• 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 present invention relates to a device configured to be fixed to a portion of the body of a subject or a support close to it that includes means for projecting visual information in real time about the exercise of the subject on a surface close to it, said information being related to the sport that is being carried out in order to improve the training in real time; a power supply system (4), a data processing system (5) that calculates all the data of the systems or modules, a speed calculation system (3), an optical emission system (2), a data communication system (7) and a device control system (8). (Machine-translation by Google Translate, not legally binding)
    公开号:ES2645440A1
    申请号:ES201630736
    申请日:2016-06-02
    公开日:2017-12-05
    发明作者:Daniel MONTAÑÉS ROCHA;Pilar GARCÍA DOMINGO;Julián LIZÁN SÁNCHEZ;Yari Marco MISIEGO AGUILAR;César MORA CASTRO
    申请人:Aureel Tech S L;Aureel Tech SL;
    IPC主号:
    专利说明:

    DESCRIPTION
    Projector training device

    Technical Field of the Invention
    The present invention relates to a device configured to be fixed to a portion 5 of the body of a subject or to a support near it comprising means for the projection of visual information in real time about the exercise of the subject and on a surface close to this being said information related to the sport being performed in order to improve training in real time.
     10
    Background of the invention or State of the Art
    In sport it is very important to have control at all times on variables such as rhythm, etc. that define quality and progress in training and competition.
    There are some subjects called hares that go in front of the athlete to indicate the pace at which they have to go by proximity to this, in addition to other variables such as time, etc. This is because during training and competition, athletes should not be distracted and deconcentrated, paying attention to other elements such as smart watches, etc. However, the error rate of the hares in the feedback to the athlete is high and require an economic contracting in addition to the need for it to adapt to their schedules. twenty
    There are also electronic devices on the market that provide information related to the exercise when the gaze is directed towards the screen or area of information emission, or by other means of transmitting information such as vibration, etc. However, for athletes to constantly review the information on these devices is a great distraction and therefore a loss of concentration and performance during training or competition. In addition, the data is interpreted by the athlete with delay, depending on how many times he repeats the action of checking the device or the frequency of notification and calculation of the information by the device.

    International patent WO 2012/092221 A1 describes a device attached to the body of the user that measures the biometric data of the user and comprises an optical emitter, a wavelength filter, an optical sensor and a processor to send a light to the body of the user, receive the light received from the user, filter and process it to measure the user's biometric data such as heart rate, etc. The disadvantage of this device is the same as discussed in the previous paragraph.
    Russian patent RU 2444392 C1 describes a system for training players and athletes through the projection of interactive optical guides with their movement on the playing field. These optical representations interact with the athlete reacting to the movement of the athlete with respect to these through cameras that detect their movement and light projectors. This method has the disadvantage that the athlete is only allowed to train and evaluate their skills within training fields specially equipped with powerful light emitters and cameras. The disadvantage is that, in addition to creating 10 shadows and blind spots to it, it prevents the portability of these systems in order to perform such training outside those specific facilities.

    Russian patent RU 0002550323 describes a device for the training of players and athletes through an optical emission device located on the heads of athletes that through optical gyroscopes stabilize the optical projection with respect to the ground during sports training in team. This device has the advantage over the previous one that does not create dead spots due to shadows, does not require a special installation on the court and does not blind the athlete himself by the projection over his eyes. However, this device has the disadvantage that it can blind other athletes by projecting 20 from the head, in addition to being one of the most uncomfortable parts of the body to carry weight and not provide information on the optimization of physical training itself but control over the final positions to which the player has to move.

    Canadian patent CA 2801441 describes a system coupled to snowboards, skating, skiing, surfing or skysurfing that emits optical patterns of interactive colors based on acceleration values in different axes according to accelerometers incorporated in the support. Such optical emission varies in light intensity and in alternating colors. The disadvantage of this system is that it is limited to displaying acceleration values and no indications or information related to training optimization, in addition to being limited to these sports disciplines.


