FR2688679A1 - Apparatus for measuring factors necessary for fitting lenses onto a frame - Google Patents

Abstract

The invention provides an apparatus (16) for measuring factors necessary for fitting lenses onto a spectacles frame (13) of the type without means for centring and holding the head of the subject (14), and including a camera (32) for taking pictures of the head of the subject, associated with processing means for determining the fitting factors, characterised in that the camera (32) is mounted movably with respect to the head of the subject (14) so as to take the measurement for the far-field view of the subject corresponding to a defined distance (D) between the head of the subject (14) and the camera (32), and in that it includes a telemetry device (44) associated with the camera (32) so as to allow precise positioning of the camera at the said predetermined distance.

Description

 The present invention relates to an apparatus for measuring factors necessary for the adaptation of optical lenses on a spectacle frame.

 Among the various parameters which must be used in order to correctly position spectacle lenses on a frame, and in particular so that the optical centers of lenses coincide with the optical axes of the corresponding eyes, it is in particular necessary to know the pupillary distance and the height of the pupils relative to the frame.

 It is also important to measure the height of the optical centers of the lenses relative to the lower or upper edges of the frame in which they are to be mounted.

 For a long time, these measurements were carried out by manual empirical means, which therefore lacked precision and required to materially immobilize the subject's head in relation to the device.

 Among the devices known from the state of the art, a device has in particular been proposed comprising a camera and lateral centering means for framing the subject's head. With the help of such a device, the subject wearing the frame he has previously chosen is photographed and, knowing the reduction scale of the camera, we can calculate the position of the pupils relative to the frame and pupillary distance.

 Document FR-A-1.506.352 describes a device comprising a box having two openings in one of its sides and which correspond to the locations of the eyes of a subject, and an optical system comprising lenses and mirrors and a source light to reveal adjustable crosshairs in position on the openings, and a sighting eyepiece in the wall of the box facing them. Measuring means make it possible to measure the positions of the reticles. In this device, the means for adjusting the reticles according to orthogonal coordinates are complicated and the measurement operation is long and inconvenient, and the accuracy is only acceptable.

 The document US-A-4,626,088 describes an apparatus of this type, comprising a cathode ray tube with a high resolution screen and in which the reticles are replaced by light traces, or spots, which are brought to the reflections of the cornea of the eyes of the patient or subject, by making the image of his face coincide with that of the screen by means of a coupler. The light spots are moved by acting on the signals applied to the horizontal and vertical deflectors of the cathode ray tube.

 In this same device, the subject's head must be held stationary against the wall of the box, which must be provided with nose plates and shaped parts so that the measures taken are applicable to the frame chosen by the subject. There is therefore still a source of error due to the adaptation of the lenses to a frame according to measurements taken in the absence of the latter.

 In order to remedy these drawbacks, decisive progress has been made thanks to the apparatus described and represented in document FR-A-2.620.927 which proposes an apparatus by means of which the measurements of the various parameters are taken directly on the subject bearing the frame and without immobilizing the head thereof, by means making it possible to obtain values of very high precision, by electronic means, eliminating any risk of error. The device proposed in this document comprises in combination a "CCD" type sensor comprising a matrix of photosensitive element with charge transfer, first electronic means for processing the signals supplied by the sensor, second electronic means for storing the signals processed, a device for displaying an image constituted by the stored signals, a microprocessor and a control keyboard for performing calculations on the image. The device also requires the availability of distance measurement means associated with the sensor to determine the distance between the subject's head and the sensor in order to have the value of this distance to perform the calculations for determining the adaptation factors.

 The apparatus described in this document makes it possible to adjust lenses in spectacle frames with very high precision of the order of 0.2 mm.

 The object of the present invention is to propose a device of particularly simple design, of the type devoid of mechanical means for centering and holding the subject's head and comprising a camera for taking pictures of the subject's head associated with processing means. electronic images to determine the adaptation factors for the distant view of the subject.

 To this end, the invention provides an apparatus characterized in that the camera is mounted movable relative to the subject's head so as to measure the adaptation factors for the distant view of the subject corresponding to a determined distance between the subject's head and the camera, and in that it includes a telemetry device associated with the camera so as to allow the precise positioning of the camera, relative to the subject's head, at the predetermined measurement distance.

