RU181506U1 - Sealed Hollow Shaft Electric Motor Rotor - Google Patents

Abstract

The utility model has distinctive features in that the hollow shaft of the electric motor of the electric pump is made of two parts, and the portion of the shaft of one of the parts located under the package of plates of the magnetic circuit is made in the form of a sleeve with smaller diameters relative to the hollow shaft, the adapter flange is welded to the end of its free end by its inner diameter and by the outer diameter of the flange, it is welded to the second part of the hollow shaft. The above contributes to the possibility of increasing the efficiency, starting and torque and reducing the electric power consumption of the canned motor with the possibility of increasing the gap between its electromagnetic stator and rotorom.Predlagaemaya design of the utility model can find application in producing hermetic centrifugal electric pumps and other devices canned motor.

Description

The proposed utility model relates to the field of chemical engineering and can be used in the manufacture of centrifugal sealed shielded electric pumps and other devices with shielded electric motors.

In this utility model, known designs of sealed electric pumps with electric motors are improved, the stators and rotors of which are shielded from various liquids flowing between them with thin-walled sleeves made of non-magnetic corrosion-resistant materials with high magnetic and permeability, and cylindrical rotors are located on hollow non-magnetic shafts made of, for example stainless steels, (see, for example, Vasiltsov E.A. Nevelich V.V. "Hermetic electric pumps" M. Mechanical Engineering 1968, Sinev N.M., Udo PM Vichenko “Hermetic water pumps of nuclear power plants” Atomizdat 1967, Arinushkin A.S. et al. “Aircraft centrifugal pump units” M., 1967 pages, as well as copyright certificates SU 1038596, SU 1038597, SU 1556203, SU 1566443, SU 1763721, SU 1777203, SU 1818486, RF patents No. 2100893, 2375807, 2416768, 2476973, 2495337, 21427, 101749, etc.).

The design of a sealed electric pump with a shielded electric motor and with a hollow shaft according to the patent No. 2495337 can be taken as the base object.

The disadvantages of these designs are:

- low efficiency and high energy consumption;

- for given diameters of the electric motor, the possibility of obtaining low starting and torque;

- the need to ensure a minimum electromagnetic gap between the stator and the rotor leads to an increase in hydrodynamic losses in the fluid flowing through the gap.

The problem, the solution of which is aimed at creating the design of the proposed utility model, provides for the elimination of these disadvantages, i.e. providing the possibility of increasing the efficiency, starting and torque of the electric motor of the electric pump with an increase in the electromagnetic gap between its stator and rotor and reducing its energy consumption.

The solution to the problem is achieved due to the fact that the rotor of the electric motor of a sealed electric pump with a hollow non-magnetic anti-corrosion shaft, containing a package of a magnetic circuit from electric steel plates and grooves of a plate of permanent magnets fixed to the shaft, protected from leaking aggressive fluid in the gap between the stator and the rotor on the outer the diameter of a thin-walled sleeve made of anticorrosive non-magnetic material, and on the ends welded to the sleeves and the hollow shaft by rings, nnym of the same materials:

- the hollow shaft is made of two parts and the shaft portion of one of its parts, located under the magnetic circuit pack, is made in the form of a sleeve with smaller diameters relative to the rest of the shaft, the adapter flange is welded to the end of the free end by its inner diameter, and by the outer diameter of the flange welded to the second part of the hollow shaft.

At the same time, a significant difference of this design is that by increasing the height of the plates of electrical steel in the given rotor sizes, the electromagnetic coupling in the electric motor increases, especially if electrical steel has high magnetic permeability and low magnetization reversal losses.

This difference is especially important for valve jet motors that do not have permanent magnets, but are cheaper, more reliable, temperature-resistant, and have a wider range of rotational speeds than permanent-magnet motors.

In this design, the short-circuited rotor winding ("squirrel wheel") rods and short-circuit rings can be made of aluminum alloys or of copper.

In addition, increasing the radial size of the package of plates makes it possible to increase the size of the permanent magnets located in them in the rotors with permanent magnets.

The proposed rotor of the electric motor of a sealed electric pump provides:

- high starting and torque and high efficiency of the electric motor;

- increase in electric motor power in the same sizes;

- reduction in energy consumption;

- improving the stability and reliability of the electric motor;

- the possibility of reducing the diameter of the rotor and increasing the electromagnetic gap between the rotor and the stator, which leads to a decrease in hydrodynamic losses in the gap and an increase in the efficiency of the electric pump.

