221 |
Drive mechanism |
US71966558 |
1958-03-06 |
US2985029A |
1961-05-23 |
SCHNEIDER EMMOR V |
|
222 |
Control device |
US72222658 |
1958-03-18 |
US2917939A |
1959-12-22 |
HARRIS JOHN L |
|
223 |
Step-by-step ratchet drive |
US52401355 |
1955-07-25 |
US2869375A |
1959-01-20 |
LEWIS MELVIN R |
|
224 |
Reversing mechanism |
US41860754 |
1954-03-25 |
US2836991A |
1958-06-03 |
PERLIS DAVID B |
|
225 |
Cyclically operable power transmission mechanism |
US27662252 |
1952-03-14 |
US2795307A |
1957-06-11 |
BURG FRED G |
|
226 |
Arrangement for performing mechanical works |
US43566830 |
1930-03-13 |
US1880138A |
1932-09-27 |
FRANZ HUBL |
|
227 |
Timer |
US8111326 |
1926-01-13 |
US1670751A |
1928-05-22 |
SMITH ALGY J |
|
228 |
System and means of control |
US34779019 |
1919-12-27 |
US1520132A |
1924-12-23 |
JOHNSON FREDERICK H |
|
229 |
Timing apparatus for mountain-air sanitariums |
US58492322 |
1922-08-28 |
US1466653A |
1923-08-28 |
FRANK BATTER |
|
230 |
Control mechanism |
US35475620 |
1920-01-28 |
US1353369A |
1920-09-21 |
EDWARD WILLIAMS |
|
231 |
Method for operating oven and control device |
JP2006038789 |
2006-02-16 |
JP2006226669A |
2006-08-31 |
VERKADE JOHANNES ADRIANUS MARI; VAN NIEKERK KOEN JOZEF |
PROBLEM TO BE SOLVED: To provide a method for operating an oven, and a control device.
SOLUTION: This control device 4 has an approximately flat and sealed operation panel 20. One or a plurality of touch sensitive domains on the operation panel define electronic on/off switches 24-38 and an electronic rotation switch 40. A processing means connected to the rotation switch 40 is proper for detecting characteristics of finger operation over at least a part of a circular path defined by the rotation switch. The characteristics are sufficient to be each characteristic of operation stop, a reachable distance, a speed and an acceleration. In order to operate the oven sanitarily, quickly and simply with a high resolution, the rotation switch 40 moves around choices of a recipe displayed on a display means 22, changes each value of the choices, and provides to a user possibility for monitoring progression of the oven operation following the selected recipe.
COPYRIGHT: (C)2006,JPO&NCIPI |
232 |
Seismic shut-off valve device |
JP32509998 |
1998-11-16 |
JP3338841B2 |
2002-10-28 |
進 渡辺 |
|
233 |
Sensed earthquake cut-off valve device |
JP32509998 |
1998-11-16 |
JP2000145998A |
2000-05-26 |
WATANABE SUSUMU |
PROBLEM TO BE SOLVED: To cut off a passage at a fast speed by pressure air when the earthquake of a specified level or higher is sensed, and to automatically replenish a reservoir tank with pressure air when the pressure of pressure air in the reservoir tank is reduced. SOLUTION: When the earth quake of specified intensity or higher is sensed in the open state of a passage opening/closing valve 10, pressure air in a reservoir tank 40 is sent to an emergency cut-off air cylinder 20 to close the passage opening/closing valve 10, and when the pressure of pressure air in the reservoir tank 40 is reduced to a specified value or lower, a piston 21 is reciprocated by a motor 15 for driving the passage opening/closing valve to generate pressure air, and this pressure air is sent to the reservoir tank 40. |
234 |
Position controller for rotatable adjustor |
JP10566399 |
1999-04-13 |
JPH11320843A |
1999-11-24 |
BURKE DAVID CHARLES; MCCRILLIS FREDRICK ELKINS |
PROBLEM TO BE SOLVED: To provide a position controller without erroneous operation or deterioration even if a time is elapsed. SOLUTION: The position controller 40 comprises a regulating rod 42 having a first end 43 and a second end 45 having at least three flat sides, a member cooperating with the end 45 and rotatable via the rod 42, a first leaf spring set 46, and a second leaf spring set 48 in such a manner that the set 46 is cooperated with the one side 44 of at least the three flat sides, and the set 48 is cooperated with the side 45 of at least the three flat sides. |
235 |
Controller for cam switch |
JP679095 |
1995-01-20 |
JPH08194556A |
1996-07-30 |
UENO SUNAO |
PURPOSE: To decide the allowable time according to the rotation state of a cam switch and to detect the rotation jam at the shortest detection time by counting clock pulses at the constant cycle and clearing to zero every time when the pulse signal is inverted and judging the rotation jam when the count value exceeds the allowable time. CONSTITUTION: A pulse generator outputs a pulse signal which is turned on and off every time when the cam switch which makes normal and reverse rotation is rotated at the constant rotation angle. A means 11 which decides the jam detection time decides the prescribed allowable time by the rotation commands and the pulse signal. A time measurement means 12 counts the clock pulse which is given at the constant cycle and clears to zero every time when the pulse signal is inverted. A rotation jam discriminating means 13 judges the rotation jam when the count value of the means 12 exceeds the allowable time. Thus, the allowable time is properly decided according to the rotation state of the cam switch and the rotation jam is detected at the shortest detection time. |
236 |
Part assembling part |
JP32677794 |
1994-12-28 |
JPH08174356A |
1996-07-09 |
ECHIZENYA TATSUO; NOMARU MINORU; UCHIDA MITSUHIKO; WATANABE SHINICHI |
PURPOSE: To perform production in a limited space and besides with high efficiency even when a part has the high number of assembly processes.
CONSTITUTION: A part assembling device comprises robots 20A-20E workable at a plurality of work stages 5A, 5B, and 5C; and unmanned conveyance vehicles 15A-15C operable in coordination with the robots. The unmanned conveyance vehicles are burdened with one shaft of the robot by vertically and horizontally moving a work during the work of the robot. The work range of the securely arranged robot is spread in a pseudomanner, a production line is reduced, and working efficiency is improved.
COPYRIGHT: (C)1996,JPO |
237 |
Of the program timer stepping drive mechanism |
JP7414985 |
1985-04-08 |
JPH0610951B2 |
1994-02-09 |
GAI EI UOJITANETSUKU |
|
238 |
JPS646341Y2 - |
JP6301581 |
1981-04-30 |
JPS646341Y2 |
1989-02-17 |
|
|
239 |
JPS6116443Y2 - |
JP8671881 |
1981-06-15 |
JPS6116443Y2 |
1986-05-21 |
|
|
240 |
JPS5939742B2 - |
JP11990075 |
1975-10-03 |
JPS5939742B2 |
1984-09-26 |
SUGIURA SUSUMU; TOMOSADA MASAHIRO; TACHIKA TETSUJI |
|