WINDSCREEN WIPER DEVICE

Abstract

A windscreen wiper device (1) of the flat blade type, includes an elastic, elongated carrier element, as well as an elongated wiper blade (2) of a flexible material, which can be placed in abutment with a windscreen to be wiped. The wiper blade includes at least one longitudinal groove (3), in which groove at least one longitudinal strip (4) of the carrier element is disposed. A connecting device (6) for an oscillating arm (7), is pivotally connected about a pivot axis near one end thereof. An electrically conductive coating (12) is provided on at least a part of the longitudinal strip along at least a portion of its length in order to transfer electrically generated heat to the wiper blade upon applying a voltage to the electrically conductive coating.

Claims

1. A windscreen wiper device of the flat blade type, comprising an elastic, elongated carrier element, as well as an elongated wiper blade of a flexible material, which can be placed in abutment with a windscreen to be wiped, which wiper blade includes at least one longitudinal groove, in which groove at least one longitudinal strip of the carrier element is disposed, which windscreen wiper device comprises a connecting device for an oscillating arm, and including an electrically conductive coating provided on at least a part of the longitudinal strip along at least a portion of its length in order to transfer electrically generated heat to the wiper blade upon applying a voltage to the electrically conductive coating.

2. A windscreen wiper device according to claim 1, wherein said electrically conductive coating is provided on a top surface of said longitudinal strip.

3. A windscreen wiper device according to claim 1, wherein said longitudinal strip is made of an electrically conductive material for applying a voltage to the electrically conductive coating.

4. A windscreen wiper device according to claim 1, wherein at least one electrically conductive wire is provided on said longitudinal strip for applying a voltage to the electrically conductive coating, and wherein said electrically conductive wire is in electrical contact with said electrically conductive coating.

5. A windscreen wiper device according to claim 4, wherein two electrically conductive wires are provided on said longitudinal strip, and wherein said electrically conductive wires are located near opposite exterior longitudinal edges of said longitudinal strip.

6. A windscreen wiper device according to claim 4, wherein said at least one electrically conductive wire is inkjet printed on the longitudinal strip.

7. A windscreen wiper device according to claim 1, wherein said electrically conductive coating is an ink or paint.

8. A windscreen wiper device according to claim 7, wherein said ink or paint contains Cu, Al, or Ag, or any combination thereof.

9. A windscreen wiper device according to claim 1, wherein said carrier element consists of one longitudinal strip disposed in a central longitudinal groove of said wiper blade.

10. A windscreen wiper device according to claim 1, wherein said carrier element consists of two longitudinal strips disposed in opposing longitudinal grooves of said wiper blade.

11. A method of making a windscreen wiper device of the flat blade type, comprising preparing an elastic, elongated carrier element, as well as an elongated wiper blade of a flexible material, which can be placed in abutment with a windscreen to be wiped, include at least one longitudinal groove, in which groove at least one longitudinal strip of the carrier element is disposed, preparing a connecting device for an oscillating arm; and providing an electrically conductive coating on at least a part of the longitudinal strip along at least a portion of its length in order to transfer electrically generated heat to the wiper blade upon applying a voltage to the electrically conductive coating.

12. The method of claim 11, wherein the coating is applied by inkjet.

13. The method of claim 11, including selecting electrically conductive ink or paint for the coating.

14. The method of claim 13, including selecting at least one or more in combination of Cu, Al and Ag as the ink or paint.

Description

THE DRAWINGS

[0013] The invention will now be explained more in detail with reference to figures illustrated in a drawing, wherein

[0014] FIG. 1 is a perspective, schematic view of a preferred embodiment of a windscreen wiper device according to the invention; and

[0015] FIG. 2 shows a side view and a perspective view of a longitudinal strip in a wiper blade of the windscreen wiper device of FIG. 1 explaining the working principle, according to another preferred embodiment as to how to heat a electrically conductive coating applied on the longitudinal strip in the wiper blade.

DETAILED DESCRIPTION

[0016] FIG. 1 shows a preferred variant of a windscreen wiper device 1 according to the invention, the windscreen wiper device 1 is built up of an elastomeric wiper blade 2 comprising a central longitudinal groove 3, wherein a longitudinal strip 4 made of spring band steel is fitted in the longitudinal groove 3. the strip 4 forms a flexible carrier element for the rubber wiper blade 2, as it were, which is thus biassed in a curved position (the curvature in operative position being that of a windscreen to be wiped). The windscreen wiper device 1 is furthermore built up of a connecting device 5 of metal or plastic for connecting an oscillating wiper arm thereto, with the interposition of a joint part 6. The oscillating wiper arm is pivotally connected to the connecting device 5 about a pivot axis near one end. The preferred embodiment of FIG. 1 according to the invention comprises a spoiler or air deflector 7 which is made in one piece with the rubber wiper blade 2 and which extends along the entire length thereof. No end caps are used, but free ends of the wiper blade 2 are cut at an oblique angle. In the alternative end caps may be used.

