RU82386U1 - ELECTRIC MACHINE - Google Patents

Abstract

An electric machine comprising a housing, bearing shields mounted on the ends of the housing, an input device mounted inside the housing, a rotor mounted at its ends in the bearings of the bearing shields, and an electric voltage to rotational motion converter, characterized in that it is provided with an electric brush holder assembly made in in the form of a disk fixed by the inner surface of its hole, made in the center of the disk, on the outer surface of the Central part of the rotor, the first, second, third and four the mouth of the electric brushes fixed in the holes made in the disk of the node of the electric brush holders, the input device is made in the form of a disk installed by the inner surface of its central hole above the outer surface of one of the ends of the rotor, a flat ring mounted on the side surface of the circle relative to the opposite side surface of the disk of the node of the electric brush holders, connected by its housing to one of the terminals of the voltage source and in contact with its surface with an electric with sliding sliding contacts of the first electric brush and a flat semicircle coaxially located and fixed inside the flat ring, connected by its housing to the other terminal of the electric voltage source and alternately contacting its surface with electric sliding contacts of the second, third and fourth electric brushes, and the electric voltage to rotational motion converter is made in the form of a disk, fixed by the inner surface of its hole, made in the center of the disk, on

Description

The proposed technical solution relates to the field of electrical engineering and can be used to create electrical machines that provide rotor rotation at the lowest cost of electrical energy.

Similar technical solutions are known, see, for example, the description of the invention to the USSR copyright certificate No. 1282265, which contains the following set of existing features:

- housing;

- bearing shields mounted on the ends of the housing;

- an input device with contact clamps, mounted inside the housing and connected with its contact clamps to the terminals of the voltage source;

- a converter of electrical voltage into rotational motion, made in the form of a stator fixed inside the housing and connected by the terminals of its winding to the contact clamps of the input device and the rotor with the winding installed at its ends in the bearings of the bearing shields.

Common features of the proposed technical solution and the above-described similar technical solutions are:

- housing;

- bearing shields mounted on the ends of the housing;

- an input device mounted inside the housing;

- a rotor mounted at its ends in bearings of the bearing shields;

- Converter of electrical voltage into rotational motion.

A similar technical solution is also known, see the description of the invention for the USSR copyright certificate No. 1464250, which is selected as a prototype and which contains:

- housing;

- bearing shields mounted on the ends of the housing;

- an input device with contact clamps, mounted inside the housing and connected with its contact clamps to the terminals of the voltage source;

- a converter of electrical voltage into rotational motion, made in the form of a stator fixed inside the housing and connected by the terminals of its winding to the contact clamps of the input device and the rotor with the winding installed at its ends in the bearings of the bearing shields.

Common features of the proposed technical solution and prototype are the following features:

- housing;

- bearing shields mounted on the ends of the housing;

- an input device mounted inside the housing;

- a rotor mounted at its ends in bearings of the bearing shields;

- Converter of electrical voltage into rotational motion.

The problem to which the claimed utility model is directed is to expand the arsenal of technical means to provide the rotor torque of an electric machine.

The technical result consists in the implementation of the purpose of the technical solution described in this description of the utility model "Electric machine".

The technical result indicated above is achieved by the fact that an electric machine comprising a housing, bearing shields mounted on the ends of the housing, an input device mounted inside the housing, a rotor mounted at its ends in the bearings of the bearing shields, and a voltage-to-rotational voltage converter is provided with an electric brush holder,

made in the form of a disk, fixed by the inner surface of its hole, made in the center of the disk, on the outer surface of the Central part of the rotor, the first, second, third and fourth electric brushes mounted in the holes made in the disk, the input device is made in the form of a disk mounted by the inner surface of its the Central hole above the outer surface of one (left) of the ends of the rotor, a flat ring mounted on the side surface of the disk, relative to the opposite side surface for lawsuit of an electric brush holder assembly connected by its housing to one of the terminals of the electric voltage source and contacting with its surface with electric sliding contacts of the first electric brush and a flat half ring, coaxially located and fixed inside the flat ring, connected by its housing to another terminal of the electric voltage source and alternately contacting its surface with electric sliding contacts of the second, third and fourth electric brushes, and the converter The electric voltage in the rotational movement is made in the form of a disk, fixed by the inner surface of its hole, made in the center of the disk, on the outer surface of the second (right) end of the rotor, fixed at an angle of 120 ° to each other relative to the longitudinal axis of the rotor, facing the center of the housing the side surface of the disk, the first electromagnet with a load, made, for example, in the form of a metal ball located with the smallest possible clearance relative to the inner surface of the electric housing machine and the first electromagnet fixed at the end of the armature, connected by its first terminal to the body of the first electric brush of the electric brush assembly and its second output to the body of the second electric brush of the electric brush assembly, of the second electromagnet with a load, made, for example, in the form of a metal ball located with the smallest possible gap relative to the inner surface of the body of the electric machine and secured to the end of the second armature

