MEASURING DEVICE AND METHOD FOR MEASURING THE POSITION OF BODIES

Abstract

A measuring device (1) for measuring the position of a first body (2) to a second body (3) comprises a scale band (4) that can be attached to the first body (2) and that comprises a marker, wherein the measuring device (1) comprises two marker detection sensors (5, 6) that can be attached to the second body (3), wherein the marker is formed by a pattern out of marker stripes (7), which transitions (8) between a first position (9) of the scale band (4) and a second position (10) are respectively arranged predetermined inclined to the transversal direction (12) of the scale band (4) in such a respective inclination angle (13) that each of the inclination angles (13) has a value that differs from the values of the other inclination angles, and wherein the scale band (4) is divided into a first trace (17) and into a second trace (18).

Claims

1. Measuring device (1) for measuring a position of a first body (2) relative to a second body (3), the second body being neighboured to the first body (2) and being movable relative to the first body (2), wherein the measuring device (1) comprises: a scale band (4) that can be attached to the first body (2) and the scale band comprises a marker, and a first marker detection sensor and a second marker detection sensor (5, 6) that can be attached to the second body (3), wherein the marker is formed as a pattern of a plurality of marker stripes (7), the pattern transitioning (8) from a respective marker stripe of the plurality of marker stripes (7) to a neighboured marker stripe of the plurality of marker stripes (7) between a first position (9) on the scale band (4) and a second position (10) on the scale band, and the second position being arranged in a longitudinal direction of the scale band (4) at a distance to the first position (9), each marker stripe is respectively arranged to have a predetermined incline to a transverse direction (12) of the scale band (4) forming a respective inclination angle (13) such that each of the inclination angles (13) of a respective marker stripe has a value that differs from the value of the inclination angle of a respective neighboured marker stripe, wherein the scale band (4) is divided along a centre into a first trace and a second trace (17, 18), wherein the first marker detection sensor (5) is arranged neighboured to the first trace (17) for detecting the inclination angle (13) on a portion of one of the marker stripe transitions (8) disposed in the first trace and the second marker detection sensor (6) is arranged neighboured to the second trace (18) for detecting the inclination angle (13) of a second portion of the marker stripe transition (8) disposed in the second trace, the first marker detection sensor and the second marker detection sensor (5, 6) are arranged next to each other and each is disposed between the first position (9) and the second position (10), so that the position of the first body (2) relative to the second body (3) can be determined as the first sensor and second sensor move between the first and the second position (9, 10) by detecting the inclination angle (13) within each trace of the respective marker stripes disposed between the first position and the second position.

2. Measuring device according to claim 1, wherein the marker stripes (7) are formed in a shape of a trapezium.

3. Measuring device according to claim 1, wherein the marker stripes (7) are formed by colourings of the surface of the scale band (4) and the marker detection sensors (5, 6) are optical sensors or cameras.

4. Measuring device according to claim 3, wherein the marker stripes (7) form a bright-dark-stripe pattern.

5. Measuring device according to claim 1, wherein the marker stripes (7) are formed by permanent magnetic poles of the scale band (4) and the marker detection sensors (5, 6) are magnetic sensors.

6. Measuring device according to claim 5, wherein the magnetic sensors are magnetoresistive sensors or Hall-sensors.

7. Measuring device according to claim 1, wherein a marker stripe transition (8) of a marker stripe disposed at the first position and a marker stripe disposed at the second position (9, 10) each respectively have a minimum angle (14) as their inclination angle, and where a marker stripe transition (8) of a marker stripe disposed at a third position (11) of the scale band (4) is arranged inclined at a maximum angle (15) to the transverse direction (12) of the scale band (4), and wherein the respective inclination angles of each of the marker stripes transitions (8) for each marker stripe of the plurality of the marker stripes that are arranged between the first position (9) and the third position (11), and that are arranged between the second position (10) and the third position (11), increase among the respective marker stripes in a direction from the first position and the second position respectively to the third position (11), monotonically from the minimum angle (14) to the maximum angle (15).

8. Measuring device according to claim 7, wherein each of the marker stripes (4) extending along the transverse direction (12) of the scale band (4) respectively have a width at the centre of the centre (16) of the scale band (4) the width of each marker stripe being the same.

9. Measuring device according to claim 7, wherein the minimum angle (14) is 0.

10. Measuring device according to claim 7, wherein the maximum angle (15) is one of 90 and 60.

11. Measuring device according to claim 7, wherein a first number of marker stripe transitions (8) between each one marker stripe of the plurality of marker stripes to a respective neighboured marker stripe of the plurality of marker stripes disposed between the first position (9) and the third position (11) and a second number of the marker stripe transitions (8) between each one marker stripe of the plurality of marker stripes to a respective neighboured marker stripe of the plurality of marker stripes disposed between the second position (10) and the third position (11) are equal.

