Patent application number | Description | Published |
20090137048 | AUTOMATIC ANALYZER AND ANALYSIS METHOD FOR USE IN THE SAME - An automatic analyzer having a high processing capability even when plural kinds of reagents are dispensed at different timings. The automatic analyzer comprises a plurality of reaction cells, a reaction cell moving unit for moving the plurality of reaction cells at a certain cycle; a sample dispensing unit for dispensing a sample into a reaction cell on the reaction cell moving unit, a reagent dispensing unit for dispensing plural kinds of reagents to be added during a sample—reagent reaction process at different timings, the number of the reagent addition timings being larger than the number of times at which the reagents can be dispensed within a time of one cycle, and a control unit for controlling the sample dispensing unit to set a cycle in which no sample is dispensed by the sample dispensing unit, when analyses each using the reagent to be dispensed at the latest one of the reagent addition timings by the reagent dispensing unit succeed a predetermined number of times or more. | 05-28-2009 |
20110014085 | SAMPLE DISPENSING APPARATUS AND AUTOMATIC ANALYZER INCLUDING THE SAME - The invention provides a small-sized automatic analyzer being compact, enabling a large number of analysis items to be carried out, and having a high processing speed. The automatic analyzer is particularly suitably applied to a medical analyzer used for qualitative/quantitative analysis of living body samples, such as urine and blood. A plurality of sample dispensing mechanism s capable of being operated independently of each other are provided to suck a sample from any one of a plurality of sample suction positions and to discharge the sucked sample to any one of a plurality of positions on a reaction disk. The automatic analyzer having a high processing capability can be thus realized without increasing the system size. | 01-20-2011 |
20110110822 | SAMPLE ANALYSIS DEVICE - Using an LED element as a light source, a photometric unit including the light source, a light receiving element and other components therebetween is reduced in size. A holder | 05-12-2011 |
20110223066 | AUTOMATIC ANALYSIS DEVICE - There is provided a high-accuracy automatic analysis device achieving both of measurement in a wide concentration range and high sensitivity at a low concentration. The signals of a plurality of wavelengths λ | 09-15-2011 |
20110255090 | PHOTOMETER AND ANALYZING SYSTEM PROVIDED WITH PHOTOMETER - In an analysis system for detecting amounts of components contained in samples, many samples can be measured simultaneously in the whole of the system by use of compact inexpensive photometers. An LED with low heat generation and a long life span is used as a light source. Compactness is achieved by bended optical axis instead of a straight one. Components for bending an optical axis and components for condensing light to ensure an amount of light are in common use to reduce the number of components. Compactness, reduction of the number of components, and integration achieve easy optical axis alignment and precise measurement. | 10-20-2011 |
20120070343 | AUTOMATIC ANALYZER - An automatic analyzer includes a plurality of reagent disks having reagent containers thereon, a reaction disk having a plurality of reaction cuvettes and a plurality of reagent dispensing probes arranged on each of the reagent disks. Each of the dispensing probes includes a first arm rotatable about a first rotary shaft and a second arm rotatable about a second rotary shaft arranged on the first arm with the arms being rotatable independently of each other. A mechanism analyzes reactions of the reagents and samples in the cuvettes. | 03-22-2012 |
20120141330 | AUTOMATIC ANALYZER - To be adapted to various types of latex reagents for detecting scattered light and thereby measuring agglutination reactions with high sensitivity while sufficiently ensuring integration time. To be adapted to various types of latex particles of different particle sizes, a plurality of light receivers are arranged in a plane perpendicular to the direction of cell movement by rotation of a cell disk. To ensure sufficient integration time, the angle between the optical axis of the irradiation light and each of a plurality of optical axes of scattered light viewed from above the cell is made equal to or less than 17.7° including a mounting error. | 06-07-2012 |
20120156098 | DISPENSING DEVICE AND ANALYZER - Provided are a dispensing device and an analyzer capable of improving dispensing accuracy as well as improving jamming detection accuracy by realizing a short distance between a syringe and a suction tip. The dispensing device | 06-21-2012 |
20120156801 | AUTOMATIC ANALYZER AND ANALYSIS METHOD FOR USE IN THE SAME - An automatic analyzer performs for plural kinds of reagents dispensed at different timings. The automatic analyzer includes a plurality of reaction cells, a reaction cell moving unit for moving the plurality of reaction cells at a certain cycle; a sample dispensing unit for dispensing a sample into a reaction cell and a reagent dispensing unit for dispensing reagents to be added during a sample-reagent reaction process at different timings. | 06-21-2012 |
