FR2710143A1 - Device for checking tyre wear having a depth gauge which is driven and applied with a predetermined force - Google Patents

Abstract

The invention relates to a tyre wear checking device comprising a reference surface (2) intended to be applied onto the tread of a tyre and a depth gauge (5), characterised in that it includes means (6) for driving and applying the depth gauge (5) to its deployed position in contact with the tread of the tyre with a predetermined force. Application to technical checks on vehicles.

Description

TIRE WEAR CHECKING DEVICE A
TRAINED DEPTH GAUGE APPLIED ACCORDING TO A PREDETERNINED FORCE
The invention relates to a device for monitoring the wear of vehicle tires.

 During technical checks imposed on vehicles in circulation, it is essential to check the state of wear of the tires. To do this, gauge or gauge gauges are generally used which are applied to the tread of the tire in the central groove which must have a predetermined minimum depth, generally at least one millimeter.

 However, it turns out that checking tire wear generates numerous disputes between inspectors and vehicle owners, given the relatively subjective nature of the measurement due to the natural flexibility of the pneumatic rubber tread. Indeed, depending on whether the controller presses with a greater or lesser force on the depth gauge or on the template, the measurement can be favorable or unfavorable. The same applies to the application of the reference surface of the depth gauge or the tread comparator.

 In addition, the same problem arises with regard to the reading of the measurement which, moreover, should be printed.

 The invention therefore aims to remedy these drawbacks and its object is to provide a tire wear control device intended for the official technical inspections of vehicles, that is to say which provides an objective measurement (independent of the will and handling of the controller) of tire wear.

 The invention also aims to provide such a device which facilitates the measurement operation, reduces the execution time and avoids any handling error.

 The invention also aims to propose such a device with which the results of the control are indisputable.

 The invention also aims to propose such a device which is extremely simple in its design, of a low cost price and of great robustness for daily use in the workshop.

 To do this, the invention provides a tire wear control device comprising a reference surface intended to be applied to the tread of the tire, and a depth gauge movable in translation in a direction normal to the surface of the tire. reference, characterized in that it comprises means for driving and applying the depth gauge to its deployed position in contact with the tread of the tire according to a predetermined force. The drive and application means therefore exert pressure on the depth gauge in contact with the tread of the tire according to a force imposed by the device itself, and therefore independent of the will and the manipulations of the controller. This force is therefore predetermined in the sense that its value is imposed by drive and application means, according to a law independent of the characteristics of the tire, the external circumstances and the use of the device. The drive and application means are therefore motor means which drive the depth gauge in the direction of its deployment towards its extreme deployed position until it comes into contact with the tread of the tire, at bottom of the groove in which it is engaged by the user. The predetermined force according to which the drive and application means push the depth gauge does not necessarily have to be constant over its entire travel. It can vary depending on the depth measured.

However, at each predetermined depth, this force must be the same. Thus, the force exerted by the drive and application means is determined by a constant function or a function which only depends on the depth of deployment of the gauge relative to the reference surface.

 According to the invention, the means for driving and applying the depth gauge can comprise elastic return means such as a compression spring. In this case, the predetermined force is proportional to the measured depth. According to the invention, the device comprises a transducer delivering an electrical signal representative of the position of the depth gauge relative to the reference surface. This transducer can be an incremental linear optical encoder or a linear potentiometer or the like.

 Furthermore, the device according to the invention comprises at least one probe - in particular at least three probes, arranged in a triangle at equal distance from the depth gauge - detecting the contacting of the reference surface with the surface of the tire to be checked. .

Advantageously, and according to the invention, the probes are mounted in series, each probe being coupled to a touch switch.
In addition, the reference surface is formed by the outer surface of a flat plate mounted without guidance on the probes and provided with touch switches.

 And the device according to the invention comprises means for electronic processing of the signals emitted by the transducer and / or by the switches coupled to the probes and means for displaying and / or printing the measurement carried out. The electronic processing means also include a handling control program ensuring that all of the tires of a vehicle are successively checked.

The invention also relates to a tire wear control device comprising in combination all or part of the characteristics mentioned above or below. Other characteristics and advantages of the invention will appear on reading the following description of its preferred embodiment which refers to the appended figures in which
- Figure 1 is a general schematic view in axial section of a device according to the invention.

 - Figure 2 is an axial sectional view illustrating the use of a device according to the invention.

 The tire wear monitoring device according to the invention shown in FIG. 1 comprises a frame 1 with which a flat plate 4 is rigidly associated. The device also comprises a flat plate 23 mounted unguided on at least one probe 13 and provided with touch switches which trips at 4/10 millimeters. This plate 23 defines a reference surface 2 intended to be applied to the tread 3 of a tire as shown in FIG. 2. The device also includes a depth gauge 5 in the form of a rod movable in axial translation along a direction normal to the reference surface 2, that is to say perpendicular to the plate 23. The depth gauge 5 passes respectively through the flat plate 4 and the plate 23 through a hole made in these plates 4 and 23, respectively.

 The frame 1 is extended perpendicular to the plate 4 opposite the depth gauge 5 by a cylindrical portion 7 defining an internal bore 8 cylindrical in which is placed a slide 9 guided in axial translation in the bore 8 and carrying the depth gauge 5. The bore 8 therefore extends from the extreme part of the cylindrical portion 7 to the plate 4.

