KR101767621B1 - Motor Housing and Manufacturing Method of it - Google Patents

Abstract

A motor housing according to the present invention includes: a housing body (10) which is formed by casting, includes an inner side which is hollow to form a receiving space for receiving a motor, and is made of metal materials; and a water jacket (20) which includes cooling water inlets and outlets (21, 22), is formed in a circumferential direction of the housing body (10) to form a zigzag flow path (23) with an arc planar shape in the axial direction of the housing body (10), is integrated with the housing body (10) by being inserted into the inside of the housing body (10) in the casting of the housing body (10), and is made of metal materials. Accordingly, the present invention can improve strength by increasing a bonding force between the water jacket and the housing body.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a motor housing,

In the present invention, since the cooling channel is inserted into the housing main body to be cast and then cast, the cooling channel and the housing main body are integrated so that the complicated cooling channel is formed easily in the housing and the adhesion force between the housing main body and the cooling channel is improved. To the motor housing.

Generally, various types of machinery including automobiles are provided with motors which are electric motors for converting electrical energy into rotational motions. In particular, in the case of an electric vehicle which has recently reached the commercialization stage, an electric motor driven by a power source charged in the battery is formed inside the wheel of the vehicle. Such an electric motor is provided with a stator to which a current is supplied and a rotor that rotates by the magnetic force of the stator to provide a rotational force, and a coil is wound several times on the stator. In addition, a housing for accommodating and protecting them is provided on the outside thereof so as to be insulated by an insulator.

During the high speed rotation of the electric motor, heat is generated around the rotor and the coil, and the generated heat is conducted to the housing and discharged to the outside.

There are air-cooling type and water-cooling type as the heat discharge method of the housing.

The air-cooled type is water-cooled because it is less efficient than the water-cooled type.

As an example of the water-cooled type, in order to prevent the components inside the motor housing from being damaged due to the heat generated in the rotor and the coil portion of the electric motor, the motor housing 110 is spaced at a predetermined interval A cooling water path 112 is formed. A plurality of cooling water passages 112 are formed in the longitudinal direction of the motor housing 110 while the cooling water passages 112 are connected to each other by a U-shaped connection pipe 114. That is, the temperature of the motor housing 110 is lowered while passing through the cooling water passage 112 until the cooling water inputted into the cooling water inlet 116 is discharged through the cooling water outlet 118, and as a result, the temperature around the coil and the rotor Is lowered.

As another example of the water-cooling type, there is shown a cooling system in which a cooling water line 112 is spirally formed in the middle of the body of the motor housing 110 as shown in FIG. Of course, a cooling water inlet 116 is formed at one side of the cooling water path 112, and a cooling water outlet 118 is connected to the other side. Accordingly, the cooling water supplied to the cooling water inlet 116 is spirally circulated along the cooling water path 112 to the body of the motor housing 110, thereby lowering the temperature of the motor housing. As a result, It will lower the heat.

An example of a method for applying the water-cooled cooling system as described above is to manufacture the core for forming the cooling water path 112 as a foundry sand, place the manufactured core inside the motor housing 110 to be casted, . After the molding of the motor housing 110, the molding sand located inside the motor housing 110 is removed to complete the cooling water furnace 112.

At this time, the process of removing the foundry sand located inside the motor housing 110 forms the cooling water path 112. The cooling water path 112 formed by removing the foundry sand has no smooth surface, If it is generated, the corrosion will proceed through contact with the cooling water, thereby causing leakage and causing electric shock accidents.

Another example of a method for applying such a water-cooled cooling system is to first cast a water jacket in which a cooling water path 112 is formed and to position the molded water jacket inside the motor housing 110 to be cast, Is integrated with the water jacket to manufacture a motor housing.

In this case, there are many problems such as poor adhesion between the water jacket and the motor housing to be cast and generation of pores. The strength of the water jacket is reduced due to poor adhesion between the water jacket and the motor housing, and the cooling efficiency is lowered due to the occurrence of pores.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a water jacket and a housing main body which are formed inside a housing body through insert casting and improve attachment of a water jacket and a motor housing, So that the strength of the motor housing can be improved.

According to an aspect of the present invention, there is provided a motor housing comprising: a housing main body formed of a casting material and made of a metallic material so that a housing space for housing the motor is formed; Shaped flow passages 23 formed in the axial direction of the housing main body 10 and having a longitudinal section in the shape of an arc and connected to the housing main body 10 in a zigzag manner in the circumferential direction of the housing main body 10 A water jacket formed integrally with the housing body 10 and inserted into the housing body 10 when the housing body 10 is casted, the water jacket being formed integrally with the housing body 10, The water jacket 20 is inserted into the channel 23 of the water jacket 20 and filled with a filler so that the water jacket 20 is insert cast into the housing body 10, 10 are cooled and solidified, the filler is removed from the flow path 23 of the water jacket 20.

delete

A plurality of protrusions 25 spaced at a predetermined distance in the radial direction of the housing main body 10 and elongated in the axial direction of the housing main body 10 are formed on the outer surface of the flow path 23 of the water jacket 20 .

