KR101624588B1 - Method for Manufacturing Small Motor Case having Bearing Reception Part Using Thin Metallic Material - Google Patents

Abstract

The method for manufacturing a motor case according to the present invention is a method for manufacturing a motor case made of metal having a case part (10) and a bearing part (20) formed at the center of the upper end of the case part A blanking step of blanking the sheet material into a press forming apparatus in which a series of punches or dies are successively formed in each step so as to supply the sheet material as a circular material; A first top drawing step of machining the bearing part of the material supplied to form the bearing part (20) before the case part (10) into a convex shape by striking the periphery of the part to be molded from below to above; A second top drawing step of bending from the bottom to the top so as to reduce the diameter and height of the convex bearing portion; A third top drawing step of forming a space portion in which the bearing is engaged in a convex shape by hitting the center portion of the convex portion upward by decreasing the diameter; A fourth top drawing step of hitting the convexly shaped bearing portion from top to bottom so that the space into which the bearing is inserted is projected downward; A top sizing process for finely machining the dimensions and shape of the bearing portion and flattening the periphery of the bearing portion; A case part drawing step for forming a cup-shaped case part 10 on the material forming the bearing part; And a case portion deep drawing process for reducing the diameter and length of the cup shape.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of manufacturing a small motor case having a bearing portion using a thin metal material,

The present invention relates to a method of manufacturing a motor case. More particularly, the present invention relates to a method of manufacturing a small motor case in which productivity is improved by continuous processes using a thin metal material and the quality of the motor case is improved.

Generally, when manufacturing a motor case (also called a yoke housing) made of metal, a punch and a mold, which are formed continuously by a series of successive transfer dies, are also used. 1, the bearing portion 20 is shown on a motor case formed on the upper end of the case portion 10. As shown in Fig. The motor case of this type is characterized in that the upper portion of the bearing portion 20 is not protruded to the upper portion of the motor case but the bearing portion 20 is formed protruding downward from the inside of the upper portion of the motor case, . Among these methods of manufacturing a motor case, Korean Patent No. 10-1028752 discloses a method of molding a motor case made of metal on which a bearing portion is formed by a continuous drawing process.

In this patent, the circular plate member is first molded by the drawing process in the case portion 10 of the motor case by the continuous press operation, and then, in order to form the bearing portion 20, The motor case is manufactured. In each step, the transfer of the metal material is carried out by a transfer device, which is a transfer device.

However, since the molding of the bearing portion 20 is performed after the molding of the case portion 10 in this patent, the shape of the case portion 10 must be included in the shape of the mold for molding the bearing portion 20, It is possible to perform the molding operation of the mold 20, which makes the mold somewhat complicated. The process of molding the bearing portion 20 is a process because the shape of the case portion 10 must be applied to the mold in each process. Further, in the case of a small-sized motor product having a diameter of about 20 Φ or less, when the bearing portion 20 is to be molded at the upper end of the case portion 10 in a state in which the case portion 10 is first molded, There is a problem in that it is difficult to process because of a small diameter and it is difficult to form into a precise shape. In addition, in the above patent, transfer is used for transferring the material, and molding of a small motor using a progressive mold is difficult.

Meanwhile, in the above patent, the convex portion is formed in the top drawing process for forming the bearing portion, and then the convex portion is struck downward in the reverse drawing process to form the bearing insertion space. When the reverse drawing process is applied, there is a high possibility that the bearing insertion space is not formed and the material is destroyed unless the thickness of the material is secured to some extent. In particular, when the thickness of the material is 1.2 T or less, it is very difficult to continuously perform the top drawing process and the reverse drawing process.

In order to solve the above-described problems, the present inventor proposes a method of manufacturing a motor case, which is capable of forming a bearing portion even with a thin metal material and is also suitable for molding a small motor case.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method of manufacturing a motor case using a thin metal material and having a bearing portion with improved productivity and product quality.

Another object of the present invention is to provide a method of manufacturing a motor case having a bearing portion suitable for manufacturing a small motor case.

It is still another object of the present invention to provide a method of manufacturing a motor case in which a continuous progressive mold can be applied.

