• 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 invention relates to a sports shoe (1) for skiing. This sports shoe (1) comprises an inner shoe (3) provided for receiving the foot of a user, an outer shell (2) of relatively hard and dimensionally stable plastic surrounding the inner shoe (3) at least in sections on its outer side, and at least e mechanical pressures or forces in or on the sports shoe (1). The sports shoe (1) also has a radio communications interface (13), which is used for the wireless transmission of pressure signals or corresponding radio communications interface (13) on the sports shoe (1) with a radio communication interface (14) on at least one electrical electronic evaluation device (15) compatible. The electronic evaluation device (15) is provided for the evaluation of the at least one pressure-sensitive conditions in or on the sports shoe (1). In addition, an electronic control system (29) is used.
    公开号:AT517933A4
    申请号:T51057/2015
    申请日:2015-12-11
    公开日:2017-06-15
    发明作者:Roe Jason
    申请人:Atomic Austria Gmbh;
    IPC主号:
    专利说明:

    The invention relates to a sports shoe for the exercise of skiing, as well as a control system for electronically assisted control or evaluation of the usage behavior or conditions of use in connection with such a sports shoe, as specified in the claims 1 and 10.
    W02007 / 015908A2 describes a system for displaying the athletic mileage of a running athlete on electronic devices. The signals of a step sensor in the sole of the running shoe, a heart rate or blood pressure sensor on the body of the runner, and other sensor data are wirelessly transmitted to an electronic adapter device. The adapter device, which receives at least the step signals, is mechanically connected and disconnected via a plug to the data interface of a standard display device and transmits via this data interface to visualize by means of the display device data. The adapter device and the display device, which may be constituted by a standard mobile phone, a PDA, an MP3 player, a wristwatch and the like, are carried on the body of the runner and are provided for evaluating the mileage of the runner. This known system is only partially suitable in connection with the exercise of skiing.
    DE9417953U1 describes an insert for a ski boot. This deposit should serve as a learning aid for the execution of the correct swing. It consists of a heel area covering, flat and flexible insert. In this insert, a cell filled with a liquid is arranged, wherein in the cell, a pressure-responsive sensor is arranged, which is connected via cables to a power supply and a controller outside the ski boot. The controller in turn is equipped with a device for generating acoustic
    Signals, in particular a stereo headphones connected. This device is only partially satisfactory as support in the exercise of skiing
    Object of the present invention was to overcome the disadvantages of the prior art and to provide skiers with a technical equipment that allows them to increase the comfort or the achievable performance in terms of sports.
    This object is achieved by a sports shoe, as well as by an electronic control system according to the claims.
    A resulting from the features of claim 1 advantage is that a generic ski or sports shoe, which consists of a relatively soft liner and from the inner shoe at least partially surrounding, relatively dimensionally rigid outer shell, is particularly well suited to the Capture the foot of a user respectively acting forces or pressure loads or sensor technology to record. In particular, in contrast to an overall relatively soft or, unlike a shoe formed of textile material, such as a running shoe, a relatively reliable or meaningful data acquisition can be made. In addition, especially in generic ski or sports shoes with a relatively hard, outer shell, as they are typically used for the exercise of skiing, of particular relevance that such sports shoes as possible no local pressure points on the foot of the user exercise. In addition, such a ski boot represents a significant interface between a board-type sports equipment, in particular a ski, and the user, so that the corresponding sports shoe occupies an essential role in achieving the highest possible enjoyment or as good progress in the exercise of skiing. In particular, such a sports shoe must be able to transmit the forces starting from the user in the direction of the sports device or starting from the sports device in the direction of the user as directly as possible and without delay. Therefore, it may be particularly important in a generic sports shoe to find the balance between comfort and performance. This can be achieved above all by the sensor technology He mediation of the pressure conditions within the sports shoe or against the foot of a user, as defined according to the invention. The wireless transmission of corresponding sensor or pressure signals to an external electronic device can then be followed by optimized signaling, in particular visualization and / or recording of the acquired data and / or feedback in the form of an actual analysis or in the form of instructions be given to the user of the sports shoe. After the electronic evaluation can be carried out by a wirelessly connectable electronic device, which is preferably designed as a mobile computing unit, the corresponding evaluations and data evaluations can be made in qualitative, highly developed form. The data connection or the radio communication path between the sports shoe and the external, electronic evaluation device favors the practicality and the simplicity of the electronic control system, as also described herein. In addition, any cabling effort between said components is avoided by the radio connection between the sensors of the sports shoe and the electronic evaluation device and also a fundamentally unrestricted, free mobility of the user of the sports shoe is still guaranteed. In particular, a fast and uncomplicated assembly and disassembly of the corresponding data connection is made possible by the wireless data or communication link.
    Of particular advantage in this case is an embodiment according to claim 2, as this creates a communication interface on the sports shoe, which is compatible with standardized, electronic devices, in particular can communicate with them. This promotes a comprehensive compatibility of the sports shoe with electronic evaluation, whereby the cost of implementing the overall system can be minimized. Another advantage is that the possibility of establishing a connection with a commercially available, mobile computing unit, the handling of such an electronic device is typically familiar to the respective user or thereby already a high familiarity with the handling of the electronic device. This is especially true if the corresponding mobile computing unit is defined by a personal smartphone, a tablet PC or a wearable computer of the respective user.
    By the measures according to claim 3, the compatibility or the most universal communicative integration of the sports shoe in an electronic evaluation or evaluation system, in particular in an inventive electronic control system, are strongly favored. In addition, such standardized communication protocols are tried and tested and can provide high availability and functional reliability.
    According to an expedient measure, as indicated in claim 4, the pressure load between the outer shell and the inner boot used therein can be detected by sensors in an advantageous manner. In particular, by the pressure exertion of the outer, relatively hard shell on the inner, relatively soft liner, and vice versa, can be absorbed. This makes it possible to detect the interaction between the outer shell and the inner shoe as accurately as possible or to record sensor technology.
    As a result of the particularly expedient attachment of the at least one pressure-sensitive sensor on or in the inner boot, as indicated in claim 5, the interaction or the force and pressure ratio between the inner boot and the foot of a user can be detected in an advantageous manner. be done. In particular, a good fit analysis of the sports shoe relative to the foot of a user and, as a result, the respective relationship between comfort and performance can be evaluated or recorded by sensor technology. As a result, however, conclusions can also be drawn on the sporty behavior of the user or on the balance of power between the user of the sports shoe and the sports equipment or the ground.
    In the measure according to claim 6 is of advantage that thereby a trouble-free electrical connection or wiring can be made, if also the radio communication interface or the upstream electronic processing device forms a structural unit with the shell of the sports shoe or attached to the shell or is detachably mounted. In particular, contact points for the transmission of the electrical signals from the liner to the outer shell can be avoided after the respective sensors are attached directly to or in the outer shell and so a direct or reliable wired connection to the respective communication interface or to the respective processing device on Sports shoe can be created. In particular, this can be avoided contacting problems and is thus a functionally reliable, easy-to-use design achievable.
