KR101518364B1 - Large motor stator plate method of ventilation - Google Patents

Abstract

The present invention relates to a manufacturing method of a ventilation plate for a large motor stator capable of radiating heat generated in a motor by installing ventilation plates at constant intervals when a circular arc-shaped stator is piled up on a rotator of a large motor. The manufacturing method of a ventilation plate for a large motor stator comprises: (S1) a plate blanking process for blanking a plate (10) with the same shape as the stator; (S2) a ventilation bar processing process for processing ventilation bars (20, 20′); (S3) a ventilation bar embossing process for forming protrusion parts (21, 21′) by embossing the bottom of the processed ventilation bars (20, 20′) at constant intervals; (S4) a spot welding process for welding the plate and the ventilation bars with a spot welding device (30) having a bar-shaped fixed electrode (31) and movable electrode (32) installed in the upper and lower parts to weld two basic materials, the plate (10) and the ventilation bars (20, 20′), a ventilation bar stopper (34) installed in the front end of the welding part, and a ventilation bar fixing supporter (34) installed in the rear end; and (S5) a product finishing process for discharging the ventilation plate (C) formed by spot welding the plurality of ventilation bars (20, 20′) on the plate (10) in the spot welding process (S4).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a large motor stator plate method for ventilation,

The present invention relates to a ventilation plate for a large motor stator which is provided with a ventilation plate at a predetermined interval to heat heat generated in the motor when a stator of an arc shape is stacked on the outer periphery of a rotor of a large- A ventilation bar embossing the lower end portion at a predetermined interval is formed in point contact with a plate having the same shape as a stator blanked in an arc shape, (Spot welding equiment) in which a rod-shaped fixed electrode and a moving electrode are extended, and a plurality of ventilation bars are spot-welded sequentially to weld the multi-spot at one time, thereby manufacturing a ventilation plate.

Generally, a stator installed in a large-sized motor is formed into an arc shape and connected to the outer periphery of the rotor in a circular shape, and each of the stator is stacked in a multi-stage structure. In order to dissipate heat generated in the motor, And the ventilation plate is inserted between the stacked stator and the stator at regular intervals to constitute the motor.

Since the ventilation plate is manufactured by sequentially welding a plurality of ventilation bars to one side of a plate blanked in the same shape as the stator, the ventilation plate provided between the stator is opened by a ventilation bar to open a certain space between the stator, To be used as a passageway.

In a conventional ventilation plate manufacturing method, a lower end of a ventilation bar is brought into surface contact with a side surface of a plate blanked in a stator shape, and the fixed electrode and the moving electrode are spot welded To produce a ventilation plate.

In the method of manufacturing a ventilation plate of the above-described type, a plurality of RBs (at least four RBs or more at least 12 RBs, depending on the length of the ventilating bar) in the longitudinal direction of the ventilating bar in a state in which the plate and the ventilating bar are in surface contact, Since a large number of spot welds are welded by spot welding of electrode and moving electrode in point contact, the amount of large current is increased, resulting in an increase in manufacturing cost and delay in production time, resulting in a decrease in productivity. In addition, The surface of the plate and the ventilation bar of the point contact portion is poor and the space formed during the laminating operation of the stator is not constant and the chip is detached from the rough surface due to the use of the motor for a long time, .

The spot welding apparatus used in the above-described manufacturing method is disclosed in Korean Utility Model Publication No. 20-1999-0024733 (Spot Welder), Japanese Patent Application Laid-Open No. 10-1999-0040166 (Spot Welding Apparatus) -1044089 (longitudinal direction spot welding apparatus), and the like.

The first public utility model includes a cylindrical sleeve which is inserted into a front end of a bracket coupled to a proper position of a welding apparatus, and a lower end of a lower end of the sleeve, A second pair of electrodes for welding two or more panels that are in contact with each other, and a pair of electrodes fixed to the respective electrodes to prevent scattering of chips generated during spot welding, The third patent application is to spot-weld the object to be attached in the longitudinal direction with the base, the vertical support, the support tray, the drive motor, the welding gun, the guide member, the movable electrode, the height adjusting member and the elastic member.

