the bed main body portion 10 are combined, the seating bottom portion 15 and the bed bottom portion 17 can integrally perform the posture change as the nursing care bed. By actuating the elevating section 27 under the control of the control section 100, the height of the bed bottom portion 16 can be increased. In the case where by actuating the elevating section 27 under the control of the control section 100, the bed bottom portion 16 is raised within the bed elevating range d from a state where the bed bottom portion 16 shown in FIG. 4B is in the lowest end, all the traveling wheels 12 of the wheelchair 9 are brought up and are away from the ground (or the installment surface of the wheelchair 9 and the bed main body portion 10) 44.

It should be noted that in the case where a state where the seating bottom portion 15 is supported only by the protruding portions 118 of the bed bottom support member 18 shown in FIG. 4B is switched to a state where the seating bottom portion 15 is supported only by the chair bottom support member 14 shown in FIG. 4A by the support switching mechanism, by pressing the separating button 67, the height of the bed bottom support member 18 is decreased by the elevating section 27 under the control of the control section 100, so that the support member supporting the seating bottom portion 15 is switched from support only by the bed bottom support member 18 to support only by the chair bottom support member 14.

FIG. 5 is a perspective view of the bed 11 at the time of the combination in the flat posture. In the bed 11, the wheelchair 9 in the flat posture is combined with the bed main body portion 10 in the flat posture. Therefore, without getting out of the wheelchair 9, the care-receiver can get on the bed 11 while being in the wheelchair 9. Therefore, a physical burden on the caregiver can be reduced.

In the combined bed 11, the bed bottom portion 17 and the seating bottom portion 15 are integrated so as to form one flat bed bottom portion 16, and the posture change can be performed only by the bed bottom support member 18. The flat posture shown in FIG. 5 is changed to the back lifting posture by integrally lifting the chair back bottom member 15a and the bed back bottom member 17a by the back bottom support member 18a. The chair waist bottom member 15b and the bed waist bottom member 17b serve as one block. Further, the chair knee bottom member 15c and the bed knee bottom member 17c serve as one block, and the chair leg first bottom member 15d, the chair leg second bottom member 15e, and the bed leg bottom member 17d serve as one block. The knee lifting posture in which the two blocks are bent into an inverted V shape is composed of the knee bottom support member 18c and the leg bottom support member 18d.

FIG. 6 is a perspective view of the bed 11 in back lifting posture and knee lifting posture states. FIGS. 7A and 7B are side views of the bed 11 in the back lifting posture and knee lifting posture states and in the bed lowering state and the bed raising state.

As shown in FIGS. 6, 7A, and 7B, the bed bottom portion 16 composed of the seating bottom portion 15 and the bed bottom portion 17 is made by coupling the plurality of divided members 15a, 15b, 15c, 15d, 17a, 17b, 17c, 17d so that the back lifting posture and the knee lifting posture can be formed. By lifting the back bottom support member 18a as a part of the bed bottom support member 18 and lifting and bending the knee bottom support member 18c and the leg bottom support member 18d as a part of the bed bottom support member 18 into an inverted V shape, the back lifting action and the knee lifting action as well as those with a general nursing care bed can be performed. At this time, by moving the coupling lever 39 so as to couple the seating bottom portion 15 and the bed bottom portion 17 by the locking portion 40, the seating bottom portion 15 and the bed bottom portion 17 are not displaced from each other.

When the wheelchair 9 and the bed main body portion 10 are combined, the posture change mechanism of the seating bottom portion 15 of the wheelchair 9 is switched from the chair bottom support member 14 to the bed bottom support member 18 by the support switching mechanism. Therefore, in the case where electric drive control is performed as the bed 11, there is no need for providing electric drive sections in the wheelchair 9. Even when there are no electric drive sections in the wheelchair 9, the bed 11 can be electrically driven. As a result, the wheelchair 9 can be simplified and weight thereof can be reduced.

