JPS5944949A - One side ventilation type fully-closed salient-pole rotary electric machine - Google Patents

Abstract

PURPOSE:To prevent a bracket arm from rising at the temperature by forming an air discharge hole in the vicinity of the outer periphery of a lower flange, thereby discharging air of low temperature cooled by a cooler from the hole to the bracket arm side. CONSTITUTION:Since cold air which is cooled by a cooler 26 and flowed from the central upper side of a rotor spider 10 into the rotor spider 10 becomes positive pressure in the vicinity of the outer peripheral side in the spider 10 as the fan characteristic of the spider 10, the air is flowed out from the air discharge hole 34 of a lower flange 13 downwardly. This cold air cools a bracket arm 5, thereby preventing the arm 5 from rising at the temperature. The air passes the gap 33 between a lower vent guide plate 31 and a rotor 1 through a stator air chamber 27 and is circulated through the cooler 26.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a vertical, one-side ventilation, fully enclosed salient pole rotating electrical machine with a revised ventilation cooling structure.

[Technical backbone of the invention and its problems]

Vertical rotation 'FJ7. In low-speed, large-diameter machines, a structure in which the rotor spider and rotor yoke are provided with a fan action, and the fan action cools the rotor in the radial direction, is often adopted. Figures 1 and 2 show one side ventilation type, which is one of these units.
This will be explained with reference to the drawings.

There is a rotating shaft (2) under the rotor (1), and there is a bearing part (3) that supports this rotating shaft (2).
The bracket (4) supporting the bracket (4) and the bracket arm (
5). and rotor (1) and stator ((1)
and the bracket arm (5) is
7), is surrounded by the lower side L a < (s) and the wall (9). The rotor spider 0CIl of the rotor (1) has a fan-like shape, and the 7th flange is ring-shaped and the center side is open to the in-machine AJ air passage f+71. The lower 7 langes (13) have ventilation holes (14) near the inner circumference. Spoke in rotor spider +101 (1!i)
lit (D empty 1jii t+61 is rotor yoke (1
31″ 11-value 1-piece (C8) installed in the radial direction within η
The magnetic 41σi (field, space c between 1 and 6) is chained within 11~, and due to the fan action of the ventilation duct (1) ◇ and the spoke (15) in the rotor spider (IIIl),
The center elevation of the 1-7 lange (11) of the rotor spider fH11 is joined from the upper opening (1)! , month] Air is blown into the magnetic pole space 01 in the radial direction. The stator (6) is provided with a stator core (24) shaped like a stator frame (2゛9) +2, and this stator core (24)
2 b) Illustration of 2. Fixed advance winding δ for slots that do not have it! ;!
C2", +l card (equipped.Also, lj!II
A stator frame (cooling device 8ν2) is installed on the back of the cooler (26), and the inlet side of this cooler (26) connects the stator core C24) via the stator frame f2: (F4 chamber F27). Radial stator duct C formed by splitting in the axial direction! 8) is followed continuously.

That is, l from inside the rotor spider il+11 of rotor (1)
it cabin air j+ sent into the interpolar space (20),
l: l・1・1 stator core (241 stationary induct (passing through the 2nd gear) this stator core (24) and stator winding (25
) is cooled and stator tough) e4! The air that has passed 1 O passes through the air chamber (27) of the stator frame f231 to the cooler ('
,! [Enter il.

Axial direction of stator (6)'? 11. 4: (+) for the wind guide plate is attached to the j part, respectively, and the guide plate physical strength, ←
) 1) is the same space as the magnetic poles of the rotor (1). (From 1 gong to air chamber (27
) or directly to the cooler.
(- so that the end of the stator winding (29) is cooled. Cooled air passing through the cooler C) 6) guides J[n of the claw plate (311) and the upper The internal air passage (1) formed between the outer jacket (7) of the rotor and the rotor spider (10) circulates within the rotor spider (10). In this case, the air cooled by 3y1 from the cooler ~0 is structured so that it does not circulate from within the rotor spider (IIII) toward the lower part of the rotor (1) and stator (6), and the air is The somewhat warm air that has come out in step A) is sucked out from the gap between the lower ventilation guide plate c(1) and the rotor (1) The rotor spider (
10) is sucked into the rotor spider (10). These air differences are indicated by arrows in Figure 1. If the air that enters from this ventilation hole (1) is low temperature, it is good because it cools the bracket arm (5), but when the output becomes high and the temperature becomes high, the high temperature air heats the bracket arm (5). The bracket arm (5) expands thermally, causing the position of the bracket arm (!, (r,) supported by the bracket arm, !, (r,) to shift by 4 degrees), and the bracket arm, (5) to The source of vibration could be caused by misalignment of the attachment part to the wall (9).

