JPH0440934B2 - - Google Patents

Description

[Detailed description of the invention] Technical field of invention The present invention relates to an induction machine having a squirrel cage winding.

Prior Art A squirrel cage structure is widely used as a winding structure for the rotor of an induction machine. In this structure, a plurality of conductive wires are provided in the axial grooves on the surface of the rotor.
These conductors are short-circuited at the rotor end face. End rings are provided on both end faces of the rotor to prevent this short circuit, and these end rings protrude. The rotor, including the conductors and end rings, is mass-produced by die-casting aluminum. Therefore, when the rotor rotates at high speed, the end ring, which is relatively weak in strength, bulges due to centrifugal force, and there is a risk that it will break due to its internal stress.

Purpose of the Invention In view of the problems of the conventional type described above, an object of the present invention is to prevent the end ring from breaking due to centrifugal force by coupling the end ring to a strong balance ring provided on the end face of the rotor. be.

Structure of the Invention According to the present invention, in order to achieve the above-mentioned object,
a stator, a rotor rotatably provided at the center of the stator, a plurality of conductive wires provided in axial grooves on the surface of the rotor, end rings provided on both end surfaces of the rotor for short-circuiting the conductive wires, and , an induction machine comprising a balance ring provided on both end surfaces of the rotor and inside the end ring, wherein a partial protrusion is provided on the outer periphery of the balance ring, and a partial protrusion is provided on the inner periphery of the end ring. The balance ring and the end ring are connected by providing a corresponding recess and fitting the protrusion of the balance ring and the recess of the end ring, and the balance ring serves as a reinforcing ring for the end ring. An induction machine is provided, which is characterized in that the induction machine is operated.

On the other hand, for short-circuiting a stator, a rotor rotatably provided at the center of the stator, a plurality of conductive wires provided in axial grooves on the surface of the rotor, and the conductive wires provided on both end surfaces of the rotor. and a balance ring provided on both end faces of the rotor and inside the end ring, wherein a ring-shaped protrusion is provided along the outer periphery of the balance ring, and a ring-shaped protrusion is provided along the outer periphery of the balance ring, A ring-shaped groove corresponding to the protrusion is provided on the inner periphery, and the balance ring and the end ring are coupled by fitting the protrusion of the balance ring and the groove of the end ring. There is provided an induction machine characterized in that a balance ring acts as a reinforcing ring for the end ring.

Example Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a longitudinal sectional view showing an embodiment of an induction machine according to the present invention. In FIG. 1, a rotor 1 is fixed to a rotor shaft 2, and a stator 3 is provided on the outer periphery of the rotor 1. The stator 3 is fixed to a yoke 4, and the rotor shaft 2 is rotatably supported by the yoke 4 via a bearing 5.

6 is a cooling fin attached to the rotor shaft 2, and when the rotor shaft 2 rotates, air flows through the ventilation hole 7 as shown by arrow A.

Reference numeral 8 denotes a winding of the stator 3, to which power is supplied from a terminal plate 9.

Reference numeral 10 denotes an end ring for short-circuiting a plurality of conductive wires (not shown) placed in axial grooves on the surface of the rotor 1, and is manufactured, for example, by aluminum die-casting together with the conductive wires.

A balance ring 11 also serves as a reinforcing ring for the end ring 10, and is made of a strong material such as steel. Balance ring 11 is drilled with a suitable hole (not shown)
The dynamic balance of the rotor 1 is obtained by opening the . When the end ring 10 is reinforced by such a balance ring 11, the balance function of the balance ring 11 is also corrected.

In the present invention, the end ring 10 is coupled to a balance ring 11. Therefore, even if the rotor 1 rotates at high speed and its centrifugal force increases,
The end ring 10 does not bulge and therefore there is little risk of breaking.

For example, as shown in FIG. 2, a protrusion 11a is partially provided around the balance ring 11, a recess 10a corresponding to the protrusion 11a is provided in the end ring 10, and the protrusion 11a is housed in the recess 10a. By doing so, the two are combined. Also,
As shown in FIG. 3, a ring-shaped protrusion 11b is formed along the outer periphery of the balance ring 11, and a ring-shaped groove 1 is formed on the inner periphery of the end ring 10.
0b is formed, and the end ring 10 and the balance ring 11 are joined by cold fitting.

Effects of the Invention As explained above, according to the present invention, the end ring 10 is coupled to the strong balance ring 11, so the balance ring 11 acts as a reinforcing ring to counter the centrifugal force caused by the high speed rotation of the end ring 10. As a result, the end ring 10
The risk of breakage is reduced, and the end ring 10 can also modify the balancing function of the balance ring 11.

[Brief explanation of drawings]

FIG. 1 is a longitudinal sectional view showing an embodiment of an induction machine according to the present invention, and FIGS. 2 and 3 are views showing the connection between the end ring 10 and balance ring 11 of FIG. 1. 1... Rotor, 3... Stator, 10... End ring, 11... Balance ring.

Claims (1)

[Claims] 1. A stator, a rotor rotatably provided at the center of the stator, a plurality of conductive wires provided in axial grooves on the surface of the rotor, and a plurality of conductive wires provided on both end surfaces of the rotor to short-circuit the conductive wires. In an induction machine, the induction machine is equipped with an end ring for controlling the rotor, and a balance ring provided on both end surfaces of the rotor and inside the end ring, wherein a partial protrusion is provided on the outer periphery of the balance ring, A recess corresponding to the protrusion is provided on the inner periphery, and the protrusion of the balance ring and the recess of the end ring are fitted to connect the balance ring and the end ring, and the balance ring is connected to the end ring. An induction machine characterized by acting as a reinforcing ring. 2. A stator, a rotor rotatably provided at the center of the stator, a plurality of conductive wires provided in axial grooves on the surface of the rotor, end rings provided on both end surfaces of the rotor for short-circuiting the conductive wires, and an induction machine including a balance ring provided on both end faces of the rotor and inside the end ring, wherein a ring-shaped protrusion is provided along the outer periphery of the balance ring, and the inner periphery of the end ring is A ring-shaped groove corresponding to the protrusion is provided, and the protrusion of the balance ring and the end ring are fitted together to connect the balance ring and the end ring. An induction machine characterized by functioning as a reinforcing ring for an end ring.