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1. 发明专利

JP2004073894A Calculating method for isofield contour map of biomagnetic field 审中-公开
标题翻译：生物磁场的ISOFIELD轮廓图的计算方法
公开(公告)号：JP2004073894A
公开(公告)日：2004-03-11
申请号：JP2003401004
申请日：2003-12-01
申请人： Hitachi Ltd , 株式会社日立製作所
发明人： TSUKADA KEIJI , KANDORI AKIHIKO , SASABUCHI HITOSHI , SUZUKI HIROYUKI , KONDO SHOJI , KOMIYAMA YASUAKI , OKAJIMA KENICHI
IPC分类号： A61B5/05
摘要： PROBLEM TO BE SOLVED: To provide a measuring method for a biomagnetic field, by which the vertical component B z of the biomagnetic field is measured to analyze a magnetic field source without increasing the number of detecting coils. SOLUTION: The measuring method includes, when the biomagnetic field is measured, a process to detect time changes of magnetic field components in first and second directions parallel with the living body plane of the biomagnetic field generated from a living body 2 by a plurality of SQUID (superconducting quantum interference device) flux meters placed at equal intervals in two directions, a calculating process to obtain a waveform representing time changes of values proportional to square roots of the sum of squares of magnetic field components in the first and second directions and to calculate to obtain an integral value by integrating the waveform by a prescribed period, and a process to display an isointegral map combining points with equal integral values. Since a small number of maps are used for displaying a quantitative biomagnetic fields distribution, diseases and abnormalities in individuals can be objectively and quantitatively grasped. COPYRIGHT: (C)2004,JPO
摘要翻译：要解决的问题：为了提供生物磁场的测量方法，通过该测量方法测量生物磁场的垂直分量B z 以分析磁场源而不增加检测次数线圈。解决方案：测量方法包括：当测量生物磁场时，检测与从生物体2产生的生物磁场的活体平面平行的第一和第二方向上的磁场分量的时间变化的检测多个以两个方向等间隔放置的SQUID（超导量子干涉装置）通量计，获得表示第一和第二方向的磁场分量的平方和的平方根的平方根的时间变化值的波形的计算处理并且通过将波形积分规定的周期来计算以获得积分值，以及显示具有相等积分值的点的等分图的组合处理。由于少量地图用于显示定量生物磁场分布，可以客观，定量地掌握个人的疾病和异常情况。版权所有（C）2004，JPO

2. 发明专利

JPH11271411A Printed cable and magnetism detecting coil 失效
标题翻译：印刷电缆和磁铁检测线圈
公开(公告)号：JPH11271411A
公开(公告)日：1999-10-08
申请号：JP7369798
申请日：1998-03-23
申请人： Hitachi Ltd , 株式会社日立製作所
发明人： KOMIYAMA YASUAKI
IPC分类号： G01R33/035 , H01L39/22
摘要： PROBLEM TO BE SOLVED: To make assembly easy and to enhance the safety and the reliability of a magnetism detecting coil, by a method wherein a guide hole is made in the center of the magnetism detecting coil in a printed cable.
SOLUTION: An electronic circuit pattern is printed on a thin-film substrate 11 composed of a flexible material. A wire 13 from a superconducting quantum interference element 12 runs halfway round a detecting coil 14, it is extended to a detecting coil 15, and it makes a round of the detecting coil 15 so as to complete a coil. After that, the remaining half circumferential portion of the detecting coil 14 is formed, and a printed cable 18 is constituted. A guide hole 16 and a guide hole 17 which are concentric with the detecting coils 14, 15 are made in them. While both guide holes 16, 17 are used as a reference, the printed cable 18 is bent and held, and a primary differential detecting coil can be assembled simply. Connecting wire parts 20 and the return wires which connect respective coil parts are formed parallel to close each other. The wire width of the wire on one side is set at, e.g. 0.5 mm, and the wire width of the wire on the other side is set at, e.g. 0.125 mm. The latter wire is situated in the center of the former wire. As a result, the axial direction of the back-and-forth connecting wires can be permitted when patterns are printed on both faces of the substrate 11.
COPYRIGHT: (C)1999,JPO
摘要翻译：要解决的问题：通过其中在印刷电缆中的磁性检测线圈的中心形成引导孔的方法，使组装变得容易并增强了磁性检测线圈的安全性和可靠性。解决方案：电子电路图案印刷在由柔性材料构成的薄膜基板11上。来自超导量子干涉元件12的导线13在检测线圈14的中途运行，延伸到检测线圈15，并且使检测线圈15的一圈完成线圈。之后，形成检测线圈14的剩余半周部，构成印刷电缆18。在其中形成与检测线圈14,15同心的引导孔16和引导孔17。虽然使用两个导向孔16,17作为参考，印刷电缆18被弯曲和保持，并且可以简单地组装初级差分检测线圈。连接线部分20和连接相应线圈部分的返回线彼此平行地形成。一侧的线的线宽设定为例如。另一侧的线的线宽设定为例如0.5mm。 0.125毫米。后一根电线位于前线的中心。结果，当在基板11的两个面上印刷图案时，可以允许前后连接线的轴向。

