BE1018428A3 - INSTALLATION FOR MEASURING THE DISTRIBUTION OF THE APPLICATION FORCE OF A WIPER BLADE AGAINST A WIPING SURFACE. - Google Patents

Abstract

Measuring device (10) for gripping the application force of a wiper blade (36) supported by a force against a surface (20, 22). The wiper blade (36) has a coupling member (38) that hingably connects it to a receiving device (30, 40) that applies a force substantially perpendicular to the surface (20, 22). A measuring apparatus (14) comprises a set of measuring sensors (22) arranged in the longitudinal direction of the wiper blade (36), and forming a convexly curved surface in the longitudinal direction of the wiper blade (36). ice (36) for supporting the wiper blade (36) during the measuring operation, the radius of curvature (R) of these surfaces being equal to 3000 or 4000 mm or corresponding to the curvature of a an existing vehicle windshield for which the wiper blade (36) is intended, and the measuring apparatus (14) is connected to an operating unit (26).

Description

"Installation for measuring the application force distribution of a wiper blade against a surface to be wiped"

Field of the invention

The present invention relates to a me¬sure installation to grasp the distribution of the application force of an ice-esque broom supported by a force against a surface.

The invention also relates to a method for implementing such an installation.

State of the art

The force of application of the wiper blade against the window of the vehicle or windshield as well as the distribution of the application force over the length of the wiper blade are particularly important for the quality of wiping. a vehicle windscreen wiper.

DE 100 44 172 A1 discloses a measuring device for detecting the application force distribution of a windscreen wiper or wiper blade support member pressing a surface. The measuring device is intended, in particular, for flat wiper blade support elements in the form of elastic webs or stiffeners housed in the lateral grooves of the rubber profile of the windscreen wiper blade or in a longitudinal longitudinal channel of the rubber profile. . These support elements are precin¬trés so that the action of the application force of a wiper arm, applies them with an appropriate force distribution against the windshield.

For support of the support element, the me¬sure installation comprises a support rail with a longitudinal slot. A detection head equipped with a force measuring device is movable in the longitudinal direction of this slot. During the measurement operation, the detection head detects the application force exerted at each measuring point in the longitudinal direction of the sup¬port element during the course of the detection head. From the forces of application captured by this operation, the distribution of the application force is determined as a function of the length of the support element. If the distribution of the application force should not have the desired values, one could intervene on the bending process. In addition, the measuring installation can be used to monitor mass-produced support elements. For the exploitation of the measurement values, these are supplied to a computer equipped with a display.

The force with which the support member is pushed against the support rails can be varied and adjusted according to the type of support element. In the simplest way, this is done with a folding wiper arm creating conditions close to reality. The possibility of folding the windscreen wiper arm allows simple manipulation of the measuring installation and in particular the support of the support element on the support rail.

Description and advantages of the invention

The present invention relates to a me¬sure installation of the type defined above, characterized in that the wiper blade comprises a coupling element which connects arti¬culée manner to a receiving device which applies a substantially perpendicular to the surface, and a measuring apparatus comprises a set of measuring sensors disposed in the longitudinal direction of the wiper blade, and forming a convexly curved surface in the longitudinal direction of the wiper blade for the support of the wiper blade during the measuring operation, the radius of cur¬sure of these surfaces being equal to 3000 or 4000 mm or corresponding to the curvature of an existing vehicle windshield, which is intended windscreen wiper, and the meter is connected to an operating unit.

In other words, the wiper blade comprises a coupling element which connects it articulately to a receiving device for applying a force substantially perpendicular to the surface. A measuring apparatus comprises a set of measuring sensors installed in the longitudinal direction of the windshield wiper and forming a convexly curved surface in the longitudinal direction of the wiper blade to act as a support for the wiper blade. during the measuring operation. The radius of curvature R of the surface is of the order of 3000 or 4000 mm or still corresponds to the curvature of a window or windshield of a real vehicle, for which the windscreen wiper blade is intended. The meter and its sensors are connected to an operating unit such as a computer. General, for the precision it is enough to use radii of curvature of 3000 mm or 4000 mm because these curvatures are representative of the usual vi¬tres of vehicles. However, for large series, it is possible to adapt the radii of curvature to the curvature of a real vehicle windshield.

