DE2540413A1 - Precision optical indicating system for linear measurements - has glass measuring bar graduations magnified and displayed - Google Patents

Abstract

The optical indicating system consists of an enclosed Al housing (2) containing the main optical system and a graduated measuring bar (3). The housing is supported on a low-friction slide fixed to the lower part of the instrument (5). The lower part (12) consists of a further enclosure fixed to the machine, for example, the bed of a lathe. The lower housing contains a light source to illuminate the scale and a ground-glass screen and magnifying lens for the display window (1). Light from the lamp is focussed upwards through a glass graduated bar (3) and is reflected back by an angled mirror and lens system (29) in the upper housing above the bar (30). The image of the scale graduations are greatly magnified by an object lens (7) before being reflected onto the ground glass screen.

Description

Optical measuring device

for positioning or reading the relative position of two objects Die The invention relates to an optical measuring device for positioning or reading the Relative position of two objects, consisting of a scale and a lighting device and imaging optics, by means of which a graduation section of the scale is optically is shown enlarged on a focusing screen.

In optical measuring devices of this type, they are often used Highly magnifying, short-burning images aimed at Idungsopti ken. The usage but the like imaging optics is problematic. Because of their shallow depth of field namely cause even slight fluctuations in distance between the imaging optics and the plane of division of the scale blurs in the figure.

The requirement for a high image yield therefore not only requires one high quality in optics but also high precision in the involved Mechanics.

From CH-PS 398 098 it is already in the case of an optical measuring device known that the imaging optics or their support body via sliding blocks directly is supported on the dividing surface of the scale. This measure ensures that the working distance between the imaging optics and the dividing surface of the scale always remains constant. A disadvantage of this optical measuring device is to be considered that due to the small working distance between the imaging optics and the scale cleaning of these assemblies will be difficult.

In addition, there is a risk that in rough workshop operation the scale experiences damage.

From DT-OS 2 259 604 an arrangement has also become known, in which one was suspended from leaf springs to stabilize the working distance The imaging optics are supported by an air bearing on a movable component (image plate). The possible uses of such an arrangement are limited.

The object of the invention is to provide an optical measuring device of the initially mentioned y named type, which is characterized by high accuracy, easy handling, in particular, however, is characterized by a simple and compact design. Another The object of the invention is to achieve that the scale and the optical Components of the measuring device free of any contamination even in rough workshop operation stay. The invention is also intended to allow the optical measuring device to be attached Machines are made much easier.

The invention solves the problem essentially by Combination of the following features, some of which are known per se, a) for optical imaging a division of the scale on a fixed reading index is a-strong Enlarging, short focal length imaging optics provided, b) the fixed reading index on the ground glass consists of one that divides the intervals of the scale Fine scale, c) the imaging optics or their support body is supported directly on the Scale from so that the working distance between the imaging optics and the parting plane the scale is always constant, d) is the support body for the imaging optics coupled via a backlash-free coupling to a driver, which consists of a, the The scale and the imaging optics protrude from the hollow body shielding against environmental influences, e) the illumination beam path into the interior of the hollow body is through the driver and the image sirahlengang from the hollow body to the one attached to the driver Screen led.

Further features of the invention can be found in the subclaims.

The optical measuring device according to the invention offers the following essentials Advantages 1. High accuracy with a small, compact design, 2. particularly light Handling, as the measured value can be read immediately without adjusting any components is, 3. structurally simple construction and thus cost-effective production possible, 4. Uncomplicated installation of the measuring device on the machine, since the measuring device is delivered in a completely adjusted state, 5. versatile applicability, i.a. because of the independence from machine guides, 6. no dirt or damage of the sensitive assemblies (scale / optical parts) possible, 7th possibility of full value adjustment lung.

An exemplary embodiment of the invention is shown in the drawing.

It shows FIG. 1 a side view of the optical measuring device according to FIG of the invention, Figure 2 is a plan view of Figure 1, Figure 3 a Section along the line A-B of Figure 2, Figure 4 is a section along the line C-D of Figure 1, Figure 5 a section along the line E-F of Figure 4, Figure 6 a Section along the line G-H in FIG. 4, FIG. 7 enlarged a detail the yardstick.

