FR2998385A1 - Accessory for optimization of pantoscopic inclination angle of corrective lenses of spectacles frame, has support abutting on upper part such that accessory swivels relative to frame, so that branches support against lower part of frame - Google Patents

Abstract

The accessory (1) has two main branches (20) extending from a support (10) and in front of a frame. The support abuts on an upper part of the frame such that the accessory swivels relative to the frame along a definite axis by contact points between the support and the upper part of the frame, so that the main branches support against a lower part of the frame. The support comprises two secondary branches, and the main branches exhibit a radius of 125 mm in a zone (22) adjacent to the support. The main branches are arranged at a distance of 90 mm from each other. An independent claim is also included for a method for optimization of optical characteristics of corrective lenses of a frame.

Description

FIELD OF THE INVENTION The present invention relates generally to the analysis of the visual behavior of a subject, for the purpose of optimizing the optical characteristics of corrective lenses to be worn. The invention relates more particularly to the determination of the orientation of the corrective lenses of an eyeglass frame relative to the wearer's face. BACKGROUND ART In a known manner, the production of a corrective eyeglass frame requires the taking of physiognomic measurements taking into account the configuration of the frame on the wearer's face in order to provide the correction actually desired, and this taking into account the position reserved for corrective lenses on the wearer's face.

It is, in other words, to adapt the glass to the chosen frame. These measurements, illustrated in FIGS. 4a and 4b, are mainly those of the following parameters: pupillary distances PI and P2, corresponding to the distance between the nasal line and the pupils respectively, the heights P3 and P4 corresponding to the distance between the lowest point of the mount and the associated pupil. Throughout the remainder of this document, and to take into account the precise definition of the height, the lowest point of the mount (or) its lower limit) will be deemed to refer to the lowest point of the mount's bezel in the case where the frame comprises a bezel (the bezel is the profile in which is inserted the corrective optical glass), - the glass-ceil distance P5, - the heading of the head, that is to say an angled angle that reflects the fact that the subject tends to have his head more or less turned to the left or to the right when he looks at an object placed in front of him, and - the pantoscopic angle of inclination of the P6 mount, which reflects the fact that the subject tends to have his head more or less raised or lowered when he looks at an object placed in front of him. For a given mount, it is the inclination of the average plane of the glasses relative to the vertical. The measurement of these parameters requires a particular care to the positioning of the face of the wearer if we want to avoid measurement errors, which must be performed on a front face or profile. If necessary, they must otherwise be corrected taking into account the rotation of the wearer's face at the time of measurement, to ensure that the measurements correspond to the actual parameters. The realization of the glasses is found otherwise significantly degraded. It is therefore important to either measure the images exactly face or profile, or correct the measurements made. Numerous systems are already known for optimizing the position of corrective lenses in a frame relative to the relative position of the pupils of the eyes of the subject and the frame. For example, the document FR 2 892 529 describes a system for assisting the determination of vision correction, comprising: a camera capable of taking animated images of the face of the subject according to a determined axis of view; display device for representing the images taken by the camera, - an accessory adapted to be fixedly worn by the subject's head and carrying a plurality of visual cues, - visual target means (s) susceptible to cover at least two regions determined with respect to the camera, and - image analysis means capable of analyzing the position of the visual cues in the images taken by the camera and of deducing from it the position and the orientation in the space of the accessory, and therefore of the subject's head, when his gaze is on a visual target, to deduce a visual behavior information of the subject during a vision that has moved.

The accessory 1 'proposed is illustrated in Figure 5, and comprises a main body 2' horizontally elongated with two lateral branches 3 ', 4' also horizontal, extending substantially at right angles to the rear relative to the main body. The main body 2 'comprises along its lower edge two small clamps 5', 6 'intended to catch on the upper edges of two spectacle lenses (or on a frame) carried by the subject 6, the branches 3 ', 4' may also include, not shown, arrangements for wedging on the branches of the frame. In this way, once the subject has put glasses (corrective or optically neutral, or the bare frame) in a stable position, and the accessory 1 'has been put in place, said accessory occupies a well-positioned position. defined relative to the subject's head. The accessory 1 'comprises a number of markers or visual cues, here eight square areas 7' of a well-identified color, for example a bright green of a well-defined wavelength. The main body 2 'of the accessory has an upwardly projecting portion 8', in the upper region of which there is a mark 7 ', and a forwardly projecting portion 9', at the free end of which is another marker 7 '. This accessory has already been proven, and allows, using its pins 7 ', to determine the inclination and orientation of the subject's face on shots, and to deduce the parameters necessary for the realization of the mount. However, it does not make it possible to simply, directly and safely measure the pantoscopic angle of the frame.