The above objects and other intrinsic objects of the present invention can be easily achieved by the present invention described below.

A method of manufacturing a motor case according to the present invention includes:

A method of manufacturing a metal case motor case having a case part (10) and a bearing part (20) formed at the center of the upper end of the case part (10)

A blanking step of blanking the plate material into a press forming device in which a series of punches or dies are successively formed in each step for manufacturing the motor case, and supplying the plate material as a circular material;

A first top drawing step of machining the bearing part of the material supplied to form the bearing part (20) before the case part (10) into a convex shape by striking the periphery of the part to be molded from below to above;

A second top drawing step of striking from the bottom to the top so as to reduce the diameter and height of the convexly shaped bearing portion formed in the first top drawing step;

A third top drawing step of forming a space portion in which the bearing is engaged by convexly bending the central portion of the convex portion by reducing the diameter formed in the second top drawing process;

A fourth top drawing step of hitting the upper convex bearing part formed in the third top drawing step from top to bottom so that a space into which the bearing is inserted is projected downward;

A top sizing step of finishing the dimensions and shape of the bearing part formed in the fourth top drawing step and making the periphery of the bearing part flat;

A case part drawing step for forming a cup-shaped case part 10 on the material forming the bearing part; And

A case portion deep drawing process for reducing the diameter and length of the cup shape formed in the case portion drawing process;

.

The present invention may further include a forming step of forming a plurality of rectangular projecting portions 30 around the lower end of the case portion 10 of the motor case after the case portion deep drawing process.

The present invention may further include a trimming and piercing process for cutting out unnecessary circumferential portions to form the circumferential shape of the lower end portion of the motor case after the case portion deep drawing process and drilling the hole 40 in a necessary portion It is also good.

The present invention provides a method of manufacturing a motor case having a bearing portion capable of improving the productivity and quality of a product even with a thin metal material, being suitable for manufacturing a small motor case, and capable of applying a continuous progressive metal mold . Of course, the present invention is applicable to a motor case of a larger size than a small motor.

1 is a perspective view showing the shape of a motor case having a bearing portion.
2 is a flowchart showing the entire process of a method of manufacturing a motor case having a bearing portion according to the present invention.
3 is a perspective view showing a shape of a product in a blanking process as a first step of a method of manufacturing a motor case having a bearing portion according to the present invention.
4 is a perspective view showing a shape of a product in a first top drawing process, which is a second step in the method of manufacturing a motor case having a bearing portion according to the present invention.
5 is a perspective view showing a shape of a product in a second top drawing process, which is a third step in the method of manufacturing a motor case having a bearing part according to the present invention.
6 is a perspective view showing a shape of a product in a third top drawing process, which is a fourth step in the method of manufacturing a motor case having a bearing portion according to the present invention.
7 is a perspective view showing a shape of a product in a fourth top drawing process, which is the fifth step of the method for manufacturing a motor case having a bearing portion according to the present invention.
8 is a perspective view showing a shape of a product in a top sizing step, which is the sixth step of the method for manufacturing a motor case having a bearing part according to the present invention.
FIG. 9 is a perspective view showing a shape of a product in a case part drawing process, which is the seventh step in the method of manufacturing a motor case having a bearing part according to the present invention.
10 is a perspective view showing a shape of a product in a case part drawing step which is an eighth step of a method of manufacturing a motor case having a bearing part according to the present invention.
Fig. 11 is a perspective view showing the shape of a product in the foaming step, which is the ninth step of the method for manufacturing a motor case having a bearing portion according to the present invention.
12 is a perspective view showing a shape of a product in the trimming and piercing process which is the tenth step of the method of manufacturing the motor case having the bearing part according to the present invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a flowchart showing an overall process of a method of manufacturing a motor case having a bearing portion using a thin metal according to the present invention. Hereinafter, each step of the present invention will be described with reference to FIG. 2 and other drawings. 1 shows a finished product of a motor case manufactured according to a method of manufacturing a motor case according to the present invention. The motor case comprises a cup-shaped case part 10 and a bearing part 20 formed at the center of the upper end of the case part 10. A bearing for supporting the rotation of the motor rotation shaft is coupled to the inside of the bearing portion 20. [

