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    • 1. 发明专利
    • Electrostatic protective circuit
    • 静电保护电路
    • JP2003284239A
    • 2003-10-03
    • JP2002078276
    • 2002-03-20
    • Noritz CorpOsaka Gas Co Ltd大阪瓦斯株式会社株式会社ノーリツ
    • TAUCHI YASUOHATAKE YOJIMORITA TETSUJIOZAKI HIKARIFUJII HAJIME
    • A61B5/0245A61B5/0428A61H33/00H02H7/20
    • PROBLEM TO BE SOLVED: To provide an electrostatic protective circuit which can protect a secondary circuit from static electricity in an electric circuit system to which a power receiving end capable of penetration of static electricity is connected is connected to a primary circuit so as to transmit signals, etc. SOLUTION: Based on the electrocardiographic signal detected by heartbeat detecting electrodes 31, 32, and 33 installed in exposed state in a bathtub B, a heat rate calculating unit 40 computes the number of heartbeats of a bather, and indicates this heat rate in the remote controller of a bath hot water supplier 10. In the heat rate calculating unit 40, the primary circuit C1 and the secondary circuit C2 are electrically insulated from each other by a photocoupler 44, and they are electrically insulated by a DC-DC converter 45. A primary power path PS1 and a secondary power path PS2 resistant to static electricity are connected with each other in the condition that they are electrically insulated from each other via an insulating connector 49 shorter in insulation distance than the photocoupler 44. COPYRIGHT: (C)2004,JPO
    • 要解决的问题:为了提供一种静电保护电路,其连接到初级电路,所述静电保护电路可以保护次级电路免受连接有静电穿透的电力接收端的电路系统中的静电,从而 传输信号等。解决方案:基于由浴缸B中暴露状态安装的心跳检测电极31,32和33检测的心电图信号,热量计算单元40计算沐浴者的心跳次数 ,并表示浴热水供应器10的遥控器中的该热量。在热量计算单元40中,初级电路C1和次级电路C2通过光电耦合器44彼此电绝缘,并且它们是电 由DC-DC转换器45绝缘。主电源路径PS1和抗静电的次级电源路径PS2彼此连接,条件是它们 通过绝缘距离比光电耦合器44短的绝缘连接器49彼此电绝缘。版权所有(C)2004,JPO
    • 5. 发明专利
    • ELECTROCARDIAC SIGNAL PROCESSING APPARATUS
    • JP2003180643A
    • 2003-07-02
    • JP2001386943
    • 2001-12-20
    • NORITZ CORPOSAKA GAS CO LTD
    • TAUCHI YASUOMORITA TETSUJIOZAKI HIKARIFUJII HAJIME
    • A47K3/00A61B5/0245A61B5/0428A61H33/00
    • PROBLEM TO BE SOLVED: To provide an electrocardiac signal processing apparatus by which predetermined processes such as heart rate calculating process or others can surely be carried out without being affected by the electroconductivity of the warm water stored in a bathtub. SOLUTION: The apparatus comprises the heart rate detecting electrodes 31, 32, 33 located within the bathtub B for detecting the electrocardiac signal of a bather, the heart rate calculating unit 40 calculating the heart rate of the bather based on the electrocardiac signal detected by the these heart rate detecting electrodes 31, 32, 33, and the remote controller for a bath hot-water supply device displaying the heart rate of the bather calculated by the heart rate calculating unit 40. The heart rate calculating unit 40 comprises the amplifying circuit 44 amplifying the electrocardiac signal capable of varying the amplification rate, the microcomputer 45 calculating the heart rate from the amplified electrocardiac signal, and the electroconductivity sensor 47 for measuring the electroconductivity of the hot water storing in the bathtub B. The microcomputer 45 is adapted to automatically vary the amplification rate of the amplifying circuit 44 in response to the electroconductivity of the hot water storing the bathtub B. COPYRIGHT: (C)2003,JPO
    • 6. 发明专利
    • ELECTROCARDIOGRAPHIC SIGNAL PROCESSOR
    • JP2003144405A
    • 2003-05-20
    • JP2001351150
    • 2001-11-16
    • NORITZ CORPOSAKA GAS CO LTD
    • TAUCHI YASUOMORITA TETSUJIOZAKI HIKARIFUJII HAJIME
    • A47K3/00A61B5/0245A61B5/0428A61H33/00
    • PROBLEM TO BE SOLVED: To provide an electrocardiographic signal processor capable of ensuring prescribed processing such as heart rate computing processing without being influenced by different electrocardiographic signal level for every bathing person. SOLUTION: This electrocardiographic signal processor is provided with heartbeat detecting electrodes 31, 32, 33 installed in a bathtub B to detect the electrocardiographic signals of the bathing person; a heart rate computing unit 40 for computing the heart rate of the bathing person on the basis of the electrocardiographic signals detected by the heartbeat detecting electrodes 31, 32, 33; and an operating remote control for a bath water heater displaying the heart rate of the bathing person prepared by the heart rate computing unit 40. The heart rate computing unit 40 has an amplifying circuits 44 for amplifying the electrocardiographic signal and capable of changing the amplification factor, and a microcomputer 45 for computing the heart rate from the amplified electrocardiographic signal. The microcomputer 45 automatically changes the amplification factor of the amplifying circuit 44 according to an inputted electrocardiographic signal level.
    • 10. 发明专利
    • ELECTROCARDIOGRAPHIC SIGNAL PROCESSOR
    • JP2003144404A
    • 2003-05-20
    • JP2001348693
    • 2001-11-14
    • NORITZ CORPOSAKA GAS CO LTD
    • TAUCHI YASUOMORITA TETSUJIOZAKI HIKARIFUJII HAJIME
    • A61B5/0245A61B5/0428A61H33/00
    • PROBLEM TO BE SOLVED: To provide an electrocardiographic processor capable of ensuring prescribed processing such as heart rate computing processing even when base line oscillation has occurred to an electrocardiographic signal. SOLUTION: This electrocardiographic signal processor is provided with heartbeat detecting electrodes 31, 32, 33 installed in a bathtub B to detect the electrocardiographic signals of a bathing person; a heart rate computing unit 40 for computing the heart rate of the bathing person on the basis of the electrocardiographic signals detected by the heartbeat detecting electrodes; and an operating remote control for a bath water heater displaying the heart rate of the bathing person prepared by the heart rate computing unit 40. The heart rate computing unit 40 has a differential amplifying circuit 42 for differentially amplifying the electrocardiographic signals from the heartbeat detecting electrodes 31, 32, 33, and a reference level stabilizing circuit 47 composed of a negative feedback circuit which applies negative feedback to the input side in the reversed sign state of a frequency component lower than the electrocardiographic signal, from the output of the differential amplifying circuit 42.