It has also been proposed in document FR 2 931 258, an installation for the determination in particular of the curve of an eyeglass frame, comprising an accessory configured to be fitted on the frame, and comprising a central portion which extends longitudinally. between two opposite ends, which respectively comprise a fixing end. The fixing end has a front branch adapted to bear in front of the lenses of the frame, and on the opposite side, a rear branch, shorter, bearing behind the lenses. Thus, the attachment ends overlap the glasses and the lateral edges, respectively, of the two lens housings, in the vicinity of the respective two branches of the frame, leaving free the patient's visual space. This accessory, which is thus completely integral with the frame, further has calibration marks, comprising a white mark in the form of a disc and in the center of which is carried a black dot. The central portion of the accessory further comprises a protruding barrel rod provided at its end with an additional mark. Finally, the central bridge of the frame is provided with a registration element consisting of a glued pastille, which constitutes additional positioning mark. This accessory then makes it possible to determine the curvature of the frames, thanks in particular to the measurement of the distance between the mark of the barrel and the mark fixed on the frame. Nevertheless, in this document, the accessory must be used in combination with an additional mark fixed on the frame. Moreover, it does not allow to make an accurate measurement of the pantoscopic angle of the frame, insofar as it is considered in this document that the average plane of the glasses corresponds to the plane of the arch. However, the inclination of the hoop depends on the point of support of the branches on the glasses, which itself depends on the type of frame, the curvature of the glasses, as well as the shape of the branches, which can not be determined accurately using the two front images made using the installation described in the document.

SUMMARY OF THE INVENTION An object of the invention is therefore to propose a new accessory for analyzing the visual behavior of a subject as well as the measurement of the position of the eyes facing the lenses of a frame, for purposes optimizing the optical characteristics of lenses of a frame mounted by a subject, which allows a simple and quick way to determine certain parameters such as the pantoscopic angle of the frame, without hindering the gaze of the wearer, which can be adapted to any type of frame, regardless of the type (frame with or without strapping), the shape or dimensions of the frame, and which is also low cost and adaptable to most visual behavior analysis or measuring the position of the eyes next to the lenses of a mount. For this purpose, the invention proposes an accessory for optimizing the optical characteristics of lenses of a frame, including in particular a pantoscopic angle of the frame, said frame comprising the lenses and a structure adapted to receive and fix said lenses, comprising a support, two main branches, extending from the support and configured to extend in front of the mount, and 15 visual cues, characterized in that the support is configured to bear on an upper part. the mount so that the accessory is pivotable relative to said mount along an axis defined by the points of contact between the support and the upper part of said frame, so that the main branches come in support against a lower part of the frame. Certain preferred but non-limiting characteristics of the accessory according to the invention are the following: the principal branches are curved and have a point of inflection at which a concavity of the curvature of the main branches changes, the concavity of the main branches being oriented towards the mount in an area adjacent to the support, and in a direction opposite to said mount in an area adjacent to their free end, the support comprises two secondary branches, each extending towards the rear of the mount since an area adjacent to the main branches, - when the accessory is mounted on the frame, it has a bearing area of the support on the upper part of the frame and a support zone of the main branches on the lower part of the frame , and in that said bearing zones are included in a mean plane of the glasses, the main branches have a first radius in the adjacent to the support, between 100 and 150 mm, preferably of the order of 125 mm, the main branches have a second radius of curvature in the zone adjacent to their free end, the first radius of curvature being larger than the second radius of curvature, the second radius of curvature is between 30 and 100 mm, preferably of the order of 70 mm, the accessory further comprises: an upwardly projecting portion provided with a visual cue in an upper region, and * a forwardly projecting rod with a visual cue at its free end, - the accessory further comprises a hoop, extending from the support zo between the branches main, which comprises a visual cue at each free end, - the main branches are separated by a distance of between 80 mm and 120 mm, preferably of the order of 90 mm, and - the visual cues comprise a pattern geometric in fo checkerboard. According to a second aspect, the invention also proposes a method for optimizing the optical characteristics of lenses of a frame, in particular a pantoscopic angle of the frame, comprising the following steps: placing an accessory as described above on the frame whose optical characteristics are determined, so that the support rests on the upper part of the frame, and the main branches rest against its lower part, - take an image of the subject's head, bearing the frame and the accessory, - determine the inclination of the accessory from the image of the subject's head, - determine three-dimensional coordinates of the attachment points of the accessory on the frame, and - derive a value from the pantoscopic angle of the mount.

