JP2019080483A - Combination motor using noncontact power supply (contactless power supply) and arbitrary power supply - Google Patents

Abstract

To impart high speed rotation for a load by combination of a motor supplied with power by noncontact power supply and an arbitrary power supply, even if the number of revolutions of a revolving shaft of the motor is insufficient for the load, and sufficient rotation cannot be imparted.SOLUTION: By combination of a motor 2 supplied with power by noncontact power supply (contactless power supply) and a motor 5 supplied with power by an arbitrary power supply, not only the rotation is obtained by a motor supplied with power from the arbitrary power supply, but also obtained by rotating a motor body supplied with power by noncontact power supply from the arbitrary power supply, and since the number of revolutions of a revolving shaft for connection with the load is the multiplier of the number of revolutions of the revolving shaft of the motor supplied with power from the arbitrary power supply, and the number of revolutions of the revolving shaft of the motor supplied with power by noncontact power supply, high-speed rotation can be imparted to the load compared with a case where only the motor supplied with power from the arbitrary power supply is used, or only the motor supplied power by noncontact power supply is used.SELECTED DRAWING: Figure 1

Description

  The present invention is a contactless power supply (contactless power supply) and an optional for providing a high speed rotation to a load by a combination of a motor supplied by a contactless power supply (contactless power supply) and a motor supplied with an arbitrary power supply. The present invention relates to a combination motor using a power supply of

  The problem to be solved is to solve the problem in the case where the rotational speed of the rotation shaft of the motor is insufficient for the load to which rotation is to be given by the motor, and the sufficient rotation can not be given.

  The present invention solves the problem in the case where the motor is not sufficient in rotational speed and can not be sufficiently rotated with respect to the load to be rotated by the motor. The main feature of the motor is to rotate the motor main body with a motor powered by any other power source and to provide high speed rotation to the load.

  The combination motor using the non-contact power supply (contactless power supply) of the present invention and an arbitrary power supply is supplied not only by the rotation obtained by the motor supplied by any power supply but also by non-contact power supply (contactless power supply) By rotating the motor body by the motor powered by any power supply, the rotation speed of the rotating shaft connected to the load is the rotation speed of the rotation shaft of the motor powered by any power supply and non-contact power supply (contactless power supply Because it is a multiplier of the number of rotations of the rotating shaft of the motor fed by), compared to the case of using only the motor fed by any power source or only the motor fed by non-contact power feeding (non-contact power source) There is an advantage that it is possible to give high speed rotation to the load.

FIG. 1 is a side view of an embodiment of the device according to the present invention, wherein 1 is a rotary shaft of a motor supplied by non-contact power supply (contactless power supply), 2 is a motor supplied with noncontact power supply (contactless power supply), 3 Is a power receiving side of non-contact power feeding (non-contact power source), 4 is a power feeding side of non-contact power feeding (non-contact power source), and 5 is a motor powered by any power source.

FIG. 1 is a front view of an embodiment of the device according to the present invention, wherein 1 is a rotary shaft of a motor fed by non-contact power feeding (non-contact power supply), 2 is a motor fed by non-contact power feeding (non-contact power supply) Is a motor powered by any power source.

FIG. 1 is a side view of an embodiment of the device according to the present invention, wherein 1 is a rotary shaft of a motor supplied by non-contact power supply (contactless power supply), 2 is a motor supplied with noncontact power supply (contactless power supply), 3 Is the power receiving side of non-contact power supply (non-contact power supply), 4 is the power supply side of non-contact power supply (non-contact power supply), 5 is the rotary shaft of the motor supplied by any power supply, 6 is supplied by any power supply It is a motor.

FIG. 1 is a front view of an embodiment of the device according to the present invention, wherein 1 is a rotary shaft of a motor fed by non-contact power feeding (contactless power supply), 2 is a motor fed by noncontact power feeding (contactless power supply), 3 Is the power receiving side of non-contact power feeding (non-contact power source).

FIG. 1 is a side view of an embodiment of the device according to the present invention, wherein 1 is a rotary shaft of a motor supplied by non-contact power supply (contactless power supply), 2 is a motor supplied with noncontact power supply (contactless power supply), 3 Is the power receiving side of non-contact power supply (non-contact power supply), 4 is the power supply side of non-contact power supply (non-contact power supply), 5 is the rotary shaft of the motor supplied by any power supply, 6 is supplied by any power supply A motor 7a is a final gear connected to 8, a gear 7b is a gear connected to 5, and 8 is a rotation shaft of the final gear.