    US patent US 8043173B2 describes an athlete training system that can be fixed to various areas of the body and warns with visual or vibration signals if a bad movement or poor coordination is being made regarding the different sensors distributed. This comprises a color light emission system, a wireless radio communication system, a position sensor, a microcontroller, a battery and a transmitter of vibration and / or sound signals. The disadvantages of this system are that they limit the feedback towards the athlete in only evaluating positions and coordinating the different parts of the body without being able to provide more data about the exercise, which is annoying and distracts from fixing the view in the light emission zone and that these signals sometimes cannot be correctly perceived by the athlete in some parts of the body due to lack of sensitivity.

    Brief description of the figures
    To complement the description that will then be made and in order to help a better understanding of the features of the invention, the present descriptive report of some illustrations of the invention and the different parts that compose it is attached based on whose Figures will more easily understand the innovations and advantages of the device object of the invention.
    Figure 1 is a flow chart of the device feeding procedure.
    Figure 2 is a flow chart of the operation and transmission procedure of device data.
    Figure 3 is a 3D view on the front with the system in operation.
    Figure 4 is a 3D view of the internal components inside the housing (1).
    Figure 5 is a 3D view on an example of enlarging the internal components inside the housing (1). 25

    Detailed description of the figures
    In view of the aforementioned figures, it can be seen how the device is constituted by a protective housing (1) that encompasses and protects the rest of the systems inside, in addition to allowing the passage of the optical emission from the optical emitter (2) as seen in Figure 3. On the one hand, considered the basis of the invention, Figure 5 shows these minimum systems (2) (3) (4) (5) (6) (7) (8) of which will consist of the device and which can be taken as a basis on the ability to modulate and expand them to obtain greater accuracy as shown in Figure 2. These basic components are attached or connected to the support plate (6), which in turn performs energy and data transmission functions.
    Figure 1 shows that there is a power system (4) such as one or 5 batteries, which can be charged from a connection system or replaced by similar ones, which supply the rest of the systems with energy.
    Figure 2 shows the transmission of data between the different systems. Data acquisition systems such as the speed calculation system (3) and the communication system (7) are in constant communication with the processing system (5), which from 10 protocols sends them orders and receives data such as result, which launches again to other systems such as optical emission (2) or back to the previous ones (3) (5). To improve the accuracy of this data, optionally, new systems can be coupled to support the previous ones (2) (3) (5) such as biometric data acquisition systems, etc.
    Figure 3 shows the system in operation from the outside. The optical emission system 15 (2) projects visual information from within the housing (1).
    Figure 4 shows the different minimum components to achieve the desired functionality in the patent. The speed calculation system (3) calculates the speed at which an athlete moves and can compose for example a geolocation system such as GPS or GNSS, an inertial module that calculates incline and acceleration data, etc. The communication system (7) serves to transfer data to and from an external system to it, and can optionally help to load the power system (4). The control system (8) allows the user to have control over the operation of the device, and therefore in direct communication with the processing system (5). The systems (3) (4) (5) (7) (8) are connected in common to one or several electronic support plates (6), in turn interconnected between them.
    Figure 5 shows the different minimum components seen in Figure 3 being an example of how they could improve their functionality from the inclusion of other modules such as, for example, a motor system (11) that provides movement of the emitting system optical (2) which is connected to it by an adapter (10) that allows the optical projection to move 30 to more accurately indicate data to the user, and a thermal dissipation module (9) to avoid large concentrations of heat in the optical emitter (2), in addition to an increase in its useful life.
    Likewise, the present invention could calculate the final information desired by other means either other sensors or distributed modules, located in a way other than that shown in the figures, or obtain them from other external devices by means of the communication system (7). In turn, the system could transmit this information through other sensory channels such as vibration, sound, taste, electromagnetism, etc. or by a combination of 5 several thanks to sensory actuators that convey such information to the user's senses. The information and communication protocol sent sensory to the user may change depending on the environmental conditions, preferences and state of the user, type of sports discipline, sports routine, quality of training execution, status of the course of this and / or support functionalities Extra as could be guidance guide 10 geomatic from sensory protocol.
    According to one of the embodiments of the invention, said optical emission system (2) projects the visual information and / or indications on a surface close to the subject, moving away, approaching, changing the flicker frequency, the color of the projected indications , increasing or decreasing its intensity, and showing one or several optically projected areas.
    According to one of the embodiments of the invention, said speed calculation system (3) transmits to the data processing system (5) the athlete's speed, so that if said speed diverges from the initially preset, the system of Processing (5) instructs the projection system (2) to modify the distance of 20 projection, so that if the runner's speed is less than the preset, the projection distance with respect to the subject varies in one direction, while that if the speed is greater than the preset speed, the projection distance with respect to the subject varies in the opposite direction.
    According to one of the embodiments of the invention, if the speed of the runner is less than the preset one, the projection distance with respect to the subject increases, while if the speed is greater than the preset speed, the projection distance with respect to the subject decreases.
    According to one of the embodiments of the invention, the system may contain sensors that detect time, geographical position, position with respect to the ground, acceleration and / or biometric data, optical filters, wireless or wireless communication systems, motors that stabilize the optical projection (11), heart rate, etc. to improve the interaction and accuracy of the projected information regarding the development of the exercise. Additionally, the information of each sensor may be used to filter the noise into one or more signals received by the sensors to provide biometric data to the user and / or the processing system.