Certain preferred but non-limiting features of the optimization method according to the invention are the following: the three-dimensional coordinates of the points of support of the accessory on the frame are determined from a height of the frame, and support points of the accessory at the level of the upper part of the frame are defined as corresponding to an intersection between the projection in the middle plane of the frame of the main branch opposite and the upper part of the frame.

BRIEF DESCRIPTION OF THE DRAWINGS Other features, objects and advantages of the present invention will appear better on reading the detailed description which follows, and with reference to the appended drawings given as non-limiting examples and in which: FIG. 1 is a front view of an embodiment of an accessory according to the invention, Figure 2 is a side view of the accessory of Figure 1, Figures 3a to 3d are profile views of a subject bearing different shapes and types of frame on which has been positioned an example of accessory according to the invention, Figures 4a and 4b illustrate the optical measurements usually made before placing the glasses on a frame, Figure 5 is an example of an accessory according to the prior art, and FIG. 6 is a flow chart showing various steps of an exemplary embodiment of the method for optimizing the optical characteristics of optical glasses. a frame according to the invention.

DETAILED DESCRIPTION OF AN EMBODIMENT In what follows, it will be considered that a frame 2, for example a spectacle frame 2, comprises: glasses 3, and an armature, adapted to be worn by the wearer, and keep the glasses 3 in position. Usually, when taking measurement, the glasses 3 are neutral or solar correction demonstration glasses and not corrective lenses. This is however not limiting, insofar as the method and the optimization system according to the invention can also be implemented on corrective lenses. The frame 2 may be encircled, partially or completely, and then comprises housings intended to receive and fix the lenses 3 in position relative to the armature, connected together by a central bridge provided to come opposite the nose of the subject 6. Alternatively, the frame 2 may be free of strapping, in which case the glasses 3 are directly connected together by the central bridge, and possibly fixed on support legs provided to abut against the lateral sides of the head of the subject 6.

The frame 2 comprises an upper part 4 and a lower part 5. In the case of a rimmed frame 2, the upper part 4 (respectively lower) then corresponds to the upper (respectively lower) rim of the frame 2, whereas in the case of a frame 2 not circled, the upper part 4 (respectively lower) of the frame 2 corresponds to the upper edge (respectively lower) of the glasses 3.

One objective in particular is to measure the pantoscopic angle P6 of the frame 2, which corresponds to the inclination of the average plane Pm of the corrective lens relative to the vertical, where the average plane Pm passes through the upper part 4 and the part lower 5 of the frame 2.

To enable this measurement, the accessory 1 is dimensioned such that it bears on the upper part 4 and the lower part 5 of the frame 2, whatever the shape, the dimensions or the strapping of said frame 2. For this, the accessory 1 comprises: - a support 10, configured to be placed on the upper part 4 of the frame 2, - two main branches 20, extending from the support 10 and configured to extend forward of the mount 2 to bear against the lower part 5 of the mount 2, and - markers, or visual cues 30, extending in a plane substantially parallel to the plane of the main branches 20. The support 10 and the main branches 20 are fixed relative to each other and not deformable under normal conditions of use, to ensure the accuracy of the measurements made. For example, the accessory 1 can be made by molding in a rigid plastic material or metal. Furthermore, the support 10 is configured to bear on the upper part 4 of the frame 2 so that the accessory 1 is pivotable relative to the frame 2 along an axis X defined by the points of contact of the support 10 and the upper part 4 of said frame 2, so that the main branches 20 bear against the lower part 5 of the frame 2. In this way, the angular position of the accessory 1 is not constrained by its fixing means on the frame 2, insofar as it is simply placed on it and that its equilibrium position is defined by the respective position of the upper parts 4 and lower 5 of the frame 2 against which it is supported, allowing accurate measurements of the P6 pantoscopic angle. For comparison, when the accessory 1 is fixed on the frame 2, for example by snapping, as is the case of the accessory described in documents FR 2 892 529, its angular position is constrained by its own means. it is therefore not possible to determine the pantoscopic angle P6 of the frame using the accessory only, and other measurements must be made (for example an estimate of the position of the mean plane Pm of the frame on a side image of the subject's face 6).

