Method and apparatus for evaluating automotive window regulators
First Claim
1. Apparatus for evaluating window regulator assemblies of the type comprising a slide and carrier plate according to noise generated during operation thereof comprising:
- a support for receiving window regulator assemblies in a test location;
a drive for causing the carrier plate to travel along the slide of said assembly;
a transducer adapted to be disposed in exclusive energy transfer relationship with the window regulator assembly and responsive to noise produced during travel of the carrier plate along the slide to produce a signal quantity related to such noise;
and a processor for receiving and analyzing said signal quantity for a basis for identifying unacceptably noisy window regulator assemblies.
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Accused Products
Abstract
A method and apparatus for evaluating window regulators of the type having a reversible electric motor connected to a slide/carrier plate by means of cables. The apparatus comprises a first transducer such as a piezoelectric accelerometer or a laser for generating a first signal quantity related to periodic noise produced by the motor during operation thereof, a second transducer such as a piezoelectric accelerometer for producing a second signal quantity representing transient noise produced by irregularities in the slide/carrier plate assembly during travel of the carrier plate along the slide, and a processor for decoding the first and second waveforms and using data derived therefrom as a basis for identifying unacceptably noisy window regulator assemblies. The method comprises placing the window regulators on a test fixture, operating the window regulator with a simulated glass load, and generating and processing the first and second signal quantities as described above.
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Citations
15 Claims
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1. Apparatus for evaluating window regulator assemblies of the type comprising a slide and carrier plate according to noise generated during operation thereof comprising:
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a support for receiving window regulator assemblies in a test location;
a drive for causing the carrier plate to travel along the slide of said assembly;
a transducer adapted to be disposed in exclusive energy transfer relationship with the window regulator assembly and responsive to noise produced during travel of the carrier plate along the slide to produce a signal quantity related to such noise;
and a processor for receiving and analyzing said signal quantity for a basis for identifying unacceptably noisy window regulator assemblies. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. Apparatus for evaluating window regulator assemblies of the type having an electric drive motor and a slide/carrier plate assembly connected to the motor by cables such that operation of the motor causes the carrier plate to travel along the slide comprising:
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the support for receiving window regulator in the test location;
an electrical connected proximate said location for placing electric motors in said location in an operating condition;
a first transducer adapted to be disposed in energy transfer relationship with a motor in the test location and responsive to the noise characteristics produced during operation thereof to produce a signal quantity having a primary periodic component based on motor rotation speed and other periodic components resulting from motor characteristics producing noise;
a second transducer adapted to be disposed in energy transfer relationship with the slide/carrier plate assembly of the window regulator and responsive to noise produced thereby during travel to produce a second signal quantity; and
a processor for receiving and analyzing the first and second signal quantities as a basis for identifying unacceptably noisy window regulator assemblies. - View Dependent Claims (10, 11, 12, 13)
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14. A method of evaluating window regulators of the type having a reversible electric motor connected to a slide/carrier plate according to noise characteristics generated by the window regulator during operation thereof comprising the steps of:
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supporting the window regulator on a base;
operating the window regulator with a simulated glass load;
developing at least one signal quantity related to noise produced by the window regulator during operation thereof; and
processing the signal quantity to identify unacceptably noisy window regulators. - View Dependent Claims (15)
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Specification