an electromagnet connected by its first output to the body of the first electric brush of the electric brush holder assembly and by its second output to the body of the third electric brush of the electric brush holder assembly and the third electromagnet with a load, made, for example, in the form of a metal ball located with the smallest possible clearance relative to the inner surface of the electric machine body and fixed at the end of the armature of the third electromagnet, connected by its first output to the body of the first electric brush of the electric brush node zhateley and its second terminal to the body of the fourth electro elektroschetkoderzhateley node.

The introduction of the electric brush holder assembly and its embodiment, as well as the introduction of an input device and an electric voltage converter into the rotary movement of the rotor, as described above, allows electric voltage to be supplied through the connections to the outputs of the electric voltage source of the flat ring and the flat half ring coaxially mounted inside the flat ring, located, relative to the opposite lateral surface of the disk of the site of the brush holder and mounted on the side xnosti drive input device installed with its Central hole above the outer surface of one (left) of the ends of the rotor and through the contacting electrical sliding contacts of the first, second, third and fourth electric brushes, fixed in holes made in the disk of the node of the brush holder, fixed by the inner surface of its hole, made in the center of the disk on the outer surface of the Central part of the rotor, to the corresponding conclusions of the windings of the first, second, third and fourth electromagnets itov loads, fixed to the ends of armatures of electromagnets mounted at the lowest possible clearances relative to the inner surface of the housing of the electrical machine enshrined at 120 ° to each other relative to the longitudinal axis of the rotor, on the side facing towards the center of the housing of the electrical machine, the side surface of the electric drive inverter

voltage in the rotational movement of the rotor, fixed by the inner surface of its hole, made in the center of the disk on the outer surface of the second (right) end of the rotor, to ensure the successive operation of these electromagnets, which alternately pull the anchor with the load secured into the winding, thus violating the initial balance of cargo balance , which leads to the appearance of the initial moment of rotation of the rotor and to the connection of the electrical voltage of the winding of the next electromagnet, which also pulls the anchor with the load inside its winding and upsets the balance of cargo balance even more and increases the rotor’s rotation moment, etc., which, in turn, leads to a gradual rotation of the rotor, which occurs with less energy, which in the proposed the technical solution is used only for the operation of electromagnets, which, pulling in turn their anchors with the loads, upset the balance of the load balance and ensure that the rotor torque is created due to the “flywheel” rotation of the loads . In this, the achievement of the technical result indicated above is manifested.

The proposed electric machine is illustrated by the following description and drawings, where in FIG. 1 is a schematic illustration of an electric machine; FIG. 2 shows the arrangement of a flat ring and a flat half ring of an input device, and FIG. 3 shows the location of the electromagnets on the disk of the converter of electrical voltage to rotational.

The proposed electric machine contains:

- building 1;

- bearing shields - 2, 3 with bearings - 4, 5, mounted on the ends of the housing - 1;

- rotor - 6, mounted at its ends in bearings - 4, 5 bearing shields - 2, 3;

- an input device made of an insulating material, for example, PCB in the form of a disk - 7 with a central hole - 8, fixed by the outer surface of its circle on the inner surface of the housing - 1 and located by the inner surface of the circumference of its central hole - 8 above the outer surface of one of the ends (left) rotor - 6, a flat ring - 9, made of conductive material, for example, of steel grade "3X13", mounted on the side surface of the disk - 7 relative to the Central axis case - 1 and connected by its case to one of the terminals of the source - 10 of electric voltage and a flat half ring - 11, made of conductive material, for example, steel grade "3X13", located coaxially inside the flat ring - 9, mounted on the same side surface disk - 7 and connected by its body to another terminal of the source - 10 electrical voltage;

- an electric brush holder assembly made of an insulating material, for example, textolite in the form of a disk - 12, fixed by the inner surface of the circumference of its hole, made in the center of the disk - 12 on the outer surface of the central part of the rotor - 6, the first electric brush - 13, fixed in the hole made in the disk - 12 and installed by its electric sliding contacts on the side surface of the flat ring - 9 of the input device, the second 14, the third - 15 and the fourth - 16 electric brushes mounted in the holes, Making a disk in - 12, at an angle - 120 ° to each other relative to the longitudinal axis of the rotor - 6 and alternately contacting, during rotation of the rotor, its electrical sliding contact with the side surface of the flat half-ring - opening device 11;

