KR102097806B1 - Method of manufacturing the motor housing and water-cooled motor housing for Integral type - Google Patents

Abstract

The present invention relates to an integral water-cooled motor housing. More specifically, the present invention relates to a method for manufacturing an integral water-cooled motor housing which secures structural stability in accordance with integration of the housing, minimizes a defect rate in a manufacturing process, and also simplifies the manufacturing process to be convenient for production and accordingly reduce a production cost. Moreover, thermal conductivity of cooling water in the housing is increased to increase cooling efficiency.

Description

Method of manufacturing the motor housing and water-cooled motor housing for Integral type}

The present invention relates to an integrated water-cooled motor housing, and more particularly, to a method for manufacturing an integrated water-cooled motor housing in which a motor used in an electric vehicle or an unmanned combat vehicle is built in to improve the cooling efficiency and durability of the motor. It is about.

In general, a motor, which is a main component used in an electric vehicle or an unmanned combat vehicle, converts electrical energy into mechanical energy, and the housing, a stator mounted on the housing, and a rotation axis inside the stator are rotatable around the motor It includes a rotor to be inserted.

Here, the stator is composed of a stator core made of an electric steel sheet and a coil wound on the stator core, and a large amount of heat is generated according to the current (AC) applied to the coil, and generated according to the current and the rotating magnet. A eddy current is generated in the stator core by the back electromotive voltage due to the change in magnetic flux.

On the other hand, the motor generates high-temperature heat in the rotor and stator during the operation process. When the coil temperature in the motor increases, the driving and power generation efficiency of the motor not only decreases rapidly, but there is a risk of damage to the motor. Power loss occurs due to a rapid decrease in driving and power generation efficiency, which acts as a factor that decreases the efficiency of the related application dynamometer.

Accordingly, in order to solve the above problems, the motor is continuously cooled to maintain a high driving torque and power generation efficiency of the motor, and the cooling water in the cooling water circuit is cooled while the motor is wrapped using a housing formed with a cooling water circuit. The motor is cooled by supply circulation.

On the other hand, in this conventional housing structure, the inner housing inside the spiral groove is formed to form a cooling water circulation path therein, and the outer housing for closing the cooling water circulation path is separately manufactured, and then the inner housing is connected to the outer housing. The joint is sealed by using press-fitting and welding.

However, the above manufacturing method is not easy to combine when an error occurs in the production of each of the inner housing and the outer housing due to the structural characteristics of manufacturing and combining the inner housing and the outer housing, respectively. During the bonding process of the housing, there was a problem that frequently generated fine gaps or uneven welding due to welding defects.

In addition, the conventional manufacturing method is involved in various working processes such as manufacturing and combining and sealing operations of the inner housing and the outer housing, and thus the manufacturing is very complicated, and thus there is a problem that increases the cost.

Republic of Korea Patent Registration No. 10-0992491.

The present invention was devised to solve the above-mentioned problems, and provides an integral water-cooled motor housing and a method for manufacturing the motor housing to secure structural stability due to the integration of the housing and minimize the defect rate in the manufacturing process. It is an object of the present invention.

In addition, another object of the present invention is to provide an integrated water-cooled motor housing and a method for manufacturing the motor housing for simplifying the manufacturing process, thereby reducing manufacturing cost and manufacturing cost.

In addition, another object of the present invention is to provide an integrated water-cooled motor housing and a method for manufacturing the motor housing for improving the thermal conductivity of the cooling water inside the housing to improve the cooling efficiency.

Specific means for achieving the above object, the lower end of the hollow plate is formed with a support plate protruding circumferentially arranged to open the vertically to the inside of the inner neck;

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A copper tube arrangement process of arranging and fixing a spiral copper tube made of a “copper” material on the outside of the arranged inner neck, spaced apart from the outer circumferential surface of the inner neck using a support, etc .;

An outer neck arrangement process of wrapping the outside of the spiral copper tube at the upper portion of the support plate, spaced apart from the spiral copper tube, and arranged to form an external neck through which the center is formed so as to form a cavity in which the spiral copper tube is accommodated;

A cover joining process in which the open top of the cavity is closed by using a finishing cover formed in an inlet for injecting aluminum melt into the cavity in communication with the cavity;

A molding process for molding the motor housing by injecting aluminum melt into the cavity through the injection hole of the finishing cover; And

It can be achieved by performing a demolding process to separate the finished housing by removing the inner and outer necks while the injected aluminum melt is solidified.