According to other features of the invention
- the device is a coincident optical rangefinder
- the camera is a single objective electronic camera associated with a video screen and a binocular optical system connected to the camera housing and interposed on the optical beam of the camera lens so as to obtain simultaneous training on the video screen of two images of the subject's head which coincide in a single image when said predetermined distance is established;
- the system comprises two sets of mirrors and / or prisms which divide the beam for taking pictures of the camera object in two beams parallel to the beam for taking pictures
- the device has a light source connected to the camera housing
the light source emits two parallel light beams, the axes of which are spaced apart by a distance substantially equal to the distance between the axes of the two parallel shooting beams
the axes of the two light beams are contained in a plane inclined with respect to the plane which contains the axes of the two shooting beams;
- the angle of inclination is equal to;
- the parallel beams are spaced apart by a distance substantially equal to 65 mm;
- The apparatus includes means for taking pictures of a single image of the subject's head by the shooting beam of the single lens of the camera;
- the apparatus comprises for this purpose a set of mirrors for deflecting the shooting beam from the single objective, at least one of which is movable between a retracted position and an active position in which it is located on the path of the shooting beam between the camera lens and the binocular optical system;
- the camera housing is connected to a fixed frame of a measuring station by means of an articulated arm.

Other characteristics and advantages of the invention will appear on reading the detailed description which follows for the understanding of which reference will be made to the accompanying drawings in which
- Figure 1 is a schematic side view illustrating a measuring station equipped with a measuring device produced in accordance with the teachings of the invention
- Figure 2 is a schematic top view of the measuring station illustrated in Figure 1
FIG. 3 is a diagrammatic view on a larger scale of the upper part of FIG. 1 making it possible to illustrate the operation of the measuring apparatus and
- Figure 4 is a schematic top view on a larger scale of the main components of the measuring device.

 The arrangement of a measuring station 10 illustrated in FIG. 1 allows the measurement by an optician 12 of the factors necessary for the adaptation of optical lenses on a frame 13 chosen by a subject 14.

 The measuring station 10 includes a measuring device 16 making it possible to measure the factors necessary for the adaptation of the optical lenses on the spectacle frame 13 for far vision of the subject, whether the latter is in a standing position, as this is illustrated in Figure 1, or in a seated position (not shown).

 The measuring device 16 is placed between the optician 12 and the subject 14.

 The apparatus 16 essentially comprises a housing 20 which is connected by an articulated arm 22 to a fixed part 24 which is itself fixed relative to the base 26 of the measuring station 10.

 The base 26 also receives a control keyboard 28 and a video screen 30 arranged laterally so as to be visible directly by the optician 12.

 The housing 20 of the device 16 contains a camera 32 with a single lens 34, a light source 36 and various optical elements which will be described in more detail below.

 The shooting beam F of the single lens 34 of the camera 32 has a shooting axis X which, in use, is directed towards the head of the subject 14 and which extends in a direction substantially perpendicular to the reference plane P which corresponds to the general plane of the frame 13.

 A retractable mirror 38 is pivotally mounted in the housing 20 about an axis 40 so as to be able to pivot between its retracted position 38 and an active position 38 ′ in which the reflecting face of the mirror is in front of the beam F to cause deflection of the latter in a beam F ′ which is itself reflected by a fixed mirror 42 in the direction of the subject's head 14.

At its front part facing the subject's head 14, the housing 20 comprises a binocular optical system 44 which makes it possible to divide the shooting beam F of the single lens 34 into two shooting beams
FA and FB.

 The binocular system 44 comprises, in the embodiment illustrated in the figures, two sets of substantially parallel mirrors 46A, 48A and 46B, 48B which form an angle of approximately 450 with respect to the axis X for taking pictures of the objective 54 and-which share beam 2 in two beams forming an isosceles triangle -FB.FA with a vertex at 49 at distance D.

 In the plane of Figure 4, we see that each of the shooting beams FA, FB has an angle aA, aB equal to half the angle a of the beam F.

The binocular optical system 44 also includes a lens 46 disposed between the objective 34 and the perpendicular mirrors 46A and 46B which tightens the calf in a beam
The X, XA and XB axes of the shooting beams are contained in the same plane, the trace X of which is visible in FIG. 3.

 The light source 36 consists of two light sources 50A and 50B fixed to the body of the camera 32, or to the housing 20, so as to each emit a light beam in the direction of the subject's head.

The two light beams have parallel axes
YA and YB which are contained in a plane whose trace Y is visible in FIG. 3 and which forms an angle y with respect to the plane containing the axes of taking pictures as can be seen in FIG. 3.

 The two light sources 50A and 50B are designed so as to obtain the formation on each of the pupils of the subject 14 of a light spot of diameter d (see FIG. 3).

The spacing L between the axes XA and XB of the light beams is chosen to be substantially equal to the spacing E between the axes XA and XB of the shooting beams
FA and FB.

 By way of example, the values of the various geometric parameters of the arrangement which has just been described are as follows.

 For a predetermined distance D for measuring the factors of adaptation to far sight which is chosen to be equal to 900 mm (see FIG. 3), the spacing E and the center distance L have a value of 65 mm.

