DD294558A5 - METHOD AND ARRANGEMENT FOR CALIBRATING A DIGITAL LENGTH MEASUREMENT SYSTEM - Google Patents

Abstract

The invention relates to a method and an arrangement for calibrating a digital Laengenmeszsystems on a machine. The invention consists in scanning, in a method or in the arrangement, a belt-shaped elastic division carrier mounted on a first machine element under variable pretensioning force with a picking-up pickup device mounted on a second machine element, the measuring signals being processed in an evaluating device, e.g. scanned with a Markenabtasteinrichtung a Laengenetalon with a predetermined distance between at least one start mark and at least one end mark, wherein from the scanning of the Laengenetalons and the Teilungstraegers in Markenabtasteinrichtung and the scanner resulting signals, in the evaluation a Meszwert for Etalonlaenge is determined which is compared with the predetermined distance. Figure {Calibrate, digital; Laengenmeszsystem; Machine; band-shaped divisional carrier; pickup; evaluation; Laengenetalon; Start mark; end mark}

Description

Field of application of the invention

The invention is applicable to translational measuring systems in which the metrological connection is to be reproduced or checked in the installed state.

Characteristic of the known state of the art For the reproduction or transmission of the metrological dimensional connection of material measure embodiments Graduation carriers are known various methods. A group of processes uses stable graduation carriers, which provide high dimensional stability from the technical-technological Production process until use on measuring machines or other applications largely maintained, e.g. Maßverkörperungen, as described in Feingerätetechnik 30Jg. / Heft 5/1981, page 195. However, this method is very

cost and material consuming and also suitable only for short measuring lengths.

Another group of methods uses less rigid pitch beams, but it will be relatively high in technicality Expenses operating to minimize compulsory forces on the graduation carrier

(DD121832 / A1, DD22210t7A1oderDD249615 / A1).

This type of measuring systems has in addition to the high technical complexity for the compulsory force reduction the disadvantage that

the thin but still inherently stable graduation carriers are limited in length.

There are also known measuring systems - especially for larger lengths - in which a graduation carrier made of elastic material

is stretched so that the division applied to the graduation carrier is again metrologically reproduced. such

Methods are described in DE 2011594 / A1, DE 2518745 / A1, DE 3319600 / A1 and DE 3402613 / A1. The disadvantage of these solutions is that for reproducing the metrological Maßanschlusses an external measuring system as Vergleichmeßsystem is required. Usually expensive Laserwegmeßsysteme be used for this purpose. The reproduction

the Maßanschlusses here is associated with a high equipment and metrological effort. These. Expenditure is not only necessary when installing the measuring system in the machine tool or measuring machine, but also after repair work on the measuring system or for measuring system checks.

Object of the invention

The aim of the invention is to eliminate the disadvantages of the prior art and to increase the utility of tape measuring systems by an internal measuring system etalon.

Explanation of the essence of the invention

The invention has for its object to provide a method and an arrangement for calibrating a length measuring system on a machine, which allow a simple metrological Maßanschluß. The object is achieved with a method and an arrangement with a length measuring system, wherein at a first machine element a band-shaped elastic graduation carrier for a translational division under biasing force is hinged and on a second machine element, which is relatively movable to the first machine element, a scanning device is mounted for the division and their primary signals generated are processed in an evaluation. Correction values for a correction of the pitch errors of the translatory division can also be contained in the evaluation device. The secondary signals generated in this evaluation device are connected to a display device and the metrological connection of the display of this arrangement depends on the state of stress and thus on the clamping forces of the graduation carrier in the direction of division. According to the invention, the assembly comprises a length etalon with at least one start mark and at least one end mark, this etalon keeping a distance between start and end mark in the pitch direction constant and extending in the pitch direction, and that a mark scanning device for the start and end marks of the Längenetalons is included which is in communication with the evaluation device, and that these Markenabtasteinrichtung on the one hand and the etalon with the marks on the other hand in each case one of the two mentioned machine elements are assigned. Advantageously, the etalon should compensate for thermally induced changes in length consist of a material which has a same or similar thermal expansion coefficient as the machine element to which the elastic graduation carrier is connected.

