KR101326503B1 - Canned motor type of electric water pump - Google Patents

Abstract

The present invention relates to a canned motor type electric water pump in which a can structure is inserted between a rotor and a stator.
The canned motor type electric water pump according to the present invention is a volute body portion disposed between the hydraulic portion housing and the motor housing to separate the hydraulic portion and the driving motor, and a can portion disposed between the rotor and the stator to separate the rotor and the stator. A can integral volute body configured to be integral with the volute body part and the can part; And a rotor support installed inside the volute body to rotatably support the rotor and the motor shaft, wherein the rotor of the rotor is coupled to the fastening structure of the can integral volute body and the rotor support. Rotational balancing can be measured.

Description

Canned motor type of electric water pump

The present invention relates to a canned motor-type electric water pump, and more particularly to a canned motor-type electric water pump in which a can structure is inserted between a rotor and a stator.

The water pump serves to circulate the coolant in the vehicle, and in the case of a general internal combustion engine vehicle, the engine may be classified into an engine driven water pump that drives engine power through a pulley and a belt, and an electric water pump driven by electricity. .

In the case of the electric water pump, when the electric motor is driven by electricity provided by the battery, the impeller rotates to suck and discharge the coolant.

Electric water pumps are known to increase fuel efficiency by 2 to 3% because they do not require engine driving power, and they are already widely applied to mass production vehicles by many automobile companies because they can precisely control the coolant temperature. .

In the case of electric vehicles such as hybrid vehicles, there is a situation in which engine driving is stopped, such as EV mode, and in the case of fuel cell vehicles or pure electric vehicles, engines for driving water pumps are not mounted. It is essential to use an electric water pump as a water pump.

On the other hand, the electric water pump for vehicles is widely used a volute pump (volute pump), which is a kind of centrifugal pump, which includes an impeller (wing car) that is rotated by an electric motor, and when the impeller is rotated by driving the electric motor. The cooling water sucked through the suction port at the center of the volute casing is discharged to the discharge port by the centrifugal force generated at this time while passing through the spiral seal provided in the volute casing.

1 is a perspective view showing an electric water pump of a conventional canned motor type, and as shown, includes an electric motor 1 as a driving source and a hydraulic part 2 for generating suction power / soil output of cooling water. The hydraulic unit 2 includes a hydraulic flow cover 2a in which a spiral flow space, that is, a spiral seal is formed, and an impeller 5 that is rotated by the electric motor 1.

The electric motor 1 generates a rotational force by electromagnetic action between the rotor 3 and the stator 4, and the rotational force is transmitted to the impeller 5 through the motor shaft 3a connected to the rotor 3 to impeller Rotate (5).

The motor shaft 3a is rotatably supported by the housing 6 by bearings 7 arranged before and after the rotor 3.

The canned motor-type electric pump inserts the can structure 8 between the rotor 3 and the stator 4, extends the hydraulic unit 2 to the rotor unit 3, and the rotor 3 is submerged in water. The water to be introduced has a structure capable of appropriately cooling the frictional heat generated by the rotor 3.

At this time, the can structure 8 serves as a partition wall separating the rotor 3 and the stator 4 and seals between the rotor 3 and the stator 4 by the can sealing rubber 10.

However, in the water pump of the canned motor type structure, the hydraulic unit 2 is connected to the rotor 3 chamber, thereby causing the following problems.

First, it is difficult to fix the front bearing 7 supporting the motor shaft 3a, and the number of parts increases when the front bearing 7 structure is introduced.

Secondly, when the impeller 5 rotates and sucks water by the electromagnetic force generated between the rotor 3 and the stator 4, the water generates a thrust in the opposite axial direction to the suction direction of the water, thereby There is a problem that the position of the impeller 5 is changed to lower the efficiency.

Third, due to the difficulty in positioning the O-ring for maintaining the airtight between the motor housing 6 and the volute chamber and the O-ring for maintaining the airtight between the hydraulic cover 2a and the volute chamber, it's difficult.

Fourth, balancing operation is impossible in the state where the impeller 5 is assembled with the motor shaft 3a of the rotor 3.

The present invention has been invented to solve the above problems, by inserting the rotor support to the can-integrated volute body, canned motor type electric motor that can fix the front bearing for supporting the motor shaft on one side of the rotor support The purpose is to provide a water pump.

