The present invention relates to a mobility device for physically disabled people which enables that physically disabled people can freely move inside and outside of building without additional help and can perform tasks of daily life.
Mobility devices for disabled people are nowadays provided in the kind of manually or electrically driven wheelchairs. By means of such devices the mobility of physically disabled people has heavily improved in daily life. Such electric or manual wheelchairs have the disadvantage of its high space consumption, such that some places within or outside a building are hardly or not at all accessible. Wheelchairs in general are designed such the person can sit thereon.
Correspondingly, they are provided with a seat respectively seat faces or seat cushions.
In newer developments the mobility of physically disabled people is further improved in that the wheelchairs allow an erection of the person from the seated position into a standing or inclined lying position.
It is common to all electric or manual wheelchairs that it is difficult for the physically disabled person to access the seat of the wheelchair from a seated position for example out of the bed or out of seating furniture. To this end, in the prior art lifting devices are proposed as they are disclosed for example in the U.S. Pat. No. 5,411,044, the U.S. Pat. No. 4,704,749, the U.S. Pat. No. 4,569,094 or the U.S. Pat. No. 7,392,554 B1. By means of such lifting devices the physically disabled person in general by means of a helping person can lift itself for example out of the bed and can be seated into a wheelchair.
The WO96/11658 discloses a posture change system wherein a patient is fixed to an arm that can be moved up and down for changing the posture of the patient. from a sitting one to a standing position and vice versa. In one embodiment the posture change system comprises a seat and driving wheels for the patient to move freely to a destination without the help of an attendant. This lifting device is disadvantageous in that it is mainly intended to be used in a hospital, wherein helping persons support the patient during a posture change. Therefore, the device is very bulky and comprises a handle by which helping persons can move the device. Therefore, the device shown is hardly suitable to be used by physically disabled persons in daily life on their own and to improve their quality of life.
From the U.S. Pat. No. 6,446,742 B1 a motor-driven platform vehicle for physically disabled people is known, in which the person can move around motor-driven standing on a platform. However, it is a disadvantage of this vehicle, that like with common wheelchairs, the user can enter the vehicle only with difficulties and that it is very space consuming since it is designed for the outdoor use. Therefore, it can only be used in a very limited way within buildings.
Based on the above mentioned prior art, it is a problem of the present invention to provide a mobility device for physically disabled people that overcomes the above mentioned disadvantages and which provides an improved mobility and freedom especially for physically disabled people. Partially, the mobility of physically disabled people should be improved within buildings such that they require less external help in daily life and require less devices like wheel chairs, lifting devices or the like. Further, by means of the present invention, the use of different common seating furniture should be enabled. Further, the free movement of the person within buildings should be enabled without the need for a transfer from a seating furniture or bed into a wheelchair.
The above mentioned problems are solved by a mobility device for physically disabled people according claim 1, as well as by a method for erecting a seated physically disabled person and for fixing the physically disabled person in standing position onto a self-driven mobility device according claim 29.
Particularly, the above mentioned problems are solved by a mobility device for physically disabled people comprising a chassis with at least one motor for maneuvering the overall mobility device, a pivot arm, which is at its lower end pivotably mounted to the chassis, and a pelvis support which is mounted at an upper end of the pivot arm, wherein a physically disabled person can sit with attached pelvis support and can move around in a standing position on the chassis by means of the mobility device and can on its own change from seated to standing position and wherein all elements of the mobility device except the elements directly contacting the body of the person extending above waist height of the sitting person can be lowered or maneuvered to this height or below.
Since the pelvis support is connected to an upper end of a pivot arm that is pivotably connected to the chassis the person in the course of the day can be fixed to the mobility device over a longer period of time without the need to sit or stand continuously on the mobility device. The person can use arbitrary seating furniture and still remains connected to the mobility device. If the person desires to reach a different place the person can erect itself by means of the pivot arm and the pelvis support at the mobility device to a standing position and can drive on the mobility device in a standing position to the desired place. The person can thus use the mobility device continuously throughout the whole day without the need to disconnect from the mobility device. Further, by the exclusive mounting by means of the pelvis support the physically disabled person can fix itself to the device and use it without the aid of a helping person.
If desired, the person can lower itself again onto seating furniture or a bed. Thereby, a transfer from seating furniture into a wheelchair and from the wheelchair to another seating furniture is completely omitted. Correspondingly, the person is relieved from this cumbersome activity and overall significantly gains mobility. Thereby, the times in which the physically disabled person remains seated in a wheelchair is decreased, what has particularly favorable effects on the health of the person.
