DE19625763A1 - Tyre testing equipment for determining internal tyre flaws - Google Patents

Abstract

Equipment for testing tyre quality includes apparatus (11) for subjecting a tyre to an energy field and an analyser (12) which detects field changes and produces a signal (13) representing a measure of the tyre (10) condition.

Description

State of the art

The invention relates to a device for Quality inspection of tires. So far it is common to have one Visually inspect the tire to avoid holes or cracks in the mesh of the tire sidewall detect. However, this type of exam is for the Tire inside difficult. It can not be excluded, that errors are not recognized at first glance. Also unequivocal evidence of damage to the Steel mesh in the side wall cannot do the visual inspection provide.

Advantages of the invention

The inventive device for quality testing of Tires also detect damage that is not obvious of the tire. It can be parallel to others Operate maintenance work and thereby reduces the Maintenance effort. The quality of error detection improved themselves. The tire is exposed to one field, one Evaluation device detects the one caused by the tire  Field change and generates a signal as a measure of the state of the tire.

According to an expedient embodiment of the invention The device is an electric field tire exposed. Preferably, the electric field is from one Plate capacitor created that includes the tire. The Capacity of this arrangement depends on the condition of the tire.

In another embodiment according to the invention the tire the inductance of a generated magnetic Field.

In a further embodiment according to the invention, the Tire exposed to an electromagnetic field from is broadcast by a transmitter and by a receiver is detected.

Use is a particularly advantageous embodiment of sound waves before. The transmitter preferably generates a Ultrasonic field, which depending on the surface condition of the tire is reflected in different ways. The reflected signal is detected by a receiver and processed further.

The transmitter and receiver are preferably on the same Side of the tire arranged. This arrangement can affect repeat on each side of the tire.

To record the quality of the tires at every point is it makes sense to the tire based on the facility that the Tires exposed in a field, can be rotated. This is an angle-resolved evaluation is possible in order to be able to use the Angle assignment to the location of a possible defect  receive. The signal received by the receiver serves as Based on error detection.

According to an expedient embodiment, the received Signal compared with a reference signal. As For example, a reference signal is used by a signal Tire that has no defects. In the event of deviations from the received signal from the reference signal reports the Device according to the invention for quality testing of tires an error. It can be a digital signal evaluation done when the received signal is an amplifier and a low pass is supplied and then one Analog / digital conversion takes place.

drawing

Figs. 1 to 3 show embodiments of an apparatus according to the invention.

description

Fig. 1 shows a device 11, 10 a field exposes a tire. An evaluation device 12 emits a signal 13 . Referring to FIG. 2, the tire 10 is disposed between a plate capacitor 15 whose terminals are supplied to a capacity Regulation 16. In Fig. 3, a transmitter 20 and a receiver 21 on one side 23 of the tire 10 are arranged.

The device for quality testing of tires according to the invention works as follows:
The device 11 exposes the tire 10 to an electrical field, for example. As can be seen in FIG. 2, the device 11 is designed as a plate capacitor 15 .

The tire 10 acts as a dielectric between the two plates of the plate capacitor 15 . The capacity of the arrangement changes depending on the nature of the tire 10 . The capacitance determination 16 determines the reactance of the arrangement, for example, by simultaneously measuring current and voltage. A conclusion about the capacitance is possible via the phase shift between current and voltage. This capacity is detected as signal 13 as a measure of the condition of the tire. The capacity of the arrangement changes when the tire condition differs significantly from that of a tire which is found to be in order.

The device 11 can expose the tire 10 to a magnetic field. This magnetic field is influenced by the introduction of the tire as a function of its permeability number. Magnetic field sensors, such as the Hall sensor, serve as evaluation device 12 . The magnetic field sensors detect when there are irregularities or the metal grid in the tire 10 breaks.