20120230873 | SAMPLE DISPENSING APPARATUS AND AUTOMATIC ANALYZER INCLUDING THE SAME - The invention provides a small-sized automatic analyzer being compact, enabling a large number of analysis items to be carried out, and having a high processing speed. The automatic analyzer is particularly suitably applied to a medical analyzer used for qualitative/quantitative analysis of living body samples, such as urine and blood. A plurality of sample dispensing mechanism s capable of being operated independently of each other are provided to suck a sample from any one of a plurality of sample suction positions and to discharge the sucked sample to any one of a plurality of positions on a reaction disk. The automatic analyzer having a high processing capability can be thus realized without increasing the system size. | 09-13-2012 |
20120258012 | AUTOMATIC ANALYZER - An automatic analyzer according to the present invention is compact, mounting great number of reagents, having high processing ability. Reagent disks are arranged at inside and outside of a reaction disk. A reagent probe can inject a reagent into the position which is common position of both reagent disks. One of plural reagent probes approaches to one of reagent disks at one cycle. Plural reagent probes alternatively approach to the reagent disk. Therefore, the first reagents and the second reagents can be placed on both reagent disks. The mounting number of reagents can be increased without enlarging an analyzer. The cycle time can be shortened to make an automatic analyzer to have high processing ability. | 10-11-2012 |
20130064737 | AUTOMATIC ANALYZER - Disclosed is an automatic analyzer designed so that when it discharges a sample into an empty reaction vessel, the analyzer dispenses the sample without bringing a distal end of a sample probe into contact with a bottom surface of the reaction vessel and can thereby dispense the sample with stable dispensing accuracy in addition to extending lives of the sample probe and the reaction vessel. | 03-14-2013 |
20130121880 | AUTOMATIC ANALYZER - Dispensing failure occurs when air-sucking or clogging is caused at the time of sucking sample or reagent by using a dispensing probe. An automatic analyzer is equipped with a dispensing mechanism ( | 05-16-2013 |
20130259745 | AUTOMATIC ANALYZER - The occurrence of splash of a sample or a reagent from a nozzle tip is prevented during shifting of a dispensing mechanism. An automatic analyzer includes a nozzle for sucking liquid to be dispensed; a pump for allowing suction of the liquid into the nozzle and generating pressure variations; a pipe line connecting the nozzle with the pump; and a shifting mechanism for shifting the nozzle in horizontal and vertical directions. In the automatic analyzer, the pipe line is at least partially composed of a flexible tube. The flexible tube has an upward or downward convex bending portion in the middle thereof. The convex bending portion changes in position and shifts along with the shifting mechanism at a nozzle side. If the nozzle is shifted horizontally, a value obtained by subtracting a vertical distance between the top of a convex portion of the flexible tube and the uppermost portion of the nozzle from a vertical distance between the tip portion of the nozzle and the uppermost portion of the nozzle is a value ranging from −30 mm to 130 mm. | 10-03-2013 |
20130287629 | AUTOMATIC ANALYZER - An automatic analyzer according to the present invention is compact, mounting great number of reagents, having high processing ability. Reagent disks are arranged at inside and outside of a reaction disk. A reagent probe can inject a reagent into the position which is common position of both reagent disks. One of plural reagent probes approaches to one of reagent disks at one cycle. Plural reagent probes alternatively approach to the reagent disk. Therefore, the first reagents and the second reagents can be placed on both reagent disks. The mounting number of reagents can be increased without enlarging an analyzer. The cycle time can be shortened to make an automatic analyzer to have high processing ability. | 10-31-2013 |
20140170022 | SAMPLE DISPENSING APPARATUS AND AUTOMATIC ANALYZER INCLUDING THE SAME - The invention provides a small-sized automatic analyzer being compact, enabling a large number of analysis items to be carried out, and having a high processing speed. The automatic analyzer is particularly suitably applied to a medical analyzer used for qualitative/quantitative analysis of living body samples, such as urine and blood. A plurality of sample dispensing mechanism s capable of being operated independently of each other are provided to suck a sample from any one of a plurality of sample suction positions and to discharge the sucked sample to any one of a plurality of positions on a reaction disk. The automatic analyzer having a high processing capability can be thus realized without increasing the system size. | 06-19-2014 |
20140377853 | AUTOMATIC ANALYZER - To be adapted to various types of latex reagents for detecting scattered light and thereby measuring agglutination reactions with high sensitivity while sufficiently ensuring integration time. To be adapted to various types of latex particles of different particle sizes, a plurality of light receivers are arranged in a plane perpendicular to the direction of cell movement by rotation of a cell disk. To ensure sufficient integration time, the angle between the optical axis of the irradiation light and each of a plurality of optical axes of scattered light viewed from above the cell is made equal to or less than 17.7° including a mounting error. | 12-25-2014 |