Known windshield wipers have a wiper arm sitting on a wiper shaft which is driven by a wiper motor. A wiper blade is connected to the free end of the wiper arm in an articulated joint. It usually has a multisection bracket system with a central bracket to which are hinge-connected subordinate brackets, at least some of which hold a wiper strip with claws at their ends. Wiper blades without a joint are also known; instead of the supporting bracket system, these have an elastic carrying element that is made of plastic and is resilient in the direction perpendicular to the windshield. To improve the spring property, it may have at least one spring bar made of spring steel. In the unloaded state, the carrying element has a greater curvature than the windshield, so the wiper strip is in contact with the windshield with a suitable pressure distribution under the pressing force of the wiper arm.
Unarticulated wiper blades have a very low design, which is highly advantageous with regard to their hydrodynamic properties and the noise generated in the slip stream from driving. German Patent 199 24 662 A1 describes a windshield wiper having an unarticulated wiper blade which is connected to a wiper arm in an articulated joint using a so-called sidelock system comprising a two-part connecting piece, the first part of which has a block section with a bearing bore and surrounds the spring strips, which serve as the carrying element, laterally and from beneath with integrally form-fitting elements. The second part is attached to the free end of the wiper arm which has a U-shaped profile that is open toward the windshield. A pin is inserted laterally into the second part so that it runs across the longitudinal direction of the wiper arm and points toward the wiper blade; the pin is then pivotably mounted in the bearing bore of the first part of the connecting piece.
A bridge is arranged on the second part of the connecting piece in parallel with the pin and offset in the longitudinal direction, this bridge being bent at its free end toward the side of the pin. In an assembly position in which the wiper blade is held across the longitudinal direction of the wiper arm, the pin may be pushed into the bearing bore of the connecting part. When the wiper blade is then rotated in parallel with the longitudinal direction of the wiper arm, the bridge extends beyond the wiper blade and locks it at its bent end, so that lateral guide faces of the block-shaped section of the first part of the connecting piece are guided in the installed state between the bent end of the bridge and an opposing face of the second part. In the operating position of the wiper blade, the bridge dips into a corresponding groove of the first part and is approximately flush with its top side. For dismantling, the wiper blade must be pivoted in the opposite direction until the bent end is disengaged and the wiper blade can be pulled away from the pin.
German Patent 28 30 508 A1 describes a wiper device for automotive windshields which has a wiper blade to which a pivot pin is fixedly connected. The pivot pin runs in a plane which is essentially parallel to the windshield, and the pivot pin is rotatably mounted in a bearing bore in the wiper arm. In order for the pivot pin not to slip out of the bearing bore during a wiping movement, the wiper blade is locked in the axial direction of the pivot pin with respect to the wiper arm by the fact that a projecting shoulder in an extension of the wiper arm engages in a groove in the protrusion which is fixedly connected to the wiper blade at the side of the blade. The outside flank of the groove forms a shoulder against which the protrusion is in contact in the operating position and thus locks the wiper blade axially to the pivot pin.
According to this invention, the joint includes a cap which covers and is attached to the connecting part. During operation the cap covers the wiper blade and the wiper rod in the installed position. This yields a very shallow connection between a preferably unarticulated wiper blade and a wiper rod, with the connecting parts for left-hand steering vehicles being the same as those for right-hand steering vehicles. Only the wiper rod is designed in mirror image. The inventive design permits numerous variants with free room for design innovation, so that the wiper blade can be adapted to numerous models of vehicles. The wiper rod itself can be kept simple because most functions used for adapting a windshield wiper to a motor vehicle are concentrated on the connecting part and the pivot pin.
The cap expediently has a pocket on its side facing the wiper rod; this pocket is open toward the windshield and toward the wiper rod in the longitudinal direction of the wiper rod and extends beyond it laterally. The pocket may be situated in the extension of the wiper rod, so that in the operating position, an extension of the wiper rod beyond the pivot pin, engages in the pocket of the cap. The pocket may also be situated in front of the pivot pin as seen in the longitudinal direction from the drive side of the wiper rod, whereby it includes the wiper rod on the drive side to the pivot pin. The cap and the wiper rod may therefore be shorter.