- a converter of electric voltage into rotational movement of the rotor - 6, made in the form of a disk - 17 of electrically conductive material, for example, of steel grade "3X13" and fixed to the inner surface of the circumference of its hole, made in the center of the disk - 17, on the outer

the surface of the second end of the (right) rotor - 6, fixed at an angle of - 120 ° to each other, relative to the longitudinal axis of the rotor - 6, on the side surface of the disk - 1 of the disk side - 17 of the voltage converter into rotational movement of the rotor - 6, of the first an electromagnet - 18 with a load - 19, made, for example, in the form of a metal ball located with the smallest possible clearance relative to the inner surface of the housing - 1 of the electric machine and fixed to the end of the armature of the first electromagnet - 18, connected with its first output to the body of the first electric brush - 13 nodes of the electric brush holders and its second output to the body of the second electric brush - 14 nodes of the electric brush holders, the second electromagnet - 20 with a load - 21, made, for example, in the form of a metal ball located with the smallest possible clearance relative to the internal the surface of the housing - 1 of the electric machine and the second electromagnet fixed at the end of the armature - 20, connected by its first output to the housing of the first electric brush - 13 nodes of the electric brush holders and their the second output to the body of the third electric brush - 15 nodes of the electric brush holders and the third electromagnet - 22 with a load - 23, made, for example, in the form of a metal ball located with the smallest possible clearance relative to the inner surface of the housing - 1 of the electric machine and mounted on the end of the armature of the third electromagnet - 22, connected by its first output to the housing of the first electric brush - 13 nodes of the electric brush holders and its second output to the housing of the fourth electric brush - 16 nodes of the electric brush holders.

As electromagnets - 18, 20 and 22 can be used, for example, an electromagnet published in the "Polytechnic Handbook", publishing house "Soviet Encyclopedia", Moscow, 1980, p. 613.

As a source of electrical voltage - 10, for example, an alternating voltage network of 220 volts can be used.

As electrobrushes - 13, 14, 15 and 16 can be used electrobrush published in the description of the invention to the USSR copyright certificate No. 762076 or No. 1495880.

The proposed electric machine operates as follows.

Electrical voltage from the first output of the voltage source - 10 is supplied to the flat ring - 9 of the input device and through the sliding electrical contacts of the first electric brush - 13 of the brush holder assembly is supplied to the first terminals of the windings of the first - 18, second - 20 and third - 22 electromagnets of the voltage converter rotational movement of the rotor - 6, and from the second output of the voltage source - 10, the electric voltage is supplied to a flat half ring - 11 input device and black Sliding electrical contacts of the second electro - 14 elektroschetkoderzhateley node to a second terminal of the first winding of the electromagnet -18 voltage converter into a rotational movement of the rotor - 6.

When electric voltage is supplied to the winding of the first electromagnet - 18 of the electric voltage converter into the rotational movement of the rotor - 6, it trips and pulls the load - 19 into its winding, thereby violating the initial balance of the load balance - 19, 21 and 23 of the first - 18, second - 20 and the third - 22 electromagnets of the converter of electric voltage into rotational movement of the rotor - 6, which leads to the appearance of torque of the disk - 17 converter of electric voltage into rotational movement of the mouth ra - 6 and the rotor itself - 6. The rotation of the rotor - 6 leads to rotation of the disc - elektroschetkoderzhateley node 12 that provides the connection contact sliding electric contacts third electro - elektroschetkoderzhateley node 15 to the flat