The support The support 10 is adapted to be placed on the upper part 4 of the frame 2. According to a first embodiment, as illustrated in the figures, the support 10 can be in two parts and form two points of support against the upper part 4 of the frame 2, a first of said parts being adapted to bear at a first of the glasses 3, the other of said parts being supported at the level of the other of said glasses 3. The parts are then interconnected by a bow 12, having a main direction extending along a longitudinal axis X.

Here, the two parts of the support 10 are each formed of a secondary branch, extending substantially perpendicularly to the arch 12, towards the rear of the frame 2. The secondary branches 10 are preferably substantially shorter than the branches main 20, so as not to come into contact with the face of the subject 6 and not to disturb the measurement of the different parameters. The secondary branches 10 may have a slight curvature, whose concavity is oriented towards the main branches 20, to improve the maintenance and balance of the accessory 1 on the frame 2 and reduce the risk of contact with the face 6. The curvature of the secondary branches 10 may be continuous, or accentuate towards their free end 11. In addition, in order to prevent the accessory from slipping and to prevent any injury of the subject 6, especially in case of mishandling, the secondary branches 10 may be covered with a protective sleeve 13, for example, a silicone sleeve or a non-slip and deformable plastic material. The accessory 1 may further comprise a rod 14 protruding forwardly from the arch 12, provided at its free end 14a with a visual cue 30. The visual cue 30 preferably extends perpendicular to the direction of extension of the rod 14, so as to be visible from the front when the accessory 1 is positioned on the frame 2. The rod 14 preferably extends from a central zone of the arch 12, or between the two glasses 3 when the accessory 1 is mounted on the frame 2, perpendicularly to the longitudinal axis X. Advantageously, the rod 14 protruding forwardly and the secondary branches 10, which project towards the rear of the Accessory 1, together improve the stability of the accessory 1 on the mount 2. The accessory 1 may also include an upwardly projecting portion, provided with another visual cue 30 in an upper region 15a. This portion 15 may also extend from the central zone of the arch 12. According to a second embodiment, the support 10 comprises a wall having a main direction extending along the longitudinal axis X. When the accessory 1 is placed on the frame 2, the wall then bears against the upper part 4 of the frame 2 (either against the upper edge in the case of a rimmed frame 2 or against the upper edge of the lenses 3 in the case a frame 2 without strapping). The accessory 1 may then further comprise an additional wall 30, extending perpendicularly to the support wall 10, and adapted to receive the visual cues 30 and, where appropriate, the rod 14 and the portion 15 projecting towards the high.

It will be understood that in this embodiment, the wall plays the role of the secondary branches 10, in particular to position the accessory 1 on the frame 2 or stabilize it in its equilibrium position. The characteristics mentioned above for the secondary branches 10 therefore apply mutatis mutandis (curvature, length, protective sleeve 13, etc.). It is the same for the additional wall. Main branches The main branches 20 extend from an area adjacent to the support 10 of the accessory 1, and are configured to bear against the lower part 5 of the frame 2 so as to balance the accessory 1 on the frame 2 and to give it an inclination corresponding to its pantoscopic angle P6, to allow an accurate measurement of this angle.