By means of moving around in standing position with the help of the mobility device the person is enabled to perform activities of the daily life like washing, cooking, working etc. in a significantly facilitated manner or such tasks are enabled at all. The reach of a physically disabled person increases up to 80% of the reach of a non-disabled person.
Since all elements of the mobility device extending above waist height of the seated person—that are usually required for driving around in a standing position—can be lowered or maneuvered below this height it is possible to move the mobility device for example below a common table such that the disabled person can sit and work at a tale without disconnecting from the mobility device. This allows easy and fast changes of the position during the course of the day. Further, the mobility device does not impair the vision to the front if the person is sitting and for example watches TV. On the other hand a good support and safe transport of the person is possible if the elements are raised to the required height. It is particularly required to have handles or grips above waist height, for example in the height of 1.2 m to enable the person to pull himself/herself up to the standing position on its own.
Usually the waist height of a seated person using the mobility device is about 0.5 m-0.85 m from the ground, preferably about 0.55 m-0.75 m, and more preferred about 0.6 m-0.7 m from the ground. In some unusual cases the waist height may be in a different height, for example for very large or very small people or unusual seating furniture. In this respect the mobility device is adjustable to the actual person and the furniture used. In any case it is important for the present invention that all elements of the mobility device during use by a seated person that extend above waist height can be lowered to this height or blow to enable perfect vision for the person and the use of common tables or other furniture. Elements directly contacting and supporting the body may of course remain above waist height. So, for example the pelvis support may be elongated upwards to such an extend that a support of the upper body of the physically disabled person is made possible. Fixing belts or the like may also extend above waist height without impairing the functionality of the mobility device.
Therefore, the mobility device essentially improves the quality of life of physically disabled people. By the fixing of the physically disabled person by means of a pelvis support at a pivotable pivot arm, the person is also not hindered in its freedom to move the upper body and to use common seating furniture. For example the person may reach wall units of kitchen furniture without any problems. Additionally the physically disabled person can fix itself on its own to the pelvis support of the mobility device and does not require external help. Further, no limitation of the visibility is given for a seated person that is fixed to the mobility device. In total, by means of a mobility device a physically disabled person can perform almost all tasks of daily life without external help what significantly increases its quality of life.
Preferably the mobility device further comprises a hand grip arrangement that is movably supported, preferably telescopically supported at the chassis, wherein the hand grip arrangement allows the physically disabled person to erect himself/herself on its own to a standing position. The hand grip arrangement can also be made foldable.
Preferably the hand grip arrangement of the mobility device for physically disabled people comprises two hand grips that are foldable downwards. In order to further decrease the overall height of the mobility device if required the hand grips can be folded downwards. Preferably the pivot arm and the hand grip arrangement can be maneuvered to a height above waist height of a sitting person. This enables a self-erecting of the person and a safe driving around with the mobility device in standing position.
Preferably the mobility device has no seat for a person. This allows using arbitrary seating furniture during the course of the day, and not having to disconnect and to newly connect the mobility device to the body. A continuous “wearing”the mobility device during the day allows fast and easy changes of the position in the house without the need for changing into a wheelchair or the like.
Preferably, at least on fixing belt is mounted at the pelvis support. This fixing belt acts for fixing the person in a convenient way to the pelvis support and enables that the person may remain fixed permanently to the mobility device. The physically disabled person, therefore, in daily life can constantly wear the mobility device as it it would be a piece of clothing without being negatively affected while sitting.
Preferably the mobility device comprises an upper fixing belt for supporting the upper part of the body of a physically disabled person and a lower fixing belt for fixing the pelvis of a physically disabled person. This two-part design of the fixing belt provides a better stability for driving. Further the fixing belts fixes the upper part of the body of the person during the motion for seating in which the person has to push its body backwards from the hand grip arrangement in order to sit down out of the standing position.
Preferably, at least one of the fixing belts is retractable into the pelvis support. Therefore, the length of the fixing belt can be individually adjusted and individually adapted during the course of the day according to the fact if the person sits or stands.
