DE4239170C2 - Method for producing a signal transmitter for the contactless measurement of the rotational speed - Google Patents

Description

The invention relates to a method for producing an Si sensor for the contactless measurement of the rotational speed according to the preamble of claim 1.

A corresponding signal generator is, for example, from the older one Application DE 41 33 709 A1 known.

There is a signal generator for inductive measurement of the rotation described the speed of a body made of a magne table is made of non-conductive material on its surface Magnetically conductive wire segments welded on as pulse generators are.

From FR 2 590 989 A1 it is known to be ferromagnetic or permanent magnetic metal strips on a component from one to arrange non-magnetic alloy raised and as an impulse encoder to measure the speed of rotation. The Attach the ferromagnetic metal strips to the component takes place during casting.

With this signal generator, the pulse generators are directly on the Component arranged. The arrangement is also in egg pouring process. So it is not possible to have a non-poured senes component according to this process with such pulse generators equip. Furthermore, this procedure compared to the original sprung molds of the body more complicated molds.  

Should only a part of the body be provided with the pulse generators two molds must be provided.

Furthermore, from DE-OS 24 31 962 is a manufacturing process known for a signal generator for rotating components. Here the signal generator is made from a strip, the Stripes formed a regular cross profile by deformation and and by welding the two ends of the strip a ring is created with one another. To be a regular To achieve distance between the cross sections, the welding of the Ends so that the periodicity of the cross profiles in the Area of the weld is preserved.

The object of the invention is based on the generic To manufacture ten signaling devices such that, on the one hand, simple, cheap materials can be used, on the other hand the highest possible precision of the position of the wire segments to reach the body of the component.

This task is based on the generic Sig nalgebers invention according to the characterizing features of the method according to claim 1 solved.

The pulse generators are made of wire welded to the component segments made of inert gas welding wire. You are sublime arranged on the component. Because of the sublime arrangement it is possible, the measurement transmitted by the pulse generator Distinguish input size from that of the component. On off sufficient contrast is normally guaranteed. Ver improvement of the quality of the measurement signal generated by the sensor it should be noted that both the number and the position tolerance of the the measuring accuracy di are directly influencing variables. The position tolerance therefore has direct influence on the measured frequency, because each evenly  The wire segment is more ugly, that is to say it has a lower position tolerance elements are arranged on the component, the greater the frequency synchronization of the measurement signal is. The number of pulse generators increases the generated signal frequency. This increases the on number of measured signals per unit of time and thus the measurement accuracy and also the resolution of the measurement. Please note however, the circumference of the component on which the wire segments are arranged since there is a minimum distance between the wire segments must be given to ensure a sharp separation of the individual To get signals. Through this limit is the maximum number the pulse generator is therefore limited. It is therefore an advantage that Rotational speed measurement on a component with as much as possible to arrange on a large scale. Furthermore, it is especially at fast rotating bodies such as camshafts important to note that the measuring electronics are sufficiently fast for the evaluation of all incoming measurement signals.

Usually the frequency of the pulse generator the magnetic induction generated as a measured variable drawn. For this it is necessary that the pulse generator ferromag are netic. This is ge with conventional shielding gas welding wire give. The sensor is at a short distance from the pulse encoders fixed, so that the pulse generator close to be guided past the sensor.

Such signal transmitters are mainly used in vehicles where electronic control units such as ABS, ASR and ASD the rotation speed of the individual vehicle wheels that must be recorded. With such signal generators can also the rotational speed of any other rotating Body can be grasped. This applies, for example, to the vehicle sector for the starter ring gear, gear output shaft, cam and Crankshaft.  

Further refinements of the invention can be found in the dependent claims Chen be removed; the invention is based on the follow in the embodiment shown in the drawings still explained; show:

Fig. 1 is a representation of the body in the region of the component with embossed wire segments welded to the circumference and the fixed sensor and

Fig. 2 is a schematic diagram of the welding of wire segments made of inert gas welding wire to the component.

Fig. 1 shows a representation of a signal generator for the contactless measurement of the rotational speed of a Kör pers.10. On the circumference of the axis 11 symmetrical about the axis of rotation 12 component 11 ferromagnetic, straight wire segments 13 are arranged as a pulse generator evenly spaced. The wire segments 13 are aligned parallel to the axis of rotation. Due to the rotational movement of the component, the wire segments 13 are guided past the sensor 14 connected to an evaluation circuit. The wire segments 13 are formed from protective gas welding wire welded to the component 11 . In a second work step, the wire segments 13 were embossed and therefore have a rectangular cross section. A trapezoidal wire cross-section can also be favorable, the base side of the trapezoid being in contact with the component 11 . Compared to the orthogonal, the side edges of the trapezoid are preferably inclined by five to ten degrees. The cross-sectional shape of the wire is selected in such a way that it aims to achieve the best possible signal contrast between wire segment 13 and component 11 in the sensor.

Fig. 2 shows a schematic diagram of the welding of a wire segment 13 with the component 11. The straight wire segments 13 made of protective gas welding wire are applied to the component 11 .

The welding electrode 15 extends in the longitudinal direction over the length of the wire segment 13 . In the middle of the welding electrode 15 , a groove for partially receiving the wire segments 13 is attached. The wire segment pressed against the component by the welding electrode 15 is welded to the component 11 over its entire length.

In a further embodiment, it is possible to weld the wire segments 13 in groups of two to twelve wire segments 13 to the component 11 at the same time. This is advantageous because then the relative position of the wire segments 13 within a group is better defined and the manufacturing time required for attaching the wire segments is reduced accordingly. However, due to process reliability, it is not advisable to weld a large number of wire segments at the same time.

It is particularly simple to unwind the wire segments 13 from a coil and to feed them to the electrodes 15 in the form of an endless wire. Only after welding is the wire segments 13 separated from the continuous wire.

The wire cross-sections can be shaped not only by direct feeding of a correspondingly profiled wire but also after welding by stamping. This is particularly advantageous because the embossing into a suitable cross-sectional shape corrects slight positional deviations of the wire segments 13 with regard to their alignment and their position on the component 11 .

Claims (4)

1. A method for producing a signal generator for the contactless measurement of the rotational speed of a body ( 10 ), with ferromagnetic, straight wire segments ( 13 ) as a pulse generator evenly on an axis-symmetrical component ( 11 ) of the body ( 10 ) about the axis of rotation ( 12 ) are arranged at a distance, characterized in that the straight wire segments ( 13 ) are formed from protective gas welding wire and are welded to the component ( 11 ) by resistance welding with electrodes ( 15 ) extending in the longitudinal direction over the length of the wire segment ( 13 ) to be welded. be welded. 2. The method according to claim 1, characterized in that the wire segments (13) segments in groups of two to twelve wire (13) are welded simultaneously to the component (11). 3. The method according to claim 1, characterized in that the wire segments ( 13 ) unwound from a coil, supplied to the welding electrode ( 15 ), welded to the component ( 11 ) and then cut. 4. The method according to claim 1, characterized in that after welding the round wire cross-sections of the wire segments ( 13 ) deformed by stamping into a rectangular cross-sectional shape and positional deviations of the wire segments ( 13 ) are corrected with respect to their orientation and their position on the component ( 11 ) .