Abstract: A glass plate cutting device 1 with a bridge frame 4 supported at its opposite ends 5 and 6 so as to be movable in a Y direction. The bridge frame 4 has an X direction linearly moving unit 3 for moving a cutter head 2 linearly in the X direction. Ball screw nuts 7 and 8 are attached rotatably to the corresponding ends 5 and 6 of the bridge frame 4. Ball screws 9 and 10 extend in the Y direction and are screwed in the corresponding nuts 7 and 8. Y direction linearly moving units 11 synchronously rotate the corresponding nuts 7 and 8 to move the bridge frame 4 in the Y direction. A further ball screw 12 extending in the X direction is provided on the bridge frame 4. A further ball screw 12 is screwed in the further ball screw nut 13 attached to an X direction linearly moving unit 3, whereby the further ball screw 13 is rotated by the X direction linearly moving unit 3 to move the cutter head 2 linearly in the X direction.

Abstract: A glass plate working machine includes table 20 on which glass plate 22 is placed, breaking unit 3 for forming a cutting line on glass plate 22 placed on table 20, and pressing the glass plate in the vicinity of a portion of the glass plate 22 formed with the cutting line to break that portion off; and moving unit 67 connected to the breaking unit 3 for moving same linearly along a surface of glass plate 22 placed on table 20. Breakage by breaking unit 3 and movement by moving unit 67 are controlled by a numerical control unit.

Abstract: A rotary engine that comprises a rotor having two side faces, a side housing disposed facing to one of the two side faces of the rotor and a center housing disposed facing to the other of the two side faces of the rotor. The side housing has an intake port formed therein. Also, the center housing has an intake port formed therein. The intake port of the center housing has an opening end which is dislocated from an opening end of the intake port formed in the side housing facing thereto to a retard side. A space is formed between the side face of the rotor and the center housing. And a relief hole is provided in the center housing in a dislocated portion of the opening end of the intake port of the center housing so as to escape a blow-bye gas pressure from the space.