This application is a National Phase Entry under 35 USC §371 of PCT Patent Application Serial No. PCT/FI2015/050758 filed Nov. 4, 2015, which claims priority to Finnish Patent Application No. 20145972, filed Nov. 6, 2014, the disclosure of each of these applications is expressly incorporated herein by reference in their entirety.
The present invention relates to a hydrofoil impeller for producing fluid flow in axial direction relative to a shaft rotating around its central axis in an agitated tank.
In prior art, e.g. document JP 2005087876 discloses a hydrofoil impeller or producing fluid flow in axial direction relative to a shaft rotating around its central axis in an agitated tank. The impeller comprises a central hub which is connected to the shaft. The central hub is in the form of a flat plate with a uniform thickness and being perpendicular to the central axis. The central hub has three groups of first bolt holes arranged to form a pattern. Three equally-spaced blades extend radially outwardly from the central hub. Each blade has a root portion. The blade is in a form of a flat plate with a uniform thickness. The root portion has a group of second bolt holes arranged in a corresponding pattern in relation to the pattern of the first bolt holes, so that the group of second bolt holes can be aligned with the group of first bolt holes and bolts can be placed through the first and second bolt holes to form bolted joints. Each blade further comprises a straight leading edge, a trailing edge and a tip edge.
The applicant of the present application has previously designed a blade of an axial flow impeller and an axial flow impeller, disclosed in WO 2013/124539 A1, the design and dimensioning of the blade having excellent characteristics in terms of flow pattern, low energy consumption, high pumping capacity, strong axial flow with a small power consumption and low shear, high pumping efficiency, scalability and low fabrication costs. However, the presented blade design is suitable for blades which are connected to the central hub by welding. Now, there has existed a need to develop a blade and an impeller which can be constructed without any welding, so that such a structure can provide for lower manufacturing costs and enhanced fatigue strength. Therefore, the attachment of the blades to the central hub by bolted joints is a desirable approach. However, the bolted joints need redesigning of the central hub, the pattern of the bolted joint attachment and the form of the blade so that an equally good performance can be achieved compared to the impeller and blade design presented in WO 2013/124539 A1.
The objective of the invention is to provide an impeller having excellent performance characteristics, low fabrication costs and a long fatigue life.
According to an aspect, the present invention provides a hydrofoil impeller for producing fluid flow in axial direction relative to a shaft rotating around its central axis in an agitated tank. The impeller comprises a central hub which is connected to the shaft. The central hub is in the form of a flat plate with a uniform thickness and the hub is perpendicular to the central axis. The central hub having three groups of first bolt holes arranged to form a pattern. The impeller further comprises three equally-spaced blades extending radially outwardly from the central hub. Each blade has a root portion. The blade is in a form of a flat plate with a uniform thickness. The root portion has a group of second bolt holes arranged in a corresponding pattern in relation to the pattern of the first bolt holes, so that the group of second bolt holes can be aligned with the group of first bolt holes and bolts can be placed through the first and second bolt holes to form bolted joints. Each blade comprises a straight leading edge, a trailing edge and a tip edge.
According to the invention the tip edge is straight and has a right angle with a radius extending from the central axis to the tip edge. The number of holes in each group of first and second holes is at least five, preferably eight. The pattern in which the first holes and second holes are arranged in each of the respective groups of holes is in a form of an ellipse having a center and a major axis which is substantially parallel to the radius and placed at a distance therefrom. The leading edge is, in the direction to rotation, behind an imaginary radial line intersecting the central axis of the shaft and the center of the ellipse. The leading edge is at an angle of 58°±2° in relation to said radial line. The trailing edge has two straight edge portions which are at an angle of 150°±5° to each other. The tip of said angle is located approximately in the middle of the length of the trailing edge. The tip is rounded. The area of the blade is divided into four planar portions by three straight bends. A first bend extends along the blade in a direction which is at an angle of 16°±2° in relation to the radius and, in the direction of rotation, forwards of the radius. The first bend divides the blade to said root portion and a first profile portion. The root portion and the first profile portion meet at the first bend such that that the first profile portion is angled at an angle of 16°±2° downwardly from the root portion. A second bend extends along the blade in a direction which is at an angle of 12°±2° in relation to the radius and, in the direction of rotation, backwards from the radius. The second bend divides the blade further to a second profile portion. The first profile portion and the second profile portion meet at the second bend such that that the second profile portion is angled at an angle of 10°±2° downwardly from the first profile portion. A third bend extends along the blade in a direction which is at an angle of 21°±2° in relation to the radius and, in the direction of rotation, backwards from the radius. The third bend divides the blade further to a third profile portion. The second profile portion and the third profile portion meet at the third bend such that that the third profile portion is angled at an angle of 8°±1° downwardly from the second profile portion.
The advantage of the impeller is that it is able to provide all performance benefits as the prior art impeller disclosed in WO 2013/124539 A1 with lower manufacturing costs and higher fatigue life.
In one embodiment of the hydrofoil impeller, the central hub is in the form of a triangular plate with rounded corners. Each corner has one group of first holes.