    Of particular advantage are the measures according to claim 7, since thereby the respective closing forces, which are applied or introduced by the manually or individually adjustable closing or tensioning devices on the sports shoe, are detected by sensors. In particular, this sensor technology detection of the respective force or pressure conditions can be drawn well on the respective present biasing or closing forces of the closing or clamping device on the shell of the sports shoe conclusion. In particular, this makes it possible to carry out a practicable sensor-technical detection and electronic evaluation in a simple and reliable manner, which makes reference to the respective fit, in particular to the so-called fit of the sports shoe relative to the foot of a user. In addition, this can also be used to create a balance or electronic means of evaluation for the evaluation of comfort orientation or performance orientation. Furthermore, in some cases gradually occurring relaxations of the sports shoe, as they can occur in the course of a long-lasting use of the sports shoe, can be detected. Optionally, this can counteract the loss of fit that occurs during use of the athletic shoe. After the inner shoe can at least slightly widen during intensive or long-term use or the inner shoe gradually gradually decreases in its elasticity, can be counteracted by the measures specified such a loss of fit or can such
    Change in the user behavior and the pass state of the sports shoe at least electronically detected and signaled.
    Also advantageous is an embodiment according to claim 8, as a result of the so-called balance or weight distribution of a user of the sports shoe reliable or relatively meaningful inference can be drawn. This determination of sensor technology is of particular importance in connection with alpine ski boots in particular since the weight distribution or the shifting of the weight of the user relative to the front and rear portions of the ski boot plays an essential role in the pursuit of alpine skiing.
    Also expedient are the measures according to claim 9, since thereby relatively weak electrical sensor signals can be reliably evaluated. In particular, this makes it possible to determine a relatively highly sensitive detection of the pressure conditions or the balance of power in the sports shoe or with respect to the foot of a user. By means of the electronic processing device, the respective electrical signals can be conditioned or preprocessed and transferred in high reliability to the radio communications interface in order to be subsequently transmitted wirelessly to peripheral electronic evaluation devices. In particular, this can favor the reliability or stability and the quality of the corresponding data acquisition.
    The object of the invention is also achieved by a control system according to the measures specified in claim 10. The achievable, technical effects and advantageous effects can be found in the preceding and the following description parts. In particular, according to the claims, an electronic control system is created with which it is possible for one user or several users and also third parties to carry out an electronic monitoring of the respective use or operating states. Among other things, this can be carried out a determination and control of the respective operating condition or the proper state of use. In addition, this makes it possible to achieve the most comfortable or alternatively performance-oriented possible use of the sports shoe. A particular advantage of the measures according to the invention is that the mobile computing unit used for evaluation or visualization is in many cases relatively familiar to the respective user in its use or handling, and thus high usability can be ensured. This is ensured, inter alia, by the use of a personally assigned, commercially available mobile computing unit. In addition, a high degree of user-friendliness is favored by the use of a software-based application, in particular a so-called "app". It also provides a basis for enabling a far-reaching market penetration of the control system, thereby minimizing the amount of investment per user.
    In addition to the beneficial effects in terms of control or increase the comfort or performance behavior can also be increased personal safety in conjunction with such a control system. In particular, when the respective sports shoe is set up or configured as optimally as possible for the foot of the respective user, a relatively delay-free control of the sports equipment combined with the sports shoe can be achieved. Among other things, a desired and precise or responsive control of the sports equipment, such as skis, can be supported if the sports shoe can be optimally adapted to the foot or configured to the wishes of the user. Another advantage of the inventive measures is that the specified control system can be used both by end users of the sports shoe or the control system and beyond service or sports retailers can use the control system according to the invention advantageous. In particular, the latter companies can use the specified control system especially for optimizing or adapting the sports shoe to the individual needs of the user of the sports shoe.
    The further measures according to claim 11 are also advantageous. As a result, an expanded control system can be created which also detects the movements or the orientation changes of the sports shoe. By appropriate signaling or graphical representation of the corresponding movement or orientation data of the sports shoe, the user of the control system can then be provided with an aid for assessing his athletic behavior. In particular, this makes it possible to create a so-called digital "sports coach", which offers the user data records, signal feedback and / or visualizations in order to be able to change or optimize his usage behavior. The corresponding data records make it possible to create a high-quality or relatively meaningful digital coaches. Thus, a user of the control system can change or improve the exercise of the respective sport in connection with the electronic control system according to the invention without a personal trainer being absolutely necessary. After the corresponding sensors or sensors for movement detection are arranged or fastened directly to the sports shoe, the prevailing movement or orientation of the sports shoe is determined in an undistorted manner and thus relatively accurate and reliable motion recordings can be made.
    Alternatively or in combination, a further development according to claim 12 is advantageous. In particular, the integrated or already existing GPS unit of the mobile computing unit, preferably in the form of a personal smartphone of the user, can be used to record or record extensive or regional movement data of the user of the sports shoe. By the data overlay with the additionally obtained from the sports shoe movement data then an optimized detection of the respective sporting activities of the user can be achieved. In particular, an improved motion recording and thus improved feedback with respect to the user of the control system according to the invention can be achieved by the data-technical combination and comparison or superimposition and assignment of the movement data from the GPS unit in conjunction with the movement data which are transmitted from the side of the sports shoe ,
    Also advantageous are the measures according to claim 13, since thereby the standard output means of the mobile computing unit, in particular its display, its loudspeaker and / or its vibration generator, can be used to give the user of the mobile computing unit corresponding signaling or feedback. In particular, when using the acoustic or tactile output means of the mobile computing unit, the user can also receive feedback if he does not look directly at the mobile computing unit. In particular, such a spontaneous or possibly real-time feedback is made possible with respect to the user of the control system.
    However, the measures according to claim 14 are also advantageous, since this creates a digital assistant, in particular a so-called "digital ski coach", which can give the user direct feedback with regard to his respective sports behavior. It is of particular advantage in this case that this feedback takes place promptly or at the respective time of the respective activity, which is of greater importance in terms of the training or optimization effect for the user. In particular, the training performance or the training result can be significantly increased by timely feedback in comparison to a subsequent assessment or feedback.
    Of particular advantage are the measures according to claim 15, since thereby the so-called fit or the corresponding "fit" of the sports shoe can be determined electronically or sensor technology. This is particularly advantageous for the adaptation of the sports shoe to the individual foot shapes or for the consideration of individual needs. In this case, a service specialist or another user of the control system can fall back on sensor-technical values and can thus be dispensed with assessments or statements of the respective user if necessary. It is also of particular advantage that a technical recording takes place and the assessment by the user of the sports shoe or its expressiveness can play an accompanying or subordinate role. In addition, this may require a review of the proper
    Closed states and the intended use states of the sports shoe are made relatively quickly and technically reliable.
