KR100357996B1 - stator of alternator - Google Patents

Abstract

The present invention relates to a generator stator, wherein the stator coil lead-out portion is formed by bending a predetermined position, and compresses a double coil with a metal tube so as to be spaced apart from the stator at a distance of two divisions between the stators at the bending position, thereby defining a solder coating position. By shortening the coil, the mechanical noise is reduced, and the application position of the lead is applied to prevent the secondary short, thereby improving the quality of the generator.

As a characteristic means for this, in a generator stator in which a slot is formed on an inner circumferential surface of a stator core, and three independent double coils are wound in the slot, the stator coil lead-out is located at a through hole of a bracket in which the stator is installed inside. According to the bending of the predetermined position, the metal tube of the divided length between the stator in the bending molding position is installed so as to be spaced apart from the stator to the same length as the tube to squeeze the coil, the end of the metal tube to the end of the lead portion It is to be defined as the delivery location.

Description

Stator coil lead-out section where lead application location is specified {stator of alternator}

The present invention relates to a stator coil lead-out portion of a generator, wherein, in three double coil wound stators (1) independent of a stator (1) having a slot formed on an inner circumferential surface thereof, a lead that is the end of the double coil is taken out. By defining the lead application position 4 according to the bending position 51, the part 11 is prevented from shorting between the lead portion and the bracket, and the double coil is pressed into the metal tube 5 to disconnect the vibration and the fan. It prevents mechanical noise between coils due to air volume.

In general, the generator is installed on the outer circumferential surface of the rotor of the rotor at a predetermined interval, the stator (1) coil winding stator (1), and installed in the inside of the bracket through the through hole of the bracket stator coil withdrawing portion Pull out (11) to the outside and connect with battery.

When the generator is started, current flows from the battery to the rotor (not shown) and the stator 1, and thus, when the rotor in which the magnetic field is formed is rotated, a magnetic force is generated between the rotor and the stator 1, so that the stator 1 Generates a phase current.

In the generator driven as described above, the stator coil lead-out unit 11 having the cathode and the stator coil lead-out unit 11 having the positive pole are stopped because the generator is stopped when the conventional stator coil lead-out unit 11 is twisted with each other. After forming the twisted wire (3) and wrapped with an insulating tube (2), the other end is coated with lead to facilitate soldering.

As shown in FIG. 1, each stator coil lead wire is a double coil, and the twisted wires 3 twisted with each other are insulated with an insulating tube 2 from the stator 1 to a predetermined position at the end thereof. The lead unit 4 is coated on the end of the remaining insulation tube 2.

However, since the conventional stator coil lead-out part 11 is not bent molded, the tip position of the insulating tube is not fixed, and thus the lead position of the lead-out part is not defined. Underapplied to cause a secondary short between the terminals, the stator

Since the coil lead-out part 11 is not bent, it is loosely installed between the terminal and the stator 1, and mechanical friction noise is generated due to vibration between two coils twisted by vibration or fan air volume during driving of the generator. .

The present invention has been made to solve the above problems, in the generator stator (1), the stator coil lead-out portion 11 is formed by bending a predetermined position, the stator (1) at the bending position 51 Compress the two coils with the metal tube (5) so as to be spaced apart from the stator (1) at a distance of two divisions of the liver, and define the lead application position to disconnect the coil to reduce mechanical noise, and define the lead application position By preventing shorts, the quality of the generator is improved.

As a characteristic means for this, in the generator stator 1 in which a slot is formed on the inner circumferential surface of the stator core, and three independent double coils are wound in the slot, the stator coil lead-out part 11 is moved to the stator 1. Is bent to a predetermined position according to the through position of the bracket installed inside, and the metal tube 5 of the divided length between the stator 1 is separated from the stator 1 by the same length as the tube at the bending molding position. It is installed so as to compress the coil, and from the tip of the metal tube (5) to the end of the lead portion is to be defined as the lead application position (4).

1 is a cross-sectional view of a conventional generator stator

2 is a cross-sectional view of the present invention generator stator

<Description of Drawing Major Symbols>

1: stator 2: insulated tube

3: twisted wire 4: lead application position

5: metal tube 51: bending position

11: stator coil outlet

An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, in the generator stator 1 of the present invention in which three independent double stator coils are wound around a stator core having a slot formed on an inner circumferential surface thereof, the end of the coil is a stator coil outlet 11. 1) is installed inside and bends the coil outlet 11 to have tension according to the through position of the bracket from which the stator coil is discharged to the outside, and splits between the stator 1 at the bending position 51. Double coils are shortened by crimping with a metal tube 5 of length, and the metal tubes 5 are spaced apart from the stator 1 by a length difference equal to the length. Thereby, the lead application position 4 is defined from the tip of the metal tube 5 to the end of the lead portion.

The stator 1 of the present invention installed on the outside of the rotor is positioned inside the bracket, and the coil lead-out portion 11 extending from the stator 1 is inserted into the through hole of the bracket to be drawn out to the outside and the external terminal. Solder with

As described above, in the present invention, the lead portions of the two stator coils are not twisted together and inserted into the insulating tube, and the metal tubes 5 having the length divided into two at the bending position 51 are separated from the stator by the same length. Since the coil is disconnected because the coil lead-out unit 11 is pressed, the vibration between the coil generated by the driving of the generator and the air volume of the fan is reduced to reduce noise, and the coil lead-out unit at the tip of the metal tube 5 is reduced. 11) Since the end is defined as the lead-applied position, the lead is applied uniformly, so shorts do not occur due to poor soldering of the stator coil and battery terminals.Bending molding of the lead-out leads to constant tension so that the lead-out is also maintained. The quality of the generator is improved.

Claims (1)

In the stator coil lead-out portion 11 is formed to be drawn out to the lower end of the stator 1, the metal tube 5 is connected to the tip of the stator coil lead-out portion 11, The stator coil lead-out portion, characterized in that the lead-applied position (4) is formed at the tip of the metal tube (5).