In a preferred embodiment the pivot arm can be pivoted to a height below and above waist height of a sitting person such that the pelvis support contacts the belly of a sitting person, a sitting person is able to erect himself/herself to a standing position, and the pelvis support can fix the belly or the frontal pelvis of the person and holds the person upright in a standing position on the mobility device. By such an arrangement of the pivot arm respectively and pelvis support a “wearing” in the sense of a fixing of a mobility device is enabled during sitting as well as during erecting and driving by means of the mobility device. Since the pelvis support contacts the belly or the frontal pelvis of the person, it is not cumbersome particularly during sitting and enables that the person may enter the mobility device from the backside thereof, and may erect himself/herself without the need of further assistance from the backside into the standing position.
Correspondingly, arbitrary seating furniture can be used during the course of the day and it is possible to change between seats or to drive around in a very fast and simple way.
Preferably, the pivot movement of the pivot arm to the standing position of the person is supported by a spring, preferably by a lockable spring, and more preferably by a lockable gas spring. By means of a mechanical support of the pivot movement of the pivot arm by a spring or gas spring an erecting of a person from a sitting position into a standing position onto the mobility device is facilitated. The spring or gas spring generates a lifting force that makes it easier for the person to erect himself/herself. In contrary to a motor driven lifting the person has the full control of the lifting process which is particularly advantageous or even necessary since physically disabled people sometimes have so called “locked knees” that do temporarily not allow to straighten the legs. If in this condition the pivot arm would be motor driven the user may be severely injured by the device since the legs would be straightened by a motor.
Preferably the pivot arm can be selectively locked to provide at least two of the following modes:
By choosing one of the above described modes the lifting and lowering of the pivot arm can be controlled according the desired task.
Preferably the pivot arm is length adjustable in order to adjust the mobility device to the use rand to allow a greater range of movements.
Preferably the mobility device further comprises two footrests as standing platforms at the chassis for a person standing onto the mobility device, wherein the footrests are arranged in between front wheels and back wheels. Preferably the footrests are arranged at the chassis just over the floor, such that a use of common furniture in the household is possible. Particularly, it is possible to grasp and position articles onto a common table also in the standing position of the person. Further an overall low height of the mobility device is given. By means of these footrests—in contrast to a single platform—the fixing and stability of the person in standing position onto the mobility device is improved since the feet take a defined position. The arrangement of the footrests in between the front and back wheels further increases the stability of the mobility device and makes the mobility device as compact as possible.
Preferably the footrests are movable in height by means of a motorized mechanism. This allows on the one hand a perfect sitting on seating furniture while the feet of the person remain on the mobility device. On the other hand this allows an effortless lifting of the upper legs of the person for an easy fixing of the preferred belt for attaching to the mobility device.
Preferably the pivot arm is arranged as a parallelogram arrangement, such that the pelvis support during pivoting of the pivot arm always has the same orientation. This measure improves the comfort and the security of the fixing particularly during erecting from the sitting position.
Preferably the pivot arm further comprises a gearbox arrangement for maintaining the orientation of the pelvis support, while pivoting the pivot arm. The gearbox arrangement preferably comprises a first gearbox at one end of the pivot arm, a second gearbox at the other end of the pivot arm, a rotatable connection shaft, connecting the input shafts of the first and second gearbox with each other, wherein a rotatable output shaft of the first gearbox is attached to the pelvis support and a rotatable output shaft of the second gearbox is attached to the chassis. By using a gearbox arrangement at the pivot arm for maintaining the orientation of the pelvis support the risk of injuring the fingers or hand at the pivot arm is minimized respectively excluded compared to a pivot arm with a parallelogram arrangement. Further, since the gearbox arrangement translates the pivot movement into a rotational movement of the connection shaft the locking mechanism of the pivot arm must be less powerful compared to a pivot arm with parallelogram arrangement. Particularly the gearbox arrangement can increase the rotational movement of the pivot arm by ten times for the connection shaft. Therefore, the connection shaft can preferably be used for coupling to a support drive, for example an electric motor.
Preferably the mobility device further comprises a removable support post arranged rigidly on the chassis, wherein the pivot arm is supported at the chassis via the support post. By means of the support post, it is possible to provide the support of the pivot arm in a height adjustable manner, such that the mobility device can be optimally adapted to the corresponding person. Further, it enables to form the centre of gravity of the mobility device as deep as possible and to design the chassis in total as compact as possible. Since the support post is removable the device is easier to be transported, for example by car.
Preferably the lower end of the pivot arm is height displaceably supported at the support post in order to adapt the mobility device to the user.
Preferably the chassis comprises driven wheels, which are selectively driven by at least one motor, to maneuver the mobility device. By the selective drive of the wheels the mobility device can be steered and maneuvered by the user in arbitrary directions.