    Also advantageous are the measures according to claim 16, since thereby the pressure or adjustment conditions in comparison between the left worn sports shoe and the right worn sports shoe, and vice versa, can be adjusted. In particular, it can be avoided that the two sports shoes of a pair of sports shoes have very different closing or fixing conditions relative to the feet of a user. As a result, a somewhat asymmetrical behavior or a nonuniformity in sports practice due to asymmetrical application of shooting forces, in particular in the course of the swing release with a pair of skis, can be obstructed. Alternatively or in combination with this, however, the comfort feeling achievable with the respective sports shoe pair can also be improved if the sports shoe worn on the left offers the same usage behavior compared with the sports shoe worn on the right.
    Also of advantage are the measures according to claim 17, since among other things the achievable in sports practice safety can be favored. For example, too little or too weak closed sports shoes can be signaled to the user. This can prevent accidents or safety-critical conditions. Bad or inadequately lashed or closed sports shoes can in extreme cases lead to sluggish reaction times of the sports equipment or to unwanted movement conversions. By means of the corresponding measures, the proper adaptation or the planned use of the sports shoe can thus be evaluated by sensor technology or electronically and, if necessary, a warning message can be transmitted to the user of the control system.
    Also useful are the measures according to claim 18, since this can be done either an automated or a user-initiated review of the respective conditions. It is also of particular advantage that this trend developments, especially gradual relaxation of the sports shoe over the foot of a user monitored, detected and can be signaled accordingly. This promotes long-term high comfort or a longer-term, higher achievable performance and / or personal safety in the exercise of the respective sport.
    However, the measures according to claim 19 are also advantageous, since thereby the respective foot or shoe climate can be determined by sensor technology and recommendations or instructions for improving the respectively prevailing conditions can be made by appropriate signaling to the user of the sports shoe.
    Finally, individually or combinatorially applied measures according to claim 20 are advantageous. In particular, this makes it possible to provide a sensor technology control system or an electronic support means which enables the user to optimize the respective sports exercise, in particular the exercise of alpine skiing. This optimization can be done both in terms of performance goals, as well as in terms of comfort orientation. Also, the exercise of the respective sport can be learned relatively quickly and, if necessary, be optimized without outside support by persons. In addition, depending on the functionality of the software-based application, the corresponding control system can represent a relatively inexpensive auxiliary tool for a large number of potential users. In addition to a corresponding learning or training effect, the corresponding control system for the respective end user, but also for third parties, an interesting recording means for comparing the respective performance or histo-rydaten represent.
    For a better understanding of the invention, this will be explained in more detail with reference to the following figures.
    In each case, in a highly simplified, schematic representation:
    1 shows a sports shoe, in particular an alpine ski boot, comprising sensors and a data communication interface;
    FIG. 2 shows the inner shoe of the sports shoe according to FIG. 1 with a plurality of pressure-sensitive sensors at different positions; FIG.
    3 shows a cross section through a generic sports shoe with a pressure-sensitive sensor.
    4 shows an embodiment of an electronic control system, in which a pair of generic sports shoes data or control technology is involved;
    Fig. 5 is a block diagram of an embodiment of an electronic control system, which is used in conjunction with a generic sports shoe.
    By way of introduction, it should be noted that in the differently described embodiments, the same parts are provided with the same reference numerals or the same component names, the disclosures contained in the entire description can be mutatis mutandis to the same parts with the same reference numerals or component names. Also, the location information chosen in the description, such as top, bottom, side, etc. related to the immediately described and illustrated figure and these position information in a change in position mutatis mutandis to transfer to the new location.
    In Fig. 1 is a side view of an exemplary sports shoe 1, which is designed here as a ski boot shown.
    Instead of the ski boot shown as an example, the corresponding sports shoe 1 by a cross-country ski boot, a snowboard shoe or the like. be formed. In particular, a generic sports shoe 1 is to be understood as any shoe which comprises an outer, comparatively stiff shell 2 or at least one relatively stiff sleeve or shaft section and a comparatively soft and flexible inner boot 3 inserted therein and is intended for the exercise of the skiing ,
    The ski boot shown essentially consists of a shell 2 and an inner shoe 3. The inner shoe 3 is preferably made of foam plastic and textile materials to provide the user with the highest possible comfort when the user's foot in the sports shoe 1, in particular in the inner shoe 3 added is. The liner 3 may be preferably removable or replaceable relative to the shell 2, or permanently connected to the shell 2, in particular glued or sewn. According to a possible embodiment of the sports shoe 1 may be designed as a touring ski boot, in which case the inner shoe 3 is usually designed to be laced, as shown in Fig. 2 by way of example. According to a particularly expedient embodiment of the sports shoe 1 is designed as alpine ski boot, in which case the inner shoe 3 usually does not have its own closing or fastening means.
    The outer shell 2, which is produced, for example, by means of a plastic injection molding process, may also have a plurality of apertures and thus also form a frame-like or cage-like retaining structure for the inner boot 3. The outer shell 2 around the inner shoe 3 is used for the most efficient and possible delay-free transmission of forces between the foot of the user and the respective sports equipment on which the ski boot is attached or is arranged.
    In both variants of a ski boot, be it alpine ski boot or touring ski boot, the inner boot 3 is received in the shell 2 and a foot received by the inner boot 3 can be held in the inner boot 3 by reducing the volume of the shell 2. The volume of the shell 2 is reduced by at least one tensioning device 4, typically tensioning buckles, wherein a different number of tensioning devices 4 may be arranged on the shell 2 on a ski boot depending on the embodiment model.
    The shell 2 preferably comprises a forefoot shell 7 for receiving the foot of a user and a cuff 6 adjoining the forefoot shell 7, which at least partially surrounds or accommodates the lower leg portion of a user. The cuff 6 - also known as shoe upper - is preferably designed as a structurally independent element and connected via two pivot bearing devices 5 with the forefoot shell 7. The pivot bearing devices 5 positioned on opposite side surfaces of the sports shoe 1 thus form a joint connection between the sleeve 6 and the forefoot shell 7, which permits angling between the forefoot shell 7 and the cuff 6. Of course, this articulated connection can also comprise connecting means which allow a combined translational and rotational coupling.