The first and second are spot welding apparatuses for performing general spot welding. The moving electrode is moved up and down on the fixed electrode to perform spot welding. The single-surface contact system And the third is the point contact spot welding equipment according to the shape of the welded material, with a structure in which many welding guns are installed in the longitudinal direction while adopting the spot welding method.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a ventilation bar for a ventilation system, Shaped spot-welded electrode capable of corresponding to the length of the ventilation bar and spot-welded by the spot-welded joint formed by the embossing, and spot welding capable of welding multiple spots at the same time by one spot welding In addition to minimizing the current capacity and shortening the working time, the surface roughness of the spot (point where the projecting part of the ventilation bar and the plate abutted) is good, thereby preventing the detachment of the chip due to use of the motor for a long time, The present invention provides a method of manufacturing a ventilation plate for a stator, .

The present invention relates to a method of manufacturing a ventilating bar comprising a plate blanking process for blanking a plate in the same shape as a stator, a ventilating bar processing step for processing the ventilating bar, a ventilating bar embossing process for embossing the lower end of the ventilating bar, A spot welding device in which rod-shaped fixed electrodes and moving electrodes are provided on upper and lower sides for welding the two plates of the plate and the ventilation bar, a ventilation bar stopper is provided on the front end of the welded portion, and a ventilation bar fixed supporter is provided on the rear end And a product finishing step of discharging a ventilation plate having a ventilation bar spot welded to the plate.

Further, in the spot welding process, the rod-shaped fixed electrode and the movable electrode are provided so as to have a predetermined length so as to accommodate the length of the ventilation bar.

Therefore, the present invention adopts a point contact method between a plate and a ventilation bar, and a surface contact method of a spot welding fixed electrode and a moving electrode, so that multiple points can be simultaneously welded by a single spot welding, Improve work productivity by shortening working time, improve welding quality by improving the surface roughness of the spot, and prevent maintenance of the motor due to detachment of chip due to long time use of the motor. .

1 is a partially exploded perspective view of a ventilation plate produced by the present invention;
2 is a block diagram showing a working process of the present invention.
3 is a detailed view of a spot welding apparatus used in the spot welding process of the present invention

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

FIG. 1 is a partially sectional perspective view of a ventilation plate manufactured according to the present invention. FIG. 1 is a perspective view of a ventilation plate according to the present invention, in which a plurality of ventilation bars are placed in point contact with a stator- FIG. 2 is a block diagram illustrating the working process of the present invention. FIG. 2 is a cross-sectional view illustrating a process of the present invention. FIG. 3 is a perspective view of a spot welding apparatus used in the spot welding process according to the present invention. In FIG. 3, And a spot welding device in which a ventilation bar stopper and a ventilation bar fixed supporter are provided on the front and rear ends of the welded portion Respectively.

In manufacturing a ventilation plate (C) for inserting a stator, which is installed circularly around the outer periphery of a rotor of a large motor, at a predetermined interval between the stator and the stator,

A plate blanking step (S1) of blanking the plate (10) in the same shape as the stator;

A ventilation bar processing step S2 for processing the ventilation bars 20 and 20 ';

A ventilation bar embossing process S3 for embossing the lower ends of the processed ventilation bars 20 and 20 'at regular intervals to form protrusions 21 and 21';

In order to weld the two base materials of the plate 10 and the ventilation bars 20 and 20 ', a rod-shaped fixed electrode 31 and a moving electrode 32 are provided on the upper and lower sides, A spot welding step (S4) of welding a spot welder (30) provided with a stopper (33) and a ventilation bar fixed supporter (34) at the rear end;
And a product finishing step (S5) of discharging the ventilation plate (C) by spot welding a plurality of ventilation bars (20) and (20 ') to the plate (10) in the spot welding step (S4).

In the spot welding step S4, the rod-like fixed electrode 31 and the moving electrode 32 are installed to have a predetermined length so as to accommodate the length of the ventilation bars 20 and 20 '.

According to the present invention as described above, a ventilation bar is embossed on a stator-like plate at a predetermined interval at a predetermined interval to form a protruding portion formed in a point-contact manner, and the two base materials are welded to each other with a spot welding device, And to provide a manufacturing method which can increase product quality while improving work productivity.

1, the ventilation plate C of the present invention is formed by spot welding a plurality of ventilation bars 20 and 20 'to one side of a stator-like plate 10, The protrusions 21 and 21 'are formed by embossing at a predetermined interval at the bottom of the plate 20 so that the plate 10 and the ventilation bars 20 and 20' Thereby minimizing the electric power consumption during the spot welding operation described later and improving the welding quality of the contact point.

