KR102659433B1 - Elecgric water pump assembly - Google Patents

Abstract

The present invention relates to an electric water pump assembly, and more specifically, to an electric water pump assembly that can simply supply or control the direction of the flow of coolant.
The water pump assembly according to the present invention includes a coolant tank, a housing, a manifold, and a manifold cover. The coolant tank has a first outlet and a second outlet. The housing accommodates a motor and an impeller rotated by the motor, and the top is open. The manifold is formed with a supply hole for supplying the coolant supplied from the first outlet to the impeller and an inlet through which the coolant supplied from the second outlet flows, the coolant tank is mounted on the top, and the manifold covers the top of the housing. A cover portion, a first discharge port communicating with the housing through which coolant discharged from the impeller can be discharged, and a second discharge port communicating with the inlet port through which coolant can be discharged from the inlet port are formed on one side of the cover portion. It is provided with an extended manifold part. The manifold cover covers one surface of the manifold by forming a plurality of first outlet holes communicating with the first outlet and a plurality of second outlet holes communicating with the second outlet.
According to the present invention, by providing a manifold, coolant can be supplied to the impeller by mounting a coolant tank on the manifold without connecting a connecting hose, and the cooling system can be modularized. Therefore, the complex structure of the connecting hose connected to the electric water pump can be simplified and the number of parts can be dramatically reduced.

Description

Electric water pump assembly {Elecgric water pump assembly}

The present invention relates to an electric water pump assembly, and more specifically, to an electric water pump assembly that can simply supply or control the direction of the flow of coolant.

Generally, a water pump is a device that circulates coolant to the engine and heater for engine cooling and indoor heating. The coolant discharged from the water pump circulates through heat exchange with the engine, heater, or radiator and then flows back into the water pump. These water pumps are largely divided into mechanical water pumps and electric water pumps, and electric water pumps, which can control engine cooling in an optimal state, are widely used.

The electric water pump has a motor and an impeller built into the housing, and the operation of the motor rotates the impeller to circulate coolant. Therefore, coolant is supplied to the inside of the electric water pump, and many connecting hoses are installed in the water pump to circulate the supplied coolant.

Registered Patent No. 10-2173691 (registration date: October 28, 2020) Registered Patent No. 10-1502285 (registration date: March 6, 2015)

Conventional electric water pumps are equipped with a large number of connecting hoses to supply coolant inside the water pump and circulate the coolant discharged from the water pump, making the structure complex and requiring a large number of parts. There was a problem.

The present invention is intended to solve the above problems and aims to provide an electric water pump that can reduce the number of parts by simplifying the complex structure.

The water pump assembly according to the present invention includes a coolant tank, a housing, a manifold, and a manifold cover. The coolant tank has a first outlet and a second outlet. The housing accommodates a motor and an impeller rotated by the motor, and the top is open. The manifold is formed with a supply hole for supplying the coolant supplied from the first outlet to the impeller and an inlet through which the coolant supplied from the second outlet flows, the coolant tank is mounted on the top, and the manifold covers the top of the housing. A cover portion, a first discharge port communicating with the housing through which coolant discharged from the impeller can be discharged, and a second discharge port communicating with the inlet port through which coolant can be discharged from the inlet port are formed on one side of the cover portion. It is provided with an extended manifold part. The manifold cover covers one surface of the manifold by forming a plurality of first outlet holes communicating with the first outlet and a plurality of second outlet holes communicating with the second outlet.

Additionally, in the water pump assembly, it is preferable that the manifold portion further has a connection groove formed on one surface of the manifold portion. In addition, the manifold cover is preferably further formed with a plurality of third outlet holes communicating with the connection groove.

According to the present invention, by providing a manifold, coolant can be supplied to the impeller by mounting a coolant tank on the manifold without connecting a connecting hose, and the cooling system can be modularized. Therefore, the complex structure of the connecting hose connected to the electric water pump can be simplified and the number of parts can be dramatically reduced.

1 is a perspective view of one embodiment of an electric water pump assembly according to the present invention;
Figure 2 is an exploded view of the embodiment of Figure 1;
Figure 3 is a conceptual diagram of a multi-way solenoid module mounted on the embodiment shown in Figure 1.

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

The electric water pump assembly according to the present invention includes a coolant tank (10), a housing (20), a manifold (30), and a manifold cover (40).

The coolant tank 10 accommodates coolant and has a first outlet (not shown) and a second outlet (not shown) for discharging the coolant contained in the lower part. The first outlet serves to supply coolant into the housing 20 of the water pump, and the second outlet serves to supply coolant to circulate the coolant without passing through the water pump.

The housing 20 accommodates the motor and impeller inside, and the top is open. Since the motor, impeller, and housing 20 accommodating them are public, detailed description will be omitted. In the case of a general water pump, an impeller cover is mounted on the upper part of the housing 20, but in this embodiment, the cover portion 31 of the manifold 30 is mounted.

