RU2018120069A - ASYNCHRONOUS THREE PHASE MOTOR - Google Patents

Claims (11)

1. Asynchronous three-phase electric motor containing a cylindrical stator and a squirrel-cage rotor, separated by an air gap, and a drive shaft; the magnetic circuits of the stator and squirrel-cage rotor are selected from separate thin-sheet plates isolated from electrical steel with the formation of numerous teeth and grooves between them along the edges; a symmetrical three-phase copper winding is laid in the isolated grooves of the stator magnetic circuit, the phase windings of which are located in isolated stator grooves with a space shift of 120 °, and all phase stator windings are connected to each other in a “star” with common conclusions; a short-circuited rotor contains a short-circuited winding, consisting of longitudinal metal rods, short-circuited from the ends by common end ones, of the same material, closing rings made with ventilation blades, while the rods of this winding are built into the grooves of the rotor magnetic circuit; CHARACTERIZED in that it contains several stator-rotor pairs and a central rod; the stator of stator-rotor pairs contains several hollow, cylindrical, coaxial core-magnetic circuits of decreasing diameter, each of which is an element of the corresponding stator-rotor pair, is dialed closely along the axis from separate, identical in shape and material, isolated, ring gear plates, with In this case, for all internal stator magnetic cores, namely cores of the smallest and average diameter, the plates consist of narrow external and internal coaxial gears along the external and In particular, the inner edge of the annular insulated plates, and the outer core-magnetic core, namely the core of the largest diameter, is composed of plates similar in shape to the internal coaxial plates, toothed along the inner edge of the cores, while the formed teeth and grooves of the stator core-magnetic core are located on the inner surface of the coaxial plates of the outer core and on each inner and accordingly outer cylindrical surface of each of the inner formed core data -stator magnetic circuits, and the number of these grooves and teeth along all of their surfaces is the same, and in each inner core-magnetic circuit of the stator between the inner cylindrical surface formed by all the inner edges of these isolated, superimposed outer plates, and the corresponding outer cylindrical a surface formed in a similar way by the outer edges of the superimposed inner plates, a hollow cylinder of non-magnetic material is rigidly embedded, the ends of which are nu coincide with the ends of the data itself of cores of the stator-cores; a symmetric three-phase copper winding is each stacked in the isolated grooves of each given inner and outer surface of each stator core-magnetic circuit; each of the stator cores-magnetic circuits having an external end face having the leads of these symmetrical three-phase copper conductors located in its grooves of the windings is rigidly coupled to the supporting stator ring; the squirrel-cage rotor of the stator-rotor pairs contains as many hollow, cylindrical in shape, coaxially arranged, with a decreasing diameter of the core-magnetic cores, each of which is an element of the corresponding stator-rotor pair, each is dialed closely along the axis of separate, identical in shape and material, isolated , annular, coaxial, interconnected toothed plates, with half-closed oval grooves on the outside of the plates and with similar half-closed oval grooves, but smaller LfTetanus section, on the inside, and the number of grooves on the outer side and the number of grooves on the inner side of these plates with each other and equally disposed grooves opposite each other; in the grooves of the data set of the plates of each cores - magnetic circuits of the rotor of numerous oval channels, molten electrically conductive metal is poured, forming longitudinal rods in each of them, which are short-circuited at their both ends by common end circuits of the same material, with the formation of a short-circuited rotor winding each of its core, in conjunction with the formed longitudinal filler rods and end closing rings on these rings of each core rotor nitro ducts are made by means of casting ventilation blades, while the smallest coaxial core diameter — the rotor magnetic circuit is made up of similar plates, but having oval half-closed grooves only on their outer side, and it is rigidly mounted on the central rod of an asynchronous three-phase motor, and all the core-magnetic circuits of the larger rotor are adjacent along the inner ends to the supporting rotor ring and are rigidly articulated with it; moreover, for these rods of each short-circuited rotor winding of each rotor core-magnetic core, the grooves of all plates of each of its core-magnetic circuits are beveled, and the rotor winding rods embedded in them are located in these beveled grooves with an angle of inclination relative to the axis of the central rod of the asynchronous three-phase motor, and the drive the shaft is movably coupled to a side protective cover of the engine housing and is rigidly coupled to its supporting rotor ring, which is articulated with a central shaft. 2. Asynchronous three-phase electric motor according to 1, characterized in that the number of core-magnetic circuits of the stator of the stator-rotor pairs is three. 3. An asynchronous three-phase electric motor according to claim 1, characterized in that the number of core-magnetic circuits of the rotor of the stator-rotor pairs is three. 