CH123007A - Self-drawing measuring device for pairs of measuring images. - Google Patents

Description

  

  Self-drawing measuring device for) less image pairs. The subject of the invention is a device for drawing an orthogonal projection of a spatial structure displayed on two measurement images that are oriented in any way against one another.

   In such devices it is known to arrange two image carriers in the form of image projection devices, which can be moved anywhere in space by means of a spatial cross slide system and mutually measurably adjustable, in front of a double viewing glass, which by means of a suitable light source separates and shares parts of the measurement images image side by side on a fixed projection surface. Also, one has already switched between the projection lenses and the projection surfaces to achieve the sharp image optical, inter mediate members whose optical axes remain constantly directed to the front main points of the projecting lenses of the image carrier ge through a spatial guide.

   According to the invention, the innovation consists essentially in the fact that the screen image of the projected image part of each individual measurement image is achieved by a lens that can be moved at an unchangeable distance from a fixed point of the associated projection plane. This means that the projected parts of the image can be considered self-luminous, regardless of the direction from which they were projected onto the surface. Double viewing glasses are observed and this viewing glass or double microscope be provided with an essentially immovable optics.

    As with known measuring devices, the measuring marks to be attached in the image planes of the microscope objectives result in a spatial measuring mark during binocular viewing, which can be guided along the surface of the spatial model by appropriate actuation of the cross slide moving the measuring images, so that a.

   on your corresponding parts of the cross slide attached drawing pen on a fixed drawing surface records the projection of the spatial surface you are looking for.



  The drawings show the subject matter of the invention in exemplary embodiments, namely Fig. 1 the entire device in plan view and in partial horizontal section, Fig. 2 is a side view of Fig. 1, Fig. 3 is a front view of the cross slide system carrying the picture holding boxes, Fig 4 and 5 two different exemplary embodiments of the arrangement of the mirrors and projection surfaces.



  The image holding chambers 1 (FIG. 1) are each provided with a measurement image 2, a light source 3 and a projection lens 4. The image holding chambers can be tilted and rotated as desired about two mutually perpendicular axes 5 and 6 (see FIG. 3) and can be locked in any position by clamping screws. A carrier 7 designed as a cross slide allows any mutual setting or fixing of the objectives 4.

   Another Kreuzschlittensy system, which consists of two spacer rails 8 of a side shift bridge 9 and a vertical slide 10 in a known manner, allows any common displacement of the two image holding chambers 1. A drawing device can be placed at about the foot 11 of the carrier 7 is.



  The light rays emanating from an image point 12 (Fig. 1) of the illuminated measurement image 2 arranged in the focal plane of the lens 4 and directed parallel through the lens4 hit an intermediate lens 13 (Fig. 1, 4, 5) and are in the Unite axial surface part of the focal plane to a sharp image of the corresponding image point 12.



  The axial surface part of the focal plane of the objective 13 is shown in FIGS. 4 and 5 by a point 14. This is in Fig. 4 on an opaque and fixed projection surface 15. The Objek tiv 13 is around this point 14, here with the help of two spherical shells 16 and 17, rotatable on all sides. The handlebar 18, which is formed here as a displaceable tube, ensures that the axis of the lens 13 is constantly directed at the projection lens 4.



  The projection image created at point 14 or in its immediate vicinity is presented to the microscope 21 objectively by means of a transparent, fixed mirror 19 (FIG. 4) and a mirror 20 that is also fixed, which has an adjustment mark in it The image plane generates a new image of the pixel 12 that is viewed through the eyepiece 23.



  A fixed to the spherical shell 16 and rotatable with her glass plate 24, which has the same thickness as the transparent mirror 19, is used to cancel the shift caused by the visible mirror Parallelver the coming from the lens 13 projecting light rays.



  When using a translucent projection plane (FIG. 5), the fixed transparent mirror 19 and the movable plane-parallel glass plate 2.1 are omitted. The resulting image on the now translucent projection surface 15 is presented directly to the microscope lens 21 by the fixed mirror 20.



  A manually adjustable reversing prism '_'2 arranged at a suitable point in the tube 25 of the double microscope enables, if necessary, the mutual optical orientation of the partial images arising in the image planes of the microscope lens 21.

 

Claims (1)

PATENT CLAIM: Self-drawing measuring device for measurement image pairs of a spatial structure, consisting of a spatial cross slide system through which both a pen and two measurement image carriers, each with a lens arranged in the projection center of the measurement images, are moved, as well as each consisting of a stationary , on a double viewing glass arranged projection surface for each of the two separately projected measurement images and an optical intermediate body each, which serves for the sharp imaging of the measurement images on the projection surfaces and is switched between each projection objective and the associated projection surface, characterized in that the distances between the intermediate lenses, which are used for clear imaging on each projection surface, from a fixed point of the associated projection surface are unchangeable, namely the same or are approximately equal to the focal lengths of these intermediate lenses. SUBCLAIMS 1. Device according to patent claim, in which the optical intermediate elements are continuously directed at the corresponding projection lenses by means of suitable links, characterized in that the intermediate lenses (13) are fastened to hollow spherical parts (16) which are connected to the viewing glasses ( 25) firmly connected hollow cone parts are rotatable. 2. Device according to patent claim, characterized in that fixed, fully occupied mirrors (20) are connected to the fixed double viewing glasses (21, 22, 23, 25), by means of which the projection of the two measurement images with a translucent projection plane are viewed in such a way that the pivot points ( 14) of the auxiliary lenses (13) on the measuring marks of the double viewing glass Q21, 22, 23, 25). 3. Device according to patent claim, characterized in that a fixed transparent mirror (19) and a fixed, fully occupied mirror (20) are connected to the double viewing glasses (Z1-23, 25) on both sides, which means the projection of the two measurement images opaque projection planes are viewed in such a way that the points of rotation (14) of the auxiliary lenses (13) are mapped onto the measurement marks of the double viewing glass. 4th Device according to dependent claim 3, characterized in that between the fixed transparent mirror (19) and the fixed, fully occupied mirror (20) a plane-parallel glass plate (24) is switched on, which takes part in the rotary movement of the auxiliary lens (13) cancel the shift in rays caused by the transparent mirror (19).