DE102005055905A1 - Length measuring arrangement for use in e.g. vehicle position sensor, has encoder with magnetic field that symmetrically runs between arrangements, where field line run has variation with respect to measuring direction over measuring area - Google Patents

Abstract

The arrangement has a magnetic encoder (1) moved relative to a sensor retainer along a measuring direction (m), where the retainer has sensor arrangements (3, 3`) with magnetic field sensors. The encoder has a magnetic segment (5) that extends over a measuring area of the arrangement. Boundary layers (6, 6`) extend over the area and run between two different magnetic areas of the encoder. The encoder has a magnetic field that symmetrically runs between the arrangements with respect to a longitudinal axis, where the field line run has a variation with respect to the direction over the area.

Description

The The invention relates to a length measuring arrangement to the touchless Absolute value measurement according to the generic term of claim 1.

It are already arrangements for non-contact and absolute length measurement known. In the case of disturbance movements, a systematic approach generally occurs Measurement error, which results from movements with a to the measuring direction different proportion of movement in the measurement with incorporated.

In publication DE 19729312 A1 a length measuring system is described, which has a decoder for determining the absolute length, which along its length along the measuring direction a code track consisting of binary magnetically marked code elements, which are detected by two magnetic field sensors per code element. In this case, from the respective code word, which consists of a certain number of code elements, closed directly to the relative position of the encoder to the sensors and thus to the absolute length. For detecting the binary code, a number of magnetic field sensors is required, which corresponds to twice the number of code elements of the code word necessary for the absolute measurement, which results in corresponding costs. The arrangement is also sensitive to jamming, which is a common cause of measurement errors.

In publication EP 1157256 B1 a length measuring system is proposed whose magnetic scale displaceable in the measuring direction has a helical magnetic coding, so that the magnetic field sensor of the length measuring system detects a specific direction of the magnetic field of the encoder depending on the relative position in the measuring direction relative to the scale. This unique relationship between magnetic field direction and relative position of encoder to sensor always results in an absolute measured length. In practice, however, this length measuring system is particularly susceptible to measurement errors resulting from unintentional rotation of the encoder, since due to the special design of the encoder, a rotational movement for the sensor is not to be distinguished from a shift in the measuring direction.

The The object of the present invention is thus to provide a length measuring arrangement for non-contact absolute value measurements to describe, in comparison to already known length measuring arrangements a lower measurement error susceptibility, caused due to disturbing movements, having. Furthermore should solve this task Arrangement as possible few additional Have elements so that the additional costs compared low to known arrangements.

These The object is achieved by the length measuring arrangement according to claim 1.

Of the Invention is based on the idea with the aid of a length measuring arrangement absolute and touchless length measurements perform. There is the length measuring arrangement from at least one magnetic encoder which is relative to a Sensor recording along the measuring direction is movable. The magnetic Encoder has several different magnetic segments. The sensor receptacle is positioned at a distance from each other Magnetic field sensor assemblies equipped, each the same Number of magnetic field sensors included. Furthermore, the Magnetic encoder at least a first over the entire measuring range the length measuring arrangement away extending magnetic segment, as well as per sensor array at least one interface, which are over the entire measuring range of the length measuring arrangement and between two magnetized differently Areas of the encoder runs. Furthermore the encoder has a magnetic field, which with respect to the Longitudinal axis in Measuring direction substantially exactly between the sensor arrangements runs symmetrically. The field line course of this magnetic field, the respective Sensor arrangement measures, points over the entire measuring range a change in terms of the measuring direction.

Under a sensor arrangement becomes a composite of one or more sensors Understood. It can the individual sensors of the network on a different Principle, be of different types, as well as a different one geometric orientation with respect of the encoder.

Under a jamming movement, a movement is understood that is different to the measuring direction Movement share has.

Under the longitudinal axis is always understood the axis that runs along the direction of measurement.