The start and end marks and / or associated Markenabtasteinrichtung can by opto-electronic means such. B. optocouplers or be realized by proximity initiators.

According to the inventive method in which the metrological assignment of the secondary signals to the unit length is dependent on the state of stress of the elastic graduation carrier, as required, such. B. after mounting on a machine, with changes in the voltage state of the graduation carrier or for a Meßsystemsüberprüfung, the previously determined Etalonlänge, which is characterized by the distance from the start and end mark, be re-measured by the Markenabtasteinrichtung in the direction of division first Anfangsund then overtravel the end mark and, on the other hand, the apparent etalon length in units of these secondary signals is indicated on the basis of these initial and marker signals on the one hand and the secondary signals resulting from this relative movement between the start and end marker signals. The metrological assignment can be achieved on two sets. Either the clamping force for the graduation carrier in the pitch direction is changed until the displayed apparent etalon length coincides with the previously determined etalon length or the existing difference between the apparent etalon length and the previously determined etalon length is supplied as an additional correction value to the correction device.

In the first approach, the apparent etalon length is iteratively aligned with the previously determined etalon length by repetitions of the adjustment process. In the second way, it must be ensured by suitable measures that the stress state of the elastic graduation carrier corresponds approximately to the stress state for the previously determined etalon length. This is z. B. possible by measuring the clamping force.

Under this condition, the apparent etalon length is determined only once, and the difference to the pre-determined etalon length serves as an additional correction factor unless the difference exceeds specified maximum values. This additional correction factor must be available to the correction device after each start-up, eg. B. via code switch. The method according to the invention can also be realized by determining the etalon length to be determined beforehand in relation to a metrologically connected comparison standard.

If only the reproduction of the stress state of the elastic graduation carrier is to be ensured at a later point in time, then the etalon length to be determined beforehand can also be determined as the apparent etalon length in units of the secondary signals. Here, however, the absolute metrological connection is not given.

exemplary The invention will be explained in more detail below using an exemplary embodiment. In Fig. 1 is an arrangement for Reproduction of the metrological Maßanschius for a translational measuring system shown schematically. At a first machine element 1, z. B. Machine bed of a machine tool, is a band-shaped elastic Teilungssträger 2 attached with a translatory division under the biasing force P and at a second Machine element 3, z. B. Support of the machine tool, which is the first machine element in measuring and Moving direction 9 is relatively movable, a scanning device 4 is mounted for the division. The in the scanner 4

generated primary signals are fed to an evaluation device 10 and generated in the evaluation device 10

Secondary signals are fed to a display device 11. The metrological connection of the display 11 of this arrangement depends on the state of stress and thus of the Clamping forces of the graduation carrier 1 in the direction of division 12 from. According to the invention, the arrangement includes a Längenetalon. 5

with an initial mark 6 and a final mark 7, wherein dioses etalon the distance A between the initial mark 6 and the

End mark 7 keeps constant in the direction of division 12 and extends in the direction of division 12. A mark scanner 8 for

the start and end marks 6, 7 of the etalon 5 are firmly connected to the scanning device 4 of the graduation. di "

Markenabtastsignale when crossing the start and end mark 6,7 of Etalon 5 are of the Markenabtasteinrichtung 8 of the evaluation device 10 is supplied. For the mean minimum sum pitch error of the division, for a clamping force of 203 N, the distance A of the etalon

against a metrologically absolutely connected Laserwegmeßsystem, for example, A = 1000.488mm at

Measuring system manufacturer has been determined. When mounting the measuring system to the machine tool, the clamping force of the elastic graduation carrier was measured

and adjusted so that the value was about 203 N as well.