The ventilation plate C is manufactured by a plate blanking process S1, a ventilation bar process S2, a venting bar embossing process S3, a spot welding process S4 and a product finishing process S5 as shown in FIG. Lt; / RTI >

In the plate-blasting step (S1), a plurality of arc-shaped stators are connected to the outer periphery of the rotor of the large motor to form a circular shape, the stator is sequentially stacked on the circular stator, and the ventilation plate (C) So as to form a plate 10 blanked with the same shape and material as those of the stator.

The ventilation bar processing step S2 is a step of processing the ventilation bars 20 and 20 'into a bar shape and partially folding the ventilation bars 20 and 20' according to need, that is, according to the shape of the plate 10.

The ventilation bar embossing step S3 is a step of embossing the ventilation bars 20 and 20 'at the lower ends of the ventilation bars 20' in the embossing device to form the protrusions 21 and 21 ' It is possible to perform spot welding work by making four to twelve protrusions 21 and 21 'according to the length of the protrusions 20 and 20' so as to be in point contact with the plate 10 at the time of spot welding .

The spot welding step S4 is performed in the spot welding apparatus 30 as shown in FIG. 3 by welding the two base materials of the plate 10 and the ventilation bars 20 and 20 'processed in the above process.

The spot welding device 30 is provided with a fixed electrode 31 at the lower portion and a moving electrode 32 at the upper portion in order to weld the two base materials. The electrodes 31 and 32 are connected to the ventilation bars 20 and 20 ' A ventilation bar stopper 33 is provided on the front end of the welded portion and a stopper 34 fixed to the ventilation bar is provided on the rear end of the welded portion.

The welding is performed by placing the plate 10 on the lower fixed electrode 31 of the spot welding device 30 and fixing the rear end of the ventilation bars 20 and 20 ' The projections 21 and 21 'of the ventilation bars 20 and 20' are automatically brought into point contact with the plate 10 when the front end is inserted into the supporter 34 and the front end is fitted to the ventilation bar stopper 33.

In this state, when the moving electrode 32 descends and is in surface contact with the upper portion of the ventilation bars 20 and 20 'to energize the large current, the protrusions 21 and 21' .

The ventilation plate C is completed by sequentially welding the ventilation bars 20 and 20 'in the same manner as described above so that a plurality of protrusions 21 and 21' Welded at the same time.

The product finishing step S5 is a step of discharging the completed ventilation plate C by spot welding a plurality of ventilation bars 20 and 20 'to the plate 10 in the spot welding step S4.

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 and scope of the invention as defined in the appended claims. And such changes are within the scope of the claims.

10: plate 20, 20 ': ventilation bar
21, 21 '; Projection 30: Spot welding device
31: fixed electrode 32: moving electrode
33: ventilation bar stopper 34: ventilation bar fixed supporter
C: ventilation plate S1: plate blanking process
S2: Ventilation bar processing step S3: Ventilation bar embossing process
S4: spot welding step S5: product finishing step

Claims (2)

In manufacturing a ventilation plate (C) for inserting a stator, which is installed circularly around the outer periphery of a rotor of a large motor, at a predetermined interval between the stator and the stator,
A plate blanking step (S1) of blanking the plate (10) in the same shape as the stator;
A ventilation bar processing step S2 for processing the ventilation bars 20 and 20 ';
A ventilation bar embossing process S3 for embossing the lower ends of the processed ventilation bars 20 and 20 'at regular intervals to form protrusions 21 and 21';
In order to weld the two base materials of the plate 10 and the ventilation bars 20 and 20 ', a rod-shaped fixed electrode 31 and a moving electrode 32 are provided on the upper and lower sides, A spot welding step (S4) of welding a spot welder (30) provided with a stopper (33) and a ventilation bar fixed supporter (34) at the rear end;
And a product finishing step (S5) for discharging the ventilation plate (C) by spot welding a plurality of ventilation bars (20) and (20 ') to the plate (10) in the spot welding step (S4) A method of manufacturing a ventilating plate for a stator.
The method according to claim 1,
In the spot welding step S4, the rod-shaped fixed electrode 31 and the movable electrode 32 are installed to have a predetermined length so as to accommodate the length of the ventilation bars 20 and 20 ' Method of manufacturing ventilation plate for large motor stator.

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