This non-provisional patent application claims priority under 35 U.S.C. ยง 119(a) from Patent Application No. 201810361097.7 filed in the People's Republic of China on Apr. 20, 2018.
The present disclosure relates to impellers, and particularly to a centrifugal impeller and a water pump having the same.
An impeller of some conventional water pumps includes a circular wheel and a number of arc-shaped blades spaced apart from one another and connected to the circular wheel. The impeller has the disadvantages of large axial force, low hydraulic efficiency, and large starting torque. Since the gap between the wheel and the inner wall of a housing of the water pumps is small, the impeller may tend to be stuck by foreign objects during operation.
An impeller includes a base plate, a hub protruding from the base plate, and a number of blades connected to the base plate and extending from a lateral surface of the hub toward an edge of the base plate. Opposite sides of each of the blades are a working surface and a non-working surface. The base plate is divided into a plurality of sub-plates by the plurality of blades. Each of the sub-plates is located between two adjacent blades and connected to the non-working surface of one of the two adjacent blades and the working surface of the other one of the two adjacent blades. A distance from an edge of each of the sub-plates to a center of rotation of the impeller is varied.
Embodiments of the present disclosure will be described in detail in conjunction with the drawings. It should be noted that the figures are illustrative rather than limiting. The figures are not drawn to scale, do not illustrate every aspect of the described embodiments, and do not limit the scope of the present disclosure.
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The base plate 11 is divided into a number of sub-plates 14 by the blades 13. The number of the sub-plates 14 is equal to the number of the blades 13. Each of the blades 13 includes a radially inner end 136 and a radially outer end 133 that are coupled to the lateral surface of the hub 12, and the radially outer end 133 partially extends through the base plate 11 (see
Each of the sub-plates 14 is located between two adjacent blades 13. For convenience of description, the following description will be made by taking two adjacent blades 13a and 13b, and the sub-plate 14 therebetween as an example. The sub-plate 14 is connected to the non-working surface 132 of the blade 13a and the working surface 131 of the bade 13b.
The distance from an edge 15 of the sub-plate 14 to a center O of rotation of the impeller 10 is varied such that there is a space 50 of varying width between the edge 15 and the inner wall of the connecting portion 412 (see
In one embodiment, distance between an end of each sub-plate 14 away from the hub 12 and the center O of rotation of the impeller is the same. For example, the distance D1 between an end of the blade 13a and the center O of rotation of the impeller 10 is equal to the distance D2 between an end of the blade 13b and the center O of rotation of the impeller 10. The edge 15 of the sub-plate 14 is tangent to, at an end, the working surface 131 of the blade 13b so as to maintain the hydraulic efficiency of the impeller 10. The other end of the edge 15 and the non-working surface 132 of the blade 13a form an angle A greater than 0 degrees to prevent fluid backflow during operation of the impeller 10. The angle A is equal to or less than a supplementary angle of an outlet blade angle of the non-working surface 132.
In one embodiment, the edge 15 of the sub-plate 14 includes three successively connected surfaces i.e. a first curved surface 151, a second curved surface 152, and a third curved surface 153. The first surface 151 and the non-working surface 132 of the blade 13a form the angle A. The second surface 153 is tangent to the working surface 131 of the blade 13b to maintain the hydraulic efficiency of the impeller 10 during operation. The second surface 152 is curved toward the hub 12 so as to provide a larger space 50 between the edge 15 and the inner wall of the connecting portion 412 at a substantially central portion of the edge 15.
In one embodiment, a smooth transition is made between the first surface 151 and the second surface 152, and between the second surface 152 and the third convex surface 153. As shown in
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In the embodiment, the edge 15 of each sub-plate 14 is a surface 154 curved toward the hub 12, resulting in a varying distance from the edge 15 to the center O of rotation of the impeller 10. A space 50 having a changing width is thus formed between the edge 15 and the inner wall of the connecting portion 412. With such configuration, from one end to the other, the distance from the edge 15 to the center O of rotation of the impeller 10 is gradually decreased and then increased. The surface 154 is tangent to, at an end, the working surface 131 of the blade 13b so as to maintain the hydraulic efficiency of the impeller 10. The other end of the surface 154 and the non-working surface 132 of the blade 13a form an angle A greater than 0 degrees. The joints where the working surface 131 and the non-working surface 132 of each blade 13 and the top side of the base plate 11 adjacent to the hub 12 are connected are rounded.
A bottom side of the base plate 11 away from the hub 12 includes a cylindrical wall 18. The bottom side of the base plate 11 further includes a number of reinforcing ribs 19. The reinforcing ribs 19 are spaced apart from each other along the circumferential direction of the cylindrical wall 18. Each reinforcing rib 19 is located under one blade 13. Radially outer ends of the reinforcing ribs 19 are respectively connected to radially outer ends of the blades 13.
The outer peripheral surface of the cylindrical wall 18 defines a number of grooves 181 (see
In one embodiment, the number of the blades 13 is five, the number of the sub-plates 14 is five, and the number of the reinforcing ribs 19 is five. In the embodiment, each of the blades 13 penetrates the base plate 11, that is, each of the blades 13 includes two portions distributed on opposite sides of the base plate 11. The blade 13 and the base plate 11 are integrally formed as a single member.
Number | Date | Country | Kind |
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2018 1036 1097.7 | Apr 2018 | CN | national |