POWER TRANSMISSION APPARATUS
First Claim
1. A power transmission apparatus comprises:
- a first rotary element having a first rotary element conductor that can generate a rotary magnetic field;
a second rotary element coupled with the first rotary element and having a second rotary element conductor that is connected to the first rotary element conductor and can generate a rotary magnetic field;
a first stationary element having a first stationary element conductor that can generate a rotary magnetic field;
a third rotary element that can rotate relative to the first and second rotary elements, wherein a torque acts between the first rotary element and the third rotary element according to the rotary magnetic field generated by the first rotary element conductor, and a torque acts between the first stationary element and the third rotary element according to the rotary magnetic field generated by the first stationary element conductor; and
a second stationary element having a second stationary element conductor through which induced current flows according to the rotary magnetic field generated by the second rotary element conductor, with an interaction between the induced current and the rotary magnetic field generated by the second rotary element conductor that can generate a torque acting between the second rotary element and the second stationary element,whereinpower of a prime mover is transmitted to one of the first and second rotary elements and the third rotary element, and power of the other of the first and second rotary elements and the third rotary element is transmitted to a load,the first and second rotary element conductors can generate the rotary magnetic field when induced current flows according to a rotational difference generated between the first rotary element and the third rotary element,the first rotary element conductor and the second rotary element conductor are connected in such a manner that a rotational direction of the rotary magnetic field generated by the first rotary element conductor and a rotational direction of the rotary magnetic field generated by the second rotary element conductor are the same in a state where induced current flows through the first rotary element conductor and the second rotary element conductor,the number of poles of the second rotary element is equal to the number of poles of the first rotary element,electric power can be supplied from the second stationary element conductor to the first stationary element conductor, anda phase adjustment circuit is provided between the second stationary element conductor and the first stationary element conductor.
2 Assignments
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Accused Products
Abstract
A rotational difference is generated between a first and a second rotor and a third rotor, which causes an induced current to flow in a first rotor winding. This causes a torque to act between the first rotor and the third rotor. The rotary magnetic field generated by the induced current flowing through a second rotor winding interacts with a second stator, which in turn generates an induced electromotive force in a second stator winding. The induced electromotive force is applied via a phase adjustment circuit to a first stator winding, which generates a rotary magnetic field and causes a torque to act between the first stator and the third rotor. The rotary magnetic field generated by the second rotor winding and the induced current flowing in the second stator winding causes a torque to act between the second stator and the second rotor.
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Citations
14 Claims
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1. A power transmission apparatus comprises:
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a first rotary element having a first rotary element conductor that can generate a rotary magnetic field; a second rotary element coupled with the first rotary element and having a second rotary element conductor that is connected to the first rotary element conductor and can generate a rotary magnetic field; a first stationary element having a first stationary element conductor that can generate a rotary magnetic field; a third rotary element that can rotate relative to the first and second rotary elements, wherein a torque acts between the first rotary element and the third rotary element according to the rotary magnetic field generated by the first rotary element conductor, and a torque acts between the first stationary element and the third rotary element according to the rotary magnetic field generated by the first stationary element conductor; and a second stationary element having a second stationary element conductor through which induced current flows according to the rotary magnetic field generated by the second rotary element conductor, with an interaction between the induced current and the rotary magnetic field generated by the second rotary element conductor that can generate a torque acting between the second rotary element and the second stationary element, wherein power of a prime mover is transmitted to one of the first and second rotary elements and the third rotary element, and power of the other of the first and second rotary elements and the third rotary element is transmitted to a load, the first and second rotary element conductors can generate the rotary magnetic field when induced current flows according to a rotational difference generated between the first rotary element and the third rotary element, the first rotary element conductor and the second rotary element conductor are connected in such a manner that a rotational direction of the rotary magnetic field generated by the first rotary element conductor and a rotational direction of the rotary magnetic field generated by the second rotary element conductor are the same in a state where induced current flows through the first rotary element conductor and the second rotary element conductor, the number of poles of the second rotary element is equal to the number of poles of the first rotary element, electric power can be supplied from the second stationary element conductor to the first stationary element conductor, and a phase adjustment circuit is provided between the second stationary element conductor and the first stationary element conductor.