When the knee bottom support member 18c and the leg bottom support member 18d are bent into an inverted V shape as shown in FIGS. 6, 7A, and 7B, the chair knee bottom member 15c and the chair leg first bottom member 15d are bent into an inverted V shape, and the bed knee bottom member 17c and the bed leg bottom member 17d are bent into an inverted V shape. Then, knee lifting is performed in the bed bottom portion 16. When the knee bottom support member 18c and the leg bottom support member 18d are in a flat surface, the chair knee bottom member 15c, the chair leg first bottom member 15d, the chair leg second bottom member 15e, the bed knee bottom member 17c, and the bed leg bottom member 17d are also in a flat surface.

It should be noted that in the longitudinal direction of the bed bottom portion 16, longitudinal dimension of the chair back bottom member 15a is equal to longitudinal dimension of the bed back bottom member 17a, longitudinal dimension of the chair waist bottom member 15b is equal to longitudinal dimension of the bed waist bottom member 17b, longitudinal dimension of the chair knee bottom member 15c is equal to longitudinal dimension of the bed knee bottom member 17c, and a total dimension of a longitudinal dimension of the chair leg first bottom member 15d and a longitudinal dimension of the chair leg second bottom member 15e is equal to a longitudinal dimension of the bed leg bottom member 17d. This is because the length is equalized so that the bed bottom portion 17 and the seating bottom portion 15 can integrally perform the posture change. In the width direction of the bed bottom portion 16, a total dimension of a width dimension of the chair back bottom member 15a and a width dimension of the bed back bottom member 17a, a total dimension of a width dimension of the chair waist bottom member 15b and a width dimension of the bed waist bottom member 17b, a total dimension of a width dimension of the chair knee bottom member 15c and a width dimension of the bed knee bottom member 17c, and a total dimension of a width dimension of the chair leg first bottom member 15d or a width dimension of the chair leg second bottom member 15e and the bed leg bottom member 17d are equal to each other. This is to make the members have the same width dimension as the bed bottom portion 16 so as to be treated as one bed surface.

Next, the combining method of the separated bed will be described.

FIG. 8 is a flowchart of the combining method of the bed 11. As shown in FIG. 8, in the combining method of the bed 11, firstly, positioning step S01 of detecting that the wheelchair 9 in the flat posture is moved to and rightly positioned in the recess portion 28 serving as the combination area of the bed main body portion 10.

In this positioning step S01, the caregiver manually moves the chair base portion 13 of the wheelchair 9 into the recess portion 28 of the bed main body portion 10. Thereafter, based on the detection information from the positioning sensor 51, the control section 100 determines whether or not the chair base portion is rightly positioned in the recess portion 28. When the control section 100 determines that the chair base portion 13 of the wheelchair 9 is rightly positioned in the recess portion 28 based on the detection information from the positioning sensor 51, the flow proceeds to combination switching step S02. When positioning of the wheelchair 9 is completed, the combining button 66 of the operating remote controller 61 shown in FIG. 9 is lit, and control by the combining button 66 is activated. Further, at this time, from the operating remote controller 61, the caregiver or the care-receiver can be audibly instructed to press the combining button 66 of the operating remote controller 61.

In the combination switching step S02, the posture change mechanism of the seating bottom portion 15 of the wheelchair 9 is switched from the chair bottom support member 14 provided in the wheelchair 9 to the bed bottom support member 18 provided in the bed main body portion 10 by the support switching mechanism. That is, switching of the posture change mechanism of the seating bottom portion 15 by the support switching mechanism indicates that by pressing the combining button 66, the bed bottom support member 18 is raised by driving the elevating section 27 via the control section 100, so that support of the seating bottom portion 15 is switched from the chair bottom support member 14 to the bed bottom support member 18. That is, when the caregiver or the care-receiver presses the combining button 66 of the operating remote controller 61, firstly, the elevating motor 27m of the elevating section 27 is driven and the bed bottom support member 18 is raised only while the combining button 66 is being pressed. When the bed bottom support member 18 comes to height where the bed bottom support member 18 is brought into contact with the lower surface of the seating bottom portion 15 (the upper end position for the combination action), in other words, when the contact detection sensor 45 detects that the bed bottom support member 18 supports the seating bottom portion 15, the control section 100 stops the elevating motor 27m, so that a raising action of the bed bottom support member 18 is stopped. Then, the seating bottom portion 15 is supported only by the bed bottom support member 18 from the lower side. Regarding the combining button 66, the bed bottom portion 16 is raised only while the combining button 66 is being pressed in consideration with safety. However, the bed bottom support member 18 may be automatically moved to the height where the bed bottom support member 18 is brought into contact with the lower surface of the seating bottom portion 15 once the combining button 66 is pressed. When the contact detection sensor 45 detects that the bed bottom support member 18 supports the seating bottom portion 15, the light of the combining button 66 is turned off. At this time, from the operating remote controller 61, the caregiver or the care-receiver can be audibly instructed to move the coupling lever 39. By moving the coupling lever 39, the seating bottom portion 15 and the bed bottom portion 17 are coupled to each other by the locking portion 40.

