| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Body motion detecting device, the information transmission apparatus, stock for Nordic walking and walking momentum calculation system, | JP2006294296 | 2006-10-30 | JP4830789B2 | 2011-12-07 | 泰雅 佐藤; 康之 外越; 賢治 橋野; 直己 武石; 憲史 江田 |
| A Nordic walking pole has a transmission device attached thereto and a switch thereof is pushed to transmit a signal indicating the start or end of Nordic walking. A pedometer receives the signal from the transmission device to thereby detect that the start or end of Nordic walking is instructed (S107). Assuming that the Nordic mode is specified when the current walking mode is a normal walking mode, the parameter for Nordic walking is set as a parameter for the arithmetic operation (S111). Assuming that the normal walking mode is specified when the current walking mode is a Nordic mode, the parameter for the normal walking mode is set as a parameter for the arithmetic operation (S113). | ||||||
| 42 | Body motion detection device, information transmission device, pole for nordic walking, and walking motion quantity calculation system | JP2006294296 | 2006-10-30 | JP2008112290A | 2008-05-15 | TAKEISHI NAOKI; EDA NORIFUMI; HASHINO KENJI; SATO YASUMASA; SOTOKOSHI YASUYUKI |
| PROBLEM TO BE SOLVED: To provide a body motion detection device capable of calculating more accurate motion quantity in walking motion such that a step is consciously changed, such as Nordic walking. SOLUTION: A transmission device is installed to a pole for the Nordic walking, and a signal showing a start or an end of the Nordic walking is transmitted by depressing a switch. A pedometer receives the signal from the transmission device to detect that the start or the end of the Nordic walking is instructed (S107). When a present walking mode is a normal walking mode, it is assumed that a Nordic mode is designated, and a parameter for the Nordic mode is set as a parameter for calculation (step S111). When the present walking mode is the Nordic mode, it is assumed that the normal walking mode is designated, and a parameter for the normal walking mode is set as the parameter for the calculation (step S113). COPYRIGHT: (C)2008,JPO&INPIT | ||||||
| 43 | WALKING STICK AND WALKING ASSISTANCE DEVICE | EP16178976.3 | 2016-07-12 | EP3135148B1 | 2018-12-12 | SATO, Yoshikuni; NAKADA, Toru |
| A walking stick (100) includes a main part (110) that is stick-like, a sensor (130) that detects at least one of an acceleration of the main part (110) and an angular velocity of the main part (110), a light emitter (150) that emits light on a ground, a balance evaluator (142) that evaluates a user's walking balance stability based on at least one of the detected acceleration and the detected angular velocity, and an emitting controller (144) that controls a light emitting direction of the light based on a result of the evaluation and an inclination angle of the main part (110). | ||||||
| 44 | Sport sticks with sensor enhancements | EP06020896.4 | 2006-10-05 | EP1908499A1 | 2008-04-09 | Saintoyant, Pierre-Yves |
A piece of sport equipment is proposed. The piece of sports equipment can be a Nordic walking stick which comprises a sensor that is configured to produce sensor data; a processor being coupled to the sensor for receiving the sensor data; a memory being coupled to the processor for storing the sensor data; and an output device for selectively signaling the sensor data. In the piece of sports equipment provides the user of it with an immediate feedback of his training. |
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| 45 | Ergonomische Ski- und Wanderstockschlaufe mit eingebautem Pulsmesser | EP04031060.9 | 2004-12-30 | EP1550488A3 | 2005-12-14 | Brückl, Franz |