The manifold 30 includes a cover portion 31 and a manifold portion 35.

The cover portion 31 serves as an impeller cover for the housing 20, and a supply hole 32 and an inlet 33 are formed. Therefore, the cover part 31 covers the upper part of the housing 20, and the coolant tank 10 is mounted on the upper part of the cover part 31. The supply hole 32 is formed so that coolant can be supplied from the coolant tank 10 to the housing 20. Therefore, the first outlet of the coolant tank 10 is installed in the supply hole 32. And the second outlet of the coolant tank 10 is installed at the inlet 33. In the case of vehicles, coolant is circulated not only through an electric water pump, but also without a water pump. Therefore, the supply hole 32 of the cover part 31 serves to supply coolant from the coolant tank 10 to the inside of the water pump, and the inlet 33 is necessary to circulate the coolant without passing through the water pump.

The manifold part 35 is formed extending from the cover part 31. At this time, a first outlet 36, a second outlet 37, and a connection groove 38 are formed on one surface of the manifold unit 35. The first outlet 36 communicates with the housing 20 so that the coolant discharged by the impeller from the inside of the housing 20 can be discharged. Therefore, when the impeller operates, coolant is discharged through the first outlet (36). The second outlet 37 communicates with the inlet 33 so that the cooling water supplied to the inlet 33 can be discharged. The connection groove 38 is formed to communicate the first outlet 36 and the second outlet 37 with each other as necessary.

The manifold cover 40 is mounted on one surface of the manifold part 35 and has a plurality of first outlet holes 41, a plurality of second outlet holes 43, and a plurality of third outlet holes 45. This is formed.

The first outlet hole 41 is formed in a position that can communicate with the first outlet 36, the second outlet hole 43 is formed in a position that can communicate with the second outlet 37, and the third outlet hole 41 is formed in a position that can communicate with the first outlet 36. The outlet hole 45 is formed at a position that can communicate with the connection groove 38.

A multi-way solenoid module (50) is mounted on the manifold cover (40). The multi-way solenoid module 50 is formed with a plurality of discharge holes 51, and a multi-way solenoid valve is installed inside. The multi-way solenoid valve connects the first outlet hole (41), the second outlet hole (43), and the third outlet hole (45) to these discharge holes (51).

The connection groove 38 and the first outlet 36 may be communicated by a multi-way solenoid valve, or the connection groove 38 and the second outlet 37 may be communicated, and the connection groove 38 and the first outlet 36 may be communicated with each other. The outlet 36 and the second outlet 37 may be in communication with each other.

Therefore, when circulating coolant, the desired coolant can be supplied to the required place by connecting the hose to the discharge hole (51) formed in the multi-way solenoid module (50).

Therefore, according to this embodiment, when the coolant tank 10 is mounted on the cover part 31 of the manifold 30, coolant can be discharged through the discharge hole 51 of the multi-way solenoid module 51. Therefore, the coolant can be circulated by inserting a connecting hose into the discharge hole (51).

Therefore, the cooling system can be modularized and the complex structure can be simplified.

10: Coolant tank 20: Housing
30: Manifold 31: Cover part
32: supply hole 33: inlet
35: Manifold section 36: First outlet
37: second outlet 38: connection groove
40: Manifold cover 41: First outflow hole
43: 2nd outlet hole 45: 3rd outlet hole
50: Multiway solenoid module 51: Discharge hole

Claims (2)

A cooling water tank having a first outlet and a second outlet,
A housing with an open top that accommodates a motor and an impeller rotated by the motor,
A cover portion formed with a supply hole for supplying the coolant supplied from the first outlet to the impeller and an inlet through which the coolant supplied from the second outlet flows, the coolant tank mounted thereon, and covering the top of the housing; A first outlet communicated with the housing so that coolant discharged from the impeller can be discharged, a second outlet communicated with the inlet so that coolant can be discharged from the inlet, and the first outlet and the second outlet communicate with each other. A manifold having a connection groove formed on one side and a manifold portion extending from the cover portion;
A plurality of first outlet holes communicating with the first outlet, a plurality of second outlet holes communicating with the second outlet, and a plurality of third outlet holes communicating with the connection groove are formed to cover one surface of the manifold. Manifold cover,
A plurality of discharge holes are formed, and a multi-way solenoid valve is provided inside to connect the first discharge hole, the second discharge hole, and the third discharge hole with the discharge hole, and includes a multi-way solenoid module mounted on the manifold cover. And
The multi-way solenoid valve communicates the connection groove and the first outlet, communicates the connection groove and the second outlet, or communicates the connection groove with the first outlet and the second outlet. Characterized by a water pump assembly. delete