The invention relates to a drive device for a windscreen wiping device (1), comprising an electric drive motor (3) and a transmission (4) for driving an output shaft (5), said output shaft supporting the first wiper arm (6) and drives a transmission rod assembly (8) which actuates a second wiper arm (13). The invention relates to, in particular, the connection of the drive shaft to the transmission rod assembly.

The invention relates to a drive device for a windscreen wiping device (1), comprising an electric drive motor (3) and a transmission (4) for driving an output shaft (5), said output shaft supporting the first wiper arm (6) and drives a transmission rod assembly (8) which actuates a second wiper arm (13). The invention relates to, in particular, the connection of the drive shaft to the transmission rod assembly.

The wiper device includes a first pivot shaft, a first swing lever, a second pivot shaft, a second swing lever, a link rod, a crank arm, and a drive rod. The first swing lever extends from the first pivot shaft in a radial direction of the first pivot shaft. The second swing lever extends from the second pivot shaft in a radial direction of the second pivot shaft. The link rod has a first end connected to a tip part of the first swing lever and a second end connected to a tip part of the second swing lever. The crank arm extends from an output shaft of a motor in a radial direction of this output shaft. The drive rod has a first end connected to a tip part of the crank arm and a second end connected to an intermediate part of the link rod.

The wiper device includes a first pivot shaft, a first swing lever, a second pivot shaft, a second swing lever, a link rod, a crank arm, and a drive rod. The first swing lever extends from the first pivot shaft in a radial direction of the first pivot shaft. The second swing lever extends from the second pivot shaft in a radial direction of the second pivot shaft. The link rod has a first end connected to a tip part of the first swing lever and a second end connected to a tip part of the second swing lever. The crank arm extends from an output shaft of a motor in a radial direction of this output shaft. The drive rod has a first end connected to a tip part of the crank arm and a second end connected to an intermediate part of the link rod.

In the case of a windshield wiper system with two opposite wipers 1, 2, 4, 5 and two reversing motors 6, 7, the risk of a collision of the wipers can be diminished greatly in that a defined phase displacement is generated between the wiping movements of the two wipers, which are driven in a reversing manner, with the aid of the lever mechanism 8 associated with the reversing motors, and said phase displacement is arranged so that the one wiper is leading relative to the other wiper in the first wiping direction and lagging in the second wiping direction.

The present invention relates to a core pin assembly comprising two sliding elements configured for use as a component of a mold assembly for a pivot shaft housing wherein the core pin assembly comprises two sliding elements provided with a plurality of longitudinal projections forming a plurality of longitudinal recesses there between; and a shape of the longitudinal projections of one sliding element corresponds to a shape of the longitudinal recesses of the other sliding element; wherein the two separate sliding elements are configured for engaging in a reversible manner, so that the longitudinal projections of one sliding element are positioned in the longitudinal recesses of the other sliding element. The present invention further relates to a method of manufacturing pivot shaft housing using the core pin assembly. The invention relates also to a pivot shaft housing comprising a hole for supporting a pivot shaft, obtained using this method.

The present invention relates to a core pin assembly comprising two sliding elements configured for use as a component of a mold assembly for a pivot shaft housing wherein the core pin assembly comprises two sliding elements provided with a plurality of longitudinal projections forming a plurality of longitudinal recesses there between; and a shape of the longitudinal projections of one sliding element corresponds to a shape of the longitudinal recesses of the other sliding element; wherein the two separate sliding elements are configured for engaging in a reversible manner, so that the longitudinal projections of one sliding element are positioned in the longitudinal recesses of the other sliding element. The present invention further relates to a method of manufacturing pivot shaft housing using the core pin assembly. The invention relates also to a pivot shaft housing comprising a hole for supporting a pivot shaft, obtained using this method.

An emergency windshield wiper system that attaches to the windshield of a vehicle. The system comprises of a platform that is used to secure a battery, a motor, a control, a pair of suction cups, an oscillating gear and an arm that holds a windshield wiper. The suction cups are positioned at opposite ends of the platform so that a center of gravity is created at a midpoint of the platform. The oscillating gear is positioned at the midpoint of the platform and it connects via a connector gear rod to a motor gear that is attached to the motor. The battery, motor and the control are operatively connected. The oscillating gear attaches to the arm. The windshield wiper inserts within the arm of the windshield wiper system.

A windshield wiper assembly for a dual sweep angle and indexable wiper system is provided. The system includes a wiper motor and a wiper arm for sweeping a surface of a windshield coupled to a first eccentric, the first eccentric comprising a primary eccentric and an indexable eccentric plate, wherein the indexable eccentric plate determines an eccentric offset of the wiper arm coupled to the first eccentric. The system further includes an output wiper shaft coupled to the wiper arm, a second eccentric coupled to a cam shaft, and a link coupled to the first eccentric and the second eccentric, the link having a first effective link arm length between the first eccentric and the second eccentric for driving the first eccentric to operate the wiper arm when operated in a first direction.

There is provides a wiper device, the wiper device comprises a driving mechanism, a wiper component, and a base. The base defines an opening. the wiper component, is adapted to the opening. The driving mechanism is fixedly connected to the wiper component, and the driving mechanism drives the wiper component to swing; when the wiper component swings, the wiper component gradually opens up a certain angle relative to the base through the opening and extends out of the base, or gradually closes down relative to the base through the opening and hides in the base.