KR101520301B1 - Method for Manufaturing Air-Cooled Housing Module of Motor - Google Patents

Abstract

The present invention relates to a method for manufacturing an air-cooled housing module for a motor capable of being easily operated and manufactured and improving heat radiation efficiency. The method includes a step of attaching a molding material leakage prevention unit to the outer wall of a heat radiation part (114) to prevent the leakage of a molding material from the inside of the heat radiation part (114) having a foaming agent in a mold process to the outer wall of the heat radiation part (114); a step of arranging the heat radiation part (114) having the molding material leakage prevention unit in a mold frame; a step of arranging a core in the heat radiation part (114); a step of injecting a molding material between the core and the heat radiation part (114); a step of separating a housing (112) formed by hardening the molding material and the heat radiation part (114) from the mold frame; and a step of removing the molding material leakage prevention unit attached to the outer wall of the heat radiation part (114).

Description

TECHNICAL FIELD [0001] The present invention relates to a method of manufacturing an air-cooled housing module for a motor,

The present invention relates to a method of manufacturing an air-cooled housing module for a motor, and more particularly, to a method of manufacturing an air-cooled housing module for a motor, which is easy to handle and manufacture and can enhance a heat radiating effect.

Generally, a motor includes a stator which is fixed inside a body of a motor and is supplied with power, a rotor which is rotated by the power supply of the stator and has a rotating shaft at its center, And a motor housing for supporting the axis of the electron.

In the motor having such a structure, heat is generated internally by the interaction of the stator and the rotor, and the generated heat is absorbed by the motor, such as deforming the internal material of the rotor and the stator of the motor, Lt; RTI ID = 0.0 > and / or < / RTI >

Accordingly, the motor is provided with a cooling means for cooling the heat. Usually, a heat-radiating frame is attached to the motor housing in Korean Registered Utility Model No. 20-0260280, To cool the heat generated by the motor.

When the motor is cooled using the air in this way, the contact area where the cooling means (i.e., the heat-radiating frame or the heat-radiating case) is in contact with the air should be widened to enhance the cooling effect. Should be minimized.

However, in the conventional techniques, if the interval between the concave and convex portions is too small, the flow of air is not smooth and the heat radiating effect is lowered. If the interval between the concave and convex portions is made small, the weight of the cooling means is increased, An inconvenient problem arises.

Registration Utility Model No. 20-0260280 Patent Registration No. 10-1250176

SUMMARY OF THE INVENTION An object of the present invention is to provide a method of manufacturing an air-cooled housing module for a motor, which can be easily handled and manufactured, and can enhance a heat radiating effect.

In order to accomplish the above object, the present invention provides a method of manufacturing an air-cooled housing module for a motor, the method comprising the steps of: preventing leakage of a casting from an inner side of a heat- Attaching casting leakage preventing means to an outer wall of the heat dissipating unit (114); Disposing a heat dissipation unit (114) having casting leakage preventing means on the outer wall inside the flask; Disposing a core inside the heat dissipation unit (114); Injecting a casting material between the core and the inner surface of the heat radiating portion 114; Separating the housing (112) and the heat radiating portion (114), which are formed by hardening the casting, from the flask; And removing the casting leakage preventing means attached to the outer wall of the heat dissipating unit 114.

In the present invention, the heat dissipation unit 114 is formed in one of a cylindrical shape and a semi-cylindrical shape.

In the present invention, when the heat dissipating unit 114 is formed as a semi-cylindrical shape, the heat dissipating unit 114 is disposed in the inside of the flask so as to have a cylindrical shape.

In the present invention, the step of attaching the casting leakage preventing means may include the steps of preparing an attachment made of sand or gypsum; Mixing water with the deposit; And adhering an adhering material mixed with water to the outer wall of the heat dissipating unit 114. [

In the present invention, the casting leakage preventing means is attached to the outer wall of the heat dissipating unit 114 so as to be infiltrated from the outer wall of the heat dissipating unit 114 toward the inner side by 1/5 to 4/5.

As described above, according to the present invention, since the heat dissipating part is formed of a cylindrical foam, it is easy to handle because it is light, and the heat dissipation effect can be improved because it is formed as a foam so that the heat dissipating part has a large contact area with air, Since the heat dissipating unit and the housing are integrally formed, it is easy to manufacture the housing module.

1 is a schematic view showing a method of manufacturing an air-cooled housing module for a motor according to an embodiment of the present invention.
FIG. 2 is a view showing an air-cooled housing module for a motor manufactured by the manufacturing method shown in FIG. 1. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the detailed description of known functions and configurations incorporated herein will be omitted when it may unnecessarily obscure the subject matter of the present invention.

The same reference numerals are used for portions having similar functions and functions throughout the drawings.

In addition, when a part is referred to as being "connected" with another part throughout the specification, it includes not only a direct connection but also indirectly connecting the other parts with each other in between. Also, to "include" an element does not exclude other elements unless specifically stated otherwise, but may also include other elements.

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

FIG. 1 is a schematic view showing a method of manufacturing an air-cooled housing module for a motor according to an embodiment of the present invention, and FIG. 2 is a view showing an air-cooled housing module for a motor manufactured by the manufacturing method shown in FIG.

As shown in FIGS. 1 and 2, a method of manufacturing an air-cooled housing module for a motor according to an embodiment of the present invention includes preparing a heat dissipating unit 114 formed of a foam.

