RU146402U1 - DIRECT VECTOR ELECTRIC PUMP WITH HOLE ROTOR SHAFT - Google Patents

Abstract

A direct-flow vane electric pump with a hollow rotor shaft, characterized in that the blades are fixed inside the rotor shaft on the inner surface, the ends of the rotor shaft come out symmetrically through the bearings of the electric motor and are connected by thrust bearings and oil seals with rotation couplings having straightening vanes and flanges inside for connection with pipelines.

Description

The utility model "direct-flow vane electric pump with a hollow rotor shaft" refers to the field of pump engineering, and can be used for pumping liquids of various viscosities.

Several types of electric pumps with a hollow rotor shaft are known.

According to the patent for invention No. 2470189, a centrifugal pump motor has a hollow rotor motor for improving cooling of the stator and rotor windings, and the work of moving the fluid, some of which passes inside the rotor, is performed by a centrifugal wheel. The design of such an electric pump has all the drawbacks inherent in centrifugal impeller pumps: the complexity of the casing shape, the difficulty of assembling a large number of parts and the maintenance of rotating parts, the asymmetric load on the bearings, large changes in the direction of fluid motion, leading to turbulence and cavitation. The fluid pumped inside the housing under pressure can penetrate the stuffing box seals into the motor and cause it to malfunction.

According to the patent for the invention No. 2432499 in the centrifugal pump housing is placed an electric motor with a hollow rotor to improve cooling of the stator and rotor windings. The entire volume of liquid is sucked in by the impeller installed inside the rotor, but the output pressure is created by the centrifugal wheel through the straightening device. Therefore, the design of such an electric pump also has all the drawbacks inherent in centrifugal impeller pumps: the complexity of the body shape, the difficulty of assembling a large number of parts and the maintenance of rotating parts, the asymmetric load on the bearings, sudden changes in the direction of fluid movement, leading to turbulence and cavitation. The fluid pumped inside the housing under pressure can penetrate the stuffing box seals into the motor and cause it to malfunction.

According to the French patent for invention FR 2127607, a vane pump consists of a pipe section with blades rigidly fixed inside. To rotate such a pump, external drives are required that require special mounting and transmission rotation schemes. Such drives require additional costs for manufacturing and operation, reduce the overall efficiency of the entire device.

The tasks solved by the applicant are simplicity of design, increased efficiency and reliability of the electric pump, reduced production and maintenance costs.

The technical result obtained by using the utility model consists in simplicity of design and increased efficiency due to the lack of an external pump drive, a significant reduction in turbulence and the risk of cavitation due to direct-flow fluid movement, increased operational reliability by eliminating the risk of fluid leakage into the electric motor, and additional cooling windings of an electric motor fluid flowing inside the rotor shaft.

The specified technical result is achieved by the fact that the electric motor has a rotor rotating in standard bearings of the housing covers with a hollow shaft, with blades rigidly fixed on the inner surface of the shaft, rotated at an angle to the axis of rotation of the rotor and directly acting as a vane pump. The ends of the hollow shaft of the rotor go symmetrically beyond the covers of the motor housing, which eliminates the ingress of the pumped liquid into the motor and its failure. The ends of the hollow shaft of the rotor are connected through thrust bearings and seals with the same rotation couplings, which have the vanes of the straightening device inside and standard flanges for fastening the pipelines. The electric pump is installed in a straight section of the pipeline, connected to the pipelines using standard flanges while maintaining the flow area of the entire section, and in this section the pumped liquid moves without changing the general direction of movement. The design of the entire electric pump is symmetrically balanced, which increases the reliability of the motor bearings. All bearings are available for lubrication, monitoring of their condition and temperature, maintenance.

The essence of the utility model is illustrated by a drawing with the image of a General view of a direct-flow vane electric pump with a hollow rotor shaft in a section.

The proposed utility model includes: a motor housing 1 with mounting legs (not shown in the drawing) to the base, stator windings 2, rotor 3 with hollow shaft and ends protruding from the housing, blades 4 inside the hollow rotor shaft, two identical rotation couplings 9 with thrust bearings 5, oil seals 6, standard flanges 7 (mounting holes are not shown in the drawing), and straightening blades 8 inside the flanges. For additional cooling of the motor windings, the rotor has standard blades (not shown in the drawing) for forced pumping of air through the ventilation holes 10 of the housing.

The direct-flow electric pump with a hollow rotor works as follows.

When the rotor rotates, the blades swiveled at an angle to its axis capture the fluid and create a swirling flow having kinetic energy of movement, which turns into potential pressure energy after the blades of the clutch straightening device. Because the diameter of the hollow rotor and the connected pipelines is the same, the fluid movement, in contrast to centrifugal pumps, is rectilinear, therefore, the power loss is significantly reduced, and due to the absence of turbulence in the flow, the risk of cavitation and the life of the blades increase.

The fluid flow cools the rotor, the air flow inside the housing cools the stator windings and the rotor surface, which improves the overall temperature regime of the electric motor and rotor bearings and significantly increases the reliability of the utility model.

With a symmetrical angle of installation of the blades in the rotor, the device can be used in the reverse mode of pumping fluid without disconnecting the pipelines, as thrust bearings in couplings equally perceive axial force at any rotation of the rotor.

The volume and pressure of the pumped liquid when using an induction motor can be changed stepwise - by switching the windings, or smoothly - by changing the current frequency.

Claims (1)

A direct-flow vane electric pump with a hollow rotor shaft, characterized in that the blades are fixed inside the rotor shaft on the inner surface, the ends of the rotor shaft come out symmetrically through the bearings of the electric motor and are connected by thrust bearings and oil seals with rotation couplings having straightening vanes and flanges inside for connection with pipelines.

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