    As shown in Fig. 1, two clamping devices 4 can be arranged on the forefoot shell 7 and on the sleeve 6 respectively. But there are also versions with a total of two or three clamping devices 4 per sports shoe 1 possible. On the cuff 6 of the sports shoe 1, a band-shaped tensioning means 8 can further be arranged, by means of which a foot received in the sports shoe 1, in particular the lower leg portion of a user, can additionally be stabilized. The band-shaped clamping means 8 for the sleeve 6 extends, as is apparent from Fig. 1 by way of example, preferably continuously, in particular annular, over the circumference of the upper end portion of the sports shoe. 1
    A sports shoe 1 embodied according to the invention comprises at least one pressure-sensitive sensor 9, 9 ', 9 "for the electrical or electronic detection of mechanical pressures or forces in or on the sports shoe 1. In particular, in or on the sports shoe 1 at least one sensor 9, 9', 9 Provided, which mechanical loads, in particular pressures or forces, converted into corresponding electrical signals or can provide corresponding signals. The at least one electronic sensor 9, 9 ', 9 "can be embodied as an active or passive pressure or force sensor. The at least one sensor 9, 9 ', 9 "is expediently designed as a pressure-sensitive resistance element or as a detector operating on the resistive or ohmic principle of operation. In this case, different pressure loads, which act on the sensor 9, are mapped into different electrical resistance values, which can then be distinguished or detected by electrical signals from one another. According to an advantageous embodiment, at least one of the pressure-sensitive sensors 9, 9 ', 9 "is formed by a textile pressure sensor, which allows a relatively high flexibility or adaptability with respect to the three-dimensional shape of an inner shoe 3 or with respect to the contours of a foot shape , Such pressure-sensitive sensors 9, 9 ', 9 "are also known as" textile sensors "and are well suited for attachment to or for integration in soft-elastic or textile objects, in particular the inner shoe 3 of the generic sports shoe 1. It is also it is possible to form at least one of the sensors 9, 9 ', 9 "by means of a pressure sensor operating according to the piezoelectric principle of action.
    2, pressure-sensitive sensors 9, 9 ', 9 "are illustrated at appropriate positions of an inner boot 3. It can be expedient if at least one pressure-sensitive sensor 9 is positioned in that section of the inner shoe 3 which is assigned to the instep area or the area of the foot rest of a user next to it. As a result, in particular, the pressure loads acting from above on the tarsal bones, the metatarsals or the phalanges of a user can be well absorbed or detected. Likewise, the forces exerted by the tensioning device 4 or their activation states can thereby be detected in an indirect way in a practical manner.
    Alternatively or in combination, it may also be expedient to provide in that section of the inner shoe 3 at least one pressure-sensitive sensor 9 ', which is assigned to an inner side and / or an outer side of the forefoot, in particular in the vicinity of the base toe joints. As a result, the foot width which changes under load, whereby the foot width typically increases increasingly in the course of a day, can be detected by sensor technology in an expedient manner. In particular, it can be assumed that after hours of standing or sports loads, especially in the evenings, the width of the feet of a user, especially in the forefoot section slightly increases, which is caused by the long pressure load in the course of using the sports shoe 1. This can now be evaluated or detected by means of the at least one pressure-sensitive sensor 9 'on the inner and / or outer side of the inner shoe 3 or of the sports shoe 1.
    According to a further alternative or combinatorial embodiment, at least one pressure-sensitive sensor 9 "can be provided in or on the inner shoe 3, which receives the pressure forces or loads acting on the lower leg or shinbone section of a user. Expediently, this sensor 9 ", as shown schematically, is positioned in a section of the sports shoe 1 closest to the front section of the cuff 6. According to the example, the at least one sensor 9 "is formed directly in or on the tongue of the inner shoe 3, as illustrated by dashed lines. As a result, in particular the so-called template or the center of gravity shift of a user in the direction forward can be deceptively recognized. Alternatively or in combination, it can also be provided to provide at least one pressure-sensitive sensor 9 "in the rear section of the shank of the inner shoe 3, as indicated by dot-dashed lines. The rear portion of the inner shoe upper is substantially associated with the calf bone of a user substantially. As a result, in particular the so-called reserve or the center of gravity displacement of a user in the direction of the rear can be appropriately detected.
    According to a further embodiment, it may be provided to provide at least one pressure-sensitive sensor 9, 9 ', 9 "in the sole portion of the inner shoe 3, as was schematically illustrated by dash-dotted lines. In particular, at least one pressure-sensitive sensor 9 can be positioned in the rear sole portion of the inner shoe 3, which is assigned to the heel bone of a user nearest. As a result, sensor technology can be used to draw conclusions as to the weight distribution or the so-called balance of the user. Alternatively or in combination therewith, at least one sensor 9 ', 9 "may be positioned in the front sole portion of the inner shoe 3, which front sole portion is next assigned to the toe bale or the forefoot of a user. As a result, the respective weight distribution or the dynamic shifting of the weight of the user can also be detected, in particular with regard to the changes in his balance. The sensor technology detection of the weight distribution of the user with respect to forefoot and / or calcaneus is particularly in connection with ski boots for the exercise of alpine skiing of increased importance and practicality.
    The embodiment according to FIG. 2 represents embodiments of the at least one sensor 9, 9 ', 9 "in the inner structure of the inner boot 3. In particular, the sensors 9, 9', 9" are at least partially embedded in the plastic material of the inner boot 3. Alternatively, it is of course also possible to provide at least one of the sensors 9, 9 ', 9 "on the outer surface of the inner shoe 3 or on the inner side of the inner shoe 3 closest to the foot of a user so as to be in relatively direct contact with the foot or foot to stand the sock of a user of the sports shoe 1.
    As shown in Fig. 3, but it is also possible to arrange at least one of the sensors 9, 9 ', 9 "on the outer surface of the liner 3, as exemplified in Fig. 3. In particular, the pressure-sensitive sensor 9 for detecting pressure forces in the region of the instep or the metatarsal bones is arranged between the outer surface of the inner shoe 3 and the inner side of the forefoot shell 7. It is particularly expedient if this sensor 9 is positioned in the overlapping region 10 between side walls 11, 12 of the forefoot shell 7 or is assigned to this overlapping region 10. In particular, FIG. 3 illustrates the forefoot shell 7 of a ski boot, this forefoot shell 7 being designed in a so-called overlapping construction in which the side walls 11, 12 can variably overlap to reduce or increase the receiving volume of the forefoot shell 7. This variable overlap can, as known per se, be accomplished by at least one tensioning device 4, which is designed as a buckle, for example. In this case, the sensor 9 detects the pressure or pretensioning forces exerted by the tensioning device 4 on the forefoot shell 7, subsequently on the inner boot 3 and ultimately on the foot of a user. The sensor 9 is thus at least as an indirect detection means for the of the
    Clamping device 4 individually adjustable or individually exercised biasing or compressive forces to understand. Therefore, with the at least one sensor 9, the fit of the sports shoe 1 can be evaluated or can be determined sensor technology, in particular by electronic means, as far as the user's foot sufficiently free of play, comfortable, or perfor-mance-oriented in the sports shoe 1 is added , The at least one sensor 9, 9 ', 9 "can thus also be used to evaluate the fit or the so-called" fit "of the sports shoe 1.