When the wiper rod is pivoted by approximately 90° in relation to the wiper rod, the extension of the wiper rod and/or the wiper rod itself comes out of the pocket and the wiper rod can be bent by the pivot pin attached to the wiper rod. Assembly then takes place in the opposite direction.
Instead of a pocket, the cap may have a guide pin, which is guided in a fork at the end of the wiper rod.
To improve wiping quality, a spoiler is usually attached to the carrying element on both sides of the connecting part. The cap connects the two parts of the spoiler harmonically by the fact that it is connected to the parts by connecting profiles, thus essentially forming a continuous spoiler with good flow conditions for the slip stream. The wiper rod has a shallow rectangular cross-sectional profile, the long side of which runs approximately parallel to the windshield, so it supports the function of the spoiler when it is arranged on the oncoming flow side. The connecting part in the form of a sheet metal claw may be made of metal or plastic. It has a back running parallel to the carrying element, catch projections being integrally molded on the longitudinal sides of this back for simple assembly, so that it can be clipped across the carrying element. The connecting part has two side faces that face away from the carrying element. They have receiving openings for the pivot pin and are interconnected by a bearing tube when the pivot pin is rotatably mounted in the connecting part. The side faces have catch recesses or catch holes in which the catch noses of the cap engage to facilitate assembly of the cap. In addition, the cap may be held in place by a clip which surrounds the bearing tube. The cap may additionally be secured by a free end of the pivot pin protruding above the side face and engaging in a recess in the side wall of the cap.
The wiper rod may run above the pivot pin, in the same plane as the pivot pin or beneath the pivot pin. In the first case or the second case, it is expedient for the end that protrudes beyond the pivot pin to be bent or beveled toward the rubber profile of the wiper blade, so that the cap with its pocket can be designed to be lower. In the third case, the wiper rod may be designed to be straight. It creates particularly favorable oncoming flow conditions because it lengthens the underneath side of the spoiler profile and is only a short distance away from the windshield.
If the pivot pin is rotatably mounted in the connecting part, it is fixedly connected to the wiper rod at an end which protrudes out of the connecting part. This connection may be a material connection, e.g., a connection formed by welding, or a form-fitting or friction-locked connection, e.g., formed by riveting, pressing or the like.
According to one embodiment of this invention, on the end that is provided for the wiper rod, the pivot pin has a flat head in which there are rivet holes for rivets. In this case the wiper rod has corresponding rivet holes and is riveted to the pivot pin. In another embodiment, the pivot pin has a flat head with an integrally molded polygon, e.g., a triangular, quadrangular or hexagonal shape protrudes across the pivot pin, is pressed into a corresponding opening on the wiper rod and is secured on its projecting end by wobble riveting. Wobble riveting is a riveting method in which the riveting tool executes a wobble motion during riveting. Before assembly, the wiper rods and heads of the pivot pins are painted black.
In another embodiment, the pivot pin has a head with a slot to accommodate the flat wiper rod which is secured in the slot by means of a cross pin or a rivet. As an alternative to that, the wiper rod may have a hub in the area of the pivot pin, encircling the pivot pin and being secured on it by a cross pin.
According to another embodiment, the flat wiper rod is rotated by approximately 90° at the end so that a wide side of one end lies across the pivot pin. The end has a receiving bore for a pivot pin with a collar to which a flanged seat is connected, the receiving bore being pressed onto it and the seat being secured by a tamped disk. The end protruding beyond the pivot pin is beveled toward the rubber profile of the wiper blade and engages in a respective pocket of the cap. This embodiment has a short design length of the pivot pin, but the advantageous position of the wiper rod with respect to the spoiler is nevertheless retained in most of the area of the wiper rod.
