Self-cleaning screen

What is claimed is: 1. A self-cleaning screen device comprising: a screen, the screen being a hollow cylinder and having a screen central axis, a screen inner surface, a screen outer surface opposite and radially spaced apart from the screen inner surface, a screen first end, and a screen second end opposite and axially spaced apart from the screen first end, wherein the screen outer surface defines a plurality of openings extending radially to the screen inner surface; an auger, the auger being helically shaped and having an auger central axis, an auger first end, and an auger second end opposite and axially spaced apart from the auger first end, wherein the auger is disposed around at least a portion of the screen outer surface such that the auger central axis and the screen central axis are coincident with each other and such that the auger second end is disposed adjacent the screen second end, the auger being rotatable about the auger central axis relative to the screen; an auger mounting disk coupled to the auger second end; and a shaft having a shaft central axis, a shaft first end, and a shaft second end opposite and spaced apart from the shaft first end, wherein the shaft extends through the screen from the screen first end such that the shaft second end is adjacent the screen second end, wherein the shaft central axis is axially aligned and coincident with the screen central axis, wherein a portion of the shaft is fixedly coupled to the auger mounting disk which is fixedly coupled to the auger second end such that the auger does not rotate relative to the shaft. 2. The self-cleaning screen device of claim 1 , further comprising a pipe having a pipe central axis, a pipe inner surface, a pipe outer surface opposite and radially spaced apart from the pipe inner surface, a pipe first end, and a pipe second end opposite and axially spaced apart from the pipe first end, wherein the screen first end is coupled to the pipe second end such that the pipe central axis and the screen central axis are coincident with each other. 3. The self-cleaning screen device of claim 1 , wherein either the auger extends helically in a clockwise direction from the auger second end to the auger first end and the auger rotates in a counterclockwise direction as viewed axially from the auger second end, or the auger extends helically in a counterclockwise direction from the auger second end to the auger first end and the auger rotates in a clockwise direction as viewed axially from the auger second end. 4. The self-cleaning screen device of claim 1 , wherein a gap is defined between the auger and the screen outer surface, the gap being 1 mm to 10 mm. 5. The self-cleaning screen device of claim 1 , further comprising a sweeping extension extending radially inwardly from the auger toward the auger central axis. 6. The self-cleaning screen device of claim 5 , wherein the sweeping extension comprises a steel brush. 7. The self-cleaning screen device of claim 5 , wherein the sweeping extension comprises a squeegee. 8. The self-cleaning screen device of claim 1 , wherein the auger is capable of rotating about the auger central axis between 300 RPM to 600 RPM. 9. The self-cleaning screen device of claim 1 , further comprising a motor coupled to the first end of the shaft capable of rotating the shaft. 10. A suction system comprising: a pump having a suction inlet; a pipe having a pipe central axis, a pipe inner surface, a pipe outer surface opposite and radially spaced apart from the pipe inner surface, a pipe first end, and a pipe second end opposite and axially spaced apart from the pipe first end; a self-cleaning screen device comprising: a screen, the screen being a hollow cylinder and having a screen central axis, a screen inner surface, a screen outer surface opposite and radially spaced apart from the screen inner surface, a screen first end, and a screen second end opposite and axially spaced apart from the screen first end, wherein the screen outer surface defines a plurality of openings extending radially to the screen inner surface; an auger, the auger being helically shaped and having an auger central axis, an auger first end, and an auger second end opposite and axially spaced apart from the auger first end, wherein the auger is disposed around at least a portion of the screen outer surface such that the auger central axis and the screen central axis are coincident with each other and such that the auger second end is disposed adjacent the screen second end, the auger being rotatable about the auger central axis relative to the screen; an auger mounting disk coupled to the auger second end; and a shaft having a shaft central axis, a shaft first end, and a shaft second end opposite and spaced apart from the shaft first end, wherein the shaft extends through the screen from the screen first end such that the shaft second end is adjacent the screen second end, wherein the shaft central axis is axially aligned and coincident with the screen central axis, wherein a portion of the shaft is fixedly coupled to the auger mounting disk which is fixedly coupled to the auger second end such that the auger does not rotate relative to the shaft, wherein the screen first end is coupled to the pipe second end such that the pipe central axis and the screen central axis are coincident with each other. 11. The suction system of claim 10 , wherein either the auger extends helically in a clockwise direction from the auger second end to the auger first end and the auger rotates in a counterclockwise direction as viewed axially from the auger second end, or the auger extends helically in a counterclockwise direction from the auger second end to the auger first end and the auger rotates in a clockwise direction as viewed axially from the auger second end. 12. The suction system of claim 10 , wherein a gap is defined between the auger and the screen outer surface, the gap being 1 mm to 10 mm. 13. The suction system of claim 10 , further comprising a sweeping extension extending radially inwardly from the auger toward the auger central axis. 14. The suction system of claim 13 , wherein the sweeping extension comprises a steel brush. 15. The suction system of claim 13 , wherein the sweeping extension comprises a squeegee. 16. The suction system of claim 10 , further comprising a motor coupled to the first end of the shaft capable of rotating the shaft.