In the exemplary embodiment, position number 1 is the reading device and 2 denotes the structural unit carrying the scale 3. The reader 1 and the structural unit 2 are attached to a machine bed or machine slide. The structural unit 2 expediently consists of an extruded hollow aluminum body 4 and a glass scale 3, which is fixed in the hollow body 4 by gluing. The rigid one Hollow body 4 is closed by means of flexible, roof-shaped sealing lips 5/6.

In the case of the graduation T applied to the scale 3 (see FIG. 7) in the exemplary embodiment the "tenths of an interval" are numbered. Figure 2 shows a Image of the division T used in reading field A of the device 1. The reading option in numbers is therefore "0.1 mm", thanks to the fixed fine rake (reading index J) on the ground glass 18 "0.01 mm". The reading in the exemplary embodiment is 220.35 mm.

A coarse division TG is also provided on the hollow body 4, which can be read from an index # JG of device 1.

The illustration of a division section of the scale 3 takes place by means of a short focal length objective 7 which is attached to a carrier body 8 (Figure 3).

The objective 7 has a very high magnification (50 times). Of the Lens carrier 8 is supported by low-friction sliding shoes 9 directly on the dividing surface of the glass scale 3. This ensures that the short focal length of Objective 7 conditional very small working distance between the lens 7 and the division surface of the scale 3 is always constant. On the carrier body 8 rollers (ball bearings) 10 are also provided, over which this is on Hollow body 4 is supported.

The carrier body 8 is free of play, which is designated as a whole by 11 Coupling (FIG. 4) coupled to component 1 designed as a driver. Of the Driver 1 penetrates the sealing lips 5/6 and has a in this section sword-shaped cross-section (Figure 6). In the opposite to the hollow body 4 protruding In the area, the driver 1 is designed as a housing 12. The lighting device is in the housing 12 21, deflection mirrors 16 and 17, a ground glass 18, a reading magnifier 19 (Figure 5) and the mechanical parts of the assembly 20 for the Vol Iwerteinstel treatment housed. The lighting device 21 contains a lamp 13 and a condenser 14. Das The housing 12 accommodating the aforementioned parts is closed by means of a cover 22.

In the housing 12 there is an opening 23 for the illumination beam path, an opening 24 for the imaging beam path and an opening 25 for the angle lever 26 of assembly 20. The illumination beam path is on the back of the scale 3 deflected via mirrors 27 and 28. The mirror 27 is via a holder (not shown) attached to the sword-shaped portion of the housing 12. The mirror 28 is together with a condenser 29 via a holder 30 (FIG. 3) on the carrier body 8 attached for the lens 7.

The mechanical coupling 11 between the lens carrier 8 and the driver 1 consists of a flat connecting part 31, which has a backlash-free ball joint 32 on the lens carrier 8 and via a further ball joint 33 on one on the driver 1 attached angle lever 26 is coupled. The center of the ball joint 32 or 33 is at the level of the neutral fiber of the scale 3. This is ensured that the ob jective carrier 8 on the heavy-shaped portion of the driver 1 in height the neutral fiber of the scale 3 is coupled. Through this coupling will be errors caused by deformations of the scale 3 compensated.

A preloaded spring 34 that is positioned between the mounting shaft of the Ball joint 33 and a hole in the connecting part 31 is introduced, causes that the lens carrier 8 both against the guide curse on the glass scale 3 as well is pressed against the guide surface on the hollow body 4.

The assembly 20, which enables full value adjustment, contains an angle lever 26, an actuating screw 36 and a spring 37. The angle lever 26, to which the ball joint 33 is attached, is on the driver via an axis of rotation 35 1 pivoted. The angle lever 26 is adjusted by means of the screw 36 against the action of the spring 37. When the screw 36 is actuated, the coupling assembly 11 deflected and the lens carrier 8 slightly relative to the division of the scale 3 postponed until a numbered division interval from which at the measurement is to be assumed, the reading index J is set.

