CN212486302U - Motor and electric vehicle with same - Google Patents

Abstract

An inner rotor (10) of the motor is used as a planet gear carrier to assemble a planet gear (12), an outer gear ring (9) is fixedly assembled with the inner wall of an outer rotor (2) of the motor, a sun gear (11) is assembled with a motor central shaft (5) through a one-way clutch or a bearing, a transmission sleeve (6) is arranged on the sun gear (11) and extends out of the outer rotor (2) of the motor, the transmission sleeve (6) and the sun gear (11) are integrated or fixedly connected, and one end, extending out of the outer rotor (2) of the motor, of the transmission sleeve (6) of the sun gear (11) is fixed with a brake disc (4) of the sun gear (11); one end cover of the outer motor rotor (2) is assembled on a transmission sleeve (6) of the sun gear (11) through a bearing (8), and the other end cover is assembled with the central motor shaft (5) through the bearing.

Description

Motor and electric vehicle with same

Technical Field

The utility model relates to a motor and electric motor car, in particular to be equipped with the in-wheel motor of planetary gear derailleur and the electric motor car that is equipped with this motor.

Background

At present, an energy recovery electric vehicle is gradually applied, the energy recovery is that a driving motor is instantly changed into a generator to generate electricity when the electric vehicle goes downhill, the resistance of the electricity generation is utilized to assist braking, and the generated electricity is utilized to prolong the endurance mileage. Because the generator has a certain rotating speed requirement when generating electricity, the energy recovery electric vehicles on the market at present all adopt brushless toothed motors, but in order to not influence the sliding of the electric vehicle, the brushless toothed motors are additionally provided with one-way clutches on planetary gear transmissions in the electric vehicles, namely, only an inner rotor of the motor drives a hub to rotate, and the hub cannot drive the inner rotor of the motor to rotate.

The energy recovery electric vehicle cancels a one-way clutch on a planetary gear transmission in order to enable a motor to generate power and enable a hub to drive an inner rotor of the motor to rotate, so that the hub can drive the inner rotor of the motor to rotate to generate power, but the sliding function is sacrificed. So some energy recovery electric vehicle commentaries on treasure clearly note: the electric vehicle starts energy recovery as long as the accelerator is turned back to zero.

Although the energy recovery function has many advantages, it is somewhat of an aesthetic disadvantage to sacrifice the gliding function.

Disclosure of Invention

The utility model aims at solving the not enough of above-mentioned technique, provide one kind can be connected, cut off power transmission's motor and the electric motor car that is equipped with this motor between motor inner rotor and the wheel hub according to the demand.

In order to achieve the above purpose, the utility model adopts the following technical scheme.

The planetary gear transmission consists of a sun gear, an outer gear ring, a planetary gear and a planetary gear carrier.

The utility model discloses the inner rotor of motor assembles planetary gear as the planet gear carrier, the inner rotor is exactly the electric motor rotor who is fixed with the permanent magnet.

The outer gear ring is fixedly assembled with the inner wall of the outer rotor of the motor, and the outer rotor is a rotary shell for fixing the motor and the wheel hub.

The sun gear is assembled with a central shaft of the motor through a one-way clutch or a bearing, a transmission sleeve is arranged on the sun gear and extends out of the outer rotor of the motor, the transmission sleeve and the sun gear are integrated or fixedly connected, and one end of the transmission sleeve, extending out of the outer rotor of the motor, of the sun gear is fixed with a sun gear brake disc; one end cover of the outer rotor of the motor is assembled on a transmission sleeve of the sun gear through a bearing, and the other end cover is assembled with the central shaft of the motor through the bearing.

When the motor is a pure generator, in order to reduce friction between parts, the sun gear is assembled with a motor central shaft through a bearing, and the sun gear has a bidirectional rotation function on the central shaft of the motor.

When the motor has two functions of driving and generating, the sun gear is assembled with the central shaft of the motor through the one-way clutch, and the sun gear has a one-way rotation function on the central shaft of the motor.

And a coil stator of the motor is fixedly assembled with the central shaft.

The wheel hub and the motor outer rotor of the electric vehicle are fixedly assembled or fixedly connected and assembled through a transmission shaft or directly designed into a whole.

The electric vehicle brake disc is fixedly assembled with the outer motor rotor or a shaft which transmits power to the outside with the outer motor rotor, and the electric vehicle brake disc is used for speed reduction and emergency stop of an electric vehicle.

The electric vehicle is characterized in that each hub of the electric vehicle is provided with the motor or fixedly connected with the motor through a transmission shaft, besides the conventional braking device for decelerating and stopping, a set of braking device of a sun wheel brake disc is added on the electric vehicle, namely, two sets of braking devices are assembled on one wheel, a set of braking device of the sun wheel brake disc is assembled on the electric vehicle, and a set of braking device of the electric vehicle brake disc is a disc brake caliper.