In addition, an object of the present invention is to provide a canned motor type electric water pump which can improve the efficiency by firmly supporting the motor shaft by the rotor support to reduce the change of the fixed position of the impeller.

In addition, it is an object to provide a canned motor-type electric water pump that is easy to position the O-ring compared to the prior art by only one O-ring between the hydraulic housing and the volute body portion.

Finally, it is an object of the present invention to provide a canned motor type electric water pump capable of measuring the rotational balancing of the rotor assembly with the impeller assembled to the can-integrated volute body and the rotor support assembly.

In order to achieve the above object, the canned motor-type electric water pump according to the present invention is disposed between the hydraulic part housing 2a and the motor housing 6 to separate the hydraulic part 2 and the driving motor 1. And a can portion 19 disposed between the lute body portion 18 and the rotor 3 and the stator 4 to separate the rotor 3 and the stator 4, and the volute body portion 18 and A can-integrated volute body 20 in which the can portion 19 is integrally formed; A rotor support (23) installed inside the volute body (18) to rotatably support the rotor (3) and the motor shaft (3a); It is configured to include, the rotor support 23 is a fastening portion 21 is inserted into and fastened to the inner surface of the volute body portion 18, and in the axial direction from the fastening portion 21 compared to the fastening portion It is made of a bearing housing 22 formed to have a small diameter and configured to mount a bearing therein, the volute body portion 18 is the rotor while receiving the rotor support 23 to the inner surface of the rotor It is fastened to the support 23, and the volute body 18 is directly coupled with the hydraulic housing (2a) to be the bottom plate of the hydraulic chamber together with the rotor support fastened, the volute body ( 18 is airtight with the hydraulic housing 2a by an O-ring 9 provided in contact with the inner surface of the hydraulic housing 2a, and the edge of the volute body 18 is flanged. Between the hydraulic housing (2a) and the motor housing (6) Characterized in that the fixed and characterized in that the measured rotation balancing of the rotor as possible from the impeller is coupled to the fastening structure of the can-one volute body and the rotor support state.

The volute body part is kept tight with the hydraulic part housing by an O-ring provided in contact with the inner surface of the hydraulic part housing, and the edge portion of the volute body part is fastened and fastened between the hydraulic part housing and the motor housing in the form of a flange. By the fastening structure of the volute body as described above, the hydraulic unit and the driving motor can be completely separated.

The rotor support part includes a fastening part inserted into and fastened to one side of the volute body part, a bearing housing formed in the axial direction at the fastening part to mount a bearing therein, and formed between the fastening part and the bearing housing to receive hydraulic power. And a fluid movement path for guiding the fluid introduced into the rotor to the rotor, wherein the bearing securely supports the motor shaft of the rotor.

The rotor support may be fastened in a clip type by grooves formed in the can-integrated volute body.

The advantages of the canned motor-type electric water pump according to the present invention are as follows.

First, when the can-type electric water pump is applied using the can-integrated volute body and the rotor support, the hydraulic unit and the motor housing can be completely separated.

Secondly, by additionally configuring the rotor support in the can-integrated volute body, it is possible to firmly support the rotor and the motor shaft assembly without shaking by the rotational force generated by the electromagnetic action between the rotor and the stator.

Third, when thrust is generated in a direction opposite to the flow of fluid by the impeller when the impeller is rotated by the rotational force transmitted from the electric motor, the rotor support may prevent the eccentric rotation and lifting of the impeller.

Fourth, when assembling the rotor part, it is possible to continuously assemble in one direction in the order of the rear bearing, the rotor and the motor shaft inside the can part of the can integral volute body, and the rotor support part with the front bearing inside the volute body part. Can improve the sex.

Fifth, balancing operation is possible in a state where the rotor assembly and the impeller are coupled to the can-integrated volute body.

1 is a schematic view showing a water pump of the canned motor type according to the prior art
Figure 2 is a cross-sectional view showing a water pump of the canned motor type according to an embodiment of the present invention
3 is a perspective view of the rotor support in FIG.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention.

The present invention is a structure in which the volute body portion 18 and the can portion 19 are integrally injected from the general structure of the electric water pump of the canned motor type, and the rotor support 23 is attached to the can integral volute body 20. By applying the inserting structure, it relates to a canned motor-type electric water pump that has the advantage of measuring the rotational balancing of the rotor assembly in the state in which the rotor assembly and the impeller 5 are assembled.