    As is well known, by changing the biasing action of the at least one lever-type tensioning device 4 in the region of the forefoot shell 7, those forces or pressure loads which act on the foot of a user of the sports shoe 1, in particular holding or clamping forces against a foot of one Represent user, varied or individually adjusted. The same applies to the region of the sleeve 6, wherein also via at least one clamping device 4, as shown by way of example in FIG. 1, the biasing forces acting on the lower leg portion can be individually adjusted or adjusted. The respective biasing or holding forces with respect to the foot of the user within the sports shoe 1 can be detected via the at least one sensor 9, 9, '9 "electronically or sensor-technically and evaluated or monitored by means of an evaluation electronics described below.
    In order to accomplish this evaluation or evaluation in an optimized manner, a sports shoe 1 embodied according to the invention comprises at least one radio communication interface 13. This radio-operated communication interface 13 is for the wireless transmission of pressure signals or pressure-related data which is generated by the at least one pressure-sensitive sensor 9, 9 '. , 9 "were provided. This radio communication interface 13 is provided for a signal or data transmission in the near range, that is, for a maximum transmission distance of up to 100 m, preferably of up to 3 m formed. It is expedient if - as illustrated in FIG. 5 - the radio communication interface 13 of the
    Sports shoe 1 is designed for signal or data transmission according to the Bluetooth, ZigBee, NFC or WLAN standard. It is essential that this radio communications interface 13 of the sports shoe 1 is compatible with a standardized, wireless communication interface 14 on at least one standardized, electronic evaluation device 15. In particular, the communication interface 13 on the sports shoe 1 is designed for data communication with a corresponding communication interface 14 on an external, preferably mobile, electronic evaluation device 15. The signal or data transmission can take place unidirectionally starting from the communication interface 13 in the direction of the communication interface 14 of the evaluation device 15. Preferably, however, bidirectional data communication is provided between the shoe-side communication interface 13 and the external evaluation-side communication interface 14. An advantageous embodiment of such an electronic evaluation device 15 is illustrated in FIGS. 4, 5. It serves at least for the evaluation of the pressure conditions detected by the at least one pressure-sensitive sensor 9, 9 ', 9 "or the electrical pressure signals derived therefrom. In particular, the electrical pressure signals of the at least one sensor 9, 9 ', 9 "transmitted via the shoe-side communication interface 13 in data-technical form to the electronic evaluation device 15 and processed by this or evaluated and signaled in a practical for a user of the evaluation device 15 form especially at least visualized.
    The electronic, preferably mobile evaluation device 15 is preferably formed by a commercially available, mobile computing unit 15 ', in particular defined by a smartphone 16. Alternatively or in combination with a smartphone 16, it is also possible to use a standard tablet PC or a so-called wearable computer, for example in the form of a wristwatch. In this case, the standard existing, radio communications interface 14 of these aforementioned electronic units with the running on the sports shoe 1 radio communication interface 13 is compatible. In particular, the radio communications interface 13 on the sports shoe 1 is designed such that it can establish a data communication link with at least one radio communication interface 14 of the said mobile computing units 15 ', in particular with a radio communication interface 14 of a smartphone 16. It may be particularly useful if the radio communication interface 13 is defined on the sports shoe 1 by a Bluetooth communication interface, which with the corresponding, implemented by default Bluetooth communication interface 14 of a commercially available mobile computing unit 15 ', in particular on a smartphone 16, on a Tablet PC, or on a wearable computer, such as a wristwatch, is compatible.
    As can further be seen best from FIGS. 1 and 5, the at least one pressure-sensitive sensor 9, 9 ', 9 "is connected to an electronic processing device 17, in particular connected to the line. This electronic processing device 17 on the sports shoe 1 serves inter alia for conditioning or conditioning of the electrical pressure signals provided by the at least one pressure-sensitive sensor 9, 9 ', 9 ". According to the example, the sensors 9, 9 'are connected via electrical lines 18, 18' to a microcontroller 19 or a comparable electronic evaluation circuit within the processing device 17. The number of pressure-sensitive sensors 9, 9 ', 9 "can be easily adapted to individual needs or requirements. Likewise, it is conceivable to associate with the conditioning device 17 at least one temperature and / or humidity sensor 20 which transmits electrical signals corresponding to the prevailing temperature and / or humidity ratios via at least one line 21 to the microcontroller 19 for processing or evaluation. The pressure-sensitive sensors 9, 9 ', 9 "can be designed as pressure / voltage converters, while the temperature and / or humidity sensors 20 can also be understood as corresponding converters or converter circuits. The respective electronic processing device 17 is further signal-coupled with the radio communication interface 13 already explained above, or the electronic processing device 17 also comprises this radio communications interface 13. According to a typical embodiment, the microcontroller 19 is connected to the computer via at least one data or signal line 22 typically modular trained, radio communication interface 13 is connected. For supplying the electronic processing device 17 with electrical energy, in particular for supplying energy to the various sensors and the microcontroller 19, at least one electrical energy supply source 23, in particular at least one battery or an electrochemical accumulator, is formed on or in the processing device 17.
    The electronic or electrical components of the treatment device 17 are preferably housed in a housing 24. In contrast, especially the pressure-sensitive sensors 9, 9 ', 9 "are provided externally with respect to the housing 24 and via the already mentioned lines 18, 18', 18" -Fig. 1 - with the electronic processing device 17 line connected. According to an expedient embodiment, the housing 24 of the electronic processing device 17 is provided in the sleeve region of the sports shoe 1, in particular on the back of the sleeve 6, as exemplified in FIG. In this case, a flattening device 25, for example, a mounting bracket 26 may be provided, via which the housing 24 in the vicinity of the upper collar portion of the sleeve 6, if necessary, can be releasably secured. According to an alternative embodiment, it may be provided that the housing 24 of the electronic treatment device 17 is arranged in a receiving space 27, which can be opened and closed as required, inside a sole heel 28 of the sports shoe 1, as indicated by dashed lines in FIG. Preferably, the electronic processing device 17, in particular its housing 24, if necessary, releasably supported on or in the sports shoe 1 or mounted. As a result, among other things, a practicable charging or regeneration of the power source 24 and a simple maintenance of the electronic processing device 17 can be made. The shoe-side electronic processing device 17 or communication interface 13 and the peripherally arranged electronic evaluation device 15 or the corresponding mobile computing unit 15 'form an electronic control system 29 for the user of the sports shoe 1. However, the corresponding control system 29 also provides a useful tool for sales and service companies of such sports shoes 1.
