KR200455597Y1 - Rotor Construction of Double-Fed Induction Generator - Google Patents

Abstract

The present invention relates to a double-excitation induction generator, in particular, the load-side bearing is formed between one end of the generator case and the load side of the rotary shaft, and the half-loaded bearing is formed between the outside of the slip ring case and the end of the rotary shaft, Easy access to the bearings makes it easy to repair the bearings in high and narrow spaces of wind power plants and tidal current facilities, and to prevent the separation of carbon brush powder (fine dust) for effective space separation between the generator case and slip ring case. The present invention relates to a dual excitation induction generator that can integrally form a slip ring fan for air flow inside a slip ring case to simplify the structure of the overall product.

Double excitation induction generator, load-side bearing, half-load bearing, slip ring fan, blocking fan,

Description

Rotor Construction of Double-Fed Induction Generator

1 is a partial cross-sectional view showing a dual excitation induction generator of the present invention.

2 is a partially enlarged view showing the main configuration of the present invention,

Figure 3 is a partial cross-sectional view showing a conventional double excitation induction generator.

* Description of reference numerals for the main parts of the drawings *

1. generator case, 2. electricity generating means,

3. rotor iron core, 4. rotor reel,

5. Stator, 6. Load side bearing,

7. half-load bearing, 8. connecting line,

11. slip ring case, 12. feed means,

13. slip ring, 14. brush,

15. terminal rod, 17. blocking means,

18. support, 19. blocking fan,

20. Slip ring fan, 21, 21a,

22. Epoxy molding, 23. Bonding hole,

31. Rotating shaft, 32. Ejection hole,

33. cooling section, 34. cooling fan,

35. Encoder,

The present invention relates to a double-excitation induction generator, in particular, easy access to the bearing from the outside, easy to repair the bearing in the high and narrow space of the wind power plant and tidal power generation facilities, effective space of the generator case and slip ring case In order to separate the carbon brush powder (fine dust) blocking fan and the slip ring fan for the air flow inside the slip ring case, the dual excitation induction generator is designed to simplify the structure by simplifying the structure. It is about.

In general, a double excitation induction generator is installed in a wind turbine or a tidal stream.

Referring to Figure 3 describes a conventional double excitation induction generator as follows.

The slip ring case 48 is coupled to one side of the generator case 41, and a cooling unit 59 and a cooling fan 61 for cooling the power generation facility are installed at an upper portion of the generator case 41.

A rotating shaft 58 is formed to penetrate the center of the generator case 41, and a rotor iron core 42 and a rotor winding 43 are formed at the rotating shaft 58, and the generator case 41 is opposed to the generator shaft 41. The stator 44 is formed on the inner circumferential surface to form the electricity generating means.

Then, the load side bearing 45 is formed at the front of the generator case 41 and the load side end of the rotation shaft 58, and the half-load side bearing 46 is formed at the rear of the generator case 41 and at the middle of the rotation shaft 58. It is formed to support the rotating shaft, the slip ring 50 is formed on the outer circumferential surface of the rotating shaft 58 inside the slip ring case 48, the slip ring case 48 on the upper surface of the slip ring 50 Brush 51 made of carbon material is formed to abut together to discharge the electricity generated by the electricity generating means to the outside.

At this time, the rotor winding 43 and the slip ring 50 of the electricity generating means is connected to the terminal rod 52 connected to the slip ring 50 using a connecting line 47, the generator case 41 and Since the half-load bearing 46 is installed between the slip ring cases 48, a connection hole 60 is formed in the rotation shaft 58 as shown in FIG. Is inserted).

In addition, a slip ring fan 54 is formed at the end of the rotating shaft 58 so that carbon particles (fine dust) generated by friction between the brush 51 and the slip ring 50 are discharged to the outside through the discharge hole 57. It is configured to be.

However, in the related art, since the half-load bearing of one of the two bearings supporting the rotor is located between the generator case and the slip ring case, it is difficult to access the half-load bearing during the replacement and maintenance work due to the failure of the bearing. The problem of separation and repair was very difficult, and also the manufacturing cost of the rotating shaft was increased because the rotating shaft (hollow type) having the connection hole was used to electrically connect the electricity generating means and the slip ring. have.