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2. A power transmission apparatus comprising:
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a first rotary element having a first rotary element conductor that can generate a rotary magnetic field; a second rotary element coupled with the first rotary element and having a second rotary element conductor that is connected to the first rotary element conductor and can generate a rotary magnetic field; a first stationary element having a first stationary element conductor that can generate a rotary magnetic field; a third rotary element that can rotate relative to the first and second rotary elements, wherein a torque acts between the first rotary element and the third rotary element according to the rotary magnetic field generated by the first rotary element conductor, and a torque acts between the first stationary element and the third rotary element according to the rotary magnetic field generated by the first stationary element conductor, and a second stationary element having a second stationary element conductor through which induced current flows according to the rotary magnetic field generated by the second rotary element conductor, with an interaction between the induced current and the rotary magnetic field generated by the second rotary element conductor that can generate a torque acting between the second rotary element and the second stationary element, wherein power of a prime mover is transmitted to one of the first and second rotary elements and the third rotary element, and power of the other of the first and second rotary elements and the third rotary element is transmitted to a load, the first and second rotary element conductors can generate the rotary magnetic field when induced current flows according to a rotational difference generated between the first rotary element and the third rotary element, a rectifier is provided to rectify AC power generated by the second stationary element conductor, electric power rectified by the rectifier is converted into AC power by an inverter and can be supplied to the first stationary element conductor. - View Dependent Claims (4, 5)
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3. A power transmission apparatus comprising:
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a first rotary element having a first rotary element conductor that can generate a rotary magnetic field; a second rotary element coupled with the first rotary element and having a second rotary element conductor that is connected to the first rotary element conductor and can generate a rotary magnetic field; a first stationary element having a first stationary element conductor that can generate a rotary magnetic field; a third rotary element that can rotate relative to the first and second rotary elements, wherein a torque acts between the first rotary element and the third rotary element according to the rotary magnetic field generated by the first rotary element conductor, and a torque acts between the first stationary element and the third rotary element according to the rotary magnetic field generated by the first stationary element conductor; and a second stationary element having a second stationary element conductor through which induced current flows according to the rotary magnetic field generated by the second rotary element conductor, with an interaction between the induced current and the rotary magnetic field generated by the second rotary element conductor that can generate a torque acting between the second rotary element and the second stationary element, wherein power of a prime mover is transmitted to one of the first and second rotary elements and the third rotary element, and power of the other of the first and second rotary elements and the third rotary element is transmitted to a load, the first and second rotary element conductors can generate the rotary magnetic field when induced current flows according to a rotational difference generated between the first rotary element and the third rotary element, electric power can be supplied from the second stationary element conductor to the first stationary element conductor, DC power from a DC power source is converted into AC power by an inverter and can be supplied to the second stationary element conductor. - View Dependent Claims (13, 14)
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6. A power transmission apparatus comprising:
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a first rotary element having a rotary element conductor that can generate a rotary magnetic field; a stationary element having a stationary element conductor that can generate a rotary magnetic field; and a second rotary element that can rotate relative to the first rotary element, wherein a torque acts between the first rotary element and the second rotary element according to the rotary magnetic field generated by the rotary element conductor, and a torque acts between the stationary element and the second rotary element according to the rotary magnetic field generated by the stationary element conductor, wherein the rotary element conductor can generate the rotary magnetic field when induced current flows according to a rotational difference generated between the first rotary element and the second rotary element, power of a prime mover is transmitted to one of the first rotary element and the second rotary element and power of the other of the first rotary element and the second rotary element is transmitted to a load, wherein the power transmission apparatus further comprises; a transmission configured to transmit the power from the other of the first rotary element and the second rotary element to the load while changing speed, an electric power transmission unit configured to take out AC power from the rotary element conductor, and an electric power conversion unit configured to convert the AC power taken out by the electric power transmission unit and supply converted electric power to the stationary element conductor. - View Dependent Claims (7, 8, 9, 10, 11, 12)
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Specification