USRE36411EExpiredUtility
Weighing apparatus with means for correcting effects of vibrations
Est. expiryDec 1, 2009(expired)· nominal 20-yr term from priority
G01G 3/147G01G 3/1414G01G 23/10
35
PatentIndex Score
6
Cited by
14
References
1
Claims
Abstract
A weighing apparatus has a scale cell and a dummy cell, both similarly structured and cantilevered. A load to be measured is applied to the free end of the scale cell and a standard weight is attached to the free end of the dummy cell. Analog electrical signals from these cells are converted to digital data. The effect of the standard weight is removed from the digital data from the dummy cell to obtain the effect of external vibrations which effect is multiplied by a suitable coefficient dependent on the applied load and subtracted from the digital data from the scale cell.
Claims
exact text as granted — not AI-modifiedWhat is claimed is: .[.1. A weighing apparatus comprising
said first filter means and an output from said multiplier means..]..[.2. The weighing apparatus of claim 1 wherein said coefficient is proportional
to said weight..].3. A weighing apparatus comprising a base, a weight-measuring load cell having one end thereof secured to said base and the other end thereof supporting a load-carrying table, a dummy load cell having one end thereof secured to said base, a standard weight being attached to the other end of said dummy cell, signal multiplexing means for alternately outputting signals from said weight-measuring load cell and said dummy load cell at a multiplexing .[.frequency.]. .Iadd.period .Iaddend.which is shorter than .Iadd.periods of .Iaddend.external .[.vibration frequencies.]..Iadd.vibrations.Iaddend., analog-to-digital converter means for converting signals outputted from said signal multiplexing means to digital data, filtering means for filtering digital data from said analog-to-digital converter means at said multiplexing frequency, multiplier means for multiplying a coefficient to data outputted from said filter means when said signal multiplexing means is outputting a signal from said dummy load cell, said coefficient being dependent on the weight of an object being weighed by said weighing apparatus, and subtractor means for outputting the difference between data outputted from said filter means when said signal multiplexing means is outputting a signal from said weight-measuring load cell and data from said multiplier
means. 4. The weighing apparatus of claim 3 wherein said coefficient is
proportional to said weight. 5. A weighing apparatus comprising a base, a weight-measuring load cell having one end thereof secured to said base and the other end thereof supporting a load-carrying table, a dummy load cell having one end thereof secured to said base, a standard weight being attached to the other end of said dummy cell, signal multiplexing means for alternately outputting signals from said weight-measuring load cell and said dummy load cell at a multiplexing .[.frequency.]. .Iadd.period .Iaddend.which is shorter than .Iadd.periods of .Iaddend.external .[.vibration frequencies.]. .Iadd.vibrations.Iaddend., a common preamplifier means for receiving outputs from said signal multiplexing means, analog-to-digital converter means for converting outputs from said preamplifier means to digital data, filter means for filtering digital signals from said analog-to-digital converter means at said multiplexing frequency, multiplier means for multiplying a coefficient to data outputted from said filter means when said signal multiplexing means is outputting a signal from said dummy load cell, said coefficient being dependent on the weight of an object being weighed by said weighing apparatus, and subtractor means for outputting the difference between data outputted from said filter means when said signal multiplexing means is outputting a signal from said weight-measuring load cell and data from said multiplier
means. 6. The weighing apparatus of claim 5 wherein said coefficient is proportional to said weight.Cited by (0)
No later patents cite this yet.
References (0)
No backward citations on record.