DE102008062511A1 - Centering data determining device i.e. measuring body, for eyeglasses, has measuring rod comprising retainer, spring element and two measuring attachments with markings that are arranged at measuring rod - Google Patents

Abstract

The device i.e. measuring body (4), has a measuring rod (5) comprising a retainer (6) provided at one end, a spring element (8) and two measuring attachments (7, 9). The measuring attachments comprise markings (13, 14) i.e. bent marking rods (15, 16), that are arranged at the measuring rod. The retainer is arranged in a form of a clip and movable axially in the measuring rod. The spring element is connected with the retainer and comprises two brackets (18, 19) that are connected in a hinge point (17).

Description

The The invention relates to a device for determining centering data a selected glasses, in particular for determination the corneal vertex distance and the socket disc angle.

to Determination of the corneal vertex distance are manual measuring devices, For example, a PD dipstick, known in which the values are manually be read and so subjective subjective sources of error in the measuring method will be implied.

at This method will be lateral shots of the subject with the fitted spectacle frame, which is disadvantageous here, that the front measurement point, defined as the glass viewing point, is not is really known, because that to be used in the spectacle frame Spectacle lens is not in the socket.

to Determining the socket angle are manually operable Measuring devices are known, which are printed on the principle of a conventional Protractor work in such a way that the empty spectacle frame placed on the protractor and the angle is read. In addition to subjective conditional measurement errors this method is the principal error paused that the remote version of a different perspective and thus can have a different frame angle. When using Video centering systems so far a device is used, the by manually turning a special measuring attachment parallel to the mounting plane the evaluation of the video image to determine the lens angle allows. This method is also the possibility a large subjective error, since the manual parallel Setting the device depends very much on the skill of the operator.

So When determining the corneal vertex distance, the distance determined between the frame and the corneal vertex and when determining the socket angle, the frame sag becomes determined. These values influence the system of centering data and thus form a basis for the exact determination of a spectacle lens and its use in a spectacle frame.

So is with the DE 20 2006 015 267 U1 a device for determining centering data of a pair of spectacles has become known, this device comprising at least a first measuring scale for length measurement in at least one measuring direction of the device, wherein the first measuring scale has a first left and a first right scale section for sighting a left or right spectacle lens of the spectacles in at least one sighting direction of the device and having a sighting device with at least one left and right visor marking portion, wherein the left and right Visiermarkierungsabschnitt in the sighting device in each case from the first left and first right scale portion is spaced and in projection parallel to the sighting device at least partially is overlapped with the first left and first right scale portion.

adversely here is that an additional measuring element, a measuring scale, needed to make an appropriate statement here to be able to determine or the appropriate values.

From the DE 10 2004 063 981 B4 For example, a measuring bracket as well as a device and a method for determining the pretilt angle and also the corneal vertex distance have become known.

So a measuring bracket is presented, which is attached to a spectacle frame is formed with a traverse and two legs, with a Front of the measuring bar at least three front target marks for a measurement of the pretilt angle of a to be measured Has spectacle frame and at least one of the front target brands opposite the at least two other front targets perpendicular to the front the Meßbügels is arranged spatially offset and characterized in that coupled clamping elements for Attaching the eyeglass frame are provided and that the measuring bracket one-handed operation is designed.

With this device should also be in addition to the pretilt angle the corneal vertex distance can be determined.

Also this solution is in its construction and in its application very complicated and also not free of measurement errors, the corresponding Falsify measurement results.

Of the Invention is therefore based on the object, a device for Determination / definition of the corneal vertex distance and the mounting disc angle which improved with ease of use Measurement and acquisition of values for the corneal vertex distance and the value of the socket angle allows.

According to the invention the problem solved by the features of claims 1 and 5 and advantageous embodiments and special solutions specified in the dependent claims.

So became a device for the determination of the corneal vertex distance and the socket disc angle created, which in the form of a measuring body is trained. This measuring body is a glasses / a Eyeglass frame can be positioned and fastened and after placement the so-trained glasses are corresponding images of the Test persons made. These footage will be in the video centering system incorporated on the basis of which then determines the corresponding centering data become.

