Window wiper system incorporating window moisture and torque sensors

Abstract

A window wiper system includes a wiper assembly, a window moisture sensor, a wiper torque sensor and a control module. The control module is responsive to the window moisture sensor and the torque sensor to control the operation of the window wiper assembly.

Claims

1. A window wiper system, comprising: a window wiper assembly including a wiper blade, a wiper arm holding said wiper blade and a wiper motor driving said wiper arm; an optical sensor detecting presence of moisture on a window; a wiper torque sensor including a plurality of magnetoelastic bands carried on a pivot shaft extending between said wiper arm and said wiper drive motor and a plurality of field sensors that measure differences in magnetic field between said plurality of magnetoelastic bands; and a control module responsive to said optical sensor and said wiper torque sensor to control operation of said window wiper assembly.

2. The system of claim 1, wherein said optical sensor includes a light source, a lens for directing light from said light source onto a window to be cleaned by said window wiper assembly and a light receptor to detect light from said light source being reflected back from said window.

3. The system of claim 1, wherein said system further includes a window heating element, said window heating element being controlled by said control module.

4. The system of claim 3, wherein said system further includes a heated fluid jet cleaning subsystem including a fluid reservoir, a fluid heating element, a nozzle jet and a pump for pumping heated fluid from said reservoir through said nozzle onto said window in response to a control signal from said control module.

5. The system of claim 1, wherein said system further includes a heated fluid jet cleaning system including a fluid reservoir, a fluid heating element, a nozzle jet and a pump for pumping heated fluid from said reservoir through said nozzle onto said window in response to a control signal from said control module.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The accompanying drawings incorporated herein and forming a part of the specification, illustrate several aspects of the window wiper system and together with the description serve to explain certain principles thereof. In the drawings:

(2) FIG. 1 is a schematical illustration of the window wiper assembly, on a vehicle window, the window moisture sensor, the wiper torque sensor and the control module.

(3) FIG. 2 is a schematical illustration of one possible embodiment of the window moisture sensor.

(4) FIG. 3 is a schematical illustration of one possible embodiment of the wiper torque sensor.

(5) FIG. 4 is a schematical block diagram of the control elements of the window wiper control system.

(6) FIG. 5 is a block diagram which explains system function and operation.

(7) Reference will now be made in detail to the present preferred embodiments of the window wiper system, examples of which are illustrated in the accompanying drawings.

DETAILED DESCRIPTION

(8) Reference is now made to FIGS. 1-4 which, considered together, illustrate the window wiper system 10. As illustrated in FIG. 1, the window wiper system 10 includes a window wiper assembly 12 comprising a wiper blade 14 that is carried on a wiper arm 16 which is driven by a wiper drive motor 18. The window wiper system 10 also includes a window moisture sensor 20, a wiper torque sensor 22 and a control module or microprocessor 24.

(9) More specifically, in one possible embodiment illustrated in FIG. 2, the window moisture sensor 20 comprises an optical sensor comprising a housing 26 holding a light source 28. A lens 30 directs light emitted by the light source 28 onto the window W to be cleaned by the window wiper assembly 12 and a light receptor 32 detects light from the light source that is reflected back from the window. The presence of moisture on the window has a tendency to scatter light emitted from the light source 28. Accordingly, as the moisture on the window W increases, the light reflected back and received by the receptor 32 decreases.

(10) As illustrated in FIG. 3, in one possible embodiment of the system 10, the torque sensor 22 includes a plurality of magnetoelastic bands 34.sub.1-34.sub.n carried on the pivot driveshaft 36 which extends between the wiper motor 18 and the head of the wiper arm 16. In addition, the torque sensor 22 includes a plurality of field sensors 38.sub.1-38.sub.n carried on the vehicle adjacent the magnetoelastic bands 34.sub.1-34.sub.n. These field sensors 38.sub.1-38.sub.n measure the differences in magnetic field between the plurality of magnetoelastic bands 34.sub.1-34.sub.n as the wiper drive motor 18 drives the wiper blade 14 carried by the wiper arm 16. As the amount of moisture on the window W increases, the friction or drag on the wiper blade 14 is reduced and the torque on the pivot arm 36 decreases.

(11) It should be appreciated that an inverse relationship exists between (a) the amount of moisture on the window W and (b) both the amount of light reflected back from the window W to the light receptor 32 and the amount of torque being exerted on the pivot shaft 36 of the window wiper assembly 12. Through extensive testing, predetermined criteria are developed into a lookup table that is used to guide the control module 24 in operation of the window wiper system 10.

(12) As illustrated in FIG. 4, the control module 24 is connected to the window moisture sensor 20 by the signal line 40 and to the wiper torque sensor 22 by the signal line 42. Further the control module 24 is connected to the wiper drive motor 18 by the signal line 44.

