SU1226572A1 - Sealed electric motor - Google Patents

Abstract

The invention relates to electrical engineering and is aimed at increasing the CTC of a hermetic electric motor for driving a pressure mixing apparatus. The motor stator 1 is located inside the cooling chamber 3. The engine has a sealed housing 8 with a lid 9, through the sleeve 10 of which passes the shaft 7 with the impeller 11, which serves to create a forced circulation of transformer oil poured into the chamber 3. A cylindrical bath is fixed on the rotor shaft 2 covering the cooling chamber. By reducing the air gap when replacing the shielding sleeve with an oil seal, the engine can reliably work with a high CTC. 1 il. n-s § SP

Description

The invention relates to electrical engineering, in particular to the electric drive of the mixing units of high-pressure apparatus.

The aim of the invention is to increase efficiency.

The drawing shows the proposed motor, longitudinal section.

The proposed electric motor consists of a stator 1 with a rotor 2 installed in a cooling chamber 3 with a water cooling tube and nozzles 4 and 5 for supplying and discharging water, a cylindrical bath 6 pressed into the rotor shaft 7 7, a hermetic body 8 with a bit 9, through the sleeve 10 of which passes the shaft 7 with the impeller 11, which serves to create a forced circulation of transformer oil poured into the chamber 3.

The electric motor can be installed, for example, on the rim 12 of the heating autoclave with the input shaft 7 in the steam chamber 13, provided with a nozzle 14 for supplying heating steam.

The protection of the stator winding 1 from chemically active reagents during the operation of the electric drive is carried out as follows.

When the transformer oil is poured into the chamber through the plug in the cover 9 through the gap between the shaft 7 and the hole in the chamber 3 into the bath 6, the gap between it and the chamber 3 is filled (in the drawing this gap is minimal, but it can be more, without contact surfaces of bath 6 and chamber 3). In this case, the chamber 3 is installed in the bath 6 so that the edge of the bath 6 is higher than the possible level of oil in the chamber 3, forming an oil seal.

The stator winding 1 can be most effectively protected by installing the proposed electric drive, for example, on a heating autoclave of an autoclave battery, by connecting the cavity of the housing 8 of the electric motor to a pair with the steam pipe 14 through the gap between the sleeve 10 and the shaft 7. The presence of steam in the cavity of the housing 8 prep There is no contact with oil.

Order 2143/54

Production-floor}: 1 graph. Pre-e, Uzhgorod, st. Project, 4

 active reagents, and the oil shutter, in turn, prevents steam from entering the winding. When the motor is running, i.e. during rotation of the rotor 2, the bath 6 is rotated, as it is pressed on the shaft 7, and the impeller 11, which creates oil circulation around the stator winding 1 (raising the oil in the annular gap

between the stator 11 and the rotor 2, as well as in the slots of the stator 1 and lowering the stator outside 1). It contributes to the best about; the storage of oil by water entering chamber jacket 3 through nozzle 4 and leaving through oil nozzle 5. The bath b can be made conical (with a base diameter larger than the upper part) in order to facilitate rotation during its rotation (due to centrifugal

force, with a small vapor pressure or lack thereof) oil pressure down the bath 6. Vysod power wires from the housing 8 that can withstand the pressure in the autoclave, can be carried out through separate holes for each wire so that the diameter of the holes is small compared with one obrm that will more reliably create a seal and insulation

wires from the housing 8.

Thus, the proposed ger-. A matched electric motor can operate reliably with high efficiency by reducing the air gap when the shielding sleeve is replaced with an oil seal.

Claims (1)

Invention Formula A sealed electric motor for driving a pressure mixer, containing a stator located inside the cooling chamber, and a rotor with a shaft inserted through the chamber to the outside, which is designed to increase the efficiency of the electric motor with a sealed housing with a in which a cooling chamber is fixed, and a cylindrical bath enclosing the cooling chamber is fixed on the rotor shaft. Circulation 631 Subscription