Preferably The sensors of the sensor receptacle are relative to their distance and their orientation symmetrical to the longitudinal axis aligned to the encoder and capture each of the impinging Angle of the magnetic field. This orientation of the sensors will the signal evaluation simplified because the signals of the sensor arrays on same way arise and no arrangement-related signal components taken into account in the length calculation Need to become.

It is appropriate the Signals of the two sensor arrangements on the detected angle in relation to each other consider. As a result, movements flow with a directional proportion that differs from the direction of measurement is not in the length measurement with a. So can calculate the length in a relatively simple way and the length measuring arrangement is insensitive to disturbing movements.

Prefers The encoder becomes rod-shaped or cylindrical educated. In particular, the encoder can also be a shaft be, whereby the axial displacement of a rotating shaft are measured can.

It is alternatively useful the Encoder cuboid train as this is a frequent Shape of the components whose position is to be measured. Instead of a pure length measurement can also measure the one-dimensional position of a body be of particular interest.

According to one another preferred embodiment The encoder is designed as a strip or foil. This is he can be used more flexibly and the potential cost of a retrofit reduced. Furthermore can help with one's body fixed strip or a foil, subsequently a one-dimensional Position determination of the respective body are performed.

Preferably indicates the encoder except the first segment two or a number of other segments which is a multiple of two. Here are the others Segments always different to their respective adjacent segments magnetized. additionally these segments are both geometric and in terms of theirs Magnetization formed symmetrically to the first segment and arranged. Their respective north-south border runs thereby spiral or diagonal with respect to the measuring direction. By the The above-described geometric configuration of the encoder, the Required in claim 1 training the magnetic field with relative be realized with little technical effort.

• – Pedalwegsensor
• – Speicherwegsensor in hydraulischen oder pneumatischen Speichern
• – Stoßdämpferhöhensensor
• – Boosterwegsensor zur Messung der Stellung des Bremskraftverstärkers
• – Bremsbelagsverschleißanzeige
• – Füllstandsbestimmung in Flüssigkeitstanks
• – Positionssensor im Schiebedach
• – Positionssensor im Cabrioverdeck
• – Positionssensor für Fensterheber
• – Scheinwerferposition
• – Ermittlung der Sitzposition
• – Lenkwinkelsensor
• – Sensor zur Ermittlung der Kurbelwellenposition
• – Drosselklappensensor
• – Sensor zur Ermittlung der Ventilposition im Motor

Advantageously, the length measuring arrangement according to the invention is used in a motor vehicle sensor, in particular as:

• - pedal travel sensor
• - Memory path sensor in hydraulic or pneumatic storage
• - Shock absorber height sensor
• Booster displacement sensor for measuring the position of the brake booster
• - brake pad wear indicator
• - Level determination in liquid tanks
• - Position sensor in the sunroof
• - Position sensor in the convertible top
• - Position sensor for windows
• - Headlight position
• - Determination of seating position
• - Steering angle sensor
• - Sensor for determining the crankshaft position
• - Throttle sensor
• - Sensor for determining the valve position in the engine

Furthermore This measuring arrangement can also be used in the field of industrial automation technology and control engineering used to absolute length measurements with high accuracy and low susceptibility to measurement errors due to jamming perform.

Further preferred embodiments emerge from the dependent claims and the following description of an embodiment with reference to Characters.

It shows

1 two length measuring arrangements, wherein in the first representation a) of the magnetic encoder is cylindrical and in the second representation b) of the magnetic encoder is cuboid.

The in 1a) illustrated cylindrical magnetic encoder 1 has a first magnetic segment extending over the entire measuring range 5 , as well as two adjacent segments on each side, one to 5 have different magnetic polarity. The interfaces occurring in this design of the cylinder 6 and 6 ' each extend in the form of a spiral segment with respect to the measuring direction m. In addition, the interfaces run 6 and 6 ' with respect to the distance to the longitudinal axis substantially exactly symmetrical between the measuring arrangements. The two magnetic field sensor arrangements 3 and 3 ' are on both sides along the encoder 1 arranged and detect the magnetic field of the encoder.