The braking device of the sun wheel braking disc is controlled by a braking pedal or a right handle, and after the motor is assembled on the electric vehicle, the braking device of the sun wheel braking disc on the electric vehicle can clamp the sun wheel braking disc. According to the characteristics of the planetary gear transmission, after the planet carrier is locked, power is input from the outer ring gear and output from the sun gear. After the sun gear is locked, power is either input from the outer ring gear and output from the planet carrier, or input from the planet carrier and output from the outer ring gear. When the electric vehicle needs to slide, the braking device is controlled to release the sun wheel braking disc, under the condition that the resistance of the motor generating coil for cutting magnetic lines is larger than the resistance of the sun wheel for rotating, the wheel hub transmits power to the sun wheel, and the motor does not have the resistance for influencing the sliding of the electric vehicle. When the electric vehicle needs motor power generation auxiliary braking when going downhill, the control braking device clamps the sun wheel brake disc, the sun wheel in the motor is locked and can not rotate at the moment, and the inner rotor in the motor is driven by the wheel hub to rotate at a high speed to enable the motor to generate power.

The braking device of the electric vehicle brake disc is characterized in that the original braking device of the electric vehicle is connected with a left foot clutch pedal or a left hand clutch handle through a brake cable, and the brake is controlled by the clutch pedal or the left hand clutch handle.

The utility model has the advantages of.

1. The power transmission between the motor and the wheel hub is cut off, so that the sliding distance can be prolonged, and the driving mileage is prolonged; and secondly, each wheel of the electric vehicle can be used as a driving wheel and can be used as a power generation wheel for auxiliary braking, the generated energy is improved, the braking effect is improved, the running performance of the electric vehicle under different road conditions is improved, and even if a motor of one wheel is burnt, the running of the electric vehicle is not influenced, and the good effect cannot be achieved by only one motor for auxiliary braking during downhill.

2. Avoid the accident of mistakenly using the accelerator as the brake.

Drawings

The present invention will be described in detail with reference to the accompanying drawings and embodiments.

Fig. 1, fig. 2 and fig. 3 are schematic perspective views of the motor of the present invention.

Fig. 4 is a schematic perspective sectional view of the motor of the present invention.

Fig. 5 is a schematic exploded perspective view of the motor of the present invention.

Fig. 6 is a perspective view of the sun gear assembly of the present invention.

In the figure, a hub (1), an outer rotor (2), an electric vehicle brake disc (3), a sun wheel brake disc (4), a central shaft (5), a transmission sleeve (6), a bearing (7), a bearing (8), an outer gear ring (9), an inner rotor (10), a sun wheel (11) and a planetary gear (12).

Detailed Description

Unless defined otherwise, technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used in the description of the application herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. The motor mentioned in the text is a driving motor, is a power generation motor, and is a motor capable of generating and driving power. Electric vehicles referred to herein include electric bicycles, electric motorcycles, and electric automobiles.

The planetary gear transmission consists of a sun gear (11), an outer gear ring (9), a planetary gear (12) and a planetary gear carrier.

The utility model discloses inner rotor (10) of motor are as planet gear carrier assembly planetary gear (12), inner rotor (10) are exactly the electric motor rotor who is fixed with the permanent magnet.

The outer gear ring (9) is fixedly assembled with the inner wall of the outer rotor (2) of the motor, and the outer rotor (2) is a rotary shell for fixing the motor and the hub (1).

The sun gear (11) is assembled with the motor central shaft (5) through a one-way clutch or a bearing, a transmission sleeve (6) is arranged on the sun gear (11) and extends out of the motor outer rotor (2), the transmission sleeve (6) and the sun gear (11) are integrated or fixedly connected, and one end of the transmission sleeve (6), extending out of the motor outer rotor (2), of the sun gear (11) is fixed with a sun gear (11) brake disc (4); one end cover of the outer motor rotor (2) is assembled on a transmission sleeve (6) of the sun gear (11) through a bearing (8), and the other end cover is assembled with the central motor shaft (5) through the bearing.

The coil stator of the motor is fixedly assembled with the central shaft (5).

A wheel hub (1) and an outer motor rotor (2) of the electric vehicle are fixedly assembled or fixedly connected and assembled through a transmission shaft or directly designed into a whole.

The electric vehicle brake disc (3) is fixedly assembled with the motor outer rotor (2) or a shaft for transmitting power to the outside with the motor outer rotor (2), and the electric vehicle brake disc (3) is used for decelerating and emergently stopping the electric vehicle.

When the motor is a simple generator, in order to reduce friction between parts, the sun gear (11) is assembled with the motor central shaft (5) through the bearing (7), and the sun gear (11) has a bidirectional rotation function on the motor central shaft (5).

When the motor has two functions of driving and generating, the sun gear (11) is assembled with the central shaft (5) of the motor through the one-way clutch, and the sun gear (11) has a one-way rotation function on the central shaft (5) of the motor.

The electric vehicle is characterized in that each hub (1) of the electric vehicle is provided with the motor or fixedly connected with the motor through a transmission shaft, the electric vehicle is additionally provided with a set of braking device of a sun wheel (11) brake disc (4) besides the existing braking device for deceleration parking, namely, one wheel is provided with two sets of braking devices, one set of braking device of the sun wheel (11) brake disc (4) and one set of braking device of the electric vehicle brake disc (3), and the braking devices are disc brake calipers.