Therefore, the present invention for solving the above problems forms a load side bearing between one end of the generator case and the load side of the rotating shaft, and by forming a half load side bearing between the outside of the slip ring case and the end of the rotating shaft, Easy access to bearings even in high and narrow spaces of wind power plants and tidal current facilities, and carbon brush dust (fans) and slip rings for effective space separation between generator case and slip ring case It is an object of the present invention to provide a dual excitation induction generator that can form a slip ring fan for air flow inside a case to simplify the structure of the overall product.

The present invention for achieving the above object,

The generator case and the slip ring case is combined to form a rotating shaft penetrating the central portion according to claim 1, the electric generator means for generating induction electricity consisting of a stator fixed to the inner peripheral surface of the rotor and the case formed on the rotating shaft In the dual excitation induction generator having a supply means consisting of a slip ring and a brush for the external supply of electricity inside the slip ring case, the load side bearing is formed between one end of the generator case and the load side of the rotating shaft And a half-load bearing formed between an outer side of the slip ring case and an end of the rotating shaft.

According to claim 2, Between the generator case and the slip ring case characterized in that the blocking means for blocking the fine dust generated by the friction of the brush and the slip ring is not introduced into the generator case.

According to claim 3, The blocking means is a pair of breakers formed in the form of a flat plate formed on the coupling portion of the generator case and the slip ring case, protruding the support upwards in the middle of the rotating shaft, the blocking fan and the upper portion of the support The slip ring fan is integrally formed to allow the fine dust existing in the slip ring case to flow to the blocking unit by the rotation of the fan, and the slip ring case has a discharge hole for discharging fine dust.

According to claim 4, characterized in that the coupling hole is formed in the support, the terminal rod in a state connected with the slip ring is inserted into the coupling hole, and the end of the terminal rod is connected by a connecting line connected with the rotor winding.

According to claim 5, characterized in that the terminal rod inserted into the coupling hole is fixed by the epoxy molding process.

Hereinafter, a preferred embodiment of the present invention with reference to the accompanying drawings, Figures 1 and 2 as follows.

A slip ring case 11 is coupled to one side of the generator case 1, and a central portion of the generator case 1 and the slip ring case 11 is formed to penetrate the rotation shaft 31, and the generator case 1 Is coupled to the rotating shaft 31 in the inner central portion to form an electric generating means (2) so as to generate induction electricity while rotating in the direction in which the rotating shaft 31 is rotated,

The supply means 12 is coupled to the rotating shaft 31 in the inner central portion of the slip ring case 11 to supply the induction electricity generated by the electricity generating means 2 to the outside,

The cooling unit 33 is formed in the upper center portion of the generator case 1 to cool the heat generated by the rotation of the electricity generating means 2.

At this time, the electricity generating means (2) forms a rotor iron core (3) and rotor windings (4) on the outer circumferential surface of the rotating shaft 31 so as to be located in the central portion inside the generator case (1), the generator so as to face the The stator 5 is formed on the inner circumferential surface of the case 1.

The induction electricity generated by the electricity generating means 2 is supplied to the supply means 12 formed in the slip ring case 11 through the connecting line 8, and the supply means 12 is connected to the connecting line 8. The at least one slip ring 13 having a terminal rod 15 connected thereto is coupled to the rotating shaft 31 to form at least one, and the brush 14 made of carbon material is in contact with the slip ring 13 to discharge electricity to the outside. Is formed to extend from the slip ring case (11).

Hereinafter, reference numeral 35 which is not described shows an encoder for detecting a rotation speed.

In the present invention, the load side bearing 6 and the half load side bearing 7 are formed at both ends of the generator.

As shown in the figure, a load side bearing 6 is formed between one end of the generator case 1 and the load side of the rotation shaft 31, and between the outside of the slip ring case 11 and the end of the rotation shaft 31. By forming a half-load side bearing (7), the operator can easily access the bearing (6,7) during maintenance.