    In Fig. 4, 5 expedient execution features of an electronic control system 29 according to the invention are exemplified. In this context, it should be noted that such a sports shoe 1 is naturally used in pairs, in particular each worn on the left and on the right foot of a user is and therefore form a sports shoe pair for left and right one formed sports shoe 1. The corresponding electronic control system 29 comprises at least one such sports shoe 1, as has been described above. Preferably, each sports shoe 1 of a sports shoe pair is provided or equipped with the previously described electronic processing device 17. Each of these electronic processing devices 17 per sports shoe 1 of a pair of sports shoes can be placed in the data communication link with the mobile evaluation device 15 of the user or also of a service technician or flander. In particular, at least one commercially available mobile computing unit 15 ', in particular a smartphone 16, a tablet PC, or a wearable computer is provided whose radio communication interface 14 is compatible with the radio communication interface 13 of the sports shoe 1 or each sports shoe 1 of the pair of sports shoes. In particular, it is expedient for the mobile computing unit 15 ', which forms the electronic evaluation device 15, to be put into communication with the two preparation devices 17 on the sports shoes 1 of the pair of sports shoes. The two signal or data communication paths 30, 31 between the sports shoes 1 and the mobile, electronic evaluation device 15 are illustrated or represented in FIG. 4 by arrows.
    Via the corresponding wireless data transmission paths or communication paths 30, 31, the pressure or temperature signals recorded on the sports shoes 1 are transmitted to the mobile evaluation device 15 for evaluation or evaluation. On the mobile computing unit 15 'or the corresponding electronic evaluation device 15, a software-based application 32 can be executed, which is provided for data evaluation of the pressure signals of the at least one pressure-sensitive sensor 9, 9', 9 ". In addition, this mobile computing unit 15 'is provided on a display 33 of the mobile computing unit 15' at least for graphic visualization of the evaluation results. In addition to an optical output device, in particular a display 33, it can also be provided that other output or signaling forms are implemented by means of the mobile computing unit 15. In particular, the software-based application 32 that can be executed on the mobile computing unit 15 'can be designed to output visually, acoustically and / or tactually detectable information or instructions to a person carrying or operating the mobile computing unit 15. In particular, the software-based application 32 can be provided for controlling at least one loudspeaker or at least one vibration generator in the arithmetic unit 15 'so as to convey an acoustic or tactile feedback to the user of the mobile arithmetic unit 15 depending on the evaluation results. According to an expedient measure, it is provided that the output of the information or instructions by means of the mobile computing unit 15 takes place in real time or without significant delay in the course of ongoing use of the sports shoe 1. The corresponding information or instructions are based on a program-technically implemented evaluation or evaluation of the pressure signals from the sports shoe 1 and / or on the movement data of the sports shoe 1.
    According to an expedient embodiment, it can also be provided that the software-based application 32 executable on the mobile computing unit 15 is designed to evaluate and / or visualize those pressure ratios which are transmitted to the computer via the at least one manually adjustable, individually adjustable closing or clamping device 4 Inner shoe 3 of the sports shoe 1, or in particular act on the foot of a user. According to an expedient embodiment, it is provided that the soft-tissue-based application 32 is set up to receive pressure signals from at least one pressure-sensitive sensor 9, 9 ', 9 "in or on a left sports shoe 1 and also pressure signals from at least one pressure-sensitive sensor 9, 9 ', 9 "in or on a right sports shoe 1 of a common sports shoe pair to evaluate and data-technically contrast or compare. This data-related comparison or the corresponding graphic-visual comparison is preferably carried out by means of the display 33. As indicated schematically in FIG. 5, this visualization may comprise illustrative diagrams, characters, symbols, such as traffic light graphics, and the like. In particular, information can be displayed in plain text or symbols and graphics can also be displayed optically on the display 33 so that the corresponding information can be visually detected by the respective operator.
    In particular, the software-based application 32, which is executable on the mobile computing unit 15 ', may be designed to significantly differentiate pressure conditions with respect to the left and right sports shoe 1 of the exemplary embodiment by means of an optically and / or acoustically and / or tactually acting output element Sport shoe pair to signal the mobile computing unit 15 '. By way of example, the traffic light graphic illustrated in FIG. 5, which can be supported by symbols or text information, can be provided for this purpose.
    In accordance with an expedient, technical measure, it may also be provided that the software-based application 32 is designed to determine the respectively prevailing pressure conditions in or on the sports shoe 1 periodically, acyclically or by manual operation by an operator, in particular by the respective data-processing equipment 17 to read on the sports shoes 1. After the corresponding reading into an electronic memory 34 of the mobile computing unit 15, the respective pressure conditions or pressure data can be compared with at least one predetermined or initially fixed reference value. Any deviations or trends, in particular any increases or decreases in the respective values, can then be transmitted via the optical system
    Output means display 33, or via tactile or acoustic output means of the mobile computing unit 15 are signaled to the respective operator.
    According to an expedient embodiment, it can also be provided that the software-based application 32 that can be executed on the mobile computing unit 15 'is designed to evaluate and / or visualize the temperature and / or moisture conditions in the interior of the sports shoe 1. These evaluations and / or visualizations are based on the signals of the at least one previously described temperature and / or humidity sensor 20 on the sports shoe 1, in particular in or on the inner shoe 3. In particular, in addition to the adjustment or pressure conditions relative to the foot of a user also the shoe or foot climate are detected electronically and information or data relevant thereto can then be communicated to the user of the mobile computing unit 15 'at least via the output means display 33.
    The software-based application 32 or the corresponding "app" can be stored in a local memory 34 of the mobile computing unit 15 'or loaded and executed by an external memory 34', in particular by a cloud service. In addition, it can be provided that data about the usage or use behavior of the sports shoe 1 or its user is stored in the local memory 34 and / or uploaded into the external memory 34 '.
    According to an expedient embodiment, as illustrated in FIG. 5, at least one inertial sensor, at least one gyroscopic sensor, or at least one inertial measuring unit 35 can be arranged or fastened to the sports shoe 1. Such an inertial measuring unit 35, also abbreviated to IMU, serves to detect the movements or orientations of the sports shoe 1 in relation to the three-dimensional space. In particular, the corresponding inertial sensor or the inertial measuring unit 35 serves to detect the linear and / or the rotational acceleration of the sports shoe 1 in the course of its use. For example, with such an inertial measuring unit 35 is the
    Movement of the sports shoe 1 in the direction of the three coordinate axes X, Y, Z in space and possibly also the rotational acceleration of the sports shoe 1 to the respective spatial axes X, Y, Z detectable. Consequently, with such an inertial measuring unit 35, the movement or the changing movement positions and the orientation of the sports shoe 1 in space can be detected. In particular, it is provided that the measurement data of the inertial measurement unit 35 is transmitted to the mobile computing unit 15 '. This can be done with the interposition of the microcontroller 19 of the processing device 17 or the inertial measuring unit 35, as shown in Fig. 5 with dash-dotted lines, directly with the communication interface 13 signal or. be coupled in terms of data technology. The data of the inertial measuring unit 35 received or receivable by the mobile computing unit 15 'via the communication interface 14 are then evaluated or evaluated by the software-based application 32 executable on the mobile computing unit 15'. In particular, the software-based application 32, taking into account the signals of the at least one inertial sensor, the at least one gyroscopic sensor, or the at least one inertial measuring unit 35, determines a temporal change in the spatial position of the sports shoe 1, in particular its spatial position and / or orientation. Furthermore, the software-based application 32 executable on the mobile computing unit 15 'is designed to record the corresponding movement data of the sports shoe 1 and to graphically visualize the corresponding movement data of the sports shoe 1 on the display 33 of the mobile computing unit 15'.
