RU62748U1 - THREE-PHASE ELECTRIC MOTOR "WET" - Google Patents

Abstract

The claimed technical solution relates to mechanical engineering, mainly to pipeline valves with electromagnetic drives and is intended to drive a centrifugal electric pump, which is used for pumping fuel. The objective of the proposed technical solution is to ensure the reliability of the structure due to the separation of the cavities and the sealing of the exit point of the leads from the stator cavity to the cavity of the connector plug. The problem is achieved in that in a three-phase “wet” electric motor, consisting of a coaxially located housing, rotor, stator, shield and stator lead assembly, filled with sealant, according to a utility model, the stator winding lead assembly consists of a connector plug and a bush located coaxially with the shaft, while the output of the stator winding is connected to the plug of the connector, which is located in the sleeve, the rubber sleeve, gaskets and brackets located on the end wall of the housing on which the oval hole is made. The rubber sleeve has a complex T-shape, consisting of two parallelepipeds paired at an angle of 90 degrees, a parallelepiped with an oval cross section is tightly located in the corresponding hole of the casing, and a parallelepiped with a rectangular cross section is located on the end wall of the casing from the side of the connector plug. In addition, in the parallelepiped with an oval cross-section, four circular holes are made, turning into four grooves, made in the wall of the rectangular parallelepiped and designed to stack the stator winding terminals, on which at least two gaskets are located and on top there is a bracket covering the gaskets and the rectangular rubber parallelepiped bushings, the bracket is fixed on the end wall of the housing 1 n.p. f-ly, 6 ill.

Description

The claimed technical solution relates to mechanical engineering, mainly to pipeline valves with electromagnetic drives and is intended to drive a centrifugal electric pump, which is used for pumping fuel.

The electric motor is a three-phase asynchronous squirrel-cage electric motor.

According to the design, the electric motor belongs to the type of “wet” submersible electric motors, in which the external surface and the internal cavity of the electric motor are washed and cooled by the working fluid during operation as part of the pump.

A known design of an induction motor, including a stator, core, rotor, terminal block located in the terminal box, and made in the form of a plastic panel with terminal bolts for connecting the motor winding to a three-phase AC network (see RF patent for invention No. 2171540, IPC H02K 17/16, 7/14, published on July 27, 2001).

The disadvantage of the design is the unreliability of the induction motor when working in conditions of exposure to vibrational loads, because the output of the stator windings are fixed only by connecting them with terminal bolts to the terminal block in the terminal box.

A known design of a submersible electric motor, consisting of a cylindrical body, inside of which there is a stator with two windings, a rotor, an output shaft, while the stator windings are located between the body and a thin-walled cylindrical shell and

filled with a one-component polyurethane sealant (see RF patent for utility model No. 39758, IPC Н02К 5/12, publ. March 22, 2004).

The design drawback is the unreliability of the electric motor under the influence of vibrational loads, since the output of the stator windings are not fixed at the place of their exit from the housing. As a result of the operation of the electric motor under the influence of vibrational loads, there may be breakage of the terminals at the place of their exit from the housing.

The closest technical solution, selected as a prototype, is a three-phase “wet” electric motor, consisting of a housing, a stator, a rotor, shields, bearings and a stator winding terminal assembly, which consists of an insulator and a tube. The stator winding leads pass through an insulator located in the shield cavity and are located inside the tube, and the shield cavity where the stator winding leads are located is filled with sealant (see Technical Manual for the Three Phase Wet Electric Motor ЭТМ-104А, p.1, 5 / 6, Fig. 2, dated 08.17.88).

The design drawback is that when the sealant is filled with the connecting cavity with the stator winding leads, the sealant particles can get into the working cavity, which is unacceptable for trouble-free and reliable operation of the electric motor.

The objective of the proposed technical solution is to ensure the reliability of the design by separating the cavities and sealing the exit point of the leads of the stator winding from the stator cavity to the cavity of the connector plug.

The task is achieved by the fact that in a three-phase “wet” electric motor, consisting of a coaxially located housing, rotor, stator, shield and stator winding terminal assembly, filled with sealant, according to a utility model, the stator winding terminal assembly consists of a connector plug and a bush located coaxially with a shaft, while the output of the stator winding is connected to a plug of the connector, which is located in the sleeve, the rubber sleeve and, gaskets and brackets,

located on the end wall of the body, on which an oval hole is made, the rubber sleeve has a complex T-shape, consisting of two parallelepipeds paired at an angle of 90 degrees, a parallelepiped with an oval section is tightly located in the corresponding hole in the end wall of the case, and a parallelepiped with a rectangular section located on the end wall of the housing from the side of the plug of the connector, in addition, in a parallelepiped with an oval cross-section, four circular holes are made, turning into four gutters, made in the wall of a rectangular parallelepiped and intended for laying the conclusions of the stator winding, on which at least two gaskets are located and on top of the bracket that covers the gaskets and the rectangular parallelepiped of the rubber sleeve, the bracket is fixed to the end wall of the housing.