4. An asynchronous three-phase electric motor of 1 high power, characterized in that the copper rods of the short-circuited winding of the rotor are tightly inserted into the electric motors in each groove of each core - the rotor core, to which the copper end rings are attached. 5. Asynchronous three-phase electric motor according to 1, characterized in that the total number of symmetrical three-phase stator windings is five. 6. An asynchronous three-phase electric motor containing a cylindrical stator and a squirrel-cage rotor, separated by an air gap, and a drive shaft; the magnetic circuits of the stator and squirrel-cage rotor are selected from separate thin-sheet plates isolated from electrical steel with the formation of numerous teeth and grooves between them along the edges; a symmetrical three-phase copper winding is laid in the isolated grooves of the stator magnetic circuit, the phase windings of which are located in isolated stator grooves with a space shift of 120 °, and all phase stator windings are connected to each other in a “star” with common conclusions; a short-circuited rotor contains a short-circuited winding, consisting of longitudinal metal rods, short-circuited from the ends by common end ones, of the same material, closing rings made with ventilation blades, while the rods of this winding are built into the grooves of the rotor magnetic circuit; characterized in that it contains several stator-rotor pairs and a central rod; the stator of the stator-rotor pairs contains several hollow, cylindrical, coaxial core-magnetic cores of decreasing diameter, each of which is an element of the corresponding stator-rotor pair, with each core - the stator magnetic circuit is selected from separate, identical in shape and material, isolated, annular superimposed on each other coaxial, serrated along the inner edge of the plates, while the formed teeth and grooves of the core-stator core are located on each inner cylinder the physical surface of each of these stator magnetic cores, and the number of these grooves and teeth along all these surfaces is the same; a symmetric three-phase copper winding is each stacked in the isolated grooves of each given inner surface of each stator core-magnetic circuit; each of the stator cores-magnetic circuits having an external end face having conductors of symmetrical three-phase copper conductors located in its grooves of the windings is rigidly connected to the supporting stator ring; the squirrel-cage rotor of the stator-rotor pairs contains as many hollow, cylindrical in shape, coaxially arranged, with a decreasing diameter of the core-magnetic cores, each of which is an element of the corresponding stator-rotor pair, is dialed closely along the axis of separate, identical in shape and material, isolated, annular, coaxial, overlapping toothed plates, with deep and narrow, namely deep-grooved grooves on the outside of the plates, and these grooves are located symmetrically to each other tiv friend; in the grooves formed by these grooves of the data set of the plates of each core - the rotor magnetic circuits of the rotor, numerous molten electrically conductive metal is poured, forming longitudinal rods in each of them, which are short-circuited at their both ends by common end-closure rings of the same material, with the formation of a short-circuited winding the rotor of each of its core, while in conjunction with the formed filler rods and end locking rings on these rings of each core is a magnet rotor conductors formed by casting ventilating vanes, the smallest diameter of coaxial core-magnetic rotor fixedly planted on the central shaft of the asynchronous three-phase motor, and all the cores, the magnetic cores of greater diameter of the rotor adjacent inner ends to the support ring and the rotor are rigidly joined to them; moreover, for these rods of each short-circuited rotor winding of each rotor core-magnetic circuit, the grooves of all plates of each of its core-magnetic circuits are beveled, and the rotor winding rods embedded in them are located in these beveled grooves with an angle of inclination relative to the axis of the central rod of the asynchronous three-phase electric motor, and the drive the shaft is movably coupled to the side protective cover of the motor housing and is rigidly coupled to its supporting rotor ring, which is articulated with a central shaft. 7. An asynchronous three-phase electric motor according to 6, characterized in that the number of core-magnetic circuits of the stator of the stator-rotor pairs is three. 8. Asynchronous three-phase electric motor according to 6, characterized in that the number of core-magnetic circuits of the rotor of the stator-rotor pairs is three. 9. An asynchronous three-phase electric motor according to claim 6, characterized in that the deep-grooves of the short-circuited rotor winding of each core — the rotor magnetic circuit, are rectangular or trapezoidal. 10. An asynchronous three-phase electric motor according to claim 6, characterized in that each core - the rotor magnetic circuit is made with such a deep-groove shape of a groove that consists of a double oval of a smaller and larger cross section with a double short-circuited rotor winding located in each of these grooves. 11. An asynchronous three-phase electric motor according to claim 6, characterized in that the total number of symmetrical three-phase copper stator windings is three.