Positive displacement four lobe impeller structure
First Claim
1. A self-priming positive displacement two impeller pump, comprising:
- a symmetrical generally elliptical cross-section cylindrical impeller housing having at opposite sides at least 180°
arc cross-section interior walls separated by a relatively low pressure fluid inlet space coupled to a fluid entrance on the inlet side and a relatively high pressure fluid outlet space coupled to a fluid exit on the opposite exit side;
two axially parallel counter-rotating synchronously rotated cylindrical axially symmetric four lobe impellers, each impeller having a cross-section comprising four interior concave slightly elipsoid arc side walls disposed 90°
apart and each elipsoid side wall forming half the base of two adjacent lobes of the four lobes, the interior arc lobe side wall connecting at an inflexion line to a convex arc cross-section tip having an arc radius equal to the impeller radius;
each impeller is 45°
out of rotational phase with the other impeller and each impeller is coaxial with the axis of the at least 180°
arc cross-section adjoining interior wall, has a radius incrementally less than the radius of the adjoining interior wall, such that adjacent lobes of each impeller during rotation define between themselves and the housing arc interior wall spaces which carry fluid from the fluid inlet area to the fluid outlet area, the impellers being selectively disposed apart such that the tips of each impeller fail by only an increment to touch the interior concave arc sidewall of the opposite impeller, thereby minimizing the fluid return space between the tips of each impeller and the interior concave side walls of the opposite impeller, the tips being sufficiently wide so that the exit side tip corner is maintained very close to the adjoining slightly elipsoid arc side wall during substantially all the first half of the passage past the slightly elipsoid arc side wall while the inlet side tip corner is disposed a relatively great, but decreasing distance from the slightly elipsoid arc side wall, said distance being a function of the volume of fluid trapped in the fluid return space adjacent the slightly elipsoid arc side wall, and during substantially all of the second half of the passage the inlet side tip corner remains relatively close to the slightly elipsoid arc side wall while the exit side tip corner gradually increases its distance from the slightly elipsoid arc side wall, said distance being a function of the amount of fluid trapped in the fluid return space adjacent the slightly elipsoid arc side wall;
drive means coupled to axial shafts of the two impellers to rotate the two impellers in opposite directions;
bearings coupled to the axial shafts to reduce friction;
timing gear means coupled between the drive means and the axial shaft of the two impellers to maintain the two impellers 45°
out of rotational phase with each other;
wherein each tip includes a fluid flow spoiler to increase fluid turbulence which reduces back flow by increasing sealing properties between the tip and the at least 180°
arc cross-section adjoining interior wall; and
wherein the spoiler has a semi-circle concave cross-section and a diameter one-third the length of the arc which forms the tip, and the spoiler is centered at the center of the tip.
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Abstract
A positive displacement four-lobe impeller structure for use as a fluid driving or a fluid driven member or pump or generator is presented. The terminology pump is used to describe said structure subsequently. The pump comprises a symmetrical cylindrical housing having two 190° arc cross-section interior walls separated by an inlet area and an outlet area. Inside the housing and disposed a selected distance apart therein are two cylindrical axially symmetric identical impellers. Each impeller comprises four interior concave arc sidewalls disposed 90° apart and forming the base of four lobes. The concave arc side walls flow into and couple to exterior convex arc sidewalls which in turn flow into and connect to dual slightly extended tips. Each of said tips is separated from the opposite tip on the end of the lobe by an arc tip indentation. Each impeller is coaxial with the 190° arc cross-section interior wall of the housing adjacent to it and has a radius very slightly less than the radius of the 190° arc, so that the tips of the impellers come very close to the interior side walls, but do not touch them. The housing is of sufficient size so that the impellers are placed just far enough apart so that the tips of each impeller fail by a small distance to touch the adjacent interior concave arc side wall of the opposing impeller during rotation.
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Citations
3 Claims
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1. A self-priming positive displacement two impeller pump, comprising:
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a symmetrical generally elliptical cross-section cylindrical impeller housing having at opposite sides at least 180°
arc cross-section interior walls separated by a relatively low pressure fluid inlet space coupled to a fluid entrance on the inlet side and a relatively high pressure fluid outlet space coupled to a fluid exit on the opposite exit side;two axially parallel counter-rotating synchronously rotated cylindrical axially symmetric four lobe impellers, each impeller having a cross-section comprising four interior concave slightly elipsoid arc side walls disposed 90°
apart and each elipsoid side wall forming half the base of two adjacent lobes of the four lobes, the interior arc lobe side wall connecting at an inflexion line to a convex arc cross-section tip having an arc radius equal to the impeller radius;each impeller is 45°
out of rotational phase with the other impeller and each impeller is coaxial with the axis of the at least 180°
arc cross-section adjoining interior wall, has a radius incrementally less than the radius of the adjoining interior wall, such that adjacent lobes of each impeller during rotation define between themselves and the housing arc interior wall spaces which carry fluid from the fluid inlet area to the fluid outlet area, the impellers being selectively disposed apart such that the tips of each impeller fail by only an increment to touch the interior concave arc sidewall of the opposite impeller, thereby minimizing the fluid return space between the tips of each impeller and the interior concave side walls of the opposite impeller, the tips being sufficiently wide so that the exit side tip corner is maintained very close to the adjoining slightly elipsoid arc side wall during substantially all the first half of the passage past the slightly elipsoid arc side wall while the inlet side tip corner is disposed a relatively great, but decreasing distance from the slightly elipsoid arc side wall, said distance being a function of the volume of fluid trapped in the fluid return space adjacent the slightly elipsoid arc side wall, and during substantially all of the second half of the passage the inlet side tip corner remains relatively close to the slightly elipsoid arc side wall while the exit side tip corner gradually increases its distance from the slightly elipsoid arc side wall, said distance being a function of the amount of fluid trapped in the fluid return space adjacent the slightly elipsoid arc side wall;drive means coupled to axial shafts of the two impellers to rotate the two impellers in opposite directions; bearings coupled to the axial shafts to reduce friction; timing gear means coupled between the drive means and the axial shaft of the two impellers to maintain the two impellers 45°
out of rotational phase with each other;wherein each tip includes a fluid flow spoiler to increase fluid turbulence which reduces back flow by increasing sealing properties between the tip and the at least 180°
arc cross-section adjoining interior wall; andwherein the spoiler has a semi-circle concave cross-section and a diameter one-third the length of the arc which forms the tip, and the spoiler is centered at the center of the tip. - View Dependent Claims (2, 3)
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Specification