CN202172349U - Hybrid excitation motor apparatus - Google Patents

Abstract

The utility model relates to a hybrid excitation motor device. Including the hybrid excitation working motor and the wound excitation motor installed on the base, the hybrid excitation working motor includes the rotating shaft, the stator winding of the working motor, the stator core, the permanent magnet, the excitation pole core, the excitation winding, and the rotating shaft is supported on the base Above, the field pole core is set on the rotating shaft, the permanent magnet is placed in the radial middle of the field pole core, the field winding is wound on the field pole core, the stator core is installed on the outside of the field pole core, and the stator winding is embedded in the On the stator core; the wound excitation motor includes the stator core of the excitation motor, the stator winding of the excitation motor, the rotor winding of the excitation motor and the rotor core of the excitation motor. The rotor core of the excitation motor is set on the shaft, and the rotor winding of the excitation motor is wound on the excitation On the motor rotor core, the excitation motor stator core is installed outside the excitation motor rotor core, and the excitation motor stator winding is embedded in the wire groove of the excitation motor stator core. The utility model can meet the requirements of low speed, high torque and high rotating speed, can improve the efficiency of the motor, and expand the speed regulation range of the motor.

Description

Hybrid Excitation Motor Unit

technical field

The utility model relates to a hybrid excitation motor device, which belongs to the transformation technology of the hybrid excitation motor device.

Background technique

Existing permanent magnet motors have high efficiency, low rotor heat generation, and light moment of inertia. They are widely used in high-speed and light-load fields such as robots and machining centers. In recent years, permanent magnet motors have begun to be used in electric vehicles and some heavy-duty equipment. In order to be able to run at high speeds, it is also required to provide high torque at low speeds. Since the characteristic of the permanent magnet motor is a constant torque characteristic, it is difficult to meet the requirements of large speed range and large torque at the same time. Therefore, various hybrid excitation assumptions have been proposed, and hybrid excitation motors with various structural forms have been invented to solve the problems of low speed, high torque and high speed constant power. At present, there are hybrid excitation motors with excitation windings in the stator, claw motors, hybrid excitation motors with slip ring DC excitation, etc. However, the efficiency of these hybrid excitation motors in permanent magnet motors and the expansion of the speed regulation range of permanent magnet motors need to be improved.

Contents of the invention

The purpose of this utility model is to consider the above problems and provide a hybrid excitation motor device that can meet the requirements of low speed, high torque and high speed, and can improve the efficiency of the motor and expand the speed regulation range of the motor. The utility model is reasonable in design, convenient and practical.

The technical scheme of the utility model is: the hybrid excitation motor device of the utility model includes an organic base and a hybrid excitation working motor and a winding type excitation motor installed on the base, wherein the hybrid excitation working motor includes a rotating shaft, a working motor stator Windings, stator cores, permanent magnets, field pole cores, field windings, the rotating shaft is supported on the machine base, the field pole core is set on the shaft, the permanent magnet is placed in the radial middle of the field pole core, and the field winding is wound on the field On the pole core, the stator core is installed on the outside of the excitation pole core, and the stator winding is embedded on the stator core; the wound-type excitation motor includes an excitation motor stator core, an excitation motor stator winding, an excitation motor rotor winding and The rotor core of the excitation motor, wherein the rotor core of the excitation motor is set on the rotating shaft, the rotor winding of the excitation motor is wound on the rotor core of the excitation motor, the stator core of the excitation motor is installed outside the rotor core of the excitation motor, and the stator winding of the excitation motor Embedded in the wire slot of the stator core of the excitation motor.

The above-mentioned excitation pole iron core is made of silicon steel sheet with high flux density, or amorphous material.

An end cover is installed at the end of the above machine base.

One end of the rotating shaft is supported on the end cover through the first bearing, and the other end of the rotating shaft is supported on the frame of the wound excitation motor through the second bearing.

A bearing cover is installed on the outer side of the above-mentioned first bearing.

A first bearing inner cover and a first bearing inner cover are respectively installed inside the first bearing and the second bearing.

Fan blades are installed on the above-mentioned rotating shaft.

A windshield is installed on the outer side of the above-mentioned fan blades.