The braking device of the sun wheel (11) brake disc (4) is controlled by a brake pedal or a right handle, and after the motor is assembled on the electric vehicle, the braking device of the sun wheel (11) brake disc (4) on the electric vehicle can clamp the sun wheel (11) brake disc (4). According to the characteristics of the planetary gear transmission, after the planet carrier is locked, power is input from the outer ring gear and output from the sun gear. After the sun gear is locked, power is either input from the outer ring gear and output from the planet carrier, or input from the planet carrier and output from the outer ring gear. When the electric vehicle needs to slide, the braking device is controlled to release the brake disc (4) of the sun wheel (11), under the condition that the resistance of the motor generating coil for cutting magnetic lines is greater than the resistance of the rotation of the sun wheel (11), the wheel hub (1) transmits power to the sun wheel (11), and the motor does not have resistance which influences the sliding of the electric vehicle. When the electric vehicle needs motor power generation auxiliary braking when going downhill, the control braking device clamps the sun wheel (11) and the brake disc (4), at the moment, the sun wheel (11) in the motor is locked and can not rotate, and at the moment, the inner rotor (10) in the motor rotates at a high speed under the driving of the wheel hub (1) and enables the motor to generate power.

The braking device of the electric vehicle brake disc (3) is the original braking device of the electric vehicle and is connected with the left foot clutch pedal or the left hand clutch handle through a brake cable, and the brake is controlled by the clutch pedal or the left hand clutch handle.

Claims (4)

1. The utility model provides a motor, includes driving motor, generator motor and can generate electricity and can driven motor, its characterized in that: the planetary gear transmission consists of a sun gear, an outer gear ring, a planetary gear and a planetary gear carrier;

an inner rotor of the motor is used as a planetary gear carrier to assemble a planetary gear, and the inner rotor is a motor rotor fixed with a permanent magnet;

the outer gear ring is fixedly assembled with the inner wall of an outer rotor of the motor, and the outer rotor is a rotary shell fixed with the wheel hub;

the sun wheel is assembled with a central shaft of the motor through a one-way clutch or a bearing, a transmission sleeve is arranged on the sun wheel and extends out of the outer rotor of the motor, the transmission sleeve and the sun wheel are integrated or fixedly connected, and one end of the transmission sleeve, extending out of the outer rotor of the motor, of the sun wheel is fixedly provided with a sun wheel brake disc; one end cover of the outer rotor of the motor is assembled on a transmission sleeve of the sun gear through a bearing, and the other end cover is assembled with the central shaft of the motor through the bearing;

and a coil stator of the motor is fixedly assembled with the central shaft.

2. An electric machine as claimed in claim 1, characterized in that: when the motor is a pure generator, in order to reduce friction between parts, the sun gear is assembled with a motor central shaft through a bearing, and the sun gear has a bidirectional rotation function on the central shaft of the motor.

3. An electric machine as claimed in claim 1, characterized in that: when the motor has two functions of driving and generating, the sun gear is assembled with the central shaft of the motor through the one-way clutch, and the sun gear has a one-way rotation function on the central shaft of the motor.

4. An electric vehicle equipped with the motor of claim 1, including electric bicycles, electric motorcycles, and electric automobiles, characterized in that: the wheel hub of the electric vehicle is fixedly assembled with the outer rotor of the motor or fixedly connected and assembled through a transmission shaft or directly designed into a whole;

the electric vehicle brake disc is fixedly assembled with the outer rotor of the motor or a shaft which transmits power to the outside with the outer rotor of the motor, and the electric vehicle brake disc is used for speed reduction and emergency stop of the electric vehicle;

each hub of the electric vehicle is provided with the motor or fixedly connected with the motor through a transmission shaft, the electric vehicle is additionally provided with a set of braking device of a sun wheel brake disc except the conventional braking device for decelerating and stopping, namely, two sets of braking devices are assembled on one electric vehicle, a set of braking device of the sun wheel brake disc is assembled on the other electric vehicle, and a set of braking device of the electric vehicle brake disc is assembled on the other electric vehicle, wherein the braking device is a disc brake caliper;

the braking device of the sun wheel braking disc is controlled by a braking pedal or a right handle, and after the motor is assembled on the electric vehicle, the braking device of the sun wheel braking disc on the electric vehicle can clamp the sun wheel braking disc; when the electric vehicle needs to slide, the brake device is controlled to release the sun wheel brake disc, under the condition that the resistance of the motor generating coil for cutting magnetic lines is larger than the resistance of the sun wheel for rotating, the wheel hub transmits power to the sun wheel, and the motor does not have the resistance for influencing the sliding of the electric vehicle; when the electric vehicle needs motor power generation auxiliary braking when going downhill, the control braking device clamps a sun wheel brake disc, at the moment, a sun wheel in the motor is locked and can not rotate, and at the moment, an inner rotor in the motor is driven by a wheel hub to rotate at a high speed to enable the motor to generate power;

the braking device of the electric vehicle brake disc is characterized in that the original braking device of the electric vehicle is connected with a left foot clutch pedal or a left hand clutch handle through a brake cable, and the brake is controlled by the clutch pedal or the left hand clutch handle.

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