RU2001128211A

RU2001128211A - REDUCED CORIOLIS FLOW METER

Info

Publication number: RU2001128211A
Application number: RU2001128211/28A
Authority: RU
Inventors: Мэттью Т. КРИСФИЛД; Стивен Джэймс ДЖОНСТОН; Джон Ричард МакКАРТИ
Original assignee: Майкро Моушн, Инк.
Priority date: 1999-03-19
Filing date: 2000-03-15
Publication date: 2003-08-27

Claims

1. A Coriolis flowmeter (5) containing a pair of parallel-oriented flow tubes (103A-103B), where each of these flow tubes (103A-103B) is divided into many segments, including row segments (150-150 ') defining opposite end sections each of these flow tubes (103A-103B) of the flow meter, where these row segments have a longitudinal axis essentially parallel to the longitudinal axis of the pipeline and lying in the same plane with the specified pipeline, and bent segments (151-151 ') in each of these races one-dimensional tubes (103A-103B) that extend from the end (160-160 ') of said row segments (151-151') and define a bend that changes the orientation of the indicated longitudinal axis of each of the flow tubes from being in the first plane to being substantially perpendicular to this first plane, and a substantially U-shaped segment (152) extending between the bent segments (151-151 ′) at opposite ends of the flow tubes, where said substantially U-shaped segment (152) on each of the flow tubes bend of each one of the flow tubes that changes the indicated orientation of the longitudinal axis to a direction substantially parallel to the first plane to create a bridge between said bent segments; a first set of clamps (122-123) attached to each of the flow tubes (103A-103B) at points on said bent segments (151-151 '), wherein said longitudinal axis of said flow tubes passes at an angle of substantially forty-five degrees to the first plane; the first set of clamps (122-123) provides a separation of the frequencies between the types of oscillations in these flow tubes; and a second set of clamps (120-121) attached to said flow tubes (103A-103B) at points on said bent segments (151-151 ') at opposite ends of the flow tubes between said row segments and the first set of clamps, where the second set of clamps increases zero stability for each of the flow tubes.

2. The flow meter according to claim 1, further comprising an inlet pipe connected to the first row segments (150) of each flow tube (103A-103B) and receiving a stream from the pipeline, which divides this stream into two streams and directs each of these two streams to separate flowmeter (103A-103V) tube.

3. The flow meter according to claim 2, further comprising an inlet flange (101) attached to the inlet pipe (102) for connecting the inlet pipe to (102) by a pipeline.

4. The flow meter according to claim 2, further comprising an outlet pipe (102 ') connected to a second one of the row segments (150-150') of each of the flow tubes (103A-103B) and receiving said flows from these flow tubes, which combines these flows into the output stream and directs this output stream into the pipeline.

5. The flow meter according to claim 4, further comprising an outlet flange (101 ’) attached to the outlet (102’) for connecting the outlet (102 ’) to the pipeline.

6. The flow meter according to claim 1, further comprising nozzles (102-102 ’) attached to the opposite ends of the flow tubes (103A-103B); a spacer (200) attached to said nozzles (102-102 ’) and covering said row segments (150-150’) and said bent (151-151 ’) segments of each of the flow tubes; and at least one hole (210-211) in said spacer through which U-shaped segments (152) of each of the flow tubes protrude.

7. The flow meter according to claim 1, where these U-shaped segments (152) have a reduced flag size.

8. The flow meter according to claim 1, further comprising a first branch (153) and a second branch (154) of said U-shaped segment (150), extending outward from said bent segments (150) and having a longitudinal axis substantially oriented at an angle three degrees to the perpendicular to the indicated first plane.

9. The flow meter of claim 8, wherein said first plane extends perpendicular to the ground and said flow meter is self-draining.

10. The flow meter according to claim 1, further comprising a casing (300) covering the flow tubes (103A-103B).

11. The flow meter according to claim 1, where each of the flow tubes fluctuates along the entire length.

12. The flow meter according to claim 1, where the specified point at which the specified second (122-123) set of clamps is attached to the flow tubes is the point at which the longitudinal axis of these flow tubes is oriented at an angle in the range from seven and a half to twenty two and a half degrees to the indicated first plane.

13. The flow meter according to claim 1, further comprising a drive system (104) transmitting oscillations to said pair of flow tubes.

14. The flow meter according to claim 13, further comprising a first sensor (105) attached to said pair of flow tubes (103A-103B) on the inlet side of the drive system; and a second sensor (105 ’) attached to the indicated pair of flow tubes (103A-103B) at the outlet end of the drive system (104).

15. The flow meter according to claim 14, further comprising measuring electronic circuits (20), receiving signals representing the indicated oscillations of the flow tubes from the first sensor and the second sensor and determining the mass flow rate of the material through the specified flow meter.