FIG. 1 is a front view of an embodiment of the device according to the present invention, wherein 1 is a rotary shaft of a motor fed by non-contact power feeding (contactless power supply), 2 is a motor fed by noncontact power feeding (contactless power supply), 3 Is a power receiving side of non-contact power feeding (non-contact power source), 5 is a rotating shaft of a motor fed with any power source, 6 is a motor fed with any power source, 7 b is a gear connected to 5.

FIG. 1 is a side view of an embodiment of the device according to the present invention, wherein 1 is a rotary shaft of a motor supplied by non-contact power supply (contactless power supply), 2 is a motor supplied with noncontact power supply (contactless power supply), 3 Is the power receiving side of non-contact power supply (non-contact power supply), 4 is the power supply side of non-contact power supply (non-contact power supply), 5 is the rotary shaft of the motor supplied by any power supply, 6 is supplied by any power supply A motor 7a is a final pulley connected to 8, a pulley 7b is connected to 5 a pulley, 8 is a rotation shaft of the final pulley, and 9 is a belt for rotating the pulley.

FIG. 1 is a front view of an embodiment of the device according to the present invention, wherein 1 is a rotary shaft of a motor fed by non-contact power feeding (contactless power supply), 2 is a motor fed by noncontact power feeding (contactless power supply), 3 Is a power receiving side of non-contact power feeding (non-contact power source), 5 is a rotating shaft of a motor fed with any power source, 7b is a pulley connected to 5 and 9 is a belt for rotating the pulley.

  The purpose is to achieve higher-speed rotation by adding (to) the rotation obtained by a motor supplied by any power supply to the rotation obtained by a motor supplied by contactless power supply (contactless power supply). The minimum number of parts was realized without losing the functions of the motor and non-contact power supply (contactless power supply).

  In FIG. 1 and FIG. 2, each motor is provided with a non-contact power supply (contactless power supply), a motor supplied with non-contact power supply (contactless power supply), and a motor supplied with any power supply. Are arranged on the same rotation axis, and a motor body fed by non-contact power feeding (contactless power source) is rotated by rotation of a motor fed by any power source, and is fed by any power source. The rotation shaft of the motor is hollow at the center (hollow shaft), and the motor powered by non-contact power supply (contactless power supply) is placed in contact with the inside of this hollow (hollow shaft). The power supply side of the contact power supply is not in contact with the power reception side of non-contact power supply (non-contact power supply), and the power reception side of non-contact power supply is fixed to the motor supplied by non-contact power supply (non-contact power supply) And the structure.

  In FIG. 3 and FIG. 4, each motor is provided with a non-contact power supply (contactless power supply), a motor supplied with non-contact power supply (contactless power supply), and a motor supplied with any power supply. Are arranged on the same rotation axis, and a motor body fed by non-contact power feeding (contactless power source) is rotated by rotation of a motor fed by any power source, and is fed by any power source. Motor's rotation shaft is not in contact with the non-contact power supply (contactless power supply) power supply side, but is supplied by the non-contact power supply (contactless power supply) center point and noncontact power supply (contactless power supply) Of the non-contact power supply (contactless power supply) and the power receiving side of the non-contact power supply (contactless power supply) are not in contact, and the non-contact power receiving side is noncontact power feeding (Non-contact power supply A structure that is fixed to the motor powered by.

  In FIGS. 5 and 6, a plurality of gears in contact with adjacent gears, a non-contact power supply (non-contact power supply), a motor powered by non-contact power supply (non-contact power supply), and any power supply A motor comprising: a motor supplied with power; and a motor main body supplied with non-contact power supply (contactless power supply) is rotated via a plurality of gears rotated by the motor supplied with an arbitrary power supply, and a final The rotating shaft of the gear is not in contact with the non-contact power supply (non-contact power supply) on the power supply side, but is supplied by the non-contact power supply (non-contact power supply) center point and non-contact power supply (non-contact power supply) Non-contact power supply (non-contact power supply) and non-contact power supply (non-contact power supply) power receiving side are not in contact with non-contact power supply (non-contact power supply). Contactless power supply) A structure that is fixed to the motor being electric.

