KR102402559B1 - Electric water pump - Google Patents

Abstract

The present invention relates to an electric water pump, and more particularly, to an electric water pump capable of preventing foreign substances from being caught between an impeller and an impeller cover.
The electric water pump according to the present invention includes an impeller having a shroud having a through-hole through which a fluid flows in a central portion, an inlet for guiding the fluid to the through-hole, and an outlet for guiding the fluid flowing out by the impeller, and an impeller cover surrounding the impeller. In particular, the shroud of the impeller has a chin formed inside the upper end so that the outer side of the upper end of the upper surface protrudes, and radially from the upper end of the upper surface to guide foreign substances introduced into the inlet to be discharged to the outlet. As a result, a plurality of discharge grooves are formed at regular intervals along the circumferential direction to the outer circumferential surface. And the impeller cover is formed with a blocking groove into which the protrusion on the outside of the upper end of the shroud is inserted in order to reduce the inflow of the foreign material into the upper surface of the shroud.
According to the present invention, the upper end of the shroud becomes a protrusion and is inserted into the blocking groove of the impeller cover. Therefore, it is possible to reduce the inflow of the coolant flowing into the inlet between the shroud and the impeller cover. Therefore, it reduces the inflow of foreign substances of the coolant between the shroud and the impeller cover.

Description

Electric water pump

The present invention relates to an electric water pump, and more particularly, to an electric water pump capable of preventing foreign substances from being caught between an impeller and an impeller cover.

In general, a water pump is a device for circulating coolant to an engine and a heater for engine cooling and indoor heating. The coolant discharged from the water pump exchanges heat with the engine, heater, or radiator, circulates, and then flows back into the water pump. Such a water pump is largely divided into a mechanical water pump and an electric water pump.

4 is a cross-sectional view of a conventional electric water pump. When the water pump operates and the impeller 3 rotates, the cooling water flows into the inlet (A) and goes out to the outlet (B) to be circulated. At this time, there is a gap between the impeller cover (1) and the upper surface of the shroud (4). Therefore, the coolant flowing into the inlet (A) flows into the gap, resulting in a flow rate loss. Since the gap between the impeller cover (1) and the shroud (4) is wide and the flow rate is large, the flow rate loss occurs a lot. In order to reduce the flow rate loss, the gap between the impeller cover (1) and the shroud (4) is minimized.

However, since foreign substances exist in the coolant, when the coolant flows into the gap between the impeller cover 1 and the shroud 4, since the gap is small, foreign substances are caught in the gap, and there is a problem that the water pump malfunctions or the performance is reduced.

Registered Patent No. 10-1252357 (Registration Date: April 2, 2013) Registered Patent No. 10-1072328 (Registration Date: October 5, 2011) Registered Patent No. 10-1244083 (Registration Date March 8, 2013)

The present invention is to solve the above problems. An object of the present invention is to provide an electric water pump capable of preventing foreign substances from being caught between a shroud and an impeller cover.

The electric water pump according to the present invention includes an impeller having a shroud having a through-hole through which a fluid flows in a central portion, an inlet for guiding the fluid to the through-hole, and an outlet for guiding the fluid flowing out by the impeller, and an impeller cover surrounding the impeller. In particular, the shroud of the impeller has a chin formed inside the upper end so that the outer side of the upper end of the upper surface protrudes, and radially from the upper end of the upper surface to guide foreign substances introduced into the inlet to be discharged to the outlet. As a result, a plurality of discharge grooves are formed at regular intervals along the circumferential direction to the outer circumferential surface. And the impeller cover is formed with a blocking groove into which the protrusion on the outside of the upper end of the shroud is inserted in order to reduce the inflow of the foreign material into the upper surface of the shroud.

In addition, in the electric water pump, the impeller cover is preferably formed so that the discharge groove has a curvature in the same direction as the blade of the impeller cover.

According to the present invention, the upper end of the shroud becomes a protrusion and is inserted into the blocking groove of the impeller cover. Therefore, it is possible to reduce the inflow of the coolant flowing into the inlet between the shroud and the impeller cover. Therefore, it reduces the inflow of foreign substances of the coolant between the shroud and the impeller cover.