Preferably the mobility device comprises at lest one multiway wheels. A multiway wheel is an arrangement of a plurality of wheels and has more than one rotation axis such that it can rotate in different rotational directions. Multiway wheels allow for example a forward and a sideward movement perpendicular thereto. By means of a multiway wheel at the back of the chassis it is possible to rotate the mobility device around the front wheels, such that actions of a daily life—which require often a rotation of the mobility device—can be done very easily and without driving forwards and backwards. This additionally improves the mobility and reach of the physically disabled people.
Preferably the mobility device further comprises at least one omni wheel and/or at least one caster wheel and/or a holonomic drive, comprising four omni wheels arranged at the edges of the chassis and/or a meccanum drive, comprising at least two meccanum wheels.
These wheels and drives also allow that the mobility device is more agile and can move directly in any desired direction—for example sideways—without the need for space consuming driving maneuvers.
Preferably the mobility device further comprising stability elements that are extendable and retractable from the chassis in order to provide an enhanced stability of the mobility device. These stability elements can be automatically extended out of the chassis to improve tilting stability, for example in case the user in standing position leans for ward or if the user erects himself/herself to the standing position. If the stability elements are not required they are automatically retracted into the chassis to minimize the footprint required by the mobility device.
Preferably the mobility device further comprises a tibia support, which is connected to the support post in an adjustable manner. The tibia support secures a stable stand of the physically disabled person on the mobility device.
Preferably, the mobility device further comprises a control panel at which the person can control the movements of the mobility device, particularly the driving movements.
Preferably the control panel is a remote control panel that allows the user to maneuver the mobility device from a remote distance. This allows fetching the mobility device from a parking position in order to use it. Further, for example, this allows the person to carry a tray and simultaneously to control the mobility device. To do so the person can place the remote control panel onto the tray and control it by its fingers.
Preferably the mobility device comprises at the back end of the chassis a platform for supporting the feet of the person, such that the person can more easily fix the fixing belt to its body. Such a platform allows an effortless lifting of the feet and the upper legs of a sitting person such that the preferred belt can easily be fixed to the body of the person. The above mentioned height movable footrests an be used additionally or instead of the platform.
Preferably the platform in adjustable in height by means of a motorized mechanism. Thereby, the platform can be moved upwards for an easy lifting of the upper legs and for an attaching of the fixing belt. For an easy mounting of the mobility device it can be moved downwards.
The above mentioned problems are also solved by a method for erecting of a sitting physically disabled person and for fixing the person in standing position onto a motor-driven mobility device comprising the following steps: (a) providing a mobility device comprising a motor driven maneuverable chassis, a pivot arm pivotably mounted at the chassis, a pelvis support arranged at an upper end of the pivot arm, and a hand grip arrangement that can be lowered to or below the waist height of the sitting person, (b) fixing the pelvis support at the belly of the sitting person, (c) moving the hand grip arrangement to a height that allows the person to pull himself/herself up to the standing position by means of the hand grip arrangement, and (d) pivoting of the pivot arm for erecting the person into the standing position onto the chassis of the mobility device.
Since the pelvis support is connected to the belly of a seated person and the pivot arm for erecting the person into the standing position is pivoted, the above mentioned advantages of the mobility device are given. Particularly the advantage is provided that the sitting person can erect itself at the mobility device without the requirement for additional lifting devices or the like. Further, this erecting is particularly simple by the connection of the pelvis support at the belly of the sitting person and usually can be done by the sitting person by muscle force or by mechanic support by the person on its own and without external help. To this end the person preferably pulls itself up at the hand grip arrangement which is adjusted to a sufficient height.
The retractable hand grip arrangement does not impair the vision to the front if the person is sitting and allows parking the device below a table. Correspondingly, the physically disabled person will use the mobility provided by the mobility device more frequently compared to the case if for this task additional devices, respectively helping persons would be required.
Preferably, the step of the fixing of the pelvis support requires an encompassing of the person by means of a fixing belt wherein the person places his/her feet to a back sided edge platform or height movable platform of the chassis in order to lift its upper legs. If only a fixing belt is used, which encompasses the person at its back the person can use arbitrary seating furniture and nevertheless remains securely fixed to the mobility device for a fast change of the location. The use of a particular back sided edge or height movable platform of the chassis to place the feet during the fixing lifts the upper legs of the person such that the belt can be fixed easily.