Additional advantages are derived from the following description of the drawings, which illustrate exemplary embodiments of the present invention. The drawings, the description and the claims contain numerous features in various combinations. Those skilled in the art will also expediently take the features into account individually and combine them to form other appropriate combinations. They show:
An unarticulated wiper blade 20 has a rubber profile 22 which is attached to a flat carrying element 24, usually consisting of one or two spring strips embedded in the top part of the rubber profile 22. For articulated connection of the wiper blade 20 to a wiper rod 28 of a wiper arm (not shown in detail here), a joint 30 is provided in the middle area of the wiper blade 20. This joint has as a connecting part a sheet metal claw 32, the back 34 of which spans the carrying element 24 and is attached to it with catch noses 36. The catch noses 36 can be pushed over the carrying element 24 in the longitudinal direction or designed as a clip connection and clipped across the carrying element 24 by elastic deformation. Between the catch noses 36, which are provided laterally on the ends of the sheet metal claw 32, side faces 38 are a distance away from the rubber profile 22 on the longitudinal sides 66 of the sheet metal claw 32. They hold a bearing tube 40 which runs across the wiper blade 20 and runs approximately parallel to a windshield (not shown). A pivot pin 42 is inserted into the bearing tube 40 and protrudes with a head 44 out of the bearing tube 40 on one side toward the wiper rod 28.
The wiper rod 28 has a rectangular cross section, with the longer sides running approximately parallel to the pivot pin 42. In the embodiments according to
When seen in the longitudinal direction, the parts of a spoiler 26 are attached to the carrying element 24 on both sides of the sheet metal claw 32, thus increasing the pressing force on the windshield due to the slip stream when there is an oncoming flow from driving. The sheet metal claw 32 is covered by a cap 54, which is harmonically contiguous with the parts of the spoiler 26 with the connecting profiles 64. The cap 54 is detachably attached to the sheet metal claw 32. To this end, it has catch noses 56 on the inside of its side walls 60, engaging in corresponding openings 104 (
On the side of the wiper rod 28, the cap 54 has a pocket 62 which is open toward the windshield (
The descriptions of
The same effect is achieved when the wiper rod 80 runs beneath the pivot pin 42 in the embodiments according to
The embodiment according to
In the embodiments according to
The embodiments according to
The caps 54 for the embodiments according to
In another embodiment, the pivot pin 178 (
With the embodiments described so far, the pivot pin 46, 96, 106, 138 is rotatably mounted in the bearing tube 40 of the sheet metal claw 32 and is connected to the wiper rod 20, 70, 80, 90, 118, 136, but the pivot pin 146, 164 is in a rotationally fixed connection to the sheet metal claw 32 and is rotatably connected to the wiper rod 150, e.g., by being held in corresponding openings in the side faces 38 with an out-of-round cross-sectional profile in the form of a polygon or a flattened cylinder. In the embodiment according to
The variant according to
Number | Date | Country | Kind |
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102 29 608 | Jun 2002 | DE | national |
102 59 480 | Dec 2002 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/DE03/01638 | 5/20/2003 | WO | 00 | 12/28/2004 |
Publishing Document | Publishing Date | Country | Kind |
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WO2004/002792 | 1/8/2004 | WO | A |
Number | Name | Date | Kind |
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4094038 | Hancu | Jun 1978 | A |
4118825 | Hoebrechts et al. | Oct 1978 | A |
4416032 | Mohnach et al. | Nov 1983 | A |
4446589 | Maiocco | May 1984 | A |
6158078 | Kotlarski | Dec 2000 | A |
6295690 | Merkel et al. | Oct 2001 | B1 |
6499181 | Kotlarski | Dec 2002 | B1 |
7293321 | Breesch | Nov 2007 | B2 |
Number | Date | Country |
---|---|---|
28 30 508 | Jan 1980 | DE |
44 13 661 | Nov 1994 | DE |
199 24 662 | Nov 2000 | DE |
100 00 374 | Jul 2001 | DE |
100 36 135 | Feb 2002 | DE |
49084826 | Jul 1974 | JP |
53061934 | May 1978 | JP |
60069758 | May 1985 | JP |
0240329 | May 2002 | WO |
Number | Date | Country | |
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20050251946 A1 | Nov 2005 | US |