Referring to FIG. 2, the first step is a material supplying process. In order to supply a material to a press forming apparatus in which a series of punches or dies are successively formed for each step in order to manufacture a motor case, . The shape of the material to be blanked and supplied for molding is shown in Fig. A plurality of such processed circular materials are supplied to the press forming apparatus in series and continuously. In the case of progressive molds, the materials of each step are supplied sequentially in a connected state. On the other hand, the blanking process may be performed separately from the entire press molding apparatus, or may be operated as a part of the entire press molding apparatus.

The second step is a first top drawing step in which the bearing portion 10 to be formed on the circular material supplied in the first step is drawn upward in a convex shape to form the bearing portion 10 of the motor case first. In the second step, it is preferable that the upper mold of the press is provided with a mold for forming a convexly formed portion of the material and a lower mold is provided with a punch for projecting a convex portion. However, But it is also possible to change the position or shape of the mold or punch to apply the shape of the bearing part. For the convex shape, the punch of the lower die strikes the lower part of the center of the material from below to perform the drawing process. Fig. 4 shows the shape of the product that has been formed in the second step. The molded product is transferred to the next step by transfer or carrier. By applying such a transferring method and a press working method to every step of the present invention, it is possible to continuously form several steps even if the press operates once.

The third step is a second top drawing step of reducing the diameter and height of the convex portion formed in the second step by the drawing process for forming the bearing portion of the motor case. For this purpose, it is preferable that the upper mold of the press is provided with a mold having a shape for accommodating the convex portion and the lower mold is formed with a punch protruded upward, but it is not limited to such punch and mold. The position or shape of the punch or the mold may be modified and applied. Figure 5 shows the shape of the product after the second top drawing process.

In the fourth step, the diameter formed in the third step is reduced by the third top drawing step, and the center portion of the convex portion is struck up to reduce the diameter and height, and the space portion to which the bearing is coupled is formed in a convex shape . For this purpose, it is preferable that the upper mold of the press is provided with a mold having a shape corresponding to the shape of the upper portion of the bearing portion, and the lower mold is formed with a punch protruding corresponding to the inner space of the bearing portion. However, no. Fig. 6 shows the shape of the product in which the molding of the fourth step is completed.

The fifth step is a fourth top drawing step in which the upper convex bearing portion formed in the fourth step is hit from top to bottom so that the space into which the bearing is inserted is projected downward. For this purpose, it is preferable that the upper mold of the press is provided with a mold corresponding to the shape of the upper portion of the bearing portion, and the lower mold is provided with a punch having a shape corresponding to the space in which the bearing at the lower portion of the bearing portion is inserted. The position and shape of the mold or the punch may be changed as long as they have the shape shown in Fig. Fig. 7 shows the shape of the product molded in the fifth step.

The sixth step is a top sizing step, in which the dimensions and shape of the bearing part formed in the fourth step are finely processed and the periphery of the bearing part is flattened. For this purpose, it is preferable that the upper part of the press is pressed with the upper surface of the bearing part by the flat metal mold, and the lower part is provided with the punch having the shape of the center of the bearing part and the metal mold for forming the shape of the peripheral part of the bearing part , It is not necessarily limited to these molds and punches, and the position or shape of the mold or punch may be modified and applied as necessary. The shape of the finished product in the sixth step is shown in Fig.

The seventh step is a drawing process for forming the cup-shaped case part 10 in a state in which the bearing part is formed through the process from the case part drawing process to the sixth step. For this purpose, it is preferable that the upper mold of the press has a cup-shaped mold and the lower mold has a shape of a punch protruding upward. However, it is not necessarily limited to the molds and punches having such a shape, The shape and position of the mold or punch can be changed and applied. The shape of the finished product of the seventh step is shown in Fig.