Die Erfindung betrifft eine ergonomische Ski - und Wanderstockschlaufe mit eingebautem Pulsmesser. Durch eine vorzugsweise einteilige erfindungsgemäße Schlaufengestaltung mit Daumenloch, ist ein unkompliziertes Öffnen und Schießen der Schlaufe möglich. |
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| 46 | MULTI-FUNCTIONAL SMART MOBILITY AID DEVICES AND METHODS OF USE | EP15770166.5 | 2015-03-24 | EP3122201A2 | 2017-02-01 | Alghazi, Ahmad Alsayed M. |
| Embodiments of a smart mobility aid device may have sensors to collect, monitor, analyze and represent data including but not limited to activity tracking, biometrics and safety and emergency features. The activity tracking include number of steps, miles, and activity speed, user pressure on a device, activity types and analysis. The user biometric data includes but is not limited to blood work, blood pressure, blood sugar, heart rate, oxygen level/rate, ECG, EMG, muscle strain, humidity, UV, body temperature. Additional features include an emergency button, fall detection, warnings, and user pattern analysis changes. The mobility aid device is connected to other smart electronic device and/or the Internet using but not limited to Bluetooth, Wi-Fi, and or/and SIM card. The device gives the user or/and caregiver live feedback about user health metrics and status using a data representation method. | ||||||
| 47 | SKISTOCK ODER WANDERSTOCK ZUR MESSUNG VON PARAMETERN | EP16173053.6 | 2016-06-06 | EP3108943A1 | 2016-12-28 | Wolf, Frank; Obrist, Frank |
Die Erfindung betrifft einen Skistock oder Wanderstock zur Messung von Parametern mit einer Stockspitze (1), in deren Bereich mindestens ein Messfühler (2) angeordnet ist, durch den mindestens ein Parameter messbar ist, wobei der gemessene Parameter zu einer Anzeigeeinrichtung (3) übermittelbar ist. Die Erfindung zeichnet sich dadurch aus, dass der Messfühler (2) ein Temperaturfühler ist.
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| 48 | WHITE CANE WITH INTEGRATED ELECTRONIC TRAVEL AID USING 3D TOF SENSOR | EP11764452.6 | 2011-09-26 | EP2629737B1 | 2016-07-13 | GASSERT, Roger; KIM, Yeongmi; OGGIER, Thierry; RIESCH, Markus; DESCHLER, Mathias; PROTT, Cornelia; SCHNELLER, Stefan; HAYWARD, Vincent |
| 49 | BODY EXERCISE DETECTING DEVICE CAPABLE OF PROPERLY MANAGING WALKING STEP NUMBER INFORMATION IN WALKING EXERCISE | EP07828978.2 | 2007-10-02 | EP2055234A1 | 2009-05-06 | TAKEISHI, Naoki; EDA, Kenji; HASHINO, Kenji; SATO, Taiga; TOGOE, Yasuyuki |
A Nordic walking pole has a transmission device attached thereto and a switch thereof is pushed to transmit a signal indicating the start or end of Nordic walking. A pedometer receives the signal from the transmission device to thereby detect that the start or end of Nordic walking is instructed (S107). Assuming that the Nordic mode is specified when the current walking mode is a normal walking mode, the parameter for Nordic walking is set as a parameter for the arithmetic operation (S111). Assuming that the normal walking mode is specified when the current walking mode is a Nordic mode, the parameter for the normal walking mode is set as a parameter for the arithmetic operation (S113). |
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| 50 | Handgriff | EP06011006.1 | 2006-05-29 | EP1736072A1 | 2006-12-27 | Hochschorner, Karl Walther |
Die Erfindung betrifft einen Handgriff (1) für einen Stock. Hierbei ist vorgesehen, dass der Handgriff eine Einrichtung zur Aufnahme (3) von Modulen (2) aufweist. Diese Module sind auswechselbar ausgeführt. Bei den Modulen handelt es sich insbesondere um elektronische Informationsmodule.
