RU2010129445A

RU2010129445A - VIBRATION DEVICE FOR MEASURING FLOW PARAMETERS AND METHOD FOR MAKING A VIBRATION DEVICE FOR MEASURING FLOW PARAMETERS

Info

Publication number: RU2010129445A
Application number: RU2010129445/28A
Authority: RU
Inventors: Клинтон Р. ГРИФФИН (US); Клинтон Р. ГРИФФИН; Мишел МУР (US); Мишел МУР; Энтони Вильям ПАНКРАТЦ (US); Энтони Вильям ПАНКРАТЦ
Original assignee: Майкро Моунш, Инк. (Us); Майкро Моунш, Инк.
Priority date: 2007-12-19
Filing date: 2007-12-19
Publication date: 2012-01-27

Abstract

1. Вибрационное устройство (5) измерения параметров потока, содержащее: ! по меньшей мере, один трубопровод (103A, 103B), по меньшей мере, один привод (104), и, по меньшей мере, один датчик (105, 105'), причем, по меньшей мере, один привод (104) заставляет вибрировать, по меньшей мере, один трубопровод (103A, 103B) на одной или нескольких возбуждающих частотах и, по меньшей мере, один датчик (105, 105') измеряет смещение, по меньшей мере, одного трубопровода; и, ! по меньшей мере, один кожух (200), который окружает, по меньшей мере, один привод (104), по меньшей мере, один датчик (105, 105') и, по меньшей мере, участок, по меньшей мере, одного трубопровода (103A, 103B), причем, по меньшей мере, одна из колебательных мод кожуха (200) возбуждается на частотах, которые превышают одну или несколько возбуждающих частот. ! 2. Вибрационное устройство по п.1, в котором, по меньшей мере, один привод (104) заставляет вибрировать, по меньшей мере, один трубопровод (103A, 103B) на изгибной колебательной моде. ! 3. Вибрационное устройство по п.1, в котором, по меньшей мере, один кожух (200) имеет в целом U-форму. ! 4. Вибрационное устройство по п.1, в котором: ! одна или несколько возбуждающих частот заставляют вибрировать, по меньшей мере, один трубопровод (103A, 103B) на изгибной колебательной моде и, по меньшей мере, один кожух (200) имеет поперечную длину (L) вдоль направления, в целом параллельного направлению смещения для изгибной моды, и поперечную ширину (W) вдоль направления, в целом ортогонального направлению смещения для изгибной моды, причем размер поперечной длины (L) превышает размер поперечной ширины (W). ! 5. Вибрационное устройство по п.1, в котором элемент (400) жесткости прикреплен, по меньшей мере, к о� 1. A vibration device (5) for measuring flow parameters, comprising:! at least one conduit (103A, 103B), at least one actuator (104), and at least one sensor (105, 105 '), and at least one actuator (104) causes vibrations at least one pipeline (103A, 103B) at one or more exciting frequencies and at least one sensor (105, 105 ') measures the displacement of at least one pipeline; and,! at least one casing (200) that surrounds at least one actuator (104), at least one sensor (105, 105 ') and at least a portion of at least one pipeline ( 103A, 103B), wherein at least one of the vibrational modes of the casing (200) is excited at frequencies that exceed one or more exciting frequencies. ! 2. The vibration device according to claim 1, in which at least one actuator (104) causes at least one conduit (103A, 103B) to vibrate in a bending vibrational mode. ! 3. The vibration device according to claim 1, in which at least one casing (200) has a generally U-shape. ! 4. The vibration device according to claim 1, in which:! one or more exciting frequencies causes at least one conduit (103A, 103B) to vibrate in a bending vibrational mode and at least one casing (200) has a transverse length (L) along a direction generally parallel to the bias direction for bending modes, and the transverse width (W) along a direction generally orthogonal to the displacement direction for the bending mode, the transverse length (L) being larger than the transverse width (W). ! 5. The vibration device according to claim 1, in which the stiffening element (400) is attached at least to

Claims

1. A vibration device (5) for measuring flow parameters, comprising:

at least one conduit (103A, 103B), at least one actuator (104), and at least one sensor (105, 105 '), and at least one actuator (104) causes vibrations at least one pipeline (103A, 103B) at one or more exciting frequencies and at least one sensor (105, 105 ') measures the displacement of at least one pipeline; and,

at least one casing (200) that surrounds at least one actuator (104), at least one sensor (105, 105 ') and at least a portion of at least one pipeline ( 103A, 103B), wherein at least one of the vibrational modes of the casing (200) is excited at frequencies that exceed one or more exciting frequencies.