The power supply of the excitation winding is provided by the induced voltage generated by the rotor winding of the excitation motor rotating coaxially with the rotor after being rectified by the rectifier circuit.

The stator winding of the above excitation motor is powered by AC frequency conversion.

The utility model adopts the advantage of AC excitation that when low speed and high torque are required, although the rotating speed is low, only by increasing the frequency of the rotating magnetic field of the stator winding of the excitation motor, sufficient voltage can be generated to supply the excitation winding of the working motor, so that the working motor can obtain enough Changing the slip rate of the rotating magnetic field of the stator winding of the excitation motor can control the magnetic flux of the working motor, and changing the slip direction of the rotating magnetic field of the stator winding of the exciting motor can change the direction of the excitation current of the exciting motor, which can make The working motor works in the state of magnetization or demagnetization, which can meet the requirements of low speed, high torque and high speed, and can improve the efficiency of the motor and expand the speed regulation range of the motor. The utility model is a hybrid excitation motor device with ingenious design, excellent performance, convenience and practicality.

Description of drawings

Fig. 1 is the structural representation of the hybrid excitation motor of the present invention;

Fig. 2 is the cross-sectional view of the mixed excitation rotor of the working motor in the utility model;

Fig. 3 is the cross-sectional view of the wound rotor of the excitation motor in the utility model;

Fig. 4 is a wiring diagram of the magnetic winding of the working motor and the winding of the exciting motor in the utility model.

Detailed ways

Example:

The structure schematic diagram of the present utility model is shown in Fig. 1, 2, 3, 4, and the hybrid excitation motor device of the present utility model includes organic base 9 and the hybrid excitation working motor and the winding type excitation motor installed in the base 9, Among them, the hybrid excitation working motor includes a rotating shaft 1, a working motor stator winding 6, a stator core 7, a permanent magnet 8, an excitation pole core 10, and an excitation winding 11. The rotating shaft 1 is supported on the machine base 9, and the excitation pole core 10 is set. On the rotating shaft 1, the permanent magnet 8 is placed in the radial middle of the field pole core 10, and the field winding 11 is wound on the field pole core 10. In this embodiment, the field winding 11 is wound around the field pole core 10, The stator core 7 is installed on the outside of the excitation pole core 10, and the stator winding 6 is embedded on the stator core 7; the wound-type excitation motor includes an excitation motor stator core 13, an excitation motor stator winding 14, an excitation motor rotor winding 19 and the excitation motor rotor core 20, wherein the excitation motor rotor core 20 is set on the rotating shaft 1, and the excitation motor rotor winding 19 is wound on the excitation motor rotor core 20. In this embodiment, the excitation motor rotor winding 19 is wound on the excitation motor Around the motor rotor iron core 20, the excitation motor stator iron core 13 is installed on the outside of the excitation motor rotor iron core 20, and the excitation motor stator winding 14 is embedded in the wire groove of the excitation motor stator iron core 13, and the excitation motor stator winding 14 is formed by AC variable frequency power supply, the power supply of the excitation winding 11 is provided by the induced voltage generated by the rotor winding 19 of the excitation motor rotating coaxially with the rotor after being rectified by the rectification circuit 21 . The rectification circuit mentioned above can be a conventional rectification circuit.

The above-mentioned field pole core 10 is made of high magnetic density silicon steel sheet or amorphous material. In this embodiment, the field pole core 10 is made of high magnetic density silicon steel sheet.

In addition, an end cover 4 is installed at the end of the base 9 . One end of the rotating shaft 1 is supported on the end cover 4 through the first bearing 3 , and the other end of the rotating shaft 1 is supported on the frame 12 of the wound field excitation motor through the second bearing 16 .

In this embodiment, a bearing cap 2 is installed on the outer side of the above-mentioned bearing 3 . A first bearing inner cover 5 and a first bearing inner cover 15 are installed inside the first bearing 3 and the second bearing 16 respectively.

In this embodiment, fan blades 17 are installed on the rotating shaft 1 . A windshield 18 is installed on the outer side of the above-mentioned fan blades 17 .

