A system for avoiding pinching in vehicle doors includes capacitive proximity sensors for being mounted at each door along closing surfaces. The system also includes an accelerometer for being arranged in each door, a stopper bar, and a release mechanism for the stopper bar. The capacitive proximity sensors, the accelerometer, and the release mechanism are connected to a control unit arranged such that the stopper bar is moved to a blocking position when the capacitive proximity sensor for the same door senses an object and the door has stopped accelerating.

A system for avoiding pinching in vehicle doors includes capacitive proximity sensors for being mounted at each door along closing surfaces. The system also includes an accelerometer for being arranged in each door, a stopper bar, and a release mechanism for the stopper bar. The capacitive proximity sensors, the accelerometer, and the release mechanism are connected to a control unit arranged such that the stopper bar is moved to a blocking position when the capacitive proximity sensor for the same door senses an object and the door has stopped accelerating.

A bodywork part for a motor vehicle is provided. The bodywork part includes a main body made from a plastic material and an anti-pinching system. The latter comprises a capacitive sensor comprising at least a first conductive wire integrated into the thickness of the main body by welding, said capacitive sensor being able to detect the presence of an object or a hand of a user in said peripheral zone.

A sensing edge is made in segments that can be used to determine at which point along the edge an obstruction occurred. Data collected can be used to determine a point in a process that the fault occurred by addressing each segment individually or as a whole. A programmable controller can be operatively coupled to the sensing edge, and can include logic to control the door and/or other equipment using data collected from the sensing edge.

The present invention relates to a pinch detection switch (1) that includes one tubular pressure-sensitive detection member (5) having a plurality of electrode wires spaced apart from one another, and a cover member (4) covering the pressure-sensitive detection member. When the cover member (4) is viewed in cross section, the cover member (4) includes a base portion (4-1), a hollow portion (6), and a deformation portion (4-2) provided on the base portion (4-1) so as to cover the hollow portion (6). The pressure-sensitive detection member (5) is arranged in the deformation portion (4-2), and a receiving portion (9) configured to receive the pressure-sensitive detection member (5) is arranged on the base portion (4-1). The receiving portion (9) has at least two receiving surfaces (9-1, 9-3) formed at positions facing the pressure-sensitive detection member (5), the two receiving surfaces being configured to receive the pressure-sensitive detection member.

The present invention relates to a pinch detection switch (1) that includes one tubular pressure-sensitive detection member (5) having a plurality of electrode wires spaced apart from one another, and a cover member (4) covering the pressure-sensitive detection member. When the cover member (4) is viewed in cross section, the cover member (4) includes a base portion (4-1), a hollow portion (6), and a deformation portion (4-2) provided on the base portion (4-1) so as to cover the hollow portion (6). The pressure-sensitive detection member (5) is arranged in the deformation portion (4-2), and a receiving portion (9) configured to receive the pressure-sensitive detection member (5) is arranged on the base portion (4-1). The receiving portion (9) has at least two receiving surfaces (9-1, 9-3) formed at positions facing the pressure-sensitive detection member (5), the two receiving surfaces being configured to receive the pressure-sensitive detection member.

A vehicle door opening/closing apparatus includes: an electrode provided near a vehicle door, which is opened and closed by driving of an actuator; a detection unit configured to separately detect presence or absence of an opening/closing operation of requesting opening/closing of the vehicle door by a user and presence or absence of a proximity state where a person exists in proximity of the vehicle door based on variation in an electrostatic capacity in the electrode; and a controller configured to drive the actuator when the opening/closing operation is detected by the detection unit even when an opening/closing request of the vehicle door from a device other than the detection unit is recognized and not to drive the actuator when the detection unit detects the proximity state.

A vehicle door opening/closing apparatus includes: an electrode provided near a vehicle door, which is opened and closed by driving of an actuator; a detection unit configured to separately detect presence or absence of an opening/closing operation of requesting opening/closing of the vehicle door by a user and presence or absence of a proximity state where a person exists in proximity of the vehicle door based on variation in an electrostatic capacity in the electrode; and a controller configured to drive the actuator when the opening/closing operation is detected by the detection unit even when an opening/closing request of the vehicle door from a device other than the detection unit is recognized and not to drive the actuator when the detection unit detects the proximity state.

A sensor unit manufacturing method includes: a core metal insertion process of inserting a core metal member having a length dimension smaller than a length dimension of a core metal accommodation portion into a predetermined location (a section of a curving portion) extending along a longitudinal direction of the core metal accommodation portion; and a bending process of bending the section (the section of the curving portion) of a fixation base portion, into which the core metal member is inserted, following a curved shape of a sensor bracket.

A sensor unit manufacturing method includes: a core metal insertion process of inserting a core metal member having a length dimension smaller than a length dimension of a core metal accommodation portion into a predetermined location (a section of a curving portion) extending along a longitudinal direction of the core metal accommodation portion; and a bending process of bending the section (the section of the curving portion) of a fixation base portion, into which the core metal member is inserted, following a curved shape of a sensor bracket.