• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The device consists of a belt in the form of a band, which has a base and a narrowing towards each of the two ends. To this band, five sensors located in the central part correspond to the lumbar vertebrae and one on each side of the belt that corresponds to each posterior end of the trunk, one located in the upper part and another in the lower part. These sensors, with the necessary electronic components, are connected to an enclosure that includes the common electronics for all the sensors. For the feedback of the data, installable applications have been developed on pc, mobile and tablet. In addition, software has been developed for both android and ios environments. In this way, the device can be managed via bluetooth from mobile devices or others and also allows using their own features as feedback or warning elements. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2543257A1
    申请号:ES201530361
    申请日:2015-03-18
    公开日:2015-08-17
    发明作者:Juan Manuel Cortell Tormo
    申请人:Universidad de Alicante;
    IPC主号:
    专利说明:

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    P201530361
    07-24-2015
    Figure 2 shows the location of the sensors 6, 7 and 8 and of the interconnection circuit of the sensors 5. In the central area there are at least five sensors 7 and on the sides at least one more sensor on each side, located on each of the sides 6 and 8. The angular variations of the lumbar spine are established from the sensors located in the central area and are located on each of the lumbar vertebrae and, preferably, the sacrum. On the other hand, the changes in the inclination and in the rotation of the trunk are established mainly from the sides 6 and 8, but also from the central sensors.
    The connection between the band 1 and the interconnection circuit of the sensors 5 is by means of the system of snaps with the twelve snaps, which allows easy removal if you wish to wash the garment. The clasps have two different sizes ranging from 8 mm to 9.5-10 mm with the intention of preventing the pins from being connected incorrectly and conveniently separating and differentiating the feed pins: VCC and GND that are larger ( size 9.5-10 mm). These twelve snaps, one is for the feeding to external sensors, another serves as mass and ten are generic (seven with digital and analogue possibility and three only digital).
    Each sensor 12 is inserted in the individual base electronic board 9 together with the electronic components necessary for its correct operation and the pins that allow the sensor to be connected to the interconnecting circuit of the sensors 5. All arranged in the rigid box. All sensors are connected to the corresponding pins except CS 10, which goes from one to seven, where each sensor goes with its corresponding number. INT 11 does not connect.
    The individual base electronic board 9 has 7 pins, but in this case only the first 6 are used. The VCC: is responsible for supplying power to the auxiliary electronic board. CLK: clock input which helps us to establish the order in which the data is sent. SDI: responsible for receiving the information that arrives from the electronic board. SDO: responsible for sending the sensor information to the electronic board. GND: where the device's mass is connected. CS: this pin is reserved for interruption. The interruption is responsible for deciding which of the 7 sensors is the one that is active at all times.
    On the other hand, the enclosure 13 which contains the common electronics necessary for the operation of the sensors, comprises the box enclosing the four blocks
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    P201530361
    07-24-2015
    In addition, the software has been developed for both Android and IOS environments. In this way, the device can be managed via bluetooth from mobile devices and also allows using their own features as feedback or warning elements (vibration, music ... etc.).
    For the interpretation of the data, the device has a manager that allows the creation and configuration of the users, storage and management of the database of values collected by the sensors and online management through graphics and data reception through all Communication interfaces: radio, USB and TCP / IP data networks.
    In relation to figures 1 and 2, and specifically with respect to the placement of the device, the location of specific areas of the lumbar spine is required for a correct reading. The placement method is detailed below:
     The lumbar spinous processes (L1-L5) are located using the anatomical palpation method, and the 3rd lumbar vertebra (L3) is taken as a reference for placement. A mark is made on the skin at that point and the corresponding device sensor is made to coincide with said skin mark, such that when adjusting from L3, in the cephalic and caudal direction, and vertebra to vertebra, the entire device, each of the 5 sensors coincides with the lumbar vertebrae L1 to L5, located and previously marked on the skin.
     For this, the iliac crests must be located with both hands. Orient the thumbs together to locate the spinous process of the 4th lumbar vertebra and mark. Later it is marked L5, L3, L2 and L1.
    • Alternatively, the spinous process of S2 can be located. Both postero-superior iliac spines are located in the lateral vertices of the Michaelis Rombo. Drawing an imaginary line between both spines, at the midpoint, the spinous process S2 is palpated. Then, continue in the cephalic direction to locate the lumbar spinous processes L5-L1.
     For the correct fixing of the adhesive material it is necessary to remove the hair and clean the area of the skin where the sensors are placed with alcohol.
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    权利要求:
    Claims (1)
    [1]
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    类似技术:
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    同族专利:
    公开号 | 公开日
    ES2543257B1|2016-06-03|
    WO2016146862A1|2016-09-22|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US6473309B1|1997-12-23|2002-10-29|Intel Corporation|Apparatus and method for mounting a motherboard to a computer chassis|
    US6341504B1|2001-01-31|2002-01-29|Vivometrics, Inc.|Composite elastic and wire fabric for physiological monitoring apparel|
    US20100204616A1|2006-01-09|2010-08-12|Applied Technology Holdings, Inc.|Apparatus, systems, and methods for gathering and processing biometric and biomechanical data|
    US20110105861A1|2009-09-01|2011-05-05|Adidas Ag World Of Sports|Physiological Monitoring Garment|
    US20130211772A1|2012-02-13|2013-08-15|Johnny Ross, Jr.|Belt-mounted movement sensor system|
    US20140266737A1|2013-03-14|2014-09-18|Theodore Caldwell|Monitoring system for human movements|
    WO2014195582A1|2013-06-06|2014-12-11|Omegawave Oy|Apparatus for assessing functional state of body systems including electromyography|ES2591035A1|2016-07-28|2016-11-24|Universidad De Jaén|Joint monitoring device of a patient |
    CN106955109A|2017-03-21|2017-07-18|深圳大学|gait behavior record analyzer, method and system|
    法律状态:
    2016-06-03| FG2A| Definitive protection|Ref document number: 2543257 Country of ref document: ES Kind code of ref document: B1 Effective date: 20160603 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201530361A|ES2543257B1|2015-03-18|2015-03-18|Device for controlling the posture and movement of the lumbar spine|ES201530361A| ES2543257B1|2015-03-18|2015-03-18|Device for controlling the posture and movement of the lumbar spine|
    PCT/ES2016/070091| WO2016146862A1|2015-03-18|2016-02-17|Device for controlling posture and movement of the lumbar spine|
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