This means that by means of a video centering a lateral Recording, a video image, of the subject with attached spectacle frame, in which the glass or glasses are to be used, is manufactured. In the spectacle frame is the measuring body used and the finished image, the video image, from the subject is fed to a computer and via its own Software evaluated.

This means that the distance / distance from the corneal vertex of the Eye of the subject to a first marker rod with provided Marking of the measuring body inserted in the spectacle frame is measured and this value in the evaluation of the video image flows.

Of the Bracket angle is determined by the measurement the distances between the first mark on the one Marking rod from the measuring body and a second marking, formed with the second marking rod of the measuring body is. This determined value is also included in the above described video system and the native software the socket disc angle is determined, this in evaluation of the Distance between the two markings on the marking rods of the measuring body.

In The native software is also the value of the software to be used Glasses entered and thus known. These concern the Inner curve, the outer curve, the mounting disc height, the lens width and the glass viewing point.

These Values also influence the determination of the corneal vertex distance. This is how the determined values for the corneal vertex distance become and the lens angle with the determined / known values the version of the glasses, based on the eye of the subject, the Values of the glass which are inserted into the spectacle frame should, as well as from the values of the position of the glass for spectacle frame, known from the video system and its software, adjusted and form the basis for the selection of the spectacle lenses to be used.

Of the created measuring body consists of a measuring rod with end provided recordings by means of which the measuring body in the groove of the respective eyeglass frame recording and accordingly can be positioned.

Around To be able to realize this is the measuring body formed with a spring element, by means of which the recordings positioned regardless of size the spectacle frame of the measuring body in the commercial Eyeglass frames can be used. The measuring body is further formed with Meßaufnahmen, which as angled marking bars are formed and have markings.

In Another preferred embodiment is the Measuring body formed with a fastener, which Carrier of the corresponding functional elements of the measuring body is. About this fastener of the measuring body is front side to a supporting glass, which is used in the spectacle frame is, can be positioned and fastened. This measuring body is in its function as constructed as the measuring body the first embodiment. Also this measuring body is formed with Meßaufsätzebügeln that as angled Marking rods are formed and each marks have.

The Application of this measuring body takes place in an analogous manner as described above. So the process is characterized by that by means of a video Zentiersystems a lateral recording, a Video image of the subject with attached spectacle frame, in the one or two support glasses are used manufactured becomes. On the or the support glasses is located the attached measuring body. The finished picture, the video picture, is in turn fed to a computer and over evaluated the proprietary software.

This means that the distance / the distance from the corneal vertex of the eye of the subject to a marking of the marking rod from the measuring body and the frame disc angle are measured by measuring the distance between the first mark on the one marking rod from the measuring body and a second mark, with the second marker rod is formed of the measuring body, detected. These values are input via the native software input into the described video system. They form the basis for determining the mounting angle, whereby the values of the support lenses are entered in the native software and thus known. These relate to the inside curve, the outside curve, the socket disc height, the socket disc width and the glass viewing point. These values also influence the determination of the corneal vertex angle With the determined values for the corneal vertex distance and the mounting disc angle, the values of the support glasses of the spectacles relative to the subject 's eye, the values of the glass to be inserted into the spectacles, as well as the values of the position of the subject Glass to the socket, known from the video system and its software adjusted and form the basis for the selection and determination of the lenses to be used.

With the following Ausführungsbespielen the invention be explained in more detail.

The accompanying drawings show in

1 : a pictorial view of a mounted spectacle frame with the marking socket angle and corneal vertex distance,

2 : a front view of an attached spectacle frame - a spectacle half - with measuring body positioned to the frame,

3 : a detailed view after 2 and

four : A front view of a spectacle frame with attached measuring body, as well as a top view four ,

The pictorial representation after 1 shows the face of a subject with attached glasses, represented by the spectacle frame 3 , Based on the glasses and the glasses used results from this illustration, the position of the socket angle 1 and the corneal vertex distance 2 ,

The training of the measuring body four is based on the 2 and 3 described in more detail. This is how the measuring body is made four from a dipstick 5 , which end with shots 6 is formed, which are preferably formed as clips. To the measuring body four further includes the spring element 8th which comes from the measuring straps 18 ; 19 is formed in the hinge point 17 connected and each on the dipstick 5 of the measuring body four are arranged.

