RU2016103240A

RU2016103240A - SUPPRESSION DEVICE FOR VERTICAL PUMP, VERTICAL PUMP AND METHOD FOR MODERNIZING A VERTICAL PUMP

Info

Publication number: RU2016103240A
Application number: RU2016103240A
Authority: RU
Inventors: Колин ГЭБХЭРТ
Original assignee: Зульцер Мэнэджмент Аг
Priority date: 2015-02-18
Filing date: 2016-02-02
Publication date: 2017-08-03
Also published as: CN105889135A; CA2917855A1; RU2016103240A3; US20160238036A1; EP3059448A1

Claims

1. A suppression device designed to bias the natural frequency of vibrations of the vertical pump design, said pump (1) comprising a pumping device (2) with an inlet element (21) and an impeller (22) designed to move the fluid, an exhaust device (4 ) with a fluid outlet element (41), a drive device (5) designed to provide impeller rotation (22), a tubular column (3) extending in the axial direction (A) and having at least one element (31 ) columns with axial length (C), while the tubular column (3) connects the pumping device (2) to the exhaust device (4), as well as the transmission shaft (6) passing inside the tubular column (3) and functionally connecting the drive device (5) to the pumping device device (2), while the suppression device (10) is designed and adapted to fit snugly around the entire circumferential periphery of the column element (31), and has a length (L) in the axial direction (A), which is at least half the axial length (C) of the column element (31), and soda rzhit at least one rib (11) extending substantially in a radial direction perpendicular to the axial direction (A).

2. The suppression device according to claim 1, in which the length (L) in the axial direction (A) is equal to the axial length (C) of the column element (31), around which the suppression device (10) is installed in the assembled state.

3. A suppression device according to any one of the preceding paragraphs, comprising a plurality of stiffening elements (12), curved in a circumferential direction and configured to connect to each other, and complement each other when assembled to a tubular structure to provide a snug fit around circumferential periphery of the column element (31).

4. The suppression device according to claim 3, in which each stiffening element (12) has two lateral ribs (11) extending in the radial direction, while each rib (11) forms the end of the stiffening element (12), relative to the direction along the circle.

5. The suppression device according to claim 4, containing four stiffening elements (12), each of which has a middle part (121) with a cross section with a quadrant shape, while the middle part (121) passes between two side ribs (11) .

6. The suppression device according to claim 4 or claim 5, in which each side rib (11) is made with a plurality of holes (111) for receiving fastening means for rigidly connecting adjacent elements (12) that give rigidity.

7. The suppression device according to claim 4 or claim 5, in which at least one stiffening element (12) has an intermediate rib (15) extending in the radial direction and located between two side ribs (11).

8. The suppression device according to claim 6, in which at least one stiffening element (12) has an intermediate rib (15) extending in the radial direction and located between two side ribs (11).

9. A vertical pump for moving fluid containing a pumping device (2) with an inlet element (21) and an impeller (22) designed to move the fluid, an outlet device (4) with an outlet element (41) for a fluid, a drive device (5) designed to ensure the rotation of the impeller (22), the tubular column (3) extending in the axial direction (A) and having at least one element (31) of the column with an axial length (C), while the tubular column (3) connects the pumping device (2) to the exhaust device a twom (4), as well as a transmission shaft (6) passing inside the tubular column (3) and functionally connecting the drive device (5) with a pumping device (2), characterized in that at least one element (31) of the column , which is a tubular column (3), is equipped with a suppression device (10) made with the structure according to any one of the preceding paragraphs, while the suppression device (10) is installed in a tight fit around the entire peripheral periphery of the column element (31) and has a length (L ) in the axial direction (A), which I is at least half the axial length (C) of the element (31) of the column.

10. The vertical pump according to claim 9, in which the suppression device (10) is attached to the element (31) of the column with the possibility of removal.

11. The vertical pump according to claim 9 or claim 10, in which the length (L) of the suppression device in the axial direction (A) is equal to the axial length (C) of the column element (31).

12. The vertical pump according to claim 9, in which the tubular column (3) comprises a plurality of column elements (31), at least two column elements (31) provided with a corresponding suppression device (10).

13. The vertical pump according to claim 11, in which the tubular column (3) contains many elements (31) of the column, while at least two elements (31) of the column are equipped with a corresponding suppression device (10).

14. The method of modernization of a vertical pump containing a pumping device (2) with an inlet element (21) and an impeller (22) designed to move the fluid, an outlet device (4) with an outlet element (41) for a fluid medium, a drive device (5 ), designed to provide rotation of the impeller (22), a tubular column (3) extending in the axial direction (A) and having at least one element (31) of the column with an axial length (L), while the tubular column (3 ) connects the pumping device (2) to the exhaust device (4) as well as a transmission shaft (6) passing inside the tubular column (3) and functionally connecting the drive device (5) to the pumping device (2), this method includes the steps of:

- provide a suppression device (10), designed to offset the natural frequency of oscillations of the vertical pump design, while the specified suppression device (10) is made with the structure according to any one of claims 1 to 7;

- choose at least one of the elements (31) of the column;

- install the suppression device (10) on the column element (31) with a tight fit around the entire peripheral periphery of the column element (31).

15. The method according to 14, in which the suppression device (10) is performed with a length (L) in the axial direction (A) equal to the axial lengths (C) of the column element (31).

16. The method according to 14 or 15, in which the suppression device (10) comprises a plurality of stiffening elements (12), preferably four stiffening elements (12), wherein the stiffening elements (12) are around the element (31) of the column and attached to each other to ensure a tight fit around the entire peripheral periphery of the element (31) of the column.

17. The method according to 14 or 15, in which a plurality of column elements (31) are selected and each of the selected column elements (31) is provided with a separate suppression device (10).

18. The method according to clause 16, in which a plurality of column elements (31) are selected and each of the selected column elements (31) is provided with a separate suppression device (10).