In the embodiments illustrated in the figures, the main branches 20 each extend in the extension of main strands 21 fixed on the hoop 12, which extend towards the rear of the accessory 1. The main branches 20 being configured to bear against the lower part 5 of the frames 2, they extend perpendicularly to the direction of the main strands 21. The intersection between a main strand 21 and the corresponding main branch 20 therefore forms a bend substantially at 90 ° and the main branches 20 are offset with respect to the plane of the hoop 12. This is however not limiting, since the main and secondary branches 10 can extend directly from the hoop 12, the branches main 20 then extending substantially in the same plane as the hoop 12, while the secondary branches 10 extend rearward, in the direction opposite to the rod 14. The branch s 10, which form the support 10 of the accessory 1, extend in the extension of a secondary strand 16 16, also fixed to the hoop 12 and which extends parallel to the main strand 21. The main 21 and secondary 16 strands are here relatively close. Furthermore, the intersection between a secondary strand 16 and the corresponding secondary branch 10 is preferably adjacent to the intersection between the main strand 21 and the corresponding main branch 20. It will therefore be understood that, in this configuration, the upper portion 4 of the frame 2 is positioned between the main branches 20 and the secondary branches 10, which together form a V offset from the hoop 12 by a corresponding distance to the length of the main 21 and secondary strands 16. The angle formed by the main branches 20 and secondary 10 must be large enough not to hinder or prevent the insertion of the frames 2 between said branches 10, 20, whatever the 3. For example, the principal and secondary branches 10 may together form an angle α of between 30 ° and 60 °, for example of the order of 50 °.

Depending on the dimensions of the frames 2 and in particular their thickness, it remains possible that the upper part 4 of the frame 2 can not penetrate sufficiently between the main branches 20 and secondary 10 to reach their intersection. In this case, the accessory 1 bears on the upper part 4 of the frame 2 at a distance from this intersection. This offset of the support of the accessory 1 in the upper part 4 does not have the effect of distorting the measurement of the pantoscopic angle P6, since the accessory 1 remains resting on the upper part 4, and inclines towards its equilibrium position so that the main branches 20 come into contact with the lower part 5 of the frame 2, thus making it possible to measure the pantoscopic angle P6. According to one embodiment, the main branches 20 are curved, so that they only come into contact with the lower edge of the frame 2 in order to avoid any disturbance of the measurement of the pantoscopic angle P6. The curvature of the main branches 20 has a point of inflection 24, at which its concavity changes. More specifically, the concavity of the curvature of the main branches 20 is oriented towards the frame 2 (ie towards the rear) in the upper part 22 of the branches 20, adjacent to the support 10, and in the direction opposite to said frame 2 (either towards the front) in a lower part 23 of branches, adjacent to their free end 25. In this way, whatever the size, shape or type of frame 2 (circled or not), the main branches 20 are configured to bear only against the upper part 4 (upper edge of the frame 2 or upper edge of the corresponding corrective lens 3, depending on the type of strapping), and the lower part 5 of the frame 2 (lower edge of the frame 2). or lower edge of the corresponding corrective lens 3, depending on the type of strapping). The part of the main branches 20 bearing against the lower part 5 of the frame 2 varies according to the form and type of the frames 2: - In the case of a frame 2 of small dimensions (FIG. 3b), and in particular of low lens height, the main branches 20 are supported in the zone 22 having a concavity oriented towards the frame 2, or above the point of inflection 24. - In the case of a frame 2 of large dimensions (Figure 3c ), and especially high glasses 3 (for example solar mounts), the main branches 20 are