3. 发明专利

JPH11128190A BIOMAGNETISM MEASURING DEVICE 失效
公开(公告)号：JPH11128190A
公开(公告)日：1999-05-18
申请号：JP29718897
申请日：1997-10-29
申请人： HITACHI LTD , HITACHI INSTRUMENTS ENG
发明人： SUZUKI HIROYUKI , TSUKADA KEIJI , KOMIYAMA YASUAKI , TESHIGAWARA KENJI , KANDORI AKIHIKO , MISHIRO KAZUHIRO
IPC分类号： A61B5/05
摘要： PROBLEM TO BE SOLVED: To preserve measurement data showing a desired biomagnetism phenomenon in a memory of small capacity. SOLUTION: A measurement control circuit 7 and a calculator 8 collect and temporarily retain measurement data to perform data analysis to monitor whether or not a desired biomagnetism phenomenon occurs. When the desired biomagnetism phenomenon is not detected, the temporarily retained measurement data are disposed of in sequence. When the desired biomagnetism phenomenon is detected, the measurement data showing the biomagnetism phenomenon are acquired and preserved.

4. 发明专利

JPH07128202A AUTOMATIC DISPENSING DEVICE 失效
公开(公告)号：JPH07128202A
公开(公告)日：1995-05-19
申请号：JP27156293
申请日：1993-10-29
申请人： HITACHI LTD
发明人： KATO TERUO , ABE TETSUAKI , KOMIYAMA YASUAKI , ISHIZAWA HIROAKI
IPC分类号： G01N1/00 , G01N35/10
摘要： PURPOSE:To eliminate the ship of a driving part, backlash, and the expansibility of a belt, and to enhance the positioning accuracy and maintainability of a driven part by mounting a motor having a plurality of driving shafts on a driven mechanism for directly driving the driven part. CONSTITUTION:Z-axis motors 15a, 15b for moving dispensing nozzles 4a, 4b upward or downward are fitted to a Z-driving base 31, and power is transmitted by Z-axis timing belts 30a, 30b. The Z-driving base 31 is fitted to a X-driving base 5 through a X-linear guide rail 32, so that the entire Z-driving base 31 can be moved parallel. A X-motor is fitted to this X-driving base 5 for driving the Z-driving base 31. Further, the X-driving base 5 is fitted to a Y-driving base 8 through a Y-linear guide rail 29 so as to be capable of being displaced parallel in the backward and forward directions in a cantilever style, and it is driven by a Y-motor 7 through a Y-driving belt 13. Thus, the driven mechanism and the motor can be brought near, and the accurate positioning of the dispensing nozzles can be enabled.

5. 发明专利

JP2001104260A BIOLOGICAL MAGNETIC FIELD MEASURING EQUIPMENT 失效
公开(公告)号：JP2001104260A
公开(公告)日：2001-04-17
申请号：JP2000244014
申请日：2000-08-07
申请人： HITACHI LTD
发明人： TSUKADA KEIJI , KANDORI AKIHIKO , SASABUCHI HITOSHI , SUZUKI HIROYUKI , KONDO SHOJI , KOMIYAMA YASUAKI , OKAJIMA KENICHI
IPC分类号： G01R33/035 , A61B5/0402 , A61B5/044 , A61B5/05 , G06T1/00
摘要： PROBLEM TO BE SOLVED: To provide a biological magnetic field measuring equipment that enables analysis of magnetic field source by measuring vertical component Bz of biological magnetic field without increasing number of detecting coils. SOLUTION: This equipment is composed of plural number of SQUID fluxmeters arranged in two directions with an equal interval that detects biological magnetic field generated by biological body 2 and magnetic field component in the first direction which is vertical to the surface of the body, means for calculation processing 8 that performs calculation to obtain the wave form that represents the change with time of the values proportional to square root of the sum of square of the rate of change of the first direction magnetic field component in the second and third direction crossing with the first direction, and means for displaying equivalent integral chart that connects equivalent points of the integrated values. The equipment enables objective and quantitative under standing of individual disease and anomaly by displaying quantitative distribution of biological magnetic field using small number of charts.