At this time, the heat dissipation unit 114 is formed in either one of a cylindrical shape and a semi-cylindrical shape, and is made of metal such as copper or aluminum.

In order to prevent the casting from leaking from the inside of the heat dissipating unit 114 to the external wall of the heat dissipating unit 114 when the heat dissipating unit 114 is prepared, Attach means.

When the casting leakage preventing means is attached to the outer wall of the heat dissipating unit 114 as described above, any one of sand and gypsum may be prepared as an attachment to be adhered to the outer wall of the heat dissipating unit 114, Gypsum) is mixed with water.

In this case, the reason why the water is mixed with the deposit is to smoothly penetrate the casting leakage preventing means from the outer surface of the heat dissipating unit 114 formed of foam to the inside of the heat dissipating unit 114.

On the other hand, since the water mixed with the deposit is evaporated due to the high temperature of the casting when the casting material is injected into the inner surface of the heat dissipating unit 114 by gravity casting, the heat dissipating unit 114 is attached to the outer wall of the housing 112 The casting leakage preventing means is easily separated from the heat dissipating portion 114 on the outer wall of the heat dissipating portion 114 after the housing module 110 in which the housing 112 and the heat dissipating portion 114 are integrally formed is completed.

After the water is mixed with the adhered material, the adhered material mixed with the water is adhered to the outer wall of the heat-dissipating portion 114.

At this time, when the depth of penetration of the casting leakage preventing means from the outer wall of the heat dissipating unit 114 to the inner side is less than 1/5 of the thickness of the heat dissipating unit 114, the heat dissipating unit 114, If the depth of penetration of the casting leakage preventing means from the outer wall of the heat dissipating portion 114 to the inner side is 4/5 or more of the thickness of the heat dissipating portion 114 The coupling between the heat dissipation unit 114 and the housing 112 formed thereafter may be deteriorated to separate the housing 112 and the heat dissipation unit 114 from each other. It is preferable to attach to the outer wall of the heat dissipating unit 114 so as to be penetrated from the outer wall of the heat dissipating unit 114 to the inner side by about 1/5 to 4/5.

When the casting leakage preventing means is attached to the outer wall of the heat dissipating unit 114 as described above, the heat dissipating unit 114 having the casting leakage preventing means attached to the outer wall is disposed inside the flask, .

In this case, when the heat dissipation unit 114 is formed into a cylindrical shape, one heat dissipation unit 114 is disposed inside the flask, and when the heat dissipation unit 114 is formed into a semi-cylindrical shape, Two heat dissipating units 114 are disposed inside the flask.

The core formed in the same shape as the inner surface of the heat dissipating unit 114 is formed in a shape such that the housing 112 formed inside the heat dissipating unit 114 has a uniform thickness, And is disposed at an inner side of the heat dissipating unit 114 so as to be spaced apart from the inner surface of the heat dissipating unit 114 by a predetermined distance.

After the core is disposed inside the heat dissipation unit 114, the casting material is injected into the space between the heat dissipation unit 114 and the core.

At this time, the casting material is injected into the space between the heat dissipating unit 114 and the core by gravity, and is made of a melt of an aluminum alloy.

When the casting material injected into the space between the heat dissipating unit 114 and the core is hardened by the surrounding air and the water contained in the casting leakage preventing unit and formed into the housing 112, the housing 112 and the heat dissipating unit 114 Is separated from the flask.

Thereafter, casting leakage preventing means attached to the outer wall of the heat dissipating unit 114 is removed from the outer wall of the heat dissipating unit 114.

As described above, in the method of manufacturing the air-cooled housing module for a motor according to the embodiment of the present invention, the heat dissipating part 114 is formed of a cylindrical foam so that the heat dissipating part 114 can be easily handled, The heat dissipation effect can be enhanced and the housing module 110 can be easily manufactured because the heat dissipating unit 114 and the housing 112 are integrally formed using gravity casting.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention. Therefore, the scope of the present invention should not be limited to the embodiments described, but should be defined by the following claims as well as equivalents thereof.

110: housing module 112: housing
114:

Claims (5)

Attaching casting leakage preventing means to the outer wall of the heat dissipating unit 114 to prevent the casting from leaking from the inside of the heat dissipating unit 114 formed as a foam during the casting process to the outer wall of the heat dissipating unit 114;
Disposing a heat dissipation unit (114) having casting leakage preventing means on the outer wall inside the flask;
Disposing a core inside the heat dissipation unit (114);
Injecting a casting material between the core and the inner surface of the heat radiating portion 114;
Separating the housing (112) and the heat radiating portion (114), which are formed by hardening the casting, from the flask; And
And removing the casting leakage preventing means attached to the outer wall of the heat dissipating unit (114). The method according to claim 1,
Wherein the heat dissipating unit (114) is formed in one of a cylindrical shape and a semi-cylindrical shape. The method of claim 2,
The method of claim 1, wherein the heat dissipating unit (114) is formed in a cylindrical shape when the heat dissipating unit (114) is formed in a semi-cylindrical shape. The method according to claim 1,
The step of attaching the casting leakage preventing means comprises:
Preparing an adhering material composed of any one of sand and plaster;
Mixing water with the deposit; And
And attaching an adhering material mixed with water to an outer wall of the heat dissipating unit (114). The method according to claim 1,
Wherein the casting leakage preventing means is attached to the outer wall of the heat dissipating unit 114 so as to be infiltrated from the outer wall of the heat dissipating unit 114 inwardly by 1/5 to 4/5.

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