Preferably the pelvis support laterally supports the knees of the seated person during encompassing of the person by means of the fixing belt. During the encompassing of the person by means of the fixing belt it was found out, that it is favourable to laterally support the knees of the seated person temporally by means of the pelvis support. Than the person—if desired—can push itself away from the seat without any problems in order to secure the fixing belt.
Preferably the pivoting of the pivot arm is supported by a spring or is motor driven. This facilitates the lifting of the person into the standing position.
Further preferred embodiments result from the sub-claims
In the following preferred embodiments of the invention are described with respect to the drawings in which shows:
In the following preferred embodiments of the invention are described with respect to the accompanying figures. The
The mobility device 1 as main elements comprise essentially a maneuverable chassis 10, a pivot arm 20 and a pelvis support 40 that can directly touch the body of person 2. The pivot arm 20 is connected to the chassis by means of a perpendicular support post 70. For fixing the tibia of a person 2 at the support post 70 a tibia support 60 is provided in a height adjustable manner. For fixing the pelvis respectively the upper body of the person 2 to the pelvis support 40 a two piece fixing belt 30, 32 is connected to the pelvis support 40. By means of a control panel 50 at which a joystick 52 is connected the person 2 can control the mobility device 1, particularly the driving movements.
The chassis no comprises at least one motor, which preferably electrically selectively drives at least some of the wheels 12, 13 such that the mobility device 1 can be driven by person 2 in arbitrary manner. As shown in
Chassis 10 further comprises on the right and on the left side in directly between the front wheels 12 and the back wheels 13 a footrest respectively for the right and left foot of the person 2. The footrests 14 on the one hand provide a good support for the feet of the person 2 during sitting and during the erection and on the other hand allow person 2 to conveniently stand on the mobility device 1. The footrests 14 can be height movable by means of a motorized mechanism in order to lift the upper legs of a seated person 2 for facilitating the fixing of the pelvis support 40 by means of the fixing belt 30, 32.
In chassis 10 the required motors for the drive of the front and back wheels 12, 13 as well as the power supply and the control electronics of the mobility device 1 are enclosed.
At the frontal area 17 of the chassis 10 a support post 70 is erected essentially vertically from the chassis 10 to the top. At this support post 70 a tibia support 60 is supported in an adjustable manner.
Further, at the support post 70 the lower end 22 of the pivot arm 20 is supported in a height displaceable manner in order to adapt the pivot arm 20 to the physically disabled person 2.
The support post 70 is removable from the chassis 10 in order to facilitate transportation of the mobility device 1 for example in a car.
As it can be seen in detail in
In the free mode the gas spring 26 enables that the pivot arm 20 can freely move up and down. This mode can be used if the person is sitting and no support by the mobility device is required.
In the locked mode the gas spring 26 prevents any up and down movement of the pivot arm 20. This mode can be used during driving around or standing with the mobility device 1 since it securely fixes the body of the person 2 during the driving, see
In the standing up mode the gas spring 26 enables the pivot arm 20 to move upwards and biases the pivot arm 20 in the upwards direction. However, in the standing up mode a downwards movement of the pivot arm 20 is prevented by means of the gas spring 26. This mode ensures that the user 2 can pull himself up to the standing position even if he/she requires several steps for a complete erection, see
In the sitting down mode the gas spring 26 enables the pivot arm 20 to only move downwards and dampens this downwards movement by its upwards biasing force. In this mode an upwards movement of the pivot arm 20 is prevented.
The pivot arm 20 is preferably formed as a parallelogram arrangement of two parallel rods 24, 25 such that the pelvis support 40 and joystick 52 which are attached to the upper end 23 of the pivot arm 20 are essentially arranged by pivot joints always in the same orientation. The rods 24, 25 are length adjustable, preferably telescopic such that the pivot arm 20 can be adjusted in its length to the needs—for example the height—of the individual user 2.
Another embodiment of a pivot arm 20 is shown in
The input shafts 145, 147 are connected to each other by means of a connection shaft 136. Further, output shaft 144 of the first gearbox 130 is connected to the pelvis support 40 via a bracket 140. The output shaft 146 of the second gearbox 132 is connected to the support post 70 of chassis 10 via a further bracket 142.
The function of the pivot arm 20 with gearbox arrangement 130, 132, 136 is as follows: If the pivot arm 20 is pushed upwards the bracket 142 rotates the output shaft 146 of second gearbox 132. This causes a corresponding rotation of the input shaft 147 and the connection shaft 136. Preferably the rotational movement of the connection shaft 136 is a multiple of the rotational movement of the output shaft 146.
