KR200410748Y1 - Rotor core structure of salient pole type generator - Google Patents

Abstract

The present invention relates to a rotor core structure of a salient pole type generator, and in particular, a protrusion formed to prevent detachment of the rotor coil at the end of the yoke portion in which the rotor coil is wound is formed detachably, but is fitted to one side of the protrusion. The protrusion is formed, and the end of the yoke portion is formed by forming an insertion groove into which the fitting portion is fitted, so that the winding work time of the rotor coil can be shortened, and the rotor body is formed into the rotor yoke portion and the one-body structure to be rigid This invention relates to a rotor core structure of a salient pole generator that can improve the durability and improve the durability by vibration.

Protruding generator, rotor core, yoke part, fitting part, insertion groove,

Description

Rotor core structure of salient pole type generator

1 is a cross-sectional view showing the configuration of a general generator.

2 is a view showing a conventional rotor core structure.

3 is a view showing a rotor core structure of the present invention.

Figure 4 is a view showing a rotor coil winding operation process of the rotor core of the present invention.

* Description of the symbols for the main parts of the drawings *

1: frame, 2: shaft,

3: stator core, 5: stator coils,

6: rotor coil, 10: load side bracket,

11: half load side bracket, 20: rotor core,

21: protrusion, 22: yoke,

23: insertion groove, 24: fitting portion,

The present invention relates to a rotor core structure of a salient pole type generator, and in particular, it is possible to shorten the winding time of the rotor coil and increase the rigidity by forming the rotor body with the rotor yoke part and the one-body structure, It relates to a rotor core structure of a salient generator for improving durability.

In general, the generator is a device that induces alternating current in the coil while rotating the rotor generated magnetic flux by the field coil with the power of the engine, the stator (Stator) is fixed in a cylindrical shape inside the frame, the center of the stator It has a structure including a rotor (Rotor) for inducing alternating current while rotating.

1 is a view showing the overall structure of a typical salient pole generator, Figure 2 is a cross-sectional view showing a conventional rotor structure,

In the center of the frame 1 of the generator G, a shaft 2 fixed with a half load side bearing 12 and a load side bracket 10 and a half load side bracket 11 is inserted, and the rotor coil is inserted into the shaft 2. The rotor core 4 on which 6 is wound is fixed.

Outside the rotor core 4 is surrounded by a stator core (3) is coupled to the frame (1), the cable connected to the stator coil (5), the alternating current is induced while the rotor core (4) is rotated ( Not shown) is supplied to a variety of electrical equipment.

The conventional rotor core 4 applied to the salient pole generator as described above is configured so that a thin plate can be bonded in multiple layers to wind the rotor coil 6, as shown in FIG. 2. 6) consisting of a plurality of protruding rotor cores (4) capable of winding, the rotor core (4) applied to this salient generator (G) is the rotor coil (6) to the rotor core (4) Due to the difficulty of winding the body of the rotor core 4 is formed to separate the upper core 41 and the lower core 42.

That is, the lower core 42 serves as a guide for fitting the upper cores 41 in a state in which the upper core 41 is separated from the lower core 42 when the rotor coil 6 is wound. The rotor coil 6 is wound around the upper core 41, and the upper core 41 wound around the rotor coil 6 is inserted into the lower core 42 to be coupled.

However, since the conventional rotor core 4 is separated into the upper core 41 and the lower core 42, in order to manufacture the rotor core, the upper core 41 and the lower core 42 are separately manufactured. Two molds are required, which acts as a cost increase factor, and in order to become a fastening structure capable of withstanding the centrifugal force of the generator and vibration transmitted from the engine when the upper core 41 and the lower core 42 are fastened, separate fastening work is involved. As it should be, the overall structure is not only complicated, but also has a problem of weak durability and vulnerability to vibration.