6. 发明专利

JP2001087239A MAGNETIC FIELD SOURCE ANALYZING METHOD 失效
公开(公告)号：JP2001087239A
公开(公告)日：2001-04-03
申请号：JP2000244019
申请日：2000-08-07
申请人： HITACHI LTD
发明人： TSUKADA KEIJI , KANDORI AKIHIKO , SASABUCHI HITOSHI , SUZUKI HIROYUKI , KONDO SHOJI , KOMIYAMA YASUAKI , OKAJIMA KENICHI
IPC分类号： G01R33/02 , A61B5/05 , G01R33/035
摘要： PROBLEM TO BE SOLVED: To provide a living body magnetic field source analyzing method capable of analyzing a magnetic field source by measuring a vertical component BZ of a living body magnetic field without increasing the number of detecting coils. SOLUTION: This living body magnetic field source analyzing method is provided with a process of determining an equal magnetic field chart connecting equal points of a value at optional time (t) by determining the value in proportion to a square root of the square sum [S(x, y, t)= (BZ(x, y, t)/ x)2)+(BZ(x, y, t)/ y)2}] of a rate of change in the (x) direction and that in the (y) direction of a magnetic field component BZ(x, y, t) vertical to a living body surface of a living body magnetic field generated from a living body 2 by being detected by plural fluxmeters composed of a quantum interference element SQUID by using a plane parallel to the living body surface as an (x, y) plane of rectangular coordinates and the direction vertical to the living body surface as the (z) axis of the rectangular coordinates, a process of displaying the equal magnetic field chart on a display and a process of inputting the number of peaks of the equal magnetic field chart and position data on the peaks as the number of magnetic field sources and initial values of positions of the magnetic field sources for solving an inverse problem for estimating positions and intensities of the magnetic field sources in the living body. Accordingly, since positions of plural current sources in a living body can be directly read from an equal magnetic field chart, an inverse problem can be easily solved.

7. 发明专利

JPH11313808A ORGANISM MAGNETIC FIELD MEASURING DEVICE 失效
公开(公告)号：JPH11313808A
公开(公告)日：1999-11-16
申请号：JP5970399
申请日：1999-03-08
申请人： HITACHI LTD
发明人： TSUKADA KEIJI , KANDORI AKIHIKO , SASABUCHI HITOSHI , SUZUKI HIROYUKI , KONDO SHOJI , KOMIYAMA YASUAKI , OKAJIMA KENICHI
IPC分类号： A61B5/05 , G01R33/035
摘要： PROBLEM TO BE SOLVED: To analize a magnetic field source by measuring vertical components of the organism magnetic field without increasing the number of detecting coils. SOLUTION: An organism magnetic field measuring device for measuring organism magnetic field distribution in a shield room has a plurality of fluxmeters formed of quantum interference elements (SQUID) and arranged at equal spaces to detect the organism magnetic field generated from an organism 2, as a signal; an arithmetic processing means 8 for performing arithmetic processing of the signal; and a display means for displaying the arithmetic processed result. The fluxmeters detect the time change of normal components Bz, vertical to the organism surface, of the organism magnetic field. The arithmetic processing means computes to obtain the time change of the value proportional to a square sum root of the change rate of the normal components in an x-direction and a y-direction and to obtain the integrated value in a specified period of this time change and displays the integrated value on the display means. Quantitative organism magnetic field distribution is therefore displayed using a small number of figures, so that individual diseases and abnormality can be grasped objectively and quantitatively.