The working principle of the utility model is as follows: the frequency _f1 of the rotating magnetic field of the stator winding 6 of the working motor is given by the main controller, and the mixed excitation rotor composed of the excitation pole 10, the permanent magnet 8 and the excitation winding 11 follows the frequency f of the stator rotating magnetic field ₁ rotation, and at the same time, the wound rotor of the excitation motor composed of the rotor winding 19 and the iron core 20 of the excitation motor also rotates with the rotating magnetic field frequency _f1 of the working motor stator, and the excitation motor controller controls the excitation according to the requirements of the working motor for the magnetic field The frequency f ₂ of the rotating magnetic field of the stator winding 14 of the motor forms a certain slip (f ₂ -f ₁ ) with the frequency f ₁ of the rotating magnetic field of the stator winding 6 of the working motor, so that the excitation motor is in the power generation state, and the induced voltage generated by the wound rotor passes through The rectification circuit 21 rectifies and sends to the excitation winding 11 of the working motor to change the main magnetic flux of the working motor so as to control the output torque and speed of the motor. When the magnetization is required, the magnetic flux generated by the current direction of the excitation motor is consistent with the magnetic flux direction of the permanent magnet. When the magnetic flux is weakened, the slip direction is changed so that the magnetic flux generated by the current direction of the excitation motor is consistent with that of the permanent magnet. The magnetic flux direction of the permanent magnet is opposite, and the slip direction can be realized by adjusting the magnetic field frequency _f2 of the stator winding of the exciting motor to be greater than or smaller than the rotating magnetic field frequency f1 of the stator winding ₆ of the working motor. The greater the frequency difference between the two, the more significant the effect of magnetization or demagnetization.

Claims (10)

1. A hybrid excitation motor device, characterized in that it includes an organic base (9) and a hybrid excitation working motor and a wound-type excitation motor installed on the base (9), wherein the hybrid excitation working motor includes a rotating shaft (1) , working motor stator winding (6), stator iron core (7), permanent magnet (8), excitation pole iron core (10), excitation winding (11), rotating shaft (1) is supported on the base (9), excitation The pole core (10) is set on the rotating shaft (1), the permanent magnet (8) is placed in the radial middle of the field pole core (10), the field winding (11) is wound on the field pole core (10), and the stator The iron core (7) is installed on the outside of the excitation pole iron core (10), and the stator winding (6) is embedded on the stator iron core (7); the wound-type excitation motor includes an excitation motor stator core (13), an excitation The motor stator winding (14), the excitation motor rotor winding (19) and the excitation motor rotor core (20), wherein the excitation motor rotor core (20) is set on the rotating shaft (1), and the excitation motor rotor winding (19) is wound on On the excitation motor rotor core (20), the excitation motor stator core (13) is installed on the outside of the excitation motor rotor core (20), and the excitation motor stator winding (14) is embedded in the excitation motor stator core (13) in the trunking. 2. The hybrid excitation motor device according to claim 1, characterized in that the above-mentioned excitation pole core (10) is made of silicon steel sheet with high magnetic density or amorphous material. 3. The hybrid excitation motor device according to claim 1, characterized in that an end cover (4) is installed at the end of the base (9). 4. The hybrid excitation motor device according to claim 1, characterized in that one end of the above-mentioned rotating shaft (1) is supported on the end cover (4) through the first bearing (3), and the other end of the rotating shaft (1) is passed through the second Bearing (16) is supported on the wound type excitation motor support (12). 5. The hybrid excitation motor device according to claim 4, characterized in that a bearing cover (2) is installed on the outer side of the first bearing (3). 6. The hybrid excitation motor device according to claim 4, characterized in that the inner side of the first bearing (3) and the second bearing (16) are respectively equipped with a first bearing inner cover (5) and a first bearing inner cover cover (15). 7. The hybrid excitation motor device according to any one of claims 1 to 6, characterized in that fan blades (17) are installed on the rotating shaft (1). 8 . The hybrid excitation motor device according to claim 7 , characterized in that a wind shield ( 18 ) is installed on the outside of the wind blade ( 17 ). 9. The hybrid excitation motor device according to claim 8, characterized in that the power supply of the excitation winding (11) is rectified by the rectification circuit (21) through the induction voltage generated by the excitation motor rotor winding (19) rotating coaxially with the rotor available later. 10. The hybrid excitation motor device according to claim 9, characterized in that the stator winding (14) of the excitation motor is powered by AC variable frequency.

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