FR2974288A1 - Method for measuring and analyzing anthropometric characteristics of cyclist for configuring bicycle, involves measuring and analyzing values of anatomical features to determine values of setting parameters of components of bicycle - Google Patents

Abstract

The method involves positioning a user i.e. cyclist (100), at a referencing unit (17), and determining notable points of anatomy of the cyclist. The points are plotted on the referencing unit, where the plotted points indicate anatomical features such as crotch, left metatarsal, right metatarsal, width of the shoulder, heights of the left shoulder and right shoulder, and lengths of the right arm and the left arm. The values of the anatomical features are measured and analyzed to determine values of setting parameters of components of a bicycle. An independent claim is also included for a device for measuring and analyzing anthropometric characteristics of a user.

Description

The present invention is in the field of sports and ergonomics and the adjustment of sports equipment in relation to the morphology of the participant. The invention will find a preferential application, but in no way limiting, in cycling in order to improve the ergonomics and the configuration of the bicycle according to the morphology of its user, namely a cyclist. The invention is intended to improve the sporting performance of the cyclist, but also its comfort of the practice of his sport, while preserving his health. To do this, the invention is based on scientific research carried out on the kinematics and kinetics of the cyclist, in permanent interaction with his machine, which he combines with the biomechanics and physiology of exercise in order to define a man-machine couple as a whole. In short, the invention aims to accurately determine the optimal position of an athlete, in particular a cyclist, according to his morphology in order to optimize the man-machine tandem. In particular, the invention makes it possible, from the acquired positioning data, to accurately determine the optimal geometry of the frame of the bicycle according to its user, while respecting the mechanical constraints of said frame, such as the hunt on the ground, the base length or front center distance.

In addition, the invention takes into account the level of practice of the cyclist, an amateur cyclist for a recreational practice to a cyclist of a confirmed level practicing the sport in competition. To do this, the invention relates to a system for measuring anthropometric characteristics of a user and then automatically analyzing the measurements obtained to determine a posture dedicated to said user, said measurements being used to configure the geometry and adjust the bike. Thus, the system according to the invention comprises a method for measuring and analyzing anthropometric characteristics of a user, said method consisting in positioning an individual at the level of referencing means and determining remarkable points of the anatomy of said individual, said remarkable points being reported on said referencing means, characterized in that it consists in: positioning of the remarkable points determining at least the anatomical characteristics of the crotch, the left and right metatarsals, the shoulder width, the left and right shoulder heights, stature, lengths of right and left arms, - then measure the values of these different characteristics; then - analyzing said values and determining adjustment parameters of the elements constituting a bicycle. The present invention also includes an anthropometric measuring device for carrying out such a method. Such a device comprises, on the one hand, referencing means and, on the other hand, measuring means of said referencing means, the latter being provided with an amount, on the one hand, serving as reception means and guide in displacement of upper and lower toises and sleepers and, on the other hand, receiving sensors visualized by said measuring means so as to determine the distances of said anatomical characteristics. Other features and advantages of the invention will emerge from the following detailed description of non-limiting embodiments of the invention, with reference to the appended figures in which: FIG. 1 represents a perspective view of a preferential embodiment of the measuring device according to the invention; FIG. 2 represents a view similar to FIG. 1 of said device, during the step of measuring the morphological characteristics of a user, modeled schematically; FIG. 3 represents a schematic view of a user and the various measurements made, which will then be analyzed according to said method; and - Figure 4 shows a schematic view of a bicycle, highlighting certain adjustable dimensions.