  In FIGS. 7 and 8, a motor provided with a plurality of pulleys, provided with a belt for rotating the plurality of pulleys, provided with non-contact power supply (non-contact power supply) and supplied with non-contact power supply (non-contact power supply) And a motor powered by an optional power source, wherein the motor body powered by non-contact power (non-contact power source) is rotated by a combination of a plurality of pulleys and belts rotated by a motor powered by an optional power source And the rotary shaft of the final pulley is not in contact with the feed side of the non-contact feed (contactless power supply), and the center point of the non-contact feed (non-contact power supply) receiving side and non-contact feed ( The power supply side of the non-contact power supply (non-contact power supply) and the power receiving side of the non-contact power supply (non-contact power supply) are not in contact with each other. Power receiving side of the contactless power supply is configured to be secured to the motor which is powered by a contactless power supply (contactless power supply).

  The load connected to the rotation shaft of the motor can be rotated at a speed higher than that obtained by only the motor supplied by any power supply or only by the motor supplied by non-contact power supply (contactless power supply) It can be realized with a simple structure.

  1 and 2, 1 is a rotating shaft of a motor supplied by non-contact power supply (contactless power supply), 2 is a motor supplied with non-contact power supply (noncontact power supply), 3 is non-contact power supply (noncontact) The power receiving side of the power source, 4 is a power transmitting side of non-contact power feeding (non-contact power source), and 5 is a motor (hollow motor) fed with any power source.

  In FIG. 3 and FIG. 4, 1 is a rotating shaft of a motor supplied by non-contact power supply (non-contact power supply), 2 is a motor supplied by non-contact power supply (non-contact power supply), 3 is non-contact power supply (non-contact power supply) The power receiving side of the power source, 4 is the power transmitting side of non-contact power feeding (non-contact power source), 5 is a rotating shaft of the motor fed with any power source, and 6 is a motor fed with any power source.

  In FIGS. 5 and 6, 1 is a rotating shaft of a motor supplied by non-contact power supply (non-contact power supply), 2 is a motor supplied with non-contact power supply (non-contact power supply), 3 is non-contact power supply (non-contact power supply) Power supply side of the power supply, 4 is the power transmission side of non-contact power supply (contactless power supply), 5 is the rotary shaft of the motor supplied with any power supply, 6 is the motor supplied with any power supply, 7a is 2 and 3 The gear (final gear) connected to the gear whose center is on the extension of 1 and rotated by 7b, 7b is the gear connected to 5 and rotates around 5 to 7a A gear 8 which is in contact and imparts rotation to 7a, 8 is a rotation shaft connected to the center of 7a and imparting rotation to 2 and 3.

  In FIG. 7 and FIG. 8, 1 is a rotating shaft of a motor supplied by non-contact power supply (non-contact power supply), 2 is a motor supplied by non-contact power supply (non-contact power supply), 3 is non-contact power supply (non-contact power supply) Power supply side of the power supply, 4 is the power transmission side of non-contact power supply (contactless power supply), 5 is the rotary shaft of the motor supplied with any power supply, 6 is the motor supplied with any power supply, 7a is 2 and 3 The pulley is a pulley (final pulley) connected to the center of the pulley located on the extension of 1 and rotated by 7b and 9, 7b is a pulley connected to 5 and rotates around 5 , 8 is a rotational shaft connected to the center of 7a to provide rotation to 2 and 3, and 9 is a belt providing rotation from 7b to 7a.

Claims (1)

  It is supplied by non-contact power supply (contactless power supply) as a means to solve the problem when the motor is not enough for the number of rotations of the motor and the load for which rotation is to be given by the motor. Main function is to rotate the motor body with a motor powered by any other power source and to provide high-speed rotation to the load, and this feature makes it possible to set the number of rotations of the rotating shaft connected to the load The number of rotations of the rotation shaft of the motor supplied by any power supply, not only the rotation obtained by the motor supplied by the power supply of the motor, or the rotation obtained only by the motor supplied with the contactless power supply (contactless power supply) And a non-contact power supply (contactless power supply), which is a multiplier of the rotational speed of the rotating shaft of the motor. Contactless power supply (contactless power supply) and optional with the advantage that it is possible to provide high-speed rotation to the load compared to using only a motor powered by contactless power supply (contactless power supply) Combination motor using power supply

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