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| 51 | MULTI-FUNCTIONAL ACTIVITY MANAGEMENT SYSTEM FOR ELDERLY | US16055022 | 2018-08-03 | US20180338591A1 | 2018-11-29 | ZHONGSHU ZHENG |
| A multi-functional activity management system for elderly utilizes prior art walking sticks to manage big data related to activity of elderly persons. In addition, new improvements have been made upon prior art walking sticks. By incorporating umbrella function into the walking stick, the stem portion becomes narrower and shorter, thereby making it easy to be inserted into the thin walking stick. | ||||||
| 52 | Sports- and general pole element including arrangement for operating a handheld geophysical locating device | US15019629 | 2016-02-09 | US09618624B2 | 2017-04-11 | Andreas Krauss |
| The invention relates to a sports- and general pole element. The pole element includes components for an arrangement for operating a handheld geophysical locating device with at least one sensor, a power supply, an operating unit, and an interface for wireless data transmissions, wherein the components are arranged concealed in a body of the sports- or general pole element and wireless transmission of locating data is provided through the interface to a mobile evaluation- and display unit. | ||||||
| 53 | WALKING STICK AND WALKING ASSISTANCE DEVICE | US15206424 | 2016-07-11 | US20170055650A1 | 2017-03-02 | YOSHIKUNI SATO; TORU NAKADA |
| A walking stick includes a main part that is stick-like, a sensor that detects at least one of an acceleration of the main part and an angular velocity of the main part, a light emitter that emits light on a ground, a balance evaluator that evaluates a user's walking balance stability based on at least one of the detected acceleration and the detected angular velocity, and an emitting controller that controls a light emitting direction of the light based on a result of the evaluation and an inclination angle of the main part. | ||||||
| 54 | MOBILITY AID WITH REHABILITATIVE AND GUIDING FUNCTIONS AND REHABILITATION AND GUIDING METHOD THEREOF | US14696608 | 2015-04-27 | US20160309861A1 | 2016-10-27 | WILLY CHOU; JHI-JOUNG WANG; JIUN-HUNG LIN |
| A mobility aid with rehabilitative and guiding functions includes a main body, a processing unit, a guiding module, a detection module, an inertia sensor, a recording module, and an electricity module. A rehabilitation and guiding method includes the steps of: A) constantly projecting a visible light beam to a next-step position of the mobility aid; B) moving the mobility aid to its next-step position under the guidance of the visible light beam; C) constantly emitting an ultrasonic wave to a next-step position of at least one of the user's feet to define a detection area; D) detecting whether the foot is moved into the detection area; E) recording the moving process of any of the steps A through D and notifying a remote device of the moving process; and F) detecting any of the steps A through D and, if an abnormal condition occurs, sending out a warning message. | ||||||
| 55 | White Cane with Integrated Electronic Travel Aid Using 3D TOF Sensor | US13848884 | 2013-03-22 | US20130220392A1 | 2013-08-29 | Roger Gassert; Yeongmi Kim; Thierry Oggier; Markus Riesch; Mathias Deschler; Cornelia Prott; Stefan Beat Schneller; Vincent Hayward |
| The invention describes an electronic travel aid (ETA) for blind and visually impaired persons implemented in a detachable handle of a white cane. The device enhances the functionality of the white cane giving the user more detailed information about the environment within a defined corridor of interest in front of the user with an extended range of a few meters up to 10 m. It provides a reliable warning if there is a risk of collision with obstacles including those at trunk or head height, which are not recognized by a conventional white cane. Additional sensors are integrated to delimit the defined corridor during the cane sweeping thereby reducing the amount of information that is transmitted to the user via the tactile interface. Alternatively, the device can be used independently from the cane as an object recognition and orientation aid. | ||||||
| 56 | Intelligence outdoor shading arrangement | US12802550 | 2010-06-08 | US08413671B2 | 2013-04-09 | Wanda Ying Li |
| An intelligence outdoor shading arrangement includes an outdoor shading system, an environmental sensor device and a functional controller. The outdoor shading system includes at least an outdoor shading device including a supporting frame, a power source, an awning frame suspendedly and movably supported by the supporting frame, and a shelter mounted to the awning frame to define a shading area under the shelter. The environmental sensor device is electrically linked to the power source and is installed to the outdoor shading system for detecting an environmental change of the shading system in responsive to the shading area thereof. The functional controller is electrically linked to the environmental sensor device and is operatively controlled the awning frame of the outdoor shading system, wherein when the functional controller receives a command signal from the environmental sensor device, the awning frame is automatically adjusted to regulate the shading area thereof in responsive to the environmental change of the outdoor shading system. | ||||||