[Purpose of the invention]

The present invention provides a partially ventilated fully enclosed rotary fIj that can prevent the phenomenon that the practicum arm becomes I"+1!+8 and generates vibration.
target

[Summary of the invention]

In the present invention, vent holes for air suction are provided near the inner circumference of the lower flange of the CLL rotor spider.
By providing an air release hole in the outer periphery of the lower 7 langes, the low IIA air cooled by the cooler is released from the air release hole to the bracket arm side to prevent the temperature of the bracket arm from rising. be.

[Embodiments of the invention]

An embodiment of the present invention will be described below with reference to FIGS. 3 and 4. Note that in FIGS. 3 and 4, the same parts as in FIGS. 1 and 2 are designated by the same reference numerals, and explanations thereof will be omitted.

In this embodiment, the lower 7 flanges (conventionally located near the inner periphery of 1 and 1) of the rotor spider tif++ are eliminated, and the lower flange (air release holes near the outer periphery of 1) is eliminated. ((4) is provided.The rest is the same as the conventional example shown in FIGS. 1 and 2.

Next, the effect will be explained.

The cold air that is cooled by the cooler (a) and enters the rotor spider (101) from above the center side of the rotor spider (IIIl) is cooled by the fan characteristic of the rotor spider fIO+. Since there is a positive pressure at ).This air is passed through the gap (3゛) between the lower ventilation guide plate (31) and the rotor (1), the stator air chamber (27), and the cooler (4). ).In this way, the bracket arm (
5), the temperature will not rise, so there will be no increase in vibration due to misalignment of the bearing (3) or misalignment of the mounting part between the bracket arm (5) and the wall (9).
4: is gone, and Satoru's 4-night trading rotation '1y string becomes louder.

The present invention is described above and shown in Figure Lfji, 2/L-,
It goes without saying that T is not limited to only 11, and can be implemented with various modifications without changing the gist thereof.

〔Effect of the invention〕

As explained above, according to the present invention, the height of the bracket arm is 7! The shortcoming of the 1st gear is completely eliminated, the negative effects caused by the high humidity of the bracket arm are prevented, and the fully enclosed rotary electric arm of Can be provided.

[Brief explanation of the drawing]

Figure 1 is a vertical cross-sectional view of the right half of a conventional one-side ventilated fully enclosed rotary rotor, and Figure 2 is an enlarged view of the main part in the direction of arrow A'' in Figure 1.
Fig. 3 is a right-hand side γ Braze 1...Rotor 3...Bearing part 4...Bracket
5... Bracket arm 6-... Stator
10... Rotor spider 12... Ventilation passage in the box
13...Lower 7 langes 17...Rotor yoke 1
8... Air duct) (・ 19... Magnetic pole 21... Open [1 part 24...
・Stator core 25...Stator A<1-wire 26・
・Cooler 34...Air release hole (3257)
Representative Patent Attorney Ii L - Rikitsutsu 1 Figure Z? -2P No. 2 Fig. Otsu No. 3 Fig. 4 Fig. 252-

Claims (1)

[Claims] A radial ventilation tact is provided on the rotor yoke equipped with magnetic poles by installing the bracket and bracket arm supporting the rotor's lower n1
The rotor yoke is attached to the frontage side of the fan-shaped rotor spider, and opens at the center of the rotor spider 1 ft 11 to one side, and connects the ventilation duct of the rotor silk and the rotor spider. From Fanii'1711 K, previous jt1.
．． ': l Mountain air duct cools the rotor core, 1c/11 stator windings, and the stator core by ventilation in the radial direction. , ÷ into the internal ventilation passage formed along the upper end of the stator 9 rotor. Of course, there is an air release hole near the outer periphery of the part 7 flange so that the air cooled by the rotor spider is released to the underside of the lower flange of the rotor spider by the fan action of the rotor spider. One-sided draft type fully enclosed type protrusion 4φ? times Ili・〈Rin.