 The 5QA and 503 light sources cause the formation of light spots whose diameter d is equal to 18 mm.

 The angle Y is equal to 40, the angle v for taking pictures of the beam F is equal to 240 and the angle 0 <is equal to 100.

 The height E of vertical framing of the head of the subject 14 is of the order of 500 mm.

 The articulated arm 22 is designed so as to allow the height position of the housing 20 to be adjusted according to a stroke of approximately 500 mm, the housing 20 also being able to be angularly oriented approximately 150 around an axis U.

 The optician 12 uses the measuring device as follows.

 Traces the binocular system 44, it can perfectly adjust the distance D between the reference plane P and the front face of the camera 32, and this by means of the screen 30 on which appear two images of the face of the subject 14 in area 49 (Figure 2) until distance D is established.

 When the two images coincide on the screen 3Q, the measurement distance D is obtained, and results either from a displacement of the boltier 20 relative to the head of the subject 14 or a displacement of the latter relative to the housing 20 .

 This adjustment being made, and after the optician 12 has aimed at the eyes of the subject 14 in order to obtain the formation of corneal reflections of the light beams coming from the sources 50A and 50B on the eyes of the subject, the optician 12 acts , by means of the control keyboard 28 for recording and processing the images captured by the camera 32.

 For all the information concerning the processing of the views or images taken by the camera 32, reference is made to the content of French patent application no. 87 13368.

 When the optician wishes to obtain a single and direct image of the head of the subject 14, without intervention of the binocular system 44, he causes the mirror 38 to tilt to its deflection position 38 'and thus obtains a complete image of the head of the subject 14 thanks to the larger field of view F '.

Claims (12)

 1. Apparatus (16) for measuring factors necessary for the adaptation of optical lenses on a spectacle frame (13), of the type devoid of mechanical means for centering and holding the subject's head (14), and comprising a camera (32) for taking pictures of the head of the subject associated with image processing means for determining the adaptation factors, characterized in that the camera (32) is mounted movable relative to the head of the subject (14 ) so as to measure the adaptation factors for the distant view of the subject corresponding to a determined distance (D) between the subject's head (14) and the camera (32), and in that it comprises a telemetry device (44) associated with the camera (32) so as to allow precise positioning of the camera, relative to the subject's head, at said predetermined distance (D).  2. Apparatus according to claim 1, characterized in that the device is a coincident optical rangefinder.  3. Apparatus according to claim 2, characterized in that the camera is an electronic camera (32) single lens (34) associated with a video screen (30) and a binocular optical system connected to the camera housing (32) and interposed on the optical beam (F) of the lens (34) of the camera so as to obtain the simultaneous formation on the video screen (30) of two images of the subject's head (14) which coincide in a single image when said predetermined distance (D) is established.  4. Apparatus according to claim 3, characterized in that the system (44) comprises two sets of mirrors and / or prisms (46A, 46B, 48A, 48B) which share the beam (F) of taking pictures of the lens (34) of the camera (32) in two beams (FA, FB) forming an isosceles triangle with vertex (-49) at distance (D).  5. Apparatus according to claim 4, characterized in that it comprises a light source (36, 50A, 50B) connected to the camera housing (32).  6. Apparatus according to claim 5, characterized in that the light source emits two parallel light beams whose axes (YA, YB) are spaced by a distance (L) substantially equal to the distance (E) of spacing between the axes (XA, XB) of the two beams  (FA, FB) for taking pictures.  7. Apparatus according to claim 6, characterized in that the axes (YA, YB) of the two light beams are contained in a plane inclined relative to the plane which contains the axes (XA, XB) of the two beams (FA, FB) for taking pictures.  8. Apparatus according to claim 7, characterized in that the angle of inclination (y) is substantially equal to 4.  9 Apparatus according to any one of claims 6 to 8, characterized in that said parallel beams are spaced apart by a distance (L, E) substantially equal to 65 mm.  10. Apparatus according to any one of claims 3 to 9, characterized in that it comprises means (38, 38 ') for ensuring the taking of pictures of a single image of the subject's head (14) by the beam (F) for taking pictures of the single lens (34) of the camera (32).  11. Apparatus according to claim 10, characterized in that said means comprise a set of mirrors (38,42) for deflecting the beam (F) for taking pictures of the single objective (34) of which at least one ( 38) is movable between a retracted position (38) and an active position (38 ') in which it is located on the path of said beam (F) between the lens (34) of the camera (32) and the binocular optical system (44).  12. Apparatus according to any one of the preceding claims, characterized in that the camera housing (32) is connected to a fixed frame of a measuring station by means of an articulated arm (22).