Patent application number | Description | Published |
20090039577 | Active vibration isolating support apparatus and method for controlling the same - A method includes the steps of: detecting “starter ON” by IG-SW signal (step S | 02-12-2009 |
20090045560 | Engine natural vibration frequency detection method, active vibration isolation support device control method, engine natural vibration frequency detection apparatus, active vibration isolation support device control apparatus, active vibration isolation support device, and vibration frequency detection apparatus for vibrating body - The natural vibration frequency of a roll resonance which does not occur since the engine rotation number is high in a normal operation range of an engine is detected at the time of engine start or stop when the engine rotation number is lower than the normal operation range, and thus the natural vibration frequency of the roil resonance can be detected with a good accuracy. A current is generated by an electromotive force of an actuator of the active vibration isolation support device excited by the engine immediately before stopping its rotation, and the frequency of the current is used to detect the natural vibration frequency of the engine, and the roll resonance of the engine is suppressed by controlling the operation of the active vibration isolation support device at the time of engine start based on the natural vibration frequency, thereby not only eliminating the need of a specific frequency detection sensor, but also effectively reducing the vibration at the time of engine start when the roll resonance becomes strong. | 02-19-2009 |
20100175244 | BOBBINLESS COIL AND METHOD OF MANUFACTURING THE SAME - A pair of disk-shaped guide members abut on opposite end surfaces in the axial direction of a conductor wire wound round into a coil shape by using a separable jig. The guide members are biased toward each other by engaging a part of the conductor wire with engaging portions formed at circumferences of the pair of guide members. Then, the jig is separated from the center of the conductor wire, thereby maintaining the coiled shape of the conductor wire to create a bobbinless coil having an exposed inner peripheral surface. In addition, the pair of disk-shaped guide members are biased toward each other by utilizing a part of the conductor wire, and therefore a special biasing member is not needed. | 07-15-2010 |
20100244341 | ACTIVE VIBRATION ISOLATING SUPPORT APPARATUS - In a so-called motoring state at the time of engine starting before actuating engine, there is a problem that a roll vibration, which is generated when an engine revolution speed Ne is at a predetermined engine revolution speed and vibrates the engine and the vehicle body largely, can not be suppressed. For this reason, the present invention provides an active vibration isolating support apparatus in which the roll vibration can be suppressed in the motoring state at the time of engine starting. | 09-30-2010 |
20100250104 | ACTIVE VIBRATION ISOLATING SUPPORT APPARATUS AND METHOD FOR CONTROLLING THE SAME - When a revolution speed of the engine (crankshaft) changes faster or slower, the vibration from the engine is propagated to an occupant in the vehicle, and the occupant may feel a sense of discomfort. For this reason, the present invention provides an active vibration isolating support apparatus and method for controlling the same to suppress the propagation of the vibration from the engine to the vehicle body so that the occupant may feel less sense of discomfort even if the revolution speed of the engine changes. | 09-30-2010 |
20120013057 | ACTIVE VIBRATION DAMPING SUPPORT DEVICE - A solenoid driving device with excellent electric power efficiency which drives and controls an actuator including a solenoid and an active vibration damping support device with excellent electric power efficiency which includes the solenoid driving device are disclosed. The solenoid driving device includes a booster circuit | 01-19-2012 |
Patent application number | Description | Published |
20080214783 | Method of Synthesizing Protein, mRna Immobilized on Solid Phase and Apparatus for Synthesizing Protein - The present invention provides a protein synthesis method for efficiently synthesizing a desired protein so that it is properly folded so as to demonstrate a function thereof, the method comprising contacting a translation system with a solid phase-immobilized mRNA in which mRNA encoding that protein is immobilized on a solid phase, a protein synthesis apparatus for the method or the like. The protein synthesis method, protein synthesis apparatus or the like of the present invention are useful for, for example, large-volume synthesis of useful proteins. | 09-04-2008 |
20080312103 | Linker For Constructing Mrna-Puromycin-Protein Conjugate - The present invention provides a linker preferably used when constructing an mRNA/cDNA-puromycin-protein conjugate used in an in vitro virus method, and an mRNA/cDNA-puromycin-protein conjugate constructed using that linker. More specifically, the present invention provides a linker for ligating mRNA and puromycin or a puromycin-like compound to construct an mRNA/cDNA-puromycin-protein conjugate, the linker comprising a single-stranded RNA as a main backbone, and having, in this main backbone, a solid phase binding site for binding an mRNA-puromycin-protein conjugate to a solid phase site, and a pair of cleavage sites provided at locations surrounding the solid phase binding site; an mRNA-puromycin-protein conjugate constructed using this linker; an mRNA bead or an mRNA chip comprising this conjugate; a protein chip produced from this mRNA chip; and a diagnostic kit using the mRNA bead or the mRNA chip. | 12-18-2008 |
20150031564 | LIGAND HAVING THREE FINGER STRUCTURE AND A METHOD FOR DETECTING A MOLECULE BY USING THEREOF - The present invention improves in vitro virus synthesis efficiency and stability of mRNA derived from screened cDNA in a cDNA display method to improve the efficiency and reliability of the production of a peptide by a molecular evolutionary engineering technique. Provided is a ligand which comprises three fingers formed from antiparallel β-sheets and a loop region intercalated between the antiparallel β-sheets, wherein at least a fingertip part formed by the loop region of each of the fingers is bound to the target molecule, and wherein the ligand comprises the amino acid sequence of SEQ ID NO: 1. In the amino acid sequence of SEQ ID NO: 1, X7 represents an arbitrary amino acid residue that constitutes the fingertip part of each of the fingers, each numeric character represents the number of amino acid residues, and X7 and X4 are not composed of the same amino acid residues as each other. | 01-29-2015 |