Method of measuring and regulating the concentration of a fibre suspension and a device for carrying out the method
First Claim
1. A method of measuring and regulating the concentration of a fibre suspension, with aid of a blade (1) pivotally suspended in the suspension, said blade being caused to pivot such that its free of trailing edge (8) moves between two end positions (A-B) in the suspension to provide a predetermined angular stroke (α
- ), wherein the blade (1) pivots intermittently and with a constant force, at least in the measuring direction in the suspension, between both end positions (A and B) witha stroke exceeding 1 mm at the trailing edge (8) of the blade (1), time measurement being carried out when the trailing edge (8) moves through a 50-80% portion of the angular stroke (α
), said portion being situated at an equal distance from the upper end position (A) and lower end position (B) of the stroke (α
), said time having a value which is a parabolic function of the concentration and varying in response to the shear force resistance in the fibre suspension of the blade (1) during its angular stroke, and thus in response to the concentration of solid substances in the suspension.
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Accused Products
Abstract
The invention relates to a method and device for measuring and regulating the concentration, preferably of a fibre suspension, with the aid of a blade (1) pivotally suspended in the suspension. The blade (1) is caused to pivot such that its trailing end (8) moves between two end positions (A,B) in the suspension for providing a predetermined angular stroke (α). Time measurement is carried out when the trailing edge (8) of the blade (1) moves through its stroke from its upper end position (A) to its lower end position (B). The time obtained is a parabolic function of the concentration and varies in response to the shear force resistance in the fibre suspension of the blade (1) during its angular stroke, and thus in response to the concentration of solid substances in the suspension.
11 Citations
9 Claims
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1. A method of measuring and regulating the concentration of a fibre suspension, with aid of a blade (1) pivotally suspended in the suspension, said blade being caused to pivot such that its free of trailing edge (8) moves between two end positions (A-B) in the suspension to provide a predetermined angular stroke (α
- ), wherein the blade (1) pivots intermittently and with a constant force, at least in the measuring direction in the suspension, between both end positions (A and B) witha stroke exceeding 1 mm at the trailing edge (8) of the blade (1), time measurement being carried out when the trailing edge (8) moves through a 50-80% portion of the angular stroke (α
), said portion being situated at an equal distance from the upper end position (A) and lower end position (B) of the stroke (α
), said time having a value which is a parabolic function of the concentration and varying in response to the shear force resistance in the fibre suspension of the blade (1) during its angular stroke, and thus in response to the concentration of solid substances in the suspension. - View Dependent Claims (2, 3, 4)
- ), wherein the blade (1) pivots intermittently and with a constant force, at least in the measuring direction in the suspension, between both end positions (A and B) witha stroke exceeding 1 mm at the trailing edge (8) of the blade (1), time measurement being carried out when the trailing edge (8) moves through a 50-80% portion of the angular stroke (α
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5. A device for measuring the regulating concentration of a fibre suspension, comprising a blade (1) pivotally suspended in the suspension, means (3) for causing the blade (1) to pivot with the aid of a suspension shaft (6) about a bearing (4) pivotally suspending the blade, and also a time measurement means, wherein the means for causing the blade (1) to pivot comprises an electro-magnetic system (3) situated at the free end (12) of the suspension shaft (6) and arranged to pivot the blade (1) such that its free or trailing edge (8) moves with a frequency of 1.0-0.2 Hz between two end positions (A-B) in the fibre suspension to achieve an angular stroke (α
- ) of a predetermined distance, and wherein the time measurement means comprises an electronic amplifier unit which acts with the aid of an optical reading fork (5) fixed in the casing (13) of the measuring device, the fork including an IR light emitting diode (9) and detector (10), the gap (11) of the fork (5) accommodating a beam interrupter (7), attached to the free end (12) of the suspension shaft (6) and arranged to interrupt the light from the light emitting diode (9) when the end (12) pivots, to measure the time during a Predetermined portion of the angular stroke (α
) at the movement of the blade (1) from its upper end position (A) to its lower end Position (B), said time having a value corresponding to a parabolic function of the concentration and varying in response to the shear force resistance of the blade (10) in the fibre suspension during its angular stroke (α
) and thus in response to the concentration of solid substances in the suspension. - View Dependent Claims (6, 7, 8, 9)
- ) of a predetermined distance, and wherein the time measurement means comprises an electronic amplifier unit which acts with the aid of an optical reading fork (5) fixed in the casing (13) of the measuring device, the fork including an IR light emitting diode (9) and detector (10), the gap (11) of the fork (5) accommodating a beam interrupter (7), attached to the free end (12) of the suspension shaft (6) and arranged to interrupt the light from the light emitting diode (9) when the end (12) pivots, to measure the time during a Predetermined portion of the angular stroke (α
Specification
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- Resources
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Current AssigneeBTG Kalle Inventing AB
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Original AssigneeEur-Control Kalle AB
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InventorsLundberg, Peter
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Primary Examiner(s)Levy, Stewart J.
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Assistant Examiner(s)ROSKOS, JOSEPH
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Application NumberUS06/829,123Time in Patent Office587 DaysField of Search73/63, 73/54US Class Current73/53.03CPC Class CodesG01N 11/10 by moving a body within the...G01N 33/34 PaperG05D 11/138 by sensing the concentratio...
