121 |
Apparatus and method for monitoring a technical facility comprising multiple systems, in particular power plant, |
JP2004542258 |
2003-07-04 |
JP2006500694A |
2006-01-05 |
アッペル、ミルコ; ゲルク、ウヴェ; フィック、ヴォルフガング |
技術的設備(2)を監視するための本発明による方法および相応の装置(1)において、技術的設備(2)の少なくとも1つのシステム(3、5、7、9、11)の動的モデル(15)がシステム(3、5、7、9、11)の作動中に人工知能ベースのアルゴリズム(21、21a、21b)を用いて改善される。 |
122 |
Reference voltage generation circuit and comparator provided with the circuit |
JP22664497 |
1997-08-22 |
JPH10187259A |
1998-07-14 |
IRU-SUKU YAN |
PROBLEM TO BE SOLVED: To provide a reference voltage generation circuit capable of generation fixed reference voltage by using the periodical output of a chaotic circuit and allowed to be applied to a comparator and a Schmitt trigger and a comparator utilizing the reference voltage generation circuit.
SOLUTION: The reference voltage generation circuit 1 is provided with a 1st sample-and-holdunit 10 for sampling and/holding a periodical output V3 by a 2nd clock signal CLK2, a 2nd sample-and-holdunit 20 for sampling and holding an output signal V3' from the sample-and-holdunit 10 by a 1st clock signal CLK1, a non-linearizing part 30 for inputting an output signal V4 from the 2nd sample-and-holdunit 20 and outputting a non-linearized signal V2 having a zigzag transmission characteristic, and an addition part 40 for adding the signal V2 to an external signal V1 and outputting the periodical output V3 as a reference voltage signal. The comparactor uses an output from the reference voltage generation circuit as reference voltage.
COPYRIGHT: (C)1998,JPO |
123 |
Wind-up doll |
JP5999988 |
1988-05-06 |
JPH0639760Y2 |
1994-10-19 |
弘美 森藤 |
|
124 |
Burnisher for magnetic disk |
JP10259092 |
1992-04-22 |
JPH0696571A |
1994-04-08 |
BOUNO KATSUMI |
PURPOSE:To prevent damage of a spindle magnetic seal and to efficiently remove dusts in air cleaning for removing the dusts when a magnetic disk is burnished in a case. CONSTITUTION:When a magnetic disk 1 is burnished by a casing 7, a magnetic disk case 3 is sealed with a chamber a5. A differential pressure of a spindle magnetic seal 4 is detected by a differential pressure detector 12, a supply blower a9 and an exhaust blower 11 are so controlled by a blower controller 13 as not to exceed a predetermined differential pressure, thereby removing dusts in the case 3 by forcibly supplying and discharging the air. |
125 |
Compound function controller for proportional mixture or the like |
JP7205591 |
1991-03-13 |
JPH04283808A |
1992-10-08 |
HOSOKAWA YOSHIO; KAJIYAMA HIROYUKI |
PURPOSE: To store a proportional mixing mechanism, a quantitative injecting mechanism, and a flow rate control mechanism properly and compactly in a casing with common components, to manufacture the controller at low cost, and to enable the proportional mixture, quantitative injection, and accurate flow rate control.
CONSTITUTION: The respective proportional mixing mechanism 9, quantitative injecting mechanism 10, and flow rate control mechanism 11 are properly stored in the casing 1. A controller 5 is provided on the top surface of the casing 1 and the screw hole 4 of the opening part 2 of the casing 1 and the screw hole 6 which is provided at the same distance W with holes at the four corners of the controller 5 are fixed through a bolt 7. A control board 12 which controls the respective proportional injecting mechanism 9, quantitative injecting mechanism 10, and flow rate control mechanism 11 is incorporated in the control box 8 of the controller 5.
COPYRIGHT: (C)1992,JPO&Japio |
126 |
Mass flow rate controller |
JP30718889 |
1989-11-27 |
JPH03166611A |
1991-07-18 |
KANO TSUNEO |
PURPOSE: To constitute the controller so that abnormality of a flow rate control valve caused by adhesion of particles, etc., can be known quickly by outputting an alarm signal in the case a difference of outputs from two pieces of mass flow rate sensors provided on a passage of a fluid to be controlled goes off from a prescribed range.