As described above, the integrated water-cooled motor housing of the present invention and the method for manufacturing the motor housing have a structure in which the housing itself is integrally formed, so that the durability is further improved, the defect rate is minimized in the manufacturing process, and particularly, the production of the gap is completely blocked. It is possible to obtain the effect of securing structural stability, such as reducing the defect rate at and completely preventing leakage of cooling water during use.

In addition, since it can be molded by casting once, the production is very convenient, and thus the production cost can be significantly reduced.

In addition, since a spiral spiral tube is formed inside the housing to improve the thermal conductivity, it is possible to obtain an effect that the cooling efficiency is further improved by improving the thermal conductivity.

1 is a perspective view of the present invention integral water-cooled motor housing.
Figure 2 is a plan view of the present invention integral water-cooled motor housing.
Figure 3 is a side cross-sectional view of the present invention integral water-cooled motor housing.
Figure 4 is an embodiment of a spiral copper tube of the present invention integrated water-cooled motor housing.
Figure 5 is a state of use of the present invention integral water-cooled motor housing.
Figure 6 is an overall process diagram showing a method for manufacturing an integrated water-cooled motor housing of the present invention.
Figure 7 is a schematic diagram of the arrangement process of the inner neck of the method for manufacturing an integrated water-cooled motor housing of the present invention.
8 is a simplified view of the copper tube arrangement process of the method for manufacturing an integrated water-cooled motor housing of the present invention.
Figure 9 is a schematic diagram of the outer wood arrangement process of the method for manufacturing an integrated water-cooled motor housing of the present invention.
10 is a schematic diagram of a cover coupling process of the method for manufacturing an integrated water-cooled motor housing of the present invention.
11 is a simplified drawing process of the method for manufacturing an integrated water-cooled motor housing of the present invention.
12 is a schematic view of the demoulding process of the method for manufacturing an integrated water-cooled motor housing of the present invention.

The terms or words used in the specification and claims should not be interpreted as being limited to ordinary or dictionary meanings, and the inventor can appropriately define the concept of terms in order to best describe his or her invention. Based on the principle that it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention.

Therefore, the configuration shown in the embodiments and drawings described in this specification is only one of the most preferred embodiments of the present invention, and does not represent all of the technical spirit of the present invention, and can replace them at the time of this application. It should be understood that there may be various equivalents and variations.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, looking at the present invention integral water-cooled motor housing (1),

1 is a perspective view of the present invention integral water-cooled motor housing, FIG. 2 is a plan view of the invention integral water-cooled motor housing, and FIG. 3 is a side sectional view of the invention integral water-cooled motor housing.

1 to 3, the present invention integral water-cooled motor housing 1 is composed of a housing body 100 and a spiral copper tube 200.

First, the housing body 100 is configured to form a foundation in constructing the present invention integral water-cooled motor housing 1, and is composed of an excellent aluminum material with excellent thermal conductivity and allows the rotor of a motor (not shown in the drawing) to penetrate. It is configured to form a tube through which the center is penetrated.

In addition, the housing body 100 is configured with a flange portion 110 for installing the integrated water-cooled motor housing 1 of the present invention in a device in which the motor is installed, etc. around the rear end of the motor.

In addition, the housing body 100 is configured with a stator seating groove 120 so that the stator of the motor is inserted and seated from the rear end thereof.

At this time, the diameter of the depth (H) corresponding to the length of the stator and the diameter corresponding to the diameter (D) of the stator from the rear end of the housing body (100) of the stator seating groove (120), the diameter of the central through diameter (D1) The step is configured to achieve a more extended diameter.

In addition, the housing main body 100 has an inlet 130 and an outlet 140 connected to both ends of a spiral copper tube 200 to be described later on its outer circumference.

The spiral tube 200 is configured to enable circulation of cooling water inside the housing body 100 in the construction of the present invention integral water-cooled motor housing 1, and is made of a “copper” material having excellent thermal conductivity.

At this time, the spiral copper tube 200 is configured to form a spiral shape that allows the flow of cooling water to be hollow by repeatedly wrapping the circumference of the stator installed in the stator seating groove 120, and the thickness (T) of the housing body 100 ), One end is connected to the inlet 130 of the housing body 100, the other end is configured to be connected to the outlet 140 of the housing body 100.

