Coriolis-type mass flow sensor
First Claim
1. A sensor of a mass flow meter through which a fluid flows working on the Coriolis principle, the sensor comprisingfirst and second parallel measuring tubes each having a circular cross-section and each forming an arc segment of a circle having a chord length L,first and second flanges, the first and second parallel measuring tubes extending between the first and second flanges,means for exciting the first and second parallel measuring tubes into opposite sympathetic vibrations perpendicular to the respective circular-arc segment,means for sensing the vibrations of the first and second parallel measuring tubes at least two points spaced along the first and second parallel measuring tubes,each of the tubes having a wall thickness w chosen for maximum permissible pressure of the fluid flowing through the tubes,each of the tubes having a stress value σ
-
T due to a maximum permissible temperature change δ
T of the fluid which is chosen to be less than a σ
0.2 -value of the material forming the tubes,each of the tubes having an internal diameter D determined as a function of the maximum permissible pressure loss Hv in the tubes with the chord length L, and the circular-arc segment formed by each tube having a height hmin which is a minimum height for the circular-arc segment determined as a function of the chosen wall thickness w, the chosen stress value σ
T, and the determined internal diameter D.
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Accused Products
Abstract
This mass flow sensor, which can be mounted by means of end parts, in particular flanges, in a conduit of a given diameter through which flows a fluid to be measured, has two parallel, circular-arc-segment-shaped measuring tubes which are fixed at their ends in respective flanges. The measuring tubes have the same inner diameter D and the same wall thickness w. The circular-arc segment has a height h, an arc radius R, and a chord length L. The inner diameter D is chosen as a function of the maximum permissible pressure loss in the measuring tubes, and the wall thickness w as a function of the maximum permissible pressure of the fluid. The stress σT resulting from a maximum permissible temperature change δT of the fluid is chosen to be less than the σ0.2 -value of the material of the measuring tubes. Under these conditions and for a given arc radius R, the segment height h is chosen as small as possible to become hmin. An external support tube is provided whose ends are fixed to the respective end parts. Means are provided for exciting the measuring tubes into opposite sympathetic vibrations perpendicular to the respective circular-arc plane, and means for sensing, at at least two points spaced along the measuring tubes, the vibrations of the measuring tubes.
69 Citations
9 Claims
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1. A sensor of a mass flow meter through which a fluid flows working on the Coriolis principle, the sensor comprising
first and second parallel measuring tubes each having a circular cross-section and each forming an arc segment of a circle having a chord length L, first and second flanges, the first and second parallel measuring tubes extending between the first and second flanges, means for exciting the first and second parallel measuring tubes into opposite sympathetic vibrations perpendicular to the respective circular-arc segment, means for sensing the vibrations of the first and second parallel measuring tubes at least two points spaced along the first and second parallel measuring tubes, each of the tubes having a wall thickness w chosen for maximum permissible pressure of the fluid flowing through the tubes, each of the tubes having a stress value σ -
T due to a maximum permissible temperature change δ
T of the fluid which is chosen to be less than a σ
0.2 -value of the material forming the tubes,each of the tubes having an internal diameter D determined as a function of the maximum permissible pressure loss Hv in the tubes with the chord length L, and the circular-arc segment formed by each tube having a height hmin which is a minimum height for the circular-arc segment determined as a function of the chosen wall thickness w, the chosen stress value σ
T, and the determined internal diameter D. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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T due to a maximum permissible temperature change δ
Specification