    According to an expedient embodiment, as can also be seen from FIG. 5, it can further be provided that regional movement data of the user of the sports shoe 1 are recorded by means of a GPS unit 36 integrated by default in the mobile computing unit 15 '. That is, by means of the GPS unit 36 movement data of the user of the sports shoe 1 in the course of the descent on a piste or on a slope, or in the course of the ascent are recorded with touring skis. In this context, the software-based application 32 that can be executed on the mobile computing unit 15 'can be designed to overlay the acquired regional movement data provided by the integrated GPS unit 36 in the mobile computing unit 15' with the movement data of the sports shoe 1 , especially in correlation. In particular, the data of the athletic shoe 1 obtained or provided by the inertial measurement unit 35 is superimposed or combined with the movement data of the GPS unit 36 in order to obtain meaningful data relating to the movement sequences of the user of the sports shoe 1 or the quality of the appropriate data to improve. In particular, the significance can be increased by the regional data from the GPS unit 36 within the mobile computing unit 15 'and the sports shoe-related motion or acceleration data of the sports shoe 1, which are detected via the inertial measurement unit 35 on the athletic shoe 1, be correlated. As a result, comparatively meaningful comparisons can be obtained by executing or implementing, by means of the software-based application 32, a data-related merging or superposition and assignment of the corresponding data of the GPS unit 36 and the data of the inertial measuring unit 35.
    In particular, this makes it possible for the software-based or program-technical application 32 executable on the mobile computing unit 15 'to be suitable or provided for evaluating and / or visualizing at least one of the parameters listed below. In particular, a weight distribution of the user of the sports shoe 1 or the control system 29 with respect to presentation, reserve or balance, in particular with respect to a balance of the movement of the user of the sports shoe 1 can be determined and represented. Alternatively or in combination with this, a load comparison between a left and a right-worn sports shoe 1 is made possible, or a load comparison between a sports shoe 1. 2 present on the valley side and on the mountain side can thereby be detected and visualized. Furthermore, a load behavior of the sports shoe 1 or of a pair of sports shoes 1 in the course of the initiation, the execution or the conclusion of a swing execution of the user can take place. As a result, the sporting abilities or achievements associated with the change in the direction of movement of the user of the sports shoe 1 can be analyzed and / or evaluated. In particular, a so-called digital ski coach can thereby be created, which ski coach or which electronic control system 29 can assist the user in optimizing the exercise of the corresponding skiing sport or making it more comfortable.
    The embodiments show possible embodiments, it being noted at this point that the invention is not limited to the specifically illustrated embodiments thereof, but also various combinations of the individual embodiments are mutually possible and this variation possibility due to the teaching of technical action by representational invention in Can the expert working in this technical field.
    The scope of protection is determined by the claims. However, the description and drawings are to be considered to interpret the claims. Individual features or combinations of features from the illustrated and described different embodiments may represent for themselves inventive solutions. The task underlying the independent inventive solutions can be taken from the description.
    For the sake of order, it should finally be pointed out that for a better understanding of the construction, elements have been shown partially unevenly and / or enlarged and / or reduced in size.
    REFERENCE SIGNS 1 sports shoe 29 control system 2 shell 30 communication path 3 liner 31 communication path 4 tensioning device 32 application 5 pivot bearing device 33 display 6 cuff 34,34 'memory 7 forefoot 35 inertial measuring unit 8 clamping means 36 GPS unit 9, 9', 9 "sensor 10 overlap 11 Sidewall 12 Sidewall 13 Communication Interface 14 Communication Interface 15 Evaluation Device 15 'Mobile Computing Unit 16 Smartphone 17 Conditioning Device 18, 18', 18 "Line 19 Microcontroller 20 Temperature and / or Humidity Sensor 21 Line 22 Data or Signal Line 23 Power Source 24 Case 25 Holding Device 26 Mounting Bracket 27 receiving space 28 sole heel
    权利要求:
    Claims (19)
    [1]
    1. sports shoe (1) for skiing, with an intended for receiving the foot of a user inner shoe (3), a Innenschuh (3) on the outside at least partially surrounding the outer shell (2) made of relatively hard and dimensionally stable plastic, and at least one pressure-sensitive sensor (9, 9 ', 9 ") for detecting mechanical pressures or forces in or on the sports shoe (1), characterized in that the sports shoe (1) has a radio communication interface (13), which for wireless transmission of pressure signals or of corresponding data of the at least one pressure-sensitive sensor (9, 9 ', 9 ") is formed, which radio communication interface (13) on the sports shoe (1) with a radio communication interface (14) on at least one electronic evaluation device (15) is compatible, and which electronic evaluation device (15) for the evaluation of the at least one pressure-sensitive Se nsor (9, 9 ', 9 ") detected pressure signals and the pressure conditions derived therefrom in or on the sports shoe (1) is provided.
    [2]
    2. Sports shoe according to claim 1, characterized in that the electronic evaluation device (15) by a commercially available mobile computing unit (15 '), in particular by a smartphone (16), a tablet PC, or a wearable computer, such as a wristwatch, is formed and the radio communication interface (13) of the sports shoe (1) with the standard implemented, radio communication interface (14) of the mobile computing unit (15 ') signal and data technology compatible.
    [3]
    3. Sports shoe according to claim 1 or 2, characterized in that the radio communications interface (13) of the sports shoe (1) for signal or data transmission according to the Bluetooth, ZigBee, NFC or WLAN standard.
    [4]
    4. Sports shoe according to one of the preceding claims, characterized in that arranged at least one of the pressure-sensitive sensors (9, 9 ', 9 ") in the transition region between the inner shoe (3) and the outer shell (2) and for detecting the pressure conditions between the Liner (3) and the outer shell (2) is provided.
    [5]
    5. Sports shoe according to one of the preceding claims, characterized in that at least one of the pressure-sensitive sensors (9, 9 ', 9 ") on the outer surface of the inner shoe (3) or in the inner shoe (3) is attached.
    [6]
    6. Sports shoe according to one of the preceding claims, characterized in that at least one of the pressure-sensitive sensors (9, 9 ', 9 ") on the inside of the shell (2) is fixed.
    [7]
    7. Sports shoe according to one of the preceding claims, characterized in that at least one of the pressure-sensitive sensors (9, 9 ', 9 ") is positioned in a part of the sports shoe (1) assigned to the front foot section of a user and / or in a sleeve section of the sports shoe Sports shoe (1) is positioned and adapted to detect the respective pressure conditions in or on the sports shoe (1) in dependence on at least one manually operated closing or tensioning device (4), which closing or tensioning device (4) for individual change of the inner Recording volume of the sports shoe (1) or to regulate the pressure forces against the foot of a user is provided.
