Patent Application
20220062077
The present specification generally relates to apparatuses and methods for controlling movement of a mobility device and, more specifically, apparatuses and methods for providing a consistent control scheme for control handles in different operating positions of a multi-functional mobility device.
People in need of physical assistance require mobility devices to perform everyday tasks, such as moving from one place to another. A person may use a wheelchair to travel but may also have some capability of walking with a walker device. However, each of these mobility devices is bulky and takes up valuable space. When traveling away from home a user may not have the option of bringing both a wheelchair and a walker device.
Some mobility devices transform between different modes, such as a wheelchair and a walker. However, transforming between a wheelchair mode and a walker mode may involve repositioning the control interface. In addition, the direction that a user faces, relative to the multi-function mobility device, is reversed for the walker mode versus the wheelchair mode. This repositioning of the control interface and reversal of the user's position can introduce some changes into the user's interaction with the control interface, requiring counter-intuitive adjustments on the part of the user.
Accordingly, a need exists for methods and apparatuses for providing a consistent control scheme for control handles in different operating positions of a multi-functional mobility device.
In one embodiment, a powered mobility device may include two powered wheels, a control handle, and a controller. The control handle may be configured to generate control signals in response to being operated by push and pull inputs from a user, and rotate between a first operating position and a second operating position such that an orientation of the control handle is reversed with respect to a forward movement direction of the mobility device. The controller may be configured to control the powered wheels of the mobility device to move in the forward movement direction in response to the control handle being operated in the forward movement direction and move in a reverse movement direction in response to the control handle being operated in the reverse movement direction in both the first operating position and the second operating position regardless of the reversed orientation of the control handle.
In another embodiment, the control signals include a first control signal and a second control signal, and the control handle is configured to send the first control signal in response to being operated in the forward movement direction, and send the second control signal in response to being operated in the reverse movement direction. In the second operating position, the control handle is configured to send the first control signal in response to being operated in the reverse movement direction, and send the second control signal in response to being operated in the forward movement direction.
In another embodiment, the controller may be further configured to control the powered wheels of the mobility device to move in the forward movement direction in response to receiving the first control signal from the control handle in the first operating position. The controller may be further configured to control the powered wheels of the mobility device to move in the reverse movement direction in response to receiving the first control signal from the control handle in the second operating position. The controller may be further configured to control the powered wheels of the mobility device to move in the reverse movement direction in response to receiving the second control signal from the control handle in the first operating position. The controller may be further configured to control the powered wheels of the mobility device to move in the forward movement direction in response to receiving the second control signal from the control handle in the second operating position.
In another embodiment, the control signals further include a third control signal, and the control handle may be further configured to send the third control signal in response to rotation between the first operating position and the second operation position. The controller may be further configured to detect the third control signal and respond to the first control signal and the second control signal according to the operating position indicated by the third control signal.
In another embodiment, the powered mobility device further includes a control handle assembly that includes the control handle. The control handle assembly includes a first configuration point configured to rotate on a first axis, a second configuration point configured to rotate on a second axis, and a third configuration point configured to rotate on a third axis.
In another embodiment, the powered mobility device includes a multi-function mobility device configured to operate in a wheelchair mode, operate in a walker mode, and transform between the wheelchair mode and the walker mode. The transformation includes a rotation of the control handle on the first axis, a rotation of the control handle on the second axis, and a rotation of the control handle on the third axis.
In another embodiment, the control handle includes a pressure sensor and is further configured to generate the control signals in response to pressure applied to the control handle.
In another embodiment, the control handle is further configured to move in response to the push and pull inputs from the user and generate the control signals in response to the movement of the control handle.
In yet another embodiment, a method for controlling movement of a powered mobility device may include detecting a change in operating position of a control handle of a powered mobility device, and controlling the mobility device to move in a forward movement direction in response to a first control signal and a reverse movement direction in response to a second control signal. The method may further include, in response to a change in the detected operating position of the control handle, controlling the mobility device to move in the reverse movement direction in response to the first control signal and the forward movement direction in response to the second control signal.
In another embodiment, the method further includes receiving control signals from the control handle in response to the control handle being operated by push and pull inputs from a user. The detecting of the change in operating position of the control handle may include detecting rotation of the control handle such that an orientation of the control handle is reversed with respect to a forward movement direction of the mobility device.