To the measuring body four also include two measuring attachments 7 ; 9 , which on the one hand in the lower part of the measuring rod 5 and on the other hand in the upper area of the dipstick 5 are attached.

These measuring attachments 7 ; 9 are as marker bars 15 ; 16 formed, which provided at their end points markings 13 ; 14 exhibit.

About the clip-like recordings 6 of the measuring body four is this in the groove 12 of the glasses frame 3 , as in 2 documented, usable.

The to the measuring body four belonging functional elements, the measuring attachments 7 ; 9 and so the marker bars 15 ; 16 are front of the dipstick 5 from the measuring body four arranged.

From the 3 arise the arrangement and design of the socket angle 1 and the parallel distance 11 between the frame slice level 10 the glasses and the measuring attachment 9 / the marking bar 16 with the mark 14 ,

From the 2 and 3 it also follows that both measuring attachments 7 ; 9 as angled marker rods 15 ; 16 are formed, the markers at their end points 13 . 14 own and on the dipstick 5 from the measuring body four are arranged.

In the second embodiment, the measuring body four with a fastener 20 formed, by means of which the entire measuring body four with its functional elements to the support glass 21 , which is in a spectacle frame 3 is inserted, fixed and positionable - four ,

In addition to the preferably annular design of the fastener 20 is this also possible in another form. It is essential that this fastener 20 via a suction attachment to the support glass 21 can be positioned and fastened, resulting in an uncomplicated placement and easy removal of the measuring body four from the supporting glass 21 allows. In addition to the suction attachment, the fastener 20 also via an adhesive-adhesive attachment to the support glass 21 be positioned.

The function-determining elements of the attached measuring body four , the measuring tower 22 ; 23 as angled marker rods 26 ; 27 formed, have the end of the markings 24 ; 25 , so that even with this embodiment of the measuring body four the necessary values can be determined in order to produce glasses adapted to the conditions of a subject. Furthermore, the equivalent in four illustrated measuring body four in its structure and its functioning the measuring body four to 2 , so that reference is made to the above statements to avoid repetition.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 202006015267 U1 [0006]
• DE 102004063981 B4 [0008]

Claims (7)

Device for determining centering data of spectacles on the basis of the determination of the corneal vertex distance (HSA) and the mounting disc angle (FSW), formed in the form of a measuring body, which is positioned and fastened to a spectacle / spectacle frame, characterized in that the measuring body ( four ) from a dipstick ( 5 ) with end provided shots ( 6 ), a spring element ( 8th ) and two measuring attachments ( 7 ; 9 ), the measuring attachments ( 7 ; 9 ) Markings ( 13 ; 14 ) as angled marking rods ( 15 ; 16 ) and formed on the dipstick ( 5 ) of the measuring body ( four ) are arranged. Apparatus according to claim 1, characterized in that the recordings ( 6 ) of the measuring rod ( 5 ) in the form of clips, resilient and axially movable in the measuring rod ( 5 ) are arranged. Device according to claims 1 and 2, characterized in that the spring element ( 8th ) with the trained as a guide and fasteners recordings ( 6 ) and two in one hinge point ( 17 ) connected ironing ( 18 ; 19 ) consists. Device according to claims 1 to 3, characterized in that the recordings ( 6 ) designed as a flat guide and fasteners, preferably approximately U-shaped and in the groove ( 12 ) of the spectacle frame ( 3 ) can be arranged. Device for determining centering data of spectacles on the basis of the determination of the corneal vertex distance (HSA) and the mounting disc angle (FSW), formed in the form of a measuring body, which is positioned and fastened to a spectacle / spectacle frame, characterized in that the measuring body ( four ) consisting of a fastening element ( 20 ), from two measuring tower straps ( 22 ; 23 ), these formed as angled marking rods ( 26 ; 27 ) and markings ( 24 ; 25 ), via the fastening element ( 20 ) on the front of a spectacle frame / spectacle frame ( 3 ) supporting glass ( 21 ) is arranged. Device according to claim 5, characterized in that the fastening element ( 20 ) preferably ring-shaped and up and removable to the front of the support glass ( 21 ) is positionable. Device according to claims 5 and 6, characterized in that the measuring body ( four ) to the supporting glass ( 21 ) is connected via a stick-adhesive suction attachment.