Patent application number | Description | Published |
20130200831 | POWER SUPPLY DEVICE - A power supply device includes: an inverter that converts a DC power supplied from a battery pack into an AC power and outputs the AC power; and an adapter shapes a waveform of the AC power outputted from the inverter. | 08-08-2013 |
20130285476 | POWER SUPPLY DEVICE, INVERTER DEVICE, POWER TOOL - A power supply device includes: a battery pack; a transforming unit configured to transform a DC voltage supplied from the battery pack; and a control unit configured to determine, based on a characteristic of the battery pack, whether or not the converting unit performs an outputting operation. | 10-31-2013 |
20140015451 | POWER TOOL SYSTEM AND POWER SUPPLY DEVICE - A power tool system includes: a power tool including an AC motor; a portable battery pack; and a power supply device that converts a DC power supplied from the portable battery pack into an AC power to supply the AC power to the AC motor. | 01-16-2014 |
20140042839 | INVERTER DEVICE AND ELECTRIC POWER TOOL - An inverter device includes: an inverter circuit configured to perform ON/OFF operations with a preset duty cycle to convert a DC power into an AC power and output the AC power to an AC motor; and a controller configured to change a duty cycle of the ON/OFF operations. | 02-13-2014 |
20140153171 | Power Supply Device - A power supply device includes a main body, a cover member, a rechargeable battery, and an inverter device. The main body is configured of box-shape formed with an opening. The cover member is configured to open and close the opening. The rechargeable battery is accommodated in the main body. The inverter device is configured to be accommodated in the main body. The inverter device converts a direct voltage from the battery to an alternating voltage and outputs the alternating voltage. | 06-05-2014 |
20150188332 | Backpack-Type Power Supply - A rechargeable system includes: a charger ( | 07-02-2015 |
Patent application number | Description | Published |
20130157287 | BIOLOGICAL SUBSTANCE DETECTION METHOD - A biological substance detection method for detecting a biological substance specifically in a pathological specimen, comprising a step of immunologically staining the pathological specimen using a fluorescent label, a step of staining the pathological specimen with a staining reagent for morphology observation purposes (eosin) to observe the morphology of the pathological specimen, a step of irradiating the stained pathological specimen, with excited light to cause the emission of a fluorescent and detecting the biological substance in the pathological specimen. In the step of immunologically staining the pathological specimen, a special fluorescent particle for which the excitation wavelength appears in a region that is different from the excitation wavelength region of eosin is used as the fluorescent label. | 06-20-2013 |
20130157895 | TISSUE STAINING METHOD, TISSUE EVALUATION METHOD AND BIOSUBSTANCE DETECTION METHOD - A tissue staining method which comprises: staining a tissue with a staining reagent wherein a biosubstance recognition site is bonded to particles carrying multiple fluorescent substances accumulated therein; in the stained tissue, counting fluorescent points or measuring fluorescent brightness; and evaluating the expression level of a biosubstance, which matches the biosubstance recognition site, in the aforesaid tissue on the basis of the number of the fluorescent points or fluorescent brightness that was measured. | 06-20-2013 |
20140039166 | SILICA NANOPARTICLE FOR DIAGNOSTIC IMAGING, METHOD FOR PRODUCING THE SAME, AND BIOSUBSTANCE LABELING AGENT - A silica nanoparticle for diagnostic imaging that may be capable of use for X-ray CT, fluorescent imaging, or the like, and have high emission intensity. A method for producing such a silica nanoparticle for diagnostic imaging is provided. Also, a biosubstance labeling agent using the silica nanoparticle for diagnostic imaging is provided. The silica nanoparticle for diagnostic imaging encapsulates an organic fluorescent dye and a metal complex, wherein a ligand of the metal complex form a covalent bond with constituent molecules of the silica nanoparticle. | 02-06-2014 |
20140220598 | BIOLOGICAL SUBSTANCE DETECTION METHOD - The present invention provides a biological substance detection method for specifically detecting a biological substance from a pathological specimen, by which method, when immunostaining using a fluorescent label and staining for morphological observation using a staining agent for morphological observation are simultaneously performed, the results of fluorescence observation and immunostaining can be assessed properly even if the fluorescent label and/or the staining agent is/are deteriorated by irradiation with an excitation light. The biological substance detection method according to the present invention is characterized in that the brightness retention rate of an immunostained part is in a range of 80% to 120% in relation to the brightness retention rate of apart stained for morphological observation when the fluorescent label used for the immunostaining is observed. | 08-07-2014 |