Further, after the combination switching step S02, bed bottom portion composing step S03 in which the caregiver or the care-receiver moves the coupling lever 39, and combines the seating bottom portion 15 and the bed bottom portion 17 of the bed main body portion 10 by the locking portion 40 so as to compose the bed bottom portion 16 is performed.

In such a way, by switching the posture change mechanism for performing the posture change of the seating bottom portion 15 by the support switching mechanism after positioning, the bed bottom support member 18 can support the seating bottom portion 15 without the position displacement.

Further, in the bed bottom portion composing step S03, the bed bottom portion 16 is composed, the lock sensor 43 detects that the locking portion 40 provides the lock, and the control section 100 determines that the locking portion 40 is in the lock state. After that, operations of the elevating button 62, the back lifting and lowering button 63, and the knee lifting and lowering button 64 of the operating remote controller 61 are activated by the control section 100, so that an instruction of performing the posture change by the bed bottom support member 18 can be provided by using the back lifting and lowering button 63 and the knee lifting and lowering button 64 of the operating remote controller 61. That is, controlling of the back lifting translation actuator 41a for driving the back bottom support member 18a and the knee lifting translation actuator 41b for driving the leg bottom support member 18d by the operating remote controller 61 is activated by the control section 100. By such a combining method, the wheelchair 9 and the bed main body portion 10 are combined.

In such a way, after completion of the switching action of the posture change mechanism by the support switching mechanism, the controlling of the back lifting translation actuator 41a and the knee lifting translation actuator 41b by the operating remote controller 61 is activated by the control section 100. Thus, during the switching action of the posture change mechanism, failure of the switching action of the posture change mechanism due to an erroneous operation of the operating remote controller 61 can be prevented. If the back lifting and lowering button 63 or the knee lifting and lowering button 64 of the operating remote controller 61 is touched by mistake during the switching action of the posture change mechanism, the bed bottom support member 18 is moved, so that unanticipated posture change is performed. Then, an operator (the caregiver or the care-receiver) becomes incapable of controlling. In order to prevent such a situation, the buttons of the operating remote controller 61 may be preferably controlled by the above control section 100.

Next, the separating method of the bed 11, which is a method for separating the wheelchair 9 and the bed main body portion 10 will be described.

FIG. 10 is a flowchart of the separating method of the bed 11. The separating method of the bed 11 has flat posture step S11 of bringing the bed bottom portion 16 of the bed 11 into the flat posture, bed canceling step S12 of canceling the locking portion 40 combining the seating bottom portion 15 and the bed bottom portion 17 relative to the seating bottom portion 15 and the bed bottom portion 17 composing the bed bottom portion 16 after the flat posture step S11, and separation switching step S13 of switching the point supporting the seating bottom portion 15 from the bed bottom support member 18 to the chair bottom support member 14 after the bed canceling step S12.

In such a way, by switching the point supporting the seating bottom portion 15 (in other words, the posture change mechanism) from the bed bottom support member 18 to the chair bottom support member 14 by the support switching mechanism after canceling the locking portion 40, safe separation can be performed.

Hereinafter, the separating method of the bed 11 will be described in detail.

