Patent ID: 9166455
Filing Date: 2015-10-20
Classification: H02K

Abstract:
1. A rotating electrical machine, comprising: a rotor that includes a rotating shaft, which rotates around a predetermined axis, and rotates together with the rotating shaft; a stator core that is substantially in a shape of a hollow cylinder, is made of a plurality of steel plates, which are substantially in a shape of a circular disc and stacked in an axial direction, and is disposed so as to surround an outer circumference of the rotor; a stator frame that is so formed as to cover the stator core from a radial-direction outside in such a way that predetermined radial-direction gaps are maintained on a side surface of the stator core; a circular member that is connected to the stator core only at first stator core connection portions, spring bars that are arranged so as to extend in the axial direction in such a way that predetermined radial-direction gaps are maintained on a side surface of the stator core, and are able to deform elastically in the radial direction; and spring bar connection members that the spring bars are attached to and which are connected to the first stator core connection portions at least at two locations, the spring bar connection members covering part of a side surface of the stator core in a circumferential direction from the radial-direction outside in such a way that predetermined radial-direction gaps are maintained on the side surface of the stator core, wherein: the first stator core connection portions are formed at least at two locations on a side surface of the stator core, the locations being separated apart from each other in the circumferential direction, the circular member surrounds part of the side surface of the stator core in the circumferential direction from the radial-direction outside in such a way that predetermined radial-direction gaps are maintained on the side surface of the stator core, and is able to elastically deform at least in the radial direction, the circular member being disposed so as not to touch with the stator frame, when the circular member is not attached, vibration of the stator core includes: a first natural circular mode of vibration, in which amplitude spreads in the circumferential direction so that antinodes and nodes of vibration, a number of which is double a number of poles of the rotor, alternately appear substantially at regular intervals in the circumferential direction because of rotational electro-magnetic force excited by the rotor; and a second natural circular mode of vibration, in which amplitude spreads in the circumferential direction so that the second natural circular mode of vibration has substantially same natural frequency as a natural frequency corresponding to the first natural mode of vibration, nodes appear at locations corresponding to the antinodes of the first natural mode of vibration, and antinodes appear at locations corresponding to the nodes of the first natural circular mode of vibration; the first stator core connection portions are formed adjacent to portions corresponding to the antinode portions of the first natural circular mode of vibration; the circular member is connected to spring bar connection portions formed on the spring bars, the circular member covering the spring bars from the radial-direction outside in such a way that predetermined radial-direction gaps are maintained on the radial-direction outside of the spring bars: the spring bars, along with the circular member, make one vibrating element; an elastic property of the vibrating element contains an elastic property of the spring bars and an elastic property of the circular member; and the vibrating element is formed so that a third natural circular mode of vibration occurs in such a way that vibrations of antinodes spread in a direction opposite to the first natural circular mode of vibration, that when the circular member is attached, a mass and the elastic property of the vibrating element are set in such a way that a natural frequency of the first natural circular mode of vibration goes below an excitation frequency caused by electro-magnetic pull force of the rotor while a natural frequency of the third natural circular mode of vibration goes above an excitation frequency caused by electro-magnetic pull force of the rotor, and that a response of the first natural circular mode of vibration is canceled by a response of the third natural circular mode of vibration.