supported in the zone 23 having a concavity oriented in the opposite direction relative to the frame 2, or below the point d In order to ensure that the lower part 23 of the main branches 20, situated above the point of inflection 24, does not come into contact with the lenses 3 and bears only on the support 10 of the frame 2, it may be necessary to remove the glasses 3 during the measurement. This is particularly the case for the very large frames 2 (Figure 3d), including solar mounts 2 (for which the glasses must in all cases be removed in order to measure the parameters P1 to P4). - In the case of a frame 2 not circled (Figure 3a), the main branches 20 bear against the lower edge of the glasses 3. The portion of the main branches 20 in contact with these edges therefore depends on the height of the glasses 3 It will be noted that, in the case of unframed frames 2, the lenses 3 are generally of low height or of medium height so that the contact between the main branches 20 and the lenses 3 is at their upper part 22, above the point of inflection 24, so that the positioning of the accessory 1 on the frame 2 remains generally possible without contact with the curved portion of the glasses 3. Due to the specific curvature with inflection of the main branches 20, the inclination of the accessory 1 is not disturbed by the presence of obstacles, including the glasses 3. Moreover, thanks to the curved shape towards the front of the lower part 23 of the branches, we avoid everything contact with the face of the subject 6, in particular with its cheeks, which would have had the effect of modifying the inclination of the main branch 20 and thus distort the measurement of the pantoscopic angle P6. The length and the curvature of the upper part 22 (between the support 10 and the point of inflection 24) and the lower part 5 (between the point of inflection 24 and the free end 25) of the main branches 20 may be determined from the known shapes of frames 2 in order to be used with a majority of current frames 2. Thus, the Applicant has found that with branches dimensioned such that: * the length of the upper portion 22 of the main branches 20 (between the support 10 and the point of inflection 24) is between 20 mm and 40 mm, preferably of the order of thirty millimeters, for example 32 mm, for a curvature with a radius of between 100 mm and 150 mm, preferably of the order of 125 mm, and * the length of the lower part 23 of the main branches 20 (between the point of inflection 24 and the free end 25 of the branches 20) is at least equal to ten millimeters, preferably between 20 mm and 40 mm, for a curvature of a radius of between 30 mm and 100 mm, preferably of the order of 70 mm, the accessory 1 could be used with a very large majority of frames 2, even not circled, without touching the face of the subject 6 or the curved part of the glasses 3. Indeed, the length of the main branches 20 is thus suf it is designed to come into contact with the lower part 5 of any type of frame 2, even having housing for glasses 3 of high height, for example between 50 and 60 mm in height. Moreover, the sizing of the upper part 22 of the main branches 20 of the accessory 1 makes it possible to avoid any contact with the curved surface of the glasses 3 of the vast majority of the frames 2 not rimmed or half-rimmed. The accessory 1 is therefore supported only on the upper 4 and lower 5 parts of the frame 2, so that it is possible to determine the inclination of the pantoscopic angle P6 accurately, using the visual cues. 30 and the dimensions of the frame 2 which is sought the pantoscopic angle P6. It is therefore understood that by placing the accessory 1 on the frame 2, the main branches 20 abut against the lower part 5 of the frame 2, which tends to rotate the accessory 1 about an axis of rotation which passes through the support points of the accessory 1 on the frame 2 (at the support 10 of the accessory 1), and thus allows to accurately determine the value of the pantoscopic angle P6. This rotation is allowed in particular by the fact that the accessory 1 is not snapped onto the frame 2, but simply placed on it and held in position thanks to the shape of the main branches 20 and secondary branches 10.