8. 发明专利

JPH11155828A MAGNETIC FIELD MEASUREMENT DEVICE FOR ORGANISM 失效
公开(公告)号：JPH11155828A
公开(公告)日：1999-06-15
申请号：JP26112798
申请日：1998-09-16
申请人： HITACHI LTD
发明人： KANDORI AKIHIKO , TSUKADA KEIJI , KONDO SHOJI , SASABUCHI HITOSHI , KOMIYAMA YASUAKI , TESHIGAWARA KENJI , SUZUKI HIROYUKI , SHINOMURA RYUICHI
IPC分类号： G01R33/02 , A61B5/0402 , A61B5/0444 , A61B5/05 , A61B8/08 , G01R33/035 , G06T1/00 , H04N7/18
摘要： PROBLEM TO BE SOLVED: To provide a magnetic field measurement device for an organism, capable of aligning a sensor at an optimum measurement point. SOLUTION: This device is provided with a shield room 1, a bed 4, a SQUID flux meter to detect a magnetic flux from a subject body, a cryostat 2 and a computer 90 to collect the output of a driving and detecting circuit, which drives the SQUID flux meter and detects a signal, for processing operation. In the shield room 1, a means (monitor display 80) to display the waveform of a magnetic field measured and the distribution of the magnetic field obtained by processing operation, a SQUID flux meter operating button 19a to control the operation of the SQUID flux meter, a data collection starting button 19b to control the start of data collection and a speaker 100 to generate sound in synchronization with the heartbeats of a mother's body and a fetus are arranged. Outside the shield room 1, an amplifier filter unit 60 and a means 11 to detect heartbeats and the number of heartbeats from the measured field waveform are arranged. In this way, the magnetic field can be detected with high sensitivity.

9. 发明专利

JPH06138132A AUTOMATIC ANALYTICAL APPARATUS AND AUTOMATED SAMPLE INSPECTION SYSTEM 失效
公开(公告)号：JPH06138132A
公开(公告)日：1994-05-20
申请号：JP28416892
申请日：1992-10-22
申请人： HITACHI LTD
发明人： KOMIYAMA YASUAKI
IPC分类号： G01N35/02
摘要： PURPOSE:To provide an apparatus capable of selecting a sample and throwing away the sample with good efficiency according to the contamination degree of the sample. CONSTITUTION:A sample loading part 1 loads a sample conveyance rack 2 onto a sample conveyance line. Five sample containers 4 at the maximum can be loaded on the sample conveyance rack 2. This system is provided with a centrifuge 5, a fractional dispenser 6, an automatic analytical apparatus 7, a sample housing and preservation device 8 which houses and preserves an analyzed sample, sample-container treatment devices 9, 10, a sample taking-out part 11 for a sample whose concentration of a specific component is high out of sample, a judgment part 12, a sample conveyance line 13, an input device 14 into which information on a patient is input and a sample distribution device 15.

10. 发明专利

JPH04172250A AUTOMATIC ANALYZER HAVING SAMPLE-CONTAINER DISCRIMINATING FUNCTION 失效
公开(公告)号：JPH04172250A
公开(公告)日：1992-06-19
申请号：JP29732990
申请日：1990-11-05
申请人： HITACHI LTD
发明人： UMETSU HIROSHI , ABE TETSUAKI , KOMIYAMA YASUAKI
IPC分类号： G01N35/02 , G01N35/04 , G06K7/10 , G06K19/06
摘要： PURPOSE:To omit pretreating works in hospitals and to remove erroneous operations by setting several kinds of sample containers by the simple combination of simple parts, and performing automatic discrimination with a plurality of photosensors. CONSTITUTION:A sampler part 1, an analyzing part 2, a reagent cold-reserving part 3, a flow-path system 4 and an electric system 5 are provided. In the sampler part 1, a sample rack 8 on which vacuum blood sampling tubes 6 and sample containers 7 are set is aligned on a tray 9 and loaded into the apparatus. Slender grooves 24 are provided at the front surface of the rack 8, and wide grooves 25 and 26 are provided at the halfways and the lower ends. Throughholes 27 - 29 are formed so as to face the grooves. The light from a light emitting part 18 is made to reach a light receiving part 19. The set rack 8 is automatically sent into a photosensor part with a line 12. The kinds of the sample containers are discriminated with five sensors. The stroke of a probe 23 which is inserted into the sample container is controlled with the detected signal of the sensor.

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