161 |
JPS5922971U - |
JP11680082 |
1982-07-31 |
JPS5922971U |
1984-02-13 |
|
|
162 |
Operating method of system controller |
JP11755282 |
1982-07-05 |
JPS598027A |
1984-01-17 |
NAKAGAWA YUKIO; MINO MINEO |
PURPOSE:To simplify the constitution and to improve the operability of a system controller circuit, by performing ON/OFF of the system power supply as well as stopping operation of the system with just a single switch. CONSTITUTION:Just a single switch S turns on and off the power supply of a system and also stops the system operation. A switch input (b) obtained when the power supply is off is used to an instruction to turn on the power supply and to stop the initial value of the system operation. At the same time, the input (b) obtained when a system controller controls operations other than that of a stop state is used for an instruction to stop the system operation. Furthermore the input (b) obtained in a stop state of system is used for an instruction to turn off the power supply. In such a way, just a single switch S can perform both ON/OFF operation of the system power supply and stop operation of the system. |
163 |
Recovering method of solid matter |
JP3149982 |
1982-02-27 |
JPS58149518A |
1983-09-05 |
INOUE TAKESHI; YAMAMOTO AKIO |
PURPOSE:To improve the efficiency of recovery and reduce the labor for the flow controlling work, by using an oscillatory type density meter to obtain the concentration of a slurry and connecting a tank and a recovering line selectively when solid matters are recovered from a solid-liquid mixture such as a slurry. CONSTITUTION:The slurry is introduced from a tank 6 for slurry concentration to a flow passage 62 provided with an oscillatory type density meter 63, and the density of the slurry is detected, and the concentration of the slurry is calculated on a basis of this detected density and the relation between a preliminarily determined density and a concentration. It is discriminated whether this calculated concentration exceeds a prescribed value or not to connect the slurry to a circulating line 64 to a tank 6 and a recovering line 65 selectively. |
164 |
JPS58120855U - |
JP1801582 |
1982-02-09 |
JPS58120855U |
1983-08-17 |
|
|
165 |
JPS5820835U - |
JP11551181 |
1981-08-03 |
JPS5820835U |
1983-02-08 |
|
|
166 |
JPS5814954U - |
JP10857081 |
1981-07-23 |
JPS5814954U |
1983-01-29 |
|
|
167 |
JPS5357886U - |
JP13764676 |
1976-10-15 |
JPS5357886U |
1978-05-17 |
|
|
168 |
JPS5242320Y2 - |
JP10969472 |
1972-09-21 |
JPS5242320Y2 |
1977-09-26 |
|
|
169 |
JPS5213010Y2 - |
JP437473 |
1972-12-19 |
JPS5213010Y2 |
1977-03-23 |
|
|
170 |
JPS5078271U - |
JP13314773 |
1973-11-17 |
JPS5078271U |
1975-07-07 |
|
|
171 |
JPS4966480U - |
JP10969472 |
1972-09-21 |
JPS4966480U |
1974-06-11 |
|
|
172 |
JPS496974A - |
JP9099972 |
1972-09-12 |
JPS496974A |
1974-01-22 |
|
|
173 |
SYSTEM AND METHOD FOR THE MEASUREMENTS OF VISOELASTIC PARAMETERS IN SOFT MATERIALS |
EP14839728.4 |
2014-08-27 |
EP3039400B1 |
2021-10-06 |
HADJ HENNI, Anis Redha; SCHMITT, Cédric René |
There is provided a system and method for the measurements of viscoelastic properties of a soft sample in which the system incorporates a sample holder that has a membrane with a flexural rigidity that is less than the flexural rigidity of the main body and allowing vibration of the membrane-sample vibration unit in response to a vibration excitation to create resonance vibration modes that are detected to derive the viscoelastic properties. |
174 |
SYSTEM AND METHOD FOR THE MEASUREMENTS OF VISOELASTIC PARAMETERS IN SOFT MATERIALS |
EP14839728.4 |
2014-08-27 |
EP3039400A1 |
2016-07-06 |
HADJ HENNI, Anis Redha; SCHMITT, Cédric René |
There is provided a system and method for the measurements of viscoelastic properties of a soft sample in which the system incorporates a sample holder that has a membrane with a flexural rigidity that is less than the flexural rigidity of the main body and allowing vibration of the membrane-sample vibration unit in response to a vibration excitation to create resonance vibration modes that are detected to derive the viscoelastic properties. |
175 |
VISCOSITY REDUCTION |
EP09802273 |
2009-07-29 |
EP2334424A4 |
2013-04-10 |
BATES DARREN M; BAGNALL WARWICK |
|
176 |
SYSTEM AND METHOD FOR CONTROLLING VISCOSITY OF A FLUID AND A WORKING VEHICLE CONTAINING SUCH A SYSTEM |
EP04724476.9 |
2004-03-30 |
EP1616105B1 |
2012-09-12 |
VIGHOLM, Bo; STRANDBERG, Lennart |
|
177 |
VISCOSITY REDUCTION |
EP09802273.4 |
2009-07-29 |
EP2334424A1 |
2011-06-22 |
BATES, Darren, M.; BAGNALL, Warwick |
The present invention relates to a method for reducing the viscosity of a product by applying highly propagating ultrasonic energy to said product, the method comprising contacting at least a portion of said product with an highly propagating ultrasonic energy emitting assembly; and emitting highly propagating ultrasonic energy from the assembly into the product thereby reducing the viscosity of the product. |
178 |
FLUID FLOW CONTROL DEVICE |
EP04737483 |
2004-06-29 |
EP1644657A4 |
2010-06-09 |
HARMAN JAYDEN DAVID |
|
179 |
A METHOD AND APPARATUS FOR FUZZY LOGIC CONTROL ENHANCING ADVANCED PROCESS CONTROL PERFORMANCE |
EP07754854.3 |
2007-04-03 |
EP2019977A1 |
2009-02-04 |
LEE, Shu-Yee; GARRETT-BENNETT, Nicole; BOND, Darrell, G. |
An apparatus and method for enhancing advanced process control (APC) performance based on fuzzy logic control (FLC) concept and methodology is described. The method and apparatus provide a systematic way to characterize/assess process operations (encompassing the manufacturing process, laboratory measurement systems, and control practices/results) automatically and then determine the best APC model update and feedback control strategies dynamically to cope with various control problems commonly observed in the polymer industry. Since the method is able to reach a single definite control output signal based upon vague, ambiguous, or imprecise input information, control issues that are difficult to quantify or model mathematically can now be addressed effectively and included as part of the APC control strategy. With the method, polymer manufactures can better use their existing off-line laboratory results for on-line APC controllers without resorting to costly on-line property measurements or inferential sensors. |
180 |
FLUID FLOW CONTROL DEVICE |
EP04737483.0 |
2004-06-29 |
EP1644657A1 |
2006-04-12 |
HARMAN, Jayden, David |
A flow controller (11) adapted to control a flow of fluid within the flow controller (11), the flow controller (11) having a flow path adapted to convey said fluid, wherein the cross-sectional area of the flow path varies along the flow path and wherein in at least a portion of its length the flow controller (11) comprises an active surface (25) capable of influencing the fluid flow through the flow path to cause vortical motion of the fluid within the fluid pathway. |