DE102007023660A1 - Process for calibrating the height of a motor vehicle active chassis or suspension system comprises comparing the height between a freely definable point and a wheel section with a specified nominal value and calculating a deviation - Google Patents

Abstract

Process for calibrating a chassis (2) of a motor vehicle (1), especially for calibrating the height of an active chassis or suspension system, comprises measuring a first height (h1) between a freely definable point (8), especially a vehicle-fixed zero point on the body (3), and a wheel section (6), comparing the first height with a specified nominal value and calculating a nominal value deviation, determining a second height (h2) between a wheel and the wheel section, and correcting the second height by the nominal value deviation of the first height. Preferred Features: The freely definable point is a receiving point (9) on a transport frame that is easily accessible by measuring methods and on which the chassis was arranged in a pre-defined position during assembly.

Description

The The invention relates to a method for calibrating a chassis a motor vehicle, in particular for calibrating a ride height an active chassis or suspension system.

Usually Chassis of cars are calibrated in which at all four wheels of the motor vehicle, a distance between a wheel and a wheel cutout (Lower edge of a mudguard) is set to an equal value. An equivalent alternative this is, for example, the height distance from attachment points to a subfloor and reference points on, for example, a wishbone of the motor vehicle to a to set the same value. The disadvantage here, however, is that both the wheel cutout and any attachment point is subjected to manufacturing tolerances on the underbody, which in the previous calibration leads to the fact that after adjustment different wheel contact forces occur. These different wheel contact forces lead in conjunction with a Radlasthebelarm to a so-called running of the motor vehicle, this means the vehicle is driving not even when the road is flat.

task The present invention is an improved method for Calibration of a chassis of a motor vehicle to provide, with which particular disadvantages described above are avoided can.

These The object is achieved by the Subject of the independent Claim 1 solved. Advantageous embodiments are the subject of the dependent Claims.

The Invention is based on the general idea, not one more strong manufacturing tolerance afflicted distance between a wheel and a Radausschnitt for calibrating a vertical distance of a chassis to use and thus accept a strong Radlaststreuung, but for the calibration of the chassis the distance of a wheel to the associated Radschnitt to correct a determined setpoint deviation. hereby In particular, the same wheel contact forces are created, which a reliable directional stability of the motor vehicle. In the method according to the invention will therefore first a measurement of a first height difference between a freely definable point and a Radausschnitt performed and Thereafter, the determined first height distance compared with a predetermined setpoint. From the determined height distance and the setpoint value a setpoint deviation is calculated. Subsequently becomes a second height difference determined between a wheel and the wheel cut, whereupon this second height distance is corrected by the setpoint deviation of the first height distance. Thus, the same wheel contact forces are on each wheel with the above Advantages adjustable.

Is appropriate the freely definable point a metrologically easily accessible Pick-up point on a caddy on which the landing gear or a body of the motor vehicle during a Mounting mounted on a production line in predefined position is. The measurement of the first height distance can thus between the transport frame side receiving point and the body-side wheel cut are performed, whereby the Determining metrology is much easier. That in the previous paragraph described method is with the thus determined first height distance continued in the same way.

It is useful the setpoint deviation of at least the first height distance in a barcode the chassis or the motor vehicle deposited. This offers the big one Advantage that the setpoint deviation of the first height distance, which preferably determined or calculated electronically is, individually each motor vehicle or each chassis is assigned and easily when needed, especially at a Fahrzeugendhöhenkalibrierung is electronically retrievable. This also facilitates documentation for quality assurance.

at a further advantageous embodiment of the solution according to the invention the at least one freely definable point, a quality assurance underlying point, in particular a screw. This can be sure that the to determine the first height distance required freely definable point regarding its location and shaping a quality assurance is subject and thereby the method for calibration of the chassis on quality-controlled Baseline values.

Further important features and advantages of the invention will become apparent from the Dependent claims, from the drawing and the associated Description of the figures with reference to the drawing.

It it is understood that the above and the following yet to be explained features not only in the specified combination, but also in other combinations or alone, without to leave the scope of the present invention.

A preferred embodiment of the invention is shown in the drawing and is in the following description.

The only 1 shows a side view of a motor vehicle, to which the required for the inventive method for calibration of the chassis height distances or measuring points are set.