12. Measuring device according to claim 7, wherein at least a first portion of the plurality of marker stripes is disposed between the second position and the third position, and at least a second portion of marker stripes is disposed between the first position and the third position, and the inclination angles (13) of the marker stripes disposed between the first position (9) and the third position (11) and the inclination angles (13) of the marker stripes disposed between the second position (10) and the third position (11) increase strictly monotonically among the respective marker stripes in a respective direction to the third position (11) from the minimum angle (14) to the maximum angle (15).

13. Method for measuring the position of a first body (2) to a second body (3) being neighboured to the first body (2) and being movable relative to the first body (2), with the steps: providing a measuring device (1) according to claim 1 on the bodies (2, 3); outputting a first signal as a function of the inclination angle of the marker stripe transition detected by the first marker detection sensor; outputting a second signal as a function of the inclination angle of the marker stripe transition detected by the second marker detection sensor; capturing an amplitude of the first signal and an amplitude of the second signal of the marker detection sensors (5, 6); determining a position of the first body relative to the second body when the second body is positioned between the first position (9) and the second position (10) by utilizing the amplitude of the first signal and the amplitude of the second signal to detect the inclination angles (13) of each respective marker stripe detected by the marker detection sensors (5, 6).

14. Method according to claim 13, wherein a gradient of the inclination angles (13) sensed by the first sensor and the second sensor are considered for determining the position of the first body relative to the second body between the first position (9) and the second position (10).

15. Measuring device according to claim 2, wherein the marker stripes (7) are formed by colourings of the surface of the scale band (4) and the marker detection sensors (5, 6) are optical sensors or cameras.

16. Measuring device according to claim 2, wherein the marker stripes (7) are formed by permanent magnetic poles of the scale band (4) and the marker detection sensors (5, 6) are magnetic sensors.

17. Measuring device according to claim 2, wherein a marker stripe transition (8) of a marker stripe disposed at the first position and a marker stripe disposed at the second position (9, 10) respectively each have a minimum angle (14) as their inclination angle, and where a marker stripe transition (8) of a marker stripe at a third position (11) of the scale band (4), is arranged inclined at a maximum angle (15) to the transverse direction (12) of the scale band (4), and wherein the respective inclination angles of each marker stripe transition (8) for each marker stripe of the plurality of the marker stripes that are arranged between the first position (9) and the third position (11) and that are arranged between the second position (10) and the third position (11), increase among respective marker stripes in a direction from the first position and second position respectively to the third position (11) monotonically from the minimum angle (14) to the maximum angle (15).

18. Measuring device according to claim 17, wherein the maximum angle (15) is one of 90 and 60

19. Measuring device according to claim 17, wherein a first number of marker stripe transitions (8) between each one marker stripe of the plurality of marker stripes to a respective neighboured marker stripe of the plurality of marker stripes disposed between the first position (9) and the third position (11) and a second number of the marker stripe transitions (8) between each one marker stripe of the plurality of marker stripes to a respective neighboured marker stripe of the plurality of marker stripes disposed between the second position (10) and the third position (11) are equal.

20. Measuring device according to claim 17, wherein at least a first portion of the plurality of marker stripes is disposed between the second position and the third position, and at least a second portion of marker stripes is disposed between the first position and the third position, and the inclination angles (13) of the marker stripes disposed between the first position (9) and the third position (11) and the inclination angles (13) of the marker stripes disposed between the second position (10) and the third position (11) increase strictly monotonically among the respective marker stripes in a respective direction to the third position (11) from the minimum angle (14) to the maximum angle (15).

Description

[0016] In the following, a preferred embodiment of the measuring device according to the invention is explained on the basis of schematic drawings.

[0017] FIG. 1 shows a top view of the preferred embodiment of the measuring device according to the invention and

[0018] FIG. 2 a detail view of FIG. 1.

[0019] As it can be seen from FIGS. 1 and 2, a measurement device 1 is provided in order to measure the position of a first body 2 to a second body 3. The first body 2 is, for example, formed as a rail, whereas the second body 3 is, for example, formed as a slide. The second body 3 can be moved relatively to the first body 2, wherein the absolute position of the second body 3 to the first body 2 can be determined with the measuring device 1.

[0020] The measuring device 1 comprises a scale band 4 that is applied on the first body 2. It is conceivable that the scale band 4 lies as a separate band on the first body 2. The scale band 4 could also be directly formed on the surface of the first body 2. It is conceivable that the first body 2 is formed as a cylinder, wherein the scale band 4 is cyclically closed. Further, the second body 3 comprises a first marker detection sensor 5 and a second marker detection sensor 6, wherein the second body 3 is supposed to be moved relatively to the first body 2 such that the marker detection sensors 5, 6 are moved along the scale band 4. The marker detection sensors 5, 6 are magnetoresistive sensors or Hall-sensors.

