Abstract: A transmission system includes: an antenna; a control device including an RF circuit which transmits a first signal for controlling a radio wave to be outputted from the antenna and an external power supply which supplies direct current to the antenna; and a first transmission path which connects the antenna and the control device, and is used in transmission of the first signal and supplying of the direct current to the antenna.

Abstract: A cover S is fed between pairs of first and second feed rollers 2, 3; 4, 5 which synchronously rotate in the same direction, each of first and second creasing units 13, 14 composed of a fixed die 15 and a movable die 16 is disposed between the pairs of first and second feed rollers, the fixed and movable dies are opposite to each other and with a feed path F of the cover therebetween, a sensor 29 is disposed between the pair of first feed rollers 2, 3 and the first creasing unit 13 for detecting a front end of the cover, rotation number of the pairs of first and second feed rollers is controlled, the pairs of first and second feed rollers are stopped, the creasing unit is operated, and the movable die is pressed on the fixed die every time the cover is fed by a predetermined length from the sensor so that at least one crease is formed on the cover.

Abstract: While a book block (P) is nipped between a pair of clamping plates (1a, 1b) and passes through processing units (B to D) in succession, perfect book bind processing is carried out. Two or more of the processing units (B to D) have pairs of members (2b, 2c; 3c, 3d; 4a, 4b) which engage or come into contact with both sides of a back surface of the book block A thickness of the book block is measured by a measuring unit (6) before the book binding processing is started. When a thickness of next book block is measured by a measuring unit during the book bind processing of a previous book block, a control section (7) stores a measured value of the thickness of the next book block in a memory (8). When the previous book block reaches a predetermined position on a conveying path, a gap between the pair of members of the processing unit located upstream of a position of the previous book block is adjusted based on the measured value stored in the memory.

Abstract: Stepping force can be transmitted effectively from a pad member to an arm member even when a stepping operation by the foot of an operator is performed at a position shifted in a lateral direction from the center position of the pad member in the lateral direction. The body of a brake pedal (20) that is a pedal for vehicle is formed of an arm member (21) rotatable vertically about a center shaft arranged in a proximal end portion (21A), and a pad member (22) to which a stepping operation by the foot of an operator is performed is attached to an end face (21C) of a distal end (21B) of the arm member (21). The arm member (21) is made of a pipe, and an end face (21C) of the arm member (21) to which the pad member (22) is attached has a laterally long shape.

Abstract: While a book block (P) is nipped between a pair of clamping plates (1a, 1b) and passes through processing Units (B to D) in succession, perfect book bind processing is carried out. Two or more of the processing units (B to D) have pairs of members (2b, 2c; 3c, 3d; 4a, 4b) which engage or come into contact with both sides of a back surface of the book block A thickness of the book block is measured by a measuring unit (6) before the book binding processing is started. When a thickness of next book block is measured by a measuring unit during the book bind processing of a previous book block, a control section (7) stores a measured value of the thickness of the next book block in a memory (8). When the previous book block reaches a predetermined position on a conveying path, a gap between the pair of members of the processing unit located upstream of a position of the previous book block is adjusted based on the measured value stored in the memory.

Abstract: A push link shaft 4 serving as a center of swing of push links 2a and 2b adapted to directly output a force of operating a brake master cylinder 22 is provided in a pedal apparatus, in addition to a pedal link shaft 5 serving as a center of swing of a pedal arm 7, and pedal links 3 and 3. An application point shaft 10, on which an external force received by the push link 20 and 2b is competitive with a force of stepping on a pedal 11, is adapted to move in an up-down direction when a slider 8, to which the pedal arm 7 is fixed, is moved along a slider rail 9.

Abstract: A push link shaft 4 serving as a center of swing of push links 2a and 2b adapted to directly output a force of operating a brake master cylinder 22 is provided in a pedal apparatus, in addition to a pedal link shaft 5 serving as a center of swing of a pedal arm 7, and pedal links 3 and 3. An application point shaft 10, on which an external force received by the push link 20 and 2b is competitive with a force of stepping on a pedal 11, is adapted to move in an up-down direction when a slider 8, to which the pedal arm 7 is fixed, is moved along a slider rail 9.

Abstract: On a base (12) are fixed a pair of supporting members (6, 8). A guide rail (3) is supported by the pair of supporting members. A measurement block (2) is guided by the guide rail in a sliding manner. On the base is fixed a reference block (10) abutted by the measurement block when it has reached one end of the guide rail. A moving-distance measuring device is provided which uses as a zero point a position where the measurement block abuts against the reference block, to measure a distance over which the measurement block has moved with respect to the reference block. The moving-distance measuring device has, on the base, a pair of pulleys (5, 7) arranged with a gap therebetween in a direction parallel to the guide rail, a belt (4) engaged over the pair of pulleys and having its part linked with the measurement block, and a rotary encoder (11) linked to a rotary shaft of one of the paired pulleys.