CONSTITUTION: When particles, etc., in a fluie adhere to the inside of a passage of a mass flow rate sensor 1 for controlling a flow rate or the inside of a bypass tube 6, and the flow separation balance in an inlet part of the sensor 1 is varied, a difference is generated between a flow rate value shown by the sensor 1 and a flow rate value of a fluid supplied actually from a mass flow rate controller. In this case, a difference between an output signal 11 of the sensor 1 and an output signal 14 of a mass flow rate sensor 2 for comparison exceeds a prescribed range from a regular state and varied, therefore, this variation is detected by a comparing circuit 5, and from the comparing circuit 5, an alarm signal 15 is outputted. In such a way, a worker, etc., can know quickly abnormality of the mass flow rate controller.
COPYRIGHT: (C)1991,JPO&Japio |
127 |
JPH01161800U - |
JP5999988 |
1988-05-06 |
JPH01161800U |
1989-11-10 |
|
|
128 |
JPS585211Y2 - |
JP3225276 |
1976-03-19 |
JPS585211Y2 |
1983-01-28 |
|
|
129 |
JPS582363B2 - |
JP10085975 |
1975-08-19 |
JPS582363B2 |
1983-01-17 |
OKAMOTO MITSUHISA |
|
130 |
JPS582362B2 - |
JP10085875 |
1975-08-19 |
JPS582362B2 |
1983-01-17 |
OKAMOTO MITSUHISA; HAYASHIDA HIROSHI |
|
131 |
JPS5778402U - |
JP15436180 |
1980-10-29 |
JPS5778402U |
1982-05-14 |
|
|
132 |
JPS5716089Y2 - |
JP16368177 |
1977-12-05 |
JPS5716089Y2 |
1982-04-05 |
|
|
133 |
JPS5728320U - |
JP10376180 |
1980-07-22 |
JPS5728320U |
1982-02-15 |
|
|
134 |
JPS569722B2 - |
JP15995277 |
1977-12-27 |
JPS569722B2 |
1981-03-03 |
|
|
135 |
Electric ally-driven operation setter |
JP11141478 |
1978-09-11 |
JPS5537960A |
1980-03-17 |
KAGAYA KOUICHI |
PURPOSE: To simplify additional equipment to a rotation angle detector and also to miniaturize the unit on the whole by forming a gear part, engaging with the driving gear of the rotation angle detector which detects the rotation angle of a setter, on the outer circumference of a manual operation part.
CONSTITUTION: Shaft 11 of electric motor 2 is integrally connected to sliding input shaft 13 of setter 12 and transmission shaft 9 via cylindrical connectors 10 and 14. Transmission shaft 9 has column-shaped manual operation member 8 and limit switch mechanism 7. Manual operation member 8 consists of discoid part 8 and truncate cone part 8, has gear 20 at its outer circumference and is provided with scale 21. As for the set value of the setter, sliding input shaft 13 is turned by electric motor 2 and it is changed according to the rotation angle. Manual operation is performed by turning the manual operation member making use of gear 20. Through the drive of operating motor 2, selsyn motor 6 is also rotated to generate a signal in proportion to the rotation angle of sliding input shaft 13, so that the change state of the set value can remotely be confirmed.
COPYRIGHT: (C)1980,JPO&Japio |
136 |
JPS5439467Y2 - |
JP4825674 |
1974-04-30 |
JPS5439467Y2 |
1979-11-21 |
|
|
137 |
JPS5423228Y2 - |
JP2045373 |
1973-02-15 |
JPS5423228Y2 |
1979-08-10 |
|
|
138 |
Data switching input equipment |
JP14388677 |
1977-12-02 |
JPS5477042A |
1979-06-20 |
MORITA KENICHI |
PURPOSE: To store input data in a main memory unit according to desired sorting by equipping a data switching input equipment with an address conversion table.
CONSTITUTION: Address signals 31 to 3N, data signals 41 to 4N, and ready signals 51 to 5N transmitted from cyclic digital transfer devices (CTD) 11 to 1N are inputted to data switching input equipment 6. Here, they are processed by microprocessor 7 to read out address of corresponding address conversion tables 81 to 8N. This address is transmitted as address signal 9 of main memory unit 21 to computer 2 together with data signal 10 and on the basis of this address signal 9, data signal 10 is stored in main memory unit 21. Therefore, input data can be sorted by kinds and stored in the memory unit by operating the address of the address conversion table.
COPYRIGHT: (C)1979,JPO&Japio |
139 |
JPS5410293Y2 - |
JP14218074 |
1974-11-21 |
JPS5410293Y2 |
1979-05-12 |
|
|
140 |
JPS5339975Y2 - |
JP6599475 |
1975-05-19 |
JPS5339975Y2 |
1978-09-27 |
|
|