Firstly, in the flat posture step S11, the back lifting and lowering button 63 and the knee lifting and lowering button 64 of the operating remote controller 61 are operated, so that the bed 11 at the time of the combination in the back lifting posture and the knee lifting posture is changed to the flat posture, and the elevating button 62 of the operating remote controller 61 is operated, so that the raised bed bottom portion 16 is lowered to the lowest end of the bed elevating range d. In a state where the bed bottom portion 16 is lowered to the lowest end of the bed elevating range d (in other words, in a state where the bed bottom portion is at the upper end position for the combination action), the back lifting and lowering button 63, the knee lifting and lowering button 64, and the separating button 67 of the operating remote controller 61 shown in FIG. 9 are respectively pressed, the bed 11 respectively performs the back lowering action, the knee lowering action, and the lowering action only while the back lifting and lowering button 63, the knee lifting and lowering button 64, and the separating button 67 are respectively being pressed. When the bed is changed to the flat posture and the bed bottom portion 16 is lowered from the upper end position for the combination action to the lower end position for the separation action, the control section 100 stops the action (step S11). It should be noted that instead of respectively pressing the back lifting and lowering button 63, the knee lifting and lowering button 64, and the separating button 67, by pressing only the separating button 67, the bed 11 may respectively perform the back lowering action, the knee lowering action, and the lowering action so as to be changed to the flat posture, and the bed bottom portion 16 may be lowered from the upper end position for the combination action to the lower end position for the separation action. The control section 100 can determine that the bed is changed to the flat posture based on the detection information from the first flat posture detection sensor 21 and the second flat posture detection sensor 22. The control section 100 can determine that the bed bottom portion 16 is lowered to the lower end position for the separation action based on detection information from a bed lower limit sensor 95 provided in the bed base portion 19.

When the back lifting and lowering button 63, the knee lifting and lowering button 64, and the separating button 67 are respectively pressed, so that the bed 11 is changed to the flat posture and the bed bottom portion 16 is moved to the lowest end of the bed elevating range d (in other words, the upper end position for the combination action), under the control of the control section 100, the operating remote controller 61 audibly notifies the caregiver or the care-receiver to move the coupling lever 39 so as to cancel the coupling of the locking portion 40.

The caregiver or the care-receiver manually moves the coupling lever 39 so as to cancel the coupling of the locking portion 40 coupling the seating bottom portion 15 and the bed bottom portion 17 (step S12). At this time, the lock sensor 43 detects that the locking portion 40 is cancelled, the detection information of the lock sensor 43 is inputted to the control section 100, and the control section 100 determines that the locking portion 40 is in the non-lock state.

Next, the caregiver presses the separating button 67 of the operating remote controller 61. At this time, the lock sensor 43 detects that the locking portion 40 is cancelled, and the control section 100 already determines that the locking portion 40 is in the non-lock state. Therefore, by pressing the separating button 67, the elevating section 27 is lowered, so that the bed bottom support member 18 is brought down to the lower side from the upper end position for the combination action to the lower end position for the separation action. From a state where the bed bottom support member 18 supports the seating bottom portion 15, the bed bottom support member 18 is brought downward away from the seating bottom portion 15. Then, the seating bottom portion 15 is supported only by the chair bottom support member 14. The operating remote controller 61 audibly notifies the caregiver that the wheelchair 9 can be separated from the bed main body portion 10 (step S13). It should be noted that when the control section 100 determines that the locking portion 40 is not cancelled (the locking portion 40 is in the lock state) from a detection result of the lock sensor 43, the control section 100 can also audibly notify the caregiver or the like to move the coupling lever 39 so as to cancel the coupling of the locking portion 40 from the speaker provided in the operating remote controller 61.

In such a way, by lowering the bed bottom support member 18 by the elevating section 27, the support of the seating bottom portion 15 is switched from the bed bottom support member 18 to the chair bottom support member 14 by the support switching mechanism. The caregiver manually pulls out the wheelchair 9 from the bed main body portion 10, and manually brings the wheelchair 9 into the seating posture. By such a separating method, the bed 11 can be separated.

