Manually operated working tool
First Claim
1. A manually operated working tool such as an internal combustion operated setting tool for driving in fastening elements including one of nails, bolts, pins into a magnetizable substrate, having an inductive metal detector assembly (20) with at least one excitation coil arrangement (21) and evaluation means, wherein the inductive metal detector system (20) has a means for generating an alternating current for the excitation coil arrangement (21) having at least two consecutive frequencies fn from a starting frequency f0 to an end frequency fmax.
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Accused Products
Abstract
The present invention relates to a manually operated working tool such as an internal combustion operated setting tool for driving in fastening elements such as nails, bolts, pins into a magnetizable substrate, having an inductive metal detector assembly (20) with at least one excitation coil arrangement (21) and evaluation means. A means for generating an alternating current for the excitation coil arrangement (21) having at least two consecutive frequencies fn from a start frequency f0 to an end frequency fmax is provided on the inductive metal detector assembly (20).
20 Citations
11 Claims
- 1. A manually operated working tool such as an internal combustion operated setting tool for driving in fastening elements including one of nails, bolts, pins into a magnetizable substrate, having an inductive metal detector assembly (20) with at least one excitation coil arrangement (21) and evaluation means, wherein the inductive metal detector system (20) has a means for generating an alternating current for the excitation coil arrangement (21) having at least two consecutive frequencies fn from a starting frequency f0 to an end frequency fmax.
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9. A method for detecting a second magnetizable component (42) concealed behind a first magnetizable component (41) using an inductive metal detector assembly (20) on a manually operated working tool, wherein the inductive metal detector assembly (20) has at least one excitation arrangement (21), at least one evaluation coil arrangement (22) and evaluation means, including the following processing steps:
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a.) Initializing the inductive metal detector assembly (20);
b.) Setting the frequency fn, within a frequency range of f0 to fmax;
c.) Generating a magnetic field having the frequency fn at the excitation coil arrangement (21);
d.) Receiving a magnetic secondary field at the evaluation coil arrangement (22) for generating the secondary current;
e.) Frequency spectral evaluation of the secondary current from the evaluation coil arrangement (22) in the evaluation means;
f.) Intermediately storing the detected harmonic frequencies and amplitudes in the evaluation means;
g.) Repeating steps b.) to f.) so long as fmax is not reached;
h.) Filtering out all frequencies of harmonics that were generated by magnetization of the manually operated working tool and by the first magnetizable component (41) and using data stored in the evaluation means;
i.) Comparing the remaining frequency pattern of the harmonics with patterns stored in the assessment means of two magnetizable components;
j.) Passing the manually operated working tool into an operation—
ready mode, if a second magnetizable component (42) is detected by the inductive metal detector assembly (20) under the first magnetizable component (41);
- View Dependent Claims (10, 11)
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Specification