In order not to hinder the field of view of the subject 6, the main branches 20 are spaced apart by a distance of between 80 mm and 120 mm, preferably of the order of 90 mm. In this way, the subject 6 can look at a target in the distance (or near), without his gaze being constrained by the presence of the main branches 20. Moreover, the main branches 20 can be provided, at least at the level of their lower part 23, a sleeve 26 of silicone or a non-slip plastic and deformable (see for example Figure 3d). The sleeves improve the attachment of the main branches 20 on the lower part 5 of the frame 2, reduces the risk of injury to the subject 6 due to possible mishandling and further avoids the risk of damage to the frame 2 by the accessory 1.

When the main branches 20 are provided with a sleeve 26, it preferably covers their lower part 23 and at least a portion of their upper part 22 so as not to distort the pantoscopic angle measurements. Indeed, the sleeve 26 could create a rupture of the curvature at its upper end, thus causing uncertainty on the coordinates of the support points of the accessory 1 on the frame 2. Visual cues 30 Visual cues 30 may include areas of shape and zo of color determined, for example square areas of an identified color such as a bright green of a well-defined wavelength. Alternatively, as illustrated in the figures, the visual cues 30 may comprise geometric shapes of well-defined size, for example at least four black and white squares of equal and alternate dimensions to form a checkerboard. The positioning, the dimensions and the precise knowledge of the shape of the accessory 1 makes it possible to determine, according to conventional image analysis techniques, the parameters P1 to P5 with precision using geometry-based algorithms. trigonometric. In particular, reference may be made to application FR 2 892 529 for more details. For example, visual markers 30 may be arranged, in a fixed manner relative to the accessory 1, at each of the free ends 12a, 12b of the arch 12, on the free end 14a of the rod 14 projecting forward, as well as on the upper region 15a of the portion 15 projecting upwards. These visual cues 30 are therefore visible when the subject 6 is from the front. Additional marks may also be added on the sides of the accessory 1, for example at the main branches 20 and secondary 10, depending on the measurements made. In a manner known per se, thanks to images taken from the front and / or from the side, it is then possible to determine the parameters P1 to P5. The accessory 1 of the invention therefore makes it possible to determine, quickly, simply and precisely, all the parameters P1 to P5 conventionally sought to optimize the optical characteristics of corrective lenses of a frame (2). It is of course possible to adopt any other arrangement of visual references on the accessory 1, of identical or different colors, allowing by simple image analysis to determine the position and the orientation, according to the six degrees of freedom, of the 1. Determination of pantoscopic angle P6 In addition to the parameters P1 to P5, the accessory 1 makes it possible to determine the pantoscopic angle P6 of the frame 2 according to the following determination method S. During a first step S1, the accessory 1 is placed on the frame 2, so that the support 10 rests on the upper part 4 of the frame 2, while the main branches 20 rest against its lower part. 5. For this, as we have seen above, the glasses 3 can be removed when the frame 2 is large and circled. During a second step S2, an image capture of the head of the subject 6 is carried out with a suitable shooting device. It may be a camera, a video camera, or any other shooting device capable of capturing an image of the subject's face 6, its frame 2 and the accessory 1. By for example, the camera can be integrated into an installation according to the document FR 2 892 529 for example. Preferably, the image is taken such that all the visual references 30 of the accessory 1 and the frame 2 are visible on the image. According to a preferred embodiment, the image is taken from the front. During a third step S3, the inclination of the accessory 1 is determined, which corresponds in fact to the inclination of the hoop 12. For this, the position and the orientation of the accessory 1 are determined. according to the six degrees of freedom with respect to the image taking device, by image analysis using algorithms based on trigonometric geometry. In particular, by means of the visual cues 30 disposed at the free ends of the rod 14 and the portion 15 projecting upwards, it is possible to determine the inclination of the accessory 1 about the axis X. The principal branches 20 being curved, the inclination of the hoop 12 does not correspond exactly to the inclination of the frame 2. It is therefore preferable, during a fourth step S4, to determine the three-dimensional coordinates. points of support of the accessory 1 on the frame 2 in order to refine the evaluation of the pantoscopic angle P6. The bearing points of the accessory 1 on the mount 2 are estimated in three dimensions relative to the accessory 1. The positioning of the support points is substantially constant along the longitudinal axis X, in particular when the support 10 is constituted by the two secondary branches 10. On the other hand, the positioning of the upper and lower bearing points along the Z axis (which extends perpendicularly to the longitudinal axis and the main branches 20, c ' that is parallel to the rod 14) varies according to the curvature of the main branch 20, the thickness of the frame 2 (for the upper bearing point) and the height of the frame 2 ( for the lower point) Indeed, according to the height of the frame 2 30 at the level of the glasses 3, the main branch 20 comes into contact at a different place with the lower part 5 of the frame 2, and according to its thickness, its insertion between the main branches 20 and secondary is p Read or less important, so that the point of contact between the frame 2 and the support 10 can also be changed. The lower bearing points (at each corrective lens 3) of the frame 2 can be determined from the knowledge of the position of the lower part 5 of the frame 2, while the upper bearing points (at level of each corrective lens 3) of the frame 2 can be approximated by knowing the position of the upper part 4 of the frame 2. It is possible for example to determine the height of the frames 2, that is to say the distance between the upper part 4 and the lower part 5 of mount 2. This height is a generally known data opticians, because it is part of the technical specifications of most frames 2 (which is not the case of the pantoscopic angle P6). As a variant, the height can be determined, in a manner known per se, by image analysis, by means of the visual cues 30, which make it possible to define a scale and to determine the orientation of the face of the subject 6, and to identify upper 4 and lower 5 parts of the mount 2 on the image (by manual pointing on the image by the optician or automatic recognition by a suitable software).

In all cases, the three-dimensional position of the upper 4 and lower 5 parts, and therefore the support points in the lower part 23 of the main branches 20, can be determined. As a first approximation, it can be considered that the support points in the upper part 22 of the main branches 22 coincide with the upper part 4 of the frame 2, and correspond to the intersection of the projection of the main branch facing the plane. medium with the upper part 5 of the mount. Since the radii of curvature of the main branches 20 are known and large, at least in the upper part 22 of the main branches 20, the uncertainty on the points of support in the upper part 22 has little influence on the measurement of the pantoscopic angle P6. Moreover, at the lower part 23 of the main branches 20, the curvature may be stronger (smaller radius of curvature) because only frames 2 having a high height can come into contact with this part 23 of the main branches 20 and the higher the mounts 2 are, the less the pantoscopic angle P6 is sensitive to the position at depth of the fulcrum. Knowing the inclination of the hoop 12 (that is to say the inclination of the accessory 1), it is deduced (step S5) therefore the inclination of the average plane Pm of the glasses 3 of the frame 2, which corresponds to the value of the pantoscopic angle P6.10