half-ring - 11 of the input device and provides electric voltage to the winding of the second electromagnet - 20 of the electric voltage converter into the rotational movement of the rotor - 6. The second electromagnet - 20 activates and pulls the load - 21 into its winding and even more upsets the balance of cargo balance - 19, 21 and 23 of the first - 18, of the second - 20 and of the third - 22 electromagnets of the converter of electric voltage into rotational motion of the rotor - 6, which leads to the appearance of an additional torque of the disk - 17 pre the voltage drawer into the rotational movement of the rotor - 6 and the rotor itself - 6. This rotation of the rotor - 6 leads to the creation of an additional moment of rotation of the disk - 12 of the brush assembly, which disconnects the sliding electrical contacts of the second brush - 14 of the brush assembly, disconnects the voltage from the winding the first electromagnet - 18 converters of electrical voltage into rotational motion and pushing the load - 19 from the winding of the first electromagnet - 18. At the same time the load - 19 when rotating with the disk - 17 of the voltage converter into the rotational movement of the rotor - 6 creates an additional "flywheel" moment and thereby increases the rotor speed - 6. At the same time, the rotation of the disk - 12 of the brush holder provides contact connection of sliding electric the contacts of the fourth electric brush - 16 nodes of the electric brush holders to a flat half-ring - 11 input device and the supply of electrical voltage to the winding of the third electromagnet - 22 converters voltage in the rotational movement of the rotor - 6. The third electromagnet - 22 operates and pulls the load - 23 inside the winding and even more upsets the balance of the load balance - 19, 21 and 23 of the first - 18, the second - 20 and the third - 22 electromagnets of the voltage converter into the rotational movement of the rotor - 6. Further rotation of the rotor - 6 leads to the creation of an additional moment of rotation of the disk - 12 nodes

brush holders, which provides the disconnection of the sliding electrical contacts of the third electric brush - 15 nodes of the brush holders, disconnecting the voltage from the winding of the second electromagnet - 20 voltage transducer into rotational motion of the rotor - 6 and pushing the load - 21 from the winding of the second electromagnet - 20. In this case, the load - 21 when rotating with a disk - 17 converters of electrical voltage into rotational motion of the rotor - 6 creates an additional "flywheel" moment and thus, the rotor rotation speed is 6. At the same time, the rotation of the disk - 12 of the brush holder assembly provides the contact connection of the sliding electrical contacts of the second brush - 14 of the brush holder assembly to the flat half ring - of the 11 input device and the supply of electrical voltage to the winding of the first electromagnet - 18 converter voltage in the rotational movement of the rotor - 6 and the whole process described above is repeated.

Thus, the proposed electric machine allows, by alternately connecting the windings of electromagnets with weights secured to the ends of the anchors of the electromagnets and imbalance in the balance of the loads of electromagnets, to rotate the rotor of the electric machine, and due to the loads de-energized during operation of the electric machine, electromagnets flywheel "the moment of rotation of the rotor of the electric machine, that is, to obtain the rotation of the rotor of the electric machine with lower costs electrically th energy, which in the proposed technical solution is used only for the inclusion of electromagnets. Therefore, the proposed electric machine will take its rightful place among the well-known objects of a similar purpose.

Claims (1)

An electric machine comprising a housing, bearing shields mounted on the ends of the housing, an input device mounted inside the housing, a rotor mounted at its ends in the bearings of the bearing shields, and an electric voltage to rotational motion converter, characterized in that it is provided with an electric brush holder assembly made in in the form of a disk, fixed by the inner surface of its hole, made in the center of the disk, on the outer surface of the Central part of the rotor, the first, second, third and four a mouth of electric brushes fixed in holes made in the disk of the electric brush holder assembly, the input device is made in the form of a disk mounted by the inner surface of its central hole above the outer surface of one of the ends of the rotor, a flat ring mounted on the side surface of the circle relative to the opposite side surface of the disk of the brush assembly, connected by its housing to one of the terminals of the voltage source and in contact with its surface with an electric with sliding sliding contacts of the first electric brush and a flat semicircle coaxially located and fixed inside the flat ring, connected by its housing to the other terminal of the electric voltage source and alternately contacting its surface with electric sliding contacts of the second, third and fourth electric brushes, and the electric voltage to rotational motion converter is made in the form of a disk, fixed by the inner surface of its hole, made in the center of the disk, on the external surface of the second end of the rotor, fixed at an angle of 120 ° to each other, relative to the longitudinal axis of the rotor, on the side surface of the disk facing the center of the housing, of the first electromagnet with a load located with the smallest possible clearance relative to the inner surface of the housing, connected by its first terminal to the housing the first electric brush of the electric brush holder assembly and with its second output to the body of the second electric brush of the electric brush holder assembly, the second electromagnet with a load located with a minimum a possible gap relative to the inner surface of the housing connected by its first terminal to the housing of the first electric brush of the electric brush assembly and its second terminal to the housing of the third electric brush of the electric brush assembly and the third electromagnet with a load located with the smallest possible gap relative to the inner surface of the housing connected by its first output to the housing the first electric brush of the electric brush holder assembly and its second output to the housing of the fourth electric brush of the electric brush assembly holders.