The electric water pump of the canned motor type according to the present invention includes a hydraulic unit 2 for sucking water by the rotation of the impeller 5, and a drive motor 1 for driving the impeller 5.

The hydraulic unit 2 includes a hydraulic unit 2 housing having a suction port 2b on one side, and an impeller 5 installed inside the hydraulic unit 2 housing.

The intake port 2b may protrude in the axial direction from the hydraulic portion housing 2a as a suction passage for sucking cold water into the water pump, for example, in a fuel cell vehicle.

The hydraulic unit housing 2a serves to cover the upper portion of the impeller 5, and the cooling water (water) may be sucked into the hydraulic unit 2 through the suction port 2b by the rotation of the impeller 5.

The drive motor 1 includes a motor housing 6 fastened to the hydraulic housing 2a by a bolt, a rotor 3 and a stator 4 which generate rotational force by electromagnetic force inside the motor housing 6, and a hydraulic power. It includes a can-integrated volute body 20 for completely waterproofing the part (2).

At this time, the can-integrated volute body 20 has a volute body portion 18 located radially between the hydraulic housing 2a and the motor housing 6, and in the axial direction from the volute body portion 18. The can portion 19 is formed, the volute body portion 18 serves as a partition wall separating the hydraulic housing 2a and the motor housing 6, the can portion 19 is the rotor 3 and the stator (4) It serves as a partition to separate the space between them.

More specifically, the volute body 18 is located at the boundary between the hydraulic housing 2a and the motor housing, so that water introduced into the hydraulic housing 2 is stator 4 of the motor housing 6. To prevent it from flowing into the

For example, the edge portion of the volute body portion 18 is inserted between the hydraulic portion housing 2a and the motor housing 6 in the form of a flange, penetrated and fastened by bolts, and an O-ring 9 on the inner side of the flange portion. Is installed so that the airflow between the hydraulic housing (2a) and the side of the volute body is maintained by the O-ring (9), so that the water flowing into the hydraulic (2) is directed to the stator (4) of the motor housing (6). It can prevent the flow.

Conventionally, the O-ring 9 is mounted between the hydraulic housing 2a and the volute body, and between the motor housing 6 and the volute body, so that the O-ring 9 is difficult to position. Although there is a disadvantage in that the cost increases due to the increase in the number and the number of assembly labor, in the present invention, it is not necessary to install the O-ring 9 between the motor housing 6 and the volute body portion 18, so that the number of parts and assembly labor There is an advantage in reducing costs through the reduction.

The can unit 19 is positioned between the rotor 3 and the stator 4 and has a cylindrical shape to surround the rotor 3, and the rotor 3 is sealed by the can unit 19.

In addition, the can unit 19 communicates with the hydraulic unit 2, and provides a fluid movement path 24 between the hydraulic unit 2 and the rotor 3 so that water introduced into the hydraulic unit 2 is transferred to the rotor 3. Can be supplied.

The volute body portion 18 and the can portion 19 having such a structure may be injection molded integrally.

The rotor 3 is mounted inside the can unit 19, and the motor shaft 3a is rotatably coupled with the rotor 3 through the rotor 3.

One embodiment according to the invention further provides a rotor support 23 for rotatably supporting the rotor 3 and the motor shaft 3a.

The rotor support 23 is a fastening portion 21 inserted into and fastened to the inside of the volute body portion 18, and a small diameter in the axial direction is formed in the fastening portion 21 to support the motor shaft 3a therein. It consists of a bearing housing part 22 which can fix the front bearing 7a.

At this time, a fluid movement passage 24 is formed between the fastening portion 21 and the bearing housing portion 22 to communicate the hydraulic portion 2 and the rotor 3 through the fluid movement passage 24, thereby providing a hydraulic portion. Water introduced into (2) may be supplied to the rotor 3 to cool the heat generated in the rotor 3.

The fastening portion 21 according to the embodiment of the present invention may have a screw thread on its outer surface, and is screwed into the volute body portion 18 by the screw thread, thereby making it firm with the volute body portion 18. The clamping force can be maintained.

In the fastening structure of the fastening portion 21 according to another embodiment of the present invention, the fastening portion 21 is formed by the fastening protrusion formed on the outer surface of the fastening portion 21 and the groove formed on the volute body portion 18. Can be fastened to the part by a clip type.