The present invention relates to a system for measuring the anthropometric characteristics of a user and then automatically analyzing the measurements obtained in order to determine a posture dedicated to said user, said analyzed measurements being used to configure the geometry and adjust a bicycle. Such a system comprises a method for measuring and analyzing anthropometric characteristics of said user, a measuring device for implementing said method. First of all, said method consists in measuring anthropometric characteristics of a user, namely carrying out measurements of odds on the body of a cyclist. Thus, the measurement method according to the invention consists in positioning an individual at the level of referencing means and determining remarkable points of the anatomy of said individual, said remarkable points being reported on said referencing means. In particular, said method consists in successively measuring at least one of the following characteristics: crotch, left and right metatarsals, shoulder width, left and right shoulder heights, stature, length of right and left arms. An example of measurements is shown in Figure 3, in which the body of a user is represented on an anthropometric marble. In this embodiment, the measurements are made at the level of remarkable anatomical points, nine in number, namely: 1 - crotch: height of the floor to the crotch, in particular to the articulation of the neck of the femur; 2 - left metatarsal: distance separating the posterior face of the calcaneal bone to the head of the first metatarsal for the left foot; 3 - right metatarsal: same distance for the right foot; 4 - shoulder width: biomechanical width of the shoulders equivalent to the inter-acromial distance; left shoulder height: height of the ground up to the top of the clavicle, for the left arm, this measurement being carried out along the body; 6 - right shoulder height: same height, for the right arm; 7 - stature: height of the ground to the top of the skull; 8 - right arm length: length from the left shoulder to the end of the fingers, for the right arm, this measurement being performed with the arm raised to the square horizontally; 9 - left arm length: same length from the right shoulder, for the left arm. It should be noted that said measurements are made in the above-mentioned order, the measurements previously made making it possible to calculate some of the following measurements, as well as additional measurements. Thus, from the values of the crotch 1 and the shoulder height 5 and 6, it is possible to obtain the height of the bust. The same is true for stature 7, shoulder height 5,6 and shoulder width 4, which make it possible to obtain the values for the head and the neck. Finally, the shoulder width 4 with the length of the arms 8 and 9 makes it possible to obtain the exact length of the arms. On the other hand, comparisons of certain measurements make it possible to detect anatomical or stature-related abnormalities, for example, metatarsals or different right and left arm lengths. In addition, it will be noted that the measurements are taken at specific remarkable points which will be taken up by the device for implementing the method according to the invention. According to an additional feature, personal data of said user can be collected in order to improve the subsequent analysis of said measurements.

In particular, in no way limiting, said personal data may include: age, weight, type of practice and level, mileage over a given period (including annual), as well as saddle models, pedals and shoes. Medical data can also be added, such as certain physical or physiological pathologies (herniated disc, scoliosis, low back pain). Finally, additional data may be added and may include technical features related to at least one of the elements of the bicycle, including the stem (connecting the front of the frame to the handlebar tube). Indeed, depending on the angle and the height of said stem, the length of the steering sleeve resulting varies enormously, changing the direct influence of the user on his bike and its positioning on the latter. These two values relating to the stem allow to calculate precisely the length adapted according to the morphology of the user. Next, the method according to the invention makes it possible to analyze all this information (the measurements, the personal data and / or the additional data) to determine configuration and adjustment data of a bicycle. This analysis can be done manually by an operator or automatically by a dedicated software.

In addition, the analysis may include a verification phase of said data, in order to highlight errors or inconsistencies concerning the measurements or the entry of personal and additional data. In addition, said analysis correlates said measurements and personal and additional data with the geometry and settings of the bicycle. In addition, the measurement of the crotch 1 makes it possible to define the positioning of the femoral neck joint with respect to the axis of the bottom bracket, determining the ratio of transfer of the power of the cyclist to the pedals. The width of the shoulder 4 is correlated to the width of the hanger which, optimally chosen, limits the tensions in the cervical and trapezius, the arms remaining in the axis of the scapulo-humeral joint. The height of the shoulders 6 and 7 makes it possible to determine the length between the saddle and the hanger, that of the stem and that of the frame. The length of the arms 8 and 9 makes it possible to determine the length between the saddle and the hanger, as well as the difference in height between these two elements. It will be noted that said difference in saddle height-hanger determined is a maximum value not to be exceeded. An overshoot would induce an excessive inclination of the cyclist's trunk, disrupting the transfer of oxygen and blood oxygen, while increasing the tensions of the musculoskeletal system, which could lead to health risks, including an increase in cervical contractures. , dorsal and lumbar, aggravation of pre-existing osteoarthritis, a risk of development of iliac endofibrosis by cyclic compression of the iliac artery, compression of the diaphragm. Advantageously, said analysis makes it possible to obtain the following dimensions and settings on the bicycle (referenced in FIG. 4). Seat height: the distance measured in a direction extending along the axis of the seat tube from the bottom bracket axis to a point on the upper surface of the seat, said point being specific to each saddle; 11 - seat recess: the distance projected horizontally 30 between the bottom bracket shaft and the rear end point of the seat; 12 - saddle-hanger length: the distance projected horizontally between the rear end point of the saddle and the axis of the hanger; 35 13 - saddle-hanger height difference: the distance between a reference bearing point of the cyclist on said saddle and the top of the hanger; 14 - crank length: the distance of each crank between the crankcase shaft and the axis of rotation of the pedal; 15 - stem length: as previously defined. Previous dimensions and settings can then be reported on the bike to adapt, or even to design "custom". In the case of an adaptation, it is a correction ergonomics of an already existing bicycle, to essentially improve comfort and preserve the health of the user, the performance is not significantly increased . In the other case, it is about design ergonomics that plans to design and manufacture the entire bike according to its user. It is then possible to envisage the manufacture of a frame adapted to the morphology of the cyclist. In addition to obtaining unparalleled comfort and the assurance of the preservation of health, such ergonomics can significantly increase performance by optimizing the cycling-bike pair.