For the reproduction of the metrological measuring connection made by the measuring system manufacturer, see the following Steps to proceed:

1. Determination of the apparent etalon length by first with the Markenabtasteinrichtung 8 in the direction of division 12, the start 6 and then the end mark 7 is crossed and thereby based on the start and end mark signals on the one hand and resulting from this movement lying between the start and Endmarkensignalen secondary signals of the On the other hand, the apparent etalon length in units of these secondary signals is indicated on the display device.

In the first step you should have shown an apparent etalon length of 1000,637 mm. As a result, the pitch is too short compared to the etalon length

 The difference is -159 increments.

2. Since the difference is negative, the elastic graduation carrier 2 is slightly re-tensioned and the apparent etalon length is re-determined according to point 1.

Repeat steps 1 and 2 until the apparent etalon length matches the actual etalon length of 1000.478mm. In the case of agreement, the metrological connection of the length measuring system over the entire measuring length in accordance with the metrological connection, as it was realized by the measuring system manufacturer compared to a Laserwegmeßsystem, brought without having to work on the machine tool with external measuring means.

Claims (8)

Anspruch [en] A method of calibrating a digital length measuring system on a machine in which a band-shaped elastic division carrier attached to a first machine element is scanned with a scanning device attached to a second machine element for measuring signal recovery, wherein the measuring signals are processed in an evaluating device in that a length scale (5) is scanned with a predetermined distance (A) between at least one starting mark (6) and at least one end mark (7) by means of a mark scanning device (B), wherein the one during scanning of the length tray (5) and the graduation carrier (2) signals originating in the mark scanning device (8) and the scanning device (4), in the evaluation device (10) a measurement for the etalon length is compared, which is compared with the predetermined distance (A), and that the metrological assignment takes place, by the clamping force for the graduation carrier in the pitch direction and thus its voltage state is changed until the displayed apparent etalon length coincides with the predetermined etalon length or the existing difference between apparent etalon length and predetermined etalon length is supplied as additional correction value of the correction device. 2. The method according to claim 1, characterized in that from the difference between the measured value for the Etalonlänge and predetermined distance (A), a correction value in the evaluation device (10) is formed. 3. The method according to claim 1, characterized in that the longitudinal extension of the graduation carrier (2) is changed by adjusting its biasing force, and the measured value for Etalonlänge for each set biasing force is determined again until the measured value for Etalonlänge with the predetermined distance (A) matches. A method according to claim 1 and claim 5, characterized in that the predetermined distance (A) from the signals produced by scanning the length tray (5) and the graduation carrier (2) in a mark scanner and a scanner of the same type as the length measuring system is determined in an associated evaluation device. , 5. An arrangement for calibrating a digital length measuring system on a machine, in which a band-shaped elastic graduation carrier is attached under biasing force to a first machine element, wherein a scanning device for the applied on the graduation carrier on a second machine element, which is relatively movable to the first machine element Division is attached, wherein the measuring signal output of the scanning device is connected to an evaluation device, and the outputs of the evaluation device with a display device in conjunction, and in which further means for longitudinal expansion of the graduation carrier on the first machine element is provided, characterized in that a Längenetalon ( 5) is provided with a constant distance (A) between at least one start mark (6) and at least one end mark (7) in the pitch direction (12) that a mark scanning device (8) for the initial marks (6) and end marks (7) pre see which is in communication with the evaluation device (10), and that the Markenabtasteinrichtung (8) and the Längenetalon (5) are each associated with one of the two machine elements (1,3). 6. Arrangement according to claim 5, characterized in that the Längenetalon (5) is associated with the first machine element (1), and that the carrier material for the Längenetalon (5) and the material of the first machine element (1) has substantially the same coefficient of thermal expansion in division direction (12). 7. Arrangement according to claim 5 or claim 5 and 6, characterized in that in the Markenabtasteinrichtung (8) at least one photoelectric receiver for the of the initial marks (6) and end marks (7) outgoing light stream is provided. 8. Arrangement according to claim 5 to 7, characterized in that the Längenetalon (5) within the measuring range of the length measuring in pitch direction (12) is positionable. For this 1 page drawing