A patient support apparatus comprises a base supported by caster assemblies with each caster assembly comprising a stem, a caster wheel, and a caster wheel axle. A patient support surface is coupled to the base and is configured to receive a load. One or more load sensors are integrated with at least one of the stem, the caster wheel, or the caster wheel axle for measuring the load. One or more of the caster assemblies can be coupled to a steering motor, which controls orientation of the caster assembly. A controller can control the steering motors based on analyzing the measurements of the load sensor. The load sensors can produce measurements indicative of both vertical load and non-vertical load applied to the caster assembly. The controller can also analyze the measurements of the load sensor to determine the load received by the patient support surface by negating the non-vertical load.

A patient support apparatus comprises a base and a patient support deck. The patient support deck comprises a back section capable of articulating relative to a seat section. A lift system lifts or lowers the patient support deck relative to the base. An articulation system articulates the back section relative to the seat section. Head end side rails are mounted to the back section to articulate with the back section. A controller controls operation of the lift system and/or the articulation system to prevent the head end side rails from colliding with obstacles, such as the floor surface.

The wheelchair includes a seating portion, body frames that support the seating portion, wheels that are rotatably supported by the body frames, an engaging portion, a left brake that brakes a left rear wheel, and a coupling portion that couples the engaging portion and the left brake to each other. The engaging portion is capable of switching between an engagement attitude for engaging a vehicle body member that forms an opening of a vehicle and a disengagement attitude for releasing the engagement with the vehicle body member. The coupling portion transmits the movement of the engaging portion to the left brake when the engaging portion makes an attitude change from the disengagement attitude to the engagement attitude. This operates the left brake when the attitude of the engaging portion switches from the disengagement attitude to the engagement attitude and brakes the left rear wheel.

An electrically assisted wheelchair includes a controller that obtains an inclination assist value by correcting the assist value when a road surface is inclined in a left-right direction of the seat, and performs a downhill turning preventing operation of causing the wheelchair body to travel straight by applying right auxiliary power and left auxiliary power corresponding to the inclination assist value. The controller adjusts the right auxiliary power and the left auxiliary power by correcting the inclination assist value based on a hand rim operation of the user to operate at least one of the right hand rim and the left hand rim in the downhill turning preventing operation.

The disclosure provides a driving force applied position estimation system that can accurately estimate an applied position of a driving force from an occupant. A measurement system includes a six-axis force sensor provided in a wheelchair, a rotation angle recognition part which recognizes a rotation angle of the six-axis force sensor, and a COP estimation part which estimates a COP that is the applied position of the driving force from the occupant to the wheelchair. The COP estimation part estimates the COP based on a translational force and a moment detected by the six-axis force sensor and based on the rotation angle recognized by the rotation angle recognition part.

The disclosure provides an assist wheel including a wheel, a handrim, an elastic component, two contact components, a driving assembly, two film sensors. The wheel is configured to be rotatably disposed on a wheelchair frame. The handrim is disposed on the wheel and rotatable with respect to the wheel. Two opposite ends of the elastic component are respectively connected to the wheel and the handrim. The two contact components are respectively disposed on the wheel and the handrim. The driving assembly is configured to be fixed to the wheelchair frame. The two film sensors are disposed on the driving assembly and respectively pressed by the two film sensors. Each of the two film sensors is configured to generate a sensor value. The controller is configured to receive the sensor values from the two film sensors and signal the driving assembly.

Systems and methods for facilitating movement of a patient transport apparatus. The patient transport apparatus has a support structure and a patient support surface. Caster assemblies are coupled to the support structure to roll about a roll axis and swivel about a swivel axis. A control system is configured to control brake mechanisms, steer-lock mechanisms, and pre-swivel mechanisms of the caster assemblies based on one or more inputs.

A patient support apparatus includes a frame. A vertical transport structure may be coupled with the frame. A grip is coupled with the vertical transport structure and at least one grip sensor is coupled to the grip on the vertical transport structure. A controller determines a vertical position of a user applied force applied to the at least one grip sensor and the controller activates a power drive mode upon determining that the push force has reached a threshold value corresponding to the vertical position of the user applied force and propel patient support apparatus.

An elevating bed capable of detecting braking performance includes an elevating assembly, a driving motor connected to the elevating assembly and driving the elevating assembly to move, a brake device connected to the driving motor, a control module connected to the driving motor and to the brake device. When the control module disables the brake device, the control module controls the driving motor to drive the elevating assembly to move for a first movement distance and calculates a first torque value of the driving motor. When the control module enables the brake device, the control module controls the driving motor to drive the elevating assembly to move for a second movement distance and calculates a second torque value of the driving motor. The control module determines whether the brake device is normal or abnormal according to a relationship between the first torque value and the second torque value.

An electric wheelchair operation apparatus includes a sliding part disposed in an armrest part, a dial part disposed on a tip side of the armrest part, the dial part configured to be moved together with the sliding part in the vehicle forward/backward direction, and an electric wheelchair drive control unit configured to control a traveling motion of an electric wheelchair by associating the amount of movement of the sliding part and/or the moved position thereof with respect to the reference point in the vehicle forward/backward direction detected by a first sensor with a traveling motion of the electric wheelchair in a forward/backward direction and associating the amount of rotation, the rotational position, and/or the rotational torque of the dial part detected by a second sensor with a turning motion of the electric wheelchair in a left/right direction.