41 |
Reception and payment device for coin rod |
JP5861194 |
1994-03-29 |
JPH07272048A |
1995-10-20 |
YOKOYAMA KIMINORI; TAKEDA HAJIME |
PURPOSE: To provide the reception and payment device for coin rods which has a receiving function and a paying function for coin rods and enables received coin rods to be reused as paid coin rods.
CONSTITUTION: Plural trays 22 which each have a coin rod entrance exit on one end side are provided vertically in stages, and a coin rod receiving and passing unit 12 which is mounted with a hopper 14, a separate taking-out mechanism 62, a inspecting mechanism 64, a coin rod carrying-out mechanism 66, and a coin rod carrying-in mechanism 68 and passes and receives coin rods to and from the trays 22 is made movable in the stack direction of the tray 22... facing the coin rod entrance exit and a money reception and payment opening, thereby performing money receiving and paying operation. Further, a 1st cam member 92 and a 2nd cam member 94 for stack breaking which push up coin rods in a hopper 14 are provided and moved after a coin rod is separated and taken out of the hopper 14 to push up coin rods and break the bridge phenomenon due to a balanced state, thereby securely preventing a defect in taking a coin rod out of the hopper 14 due to the bridge phenomenon.
COPYRIGHT: (C)1995,JPO |
42 |
Numerical analysis method |
JP34794492 |
1992-12-28 |
JPH06202750A |
1994-07-22 |
WATANABE MASATOSHI; IKEGAWA MASAHIRO |
PURPOSE: To shorten calculation time and to reduce a storage capacity by dividing the whole of an area into areas and reducing the dimensions to analyze the areas in the case of areas which can be approximated to lower dimensions.
CONSTITUTION: With respect to formation of a compression wave due to, for example, plunge of a vehicle into a tunnel, its propagation, and analysis of its discharge to a tunnel exit shell, an area 31 is an entrance area until the vehicle plunges into a tunnel, and an area 32 in an area around the vehicle. The compression wave is generated when the vehicle included in the area 32 plunges into the tunnel. The compression wave is generated three-dimensionally; and when the vehicle velocity is smaller than the acoustic velocity, the compression wave proceeds in the tunnel more quickly than the vehicle because the compression wave proceeds forward at the acoustic velocity. Since the compression wave proceeding in the tunnel can be approximated as a one-dimensional phenomenon, a tunnel area 33 can be subjected to one-dimensional analysis. As the result, the storage capacity is made smaller and the calculation time is reduced in comparison with those for three-dimensional analysis of all of areas.
COPYRIGHT: (C)1994,JPO&Japio |
43 |
Equipment controller of the plant control device |
JP22356385 |
1985-10-09 |
JPH0637845B2 |
1994-05-18 |
敦 滝田; 彰 菅野 |
|
44 |
Automatic control device for power generating plant |
JP22356385 |
1985-10-09 |
JPS6285104A |
1987-04-18 |
TAKITA ATSUSHI; SUGANO AKIRA |
PURPOSE: To improve reliability in case of failures by providing a drive control module, which can be operated separately from a control system which is in one to one correspondence with an apparatus as the minimum constituent unit of a plant, in a system apparatus unit separating control system of a power generating plant.
CONSTITUTION: A power generating plant 152 is composed of the plural number of systems 151 (151aW151n), and each system 151 includes the plural number of apparatus groups 150 (15aW15n) which is composed of the plural number of apparatuses 11 (11aW11n) to be controlled. And a DCM (drive control module) which is capable of backing up the input/output required to control a corresponding apparatus by a single piece of a printed circuit card, is provided to each apparatus 11 in the above said power generating plant in a manner of one to one correspondence for forming each of apparatus group controllers 156 (156aW156n) which corresponds to each of apparatus groups 150. And each DCM contains a manual back-up circuit so as to allow the other apparatus 11 to be automatically controlled as it is even if the DCM in discussion is out of order.
COPYRIGHT: (C)1987,JPO&Japio |
45 |
JPS5920150B2 - |
JP2564878 |
1978-03-07 |
JPS5920150B2 |
1984-05-11 |
NISHIHARA TADASHI |
|
46 |
Air type operator for extraction of square root |
JP2576081 |
1981-02-23 |
JPS57139801A |
1982-08-30 |
KASAMA YASUO |
PURPOSE:To drop out by a desired input, by transferring the displacement of a feedback bellows to a flapper through a bellows displacement transferring means of an elastic material. CONSTITUTION:In the aixal center position in a feedback bellows 22, a stopper pin 26 is set to a fixed plate 25 to which a fixed end of the bellows has been installed. Accordingly, a space between the tip of the bellows 22 and the fixed plate 25 does not become a constant value or below since it is limited by the stopper pin 26. On the contact part of a flapper 17 and the bellows 22, a tongue 29 is formed by a U-cut groove 28, and with this tongue 29, the tip of the feedback bellows 22 contact. That is, displacement of the tip of the bellows 22 is transferred to the flapper 17 through the elastic tongue 29. |
47 |
JPS5561717U - |
JP14342478 |
1978-10-20 |
JPS5561717U |
1980-04-26 |
|
|
48 |
Extracting operator |
JP5384377 |
1977-05-11 |
JPS53138798A |
1978-12-04 |
HARADA KINJI; ANDOU MOTOYOSHI |
PURPOSE: To increase the calculation accuracy as well as to reduce the measurement of the operator by providing the balanced beam containing the first arm lever which rotates co centering on the axle fulcrum and the second arm lever which is combined to the first arm lever which is combined to the first arm lever and whose other end is displaced on the reference line passing through the fulcrum and then performing a specified operation based on the angle which is formed by the both levers and the reference line plus the displaced position at the end part of the balanced beam.
COPYRIGHT: (C)1978,JPO&Japio |
49 |
JPS5248315Y2 - |
JP3614372 |
1972-03-29 |
JPS5248315Y2 |
1977-11-02 |
|
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50 |
JPS5245267Y2 - |
JP14469572 |
1972-12-16 |
JPS5245267Y2 |
1977-10-14 |
|
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51 |
Bainarikaunta |
JP12679275 |
1975-10-21 |
JPS5169770A |
1976-06-16 |
ITO JINICHI |
|
52 |
JPS5120798Y1 - |
JP3667075 |
1975-03-20 |
JPS5120798Y1 |
1976-05-29 |
|
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53 |
JPS5114238B1 - |
JP2141870 |
1970-03-13 |
JPS5114238B1 |
1976-05-07 |
|
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54 |
JPS51837B1 - |
JP4462169 |
1969-06-09 |
JPS51837B1 |
1976-01-10 |
|
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55 |
JPS50134332U - |
JP4547774 |
1974-04-19 |
JPS50134332U |
1975-11-05 |
|
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56 |
JPS5028786B1 - |
JP1543068 |
1968-03-11 |
JPS5028786B1 |
1975-09-18 |
|
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57 |
JPS50118766A - |
JP1840175 |
1975-02-13 |
JPS50118766A |
1975-09-17 |
|
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58 |
JPS5018789B1 - |
JP5938269 |
1969-07-29 |
JPS5018789B1 |
1975-07-02 |
|
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59 |
JPS503514U - |
JP5188773 |
1973-05-04 |
JPS503514U |
1975-01-14 |
|
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60 |
JPS4941714B1 - |
JP8335868 |
1968-11-15 |
JPS4941714B1 |
1974-11-11 |
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