Therefore, the present invention for solving the above problems, but the protrusion formed to prevent detachment of the rotor coil to the end of the yoke portion winding the rotor coil is formed detachably, protruding to form a fitting portion on one side of the protrusion, By forming an insertion groove into which the fitting part is fitted at the end of the yoke part, the winding work time of the rotor coil can be shortened, and the rotor body is formed of the rotor yoke part and the one-body structure to increase rigidity and vibration. It is an object of the present invention to provide a rotor core structure of a salient pole generator to improve durability.

The present invention for achieving the above object,

According to claim 1,

In the pole type generator having a rotor core including a yoke portion on which a rotor coil is wound, and a protrusion portion formed at the end of the yoke portion to prevent the rotor coil from being separated.

The protrusion is detachably coupled to the yoke portion.

According to claim 2,

The fitting portion protrudes from one side of the protrusion, and an insertion groove for fitting the fitting portion is formed at the end of the yoke portion.

According to claim 3,

In order to prevent the rotor coil from being dislodged by centrifugal force during operation, the insertion groove is formed in a key shape inclined at an angle to the end of the yoke portion.

Hereinafter, with reference to the accompanying drawings Figures 3 and 4 will be described a preferred embodiment of the present invention.

In the description of the present invention, the same components as in the prior art will be denoted by the same reference numerals to avoid redundant description.

Reference numeral 20 denotes a rotor core for winding the rotor coil 6.

The rotor core 20 is composed of a yoke portion 22 for winding the rotor coil 6, and at the end of the yoke portion 22 to prevent the rotor coil 6 from being separated during operation. Protrusions 21 for is detachably coupled.

The fitting portion 24 protrudes from one side of the protrusion 21, and an insertion groove 23 for fitting the fitting portion 24 is formed at the end of the yoke portion 22.

At this time, the insertion groove 23 is formed in the key shape to be inclined at an angle to the end of the yoke portion 22 so that the rotor coil 6 is not separated by centrifugal force during operation, and the fitting portion 24 is also It is preferable to form an inclined angle to be inserted into the insertion groove (23).

The winding process of the rotor coil 6 according to the present invention configured as described above will be described with reference to FIG. 4.

After winding and varnishing each rotor coil 6 in a separate jig and pushing it into the rotor yoke part 22, the protrusions 21 are inserted into the insertion grooves 23 at both ends of the upper part of the yoke part 22. Insert fitting part 24 to combine.

After the rotor coil 6 is filled in the remaining rotor yoke portion 22 in the same manner as described above, the separate protrusions 21 are detachably fitted to each other.

According to the rotor core structure of the present invention as described above, the yoke portion 22 of the rotor core 20 can be formed in one body, thereby reducing the number of molds for forming the rotor core 20. The core manufacturing cost and time can be shortened, and the cost reduction due to the reduction of lamination time and the increase in rigidity due to the integrated type make it a good structure against vibration transmitted from the engine, which can reduce the cost of rotor winding while providing excellent performance. You can expect the effect.

As described above, the present invention has a detachable protrusion formed to prevent the rotor coil from being detached at the end of the yoke portion in which the rotor coil is wound, but protrudes a fitting portion at one side of the protrusion, and the end of the yoke portion. By forming an insertion groove into which the fitting portion is inserted, the winding time of the rotor coil can be shortened, and the rotor body is formed of the rotor yoke portion and the one-body structure to increase rigidity and durability by vibration. The effect of providing the rotor core structure of the salient generator can be expected to be improved.

Claims (3)

In the pole type generator having a rotor core including a yoke portion on which a rotor coil is wound, and a protrusion portion formed at the end of the yoke portion to prevent the rotor coil from being separated. Rotor core structure of the pole type generator, characterized in that the protrusion is detachably coupled to the yoke. The method of claim 1, Rotor core structure of the pole type generator, characterized in that the protrusion formed on one side of the protruding portion, the insertion groove for inserting the fitting portion is formed in the end of the yoke portion. The method of claim 2, Rotor core structure of the pole type generator, characterized in that the insertion groove is formed in the key shape inclined at an angle to the end of the yoke in order to prevent the rotor coil from being separated by centrifugal force during operation.

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