There is provided an inexpensive pedal device in a compact and simple configuration of the one-pedal scheme, wherein the pedal device may be attached to an existing brake pedal without remodeling the brake pedal, wherein the pedal device does not cause the pedal stepping surface to project toward a driver, wherein an accelerator and a brake are operable with the driver's right heel in contact with the floor, wherein upon braking the pedal device always operates toward a direction to close the accelerator, and wherein the pedal device allows some deviation of a pedal-stepping position. A pedal device, comprising: a frame consisting of a bracket attachable to an existing brake pedal, and a base projecting rightward from the bracket; an accelerator pad attached to an upper surface of the base so that the accelerator pad is smoothly slidable rightward and leftward through a slide mechanism provided on the upper surface of the base; and a transmission unit for transmitting a position of the accelerator pad to an accelerator device of a vehicle, wherein the base is sloped downward toward the bracket, wherein the accelerator pad is shaped so that its stepping surface is not higher than a stepping surface of the brake pedal when the accelerator pad is at its leftmost position, wherein the accelerator pad comprises a biasing unit for biasing the accelerator pad leftward, and wherein the base is provided on the bracket at an angle so that the right end of the base is closer to a driver.

The disclosed embodiments of the present technology relate to a foot controller with an adjustable treadle assembly including an adjustable treadle surface member slidably coupled to a fixed treadle plate and a latch assembly to adjust the adjustable treadle surface member to fixed positions relative to the treadle plate.

Embodiments herein are directed to a pedal pad assembly. The pedal pad assembly includes an outer housing that has a cavity, an inner housing that has an outer surface and is slidably received within the cavity of the outer housing, a pedal pad coupled to the inner housing and is configured to translate the inner housing along a movement axis in response to a load applied to the pedal pad and a sensor assembly that includes a plurality of target members coupled to the outer surface of the inner housing and a sensor configured to sense a position of at least one target member. During a translation of the inner housing along the movement axis, at least one target member of the plurality of target members moves with the inner housing from a first position to a second position indicative of the movement of the inner housing within the cavity.

Embodiments herein are directed to a pedal pad assembly. The pedal pad assembly includes an outer housing that has a cavity, an inner housing that has an outer surface and is slidably received within the cavity of the outer housing, a pedal pad coupled to the inner housing and is configured to translate the inner housing along a movement axis in response to a load applied to the pedal pad and a sensor assembly that includes a plurality of target members coupled to the outer surface of the inner housing and a sensor configured to sense a position of at least one target member. During a translation of the inner housing along the movement axis, at least one target member of the plurality of target members moves with the inner housing from a first position to a second position indicative of the movement of the inner housing within the cavity.

Embodiments herein are directed to a pedal pad assembly that includes a housing, a pedal pad, at least one link member, at least one sliding member, and a sensor. The pedal pad is coupled to the housing and configured to translate the housing along a first movement axis in response to a load applied to the pedal pad. A proximal end of the at least one link member is coupled to an outer surface of the housing. The at least one sliding member is coupled to a distal end of the at least one link member. The sensor is configured to sense a position of the at least one sliding member along a second movement axis. During a translation of the housing along the first movement axis, the proximal end of the at least one link member moves translating the at least one sliding member about the second movement axis.

Embodiments herein are directed to a pedal pad assembly that includes a housing, a pedal pad, at least one link member, at least one sliding member, and a sensor. The pedal pad is coupled to the housing and configured to translate the housing along a first movement axis in response to a load applied to the pedal pad. A proximal end of the at least one link member is coupled to an outer surface of the housing. The at least one sliding member is coupled to a distal end of the at least one link member. The sensor is configured to sense a position of the at least one sliding member along a second movement axis. During a translation of the housing along the first movement axis, the proximal end of the at least one link member moves translating the at least one sliding member about the second movement axis.

A foot pedal system for controlling a surgical robotic system, the foot pedal system comprising a foot pedal assembly movably coupled to a foot pedal assembly platform. The foot pedal assembly having a foot pedal base, a foot pedal pivotally coupled to the foot pedal base, and a foot pedal platform, the foot pedal base operable to slide across the foot pedal platform along an x-axis and a y-axis to an arrangement of activation positions. The foot pedal platform operable to translate and rotate with respect to the foot pedal assembly platform to any position along the foot pedal assembly platform, and the foot pedal platform is operable to engage or disengage with the foot pedal assembly platform at the any position along the foot pedal assembly platform.

A pedal assembly includes a housing having a cavity. A pedal arm is at least partially received in the cavity. The pedal arm is configured to move within the cavity relative to the housing. At least two pivot levers are positioned within the cavity and configured to pivot upon a contact by the pedal arm. A spring retainer is formed in the housing. The spring retainer has a spring positioned therein. A spring member is disposed about the spring retainer and is moveable about the spring retainer. At least two sensors are attached to the spring housing. At least two sensor assemblies are positioned in the housing and configured to sense an amount of travel of the at least two sensors. When a load is applied to the pedal pad, the pedal arm contacts the at least two pivot members pivoting the pivot members and moving the spring housing wherein the sensors movement is sensed by the respective at least two sensor assemblies indicative of the amount of depression of the pedal pad.

A pedal assembly includes a housing having a cavity. A pedal arm is at least partially received in the cavity. The pedal arm is configured to move within the cavity relative to the housing. At least two pivot levers are positioned within the cavity and configured to pivot upon a contact by the pedal arm. A spring retainer is formed in the housing. The spring retainer has a spring positioned therein. A spring member is disposed about the spring retainer and is moveable about the spring retainer. At least two sensors are attached to the spring housing. At least two sensor assemblies are positioned in the housing and configured to sense an amount of travel of the at least two sensors. When a load is applied to the pedal pad, the pedal arm contacts the at least two pivot members pivoting the pivot members and moving the spring housing wherein the sensors movement is sensed by the respective at least two sensor assemblies indicative of the amount of depression of the pedal pad.

Embodiments herein are directed to a pedal assembly. The pedal assembly includes a housing, a pedal arm, at least one elongated member, and at least one strain gauge sensor. The pedal arm has a pedal pad on one end. The at least one elongated member is positioned within a cavity and configured to deflect upon a movement by the pedal arm caused from a load applied to the pedal pad. The at least one strain gauge sensor is positioned in communication with the at least one elongated member and configured to sense an amount of the deflection of the at least one elongated member. When the load is applied to the pedal pad, the pedal arm moves and deflects the at least one elongated member, which is sensed by the respective at least one strain gauge sensor indicative of an amount of load applied to the pedal pad.