A display shows the values obtained. At the same time, the values are available for manufacturing windscreen wiper blades, particularly for the bending installation of the sup¬port elements and the elastic rails or stiffeners. In addition, statistical operations can be carried out. The simultaneous entry of many measured values distributed along the length of the wiper blade accelerates the measurement operation. In addition all the important factors which in¬fluence the distribution of the force of application will be taken into account, for example the shape and the material of the wiper blade or deflec¬teur.

According to a development of the invention, the surface formed by the measuring sensors has a convex curvature in the longitudinal direction of the wiper blade. The curvature is chosen to be adapted to the curvature of a vehicle windshield corresponding to a certain application.

So that during the measurement operation the lip of the wiper blade always take the same defined position namely a tilted position as for the wiping operation of the windshield, a support piece follows the surface of measurement sensors, transverse to the longitudinal direction of the wiper blade and being level with this surface formed by the measuring sensors. The sur¬face thus formed and the wiper blade are advantageously sliding in the direction transverse to the longitudinal direction of the wiper blade. During the operation of the me¬sure installation, the wiper blade is applied to the application force set on the support piece, then the measuring device and the transverse wiper blade are moved transversely in the longitudinal direction of the windscreen wiper in a relative motion until the wiper blade is applied by its lip to the measuring sensors. In the case of a relative movement, the wiping lip tilts in the desired tilting position, which creates perfect, reproducible measurement conditions.

The relative movement can be obtained simply by installing the measuring apparatus on a movable support transverse to the longitudinal direction of the wiper blade while the wiper blade is fixedly supported against a support through a wiper arm. The support can be controlled electronically or electronically by a suitable training facility.

Another possibility is to bring the receiving device frame of the wiper blade acting on the coupling element of the wiper blade and which can be brought closer to the surface per¬pendicularly by means of a wiper blade. application of a force.This means for applying a force is electronically controlled. The application force of a force receives its signals for the force to be adjusted and for the reciprocating movement of an electronic operating unit which allows a very fast adaptation to each windscreen wiper or type of windscreen wiper. measure. The device for receiving the wiper blade is also adapted to the coupling element of the corresponding type of wiper. To use the correct receiving device for each type of wiper blade, the receiving device frame has an electronic probe that verifies the adjustment correction.

It may be advantageous for this installation to use instead of a mobile support for the measuring apparatus, a receiving device and / or a force-applying means with the receiving device transversely to the longitudinal direction. The windscreen wiper blade in the direction of approach to perform the relative movement between the measuring apparatus and the ice-shield broom.

drawings

The present invention will be described hereinafter in greater detail with the aid of exemplary embodiments shown in the appended drawings in which: FIG. 1 is a schematic view of a semiautomatic measuring device according to the invention as an apparatus for basic measurement; FIG. 2 is a view of a measuring apparatus of a measuring installation in top view; FIG. 3 is a schematic view of a measuring installation which is automatically automatic before a measuring operation, FIG. 4 shows a measuring installation according to FIG. 3 during fitting of a wiper blade to the measuring apparatus, and FIG. 5 shows a measuring installation according to FIG. ¬ a measure.

Description of embodiments

According to FIG. 1, the measuring installation 10 comprises a measuring table 12 on which a support 16 with a measuring apparatus 14 can move in the direction of approach 50. The guide rails 18 of the measuring table 12 are used for this purpose The measuring apparatus 14 has on its upper face a convexly curved surface formed by a support piece 20 and measurement sensors 22 so that the measurement sensors 22 meet at a level of support 20 in the direction of approach. 50. Measuring sensors 22 may be any suitable type of sensor such as for example strain gauges, double-deflection beam sensors or the like. These sensors are connected by their connection 24 to an electronic operating unit 26, for example a computer equipped with a screen or display 28 for displaying the measured values.

Above the surface formed by the support piece and the sensors 22 is a wiper blade 36 to be measured; this windscreen wiper is held in an articulated manner by its coupling element 38 to the articulation piece 34 of the windscreen wiper blade 30. The wiper blade 30 is fixed by its fastener 32 to a support 35 integrally connected to the measuring table 12. The hinge piece 34 can be folded as usual with respect to the fastener 32 to facilitate replacing the soot-ice wiper 36 or applying it against the surface 20, 22. The application force is adjusted in a manner not shown by springs equipping the wiper arm 30. In order to the wiper blade 36 always has the same support defined by its lip against the measuring sensors 22 for the measurement operation, the wiper blade 36 is firstly applied against the support piece 20, then the support 36 is moved in the direction of approach 50 so that the wiper blade 36 arrives in the area of the measuring sensors 22. The wiper lip then leans along its entire length against the adjustment installation which allows to have the position tilting required for the wiping lip.

