RU32647U1 - DC motor - Google Patents

Description

DC MOTOR

The utility model relates to electric DC machines with a lined barbed anchor, excited by permanent magnets and can be used in special-purpose products where high specific mass and dimensional parameters and electromechanical parameters are required.

The prior art electric motor DC, taken by the authors as a prototype, containing an inductor with four high-energy staple-shaped permanent magnets, a caliper with brushes; a shaft on which a lined prong anchor is installed with a bevel of grooves of 0.5-1 teeth division, in the grooves of which a simple loop winding 1 is laid.

The disadvantages of such an electric motor are a short service life, large sizes, low speed and specific power.

The purpose of the proposed utility model is to increase the service life, reduce the size, increase the specific electric power and speed.

This goal is achieved in that the DC motor contains a four-pole inductor with four high-energy permanent magnets, bearing shields mounted on the inductor, a support with brushes mounted in brush holders, mounted on the rear bearing shield, the support contains two brushes mounted at an angle of 90, the shaft on which the bearings are mounted, a collector on which a coating is applied that provides a stable value of the transient resistance and corrosion protection perforated anchor winding and slant grooves on one tooth pitch, the wave winding of the armature, the compression compound number

the anchor teeth are 13, in the inductor there are two windows for raising and lowering the brushes, in the rear bearing plate grooves are made for installing the brushes to geometric neutral, permanent magnets can be made of their Nd-Fe-B alloy and pressed with a compound.

In FIG. 1 shows a General view of a DC motor; in FIG. 2 is a right side view of FIG. 1.

The DC motor contains a four-pole inductor 1 with four high-energy permanent magnets 2. Front 3 and rear 4 bearing shields mounted on the inductor with screws 5. Caliper 6 with two brushes 7 mounted in the trigger holders 8 and installed at an angle of 90 ° to each other. The caliper 6 is mounted on the rear bearing shield 4. On the shaft 9 there are bearings 10, a collector 11, a burnt notched armature 12 with a wave winding and a bevel groove for one notch division.

The collector 11 is coated to provide a stable transition resistance and corrosion protection. Permanent magnets 2 inductors, armature winding 16 and collector AND are oppressed with a compound. The inductor 1 has two windows 13 for installing and raising brushes. In the rear bearing shield 4, grooves 14 are made for installing the brushes on geometric neutral. A cover 15 is installed in the front bearing shield 3 to protect the bearing from dust.

Assembly and adjustment of the motor is as follows.

A caliper 6 with mounted brushes 7 is mounted on the rear bearing shield 4. The rear bearing shield 4 is attached to an inductor on which four high-energy permanent magnets 2 are mounted and pressed with a compound.

The assembled anchor 12 is inserted into the inductor 1 with brushes 7 previously raised through the windows 13. The bearings 10 are inserted into the bearing shields 3 and 4, which are fixed to the inductor housing 1 with screws 5.

The installation of brushes on geometric neutral is carried out according to the minimum value of the no-load current of the electric motor by turning the rear bearing shield 4 with a fixed caliper 6 around the armature shaft 9.

The assembled electric motor is ready for operation.

Thus, the use of a wave winding in a direct current electric motor made it possible to use a half set of brushes (2 pcs.), Which significantly improved the overall dimensions of the electric motor.

The calculation of the electric motor was carried out according to the maximum efficiency criterion

where f is the total magnetic flux of the inductor;

Sa is the cross section of the armature winding;

/ and, is the average length of the coil winding of the armature, which made it possible to ensure its maximum specific power and speed.

The use of the coating on the collector made it possible to increase the stability of the transition resistance and significantly increase the shelf life of the electric motor.

The use of grooves on the rear bearing shield made it possible to simplify the adjustment of the electric motor, and the windows in the inductor made it possible to simplify its assembly.

SOURCES OF INFORMATION

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Claims (1)

A DC motor containing a four-pole inductor with four high-energy permanent magnets, bearing shields mounted on the inductor, a support with brushes mounted in the brush holders, a shaft mounted on the rear bearing shield, on which the bearings are mounted, a collector, a buried gear armature with a winding and a bevel one tooth division, characterized in that the collector is coated with a stable value of the transition resistance, the winding of the wave armature the first one is pressed with a compound, the caliper contains two brushes installed at an angle of 90 °, two windows for installing and raising brushes are made in the inductor, grooves are made in the rear bearing shield for installing brushes on geometric neutral.