(13) In one possible embodiment of the invention, the window W includes a window resistance heating element 46 which may be utilized to heat the window W and reduce fog, ice or snow on the window. In this embodiment, the control module 24 controls the operation of the window heating element 46 through the signal line 48.

(14) In another possible embodiment, the system 10 includes a heated fluid jet cleaning subsystem generally designated by reference numeral 50 which includes a fluid reservoir 52, a fluid heating element 54, a nozzle jet 56 and a pump 58. The control module 24 controls the operation of the heating element 54 through the signal line 60 and the operation of the pump 58 through the signal line 62.

(15) Reference is now made to FIG. 5 which schematically illustrates the function and operation of the window wiper system 10. Upon activating the system 10, the window moisture or optical sensor 20 detects the presence of moisture on the window W. More specifically, the sensor 20 emits a light beam from the source 28 and then compares the intensity of the light beam emitted from the source to the intensity of the reflected light detected by the light receptor 32. The resulting light reflectance value gives an indication of the amount of light that was scattered by the moisture or other substances on the window W. The detected light reflectance value is sent through the signal line 40 to the control module 24 which compares that value to predetermined criteria indicating low reflection, medium reflection and high reflection.

(16) At approximately the same time, the control module 24 sends a control signal along line 44 to the wiper drive motor 18 to sweep the window wiper blade 14 held on the wiper arm 16 across the window W one time. As this is done the wiper torque sensor 22 detects the amount of torque being applied to the pivot driveshaft 36. This is accomplished by means of the field sensors 38.sub.1-38.sub.n which measure the difference in magnetic field between the magnetoelastic bands 34.sub.1-34.sub.n on the pivot driveshaft 36. The resulting torque value is then sent from the wiper torque sensor 22 through the signal line 42 to the control module 24.

(17) The control module 24 then compares the sensed or detected torque value to predetermined criteria and makes a determination if the detected value falls within the low torque, medium torque or high torque range. The control module 24 then determines the intersection of the detected light reflectance value and the detected torque value and sends an appropriate signal to the wiper drive motor 18 through the signal line 44 so that the wiper system 10 operates with an appropriate delay and/or speed best matched to the driving conditions including, particularly, the presence of moisture and other substances on the window W.

(18) In the event the system 10 is also equipped with the optional window heating element 46, the control module provides, when warranted, an appropriate control signal along line 48 to the window heating element 46 in response to detected conditions based upon data from the sensors 20, 22. Similarly, if the system 10 is equipped with the optional heated fluid jet cleaning subsystem 50, the control module 28 sends an appropriate control signal, when warranted, to the heating element 54 through the control line 60 and the pump 58 through the control line 62 so as to optimize operation of the cleaning subsystem 50 in response to driving conditions as detected by the sensors 20, 22.

(19) In summary, numerous benefits are derived through the operation of the window wiper system 10 and the associated method disclosed herein. More specifically, wiper operation is automatically controlled by the control module 24 in response to input from both a window moisture or optical sensor 20 and a wiper torque sensor 22. Advantageously, the wiper system 10 may operate the window wiper assembly 12 more efficiently and effectively through a combination of optical and torque sensor data than is possible with prior art systems that rely only upon optical data or torque data alone.

(20) For example, one short-coming of an optical sensor 20 is that it only monitors and detects rain over a small surface area of the overall windshield W. Thus, light rain may go undetected for an extended period of time. This may lead to the wipers being prematurely shut off when rainfall begins to lighten after a storm. In this situation, the torque sensor 22 detects the moisture on the windshield W and the data it provides may be used by the control module 24 to properly maintain windshield wiper operation until the rain finally ceases.

(21) It should also be appreciated that data provided from both an optical sensor 20 and a torque sensor 22 allow the control module 24 to more quickly and accurately identify and respond to icy windshield conditions. Ice detection is indicated by a combination of a low torque reading from the torque sensor 22 and a high light scatter reading from the optical sensor 20.

(22) The provision of the optional window heating element 46 and/or optional heated fluid jet cleaning subsystem 50 further enhances the operating capabilities of the system 10 so it may better adjust to and meet the needs of a vehicle operator when presented with various driving conditions including those associated with harsh winter weather.

(23) The foregoing has been presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the embodiments of the window wiper system and associated method to the precise form disclosed. Obvious modifications and variations are possible in light of the above teachings. For example, the window wiper system 10 may incorporate additional sensors to provide still more operating data to the control module 24 which utilizes that data to act accordingly in adjusting the operation of the window wiper assembly 12 including, for example, the operating speed thereof. Such additional sensors include but are not necessarily limited to a vehicle speed sensor, an ambient temperature sensor, an air circulation system temperature sensor and combinations thereof. In another possible embodiment, the window wiper system 10 relies only on the torque sensor 22 including the magnetoelastic bands 34.sub.1-34.sub.n and the field sensors 38.sub.1-38.sub.n. All such modifications and variations are within the scope of the appended claims when interpreted in accordance with the breadth to which they are fairly, legally and equitably entitled.