Electrical audio signal processing systems and devices – Acoustical noise or sound cancellation
Reexamination Certificate
1997-12-11
2002-08-20
Chin, Vivian (Department: 2644)
Electrical audio signal processing systems and devices
Acoustical noise or sound cancellation
C427S010000, C239S074000
Reexamination Certificate
active
06438239
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention generally refers to a process and arrangement of monitoring the effectiveness of a spray stream.
German Pat. No. 41 41 665 A1 describes a process of analyzing a spray stream which process is based on directing a spray content onto a measuring surface of a material exhibiting low heat capacity so that the measuring surface cools down in dependence on the amount of impacting spray content. Through comparison of the temperature profile before and after spraying the content on the measuring surface, the effectiveness of the spray stream can be determined.
It will be understood that the term “spray stream” should be so interpreted in the following description as to encompass every fluid stream exiting a nozzle or other outlet unit, such a liquid flow, gas flow or particle flow.
A problem encountered in all nozzles is the possibility of a complete or at least partial clogging of the nozzle by deposits in the nozzle area or by coarse particles in the fluid flow. Moreover, the nozzle may wear out and gradually adversely affect the operativeness thereof.
In particular, in connection with painting plants, the use of varnish that is typically difficult to remove leads rather rapidly to a contamination of the optical sensory mechanism of conventional light barrier systems. Thus, especially when using mobile systems, such as painting robots, the components of the conventional optical sensory mechanism should be periodically cleaned, and re-adjusted, and a prophylactic replacement of the varnishing nozzle cannot be avoided.
SUMMARY OF THE INVENTION
It is thus an object of the present invention to provide an improved process of monitoring the effectiveness of a spray stream, obviating the afore-stated drawbacks.
In particular, it is an object of the present invention to provide an improved monitoring process that enables a qualitative evaluation of the effectiveness of a spray stream, while remaining unaffected by contamination.
It is still another object of the present invention to provide an improved monitoring process which is able to detect execution of a spray action and to determine the quality of the spray action, thereby allowing the user to replace and clean the nozzle or outlet unit in due course before the spray action deteriorates.
It is yet another object of the present invention to provide an improved arrangement for carrying out the monitoring process according to the present invention.
These objects, and others which will become apparent hereinafter, are attained in accordance with the present invention by determining a first signal commensurate with noise detected in proximity of the spray stream, determining a second signal commensurate with noise detected in an environment further distant to the spray stream, separating from the first and second signals a wanted signal, and analyzing the wanted signal for evaluation of the effectiveness of the spray stream.
Preferably, the determination of the noise level in close proximity of the spray stream and the noise level in the further distant area thereof is carried out by utilizing sensors, preferably two microphones. By utilizing microphones, the monitoring process according to the present invention is much less susceptible to contaminants or pollutants than optical sensors such as light barriers. The determination of both these noise levels results in an elimination especially of interfering signals as a consequence of loud ambient noise. Moreover, the application of acoustic sensory analysis results in a highly accurate determination of the effectiveness of a spray stream because slight variations of the nozzle function leads to a significant variation in frequency and amplitude of the determined sound waves. Application of acoustic sensory analysis also allows a monitoring of the spray pressure.
According to another feature of the present invention, one of the microphones that is positioned in vicinity of the spray stream exhibits a directional characteristic so as to determine useful and interfering signals, while the other one of the microphones, positioned slightly further distant to the spray stream, exhibits an omnidirectional characteristic to determine mainly any unwanted or interfering signal. Thus, a comparison of the determined sound levels enables a separation of the wanted signal which is substantially freed from the interfering signal.
Preferably, the noise levels may be digitized, and the wanted signal can be separated by a compensation circuit, whereby the noise levels measured by the microphones are transmitted separately to an analog-to-digital converter, and the outputted digitized signals are fed to the compensation circuit for determination of the wanted signal. Suitably, the compensation circuit includes e.g. a linear-phased finite impulse response filter (“FIR filter”). In the event, disturbing noise varies, it may be suitable to incorporate an iterative re-adjustment.
The analysis of the wanted signal may be executed e.g. by detecting the deviation of the signal from a desired value and triggering an alarm signal when a maximum deviation is surpassed. It is however preferred to compare the wanted signal with a reference signal and to indicate the degree of similarity with the reference signal. A “clean” spray stream without background noise may e.g. serve as reference, and the comparison of the wanted signal with this reference shows the deviation from the optimum as degree of similarity. This degree of similarity is an indication for the quality of the spray stream, whereby a surpassing of a limit value for the deviations in frequency or amplitude or generally from a preset pattern tells the operating personal the necessity for replacement of the nozzle. Preferably, the comparison between wanted signal and reference signal is carried out via a cross-correlation function whereby also indefinite values may be outputted to enable an information about the type of spray stream.
According to another feature of the present invention, the comparison between the wanted signal and the reference signal is carried out in a particular frequency spectrum which can be suited precisely to the task at hand and allows a reduced calculation performance to execute a comparison in the critical range. A substantial limitation of the frequency spectrum required for the comparison also reduces the probability of interfering signals from the ambient environment and affords the possibility to omit in certain applications the step of eliminating the interfering signal altogether.
The monitoring process according to the present invention may be advantageously employed in painting plants, especially those using varnish that is particularly difficult to remove, because contamination of an acoustic sensory mechanism will not result in a deterioration of the monitoring function so that the nozzle of the spray gun needs only be replaced when malfunctioning and there is no need to replace the nozzle for preventive purposes. Thus, the nozzle can be replaced in time when indicating a malfunction so that product waste, which otherwise would be experienced by a poor paint job, can be eliminated and the overall process can easily be monitored.
Another useful application of the monitoring process according to the present invention is in conjunction with controlling the emptying process of silo plants. As the noise at the discharge end of the silo corresponds to the amount of content exiting through the outlet, the quantity of the load being discharged and the residual amount remaining in the silo can be determined by the monitoring process according to the present invention, with consideration of the time during which noise is encountered.
REFERENCES:
patent: 4806931 (1989-02-01), Nelson
patent: 5175530 (1992-12-01), Eng
patent: 5322706 (1994-06-01), Merkel et al.
Chin Vivian
Day Ursula B.
Feierreisen Henry M.
Pendleton Brian T.
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