On the other hand, the generator case 1 and the slip ring case (blocking means 17) to block the fine dust generated by the friction between the slip ring 13 and the brush 14 to enter the generator case (1) ( It is formed between the 11, the blocking means 17 is a pair of blocking portions (21, 21a) formed in the form of a flat plate is formed on the coupling portion of the generator case 1 and the slip ring case 11, the rotating shaft ( 31, the support 18 is formed to protrude upward in the middle of the support, and the blocking fan 19 and the slip ring fan 20 are integrally formed on the upper portion of the support 18 so as to be slip ringed by the rotation of the fans 19 and 20. The fine dust present in the case 11 flows to the blocking portions 21 and 21a, and the slip ring case 11 is formed by forming a discharge hole 32 for discharging fine dust.

At this time, the coupling rod 23 is formed in the support 18 to allow the terminal rod 15 to be fitted, and the epoxy molding 22 is insulated between the coupling hole 23 and the terminal rod 15. Of course, it is configured so that the terminal rod 15 can be fixed firmly.

Referring to the operation and effects of the present invention configured as described above are as follows.

The operation of the present invention, the rotor winding 4 is rotated by the rotation of the rotary shaft 31 is generated electricity is supplied to the slip ring 13 through the connecting line 8 and then contacted the slip ring 13 It is supplied to the outside by a brush 14.

In addition, fine dust generated by friction between the brush 14 and the slip ring 13 during the generator operation is blocked by the slip ring fan 20 and the blocking fan 19 which rotate together with the rotation shaft 31. 21a) is discharged to the outside through the discharge hole 32, it is possible to effectively block the fine dust flow into the generator case (1).

Dual excitation induction generator of the present invention operating as described above can be expected the following effects.

Since the load bearing 6 and the semi-load bearing 7 supporting the rotating shaft 31 are located at both ends of the generator, an operator can easily approach the bearings 6 and 7 when replacing or repairing due to a bearing failure. Repairs can be made, which significantly reduces the time to stop the generator during bearing maintenance.

In addition, since the blocking fan 19 and the slip ring fan 20 are integrally formed, the structure can be simplified, and the coupling hole 23 is formed on the support 18 on which the blocking fan 19 and the slip ring fan 20 are formed. The terminal rod 15 in a state of being connected to the slip ring 13 by inserting the same, and insulating the terminal rod 15 by treating the terminal rod 15 and the coupling hole 23 with an epoxy molding 22. And it is possible to securely implement the fixing.

As described above, the present invention forms a load bearing between one end of the generator case and the load side of the rotating shaft, and forms a half load bearing between the outer side of the slip ring case and the end of the rotating shaft. Easy access to the bearings in high and narrow spaces of wind power plants and tidal current power generation facilities, and carbon brush dust (fans) and slips for effective separation of generator case and slip ring case The slip ring fan for the air flow inside the ring case is integrally formed to simplify the structure of the overall product, and thus the overall structure of the product can be expected.

The present invention is not limited to the above-described specific preferred embodiment, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (5)

A generator case and a slip ring case are formed to be coupled to each other so that the rotating shaft penetrates the center portion, and forms an electric generating means for generating induction electricity, comprising a rotor formed on the rotating shaft and a stator fixed on an inner circumferential surface of the case. In a dual excitation induction generator having a supply means consisting of a slip ring and a brush for supplying electricity to the inside of a slip ring case, a load bearing is formed between one end of the generator case and the load side of the rotating shaft, and the slip ring A half load bearing is formed between the outside of the case and the end of the rotating shaft, A double excitation induction generator characterized in that formed between the generator case and the slip ring case to block the fine dust generated by the friction of the brush and the slip ring is not introduced into the generator case. delete The method of claim 1, wherein the blocking means, A pair of breakers formed in the form of a flat plate is formed on the coupling portion of the generator case and slip ring case, In the middle of the rotating shaft to form a support projecting upwards, The blocking fan and the slip ring fan are integrally formed on the upper portion of the support so that the fine dust existing in the slip ring case flows to the blocking part by the rotation of the fan. The excitation ring generator is characterized in that the slip ring case is formed with a discharge hole for the discharge of fine dust. The method of claim 3, wherein Forming a coupling hole in the support, Insert the terminal rod connected to the slip ring into the coupling hole, The dual excitation induction generator characterized in that the end of the terminal rod is connected by a connecting line connected to the rotor winding. The dual excitation induction generator according to claim 4, wherein the terminal rod inserted into the coupling hole is fixed by epoxy molding.

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