The essence of the claimed technical solution is illustrated by drawings, where: in figure 1 shows an example of a motor, in longitudinal section; figure 2 - callout A of the inventive node stator conclusions in figure 1 (M 4: 1); figure 3 is a section bB in figure 1 (M 1: 1); figure 4 is a section bb in figure 1 (M 1: 1); figure 5 is a section GG in figure 2 (M 4: 1); figure 6 is a section DD in figure 2 (M 4: 1).

The figure 1 shows a longitudinal section of an electric motor that contains a housing 1, a rotor 2, a stator 3, a shield 4, a sleeve 5, a plug of a connector 6, a rubber sleeve 7, two gaskets 8, a bracket 9. Moreover, in the end wall 10 of the housing 1 (FIG. .2, 3), from the side of the plug of the connector 6, an oval hole 11 is made (Fig. 4). The rubber sleeve 7 has a complex T-shape, consisting of two parallelepipeds paired at an angle of 90 degrees - with an oval section, and with a rectangular section (Fig.2, 5, 6). In the parallelepiped with an oval cross-section, four round holes 12 (Fig. 5) are made, turning into four grooves 13 (Fig. 6), made in the wall of the rectangular parallelepiped of the rubber sleeve 7 (Figs. 1-2).

The presence of a rubber sleeve 7 in the oval hole 11 of the end wall of the housing 1 (Figs. 1, 2, 4) prevents foreign particles from the cavity of the connector plug into the stator cavity, for example, when filling the leads of the stator winding 14 with sealant, which allows to achieve trouble-free and reliable operation electric motor.

During the assembly of the electric motor, the rubber T-shaped sleeve 7 is placed so that the parallelepiped with an oval section is located inside the oval hole 11 of the end wall of the housing 1, and a rectangular section is located on the end wall 10 of the housing 1 from the side of the connector 6 plug. placed in the holes 12 and the grooves 13 of the rubber sleeve 7, then they have two gaskets 8 and then the bracket 9 and fix it to the end wall 10 of the housing 1 using the fastening elements 15, and then solder the output to the plug of the connector 6 and install it in the sleeve 5, which is fixed, for example, with screws (see figure 1).

To increase the reliability of fixing the conclusions of the stator winding 14 and to ensure the explosion safety of the product, the internal cavity of the plug connector 6, where the stator winding leads 14 are placed, is filled with sealant.

The presence of the rubber sleeve 7 and its location in the hole 11 of the end wall of the housing 1 allows you to separate the stator cavity and the cavity of the connector plug, seal the exit point of the stator leads 14 from the sleeve 7 and thereby prevent foreign particles from entering the stator cavity, which increases the reliability of the product.

The electric motor operates as follows.

The electric motor is powered through the plug of connector 6.

When the stator winding is fed with a three-phase current, a rotating magnetic field is created in the stator 3, which crosses the conductors of the rotor winding 2 and induces an emf into them. Since the winding of the rotor 2 is made short-circuited, a current appears in it. As a result

the interaction of this current with the magnetic field of the stator 3 creates a torque under the action of which the rotor 2 is driven into rotation and transmits the rotation to the drive of a centrifugal electric pump, which serves to pump fuel.

The electric motor is made, for example, using the following materials: electric motor housing 1 and shield 4, made of AK8L (AL34) alloy; gaskets 8 are made of fiberglass STKM-0.5; rubber sleeve 7 - from a mixture of rubber 51-1434 NTA; sleeve 5 - from steel 14X17H2; bracket 9 - from sheet D16AM-1,5.

The technical result - the creation of an electric motor design that provides a solution to the problem, is achieved by performing in the end wall 10 of the housing 1 of the oval hole 11 and the location in it of the oval part of the rubber sleeve 7, separating the two cavities - the stator cavity and the cavity of the plug connector 6, which allows simultaneously seal the exit point of the windings of the winding 14 of the stator 3 and the junction of the leads of the winding with the plug of the connector 6, and also seal the stator cavity, thereby avoiding extraneous entry into it x particles, which increases the reliability of the product and the service life.

Thus, the design of the proposed technical solution ensures the achievement of the task.

The inventive device experimentally confirmed the possibility of obtaining the intended result.

Claims (1)

Three-phase "wet" electric motor, consisting of a coaxially located housing, rotor, stator, shield and stator winding terminal assembly, sealed with sealant, characterized in that the stator winding terminal assembly consists of a connector plug and a sleeve located coaxially with the shaft, while the winding terminal the stator is connected to a plug of the connector, which is located in the sleeve of the rubber sleeve, gaskets and brackets located on the end wall of the housing, which is made of an oval hole, and the rubber sleeve has a complex T-shaped consisting of two parallelepipeds conjugated at an angle of 90 °, the parallelepiped with an oval cross section is tightly located in the corresponding hole of the end wall of the casing, and the parallelepiped with a rectangular cross section is located on the end wall of the casing from the side of the connector plug, in addition, four are made in the parallelepiped with an oval cross section round holes passing into four troughs made in the wall of a rectangular parallelepiped and intended for laying the stator winding leads, on which at least , two gaskets and a bracket on top, covering the gaskets and a rectangular parallelepiped of the rubber sleeve, the bracket is fixed to the end wall of the housing.