[0021] The scale band 4 is made out of a ferromagnetic material with high energy density or a magnetically hard material. A magnetizing head that is aligned transverse to the scale band 4 was moved over the scale band 4 during the magnetizing of the scale band 4, wherein the magnetizing head was alternating pivoted around the transversal direction of the scale band 4. The scale band 4 was therefore provided with a multitude of marker stripes 7, wherein each marker stripe 7 is either formed by a north pole or a south pole. The marker stripes 7 are alternating magnetized with north and south poles, so that transitions 8 in the shape of pole transitions are formed from marker stripe to marker stripe. It would also conceivable that the scale band 4 is formed by a direct magnetization of the surface of the first body 2, wherein the first body 2 correspondingly comprises a material that can be magnetized.

[0022] A first position 9 is defined on the scale band 4 and a second position 10 is defined in the longitudinal distance of the scale band 4. A third position 11 is located in the centre between the first position 9 and the second position 10. The transversal direction 12 is defined in the plane, in which the scale band 4 is lying, normal to the scale band 4. Each of the transitions 8 has an inclination angle 13 to the transversal direction 12. One of the transitions 8 is located on the first position 9, which inclination angle 13 is 0. Another of the transitions 8 is located on the second position 10, which inclination angle is also 0. The transitions 8 that are arranged between the first position 9 and the second position 10 have inclination angles that are larger than the inclination angles of the transitions 8 in the first position 9 and the second position 10, so that the transitions 8 in the first position 9 and the second position 10 have a minimum angle 14 of 0. A multitude of the transitions 8 is arranged between the first position 9 and the second position 10, wherein the inclination angles 13 of the transitions 8 increase from the first position 9 to the third position 11 and decreases again from the third position 11 to the second position 10. The transition 8, which inclination angle 13 is largest, is located on the third position 11, so that this inclination angle is a maximum angle 15. The maximum angle 15 is 60.

[0023] The longitudinal distances between the transitions 8 are respectively equally large in the centre 16 of the scale band 4. Seen in FIGS. 1 and 2, a first trace 17 is defined above the centre 16 and a second trace 18 is defined below the centre. The upper halves of the transitions 8 are therefore in the first trace 17, whereas the lower halves of the transitions 8 are in the second trace 18. The marker detection sensors 5, 6 are arranged lying next to each other in transversal direction 12 on the second body 3, wherein the first marker detection sensor 5 is arranged immediately adjacent to the first trace 17 and perpendicular to the drawing plane of FIG. 1 above the scale band 4. The second marker detection sensor 6 is arranged in analogous manner immediately adjacent to second trace 18 perpendicular to the drawing plane of FIG. 1 above the scale band 4. During a relative movement of the second body 3 to the first body 2, which is indicated with an arrow in FIG. 2, the marker detection sensors 5, 6 are moved above the scale band 4, wherein the marker detection sensor 5 follows the first trace 17 and the second marker detection 6 follows the second trace 18.

[0024] If the marker detection sensors 5, 6 are arranged between the first position 9 and the second position 10, the marker detection sensors 5, 6 capture the inclination angle 13 of the corresponding transitions that are arranged immediately adjacent to the respective marker detection sensors 5, 6. The absolute position of the second body 3 can be unambiguously determined by means of the given distribution of the inclination angles 13 between the first position 9 and the second position 10 and by means of the inclination angles of the immediately adjacent transitions 8 detected by the marker detection sensors, respectively by means of the gradients of the inclination angles detected by the marker detection sensors.

[0025] Since the marker detection sensors 5, 6 are arranged seen in the transversal direction 12 in a row and seen in the longitudinal direction 12 of the scale band 4 arranged next to each other, both marker detection sensors 5, 6 can be moved to the first position 9 and to the second position, wherein all transitions 8 situated between the first position 9 and the second position 10 can be captured by the marker detection sensors 5, 6 and therefore each position of the second body 3 between the first position 9 and the second position 10 can be determined. For example protrusions of the scale band 4 above the first position 9, respectively the second position 10 do need to be provided.

LIST OF REFERENCE SIGNS

[0026] 1 measuring device [0027] 2 first body [0028] 3 second body [0029] 4 scale band [0030] 5 first marker detection sensor [0031] 6 second marker detection sensor [0032] 7 marker stripes [0033] 8 transitions [0034] 9 first position [0035] 10 second position [0036] 11 third position [0037] 12 transversal direction [0038] 13 inclination angle [0039] 14 minimum angle [0040] 15 maximum angle [0041] 16 centre of the scale band [0042] 17 first trace [0043] 18 second trace