A plurality of protrusions 25 are formed on the outer surface of the flow path 23 of the water jacket 20, the protrusions 25 being spaced a predetermined distance in the radial direction and the circumferential direction of the housing main body 10.

Further, the heat transfer coefficient of the water jacket (20) is larger than the heat transfer coefficient of the housing main body (10).

In addition, the water jacket 20 is formed by casting.

In addition, a metal coating layer having a heat transfer coefficient greater than that of the water jacket 20 is formed on the outer surface of the water jacket 20.

A method of manufacturing a motor housing according to the present invention is a method of manufacturing a motor housing comprising cooling water outlets (21, 22), a plate-shaped flow passage (23) having an arcuate longitudinal section and formed in an axially elongated shape and connected in a zigzag manner in a circumferential direction Forming a water jacket (20) by casting to form a circle; A second step of arranging the water jacket 20 formed inside the mold for forming the housing main body 10 so that the water jacket 20 can be inserted into the housing main body 10 to be formed; And a third step of casting the housing main body 10 so as to be inserted into the housing main body 10 to be formed with the water jacket 20 disposed therebetween and between the first step and the second step, Filling the water passage 23 of the water jacket 20 between the water jacket 20 and the water jacket 20 after the housing body 10 is solidified by the third step; Removing the filler from the flow path (23) of the flow path (23).

delete

In the motor housing of the present invention constructed as described above, the water jacket is connected in such a manner that the longitudinal direction of the water jacket has an arcuate shape and the plate-shaped flow paths formed in the axial direction of the housing main body are zigzag in the circumferential direction of the housing main body, So that it is possible to increase the contact area when the heat generated by the operation of the motor housed inside the housing body is widened, thereby efficiently discharging the heat. This improves motor protection and improves motor performance. In addition, since the water jacket is inserted and cast when the housing body is casted, the water jacket is formed integrally with each other, so that occurrence of leakage can be reduced.

In addition, by filling the flow path of the water jacket with the filler to cast the housing main body, the cooling of the housing main body can be progressed at a uniform speed after casting, so that cracks and water jackets And detachment of the housing main body can be prevented.

In addition, by providing the protrusion on the outer surface of the water jacket, it is possible to improve the strength of the water jacket and the housing body by enhancing the adhesion force between the water jacket and the housing body to increase the coupling force between the water jacket and the housing body.

1 and 2 show a conventional motor housing.
3 is a plan view of the motor housing of the present invention.
4 is a cross-sectional perspective view showing the internal structure of the motor housing of the present invention.
5 is a sectional view showing the internal structure of the motor housing of the present invention.
6 is a perspective view showing a water jacket of the motor housing of the present invention.
7 is a cross-sectional view showing another type of water jacket of the motor housing of the present invention.
8 is a cross-sectional view showing another embodiment of the water jacket of the motor housing of the present invention.
9 is a perspective view showing another embodiment of the water jacket of the motor housing of the present invention.

Hereinafter, the motor housing of the present invention will be described in detail with reference to the drawings.

FIG. 3 is a plan view of the motor housing of the present invention, FIG. 4 is a sectional perspective view showing the internal structure of the motor housing of the present invention, FIG. 5 is a sectional view showing the internal structure of the motor housing of the present invention, 1 is a perspective view showing a water jacket of a motor housing of the present invention.

A motor housing according to the present invention includes a housing body (10) and a water jacket (20).

The housing main body 10 is formed by casting and hollowed inside so that a housing space for accommodating the motor is formed, and is made of a metal material.

The housing body 10 has a lower portion closed and an upper portion opened. A motor is inserted into the accommodation space and covers the cover (not shown) with the opened upper end of the housing body 10 so that the motor shaft is exposed to the outside.

6, the water jacket 20 is provided with cooling water outlets 21 and 22, and a plate-shaped flow passage 23 having an arcuate longitudinal cross section and elongated in the axial direction of the housing main body 10, And is inserted in the inner side of the housing main body 10 when casting the housing main body 10, and is inserted into the inner side of the housing main body 10 when casting the housing main body 10 in a circumferential direction of the housing main body 10 in a staggered manner in the circumferential direction of the housing main body 10 And is formed integrally with the housing main body 10 (see Figs. 4 and 5), and is made of a metal material. The cooling water outlets 21 and 22 are provided to be exposed to the outside of the housing main body 10, as shown in FIG.

