Designs for multiple segment lobe pumps are shown. The designs include pumps using rotors having two lobes to a plurality of lobes and segments that include two segments to a plurality of segments. Designs for both vertical or straight walled conventional lobed rotors as well as helical lobe rotors
Designs for multiple segment lobe pumps are shown. The designs include pumps using rotors having two lobes to a plurality of lobes and segments that include two segments to a plurality of segments. Designs for both vertical or straight walled conventional lobed rotors as well as helical lobe rotors are shown. The designs are applicable to a variety of rotors and number of segments. In one particular case the designs enable a three lobe helical pump.
대표청구항▼
1. A lobe pump comprising: a) a housing having an inlet and an outlet and walls,b) a first shaft and a second shaft, the shafts being elongated cylinders, the first shaft extending beyond a wall of the housing such that it is rotated by a motor, the shafts fixed within the housing such that their lo
1. A lobe pump comprising: a) a housing having an inlet and an outlet and walls,b) a first shaft and a second shaft, the shafts being elongated cylinders, the first shaft extending beyond a wall of the housing such that it is rotated by a motor, the shafts fixed within the housing such that their long axes are parallel, the shafts coupled through use of timing gears affixed to a first end of each shaft such that rotation of the first shaft by the motor causes the second shaft to rotate,c) a plurality of segments, each segment comprising: i) a first lobe rotor having a center, a top surface, a bottom surface, sidewalls and a plurality of lobes symmetrically extending from the center, the lobes extended at a lobe separation angle from one another, the first lobe rotor fixedly attached to the first shaft through the center of the first lobe rotor such that rotation of the first shaft causes the first lobe rotor to rotate,ii) a second lobe rotor having a center, a top surface, a bottom surface, sidewalls and a plurality of lobes symmetrically extending from the center, the lobes extended at a lobe separation angle from one another, wherein the first lobe rotor and the second lobe rotor have the same number of lobes and lobe angles, the second lobe rotor fixedly attached to the second shaft through the center of the second lobe rotor such that the rotation of the second shaft causes the second lobe rotor to rotate,iii) separation plates positioned above and below the first lobe rotor and the second lobe rotor adjacent to the top and bottom surfaces of the first lobe rotor and the second lobe rotor, said separation plates acting to physically isolate the segments from one another,iv) the shafts and the first lobe rotor and the second lobe rotor positioned such that the simultaneous rotation of the first lobe rotor and the second lobe rotor results in meshing of the first lobe rotor and the second lobe rotor thereby causes a pumping action wherein a fluid enters a central portion of each of the first lobe rotor and the second lobe rotor at the inlet of the housing, passes through a pump chamber isolation region, and the fluid is displaced from each of the first lobe rotor and the second lobe rotor at the outlet by the second lobe rotor and the first lobe rotor respectively,v) wherein there is a separate pump chamber isolation region for each of the first lobe rotor and the second lobe rotor defined as a volume of space within the housing and delineated by a wall of the housing and the lobe rotor, the pump chamber isolation region having a pump chamber isolation region arc,d) wherein in the plurality of segments, the first lobe rotors attached to the same shaft and in adjacent segments are aligned to be rotationally displaced from one another by an index angle, and the second lobe rotors attached to the same shaft and in adjacent segments are aligned to be rotationally displaced from one another by the index angle, and,e) the pump chamber isolation region arc is equal to the lobe separation angle, and,f) the index angle is equal to the lobe separation angle divided by the number of segments. 2. The lobe pump of claim 1 wherein the top surface and the bottom surface of the first lobe rotors and the second lobe rotors are flat, parallel to one another and perpendicular to the shafts. 3. The lobe pump of claim 1 further including plugs fitted in holes drilled in the top and bottom surfaces of the first lobe rotors and the second lobe rotors, wherein the plugs glide over the separation plates when the first lobe rotors and the second lobe rotors rotate. 