These and additional features provided by the embodiments described herein will be more fully understood in view of the following detailed description, in conjunction with the drawings.
The embodiments set forth in the drawings are illustrative and exemplary in nature and not intended to limit the subject matter defined by the claims. The following detailed description of the illustrative embodiments can be understood when read in conjunction with the following drawings, where like structure is indicated with like reference numerals and in which:
Embodiments disclosed herein are applicable to a control system for a multi-function mobility device. The multi-function mobility device may transform between a wheelchair mode and a walker mode. The disclosed embodiments maintain a consistent control scheme using the same set of input controls even while a user faces a different direction in different modes of the multi-function mobility device. When transforming the multi-function mobility device between a wheelchair and a walker mode, the orientation of the input controls, relative to the mobility device, may be rearranged. A controller is configured to detect the orientation of the input controls and adjust interpretation of the control signals received from the input controls so that movement of the multi-function mobility device is aligned with the direction of inputs to the input controls.
The input controls 101 may comprise sensors 103 configured to detect user inputs to the input controls 101 and generate control signals 102 based on the detected user inputs. As a non-limiting example, the sensors 103 may comprise displacement sensors and the input controls 101 may be configured to displace from a neutral position in response to inputs from a user. As another non-limiting example, the sensors 103 may comprise pressure sensors configured to detect pressure placed on the control inputs 101 by a user. The controller 105 may be configured to implement the same control scheme whether the sensors 103 are configured to detect displacement in response to user inputs or configured to detect pressure in response to user inputs.
The mobility device is configured to move or turn in response to user inputs to the input controls 301A, 301B, according to a control scheme. The control scheme defines how user inputs to the input controls 301A, 301B are translated into motion of the mobility device. For example, in response to neutral 307 input, the mobility device may be configured to stop. Alternatively, the mobility device may be configured to freewheel in response to a neutral 307 input. In the illustrated embodiment, the input controls comprise a left control handle 301A and a right control handle 301B. The mobility device may be configured to move in the forward motion direction 303 in response to the left control handle 301A and the right control handle 301B both receiving inputs in the forward motion direction. Likewise, the mobility device may be configured to move in the reverse motion direction 305 in response to the left control handle 301A and the right control handle 301B both receiving inputs in the reverse motion direction 305.
The mobility device may be further configured to turn in response to receiving different inputs at the left control handle 301A and right control handle 301B. As a non-limiting example, when the left control handle 301A receives an input in the forward motion direction 303, and the right control handle 301B remains in the neutral 307 or receives an input in the reverse motion direction 305, the mobility device turns right. Conversely, when the right control handle 301B receives an input in the forward motion direction 303, and the left control handle 301A remains in the neutral 307 or receives an input in the reverse motion direction 305, the mobility device turns left. This control scheme is known as a “zero-turn” control scheme.
Reconfiguring the mobility device may have a subtle effect on the way the control interface interprets user inputs. In understanding this effect, it is useful to think of the forward motion direction 303 and reverse motion direction 305 as directions relative to the mobility device. In the first operating position (
Referring again to
According to an embodiment, the control handles 301A 301B are configured to generate a third control signal that indicates the configuration of the control handles 301A, 301B. The controller may be configured to detect the operating position of the control handles 301A, 301B, using the third control signal, and change the direction of the powered wheels in response to the control signals generated by the control handles 301A, 301B. The table below describe the direction of wheel motion produced by the controller in response to the first control signal and second control signal, based on the third control signal.
It should now be understood that embodiments described here are directed to systems and methods for maintaining a consistent intuitive control scheme for input controls of a multi-function mobility device that transforms between multiple operating modes, such as a wheelchair mode and a walker mode.
It is noted that the terms “substantially” and “about” may be utilized herein to represent the inherent degree of uncertainty that may be attributed to any quantitative comparison, value, measurement, or other representation. These terms are also utilized herein to represent the degree by which a quantitative representation may vary from a stated reference without resulting in a change in the basic function of the subject matter at issue.
While particular embodiments have been illustrated and described herein, it should be understood that various other changes and modifications may be made without departing from the spirit and scope of the claimed subject matter. Moreover, although various aspects of the claimed subject matter have been described herein, such aspects need not be utilized in combination. It is therefore intended that the appended claims cover all such changes and modifications that are within the scope of the claimed subject matter.
