DE2709212A1 - Vehicle course measurement from earths magnetic field - using long and short term probes with vertical component compensation - Google Patents

Abstract

A vehicle course measurement device has a transducer determining the attitude of the vehicle axis w.r.t. north from the earth's magnetic field and a further transducer determining course variations over short periods. The second transducer output is temporarily substituted for that of the first during magnetic field transients. It is designed to encompass compensation for the vertical component of the earth's magnetic field in the region of the transducer. One of the compensation devices associated with the two transducers is used for vertical component compensation up to a given level.

Description

The invention relates to a course measuring device for a driving

tool according to patent 0 ..........................

(Patent application P 26 51 678.9), in which the direction of the vehicle axis The transducers that determine the north direction and respond to the earth's magnetic field and a sufficiently accurate course or change of course in a short period of time reproducing further XeBwertgeber is provided, in which continue to changes measuring means responding to the magnetic field acting on the transducer are provided are that generate an output signal from a predetermined change and in the this output signal is used to determine the determined by the further transducer Measured values for the duration of this output signal instead of the measured values of the to have the measuring transducer measuring the earth's field entered into the course value or it to build.

The invention of the main patent assumes that when using to the magnetic field responsive transducers in an environment that intermittently Distortions of the earth's magnetic field caused, very large measurement errors were detected. This is, for example, when using such transducers on those driving in urban areas Vehicles the case, because here on the one hand by iron masses in the neighboring buildings Deflections of the magnetic field and, on the other hand, by conductors carrying direct current, E.g. overhead tram lines, falsifying field overlays can occur. The measurement can be falsified by up to 300.

On the other hand, however, is the use of such inexpensive measurement transmitters e.g. as a direction indicator for the one known from German patent specification 2 301 054 Vehicle location display system in a city of greatest interest.

To solve this problem, it is proposed in the main patent, the to use a second transducer and to use its values to determine the course, when the earth's magnetic field is falsified. To determine the falsification is there proposed the change in the vertical component of the magnetic field or else the Change the sum of the squares of the horizontal components or all three field components as a criterion for falsification.

The object of the present invention is the application of the teaching of the main patent to the cases in which the vertical component of the earth's magnetic field in the space around the transducer is compensated.

This object is achieved in that when using a compensation device associated with the transducer responsive to the earth's magnetic field to compensate for the vertical component of the earth's magnetic field based on changes in the Magnetic field responsive measuring means are designed such that they respond to the change of the compensated state respond by a specified value.

Such a compensation of the vertical components of the earth's magnetic field, e.g. by means of a compensation winding is known (see e.g. 3. DT-OS 2 516 384). A distinction must be made between two cases, namely a fixed compensation of the vertical component for the vehicle that is level or slightly inclined and one that deals with the change the size of the vertical components adapting compensation of this component.

In the first case, the occurrence of a vertical component can be more certain Size in the permanently compensated space as Criterion for adulteration and initiate the switchover, while in the second case the change of the Compensation current around a predetermined value as a criterion for the falsification serves.

With the aid of the drawing, two exemplary embodiments of the invention are illustrated explained in more detail.

In FIG. 1, there are two windings 1 that are at right angles to one another and 2 shown, which use the transducer for measuring the horizontal portion of the To represent the earth's magnetic field. In a horizontal plane around this transducer is a compensation winding 3, here for the sake of simplicity as one turn is shown, which is applied from the supply device 4 with such a current is that with a horizontal alignment of the transducer including the compensation winding 3 for the MeB value transmitter 1/2 the vertical component with an unadulterated magnetic field is just compensated. The components of the transducer 1/2 become in the block 5 sin the course value reproducing signal obtained via the switch 6 to a navigation computer, not shown, arrives.

In the compensated space and perpendicular to the transducer 1/2 and thus normally arranged vertically is one on the vertical component of the earth's magnetic field responsive transducer 7 arranged with the amplifier and Schwellwertsohaltung 8 is connected. If there is a falsified force magnetic field, the vertical component becomes no longer fully compensated; rather, the transducer 7 will now emit a signal, by a switching signal from a predetermined size at the output of the circuit 8 for switching the switch 6 is generated. This means that if the magnetic field is falsified switched to the second course value transmitter 9.

In the embodiment of FIG. 2, the transducer is again 1/2 connected to the conversion block 5 and also the blocks 6 and 9 and the winding 3 correspond to the parts of FIG. 1 with the same names. The circuit 4 'for compensation the vertical components of the earth's magnetic field is now from the transducer 10, which measures the vertical component at an uncompensated location, so controlled, that in each case the incident perpendicular to the plane of the compensation winding 3 Part of the earth's magnetic field is compensated. The transducer 10 could also be within the compensation coil and regulate the compensation current from there in such a way that that the vertical component picked up by it is 0 or close to 0.

The change in the compensation current compared to the normal state is detected in detector 11 and a switching signal is generated if and for as long a specified change is exceeded. This switching signal causes a switchover on the other transducer 9.

One can also use a combination of the squares of the horizontal components according to the main patent together with the linear or squared vertical portion of the Transducer 7 or the linear or squared change in the compensation current and use the change in this combination size to switch.

Claims (4)

Course measuring device (addendum to patent application P 26 51 678.9) PtansrQche: 1. Course measuring device for a vehicle according to patent ............ (Patent application P 26 51 678.9) in which one the direction of the vehicle axis Transducer that detects northward and responds to the earth's magnetic field and a sufficiently accurate course or change of course in a short period of time reproducing further transducers is provided, which continues to respond to changes measuring means responding to the magnetic field acting on the transducer are provided are, which generate an output signal from a predetermined change and in the this output signal is used to determine the determined by the further transducer Measured values for the duration of this output signal instead of the measured values of the das Earth field measuring transducer in to have the exchange rate entered or to form it, characterized in that when using one of the Geomagnetic field responsive transducer associated compensation device for Compensation of the vertical component of the earth's magnetic field based on changes in the magnetic field responsive measuring means are designed in such a way that they respond to the change in the compensated Address the state by a specified value. 2. Course measuring device according to claim 1, characterized in that when used one the vertical component only when the vehicle is set up horizontally compensating device the occurrence of the vertical component in the compensated Room monitoring transducer is provided. 3. Course measuring device according to claim 1, characterized in that when used a control device that compensates for the vertical component by measuring it the change in the electrical variable effecting the compensation by a corresponding one Value serves as a criterion for the occurrence of a vertical component. 4. Course measuring device according to one of claims 1 to 3, characterized by the combination of the square sum of the horizontal components with the linear one or squared vertical component according to claim 2 or the value of the linear or squared compensation current, whose change by a predetermined amount serves as a switchover criterion.