 The device also comprises means 10 for reading the length of the depth gauge 5 which protrude outside the reference surface 2. These reading means 10 could consist of a simple vernier. However, and according to the invention, the reading means 10 comprise a transducer 10 delivering an electrical signal representative of the position of the depth gauge 5 relative to the reference surface 2, that is to say the length of the depth gauge 5 which projects outside the frame 1 from the reference surface 2. This transducer 10 may consist of an incremental linear optical encoder comprising a body 11 mounted fixed relative to the frame 1 inside of the bore 7, and a rod 12 movable in axial translation relative to the body 11 and to the end of which the slide 9 is fixed. Thus, the translational displacements of the depth gauge 5 result in translational displacements of the rod 12 of the encoder 10. And the encoder 10 delivers a digital incremental signal proportional to the amplitude of the translational displacement of its rod 12, so the depth gauge 5.

 According to the invention, the device comprises means 6 for driving and applying the depth gauge 5 to its deployed position in contact with the tread 3 of the tire according to a predetermined force.

These drive and application means 6 therefore have the function of forcing the depth gauge 5 to come to be applied according to a predetermined force in contact with the tread 3. Thus, the penetration pressure of the end The clearance of the depth gauge 5 in the rubber material of the tire is predetermined and does not depend on the force exerted by the user or the conditions of use. According to the invention, and in the embodiments shown, the means 6 for driving and applying the depth gauge 5 comprise means 6 for elastic return, and more particularly a compression spring 6 supported by a side on the body 11 of the transducer 10 mounted fixed relative to the frame 1 and on the other side on the slider 9 carrying the depth gauge 5. Therefore, the depth gauge is permanently resiliently returned to its extreme deployed position. The drive and application means 6 can therefore be considered as motor means integrated into the device. Instead of an elastic return spring, it would be possible to use any other equivalent drive means providing an application pressure of the depth gauge 5 according to a predetermined force on the tread 3.

 In the case of a compression spring, the application force of the depth gauge 5 is proportional to the length of the depth gauge 5 retracted into the frame 1 from its extreme deployed position. If a measurement with greater accuracy is desired, it can on the contrary be provided that the predetermined force is constant and therefore independent of the position of the depth gauge 5. To do this, one can for example use means 6 d drive and application in the form of a cylinder or a servomotor.

 The device according to the invention also comprises at least one probe 13 detecting the contacting of the reference surface 2 with the surface of the tread 3 of the tire to be checked. In the embodiment shown according to the invention, the device comprises three feelers 13, arranged in a triangle, the three feelers 13 being located equidistant from the depth gauge 5. The feelers 13 are mounted in series and each feeler 13 is coupled to a touch switch 14.

Consequently, the measurement consisting of the reading of the signal supplied by the transducer 10 is only authorized and validated when the switches 14 detect that the reference surface is properly applied in contact with the tread 3 of the tire and only after tripping of the three feelers 13. Thus, the device makes it possible to avoid any false manipulation and ensures that the detected signal providing a measurement of the depth of the groove of the tread 3 corresponds to an indisputable and objective measurement of the depth of this groove .

 The device according to the invention further comprises means 15 for electronic processing of the signals emitted by the transducer 10 and / or by the switches 14 coupled to the probes 13, and means 16 for displaying and / or printing the measurement performed. Thus, the electrical conductors coming from the switches 14 and from the transducer 10 are supplied to an output terminal 17 of the frame 1. This is connected by a cable 18 to a device 15 for processing the received signals comprising a display 16 and programming means . The electronic device 15 has an output 19 for its connection with a printer or a minicomputer by cable or by infrared link.

The front face of the electronic device 15 includes a button 20 for sequentially controlling the reading of the measurement of the four wheels of the vehicle, a button 21 for controlling the transmission to the printer or to the mini-computer, and light-emitting diodes indicating the position of the tire to be checked in relation to the vehicle. It may also include a light scale 22 making it possible to detect the deviation of the controlled value from the admissible value.

 In an alternative embodiment, the signal processing means 15 can be integrated into the frame 1, the device being made up in one piece.

 The electrical supply of the electrical and electronic components of the device according to the invention can be carried out from the mains or from a battery integrated in the signal processing means 15 and / or in the frame 1.

 The choice of electrical, electronic, logical or computer components making it possible to carry out the above-described functions is of the immediate scope of the person skilled in the art, as well as their programming.

Claims (10)

 1. A tire wear control device comprising a reference surface (2) intended to be applied to the tread of the tire, and a depth gauge (5) movable in translation in a direction normal to the reference surface (2) characterized in that it comprises means (6) for driving and applying the depth gauge (5) to its deployed position in contact with the tread of the tire according to a predetermined force.  2. Device according to claim 1 characterized in that the means (6) for driving and applying the depth gauge (5) comprise means (6) for elastic return - in particular a compression spring (6) - .  3. Device according to one of claims 1 and 2 characterized in that it comprises a transducer (10) delivering an electrical signal representative of the position of the depth gauge (5) relative to the reference surface (2) .  4. Device according to claim 3 characterized in that the transducer (10) is an incremental linear optical encoder or linear potentiometer or equivalent.  5. Device according to claim 2 and claims 3 and 4 characterized in that the means (6) of elastic return bear on a body (11) of the transducer (10) mounted fixed relative to a frame (1).  6. Device according to one of claims 1 to 5 characterized in that it comprises at least one probe (13) detecting the contacting of the reference surface (2) with a tire surface to be checked.  7. Device according to claim 6 characterized in that it comprises at least three feelers (13), arranged in a triangle at equal distance from the depth gauge (5).  8.. Device according to either of Claims 6 and 7, characterized in that the probes (13) are connected in series, each probe (13) being coupled to a touch switch (14).  9. Device according to one of claims 6 to 8, characterized in that the reference surface (2) is formed by the outer surface of a flat plate (23) mounted unguided with the feelers (13) and provided with touch switches.  10. Device according to one of claims 3 to 9 characterized in that it comprises means (15) for electronic processing of the signals emitted by the transducer (10) and / or the switches (14) coupled to the probes (13) , and means (16) for displaying and / or printing the measurement made.