SU1008494A1 - Sealed pump electric motor - Google Patents

Description

The invention relates to hydraulic engineering and for the improvement of electric motors of sealed electric pumps for pumping ‘Aggressive and explosive liquids.

A known electric motor of a sealed pump, comprising a housing with a rotor cavity and a rotor placed in it with an armature and a shaft with an axial channel mounted in front and rear bearings of the bearings, connected from the front support to the suction area £ 1].

The disadvantages of the known pump motor are the complexity of manufacture and lack of reliability.

The closest to the invention in technical essence and the achieved result is a sealed pump electric motor, comprising a housing with a rotor cavity and a rotor measured in it with an armature and a shaft with an axial channel mounted in the front and rear bearings, connected from the front to the suction area, and from the back to the discharge area of the pump C 2] ·

However, the known electric motor has insufficient reliability, which is due, first of all, to the fact that the cooling and lubrication of the front bearing support is carried out by a liquid that previously passed through the rear bearing support and the rotor cavity, i.e. to a certain ‘degree heated and contaminated.

The purpose of the invention is to increase the reliability of the electric motor.

The goal is achieved by the fact that in the electric motor of an airtight pump containing a housing with a rotor cavity and a rotor with an armature located in it and a shaft with an o-channel installed in the front and rear bearings, connected from the front to the suction area, and holes are made between the armature and the supports, which are back from the back to the pumping area of the pump, between the armature and the supports, the rotor cavity is axial and the section of the latter is muffled by minute openings.

The drawing shows the proposed electric motor of a sealed pump, a longitudinal section.

The electric motor 1 of the sealed pump 2 comprises a housing 3 with a cavity 4 and is located.

, in each of the communicating channels, between the rotor.

VNIIIPI Order

2305/47 rotor 5 with an armature 6 and installed in the front and rear bearing bearings, respectively 7 and 8, a shaft 9 with an axial channel 10, a section 11 of which is connected to the suction region from the front of the support 7, and 12 of the rear support

- to the discharge area of the pump 2 In the shaft 9 between the armature 6 and each of the supports 7 and 8 are made holes and 14, communicating the rotor cavity from

4, respectively, with portions 11 and 12 of the axial channel 10 of the shaft 9, wherein the portion of the latter between said openings 13 and 14 is plugged.

The electric motor 1 is located in the casing 15 with the formation of the annular discharge channel 16. Anchor 6:. forms a radial clearance 17 with the casing 3 of the electric motor 1. A impeller 18 of the pump 2 is mounted on the shaft 9 from the side of the front support 7.

Supports 7 and 8 can be made, for example, of siliconized graphite.

The electric motor of the sealed pump operates as follows.

When applying voltage to the electric motor 1, the rotor 5 comes into rotation and spins the impeller 18 of the pump 2. The fluid from the latter through the discharge channel 16 is fed into a pressure pipe (not shown). Fluid for lubrication is supplied from the pumping area of pump 2 directly to each of the bearing bearings 7 and 8 and, passing through them, is discharged into the rotor cavity 4 (the path of fluid movement is shown by arrows). Cooling fluid for electric motor 1 is supplied from the pumping area of pump 2 from the rear bearing support 8 along section 12 of the axial channel 10 and through holes 14 enters the rotor cavity 4 behind the armature 6, mixes here with the fluid flow passing through the rear bearing support 8, passes radial clearance 17 between i the core 6 and the housing 3, cooling the elements of the electric motor 1. Then, all the liquid entering the rotor cavity 4, through the holes 13 and the section 11 of the axial channel 10 is discharged into the suction region of the pump 2.

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Separate fluid supply to the bearing bearings 7 and 8 and to the rotor cavity 4 ensures the prevention of wear products of one bearing from falling into another and reliable cooling of the electric motor 1, which significantly increases its reliability.

Circulation 663 Subscription

Branch of PPP Patent Uzhhorod, st. Project, 4

Claims (1)

A SEALED PUMP MOTOR, comprising a housing with a rotor cavity and a rotor with an armature and mounted in the front and rear bearings, a shaft with an axial channel connected from the front support to the suction area, and from the back to the pump discharge area, characterized in that, in order to increase reliability, openings are made in the shaft between the armature and each of the supports, communicating the rotor cavity with the axial channel, and the region of the latter between the said openings is plugged.