If the device 11 is designed as a transmitter 20 , it can generate electromagnetic fields or waves. The receiver 21 is designed as an antenna. Depending on the wavelength of the electromagnetic wave, the field extends to, for example, radio waves, microwaves, infrared waves, visible light, ultraviolet radiation, X-rays and even gamma rays. These electromagnetic waves experience a change through the tire 10 , which is detected by the receiver 21 or the antenna.

In another embodiment, the tire 10 is exposed to a sound field, preferably an ultrasound field.

Depending on the surface condition, the tire 10 reflects the ultrasound signal. A piezoelectric transducer, for example, serves as the receiver 21 . The received signal 13 is a measure of the condition of the tire 10 . For the ultrasound evaluation, it is advisable to mount the transmitter 20 and receiver 21 on the same side 23 of the tire 10 . Here, the side wall of the tire 10 acts as a reflective surface.

If the tire 10 is arranged rotatably with respect to the device 11 , an angle-resolved evaluation of the signal 13 detected by the evaluation device 12 or by the receiver 21 is possible. The signal 13 is detected as a function of the angle that the tire 10 has traveled with respect to an initial position. If the tire rotates at a constant speed, a constant angular increment can be assigned to a constant sampling interval.

From the angle-dependent signal 13 can be derived whether the tire 10 is damaged. For this purpose, the signal 13 is compared, for example, with a reference value that reflects the situation that corresponds to a correct tire 10 . If the difference between the signal 13 and the reference value exceeds a certain tolerance band, the device for quality inspection of tires issues an error message. Previous states of the signal 13 on which the same tire 10 is based could be used to form a reference value. Changes in the signal 13 with respect to the angle of rotation are also to be used as error criteria.

The generally analog signal 13 can be processed further after an analog / digital conversion. Before the analog / digital conversion, an amplifier carries out a signal level adjustment. A low-pass filter suppresses interference signals and serves as an anti-aliasing filter.

The device for checking the quality of tires 10 can be used in particular together with a brake test bench which drives the wheels.

Claims (13)

1. Device for quality inspection of tires ( 10 ),

• - With a device ( 11 ) which exposes the tire ( 10 ) to a field and,
• - With an evaluation device ( 12 ) which detects a field change and which generates a signal ( 13 ) as a measure of the condition of the tire ( 10 ).

2. Device according to claim 1, characterized in that the tire ( 10 ) is exposed to an electric field. 3. Device according to claim 1, characterized in that the tire ( 10 ) is exposed to a magnetic field. 4. The device according to claim 1, characterized in that the tire ( 10 ) is exposed to an electromagnetic field. 5. The device according to claim 1, characterized in that the tire ( 10 ) is exposed to a sound field. 6. The device according to claim 2, characterized in that a plate capacitor ( 15 ) is used as means ( 11 ) which exposes the tire ( 10 ) to a field, in the intermediate space of which the tire ( 10 ) is arranged. 7. Device according to one of claims 1 to 6, characterized in that the device ( 11 ) which exposes the tire ( 10 ) to a field, a transmitter ( 20 ) and the evaluation device ( 12 ) contain a receiver ( 21 ). 8. Device according to one of claims 1 to 7, characterized in that the transmitter ( 20 ) and receiver ( 21 ) include the tire ( 10 ). 9. Device according to one of claims 1 to 7, characterized in that the transmitter ( 20 ) and receiver ( 21 ) on one side ( 23 ) of the tire ( 10 ) are arranged. 10. Device according to one of claims 1 to 7, characterized in that on each side ( 23 ) of the tire ( 10 ) transmitter ( 20 ) and receiver ( 21 ) are arranged. 11. Device according to one of claims 1 to 10, characterized in that the tire ( 10 ) is rotatably arranged relative to the device ( 11 ). 12. The device according to one of claims 1 to 11, characterized in that the signal ( 13 ) and / or a signal derived from the signal ( 13 ) is compared with a reference value for detecting an error of the tire ( 10 ). 13. Device according to one of claims 1 to 12, characterized in that the signal ( 13 ) is processed using either at least one amplifier and / or at least one low-pass filter and / or at least one analog / digital converter.