L e r s e i t e

Claims (10)

Claims Optical measuring device for positioning or reading the relative position of two objects, consisting of a scale and a lighting device and imaging optics, by means of which a graduation section of the scale is optically is shown enlarged on a focusing screen, characterized by the combination The following features, some of which are known per se, a) for the optical imaging of a graduation section (T) of the scale (3) on a stationary reading index (J) is a strongly magnifying, short focal length imaging optics (7) provided, b) the fixed reading index (J) on the ground glass (18) consists of a subdivision of the intervals of the scale (3) Fine scale, c) the imaging optics (7) or its support body (8) is supported directly on the scale (3) so that the working distance between the imaging optics (7) and the dividing plane of the scale (3) is always constant, d) the support body (8) for the imaging optics (7) is coupled to a driver (1) via a backlash-free coupling (11), the from a scale (3) and the imaging optics (7) shielding against environmental influences Hollow body (4) protrudes, e) through the driver (1) is the illumination beam path into the interior of the hollow body (4) and the imaging beam path from the hollow body (4) on the ground glass (18) attached to the driver (1). 2.) Optical Messeinlichlullg according to claim 1, dadurch1 ge! that the scale (3) is a glass scale in a rigid body (4) is attached and that on the dividing surface of the glass scale (3) and on one the surface of the hollow body (4) lying approximately at right angles to the support body (8) for the imaging optics (7) is performed and that also the support grains (8) over a backlash-free coupling (11) on a slender in the area of the hollow body (4), preferably sword-shaped driver (1) is coupled between flexible, roof-shaped sealing lips (5/6) which close the hollow body (4), is passed and that also the driver (1) in the opposite to the hollow body (4) protruding area is designed so that it the housing (12) of the reading device embodied. 3.) Optical measuring device according to claim 1 and 2, characterized in that that the support body (8) for the imaging optics (7) resiliently against the guide surfaces is printed on the glass scale (3) and hollow body (4) and on the guide surface the glass scale (3) via sliding shoes (9), preferably made of plastic, and on the guide surface of the hollow body (4) is expediently supported via ball bearings (10). 4.) Optical measuring device according to claim 1 to 3, characterized in that that the rigid hollow body (4) made of metal, preferably aluminum, and that the glass scale (3) is fixed in the hollow body (4) by gluing. 5.) Optical measuring device according to claim 2 to 4, characterized in that that the lighting device (21) is provided in the housing (12) of the driver (1) is and that the illumination beam path through an opening (23) in the driver (1) is guided into the interior of the hollow body (4) and in the hollow grain (4) is deflected via mirrors (27 and 28) which are facing away from the imaging optics (7) Side of the scale (3) are provided and one of which is on the slim section the driver (1) and the other together with a condenser (29) on the bowl body (8) for the imaging optics (7) is attached and that also the imaging beam path through an opening (24) in the driver (1) via a deflection mirror (16) a ground glass (18) mounted in the housing (12) is guided. 6.) Optical measuring device according to claim 1 to 5, characterized in that that the backlash-free coupling (11) between the carrier body (8) for the imaging optics (7) and the driver (1) is a joint-like assembly (31/32/33). 7.) Optical measuring device according to claim 6, characterized in that that the coupling (11) consists of a rigid connecting part (31) that over a backlash-free ball joint (32) on the support body (8) for the imaging optics (7) is coupled and coupled to the driver (1) via a further ball joint (33) is and that the center of the sphere of the aforementioned joints (32/33) at the level of the neutral Fiber of the scale (3) lies. 8.) Optical measuring device according to claim 1 to 7, characterized in that that the hinge-like coupling element (11) is slightly used for volume adjustment is deflected and that an adjustment by the deflection of the coupling element (11) of the support body (8) for the imaging optics (7) relative to the division of the glass scale (3) is effected. 9.) Optical measuring device according to claim 8, characterized in that that a joint (32) of the coupling (11) is attached directly to an angle lever (26) is, which is rotatably mounted in the housing (12) of the driver (1) and against the effect of one or (37) grooved by means of an actuating element (36) is adjustable. 10.) Optical measuring device still Ans Lurch 1 to 9, characterized in that that on the surface of the hollow body (4) lying in the plane of the reading area (A) a coarse graduation (TG) is provided, which at an index (JG) on the housing (12) of the Reading device is readable.