The bearing housing part 22 has an accommodating space for accommodating the front bearing 7a therein and fixes the front bearing 7a by interference fit, thereby securing the motor shaft 3a integrally coupled with the rotor 3. Fixing of the front bearing 7a for supporting is easy.

In addition, a rear bearing 7b for supporting the rear end of the motor shaft 3a is inserted and fixed to the bottom surface of the can portion 19.

By the fastening structure as described above, the can-integrated volute body 20 and the rotor support 23 are assembled, that is, the can-integrated volute body 20 for accommodating the rotor 3 and the motor shaft 3a; The rotational balancing of the rotor 3 can be measured with the rotor support 23 for supporting the motor shaft 3a and the rotor 3 and the impeller 5 assembled.

In the case of the can-integrated volute body 20, a separate protrusion structure may be devised on the outer surface of the can part 19 to fix the teeth between the can part 19 and the stator 4.

Therefore, according to the present invention, the hydraulic unit 2 and the motor housing 6 can be completely separated when applying the cand type electric water pump using the can-integrated volute body 20 and the rotor support 23. Can be.

Further, by further configuring the rotor support 23 in the can-integrated volute body 20 portion 18, the rotor 3 is caused by the rotational force generated by the electromagnetic action between the rotor 3 and the stator 4. And it can be firmly supported without shaking during rotation of the motor shaft (3a) assembly.

In addition, when thrust is generated in the direction opposite to the flow of fluid by the impeller 5 when the impeller 5 is rotated by the rotational force transmitted from the electric motor, the rotor support 23 is eccentrically rotating and lifting of the impeller 5. The phenomenon can be prevented.

In addition, the rear bearing, the rotor 3 and the motor shaft 3a inside the can portion 19 of the can-integrated volute body 20, and the front bearing inside the volute body 18 during assembly of the rotor portion. It is possible to continuously assemble in one direction in the order of the rotor support 23 with the built-in (7a) can improve the assemblability.

Finally, balancing operation is possible in a state where the rotor assembly and the impeller 5 are coupled to the can-integrated volute body 20.

1: motor 2: hydraulic part
2a: hydraulic housing 2b: suction port
3: rotor 3a: motor shaft
4: stator 5: impeller
6: motor housing 7a: front bearing
7b: rear bearing 9: O-ring
18: volute body portion 19: can portion
20: can integral integral volute body
21: fastening portion 22: bearing housing
23: rotor support 24: fluid movement passage

Claims (4)

In the canned motor type electric water pump,
Disposed between the hydraulic housing (2a) and the motor housing (6) to separate the hydraulic body (2) and the driving motor (1), between the rotor (3) and the stator (4) A can-integrated volute body 20 having a can portion 19 arranged to separate the rotor 3 and the stator 4, wherein the volute body portion 18 and the can portion 19 are integrally formed;
A rotor support (23) installed inside the volute body (18) to rotatably support the rotor (3) and the motor shaft (3a);
And,
The rotor support 23 is formed to have a fastening portion 21 inserted into the inner surface of the volute body portion 18 and a smaller diameter than the fastening portion in the axial direction from the fastening portion 21. Consists of a bearing housing 22 configured to fix the bearing therein,
The volute body portion 18 is fastened to the rotor support 23 while receiving the rotor support 23 on its inner side,
The volute body portion 18 is directly coupled with the hydraulic portion housing 2a to be a lower portion of the volute seal bottom plate of the hydraulic portion together with the fastened rotor support.
The volute body portion 18 maintains hermeticity with the hydraulic portion housing 2a by an O-ring 9 provided at a contact portion in contact with the inner surface of the hydraulic portion housing 2a, and the volute body portion 18 Canned motor type electric water pump, characterized in that the edge portion of the flange is fastened and fixed between the hydraulic housing (2a) and the motor housing (6).
delete The method according to claim 1,
The rotor support 23 is formed between the fastening portion 21 and the bearing housing 22 to form a fluid movement passage 24 for guiding fluid introduced into the hydraulic portion 2 to the rotor 3. Canned motor type electric water pump, characterized in that.
The method according to claim 1,
The rotor support (23) is a canned motor type electric water pump, characterized in that fastening in a clip type by a groove formed in the can-integrated volute body (20).

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