The eighth step is a case-deep drawing step, which reduces the diameter of the case portion formed in the seventh step and increases the length (or height). For this purpose, it is preferable that the upper mold of the press has a cup-shaped mold whose diameter is decreased and the length is increased rather than that of the seventh step, and the lower mold has a shape of a punch projecting upwardly. However, But it is also possible to change the shape and position of the mold or the punch for molding the case 10. Fig. 10 shows the shape of the product in which the eighth step molding is completed. When the eighth step process is completed, the molding of the basic shape of the motor case having the bearing portion is completed. The subsequent step is a finishing step.

The ninth step is a step of forming a plurality of rectangular projections 30 around the lower end of the case 10 of the motor case completed in the eighth step. For this purpose, it is preferable that a mold having a shape corresponding to the rectangular projecting portion 30 is formed on the upper mold of the press and a punch for forming the rectangular projecting portion 30 is formed on the lower portion. However, it is not limited to such a mold or punch, The position and shape of the punch or mold may be modified as required. The rectangular projecting portion 30 is formed for the purpose of coupling the end cover to the motor casing and preventing rotation, and may not be formed according to the type and specification of the motor. That is, the ninth step may not be performed according to the specification of the motor case as an optional step, and may be performed after the tenth step. The shape of the product after the ninth step is shown in Fig.

In the tenth step, unnecessary circumferential portions are cut to form the circumferential shape of the lower end of the motor case by the trimming and piercing process, and at the same time, a piercing operation is performed for piercing the hole 40 in a necessary portion. For this purpose, it is preferable to form a cutter in the mold for the upper mold of the press and a punch for punching the holes in the lower mold, but it is not limited to such a mold or a punch, and various positions of cutters or punches may be selected You may. The shape of the product after the tenth step is shown in Fig. The tenth step is also one of the finishing processes and is selectively performed as needed. If necessary, trimming or piercing may be performed by a separate process.

The motor case manufactured through such steps has a precise dimension and a high degree of flatness to improve the quality of the product, and the productivity is improved by the continuous process. Further, since the bearing part is first formed, Which is difficult to be applied to a progressive mold, and the like.

It is to be understood that the foregoing detailed description of the present invention has been presented for illustrative purposes only and is not intended to limit the scope of the present invention. It is intended that the scope of the invention be defined by the claims appended hereto and that all such modifications and variations are intended to be included within the scope of the present invention.

10: Case part 20: Bearing part
30: square protrusion 40: hole

Claims (3)

And a bearing portion 20 formed at a central portion of the upper end of the case portion 10. The upper portion of the bearing portion 20 does not protrude to the upper portion of the motor case, A method of manufacturing a motor case made of metal protruding downward from the inside of an upper portion of a motor case,
A blanking step of blanking the plate material into a press forming device in which a series of punches or dies are successively formed in each step for manufacturing the motor case, and supplying the plate material as a circular material;
A first top drawing step of machining the bearing part of the material supplied to form the bearing part (20) before the case part (10) into a convex shape by striking the periphery of the part to be molded from below to above;
A second top drawing step of striking from the bottom to the top so as to reduce the diameter and height of the convexly shaped bearing portion formed in the first top drawing step;
A third top drawing step of forming a space portion in which the bearing is engaged in a convex shape by striking the central portion of the convex portion from below to the top by reducing the diameter formed in the second top drawing step;
A fourth top drawing step of hitting the upper convex bearing part formed in the third top drawing step from top to bottom so that a space into which the bearing is inserted is projected downward;
A top sizing step of finishing the dimensions and shape of the bearing part formed in the fourth top drawing step and making the periphery of the bearing part flat;
A case part drawing step for forming a cup-shaped case part 10 on the material forming the bearing part; And
A case portion deep drawing process for reducing the diameter and length of the cup shape formed in the case portion drawing process;
And a step of forming the motor case. The motor case according to claim 1, further comprising a forming step of forming a plurality of rectangular projections (30) around the lower end of the case part (10) of the motor case after the case part deep drawing step A method of manufacturing a case. The motorcycle according to claim 1, further comprising: a trimming and piercing process for cutting an unnecessary circumferential portion to form a circumferential shape of the motor case lower end portion and drilling a hole (40) in a necessary portion after the case portion deep drawing process Wherein the motor case is made of a synthetic resin.

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