Brushing – scrubbing – and general cleaning – Attachments – Optical-member-attachable cleaner
Reexamination Certificate
2001-04-24
2004-02-17
Graham, Gary K. (Department: 1744)
Brushing, scrubbing, and general cleaning
Attachments
Optical-member-attachable cleaner
C015S250310, C015S250300, C015S250140, C074S588000, C074S051000, C074S042000, C074S043000, C074S57900F
Reexamination Certificate
active
06691366
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention is based on a wiper system.
Wiper systems with a plurality of windshield wipers for motor vehicles are secured by their wiper bearings directly or indirectly to the vehicle body via a mounting plate. The mounting plate or tubular mounting—if the wiper carrier also includes tubular hollow profiles—includes a motor mounting plate, which carries a wiper drive with a wiper motor. A power takeoff shaft of the wiper motor, via a motor crank and connecting rods, drives other cranks that are solidly connected to a drive shaft for each windshield wiper.
If in a vehicle there are two windshield wipers that run in the same direction, then as a rule the windshield wiper on the driver's side is driven by the motor crank via a connecting rod pivotably connected to it and by a further crank, while the windshield wiper on the passenger side is often driven via a connecting rod and a transversely jointed linkage, which is connected via its drive lever to the connecting rod. The kinematics of the transversely jointed linkage generates a combined reciprocating and swiveling motion of the windshield wiper, making it better able to follow the angular contour of a vehicle window and enabling it to sweep over even peripheral regions, especially in the upper portion of the windshield.
In conventional wiper systems, the two windshield wipers are driven either directly or in series. In a direct drive, the two connecting rods are pivotably connected to the motor crank at a plurality of ball pins, or at a double ball pin. So that only slight forces on the connecting rods will be obtained, the motor crank has a relatively great length. This means a long radius of the crank path, which along with the usually low ratio of the crank radius to the rod length, of approximately ¼ to {fraction (1/7)}, requires a correspondingly large structural volume and space for motion for the wiper linkage.
From European Patent Disclosure EP 0 781 691 A1, a wiper drive in the form of a series drive is known that comprises a wiper motor and a lever gear. An offset-bent motor crank is seated on the power takeoff shaft of the wiper motor. A connecting rod, which is pivotably connected to the motor crank via a crank joint, is likewise pivotably connected, by its free end, via a crank joint to a crank embodied as a crank plate, which is secured to a drive shaft of a windshield wiper. The crank plate is engaged, via a further crank joint, by a second connecting rod which is pivotably connected by its free end to a crank that is secured to a drive shaft for a second windshield wiper. The lever gear comprising the cranks and connecting rods is very complicated and requires a great deal of space for motion. Furthermore, the parts of the wiper linkage up to the first windshield wiper must be dimensioned such that the forces required for the second windshield wiper can be transmitted as well. The result is a very complicated wiper linkage that is heavy in weight and uses a great deal of material.
Wiper drives with reversible wiper motors are also known, in which the motor crank executes a virtually semicircular swiveling motion. This drive requires markedly less space for motion for the motor crank, as determined by a semicircular motion of the relatively long motor crank.
From the journal “Werkstatt und Betrieb”, Carl Hanser Verlag, Munchen, 1995, pages 812-815, and the offprint from the journal “Metallumformtechnik”, Claus Dannert Verlag, 1994, entitled “Präzisions-Werkstüfcke in Leichtbauweise, hergestellt durch Innenhochdruck-Umformen” [“Precision Workpieces of Lightweight Design, made by Internal High-Pressure Reshaping”], a method for reshaping tubes into workpieces is known. This method, which is employed above all for the automotive industry, uses high pressures.
The tubular piece to be reshaped is placed in a split tool, in which the desired workpiece shape has been machined. The tool, which is mounted in a press, is closed by a vertical press ram. The ends of the tubular piece are closed by closing tools, through which a pressure medium is delivered that presses the walls of the tube against the inner tool mold. Horizontally acting rams exert an axial pressure on the tube, which is superimposed on the internal pressure. Thus the material that is required for the reshaping is taken not only from the wall thickness of the tubular piece but also made available by the shortening of the tube. The closing tools are made to follow axially during the reshaping.
SUMMARY OF THE INVENTION
According to the invention, in a wiper system with two windshield wipers, a first connecting rod is pivotably connected directly to a motor crank connected solidly to a power takeoff shaft of a wiper motor. A second connecting rod, spaced apart from the crank joint, is connected to the first connecting rod via a joint. While the crank joint moves along a circular curved path, or in the case of reversing wiper motors a semicircular curved path, the joint for the second connecting rod moves along an elliptical or semielliptical curved path that is offset from the other windshield wiper. Because of the shallower drive motion and the longer connecting rod, the second connecting rod requires less space for motion. This favorable kinematic situation is further improved by the transversely jointed linkage. The possibility also exists, by varying the spacing of the joints from one another, of adapting the location of the wiper motor relative to the wiper bearings with a great deal of freedom to the available space in the vehicle.
Since the first connecting rod up to the hinge pin for the second connecting rod must also absorb forces and moments for the second windshield wiper drive, it is advantageous to reinforce the binding of the crank joint and of the joint for the second connecting rod. To that end, according to the invention, at least in the region of a bearing shell for the crank joint and of a hinge pin for the second connecting rod, the first connecting rod is embodied with double walls.
In one feature of the invention, the connecting rod is a sheet-metal part with a substantially U-shaped cross-sectional profile, which in the region of the bearing shell comes to a shallow end toward the open boundary of the U-shaped profile, so that an offset bend is formed between the bearing shell and the hinge pin. In the region of the bearing shell and the hinge pin, the connecting rod has a reinforcement part. The reinforcement part extends parallel to the sheet-metal part and is advantageously riveted to the sheet-metal part on one end by the rivet head of the hinge pin. In the region of the offset bend, the reinforcement part extends with spacing from the sheet-metal part, and as a result a hollow chamber is formed and the shape rigidity is enhanced. At the end of the connecting rod, the reinforcement part and the sheet-metal part have openings located one above the other, into which a plastic bearing shell for the crank joint is injected.
It is expedient that in the injection of the bearing shell, the reinforcement part is fixed to the sheet-metal part in addition to the hinge pin. One option is for the reinforcement part to be formed onto the sheet-metal part in the longitudinal direction and to bent over transversely to the longitudinal direction in the region having the U-shaped cross section. Expediently, the reinforcement part extends into the region of the legs of the U-shaped profile and in this region likewise has a U-shaped cross section, and the legs of the reinforcement part at least partly cover the legs of the sheet-metal part. If the legs of the U-shaped profiles diverge and if the reinforcement part has a slight oversize, then this part, under initial tension can be made to contact the sheet-metal part without play. The result is an improved bracing effect.
A further option is for the reinforcement part, at its opening for the bearing shell, to have a formed-on centering collar, which engages the corresponding opening of the sheet-metal part and thus assures both centering and fix
Graham Gary K.
Robert & Bosch GmbH
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