[0017] Although not shown in FIG. 1, but fully understood by a skilled person, the oscillating arm is connected to a mounting head fixed for rotation to a shaft driven by a small motor. In use, the shaft rotates alternately in a clockwise and in a counter-clockwise sense carrying the mounting head into rotation also, which in turn draws the oscillating arm into rotation and by means of the connecting device 5 moves the wiper blade 2.

[0018] the connecting device 5 further comprises an interior space 8 functioning as a water channel extending in longitudinal direction of the connecting device 5. During use the water channel 8 transports rain water therethrough. In other words, in use rain water is carried away from a first side of the connecting device 5 facing away from the free end of the oscillating arm to a second side of the connecting device 5 facing towards the free end of the oscillating arm. As a result of the oscillatory movement of the oscillating arm, in practice an over pressure relative to the environment exists at the location of the first side of the connecting device 5, while an under pressure relative to the environment is present at the location of the second side of the connecting device 5. Due to the over pressure and the under pressure rain water is automatically pressed through the water channel.

[0019] The joint part 6 is detachably connected to the connecting device 5 by engaging protrusions 9 of the connecting device 5, at the location of the pivot axis, in co-axial recesses 10 provided in the joint part 6. As shown, the protrusions 8 extend outwards on either side of the connecting device 5. The joint part 6 comprises a resilient tongue 11 extending outwardly, while the oscillating arm has a U-shaped cross-section at the location of its connection to the joint part 6, so that the tongue 11 engages in an identically shaped hole provided in a base of the U-shaped cross-section. The connecting device 5 with the wiper blade 2 is mounted onto the oscillating arm as follows. The joint part 6 being already clipped onto the connecting device 5 is pivoted relative to the connecting device 5, so that the joint part 6 can be easily slided on a free end of the oscillating arm. During this sliding movement the resilient tongue 11 is initially pushed in against a spring force and then allowed to spring back into the hole in the oscillating arm, thus snapping, that is clipping the resilient tongue 11 into the hole of the oscillating arm. This is a so-called bayonet-connection. The oscillating arm together with the joint part 6 may then be pivoted back in a position parallel to the wiper blade 2 in order to be ready for use. By subsequently pushing in again the resilient tongue 11 against the spring force (as if it were a push button), the connecting device 5 and the joint part 6 together with the wiper blade 2 may be released from the oscillating arm. Dismounting the connecting device 5 with the wiper blade 2 from the oscillating arm is thus realized by sliding the connecting device 5 and the joint part 6 together with the wiper blade 2 in a direction away from the oscillating arm.

[0020] According to the invention an electrically conductive coating 12 is disposed onto the longitudinal strip 4 over the entire length of the wiper blade 2. In use a voltage of 12 or 24 V is applied across the electrically conductive coating 12 at both ends of the wiper blade 2, as shown. In FIG. 1 the electrically conductive coating 12 is provided on a top surface of the longitudinal strip 4 made of an electrically conductive material, such as band steel, for applying a voltage to the electrically conductive coating 12.

[0021] FIG. 2 shows a side view and a perspective view of the longitudinal strip 4 in the wiper blade 2 of the windscreen wiper device of FIG. 1 according to another preferred embodiment, explaining the working principle as to how to heat the electrically conductive coating 12 applied on the longitudinal strip 4 of the wiper blade 2.

[0022] In the embodiment of FIG. 2 two electrically conductive wires 13 are provided on the longitudinal strip 4, wherein the electrically conductive wires 13 are located near opposite exterior longitudinal edges of the longitudinal strip 4. the electrically conductive wires 13 are in electrical contact with the electrically conductive coating 12.

[0023] In the embodiment of FIG. 2 the longitudinal strip itself does not need to be made of an electrically conductive material, such as band steel. In the embodiment of FIG. 2, the connecting device comprises an electrical connection element, to connect the electrically conductive wires 13 to a voltage generator.

[0024] The invention is not restricted to the variants shown in the drawing, but it also extends to other preferred embodiments that fall within the scope of the appended claims.