CN200953524Y

CN200953524Y - Double-rotor DC differential motor

Info

Publication number: CN200953524Y
Application number: CNU2005201323730U
Authority: CN
Inventors: 邹本武; 李明涛
Original assignee: Individual
Current assignee: Individual
Priority date: 2005-11-06
Filing date: 2005-11-06
Publication date: 2007-09-26
Anticipated expiration: 2015-11-06

Abstract

A double-rotor differential speed DC motor comprises a stator installed in metal shell and two rotors. One end of two rotors of the same parameters can form concentric connection in the rotary way, and another two ends are taken as the transmission shaft after drilling through the bearing and extending outside the shell. Two rotor coils are in serial connection with each other through brush. When their moments are the same, the rotation speeds of the motors are the same as well. When the moment at one end is increased, the speed will decline. The voltage at the two ends of the rotor will decline because of the reduction of inductance. Since the two rotors are in serial connection, the voltage at the two ends of another rotor will rise quickly. With stable performance and low energy consumption, the utility model can be used to drive electric vehicles and robots directly.

Description

The dual rotor DC speed difference motor

Affiliated field

The utility model relates to a kind of power set that are used for Drive for EV, especially adopts the birotor both-end to export in the same way or oppositely, and regulates the DC motor that power distribution realizes differential according to actual needs automatically.

Background technology

At present, known for electric automobile provides the DC motor of power all to need additional differential gear and can only export in the same way, any device all can increase the weight of energy consumption and production cost and car load.

Summary of the invention

Do the deficiency of driving device for electric vehicle in order to overcome existing direct current machine, the utility model provides a kind of direct current machine, and this direct current machine can realize that without any need for attachment device automatic adjusting differential, the constant speed of two concentric driving shafts reach in the same way or oppositely output.

The technical scheme that the utility model technical solution problem is adopted is, in the metal object.The end that two identical rotors of parameter do not have commutator segment is made rotatable concentric connection back public same armature (being stator), and two ends are passed bearing respectively and done power transmission shaft in addition, and two rotor coils are connected by brush.Rotating speed of motor is identical when moment is identical, rotating speed can descend when an end moment strengthens, the voltage of two ends of rotor can reduce to descend because of its induction reactance, because of so two rotors are another two ends of rotor voltage of series connection faster rotational speed that can rise, so can not rise De Taigao because the D.C. resistance of coil can not reduce the voltage difference of two rotors.Change two rotor coils connections and can realize reverse output.Reach automatic adjusting differential, constant speed and export purpose in the same way or oppositely.

The beneficial effects of the utility model are, can realize the output of differential moment in power conversion, also have twin shaft and export changeable in the same way or oppositely.Directly can be used for fields such as electric automobile, robot; Energy savings, promotion prospect is extensive.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

Fig. 1 is a fundamental diagram of the present utility model.

Fig. 2 is the sectional arrangement drawing of this differential direct current machine.

Among the figure 1, metal shell, 2, permanent magnet, 3, set bolt, 4, brush box, 5, brush A1,6, rotation axis A, 7, bearing, 8, commutator segment A, 9, rotor coil A, 10, rotor A, 11, rotor B, 12, commutator segment, 13, rotation axis B, 14, rotor coil B, 15, brush A2,16, brush B1,17, brush B2.

Embodiment

Constitute series circuit at Fig. 1 center brush A1 (5), commutator segment A (8), rotor coil A (9), brush A2 (15), brush B1 (16), commutator segment B (12), rotor coil B (14), brush B2 (17) and do rotor, permanent magnet (2), make stator.

In the embodiment shown in Figure 2, permanent magnet (2) is embedded in the metal shell (1) and makees stator, rotor A (10), rotor B (11) carry out rotatable concentric connection and pack in the stator, rotor coil A (9) goes up its lead-in wire around rotor A (10) and is connected with commutator segment A (8), rotor coil B (14) goes up its lead-in wire around rotor B (11) and is connected with commutator segment B (12), brush A2 (15) is connected with brush B1 (16), and power supply inserts through brush A1 (5), brush B2 (17).Rotation axis A (6) is that the moment of rotor A (10) spreads out of beam warp bearing (7) and stretches out outside, and rotation axis B (13) is that the moment of rotor B (11) spreads out of beam warp bearing (18) and stretches out outside.

Claims

1, a kind of dual rotor DC speed difference motor, in metal shell, it is stator that the end that two identical rotors of parameter do not have commutator segment is made the public same armature in rotatable concentric connection back, two ends are passed bearing respectively and are done power transmission shaft in addition, the coil of two rotors is formed after connecting by brush, it is characterized in that: two public stators of concentric rotor, stretch out two moments respectively and spread out of axle at the housing two ends.

2, DC motor according to claim 1 is characterized in that: two rotor coils are contacted.