As mentioned above, on the basis of the results of the analysis, it is possible to choose the length of the cranks 14, connecting the drive trays of the chain to the pedals. This choice is related to the adjustment of the height of the saddle, longer cranks requiring a lowering of the saddle of an equivalent height, and vice versa. A configuration resulting from the previous analysis also lies in the choice of hanger (the handlebars) and the adjustment of the levers (especially for braking). The measurements make it possible to determine a single point of support on the hanger, which should be brought as close as possible to, depending on the maintenance of said hanger by the cyclist, to reduce the differences of the different possible positions of the hands and converge towards the single point of support, the points resulting from the different real points of support.

Another adjustment may be to orient the angle of the right and left blocks at each pedal, and their location relative to the shoe, longitudinally or laterally. For this purpose, the measurements relating to each of the right and left metatarsals 4 may be used, the end of the head of which corresponds to the optimum point of support of the foot on the pedal. Positioning too far in front of the wedge increases the natural lever arm, risking Achilles tendonitis by tending this tendon. Positioning too far back would limit the lever arm, and transfer power to the pedal, while generating a compression phenomenon at the level of the anterior insertion of the plantar fascia. Once these values are known, they should be transferred to the bike for configuration and adjustment. To do this, the invention can incorporate a support structure serving as a support for said bicycle which is inserted and maintained, in particular said frame. In addition, said structure comprises adjustment means, equipped with rulers, to perform the configuration of the bike and its settings to the millimeter, precisely respecting the analysis results 10 to 15 mentioned above. Advantageously, the measurement system according to the invention also comprises a specific device 16 of anthropometric measurement, for the implementation of the preceding method.

As can be seen in FIGS. 1 and 2, such a device 16 comprises, on the one hand, referencing means 17 and, on the other hand, measuring means 18 of said referencing means 17. Firstly, the means referencing 17 comprise a support 19 for receiving said user, said support comprising a base 20 surmounted by at least one post 21. The latter serves as means for receiving and moving guide, on the one hand, a board 22 upper and lower table 23 and, on the other hand, sleepers 24.

In addition, said base 20 may comprise a wedge (not shown) articulated in translation, so as to allow it to slide along a ruler, so as to accurately measure the lengths of the metatarsals 2 and 3. According to a particular embodiment of FIG. realization, the measurement of the metatarsals and the adjustment of the wedge can be carried out during the same operation through an independent connected system. The data is also introduced into the processing software in order to complete the analysis performed. Said upper board 22 is mounted in vertical translation, in particular along a rail or slot 25 formed within said post 21. Thus guided, said top board 22 can be slid up and down, or vice versa. In particular, the upper board 22 is intended to rest on the top of the skull of said user when he is on said device 16, to define a sensor 26 for the measurement of the stature 7. Moreover, the lower board 23 is it also mounted in vertical translation relative to said amount 21, along a rail or slot 27, from top to bottom, or vice versa. This slot 27 may be the same as the aforementioned slot 25. In addition, it comprises a sensor 28 for measuring the crotch 1. It will be noted that the lower toise 23 may comprise elastic return means, so as to go up to the level of the crotch of the user in place on the device 16, coming against the joint of the neck of the femur. Once in place, the toises 22 and 23 can be locked, so as to maintain their position on said post 21. On the other hand, the crosspieces 24 are in the form of arms extending laterally substantially orthogonal to the horizontal, on both sides of said amount 21. These sleepers are used for positioning the arms of the user and the extent of its size, namely the length of each arm 8 and 9.

To do this, said sleepers 24 are provided adjustable on the one hand vertically sliding vertically with respect to said upright 21 and, on the other hand, lengthwise through a telescopic portion 29. As a result, by sliding of this portion 29, it is possible to enlarge or shorten each cross member 24.