In 1b) is a cuboid encoder according to the invention 2 displayed. This also has a first over the entire measuring range extending magnetic segment 5 ' , as well as two adjacent segments on each side, one to 5 ' have different magnetic polarity. The interfaces 7 and 7 ' that is the first magnet segment 5 ' bound laterally in the measuring direction m, extend diagonally to the measuring direction m. The two magnetic field sensor arrangements 4 and 4 ' are arranged so that they are in each position of the encoder, each primarily the magnetic field of a given interface 7 / 7 ' to capture.

An exemplary embodiment of the Length measuring arrangement uses an in 1a) described encoder.

in the Due to an encoder shift in measuring direction m changes the magnetic field which the respective magnetic field sensor arrangement detected. The detection of the respective magnetic field by the sensors the respective sensor arrangement is advantageously carried out symmetrically to Longitudinal axis, the essentially exactly symmetrical between the two sensor arrangements runs. The signals of the two magnetic field sensor arrangements are relative to looking at each other, from which in the subsequent calculation the absolute length is determined.

In an alternative embodiment the calculation of the absolute length happens by the adjustment of the each current measurement data with the measurement data one before experimentally determined data table.

In a further exemplary embodiment is the length to be measured over a Difference formation of the two sig nals of the respective sensor arrangements under consideration the difference change calculated as part of a movement in the direction of measurement.

Another exemplary embodiment uses an encoder for the above methods, as in FIG 2a) described. In this case, the encoder can also be designed as a rectangular strip or a foil. In the case of using a strip or a film in addition to the length measurement, a one-dimensional position determination of a body can be performed. For this purpose, the body is suitably marked or marked with the encoder strip or the film.

In an exemplary embodiment The arrangement is the sensor receptacle with an integrated electronic Computer unit equipped with all calculations within performs the sensor recording. In this computer unit are also experimentally determined measured values saved. about These readings can be compared with the actual ones Measured values the respective length or position of the encoder in the direction of measurement.

Claims (7)

Length measuring arrangement consisting of at least one magnetic encoder which is movable relative to a sensor receptacle along a measuring direction (m), wherein the magnetic encoder ( 1 . 2 ) has a plurality of different magnetic segments and the sensor receptacle with magnetic field sensor arrangements positioned at a distance from one another ( 3 . 3 ' . 4 . 4 ' ), each containing the same number of magnetic field sensors, characterized in that the magnetic encoder has at least a first magnetic segment extending over the entire measuring range of the length measuring arrangement ( 5 . 5 ' ), and at least one interface per sensor arrangement, which extends over the entire measuring range of the length measuring arrangement and extends between two differently magnetized regions of the encoder, and the encoder has a magnetic field which with respect to the longitudinal axis in the measuring direction (m) substantially exactly symmetrical runs between the sensor arrangements, wherein the field line course, which measures the respective sensor arrangement, must have a change with respect to the measuring direction over the entire measuring range. Length measuring system according to claim 1, characterized in that the sensors of the sensor holder in terms of their distance and their orientation symmetrical to the longitudinal axis aligned with the encoder. Length measuring system according to claim 1 or 2, characterized in that the signals of the two sensor arrangements on the detected angle in relation to each other, whereby movements with a directional proportion, the is different from the measuring direction, not in the length measurement incorporated. Length measuring arrangement according to at least claim 1 to 3, characterized in that the encoder rod-shaped or cylindrical ( 1 ) is formed or that it is in particular a wave. Length measuring arrangement according to at least claims 1 to 4, characterized in that the encoder cuboid ( 2 ) is trained. Length measuring system according to at least claim 1 to 5, characterized in that the encoder as a strip or Foil is formed. Length measuring arrangement according to at least claim 1 to 6, characterized in that the encoder except the first, two or a number of further segments, which is a multiple of two, containing, wherein the further segments are always magnetized differently to their adjacent segments and these both formed geometrically and in terms of their magnetization symmetrical to the first segment and angeord net, the respective north-south boundaries ( 6 . 6 ' . 7 . 7 ' ) spirally or diagonally with respect to the measuring direction.