2. The vibration device according to claim 1, in which at least one actuator (104) causes at least one conduit (103A, 103B) to vibrate in a bending vibrational mode.

3. The vibration device according to claim 1, in which at least one casing (200) has a generally U-shape.

4. The vibration device according to claim 1, in which:

one or more exciting frequencies cause at least one conduit (103A, 103B) to vibrate in a bending vibrational mode and at least one casing (200) has a transverse length (L) along a direction generally parallel to the direction of displacement for the bending modes, and the transverse width (W) along a direction generally orthogonal to the displacement direction for the bending mode, the transverse length (L) being larger than the transverse width (W).

5. The vibration device according to claim 1, in which the stiffening element (400) is attached to at least one casing (200) to increase the stiffness of the casing (200).

6. The vibration device according to claim 1, wherein the vibration device (5) for measuring flow parameters is a Coriolis flowmeter.

7. The vibration device according to claim 1, wherein the vibration device (5) for measuring flow parameters is a densitometer.

8. A vibration device comprising:

at least one conduit (103A, 103B), at least one actuator (104) and at least one sensor (105, 105 '), and at least one actuator (104) causes vibrations, at least one pipeline (103A, 103B) at one or more exciting frequencies in a bending vibrational mode and at least one sensor (105, 105 ') measures the displacement of at least one pipeline (103A, 103B);

at least one casing (200) that surrounds at least a portion of at least one conduit (103A, 103B), wherein at least one of the vibrational modes of the casing (200) is excited at frequencies that exceed one or more exciting frequencies; and,

at least one casing (200) has a transverse length (L) along a direction generally parallel to the displacement direction for the bending mode, and a transverse width (W) along the direction generally orthogonal to the displacement direction for the bending mode, and the size of the transverse length ( L) exceeds the size of the transverse width (W).

9. The vibration device of claim 8, in which at least one casing (200) has a generally U-shape.

10. The vibration device of claim 8, wherein the vibration device (5) for measuring flow parameters is a Coriolis flowmeter.

11. The vibration device of claim 8, wherein the vibration device (5) for measuring flow parameters is a densitometer.

12. A method of manufacturing a vibration device (5) for measuring flow parameters, comprising the steps of:

provide at least one pipe (103A, 103B), at least one actuator (104), and at least one sensor (105, 105 '), and at least one actuator (104) configured to vibrate at least one conduit (103A, 103B) at one or more exciting frequencies and at least one transducer (105, 105 ') is configured to measure the displacement of at least one conduit ( 103A, 103B);

provide at least one casing (200), which is configured to cover at least a portion of at least one pipeline (103A, 103B), and the casing (200) is configured so that at least , one of the vibrational modes of the casing (200) was excited at frequencies that exceed one or more exciting frequencies.

13. The method according to item 12, in which at least one actuator (104) is configured to vibrate at least one conduit (103A, 103B) in a bending vibrational mode.

14. The method according to item 12, in which at least one casing (200) has a generally U-shape.

15. The method according to item 12, in which:

at least one actuator (104) is configured to vibrate at least one conduit (103A, 103B) on a flexural vibrational mode and at least one casing (200) is provided with a transverse length (L) along a direction generally parallel to the displacement direction for the bending mode and a transverse width (W) along a direction generally orthogonal to the displacement direction for the bending mode, and the transverse length (L) exceeds the transverse width (W).

16. The method according to item 12, in which the stiffener (400) is attached to at least one casing (200) to increase the stiffness of the at least one casing (200).

17. The method according to item 12, in which the vibration device (5) for measuring flow parameters is a Coriolis flowmeter.

18. The method according to item 12, in which the vibration device (5) for measuring flow parameters is a densitometer.