20150051101 | DETECTION METHOD FOR BIOLOGICAL SUBSTANCE - It is an object of the present invention to provide a detection method in which background noise is not increased even if a high-luminance fluorescent labeling material is used and which has an improved S/N ratio and high quantitativity and is advantageous for an immunohistological staining method. The present invention provides a detection method which is a method for detecting a specific biological substance using, as a color former, fluorescent substance-encapsulated nanoparticles to whose particle surfaces biological substance-recognizing molecules that specifically recognize a specific biological substance have been bonded, and which has an improved S/N ratio and high quantitativity and is advantageous for an immunohistological staining method because nanoparticles encapsulating no fluorescent substance are used as a blocking agent for preventing the fluorescent substance-encapsulated nanoparticles from being non-specifically adsorbed on a biological substance other than the specific biological substance. | 02-19-2015 |
20150064717 | METHOD FOR STAINING TISSUE - Provided is a method for staining a tissue enabling highly precise staining, by which the expression amount and/or the location of a biological substance in a tissue sample can be detected with a high quantitativity together with detailed information that can be obtained by bright field observation. | 03-05-2015 |
20150079611 | METHOD FOR DETECTING BIOLOGICAL MATERIAL - The present invention provides a staining method in which the fluorescent staining properties in a fluorescently-immunostained specimen are not reduced even when an oil-based mounting medium is used. The present invention also provides a method of preventing deterioration of a fluorescent label caused by irradiation with excitation light and improving the light resistance in a fluorescently-immunostained specimen obtained by the staining method. The biological substance detection method according to the present invention is a biological substance detection method for specifically detecting a biological substance from a pathological specimen, which includes the steps of: immunostaining the specimen with a fluorescent label; immobilizing the thus stained specimen; and mounting the thus immobilized specimen using a mounting medium including an organic solvent not freely miscible with water. In the biological substance detection method, the above-described mounting medium further includes a discoloration inhibitor. | 03-19-2015 |
Patent application number | Description | Published |
20130213577 | LABELING DEVICE - A labeling device comprising a guide frame, rotatably supporting a label roll formed by winding around a core a label holding band, which releasably holds a plurality of labels in series, and a peeling member which peels the printed label from the band by bending the band at an acute angle towards a slanting lower part in relation to the direction of movement of the band. The labeling device comprises a guide unit that is pivotally provided for nipping and holding a leading edge of the label holding band in front of the peeling member and is rotatable around the peeling member with the leading edge of the band so that the leading edge of the band is automatically brought to a feeding roller arranged on the slanting lower part of the peeling member in relation to the direction of the movement of the label holding band. | 08-22-2013 |
20140125797 | AUTOMATIC BLOOD-SAMPLING TUBE PREPARATION DEVICE - The present invention provides an automatic blood-sampling tube preparation device which can detect the presence of the proper or improper blood-sampling tube by selectively taking out a blood-sampling tube and transferring the blood-sampling tube to a label pasting position, printing information of the patient on a label, pasting the printed label on the blood-sampling tube positioned in the label pasting position, and collecting the label pasted blood-sampling tubes in the container for each patient. The device also includes photographing means for photographing an appearance of the blood-sampling tube taken out from the blood-sampling tube containing section and a control means arranged to have a threshold with respect to at least one characteristic information previously extracted from an appearance of a blood-sampling tube, to extract the characteristic information from the appearance image photographed to judge whether the blood-sampling tube corresponds to the instruction information from the doctor. | 05-08-2014 |
20140133941 | AUTOMATIC BLOOD-SAMPLING TUBE PREPARATION SYSTEM - The present invention provides an automatic blood-sampling tube preparation system which can reduce the reading mistake of the information of the RFID tags by selectively taking out a blood-sampling tube required to an examination of a patient according to a doctor's instruction information from the blood-sampling tube containing section, writing the patient examination information on a RFID tag of the taken out tube on the basis of the instruction information, reading simultaneously all patient examination information from all RFID tags contained in the prepared container for every patient, and comparing the information read from the RFID tags with the instruction information to ensure accuracy. | 05-15-2014 |