System and method for detection and control of ungrounded parts in a production coating line
First Claim
1. A system for detecting and controlling ungrounded or inadequately grounded parts prior to subjecting said parts to an electrostatic coating process, comprising:
- a source for imparting an electrical charge to said parts under test;
a detection system for sensing specific characteristics of ungrounded or inadequately grounded parts under test, such as sparking or corona discharge characteristics, and generating waveforms representative of said specific characteristic by utilizing a plurality of distinct sensing techniques;
a memory coupled to said detection system for storing waveforms representative of profiles of sparking or corona discharge characteristics; and
a control circuit coupled to said detection system and said memory for receiving said waveforms generated by said detection system and comparing said waveforms with said waveforms stored in said memory and providing output signals, said control circuit comprising correlation circuits to correlate output signals obtained by at least two of said two distinct sensing techniques to confirm existence of an ungrounded or poorly grounded part.
2 Assignments
0 Petitions
Accused Products
Abstract
A system and method for detecting and controlling ungrounded parts during the electrostatic coating process in order to improve production flow, provide an overall cost saving by efficient use of the coating material and prevention of accidental fires and false shutdown during production. The system of the present invention comprises a detection system for detecting any ungrounded parts prior to entering a coating environment, such as a painting booth. The detection system in accordance with one embodiment, comprises an array of detectors, specifically, an ultraviolet sensor, a radio-frequency wave sensor, an acoustic sensor and a light sensor, which upon sensing specific characteristics generate representative signal waveforms. These waveforms are than compared with stored waveforms relating to profiles of sparking or corona discharge characteristics. Correlation circuits may correlate data obtained by two or more sensors in order to ensure that the spark or corona discharge is caused by an ungrounded part. In accordance with an alternative embodiment, the detection system comprises a measuring device, such as a sensitive electric field meter, for measuring the electrical potential field between each part to be coated and ground.
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Citations
24 Claims
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1. A system for detecting and controlling ungrounded or inadequately grounded parts prior to subjecting said parts to an electrostatic coating process, comprising:
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a source for imparting an electrical charge to said parts under test; a detection system for sensing specific characteristics of ungrounded or inadequately grounded parts under test, such as sparking or corona discharge characteristics, and generating waveforms representative of said specific characteristic by utilizing a plurality of distinct sensing techniques; a memory coupled to said detection system for storing waveforms representative of profiles of sparking or corona discharge characteristics; and a control circuit coupled to said detection system and said memory for receiving said waveforms generated by said detection system and comparing said waveforms with said waveforms stored in said memory and providing output signals, said control circuit comprising correlation circuits to correlate output signals obtained by at least two of said two distinct sensing techniques to confirm existence of an ungrounded or poorly grounded part. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A system for detecting and controlling ungrounded or inadequately grounded parts prior to subjecting said parts to an electrostatic coating process, comprising:
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a source for imparting an electrical charge to said parts under test; and a detector for measuring the electrical field between a specific part under test and ground to determine if a measured value for said part under test is greater than a predetermined threshold generally indicative of an ungrounded or inadequately grounded part.
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8. A process for detecting and controlling ungrounded or inadequately grounded parts prior to subjecting said parts to an electrostatic coating process, comprising the steps of:
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imparting an electrical charge to said parts under test; sensing specific characteristics of ungrounded or inadequately grounded parts under test, such as sparking or corona discharge characteristics; generating waveforms representative of said specific characteristic by utilizing a plurality of distinct sensing techniques; storing waveforms representative of profiles of sparking or corona discharge characteristics; receiving said waveforms generated by said detection system and comparing said waveforms with said stored waveforms to provide output signals; correlating output signals obtained by at least two distinct sensing techniques to confirm existence of an ungrounded or poorly grounded part. - View Dependent Claims (9, 10, 11, 12, 13)
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14. A process for detecting and controlling ungrounded or inadequately grounded parts prior to subjecting said parts to an electrostatic coating process, comprising the steps of:
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imparting an electrical charge to said parts under test; and measuring the electrical field between a specific part under test and ground to determine if a measured value for said part under test is greater than a predetermined threshold generally indicative of an ungrounded or inadequately grounded part.
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15. A process for detecting and controlling ungrounded or inadequately grounded parts in a production line of parts for electrostatic coating, comprising the steps of:
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imparting an electrical charge to said parts in said production line prior to subjecting said parts to an electrostatic coating process; performing an initial test on each of said parts in said production line to identify ungrounded or inadequately grounded parts by sensing specific characteristics of each of said parts; and repeating said test on each part subsequent to said initial test in the event imparting said electrical charge during said initial test successfully grounded a previously ungrounded part to avoid an undesirable shutdown of said production line.
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16. A system for detecting and controlling ungrounded or inadequately grounded parts in a production process, comprising:
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a source for imparting an electrical charge to the parts; a detector for using a plurality of distinct sensing methodologies to sense specific characteristics of ungrounded or inadequately grounded parts and for generating digital representations of waveforms representing the sensed characteristics; a memory coupled to said detector for storing digital representations of waveforms representing predetermined profiles of characteristics of ungrounded or inadequately grounded parts; and a microprocessor coupled to said detector and said memory for receiving the digital representations of waveforms generated by said detector and for digitally comparing the received digital representations of waveforms with the digital representations of waveforms stored in said memory and for providing output signals in response to the comparison, said microprocessor comprising a plurality of correlation circuits for correlating output signals representing at least two distinct sensing methodologies to correctly confirm existence of an ungrounded or inadequately grounded part. - View Dependent Claims (17, 18, 19)
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20. In an electrostatic paint spray coating conveyor apparatus, a system for detecting and controlling ungrounded or inadequately grounded parts, comprising:
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a source for imparting an electrical charge to the parts; a detector for using a plurality of distinct sensing methodologies to sense specific characteristics of ungrounded or inadequately grounded parts and for generating digital representations of waveforms representing the sensed characteristics; a memory coupled to said detector for storing digital representations of waveforms representing predetermined profiles of characteristics of ungrounded or inadequately grounded parts; and a microprocessor coupled to said detector and said memory for receiving the digital representations of waveforms generated by said detector and for digitally comparing the received digital representations of waveforms with the digital representations of waveforms stored in said memory and for providing output signals in response to the comparison, said microprocessor comprising a plurality of correlation circuits for correlating output signals representing at least two distinct sensing methodologies to correctly confirm existence of an ungrounded or inadequately grounded part. - View Dependent Claims (21, 22, 23, 24)
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Specification