    [8]
    8. Sports shoe according to one of the preceding claims, characterized in that at least one of the pressure-sensitive sensors (9, 9 ', 9 ") positioned in the front and / or in the rear portion of the sole of the inner shoe (3) and for detecting the weight distribution or the Weight shift of the user of the sports shoe (1) is set up.
    [9]
    9. Sports shoe according to one of the preceding claims, characterized in that the at least one pressure-sensitive sensor (9, 9 ', 9 ") with a sports shoe (1) arranged electronic processing device (17) is connected, which electronic processing device (17) Conditioning of the at least one pressure-sensitive sensor (9, 9 ', 9 ") provided pressure signals is formed, and which electronic processing device (17) with the radio communication interface (13) of the sports shoe (1) is signal-technically coupled.
    [10]
    Control system (29) for electronically assisted control or assessment of the usage behavior or conditions of use in connection with a sports shoe (1), characterized in that it comprises at least one sports shoe (1) according to one or more of the preceding claims, and that a commercially available mobile computing unit (15 '), in particular a smartphone (16), a tablet PC or a wearable computer, is provided, the radio communication interface (14) with the radio communication interface (13) of the sports shoe (1) is compatible, and that on the mobile computing unit (15 ') a software-based application (32) is executable, which for the evaluation of the pressure signals of the at least one pressure-sensitive sensor (9, 9', 9 ") and for graphic visualization of the evaluation results on the display (33) of the mobile Arithmetic unit (15 ') is provided.
    [11]
    11. Control system according to claim 10, characterized in that on the sports shoe (1) at least one inertial sensor, at least one gyroscopic sensor, or at least one inertial measuring unit (35) is attached, which or which for detecting the linear and / or the rotational acceleration the sports shoe (1) is provided, and that the software-based application (32) executable on the mobile computing unit (15 ') is designed based on the signals of the at least one inertial sensor, the at least one gyroscopic sensor, or the at least one an inertial measuring unit (35) to determine a temporal change in the spatial position of the sports shoe (1), in particular its spatial position and / or orientation, and that on the mobile computing unit (15 ') executable, software-based application (32) further for recording the corresponding movement data of the sports shoe (1) and for graphic visualization of the correspond the movement data of the sports shoe (1) on the display (33) of the mobile computing unit (15 ') is formed.
    [12]
    12. Control system according to claim 10 or 11, characterized in that recorded by means of a mobile computing unit (15 '), in particular in a smartphone (16), standard integrated GPS unit (36) regional movement data of the user of the sports shoe (1) and that the software-based application (32) which can be executed on the mobile computing unit (15 ') is designed to superimpose the regional movement data from the GPS unit (36) with the movement data of the sports shoe (1), in particular in correlation to bring.
    [13]
    13. Control system according to one of claims 10 to 12, characterized in that on the mobile computing unit (15 ') executable, software-based application (32) for outputting visually, audibly and / or tactually detectable information or instructions to a mobile computing unit (15 ') wearing person is trained.
    [14]
    14. A control system according to claim 13, characterized in that the software-based application (32) is adapted to output the information or instructions in real time or without significant delay in the course of ongoing use of the sports shoe (1), and these information or instructions on a data evaluation or evaluation of the pressure signals of the sports shoe (1) and / or the movement data of the sports shoe (1) are based.
    [15]
    15. Control system according to one of claims 10 to 14, characterized in that on the mobile computing unit (15 ') executable, software-based application (32) is designed for evaluation and / or visualization of those Druckver ratios, which by means of at least one manually actuating, individually adjustable closing or tensioning device (4) on the inner shoe (3) of the sports shoe (1) or act on the foot of a user.
    [16]
    16. A control system according to claim 15, characterized in that the software-based application (32) is adapted to each pressure signals from at least one pressure-sensitive sensor (9, 9 ', 9 ") in a left sports shoe (1) and pressure signals from at least one pressure-sensitive To evaluate sensor (9, 9 ', 9 ") in a right sports shoe (1) of a shared pair of sports shoes and data-technically contrast or compare.
    [17]
    17. A control system according to claim 16, characterized in that the software-based application (32) is designed by means of a visually and / or acoustically and / or tactually perceptible output element of the mobile computing unit (15 ') significantly different pressure conditions with respect to the left and right sports shoe (1) of the pair of sports shoes.
    [18]
    18. Control system according to one of claims 10 to 17, characterized in that the software-based application (32) is adapted to determine the prevailing pressure conditions periodically, acyclically or due to manual request by an operator, with at least one predetermined or initially set reference value and to signal any deviations or trends.
    [19]
    19. Control system according to one of claims 10 to 18, characterized in that on the mobile computing unit (15 ') executable, software-based application (32) for the evaluation and / or visualization of the temperature and / or moisture conditions in the interior of the sports shoe (1 ), which evaluations and / or visualizations are based on the signals from at least one temperature and / or humidity sensor (20) in the sports shoe (1), in particular in or on the inner shoe (3).
    类似技术:
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    同族专利:
    公开号 | 公开日
    AT517933A9|2017-10-15|
    AT517933B1|2017-06-15|
    引用文献:
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    US5877687A|1996-07-02|1999-03-02|Bernard; Corinne|Weight distribution training system for skiers and the like|
    US20030009308A1|2000-06-24|2003-01-09|Chris Kirtley|Instrumented insole|
    WO2008076503A2|2006-12-13|2008-06-26|Motorola, Inc.|Generation of user activity feedback|
    DE102008004298B3|2008-01-15|2009-09-03|Deutsches Zentrum für Luft- und Raumfahrt e.V.|Dance steps performance quality improving method for dancer, involves comparing detected temporal characteristic of acceleration and turning rate of body part with given target characteristic of acceleration and turning rate of body part|
    DE102014006178A1|2014-04-29|2015-10-29|Bernhard Graf|Motorized tensioning device for sports shoes|EP3578066A1|2018-06-05|2019-12-11|ATOMIC Austria GmbH|Sports shoe, in particular ski boot for practicing skiing|
    AT519869B1|2017-07-13|2018-11-15|Atomic Austria Gmbh|Sports shoe for the practice of skiing|
    AT521347B1|2018-01-10|2020-01-15|Atomic Austria Gmbh|Sports Shoe|
    AT521861A1|2018-11-13|2020-05-15|Atomic Austria Gmbh|Method and electronic system to assist a person in the practice of skiing|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA51057/2015A|AT517933B1|2015-12-11|2015-12-11|Sports shoe for skiing and control system used here|ATA51057/2015A| AT517933B1|2015-12-11|2015-12-11|Sports shoe for skiing and control system used here|
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