In addition, the end of each crosspiece 24 is equipped with a sensor 30. On the other hand, the upright 21 may comprise two sensors 31 slidably mounted, on the one hand, vertical relative to and from both sides. other said amount 21 and, secondly, laterally horizontal. Such sensors are intended to rest on each shoulder of the user, can measure the corresponding heights 5 and 6, and the shoulder width 4. According to another feature, said device 16 comprises measuring means 18 of said referencing means 17. These measuring means 18 make it possible to identify and measure the distances between the various sensors mentioned above. To do this, according to the preferred embodiment, the measuring means 18 include means 34 for capturing images, such as a camera or a camera, in digital format. Once recorded, the images are processed to determine said distances, in particular the nine characteristic measurements 1 to 9. This determination is made possible through a distance defined between the referencing means 17 and the measuring means 18. Indeed, as in the embodiment shown in FIG. 1, said measuring means 18 are connected to said referencing means 17 through at least one rail 32, making it possible to accurately adjust the distance separating the two means. one or the other being slidably mounted on said rail 32. With this known distance, depending on the capture means 34 used, it is possible to accurately determine the distances on the images made.

As such, said measuring means 18 can integrate a support 33 for fixing and adjusting the alignment, particularly in height, of said capture means 34. Such a support can be likened to a tripod provided with a housing to receive said camera or said camera. Other sensors may be positioned, fixed or articulated with respect to said referencing means 17, so as to constitute reference points or a reference frame to facilitate the measurements.

According to another characteristic of the invention, preferably, the method also involves a measurement protocol comprising several successive steps in order to determine the remarkable anatomical points mentioned above and to adjust said measuring device 16, in particular its sensors. Referring to Figure 4, firstly, an individual 100 is positioned at the referencing means 17, his feet 101 coming to rest flat on the base 20, the heels and the back attached to said amount 21. First , an operator positions the lower board 23 at the level of the crotch 1, then the top board 22 on the top of the skull 102 of said individual 100, by sliding them along the post 21. Then, the individual 100 being the arm 103 horizontally, hand 104 stretched, taking a position in a cross so that the operator places the end sensors of the sleepers 24. Then, the individual 100 lowers the arms 103 to bring them vertically along his body, namely his bust 104. The operator then places the sensors 31 at the shoulders 105, to mark the heights 5,6 and shoulder width 4. Therefore, with the sensors positioned correctly and accurately, it is possible to take an image, or more, on which appear said sensors. As such, the ends of said sensors may comprise specific areas particularly visible on the image taken, in particular invisible to the naked eye, but viewable through a filter applied to said image. At any time, the operator can also measure the lengths of the metatarsals 2 and 3 using the wedge. It should be noted that except for this measurement, it is not necessary for said individual 100 to remain in place once the sensors are positioned. Thus, the measurement system 17 and analysis, and configuration and adjustment of a bike, directly related to the morphology of the user, allows the sport, to ensure comfort, while respecting his health and developing its performance. In particular, the invention improves the positioning of the upper body by minimizing muscle stresses, while promoting an optimal position for oxygen transfer from the pulmonary alveoli to the blood capillaries, and vice versa. Regarding the lower limbs, the precise position of the femoral neck articulation optimizes the pedaling rate, in particular by facilitating the passage of the transition zone between extension and flexion.

In addition, the positioning thus obtained takes into account the aerodynamics of the cycling-bike pair, by determining the smallest frontal surface of wind resistance that does not generate physiological and biomechanical constraints.

Claims (5)

REVENDICATIONS1. A method of measuring and analyzing the anthropometric characteristics of a user, said method comprising positioning an individual (100) at a referencing means (17) and determining remarkable points of the anatomy of said individual (100), said remarkable points being reported on said referencing means (17), characterized in that it consists in: positioning of the remarkable points determining at least the anatomical characteristics of the crotch (1), left (2) and right metatarsals ( 3), shoulder width (4), left (5) and right (6) shoulders, stature (7), right (8) and left (9) arm lengths, - then measure the values of these different characteristics; then - analyzing said values and determining adjustment parameters of the elements constituting a bicycle. 2. Method according to claim 1, characterized in that it consists in introducing into said analysis personal data to said user. 3. Method according to one of claims 1 or 2, characterized in that said adjustment parameters comprise at least the seat height (10), the seat recess (11), the saddle-hanger length (12), the height difference saddle-hanger (13), the length of crank (14), the length of bracket (15). 4. An anthropometric measuring device (16) for carrying out the method according to any one of the preceding claims, characterized in that it comprises, on the one hand, referencing means (17) and, on the other hand, measuring means (18) of said referencing means (17), the latter being provided with an upright (21), on the one hand, serving as reception and guide means moving 35 toises higher than (22) and lower (23) and sleepers (24) and, on the other hand, receiving sensors viewed by said measuring means (18) so as to determine the distances of said anatomical features. 5. Measuring device according to claim 4, characterized in that said measuring means (18) comprise a camera or a camera (34) designed capable of taking at least one image of said sensors.