Cooling water is introduced into and discharged from the cooling water outlets 21 and 22 to cool the housing main body 10 through the flow path 23 of the water jacket 20 so that the motor housed inside the housing main body 10 is cooled .

The water jacket 20 is formed such that the plate-shaped channel 23 having a longitudinal section in the shape of an arc and extending in the axial direction of the housing body 10 is staggered in the circumferential direction of the housing main body 10 So that it is possible to efficiently discharge the heat by increasing the contact area when absorbing the heat generated by the operation of the motor housed in the housing main body 10 by being formed in the circumferential direction of the housing main body 10. [

The motor housing of the present invention is different from the conventional motor housing in which the flow path formed by the foundry sand is formed. The water jacket 20 is inserted at the time of casting the housing body 10, Since the motor housing in which the motor housing 10 is integrally formed is manufactured, there is no need to remove the molding sand. In addition, even if leakage occurs in the water jacket 20, leakage of water is prevented by the housing body 10 formed integrally with the water jacket 20, which has an advantage that the service life is prolonged.

The water jacket 20 is inserted into the housing main body 10 at the periphery of the flow passage 23 of the water jacket 20 so as to prevent the water jacket 20 inserted by the pressure of the molten metal at the time of casting the housing main body 10 from being collapsed inward. A plurality of ribs 24 spaced apart in the radial direction of the housing main body 10 and extending in the axial direction of the housing main body 10 are protruded (see FIG. 7).

In addition, since the water jacket 20 is made of a metal material when casting the housing body 10, heat is rapidly discharged through the channel 23 of the water jacket 20, so that the water jacket 20 The cooling is progressed rapidly around the flow path 23 of the fuel cell. In this case, since there is a difference in shrinkage rate due to the difference in cooling rate between the periphery of the flow path 23 of the water jacket 20 and the other portions, there is a high possibility that cracks are generated.

Accordingly, in order to prevent the occurrence of cracks that may occur due to the difference in shrinkage ratio caused by the difference in cooling rate, the present invention is characterized in that the water jacket (20) is formed on the inner side of the housing main body And a filling material filled in the flow path 23 of the flow path 20. The filler uses sand.

When the housing main body 10 is cast in a state where the filling material is filled in the flow path 23 of the water jacket 20 during the insert casting of the water jacket 20, So that the cooling of the housing main body 10 can be progressed at a uniform speed, so that cracks and water jackets, which can be generated according to the difference in shrinkage rate caused by the difference in cooling speed, It is possible to prevent the main body from being detached.

The filler is removed from the flow path 23 of the water jacket 20 after the housing body 10 is cooled and hardened.

The water jacket 20 may be formed to increase the coupling force between the housing main body 10 molded at the time of casting the housing main body 10 and the water jacket 20 inserted inside the housing main body 10, The projecting portion 25 is provided on the outer surface of the flow path 23 of the flow path 23.

The protrusions 25 may be of two types.

A plurality of protrusions 25 are formed on the outer surface of the flow passage 23 of the water jacket 20 at a predetermined interval in the radial direction of the housing body 10, . 8, the cross-sectional shape of the protruding portion 25 perpendicular to the axial direction of the housing main body 10 is a concave shape gradually narrowing from the outer surface of the flow passage 23 of the water jacket 20, A semi-circular semicircular portion 25c having a convex portion 25a and a convex portion 25b gradually widening from the concave portion 25a and gradually becoming narrower from the convex portion 25b toward the end .

A plurality of protrusions 25 are formed on the outer surface of the flow path 23 of the water jacket 20 in a matrix spaced apart from each other by a predetermined distance in the radial direction and the circumferential direction of the housing main body 10. 9, the shape of the protruding portion 25 may be a concave portion 25a gradually narrowed in width from the outer surface of the flow path 23 of the water jacket 20 and a concave portion 25a connected to the concave portion 25a And a spherical portion 25d in a spherical shape.

As described above, according to the present invention, since the protrusion is provided on the outer surface of the water jacket 20, the strength of adhesion between the water jacket and the housing main body can be improved to increase the coupling strength between the water jacket and the housing main body.

It is preferable that the heat transfer coefficient of the water jacket 20 is larger than the heat transfer coefficient of the housing main body 10.

The reason for doing this is to move the heat to the portion where the water jacket 20 installed inside the housing main body 10 is installed when the housing body 10 is cooled after casting, The heat is gradually discharged because the filling material is filled. The portion of the housing body 10 where the water jacket 20 of the housing body 10 is installed is cooled first in a portion of the housing body 10 relatively thick in thickness except for the water jacket 20 The cooling of the housing main body 10 as a whole is performed uniformly.