It should be noted that in the bed canceling step S12, the operations by the operating remote controller 61 for providing the instructions to perform the posture change to the back lifting translation actuator 41a and the knee lifting translation actuator 41b of the bed bottom support member 18 may be deactivated. In such a way, during a separation operation, failure of the separation due to an erroneous operation of the operating remote controller 61 can be prevented.

Second Embodiment

FIGS. 11A and 11B are schematic perspective views of a bed 71 in a second embodiment of the present invention. FIG. 11A is a schematic perspective view at the time of the separation. FIG. 11B is a schematic perspective view at the time of the combination.

The bed 71 of the second embodiment is an electric nursing care bed in which the posture change is performed by the electric drive sections. A wheelchair 72 separated from the bed 71 is an electric reclining wheelchair in which the posture change is performed by electric drive sections. Description of similar configurations and functions to the first embodiment will be omitted, and only different points will be described below.

As shown in FIGS. 11A and 11B, the wheelchair 72 has a first chair electric drive section 74a, a second chair electric drive section 74b, and a third chair electric drive section 74c so as to respectively independently perform the back lifting action and the back lowering action, the knee lifting action and the knee lowering action, and a leg lifting action and a leg lowering action.

The first chair electric drive section 74a is arranged in a chair bottom support member 73 of the wheelchair 72, and driven under the control of the control section 100 so as to change the inclination of the chair back bottom member 15a.

The second chair electric drive section 74b is arranged in the chair bottom support member 73 of the wheelchair 72, and driven under the control of the control section 100 so as to change inclination of the chair knee bottom member 15c.

The third chair electric drive section 74c is arranged in the chair bottom support member 73 of the wheelchair 72, and driven under the control of the control section 100 so as to change inclinations of the chair leg first bottom member 15d and the chair leg second bottom member 15e.

The electric drive sections can be formed, for example, by translation actuators as well as those in the first embodiment.

By operating the first chair electric drive section 74a, the second chair electric drive section 74b, and the third chair electric drive section 74c by an operating remote controller 79 exclusive for the wheelchair and driving the electric drive sections under the control of the control section 100, the care-receiver can perform the back lifting action and the back lowering action, the knee lifting action and the knee lowering action, and the leg lifting action and the leg lowering action from his/her own motive.

In the bed 71, the posture change of the chair bottom support member 73 is realized by the first chair electric drive section 74a, the second chair electric drive section 74b, and the third chair electric drive section 74c via a freewheel structure which is frequently adopted in a general electric nursing care bed. Thus, the posture change of the seating bottom portion 15 can be switched from the chair bottom support member 73 provided in the wheelchair 72 to the bed bottom support member 18 provided in the bed main body portion 10 by the support switching mechanism. The freewheel structure indicates a structure in which an electrically actuated drive section does not provide restriction. As a specific example of the freewheel structure, the chair back bottom member 15a or the bed back bottom member 17a is not inseparably coupled to drive sections such as translation actuators, but arms driven by drive sections such as translation actuators to travel back and forth are separably brought into contact with a back surface of the chair back bottom member 15a or a back surface of the bed back bottom member 17a (for example, refer to a relationship between the arm 42a and the bed back bottom support member 18a or to a relationship between the arm 42b and the bed knee bottom support member 18c in FIG. 7A). By pressing the chair back bottom member 15a or the bed back bottom member 17a by the arm, the chair back bottom member 15a or the bed back bottom member 17a is changed from the flat posture to the seating posture. Meanwhile, by pulling the arm, the chair back bottom member 15a or the bed back bottom member 17a is changed from the seating posture to the flat posture by utilizing self-weight of the chair back bottom member 15a or the bed back bottom member 17a. The freewheel structure indicates such a structure. This freewheel structure can function as a force transmission switching mechanism for switching between the transmission and the blocking of the force for the posture change relative to the chair bottom support member 73.

In the case where the wheelchair 72 and the bed main body portion 10 are separated from each other, the first chair electric drive section 74a, the second chair electric drive section 74b, and the third chair electric drive section 74c are actuated so as to change the chair bottom support member 73 to an arbitrary posture. Here, the chair bottom support member 73 is a similar member to the chair bottom support member 14 of the first embodiment. However, a different point from the chair bottom support member 14 is that the chair bottom support member 73 can form the back lifting posture and the knee lifting posture integrally with the seating bottom portion 15 and the bed bottom portion 17 after the combination.