On the other hand, in the construction of the present invention integral water-cooled motor housing 1, the spiral copper tube 200 is not limited, and can be variously configured.

To this end, the spiral copper tube 200 may be configured to form a “circular” shape or a “elliptical” shape in cross section as shown in (a) with reference to FIG. 4, or may be configured to form a “rectangular” shape in cross section. When configured in the form of a "striking type", its cross-sectional area is increased, and the heat exchange area with the stator is further increased.

That is, the integrated water-cooled motor housing 1 according to the present invention refers to FIG. 5, and the housing body 100 is mounted on an electric vehicle or an unmanned combat vehicle 5 through a flange portion 110, and the housing body 100 The stator seating groove 120 is configured such that the stator 3 of the motor 2 is inserted and mounted, and the rotor 4 is built in the center of the stator 3.

In addition, a common cooling water supply pipe 6 is connected to one end of the spiral copper pipe 200 at the inlet 130 of the housing body 100, and a cooling water recovery pipe 7 is provided at the outlet 140 of the spiral copper pipe 200. It is configured to be connected to the other end.

Accordingly, when cooling water is supplied in the process of driving the motor 2, the cooling water flows into the spiral tube 200 through the inlet 130 of the housing body 100 and in the process of turning the spiral tube 200 Cooling is possible by heat exchange with the heat of the stator (3).

That is, in the integrated water-cooled motor housing 1 of the present invention, the housing body 100 forms a single cylindrical shape, and the spiral tube 200 is configured to be integrally inserted into the interior of the housing body 100. The gap inside the spiral spiral tube 200 is completely blocked, so that the defect rate in the manufacturing process is minimized, and even if it is used for a long time, its durability is further improved and stability is secured at the same time, even if it is used for a long time. do.

In addition, since the spiral copper tube 200 having excellent thermal conductivity is configured inside the housing body 100, the cooling efficiency is further improved.

Hereinafter, a method for manufacturing an integrated water-cooled motor housing of the present invention having the above-described configuration will be described in detail with reference to the accompanying drawings.

Figure 6 is an overall process diagram showing a method for manufacturing an integrated water-cooled motor housing of the present invention.

As shown in FIG. 6, the method of manufacturing the integrated water-cooled motor housing according to the present invention includes an inner wood batching process (S100), a copper tube placing process (S200), an outer wood placing process (S300), a cover coupling process (S400), and molding. The process (S500) and the demoulding process (S600) are performed.

First, the inner wood batching process (S100),

The inner neck 10 for forming the inner diameter of the integrated water-cooled motor housing 1 of the present invention is installed.

To this end, referring to FIG. 7, a hollow inner neck 10 having a support plate 11 protruding around it is disposed vertically so that the open portion faces the upper portion.

At this time, a seating groove forming protrusion 12 for forming a stator seating groove 120 of the housing body 100 is formed on an outer circumference of the inner neck 10.

Then, the copper tube arrangement step (S200),

The spiral copper tube 200 for circulating the cooling water in the integrated water-cooled motor housing 1 of the present invention is arranged.

To this end, a spiral copper pipe 200 made of a “copper” material is disposed around the inner neck 10 arranged with reference to FIG. 8, but when the arrangement is performed, a spiral copper pipe 200 is used using a support 21. The inner circumference 10 may be arranged and fixed at a predetermined distance from the outer circumferential surface.

Subsequently, the external tree arrangement process (S300),

The outer neck 30 for forming the outer circumference of the integrated water-cooled motor housing 1 of the present invention is installed.

To this end, with reference to FIG. 9, an outer die 30 through which a center is penetrated is disposed on the upper portion of the support plate 11, but the inner circumferential surface of the outer die 30 is spaced apart from the spiral tube 200 during the arrangement. The cavity 10 in the form of an injectable space of an aluminum melt, which will be described later, is formed between the die 10 and the outer die 30.

At this time, first, the flange 30 forming groove 31 for forming the flange portion 110 of the housing body 100 is formed at the end of the inner circumferential surface of the outer neck 30 to be disposed.

