An operation device includes at least one operation knob on which at least one detection area is set, a contact detection unit to detect contact of a user with the at least one detection area, an operation detection unit to detect an operation performed on the at least one operation knob, and a control unit that controls a controlled object by a combination of a detection area in which contact has been detected and an operation performed on an operation knob including the detection area, and when a predetermined operation on the operation knob is detected while contact remains undetected, the control unit selects a control related to the operation knob from the combination and controls the controlled object.

An operation device includes at least one operation knob on which at least one detection area is set, a contact detection unit to detect contact of a user with the at least one detection area, an operation detection unit to detect an operation performed on the at least one operation knob, and a control unit that controls a controlled object by a combination of a detection area in which contact has been detected and an operation performed on an operation knob including the detection area, and when a predetermined operation on the operation knob is detected while contact remains undetected, the control unit selects a control related to the operation knob from the combination and controls the controlled object.

The present invention relates to the field of remote-control technology, and provides a remote control for remotely controlling a motorized device, the remote control including a first rocking lever device, a second rocking lever device, a processor and a signal transmitting device. A rod of the first rocking lever device is configured to perform a linear movement along a first direction and a second direction, so as to trigger the remote control to generate a first remote control instruction and a second remote control instruction, and is further configured to rotate along a third rotation direction and a fourth rotation direction, so as to trigger the remote control to generate a third direction and a fourth direction. The first direction is opposite to the second direction, and the third direction is opposite to the fourth direction. The processor is connected to the first rocking lever device and the second rocking lever device to process the first remote control instruction, the second remote control instruction, the third remote control instruction and the fourth remote control instruction.

A foldable enclosure apparatus, for a child, including an upper assembly forming an upper portion of an enclosure, and a base assembly connected to the upper assembly and forming a lower portion of the enclosure that supports a base pad. The upper assembly and base assembly are coupled by a side structure of posts, and the upper assembly, base assembly, and side structure are configured so that the foldable enclosure apparatus folds and unfolds effecting closing and opening of the foldable enclosure apparatus between closed and open positions. A flexible frame bassinet is included in the upper portion and dependent from the upper assembly. A changing platform, separate and distinct from the bassinet, is connected to the upper assembly. The changing platform is pivotally mounted to the upper assembly with mounts separate and distinct from mounting of the bassinet, the mounts include a hinged coupling and snap on clamps.

A driver assistance system enables brake and accelerator operation by an operation bar in a manner close to a sense of a driver of a vehicle, regardless of the degree of operation of the operation bar. Embodiments include an operation bar extending downward toward a vehicle floor panel from a manual operation area where a seated driver manually operates the operation bar, and whose lower portion is supported in a slidingly displaceable manner along an axial direction in a front-down, rear-up tilted state. The operation bar includes a brake actuation section, below the manual operation area, that actuates a brake mechanism by sliding displacement of the operation bar in a front-down direction; and an accelerator actuation section that actuates an acceleration mechanism by sliding displacement of the operation bar in a rear-up direction that is a reverse direction on the same axis from the sliding displacement in the front-down direction.

Methods and apparatus for a lawn maintenance vehicle park brake and traction drive interlock are provided. A park brake mechanism is selectively operable between an engaged position and a disengaged position. A traction drive is also mounted to the lawn maintenance vehicle, the traction drive having a disable mode which prohibits transmission of a driving force from the traction drive to a drive wheel. A first operable connection between the park brake mechanism and a wheel brake activates the wheel brake. A second operable connection between the park brake mechanism and the traction drive activates the disable mode of the traction drive. A method of controlling a lawn maintenance vehicle with a park brake and traction drive interlock include the steps of providing a lawn maintenance vehicle, providing an operable park brake mechanism, providing a first operable connection, and providing a second operable connection.

An assembly for controlling the eductive dispensing of multiple chemical fluids is described. The assembly is designed to detachably engage with existing eductor valve assemblies as either an original part or as a replacement part. The assembly comprises a plurality of selector gears that rotatably engage with eductor valve assemblies. The selector gears are in communication with a control gear. When the assembly is attached to a plurality of eductor valve assemblies an individual can control the rotation of multiple valve assemblies by rotating a single control knob.

A knob assembly includes a knob located at a front panel of the knob assembly and configured to rotate about an axis, a knob ring that is located at the front panel, that surrounds the knob, and that rotates about the axis independently of rotation of the knob, an adjusting shaft that extends from the knob through the knob ring in a direction rearward of the front panel and that rotates based on rotation of the knob and causes operation of a device, a first rotation sensing part that senses rotation of the adjusting shaft, and a first sensing target that rotates based on rotation of the adjusting shaft. A position of the first sensing target changes based on rotation of the first sensing target, and the first rotation sensing part senses at least one of the position or a change of the position of the first sensing target.

A knob assembly includes a knob located at a front panel of the knob assembly and configured to rotate about an axis, a knob ring that is located at the front panel, that surrounds the knob, and that rotates about the axis independently of rotation of the knob, an adjusting shaft that extends from the knob through the knob ring in a direction rearward of the front panel and that rotates based on rotation of the knob and causes operation of a device, a first rotation sensing part that senses rotation of the adjusting shaft, and a first sensing target that rotates based on rotation of the adjusting shaft. A position of the first sensing target changes based on rotation of the first sensing target, and the first rotation sensing part senses at least one of the position or a change of the position of the first sensing target.

A child enclosure including a hub member including a crank link, a substantially four bar articulated link operably connected to the crank link, a push rod connected to the substantially four bar articulated link so that linear movement of the crank link effects, through the substantially four bar articulated link, a linear driving motion of the push rod, and a slide wedge coupled to the push rod, the slide wedge includes a slider and a pivot surface biasing the slider transverse to the linear driving motion of the push rod, where the linear driving motion of the push rod extends and retracts the slider.