In one embodiment of the hydrofoil impeller, the length of the blade is 0.85×R±0.1×R, wherein R is the length of the radius from the central axis to the tip edge.
In one embodiment of the hydrofoil impeller, the corner between the leading edge and the tip edge is rounded with a radius of 0.125×R±0.02×R, wherein R is the length of the radius from the central axis to the tip edge.
In one embodiment of the hydrofoil impeller, the corner between the trailing edge and the tip edge is rounded with a radius of 0.125×R±0.02×R, wherein R is the length of the radius from the central axis to the tip edge.
In one embodiment of the hydrofoil impeller, the thickness of the blade is 0.02×R±0.01×R wherein R is the length of the radius from the central axis to the tip edge.
The accompanying drawings, which are included to provide a further understanding of the invention and constitute a part of this specification, illustrate embodiments of the invention and together with the description help to explain the principles of the invention. In the drawings:
In
Referring to
As can be seen from
Referring to
The elliptical pattern of the bolt holes 5 an 8 and bolts 9 has a center 13. The major axis 14 of the ellipse is substantially parallel to the radius r. The major axis 14 of the ellipse is placed at a distance d from the radius r.
The leading edge 10 of the blade 6 is, in the direction to rotation, behind an imaginary radial line T intersecting the central axis x of the shaft 2 and the center 13 of the ellipse. The leading edge 10 is at an angle α of 58°±2° in relation to the radial line. The leading edge 10 is also at an angle δ of 18°±2° in relation to the radius r which extends from the central axis x to the tip edge 12.
The trailing edge 11 of the blade 6 has two straight edge portions 15 and 16 which are at an angle β of 150°±5° to each other. The tip of said angle β is located approximately in the middle of the length of the trailing edge 11. The tip of the angle is rounded.
Reference is made to
The area of the blade 6 is divided into four planar portions 7, 17, 18, 19 by three straight bends 20, 21, 22.
A first bend 20 extends along the blade 6 in a direction which is at an angle γ of 16°±2° in relation to the radius r and, in the direction of rotation, forwards of the radius r. The first bend 20 divides the blade 6 to the root portion 7 and a first profile portion 17. The root portion 7 and the first profile portion 17 meet at the first bend 20 such that the first profile portion 17 is angled at an angle of 16°±2° downwardly from the root portion 7
A second bend 21 extends along the blade 6 in a direction which is at an angle σ of 12°±2° in relation to the radius r and, in the direction of rotation, backwards from the radius r. The second bend 21 divides the blade 6 further to a second profile portion 18. The first profile portion 17 and the second profile portion 18 meet at the second bend 21 such that that the second profile portion is angled at an angle of 10°±2° downwardly from the first profile portion 17.
A third bend 22 extends along the blade 6 in a direction which is at an angle θ of 21°±2° in relation to the radius r and, in the direction of rotation, backwards from the radius r. The third bend 22 divides the blade 6 further to a third profile portion 19. The second profile portion 18 and the third profile portion 19 meet at the third bend 22 such that that the third profile portion 19 is angled at an angle of 8°±1° downwardly from the second profile portion 18.
Referring to
While the present invention has been described in connection with an exemplary embodiment, and implementations, the present invention is not so limited, but rather covers various modifications, and equivalent arrangements, which fall within the purview of prospective claims.
Number | Date | Country | Kind |
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20145972 | Nov 2014 | FI | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/FI2015/050758 | 11/4/2015 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2016/071568 | 5/12/2016 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4191506 | Packham | Mar 1980 | A |
5046245 | Weetman | Sep 1991 | A |
5326226 | Wyczalkowski | Jul 1994 | A |
5988604 | McWhirter | Nov 1999 | A |
6250797 | Weetman | Jun 2001 | B1 |
8220986 | Janz | Jul 2012 | B2 |
9138698 | Lilja | Sep 2015 | B2 |
D746883 | Strommer | Jan 2016 | S |
9334874 | Xia | May 2016 | B2 |
D766658 | Strommer | Sep 2016 | S |
D767332 | Strommer | Sep 2016 | S |
Number | Date | Country |
---|---|---|
202078873 | Dec 2011 | CN |
1600744 | Jul 1970 | FR |
1600744 | Jul 1970 | FR |
2005087876 | Apr 2005 | JP |
100996426 | Nov 2010 | KR |
WO 0020109 | Apr 2000 | WO |
WO 2013124539 | Aug 2013 | WO |
Entry |
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International Search Report issued by the European Patent Office acting as the International Searching Authority in relation to International Patent Application No. PCT/FI2015/050758 dated Mar. 8, 2016 (4 pages). |
Written Opinion of the International Searching Authority issued by the European Patent Office in relation to PCT/FI2015/050758 dated Mar. 8, 2016 (7 pages). |
Finnish Search Report issued by the Finnish Patent and Registration Office in relation to Finnish Patent Application No. 20145972 dated May 21, 2015 (2 pages). |
Number | Date | Country | |
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20170306983 A1 | Oct 2017 | US |