In addition, according to the present invention, a discharge groove is formed in the upper portion of the shroud. Therefore, it is possible to prevent foreign substances from being caught between the shroud and the impeller cover by allowing the foreign substances introduced between the shroud and the impeller cover to be discharged into the discharge groove.

1 is a cross-sectional view of an embodiment of an electric water pump according to the present invention;
Figure 2 is a partially enlarged view of the embodiment of Figure 1;
Figure 3 is a perspective view of the impeller of the embodiment of Figure 1;
4 is a cross-sectional view of a conventional electric water pump.

An embodiment of an electric water pump according to the present invention will be described with reference to FIGS. 1 to 3 .

The electric water pump according to the present invention not only reduces the inflow of foreign substances into the gap between the impeller cover 10 and the shroud 21 of the impeller 20, but also smoothly discharges the foreign substances even if the foreign substances are introduced into the shroud 21 and to prevent being caught between the impeller cover (10).

To this end, the shroud 21 of the impeller 20 has a chin on the inside of the top so that the protrusion 22 can be formed on the outside of the top of the upper surface. That is, the protrusion 22 is formed on the outside of the upper end of the shroud 21 . And a plurality of discharge grooves 24 are formed on the upper surface of the shroud 21 so that foreign substances can be discharged. The discharge groove 24 is formed from the projection 22 formed on the upper end of the shroud 21 to the outside of the impeller 20 in the radial direction. At this time, the discharge groove 24 is formed with a constant curvature, and is formed in the same direction as the blade of the impeller 20 . This is because the coolant drains smoothly. And the discharge groove 24 is formed in communication with the jaw forming the projection (22). This is because the coolant introduced into the jaw can be discharged through the discharge groove 24 . A plurality of such discharge grooves 24 are formed at regular intervals along the circumferential direction.

The impeller cover 10 is formed with a blocking groove 11 so that the projection 22 can be inserted.

In the present embodiment, when the impeller 20 rotates by the operation of the motor, the cooling water flows in through the inlet A and is discharged through the outlet B. At this time, a portion of the coolant introduced into the inlet A may be introduced into the gap between the shroud 21 and the impeller cover 10 . In this embodiment, since the projection 22 of the impeller 20 is inserted into the blocking groove 11 of the impeller cover 10, the projection 22 is the coolant coming into the gap between the shroud 21 and the impeller cover 10. It has the effect of first blocking the coolant, so it is possible to reduce the coolant flowing into the gap. On the other hand, even if the coolant flows in, since the discharge groove 24 is formed on the upper surface of the shroud 21 , the coolant flows out through the discharge groove 24 . Therefore, even if there are foreign substances in the coolant, it is possible to prevent foreign substances from being caught in the gap between the shroud 21 and the impeller cover 10 .

1: impeller cover 3: impeller
4: shroud 10: impeller cover
11: blocking groove 20: impeller
21: shroud 22: protrusion
24: exhaust groove 25: wing

Claims (2)

An impeller having a shroud having a through-hole through which the fluid flows in the central portion, an inlet for guiding the fluid to the through-hole, and an outlet for guiding the fluid flowing out by the impeller, comprising an impeller cover surrounding the impeller In the electric water pump,
The shroud of the impeller has a chin formed on the inside of the upper end so that the upper end of the upper surface protrudes from the outside, and the upper surface communicates with the jaw to guide foreign substances introduced into the inlet to be discharged to the outlet. A plurality of discharge grooves are formed at regular intervals along the circumferential direction from the upper end to the outer circumferential surface in the radial direction,
The impeller cover is an electric water pump, characterized in that in order to reduce the inflow of foreign substances into the upper surface of the shroud, a blocking groove is formed in which the protrusion on the outside of the upper end of the shroud is inserted. The method of claim 1,
The shroud is an electric water pump, characterized in that the discharge groove is formed to have a curvature in the same direction as the blade of the impeller.

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