The measuring installation 10 of FIGS. 1 to 5 is highly automated in that a frame 48 comprises a force application means 42 to which interchangeable reception devices 40 are fixed. These devices are adapted to the coupling element 38 of all types of windscreen wiper blades 36. The wiper blade 36 is attached to the receiving device 40 and the force application means 42 applies a determined force in the biasing direction46 against the bearing piece 20. Then, the wiper blade 36 and the measuring apparatus 14 are moved relative to each other in the direction of approach 50 so that the The wiper blade 36 arrives in the area of the measuring sensors 22. For this purpose, the measuring apparatus 14 or the means for applying a force 42 may be moved with the receiving device 40 and the wiper blade. The movements can be controlled automatically by the operating unit 26. In addition, the frame 48 comprises a detection installation or an electronic probe 44 with a plate at 8. bits that monitors that for c each wiper blade 36, the appropriate receiving device 40 is used. For identification, you can use the serial number of the wiper blade that is inserted into the system.

The measurement data provided by the me¬sure installation 10 can be made available either online or via an appropriate memory or by means of trans¬mission for manufacturing, in particular to improve the quality of the elements support in the form of elastic rails. In addition, the measurement values can be used for the statistical data of manufacture.

Claims (9)

CLAIMS 1 °) Measuring device (10) for entering the distribution of the application force of a wiper blade (36) supported by a force contreune surface (20, 22), characterized in that the broom d wiper (36) has a coupling element (38) which articulately connects it to a receiving device (30, 40) which applies a force substantially perpendicular to the surface (20, 22), and a measuring device (14) comprises a set of me¬sure sensors (22) arranged in the longitudinal direction of the wiper blade (36), and forming a convexly curved surface in the longitudinal direction of the wiper blade (36). ) for pressing the wiper blade (36) during the measuring operation, the radius of curvature (R) of said surfaces being 3000 or 4000 mm or corresponding to the curvature of a vehicle windshield the wiper arm (36), and the measuring apparatus (14) is linked to a unit of operation (26). 2) Measuring device (10) according to claim 1, characterized in that a support piece (20) is flush with the surface (22) of the measuring sensors transversely to the longitudinal direction of the wiper blade. ice (36) and forms with the measuring sensors a surface (20, 22), the surface (20, 22) and the wiper blade (36) being slidable relative to one another in the transverse direction to the longitudinal direction of the wiper blade (36). Measuring device (10) according to claim 1, characterized in that the measuring device (14) is mounted on a carrier (16) movable transversely to the longitudinal direction of the windscreen wiper blade ( 36) while the wiper blade (36) is fixedly supported against a support (35) via a wiper arm (30). 4) measuring device (10) according to claim 1, characterized in that a frame (48) comprises a receiving device (40) of the wiper blade (36) which can be brought closer to the surface perpendicularly (20,22) by an application means or a force (42), the means for applying a force (42) being electronically controlled. 5) measuring device (10) according to claim 4, characterized in that the frame (48) comprises an electronic probe (44) controlling that the bondispositif receiving (40) is put in place. Measuring device (10) according to Claim 4, characterized in that the receiving device (40) and / or the force-applying means (42) are movable with the receiving device (40). transversely to the longitudinal direction of the wiper blade (36) in the approaching direction (50). Measurement device (10) according to claim 1, characterized in that the measuring sensors (22) of the electronic probe (44) and the force application means (42) are connected to a unit of measurement. electronic exploitation (26). 8 °) A method of implementing a measuring installation (10) according to any one of claims 1 to 7, characterized in that one installs the wiper blade (36) to a wiper arm (30) or on the receiving device (40), adjusting the application force, on the windscreen wiper arm (30) or on the force-applying medium (42), applying the broom d wiper (36) against the support member (20) by exerting the application force, the measuring apparatus (14) and the wiper blade (36) are moved in a relative direction in a direction of movement approaching (50) transverse to the longitudinal direction of the wiper blade (36) until the wiper blade (36) touches the measuring sensors (22) with its lip wiping, and then a measurement is taken and the measured values are supplied to the electronic operating unit (26). Method according to Claim 8, characterized in that the measured values used are supplied to a bending station for supporting elements of the windscreen wiper blade (36).