4. A rotor assembly for a lobe pump comprising: a) a first shaft and a second shaft, the shafts being elongated cylinders, the first shaft extending beyond a wall of a housing such that it may be rotated by a motor, the shafts fixed within the housing such that their long axes are parallel, the shafts coupled through use of timing gears affixed to a first end of each shaft such that rotation of the first shaft by the motor causes the second shaft to rotate,b) a plurality of segments, each segment comprising: i) a first lobe rotor having a center, a top surface, a bottom surface, sidewalls and a plurality of lobes symmetrically extending from the center, the lobes extended at a lobe separation angle from one another, the first lobe rotor fixedly attached to the first shaft through the center of the first lobe rotor such that rotation of the first shaft causes the first lobe rotor to rotate,ii) a second lobe rotor having a center, a top surface, a bottom surface, sidewalls and a plurality of lobes symmetrically extending from the center, the lobes extended at a lobe separation angle from one another, wherein the first lobe rotor and the second lobe rotor have the same number of lobes and lobe angles, the second lobe rotor fixedly attached to the second shaft through the center of the second lobe rotor such that the rotation of the second shaft causes the second lobe rotor to rotate,iii) separation plates positioned above and below the first lobe rotor and the second lobe rotor adjacent to the top and bottom surfaces of the first lobe rotor and the second lobe rotor, said separation plates acting to physically isolate the segments from one another,iv) the shafts and the first lobe rotor and the second lobe rotor positioned such that the simultaneous rotation of the first lobe rotor and the second lobe rotor results in meshing of the first lobe rotor and the second lobe rotor thereby causes a pumping action wherein a fluid enters a central portion of each of the first lobe rotor and the second lobe rotor at the inlet of the housing and the fluid is displaced from each of the first lobe rotor and the second at the outlet by the second lobe rotor and the first lobe rotor respectively,c) wherein in the plurality of segments, the first lobe rotors attached to the same shaft and in adjacent segments are aligned to be rotationally displaced from one another by an index angle, and the second lobe rotors attached to the same shaft and in adjacent segments are aligned to be rotationally displaced from one another by the index angle, and,d) the index angle is equal to the lobe separation angle divided by the number of segments. 5. The rotor assembly of claim 4 wherein the top surfaces and the bottom surfaces of the first lobe rotors and the second lobe rotors are flat, parallel to one another and perpendicular to the shafts. 6. The rotor assembly of claim 4 wherein the first lobe rotors and the second lobe rotors have three lobes on each lobe rotor. 7. The rotor assembly of claim 6 wherein the rotor assembly is comprised of three segments. 8. The rotor assembly of claim 4 further including plugs fitted in holes drilled in the top and bottom surfaces of the first lobe rotors and the second lobe rotors, wherein the plugs glide over the separation plates when the first lobe rotors and the second lobe rotors rotate. 9. A lobe pump comprising: a) a housing having an inlet and an outlet and walls,b) a first shaft and a second shaft, the shafts being elongated cylinders, the first shaft extending beyond a wall of the housing such that it is rotated by a motor, the shafts fixed within the housing such that their long axes are parallel, the shafts coupled through use of timing gears affixed to a first end of each shaft such that rotation of the first shaft by the motor causes the second shaft to rotate,c) a plurality of segments, each segment comprising: i) a first lobe rotor having a center, a top surface, a bottom surface, sidewalls and a plurality of lobes symmetrically extending from the center, the lobes extended at a lobe separation angle from one another, the first lobe rotor fixedly attached to the first shaft through the center of the first lobe rotor such that rotation of the first shaft causes the first lobe rotor to rotate,ii) a second lobe rotor having a center, a top surface, a bottom surface, sidewalls and a plurality of lobes symmetrically extending from the center, the lobes extended at a lobe separation angle from one another, wherein the first lobe rotor and the second lobe rotor have the same number of lobes and lobe angles, the second lobe rotor fixedly attached to the second shaft through the center of the second lobe rotor such that the rotation of the second shaft causes the second lobe rotor to rotate,iii) separation plates positioned above and below the first lobe rotor and the second lobe rotor adjacent to the top and bottom surfaces of the first lobe rotor and the second lobe rotor, said separation