Corresponding 1 has a motor vehicle 1 a suspension 2 as well as a body mounted on it 3 on. The car 1 has in a known manner via two front wheels 4 as well as two rear wheels 5 where both the front wheels 4 as well as the rear wheels 5 in a respective associated Radausschnitt 6 run, which is usually from a fender 7 is limited.

Before such a motor vehicle 1 leaves the production facility, extensive final inspections, as well as a control of a ride height 2 , in particular if it is an active chassis performed. According to the invention, a method for calibration of the chassis 2 applied, in which a measurement of a first height distance h ₁ between a freely defined point 8th , in particular between a vehicle-fixed zero point 8th at the body 3 and the wheel cutout 6 is carried out. The measuring point in the wheel cutout 6 is the zenith of a lower edge of the wheel cutout 6 , The determined first height distance h ₁ is then compared with a predetermined setpoint value S and a setpoint deviation Sh _{1 is} calculated. Subsequently, a second height distance h ₂ between a wheel, for example, the front wheel 4 , and the wheel cutout 6 determined. The second height distance h ₂ is the substantially perpendicular difference between the lower edge of the wheel cutout 6 and the top of the tread of the wheel 4 . 5 , Finally, the second height distance h ₂ is corrected by the setpoint deviation Sh _{1 of} the first height distance h ₁ .

Generally, the freely definable point 8th either vehicle-fixed zero point on the body described above 3 be or even a metrologically easily accessible pickup point 9 on a transport frame, not shown, on which the chassis 2 is fixed in a predefined position during assembly. In principle, this applies both to the freely definable point 8th at the body 3 as well as for the pickup point 9 on the caddy that points 8th and 9 each subject to quality assurance and thereby large tolerances, which would lead to an inaccuracy of the calibration, can be reliably excluded.

For a documentation of the procedure performed for calibration of the chassis 2 can ensure the setpoint deviation Sh _{1 of} the first height distance h ₁ in a bar code, for example in a bar code, the chassis 2 or the motor vehicle 1 deposited and retrieved as needed. This makes it possible for the first height distance h ₁ to be determined already at an early point in time and via the barcode fixed to the associated chassis 2 or motor vehicle 1 is connected to then, for example, at a final inspection, to be retrieved.

Generally, the procedure for calibration of the chassis 2 on at least two opposite wheels of the chassis 2 each with different freely definable points 8th carried out. This is to ensure that the chassis 2 after performing the calibration on each wheel 4 . 5 has the same Radaufstandskräfte and thus a flat ride can be guaranteed a flat ride. Overall, a significant reduction of Radlaststreuung is possible with the method according to the invention, whereby the risk of running, that is, the track infidelity of motor vehicles 1 , can be counteracted.

in the Compared to conventional Calibration method in which only a distance between a respective wheel and a wheel cutout on one at all four wheels of the motor vehicle has been set equal value arise thus decisive advantages. In this conventional method always had to with significant wheel load variations and the effects described above be counted.

Claims (5)

Method for calibrating a chassis ( 2 ) of a motor vehicle ( 1 ), in particular for calibrating a ride height of an active chassis ( 2 ) or suspension system, in which - a measurement of a first height distance (h ₁ ) between a freely definable point ( 8th ), in particular between a vehicle-fixed zero point ( 8th ) on a body ( 3 ), and a wheel cut ( 6 ) is performed, - the determined first height distance (h ₁ ) compared with a predetermined desired value (S) and a setpoint deviation (Sh ₁ ) is calculated, - a second height distance (h ₂ ) between a wheel and the wheel cut is determined, - second height distance (h ₂ ) by the setpoint deviation (Sh ₁ ) of the first height distance (h ₁ ) is corrected. Method according to claim 1, characterized in that the freely definable point ( 8th ) a metrologically easily accessible pick-up point ( 9 ) is on a caddy on which the landing gear ( 2 ) is arranged during assembly in a predefined position. A method according to claim 1 or 2, characterized in that the setpoint deviation (Sh ₁ ) of the first height distance (h ₁ ) in a bar code of the chassis ( 2 ) or of the motor vehicle ( 1 ) is deposited. Method according to one of claims 1 to 3, characterized in that the method on at least two opposite wheels of the chassis ( 2 ), each with different freely definable points ( 8th ) is carried out. Method according to one of claims 1 to 4, characterized in that the at least one freely definable point ( 8th ), a point subject to quality assurance, for example a screw.