Claims (14)

REVENDICATIONS1. Accessory (1) for the optimization of optical characteristics of 5 glasses of a frame (2), including a pantoscopic angle (P6) of the frame (2), said frame (2) comprising the lenses (3) and a structure adapted to receive and fix said glasses, comprising: - a support (10), - two main branches (20), extending from the support (10) and 10 configured to extend in front of the frame (2) , and - visual cues, characterized in that the support (10) is configured to bear on an upper part (4) of the frame (2) so that the accessory (1) is able to pivot relative to to said mount (2) along an axis defined by the points of contact between the support (10) and the upper part (4) of said mount (2), so that the main branches (20) come into bearing against a lower part (5) of the frame (2). 2. Accessory (1) according to claim 1, wherein the main branches (20) are curved and have a point of inflection (24) at which a concavity of the curvature of the main branches (20) changes, the concavity main branches (20) being oriented towards the mount (2) in an area (22) adjacent the support (10), and in a direction opposite to said mount (2) in an area (23) adjacent to their free end (25). 3. Accessory (1) according to one of claims 1 or 2, wherein the carrier (10) comprises two secondary branches (10), each extending rearwardly of the frame (2) from an area adjacent to the 30 main branches (20). 4. Accessory (1) according to one of claims 1 to 3, characterized in that, when mounted on the frame (2), the accessory has a bearing area of the support (10) on the part upper portion (4) of the frame (2) and a bearing zone of the main branches (20) on the lower part (5) of the frame (2), and in that said bearing zones are included in a plane medium (Pm) glasses (3). 5. Accessory (1) according to claim 4, wherein the main branches (20) have a first radius in the zone (22) adjacent to the support (10), between 100 and 150 mm, preferably of the order of 125 mm. 6. Accessory (1) according to claim 5, wherein the main branches (20) have a second radius of curvature in the zone (23) adjacent to their free end (25), the first radius of curvature being larger than the second radius of curvature. 7. Accessory (1) according to claim 6, wherein the second radius of curvature is between 30 and 100 mm, preferably of the order of 70 mm. 8. Accessory (1) according to one of claims 1 to 7, further comprising: - a portion (15) projecting upwardly provided with a visual cue (30) 25 in an upper region (15a), and - a rod (14) projecting forwardly provided with a visual cue (30) at its free end (14a). 9. Accessory (1) according to one of claims 1 to 8, further comprising a hoop (12), extending from the support (10) between the main branches (20), which comprises a visual cue (30). ) at each free end (12a, 12b). 10. Accessory (1) according to one of claims 1 to 9, wherein the main branches (20) are separated by a distance between 80 mm and 120 mm, preferably of the order of 90 mm. 11. Accessory (1) according to one of claims 1 to 10, wherein the visual cues (30) comprise a geometric pattern in the form of a checkerboard. 12. Process (S) for optimizing the optical characteristics of lenses of a frame (2), including in particular a pantoscopic angle (P6) of the frame (2), comprising the following steps: - placing (51) an accessory ( 1) according to one of claims 1 to 11 on the mount (2) whose optical characteristics are determined, so that the support (10) rests on the upper part (4) of the frame (2), and that the main branches (20) rest against its lower part (5), - take an image (S2) of the head of the subject (6), carrying the mount (2) and the accessory (1), - determine (S3) the inclination of the accessory (1) from the image of the head of the subject (6), - determining (S4) of the three-dimensional coordinates of the support points of the accessory (1) on the frame (2 ), and - deduce (S5) a value of the pantoscopic angle (P6) of the frame (20). 13. The method of claim 12, wherein the three-dimensional coordinates of the support points of the accessory on the frame (2) are determined from a height of the frame (2). 14. Method according to one of claims 12 or 13, wherein the support points of the accessory (1) at the upper part (4) of the lining (2) are defined as corresponding to an intersection between the projection in the middle plane (Pm) of the frame (2) of the main branch (20) opposite and the upper part (4) of the frame (2).