DE7627982U1 - EYEPIECE FOR LENGTH AND ANGLE MEASUREMENT THROUGH A MICROSCOPE - Google Patents

Description

The innovation concerns an eyepiece for length and angle measurement through a microscope.

For example, length and angle measurements through a microscope are used made in fitting toric contact lenses. at Advanced soft contact lenses do the correction of astigmatism through a toric outer surface, the axis of which must be in a certain relationship to the so-called DS axis. The DS axis runs through the two thickest edge areas and the opto-geometric center of the contact lens. By the fitting process is the slope of the toric surface to determine the axis going to the DS axis.

It is known the inclination of the marked axes of a contact lens measure with a slit lamp. This is done on the outside A pointer attached to a measuring eyepiece, which represents the continuation of the measuring line of the eyepiece. On a plate with Degree setting CTABO scheme), which is fixed to the slit lamp is connected, the inclination of the axis can be measured on the contact lens. This type of inclination measurement leaves you with regard to the achievable accuracy leaves much to be desired. In addition, it is tedious and time-consuming for the lens operator because of the direction of the gaze has to be changed constantly. The use of the TABO scheme for angle measurements has proven itself after its introduction the Technical Committee for Spectacle Optics generally enforced. According to this scheme, readings are made from the right counterclockwise for both eyes.

The innovation is based on the task of specifying a device which allows a more convenient and more accurate angle measurement. According to the innovation, this task is achieved in that a Ocular housing suitable insertion socket is provided, - which contains a chamber, which is arranged by two perpendicular zur.optischen axis Glass plates and the inner wall of the push-in socket is limited to Li.πJ in which a ball of gravity can move freely.

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one of the glass plates being designed as a reticle and the insertion socket and the eyepiece housing radially and axially are movable against each other.

Appropriately, the reticle carries a length and a Angle scale. A steel ball can be used as a gravity ball.

The slide-in connector is used to compensate the diopter for the user axially adjusted. To determine the angle of inclination for the Adjusting essential axes on a contact lens will do that Turn the eyepiece in the tube of the slit lamp until the linear scale of the graticule is in the direction of the axis to be determined Contact lens runs. On the right side of the sphere of gravity I. the angle of inclination of the axis can then be read off the angle scale on the graticule. For ophtha Imo logisehe measurements is the angle scale expediently subdivided according to the TABO scheme.

The accuracy of the angle measurement is determined by the setting accuracy of the artificial horizon, as · by the size of the shark friction of the ball of gravity I on the material that delimits it. In the case of rolling friction between steel and glass, the angle of inclination can be read with an accuracy of +0.5.

The advantages achieved with the innovation exist in particular in that, with a short measuring time, a simple device and an uncomplicated measuring method achieve high accuracy. Another advantage is that with the measuring eyepiece according to the invention, existing slit lamp microscopes can be used to adapt contact lenses without great effort.

An embodiment of the innovation is shown in the drawing and is described in more detail below. He. show

1 shows a longitudinal section through an eyepiece according to the invention;

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2 shows the representation of the through the eyepiece according to the invention seen field of view.

In the illustration of FIG. 1, the housing of an in the eyepiece housing 7 denotes the matching insertion socket. the Reticle 1 has a length scale 2 and an angle scale 3. The length scale 2 is divided into intervals of 0.2 mm, the Angle scale 3 is divided into intervals of 2. Reticle

I and glass plate 4 form the front and back of a cylindrical chamber, the outer surface of which represents the inner wall of the insert connector 6 located between the glass plates. The plug-in socket 6 can be in the eyepiece housing 7 for measurement the inclination of the through the toric surface of a contact lens | Rotate the going axis to the DS axis. The sphere of gravity I 5 |

forms an artificial horizon when turning the eyepiece socket § and serves as a display device when measuring angles. 8 and 9 | represent lens elements of the eyepiece, 10 the eyecup. With I

II is a misery that limits the field of vision. To the I: The diopter compensation of the user can use the eyepiece housing 7 and / §

or the eyepiece socket 6 can be moved axially. P.

Claims (2)

Protection claims 1. Eyepiece for length and angle measurement through a microscope, characterized in that an insertion socket (6) which fits into the eyepiece housing Cf) is provided which holds one of two glass plates (1,4) arranged perpendicular to the optical axis and the inner wall (6) of the insertion socket limited chamber with a freely movable ball of gravity (5) that one of the glass plates CD is designed as a reticle and that the insertion socket (6) and the eyepiece housing (7) are radially and axially movable relative to each other. 2. Eyepiece according to claim 1, characterized in that the sphere of gravityL (5) is made of steel. 7627982 2112.78