In addition, the outer neck 30 is composed of an inlet forming part 32 and an outlet forming part 33 for forming an inlet 130 and an outlet 140 capable of introducing and discharging cooling water to its outer circumference, wherein It is sufficient to adjust both ends of the arranged spiral copper tube 200 to be located in the inlet forming portion 32 and the outlet forming portion 33.

Thus, the cavity (C) is to form a shape corresponding to the shape of the housing body 100 of the present invention integral water-cooled motor housing (1).

Then, the cover bonding process (S400),

In order to form the integrated water-cooled motor housing 1 of the present invention, the open top of the cavity C is closed.

To this end, using the finishing cover 40 with reference to FIG. 10, the finishing cover 40 is configured to form a circular plate, and at least one or more to allow injection of aluminum melt into the cavity C The inlet 41 is configured, and covers the upper ends of the inner neck 10 and the outer neck 30 so that the inlet 41 is in communication with the cavity C at the time of closing.

Thereafter, the molding process (S500),

The present invention is formed by injecting an aluminum melt for molding the integral water-cooled motor housing 1.

To this end, referring to FIG. 11, the aluminum melt may be injected through the injection hole 41 of the finishing cover 40, and the injected aluminum melt is injected into the cavity C to form an integrated water-cooled motor housing 1 of the present invention. The externally shaped and arranged spiral copper tube 200 is fixed.

Thereafter, the demoulding process (S600),

The inner neck 10 and the outer neck 30 arranged to form the integral water-cooled motor housing 1 of the present invention are demolded.

To this end, when the aluminum melt injected with reference to FIG. 12 is cooled and solidified, in contrast to the above arrangement, the outer mold 30 and the inner mold 10 are sequentially removed and the molded integral water-cooled motor housing 1 is extracted. do.

That is, the method for manufacturing an integrally water-cooled motor housing according to the present invention does not go through an assembly process in a state in which a normal inner housing and an outer housing are separately manufactured, but an inner neck 10, a spiral tube 200, and an outer neck 30. Since the aluminum melt is injected and solidified in this arranged state, the integrated water-cooled motor housing 1 can be molded and manufactured, which is very convenient in accordance with process simplification, and enables significant reduction in manufacturing cost.

In addition, since the gap with the inside of the spiral copper pipe 200 through which the cooling water flows in the manufacturing process is possible to be completely blocked, defect factors due to the occurrence of the most problematic gap in the manufacturing process are completely eliminated.

100: housing body 110: flange portion
120: stator seating groove 130: inlet
140: outlet
200: spiral tube
S100: Internal wood batching process S200: Copper tube batching process
S300: External wood batching process S400: Cover bonding process
S500: Molding process S600: Molding process

Claims (4)

delete delete In the method of manufacturing a water-cooled motor housing,
At the bottom, a support plate 11 protruding to the circumference is formed, and a hollow inner neck 10 having a seating groove forming protrusion 12 for forming the stator seating groove 120 of the housing body 100 is formed on the outer circumference. An inner-neck arrangement process (S100) of vertically placing to open upward;
A copper tube placement process (S200) in which a spiral copper tube 200 made of a “copper” material is disposed outside the placed inner neck 10, and is fixed and spaced apart from the outer circumferential surface of the inner neck 10 using a support 21 );
Cavity (C) that wraps the outside of the spiral copper tube 200 at the upper part of the support plate 11 and is spaced apart from the spiral copper tube 200 and accommodates the spiral copper tube 200 between the inner wood 10 The center is penetrated so as to be formed, a flange portion forming groove 31 for forming the flange portion 110 of the housing body 100 on the inner circumferential surface, and an inlet 130 and an outlet through which both ends of the spiral tube 200 are introduced. An outer neck placing process (S300) for arranging the outer neck 30 provided with the inlet forming part 32 and the outlet forming part 33 for forming the 140;
A cover coupling process (S400) of closing the open top of the cavity (C) by using a closing cover (40) having an inlet (41) for injecting aluminum melt into the cavity (C) in communication with the cavity (C);
A molding process (S500) of molding the motor housing by injecting aluminum melt into the cavity (C) through the injection hole (41) of the closing cover (40); And
A method for manufacturing an integrated water-cooled motor housing, characterized in that by performing a demolding step (S600) of separating the finished housing by removing the inner neck 10 and the outer neck 30 while the injected aluminum melt is solidified. delete

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