Moreover, this design allows you to install in the package of the rotor magnetic circuit both ferrite permanent magnets (having low magnetic properties but a high demagnetization temperature), as well as magnets from rare-earth alloys such as NdFeB, samarium-cobalt compounds, etc., or magnetoplastics (composite materials based on rare-earth materials), both with radial and tangential magnetization of magnets (providing increased electromagnetic moment).

To ensure a more reliable transmission of torque from the magnetic circuit package to both parts of the shaft in the package, instead of the keys, for example, metal rods can be installed, which at their ends enter the corresponding “blind” drills in the shaft parts or end rings.

The data confirming the reliability of the solution of the problem are described in the special technical literature (see, for example, Vasiltsov E.A., Nevelich V.V. "Hermetic electric pumps" M. Mechanical Engineering 1968, Tokarev B.F. "Electric machines" M Energy Publishing House 1989, Vlasov VG “Explosion-Proof Induction Motors”, informelectro 2002, etc.).

The essence of the utility model is illustrated by the drawing of FIG. 1, which shows a section of a rotor of a shielded electric motor of a sealed electric pump with a hollow shaft.

This rotor includes a hollow non-magnetic anti-corrosion shaft 1, consisting of two parts, and the part of the shaft 2, on which the impeller 3 of the electric pump is located, is made under the package of sheets of the magnetic circuit 4 in the form of a sleeve 5 with smaller diameters relative to the rest of the hollow shaft and to the end face of the free the end of the sleeve 5, the adapter flange 6 is welded on its inner diameter, and on its outer diameter, the flange 6 is welded to the second part of the hollow shaft 7. The package of plates of the magnetic circuit 4 contains permanent magnets 8 in the grooves of the package and is protected from a thin-walled sleeve 9 (made of corrosion-resistant materials with high magnetic permeability, for example, stainless steel, nichromes, titanium alloys or multicomponent composite materials) flowing in the gap between the rotor and the stator of the electric motor of the motor, and welded to the ends welded to sleeve 9 and to the hollow shaft 1 with rings 10 and 11 of the same materials.

In the holes of the package of sheets of the magnetic circuit 4 there are metal rods 12 included in the holes of the rings 10 and 11, providing a more reliable transmission of torque from the magnetic circuit 4 to the shaft 1.

The hollow shaft is mounted in sliding bearings 13 and 14.

When the electric pump electric motor is turned on, a rotating stator magnetic field is created and a current is generated in the rotor rods under the influence of induced EMF, which creates its own magnetic field of the rotor, interacts with the stator field and creates a rotating electromagnetic moment of the rotor, which rotates the rotor. In this case, the package of sheets of the magnetic circuit 4 together with the permanent magnets 8 transmits torque through the shaft sleeve 5 (due to tight mechanical contact), metal rods 12 and end rings 10 and 11, welded to parts of the shaft 2 and 7 on the entire hollow shaft 1.

When the sealed electric pump rotates, an aggressive, explosive or other liquid pumped by it passes in the gap between the stator sleeve and rotor sleeve 8, cooling them and lubricating the sliding bearings 13 and 14, and then passes through the inner cavity inside the shaft, cooling the rotor a second time, into the suction cavity of the electric pump .

Thus, the proposed design of the rotor of the electric motor of a sealed hollow shaft pump has practical value and can create a technical and economic effect in the manufacture of sealed shielded electric pumps and other devices (for example, mixers) with shielded motors, as helps to increase efficiency, starting and torque and reduce energy consumption.

Claims (1)

The rotor of an electric motor of a sealed electric pump with a hollow non-magnetic anticorrosive shaft, containing a package of a magnetic circuit from electrical steel plates and grooves of a plate of permanent magnets fixed to the shaft, protected from leaking aggressive fluid in the gap between the stator and the rotor along the outer diameter of a thin-walled sleeve made of an anticorrosive non-corrosion magnet material, and on the ends welded to the sleeve and to the hollow shaft with rings made of the same materials, different m, that the hollow shaft is made of two parts, and the shaft portion of one of its parts, located under the magnetic circuit pack, is made in the form of a sleeve with smaller diameters relative to the rest of the hollow shaft, the adapter flange is welded to the end of its free end along its inner diameter, and the outer diameter of the flange is welded to the second part of the hollow shaft.

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