In the case where the wheelchair 72 and the bed main body portion 10 are combined, by the freewheel structure, the chair bottom support member 73 for changing the inclination of the seating bottom portion 15 is separated from the first chair electric drive section 74a, the second chair electric drive section 74b, and the third chair electric drive section 74c, and the inclination of the seating bottom portion 15 can be changed by the bed bottom support member 18. That is, in a state where the wheelchair 72 and the bed main body portion 10 are combined, the chair bottom support member 73 of the wheelchair 72 performs the posture change following the action of the seating bottom portion 15 of the wheelchair 72. When the transmission of the force for the posture change of the seating bottom portion 15 of the wheelchair 72 to the chair bottom support member 73 is blocked by the freewheel structure serving as one example of the force transmission switching mechanism, the seating bottom portion 15 of the wheelchair 72 is not supported by the chair bottom support member 73. The transmission of the force for the posture change of the seating bottom portion 15 indicates transmission of drive forces from the first chair electric drive section 74a, the second chair electric drive section 74b, and the third chair electric drive section 74c.

In such a way, by respectively actuating the chair bottom support member 73 by the first chair electric drive section 74a, the second chair electric drive section 74b, and the third chair electric drive section 74c via the freewheel structure, the support member supporting the seating bottom portion 15 can be switched from the chair bottom support member 73 to the bed bottom support member 18 by the support switching mechanism.

It should be noted that in the wheelchair 72, the postures of the chair knee bottom member 15c, the chair leg first bottom member 15d, and the chair leg second bottom member 15e relative to leg surface parts may be changed in conjunction with the action of the chair back bottom member 15a. In this case, the posture change of the wheelchair 72 can be performed by a single chair electric drive section. Thus, the wheelchair 72 can be formed in a simple configuration and the weight thereof can be reduced. In the above description, the chair bottom support member 73 and the chair electric drive sections 74a to 74c are separated by the freewheel structure. However, the chair electric drive sections 74a to 74c may be freed by a clutch or the like.

It should be noted that in the case where the wheelchair 9, 72 has a tilt mechanism which is often adopted in a general wheelchair in the first and the second embodiments, the wheelchair may be combined with or separated from the bed main body portion 10 in an inclined state by utilizing the tilt mechanism.

It should be noted that by appropriately combining arbitrary embodiments or modification examples among the above various embodiments or modification examples, effects provided in embodiments and the modification examples can be obtained.

INDUSTRIAL APPLICABILITY

With the bed of the present invention, there is no need for transferring itself between the bed and the wheelchair which is necessary in a conventional example. The caregiver can transfer the care-receiver from the bed to the wheelchair and from the wheelchair to the bed without taking up the care-receiver. Therefore, the bed is useful in an ordinary house, a hospital facility, and a nursing care facility where a person in need of care resides.

Although the present invention has been fully described in connection with the preferred embodiments thereof with reference to the accompanying drawings, it is to be noted that various changes and modifications are apparent to those skilled in the art. Such changes and modifications are to be understood as included within the scope of the present invention as defined by the appended claims unless they depart therefrom.

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Bed, and combining method and separating method of bed

Information

Patent Number

Date Filed

Date Issued

Inventors

Original Assignees

Examiners

Agents

CPC

Field of Search

CPC

International Classifications

Term Extension

Abstract

Description

Claims

Priority Claims (1)

PCT Information

US Referenced Citations (29)

Foreign Referenced Citations (12)

Non-Patent Literature Citations (4)

Related Publications (1)

Entry
English translation of the International Preliminary Report on Patentability issued Jan. 15, 2013 in International (PCT) Application No. PCT/JP2011/003186.
Chinese Office Action and Search Report mailed Nov. 26, 2012 in Chinese Patent Application No. 201180003705.3.
International Search Report issued Aug. 16, 2011 in International (PCT) Application No. PCT/JP2011/003186.
Extended European Search Report issued Sep. 14, 2015 in corresponding European Application No. 11792136.1.