A rotation of the connection shaft 136 causes a rotation of the input shaft 145 of the first gearbox 130. This further causes a corresponding rotation of the output shaft 144 of the first gearbox 130. Both gearboxes 130, 132 are identical in view of the internal set of gears. Therefore, the rotation of the output shaft 146 of the second gearbox 132 is transmitted to a corresponding rotation in opposite direction of the output shaft 144 of the first gearbox 130. This in the end causes that the pelvis support 40 always maintains its initial orientation, as it can be seen in the
Such an arrangement can favourably be used to lock the movement of the pivot arm 20 by engaging the connection shaft 136 appropriately. Since the connection shaft 136 has a higher rotational movement compared to pivot movement of the pivot arm 20 only a fraction of the force is needed for the locking compared to a direct locking of the pivot arm 20.
Additionally compared to a parallelogram arrangement 24, 25 of the first embodiment, as shown in
Further the gearbox arrangement 130, 132, 136 enables to motorize the movement of the pivot arm 20 by engaging the connection rod 136 by means of an electric motor (not shown). This enables a very compact motorized pivot arm 20.
As shown in
As shown in
In a preferred embodiment chassis 10 is approximately only 0.4-0.7 meters long, 0.2-0.4 metres high and 0.3-0.5 metres wide. Thereby, on the one hand it is ensured that the mobility device 1 can be maneuvered securely with a standing person 2 and on the other hand does not negatively affect a sitting person 2.
As it can be seen in
As shown in
This procedure can be facilitated by a height movable platform 150 that can be moved up and down by a motorized mechanism 152 as shown in
Alternatively the footrests 14 can also be movable in height by means of a motorized mechanism. This further allows a perfect sitting on any seating furniture while the feet of the person remain on the mobility device. Additionally motorized footrests 14 allow an effortless lifting of the upper legs of the person 2 for an easy fixing of fixing belts 30, 32.
As shown in
The additional support elements 42 are provided to additionally support the upper body of person 2 from the front, the side or from the back if person 2 is not able to stabilize its upper body by muscle force. These additional support elements 42 may also be mounted to the pivot arm 20. As it can be seen in
If person 2 wants to change its position in the room, it will pull itself up—as shown in
The actuator 26 can also be provided as a motor-driven element such person 2 can also erect itself without force effort or less force effort from the sitting into the standing position. In this case, actuator 26 can be provided as a hydraulic cylinder, as an electric spindle actuator, a DC driven motor or the like. The pivot movement of the pivot arm 20 as well as the driving movements of the mobility device 1 can be controlled by the person 2 at a control panel 50, which preferably comprises a joystick 52 for the control of the driving movements. In case the actuator 26 is strong enough to lift the person 2 alone from the sitting to the erected position in some embodiments hand grips 80, 81 would not be needed anymore.
In order to control the mobility device 1 from a remote position a wireless remote control 54 can be provided. By means of a wireless remote control 54 the user 2 can preferably control the driving movements of the mobility device 1 which allows him/her to fetch the mobility device 1 from a remote position to the actual position of the user 2. This enables the user 2 to use the mobility device 1 without the need of a further assistant, for example already in the morning in order to leave the bed.
The mobility device 1 is preferably driven by electric motors 90 that drive the front wheels 12 of the mobility device 1 via corresponding gear boxes, see
In a first embodiment of
In the embodiment of
Instead of the omni wheels 110 in the embodiment of
As it can be seen in
A similar arrangement is shown in
The use of such driving concepts for a mobility device 1 increases the agility and steerability of the mobility device 1 and, thereby, the applicability of the mobility device 1 in the daily life of physically disabled people.
The mobility device 1 provides a new class of mobility devices, which replaces a wheelchair as well as lifting devices in the household area. Since the possibility of a self-erecting of a sitting person 2 into the standing position for driving around is already integrated into the mobility device 1 the mobility and reach of the person 2 is significantly improved. Compared for example to the sue of a wheelchair and further lifting devices it is essentially faster and easier possible to change different seats and places by means of the mobility device 1. Helping persons are not necessary anymore. Further, by means of the mobility device 1 activities in sitting and standing position can be done easily and without problems. This significantly increases the quality of life of physically disabled people and enables an essentially self-determined daily life.
Number | Date | Country | Kind |
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10 2011 006 359.5 | Mar 2011 | DE | national |
Number | Date | Country | |
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Parent | 14009005 | Sep 2013 | US |
Child | 15668728 | US |