    List of abbreviations used in the figures
    protective housing (1) 5
    Optical emitting system (2)
    Speed calculation system (3)
    Power supply system (4)
    Processor (5)
    Electronic support plate (6) 10
    Communication System (7)
    Control System (8)
    Thermal Dissipation Module (9)
    Adapter (10)
    Motor system (11) 15
    Additional systems (System N) (12)
    Data collected (13)
    Other device (14)
    Precision System Added A (15)
    Added Precision System B (16) 20
    Added Precision System N (17)

    权利要求:
    Claims (6)
    [1]
    1. Device suitable for attaching to a portion of the body of a subject or to a support near it that comprises an optical emission system (2) for the projection of real-time visual information about the subject's exercise on a surface close to it , said information relating to the sport being carried out in order to improve training in real time; characterized in that it comprises a power supply system (4), a data processing system (5) that calculates all the data of the systems or modules, a speed calculation system (3), the optical emission system ( 2), a data communication system (7) and a device control system (8).
     10
    [2]
    2. Device according to claim 1 which through said optical emission system (2) projects the visual information and / or indications on a surface close to the subject, moving away, changing, changing the flicker frequency, the color of the projected indications , increasing or decreasing its intensity, and showing one or several optically projected areas. fifteen

    [3]
    3. Device according to any one of the preceding claims wherein said speed calculation system (3) transmits to the data processing system (5) the athlete's speed, so that if said speed diverges from the initially preset, the system processing (5) instructs the projection system (2) 20 to modify the projection distance, so that if the runner's speed is less than the preset, the projection distance with respect to the subject varies in one direction, while if the speed is greater than the preset speed, the projection distance from the subject varies in the opposite direction. 25
    [4]
    4. Device according to the preceding claim wherein, if the speed of the runner is less than the preset, the distance of the projection with respect to the subject increases, while if the speed is greater than the preset speed, the projection distance with respect to the subject decreases.
    [5]
    5. Device according to any one of the preceding claims wherein said data communication system (7) can be wired and / or wireless and that transfers data from the device to another party.

    [6]
    6. Device according to any one of the preceding claims wherein said system may contain sensors that detect time, geographical position, position on the ground, acceleration and / or biometric data, optical filters, wireless or wireless communication systems, motors that stabilize the optical projection (11), heart rate, etc. to improve the interaction and accuracy of the projected information 5 regarding the development of the exercise.
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    同族专利:
    公开号 | 公开日
    ES2645440B1|2018-10-02|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US7209569B2|1999-05-10|2007-04-24|Sp Technologies, Llc|Earpiece with an inertial sensor|
    US20030184575A1|2000-05-11|2003-10-02|Akseli Reho|Wearable projector and intelligent clothing|
    US20030038927A1|2001-08-27|2003-02-27|Alden Ray M.|Image projector with integrated image stabilization for handheld devices and portable hardware|
    US20100195057A1|2007-12-17|2010-08-05|The North Face Apparel Corp.|Projection systems for activity based users|
    US20090309826A1|2008-06-17|2009-12-17|Searete Llc, A Limited Liability Corporation Of The State Of Delaware|Systems and devices|
    法律状态:
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