A deformable sensor may detect changes in capacitance due to relative motion of electrodes in the deformable sensor, or due to a proximate object. In some cases, a controller circuit may communicate with a motion interface system to alter motion of system components when a deformation or proximate object is sensed.

A deformable sensor may detect changes in capacitance due to relative motion of electrodes in the deformable sensor, or due to a proximate object. In some cases, a controller circuit may communicate with a motion interface system to alter motion of system components when a deformation or proximate object is sensed.

A touch sensor device includes: a touch sensor unit having a tubular hollow member constituted by an elastically deformable insulator and first and second electrodes extending in a longitudinal direction of the hollow member and apart from each other in a state of being sealed on an inner side of the hollow member, in which the touch sensor unit is configured such that the first electrode and the second electrode are in contact with each other and electrically connected based on elastic deformation of the hollow member, and a water intrusion detection section is provided at a position located at a lower end portion of the touch sensor unit extending in a vertical direction and, in a case where water has intruded into the hollow member, the first electrode and the second electrode are electrically connected via the intruding water in the water intrusion detection section.

A touch sensor device includes: a touch sensor unit having a tubular hollow member constituted by an elastically deformable insulator and first and second electrodes extending in a longitudinal direction of the hollow member and apart from each other in a state of being sealed on an inner side of the hollow member, in which the touch sensor unit is configured such that the first electrode and the second electrode are in contact with each other and electrically connected based on elastic deformation of the hollow member, and a water intrusion detection section is provided at a position located at a lower end portion of the touch sensor unit extending in a vertical direction and, in a case where water has intruded into the hollow member, the first electrode and the second electrode are electrically connected via the intruding water in the water intrusion detection section.

A closing device for opening and closing an opening in a vehicle is disclosed. The closing device comprises a closing system, having a closing body (SK) that is fitted on the vehicle (FZ) in a movable manner and is configured to open and close the opening (O), a drive device (AV) that is operatively connected to the closing body (SK) and is configured to move the closing body (SK), and a transmission system (US) that is arranged between the closing body (SK) and the drive device (AV) and is configured to transmit a drive force generated by the drive device (AV) to the closing body (SK). The closing system (SLS) has a closing system spring rate (FRSLS) that characterizes an overall elasticity of the closing body (SLS), of the drive device (AV) and of the transmission system (US). The closing device (SV) also comprises a force transmission spring unit (KUFE) that is configured to pick up the drive force transmitted from the drive device (AV) to the closing body (SK). The force transmission spring unit (KUFE) has a force transmission spring rate (FRKUFE) that is lower than the closing system spring rate (FRSLS).

An object detection sensor according to an embodiment comprises: a sensing layer including a resin and a carbon micro-coil inside the resin; and a sensing electrode embedded in the sensing layer, wherein the impedance value of the sensing layer changes on the basis of the reference impedance as an object approaches the pre-set sensing area.

An object detection sensor according to an embodiment comprises: a sensing layer including a resin and a carbon micro-coil inside the resin; and a sensing electrode embedded in the sensing layer, wherein the impedance value of the sensing layer changes on the basis of the reference impedance as an object approaches the pre-set sensing area.

A closure panel for a vehicle having an anti-pinch sensor attached at an outer peripheral area of the closure panel. A closure panel including an outwardly extending flange portion. An anti-pinch sensor mount including a U-shaped cross section which is adapted to fit over and secure to the outwardly extending flange portion. An anti-pinch sensor attached to the mount for sensing an interference in opening or closing of the closure panel and reversing the opening or closing of the closure panel.

A closure panel for a vehicle having an anti-pinch sensor attached at an outer peripheral area of the closure panel. A closure panel including an outwardly extending flange portion. An anti-pinch sensor mount including a U-shaped cross section which is adapted to fit over and secure to the outwardly extending flange portion. An anti-pinch sensor attached to the mount for sensing an interference in opening or closing of the closure panel and reversing the opening or closing of the closure panel.

A door leading edge sensor has: a door leading edge elastic member which is attached to a front end portion of a door in a door closing direction and in which a cavity extending in a direction intersecting with the closing direction is formed therein; and a linear pressure sensitive sensor that is attached to the door leading edge elastic member and is disposed along the extending direction of the cavity. The pressure sensitive sensor has an insulator tube having such an elasticity as to be deformed in accordance with an elastic deformation of the door leading edge elastic member and plural conductive members fixed to an inner surface of the insulator tube. The plural conductive members are in a non-contact state when the insulator tube is not deformed and are in contact with each other when the insulator tube is deformed.