It is further preferable that a metal coating layer having a heat transfer coefficient greater than that of the water jacket 20 is formed on the outer surface of the water jacket 20. If the metal coating layer having a heat transfer coefficient larger than that of the water jacket 20 is formed on the outer surface of the water jacket 20, heat can be smoothly discharged during cooling of the housing body 10, And the attachment strength of the housing main body 10 can be improved.

In addition, the water jacket 20 is preferably formed by casting.

When the water jacket 20 is complicated in shape, it is preferably formed by casting.

The motor housing of the present invention is manufactured as follows.

First, the cooling water inlet and outlet ports 21 and 22 are provided, and a plate-like flow passage 23 having an arcuate longitudinal shape and formed in a long axial direction is connected in a zigzag manner in the circumferential direction, and a water jacket 20 ) Is formed by casting.

Next, the water jacket 20 is disposed inside the mold for forming the housing body 10, and the water jacket 20 is disposed so as to be inserted into the housing body 10 to be formed.

Then, the housing main body 10 is cast so as to be inserted into the housing main body 10 to be formed with the water jacket 20 arranged therein.

At this time, it is preferable to fill the filler inside the flow path 23 of the water jacket 20 before the step of disposing the water jacket 20 or before the step of casting the housing main body 10.

A plurality of protrusions 25 are formed on the outer surface of the flow path 23 of the water jacket 20 at predetermined intervals in the radial direction of the housing main body 10 and elongated in the axial direction of the housing main body 10 .

A plurality of protrusions 25 may be formed on the outer surface of the flow path 23 of the water jacket 20 in the radial and circumferential directions of the housing main body 10.

It is preferable that the heat transfer coefficient of the water jacket 20 is larger than the heat transfer coefficient of the housing main body 10.

If the shape of the water jacket 20 is complicated, the water jacket 20 is preferably formed by casting.

It is preferable that a metal coating layer having a heat transfer coefficient larger than that of the water jacket 20 is formed on the outer surface of the water jacket 20.

The technical idea should not be interpreted as being limited to the above-described embodiment of the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, such modifications and changes are within the scope of protection of the present invention as long as it is obvious to those skilled in the art.

10: Housing body
20: Water jacket
21, 22: cooling water inlet / outlet
23: Euro
24: rib
25: protrusion
25a:
25b:
25c:
25d: spherical portion

Claims (9)

A housing body (10) made of a metal material, the housing body (10) being formed by casting and hollow inside so that a housing space for housing the motor is formed;
Shaped flow passages 23 formed in the axial direction of the housing main body 10 and having a longitudinal section in the shape of an arc and connected to the housing main body 10 in a zigzag manner in the circumferential direction of the housing main body 10 A water jacket formed integrally with the housing body 10 and inserted into the housing body 10 when the housing body 10 is casted, the water jacket being formed integrally with the housing body 10, (20)
The filler is filled in the channel 23 of the water jacket 20 and the water jacket 20 is inserted into the inside of the housing body 10. After the housing body 10 is cooled and hardened, And the filler is removed from the flow passage (23) of the motor housing (20). delete The method according to claim 1,
A plurality of protrusions 25 are formed on the outer surface of the flow path 23 of the water jacket 20 at predetermined intervals in the radial direction of the housing main body 10 and elongated in the axial direction of the housing main body 10 . The method according to claim 1,
Wherein a plurality of protrusions (25) are formed on the outer surface of the flow path (23) of the water jacket (20), the protrusions (25) being formed in a matrix with a predetermined spacing in the radial direction and the circumferential direction of the housing main body (10). The method according to claim 3 or 4,
Wherein a heat transfer coefficient of the water jacket (20) is larger than a heat transfer coefficient of the housing main body (10). 6. The method of claim 5,
Characterized in that the water jacket (20) is formed by casting. The method according to claim 6,
Wherein a metal coating layer having a heat transfer coefficient greater than that of the water jacket (20) is formed on the outer surface of the water jacket (20). The water jacket 20 is provided with cooling water inlets 21 and 22, a plate-shaped flow passage 23 whose longitudinal section has an arcuate shape and which is elongated in the axial direction, connected in a zigzag manner in the circumferential direction, A first step formed by casting;
A second step of arranging the water jacket 20 formed inside the mold for forming the housing main body 10 so that the water jacket 20 can be inserted into the housing main body 10 to be formed;
And a third step of casting the housing main body 10 so as to be inserted into the housing main body 10 to be formed with the water jacket 20 arranged therein,
Filling the filler into the flow path (23) of the water jacket (20) between the first step and the second step or between the second step and the third step; And removing the filler from the flow path (23) of the water jacket (20) after the housing body (10) is hardened. delete

Images