Rain-controlled windshield wipers
First Claim
1. In a motor vehicle of the type incorporating a windshield and a motor-driven windshield wiper, an improved windshield wiper motor controller for automatically activating the motor of said motor-driven windshield wiper upon detection of moisture droplets on the exterior surface of said windshield, comprising:
- (a) an opaque housing secured to the inside surface of said windshield, said housing having a first and a second plurality of bores whose longitudinal axes intersect at points at the exterior surface of said windshield and at an acute angle to the plane of the windshield, said first plurality of bores including individual radiant energy sources and said second plurality of bores including individual radiant energy sensors, individual ones of said sources being associated with individual ones of said sensors;
(b) driver means for periodically energizing said radiant energy sources with pulses of a predetermined duty cycle;
(c) balanced detector means coupled to said plurality of radiant energy sensors for detecting changes in the amount of light energy from said individual radiant energy sources impinging on its associated radiant energy sensor, and producing an error signal proportional to the degree of unbalance of said detector means;
(d) synchronous switching means coupled to said driver means for switching said error signal on and off in synchronism with said pulses from said driver means;
(e) comparator means coupled to said synchronous switching means for producing a voltage output when the amplitude of said error signal falls outside of a predetermined range of amplitudes; and
(f) a voltage-controlled oscillator having an input and an output, said input being coupled to receive said voltage output of said comparator means and said output being coupled in controlling relation to said motor.
2 Assignments
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Accused Products
Abstract
An electronic control system for windshield wipers on motor vehicles for initiating wiping action in response to the occurrence and level of precipitation on the windshield. A sensor unit comprising a block containing an array of photo-sensors arranged in a bridge configuration and a corresponding array of light sources is mounted on the inside surface of the windshield at a location traversed by the path of the vehicle'"'"'s windshield wiper blades. The photo-sensor elements are oriented to normally receive light reflected back from the glass/air interface at the outside windshield surface from the photo-emitters, but when rain is present on the windshield, the light rays are scattered to create an unbalanced condition. The unbalancing of the bridge creates a signal which is demodulated in a synchronous demodulator and then applied via an automatic gain control (AGC) circuit to a window comparator. The comparator output is, in turn, applied to a voltage-controlled oscillator such that the frequency of the pulse produced thereby is determined by the precipitation level. The oscillator output then is applied to a wiper motor relay to pulse the same into operation. The use of the synchronous demodulator, AGC error amplifier and window comparator results in a system which operates in a reliable manner under severe ambient conditions.
278 Citations
7 Claims
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1. In a motor vehicle of the type incorporating a windshield and a motor-driven windshield wiper, an improved windshield wiper motor controller for automatically activating the motor of said motor-driven windshield wiper upon detection of moisture droplets on the exterior surface of said windshield, comprising:
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(a) an opaque housing secured to the inside surface of said windshield, said housing having a first and a second plurality of bores whose longitudinal axes intersect at points at the exterior surface of said windshield and at an acute angle to the plane of the windshield, said first plurality of bores including individual radiant energy sources and said second plurality of bores including individual radiant energy sensors, individual ones of said sources being associated with individual ones of said sensors; (b) driver means for periodically energizing said radiant energy sources with pulses of a predetermined duty cycle; (c) balanced detector means coupled to said plurality of radiant energy sensors for detecting changes in the amount of light energy from said individual radiant energy sources impinging on its associated radiant energy sensor, and producing an error signal proportional to the degree of unbalance of said detector means; (d) synchronous switching means coupled to said driver means for switching said error signal on and off in synchronism with said pulses from said driver means; (e) comparator means coupled to said synchronous switching means for producing a voltage output when the amplitude of said error signal falls outside of a predetermined range of amplitudes; and (f) a voltage-controlled oscillator having an input and an output, said input being coupled to receive said voltage output of said comparator means and said output being coupled in controlling relation to said motor. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification