A kick-down element for a vehicle, complete with a housing, an actuator that is fastened in the housing such that it can be moved axially and a force surge element that can be moved axially in the actuator and which is axially loaded by an elastic element. There is a plate-shaped protruding part on at least one housing panel, which runs perpendicular to the movement direction and the upper end of which runs diagonally downward. The force step element interacts with at least one roller, which is located between the protruding part and a wedgeshaped (9) of the force surge element in a resting position. The kick-down element is intended to allow for a relatively long travel path for the actuator in the most compact design possible. This is achieved by keeping the roller attached to a lower end of the actuator.

A kick-down element for a vehicle, complete with a housing, an actuator that is fastened in the housing such that it can be moved axially and a force surge element that can be moved axially in the actuator and which is axially loaded by an elastic element. There is a plate-shaped protruding part on at least one housing panel, which runs perpendicular to the movement direction and the upper end of which runs diagonally downward. The force step element interacts with at least one roller, which is located between the protruding part and a wedgeshaped (9) of the force surge element in a resting position. The kick-down element is intended to allow for a relatively long travel path for the actuator in the most compact design possible. This is achieved by keeping the roller attached to a lower end of the actuator.

A multidirectional foot controller includes a base, a first platform, a second platform, and two pedals successively stacked and assembled together. The multidirectional foot controller is activated by having the two pedals depressed simultaneously, and then controls an externally connected endoscope to move forward or backward by a first platform, or controls the endoscope to move leftward or rightward by a second platform. By having only one of the pedals depressed, the multidirectional foot controller can change the field of view of the endoscope.

A multidirectional foot controller includes a base, a first platform, a second platform, and two pedals successively stacked and assembled together. The multidirectional foot controller is activated by having the two pedals depressed simultaneously, and then controls an externally connected endoscope to move forward or backward by a first platform, or controls the endoscope to move leftward or rightward by a second platform. By having only one of the pedals depressed, the multidirectional foot controller can change the field of view of the endoscope.

A sliding-type heel pad with height adjustment function includes: a pad main body having an upper surface that varies in height from a floor panel inside a vehicle cabin depending on a position at which a driver touches the pad main body by heel; a sliding mechanism for moving the pad main body toward or away from a pedal disposed inside the cabin; and a stopper mechanism for restricting sliding movement attic pad main body by the sliding mechanism.

A sliding-type heel pad with height adjustment function includes: a pad main body having an upper surface that varies in height from a floor panel inside a vehicle cabin depending on a position at which a driver touches the pad main body by heel; a sliding mechanism for moving the pad main body toward or away from a pedal disposed inside the cabin; and a stopper mechanism for restricting sliding movement attic pad main body by the sliding mechanism.

A multidirectional foot controller includes a base, a movable platform, a rotatable platform, and two pedals successively stacked and assembled together. The multidirectional foot controller is activated by having the two pedals depressed simultaneously, and then controls an externally connected endoscope to move forward or backward by means of a movable platform, or controls the endoscope to move leftward or rightward by means of a rotatable platform. By having only one of the pedals depressed, the multidirectional foot controller can change the field of view of the endoscope. The resultant multidirectional operation helps to improve working efficiency and operational stability.

A multidirectional foot controller includes a base, a movable platform, a rotatable platform, and two pedals successively stacked and assembled together. The multidirectional foot controller is activated by having the two pedals depressed simultaneously, and then controls an externally connected endoscope to move forward or backward by means of a movable platform, or controls the endoscope to move leftward or rightward by means of a rotatable platform. By having only one of the pedals depressed, the multidirectional foot controller can change the field of view of the endoscope. The resultant multidirectional operation helps to improve working efficiency and operational stability.

A pedal device includes a pedal, a holder and at least one elastic member. The holder is configured to be displaceable in a predetermined direction by receiving, from one side in the predetermined direction, a force that is applied by the pedal associated with displacement of the pedal. The at least one elastic member supports the holder from the other side in the predetermined direction, and receives the force applied by the pedal from the one side in the predetermined direction via the holder, so as to be elastically deformed and to apply an elastic force to the holder. The holder includes at least one passage that allows foreign matter to pass.

A pedal device includes a pedal, a holder and at least one elastic member. The holder is configured to be displaceable in a predetermined direction by receiving, from one side in the predetermined direction, a force that is applied by the pedal associated with displacement of the pedal. The at least one elastic member supports the holder from the other side in the predetermined direction, and receives the force applied by the pedal from the one side in the predetermined direction via the holder, so as to be elastically deformed and to apply an elastic force to the holder. The holder includes at least one passage that allows foreign matter to pass.