Circulation pump

The invention claimed is: 1. A pump comprising: a pump casing; a pump chamber formed in the pump casing; an impeller disposed within the pump chamber, the impeller having a plurality of vanes forming an inlet and an outlet; a sealing plate, forming one side of the pump chamber; a motor for driving the impeller; wherein the pump casing is a monolithic object comprising: a main body having a first surface, a recess in the first surface, a suction port, a suction channel, a suction passage, a discharge port, and a discharge channel, wherein the recess forms a first opening in the first surface, the first opening is closed by the sealing plate to form the pump chamber, the recess having a second opening in a second surface opposite the first surface and a wall connecting the first surface to the second surface; the suction passage communicates with the recess via the second opening and is aligned with the inlet of the impeller; the suction port is connected to the suction passage by the suction channel; the discharge port is connected to the recess by the discharge channel which extends from a third opening formed in the wall of the recess; the diameter of wall of the recess remains the same or decreases along a direction from the first surface to the second surface; the diameter of the inner surface of the suction passage remains the same or decreases along a direction away from the recess; the inner diameter of the suction channel remains the same or decreases along a direction towards the suction passage; and the inner diameter of the discharge channel remains the same or decreases along a direction towards the recess; wherein the main body further comprises a first ring projecting into the recess from the second opening, and the impeller further comprises a ring-shaped end surface surrounding the inlet and a second ring projecting from the end surface and surrounding the first ring, the second ring faces the first ring across a radial gap, the radially inner end of the end surface of the impeller extends closer to the axis of the impeller, compared to the radially inner end of the first ring. 2. The pump of claim 1 , wherein the suction channel comprises an inner surface having a top arc wall and a bottom arc wall that is closer to the recess than the top arc wall, the curvature of the top arc wall is between 0.006 and 0.01 mm −1 , the curvature of the bottom arc wall is between 0.006 and 0.0085 mm −1 , and an included angle α between the tangent direction of the end of the top arc wall at the suction port and a direction in which the first surface extends and an included angle β between the tangent direction of the end of the bottom arc wall at the suction port and a direction in which the first surface extends are both between 5 and 12 degrees. 3. The pump of claim 2 , wherein the curvature of the top arc wall is 0.0071 mm −1 ; the included angle α is 5 degrees; the curvature of the bottom arc wall is 0.0070 mm −1 , and the included angle β is 8 degrees. 4. The pump of claim 1 , wherein the main body further comprises a spiral discharge groove in the boundary of the recess and extending from the second opening to the third opening. 5. The pump of claim 1 , wherein the main body further comprises a number of ribs extending from the center to the peripheral thereof. 6. The pump of claim 1 , wherein a radially inner surface of the second ring is inclined at an angle θ, with respect to the axial direction of the impeller. 7. The pump of claim 6 , wherein 10°≦θ≦20°. 8. The pump of claim 1 , wherein the end surface is inclined at an angle λ to a radial plane, such that the inner edge of the end surface is displaced towards the suction passage. 9. The pump of claim 8 , wherein 5°≦λ≦40°. 10. The pump of claim 1 , wherein the pump casing is a single piece plastic injection molding.