| 57 | Intelligent outdoor sun shading device | US12315120 | 2008-11-28 | US08061374B2 | 2011-11-22 | Wanda Ying Li |
| An intelligent outdoor sun shading device includes a shading system, an environmental sensor device and a functional controller. The shading system includes a supporting frame, a power source supported at the supporting frame, an awning frame suspendedly and movably supported by the supporting frame, and a sun shelter mounted to the awning frame to define a shading area under the sun shelter. The environmental sensor device is electrically linked to the power source and is installed to the shading system for detecting an environmental change of the shading system in responsive to the shading area thereof. The functional controller is electrically linked to the environmental sensor device and is operatively controlled the awning frame of the shading system, wherein when the functional controller receives a command signal from the environmental sensor device, the awning frame is automatically adjusted to regulate the shading area thereof in responsive to the environmental change of the shading system. | ||||||
| 58 | Instrumented mobility assistance device | US11650361 | 2007-01-05 | US07826983B2 | 2010-11-02 | Majd Alwan; Glenn S. Wasson; Pradip N. Sheth; Alexandre Ledoux; Cunjun Huang |
| Various implementations are disclosed for an instrumented mobility assistance device, such as an instrumented walker. The device includes an attached sensor that is operable to convert an operational action of a user of the mobility assistance device into a sensor signal. A use analyzer is operable to relate the sensor signal to a contact attribute associated with a contact of the user of the mobility assistance device with an underlying surface. The use analyzer is further operable to determine a gait characteristic of the user, based on the contact attribute. The sensor may include a force or moment sensor. The contact attribute may include a foot-initial contact, or a foot-off contact. In this way, gait characteristics of the user may be determined during normal operation of the instrumented device. Also, the sensor may be used to determine a stability measure associated with the device. | ||||||
| 59 | Intelligence outdoor shading arrangement | US12802550 | 2010-06-08 | US20100245032A1 | 2010-09-30 | Wanda Ying Li |
| An intelligence outdoor shading arrangement includes an outdoor shading system, an environmental sensor device and a functional controller. The outdoor shading system includes at least an outdoor shading device including a supporting frame, a power source, an awning frame suspendedly and movably supported by the supporting frame, and a shelter mounted to the awning frame to define a shading area under the shelter. The environmental sensor device is electrically linked to the power source and is installed to the outdoor shading system for detecting an environmental change of the shading system in responsive to the shading area thereof. The functional controller is electrically linked to the environmental sensor device and is operatively controlled the awning frame of the outdoor shading system, wherein when the functional controller receives a command signal from the environmental sensor device, the awning frame is automatically adjusted to regulate the shading area thereof in responsive to the environmental change of the outdoor shading system. | ||||||
| 60 | Instrumented mobility assistance device | US11650361 | 2007-01-05 | US20070233403A1 | 2007-10-04 | Majd Alwan; Glenn Wasson; Pradip Sheth; Alexandre Ledoux; Cunjun Huang |
| Various implementations are disclosed for an instrumented mobility assistance device, such as an instrumented walker. The device includes an attached sensor that is operable to convert an operational action of a user of the mobility assistance device into a sensor signal. A use analyzer is operable to relate the sensor signal to a contact attribute associated with a contact of the user of the mobility assistance device with an underlying surface. The use analyzer is further operable to determine a gait characteristic of the user, based on the contact attribute. The sensor may include a force or moment sensor. The contact attribute may include a foot-initial contact, or a foot-off contact. In this way, gait characteristics of the user may be determined during normal operation of the instrumented device. Also, the sensor may be used to determine a stability measure associated with the device. | ||||||
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