plates acting to physically isolate the segments from one another,iv) the shafts and the first lobe rotor and the second lobe rotor positioned such that the simultaneous rotation of the first lobe rotor and the second lobe rotor results in meshing of the first lobe rotor and the second lobe rotor thereby causes a pumping action wherein a fluid enters a central portion of each of the first lobe rotor and the second lobe rotor at the inlet of the housing, passes through a pump chamber isolation region, and the fluid is displaced from each of the first lobe rotor and the second lobe rotor at the outlet by the second lobe rotor and the first lobe rotor respectively,v) wherein there is a separate pump chamber isolation region for each of the first lobe rotor and the second lobe rotor defined as a volume of space within the housing and delineated by a wall of the housing and the lobe rotor, the pump chamber isolation region having a pump chamber isolation region arc,d) wherein in the plurality of segments, the first lobe rotors attached to the same shaft and in adjacent segments are aligned to be rotationally displaced from one another by an index angle, and the second lobe rotors attached to the same shaft and in adjacent segments are aligned to be rotationally displaced from one another by the index angle, and,e) the first lobe rotors and the second lobe rotors are helical lobe rotors, each having a wrap angle, and,f) the pump chamber isolation region arc is equal to the lobe separation angle plus the wrap angle, and,g) the index angle is equal to the lobe separation angle divided by the number of segments. 10. The lobe pump of claim 9 wherein the first lobe rotors and the second lobe rotors have three lobes on each lobe rotor. 11. The lobe pump of claim 10 wherein the lobe pump is comprised of three segments. 12. A rotor assembly for a lobe pump comprising: a) a first shaft and a second shaft, the shafts being elongated cylinders, the first shaft extending beyond a wall of a housing such that it may be rotated by a motor, the shafts fixed within the housing such that their long axes are parallel, the shafts coupled through use of timing gears affixed to a first end of each shaft such that rotation of the first shaft by the motor causes the second shaft to rotate,b) a plurality of segments, each segment comprising: i) a first lobe rotor having a center, a top surface, a bottom surface, sidewalls and a plurality of lobes symmetrically extending from the center, the lobes extended at a lobe separation angle from one another, the first lobe rotor fixedly attached to the first shaft through the center of the first lobe rotor such that rotation of the first shaft causes the first lobe rotor to rotate,ii) a second lobe rotor having a center, a top surface, a bottom surface, sidewalls and a plurality of lobes symmetrically extending from the center, the lobes extended at a lobe separation angle from one another, wherein the first lobe rotor and the second lobe rotor have the same number of lobes and lobe angles, the second lobe rotor fixedly attached to the second shaft through the center of the second lobe rotor such that the rotation of the second shaft causes the second lobe rotor to rotate,iii) separation plates positioned above and below the first lobe rotor and the second lobe rotor adjacent to the top and bottom surfaces of the first lobe rotor and the second lobe rotor, said separation plates acting to physically isolate the segments from one another,iv) the shafts and the first lobe rotor and the second lobe rotor positioned such that the simultaneous rotation of the first lobe rotor and the second lobe rotor results in meshing of the first lobe rotor and the second lobe rotor thereby causes a pumping action wherein a fluid enters a central portion of each of the first lobe rotor and the second lobe rotor at the inlet of the housing and the fluid is displaced from each of the first lobe rotor and the second at the outlet by the second lobe rotor and the first lobe rotor respectively,c) wherein in the plurality of segments, the first lobe rotors attached to the same shaft and in adjacent segments are aligned to be rotationally displaced from one another by an index angle, and the second lobe rotors attached to the same shaft and in adjacent segments are aligned to be rotationally displaced from one another by the index angle, and,d) the first lobe rotors and the second lobe rotors are helical lobe rotors, each having a wrap angle, and,e) the index angle is equal to the lobe separation angle divided by the number of segments.
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이 특허에 인용된 특허 (6)
Lowell D. Hansen ; E. Kent Miller ; Sam Maxwell, Dual lobe, split ring, variable roller vane pump.
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