RU95369U1 - SEWER PUMP - Google Patents

Abstract

 A pump, comprising an impeller fixed by a hub on a rotor shaft of an electric motor, located in a pump casing, hermetically connected to an electric motor casing, having bearing shields with bearings, an end sealing assembly, a pressure equalizing chamber, hermetically divided by a membrane into two cavities, in communication with an oil-filled electric motor cavity and the cavity of the pump behind the impeller, characterized in that the rotor and stator of the electric motor are placed in one cavity formed by the body of the electric motor For and filled with oil, the shaft is made upright, and the bearings are in the form of rolling bearings and are located in the cavity of the electric motor, the pump housing has a back cover, and the leveling chamber is formed by the lower bearing shield and the back cover of the pump, the stationary ring of the mechanical seal assembly is installed in the latter, and its movable ring is preloaded by a spring in the direction of the stationary ring, made resting on the hub of the impeller.

Description

The utility model relates to pump engineering. A sewage pump can be used to pump contaminated liquids and slurries by immersing the pump in the pumped liquid.

A known electric pump assembly comprising an impeller mounted on a rotary shaft of an electric motor located in a pump housing having a filter grill located in front of the suction nozzle and a back cover hermetically connected to the motor housing, bearings mounted on the motor shaft, a lip seal and an end sealing assembly, comprising a fixed ring, a movable ring and a glass spring-loaded relative to it, while the motor housing is dry, i.e. the internal cavity of the electric motor is filled with air, and has a front cover having a bore to accommodate the fixed ring of the end sealing assembly, and the glass of the latter is installed with the possibility of interaction with the impeller of the pump, the fixed and movable rings of the end sealing assembly made of ceramic. (RU 6028 U1, 02.16.1998).

A disadvantage of the known pump is that its design cannot ensure that there is no differential pressure across the mechanical seal, since during operation the liquid and air in the cavity of the electric motor heat up, which leads to a change in the volume of liquid and air, therefore, to an increase in pressure and, therefore, increase the differential pressure across the mechanical seal, which increases leakage through the mechanical seal. This can lead to the penetration of the pumped liquid into the cavity of the motor, which can cause the failure of the motor. In such a pump, a humidity sensor is installed, which, when a certain humidity is reached, turns off the pump so that it undergoes preventive repair.

The closest technical solution to the proposed one is a sewage pump, comprising an impeller mounted on a vertically mounted rotor shaft of the electric motor, located in the pump casing, hermetically connected to the electric motor casing, having upper and lower bearing shields with bearings, an end sealing assembly installed in the alignment cavity a membrane for equalizing the pressure between the oil-filled chamber of the electric motor and the pump cavity behind the wheel. (DE 19548471 C1, 06/06/1997).

The disadvantage of this design with an air-filled cavity of the stator of the electric motor is the complexity of manufacturing and installation of a thin-walled sleeve separating the oil-filled cavity of the rotor of the electric motor from the stator cavity, and its low reliability due to the fact that with a sharp drop in pressure at the pump outlet when it is turned off and, accordingly, in the cavity the rotor of an electric motor filled with oil, the pressure drops when the pressure surrounding the sleeve outside is still high enough and the thin-walled sleeve retracts and can asatsya has not stopped the rotor, which may lead to failure as a thin-walled sleeve and the rotor.

Another disadvantage is the lack of reliability of the sliding bearing located in the unsealed cavity behind the impeller due to contact with the pumped medium.

The problem the utility model is aimed at is to create a pump that is more reliable and easier to manufacture, adapted for pumping heterogeneous media in a submerged state.

The technical result consists in saving energy by reducing the power that is spent on rotating the rotor installed in the rolling bearings, and reducing material consumption and simplifying manufacturing and increasing the life between scheduled preventive maintenance, by eliminating the thin-walled sleeve that separates the oil-filled cavity.

The specified technical result is achieved by the fact that the sewage pump includes an impeller fixed by a hub on the rotor shaft of the motor, located in the pump housing, hermetically connected to the motor housing, having bearing shields with bearings, an end sealing assembly, a pressure equalizing chamber, hermetically separated by a membrane into two cavities connected with the oil-filled cavity of the electric motor and the cavity of the pump behind the impeller, while the new one is that the rotor and stator are electric the motors are placed in one cavity formed by the motor housing and filled with oil, the shaft is vertical, and the bearings are in the form of rolling bearings and are placed in the motor cavity, the pump housing has a back cover, and the alignment chamber is formed by the lower bearing shield and the back cover of the pump, a stationary ring the end sealing assembly is installed in the latter, and its movable ring is spring-loaded towards the stationary ring, which is supported by the hub of the impeller.

The essence of the proposed technical solution is illustrated by drawings.

Figure 1 presents a section of a General view of a sewage pump.

Figure 2 shows, on an enlarged scale, an end sealing assembly and a pressure equalizing chamber sealed by a membrane into two cavities.

The sewage pump comprises a pump housing 1, an impeller 2, a back cover 3 for the pump, a lower bearing shield 4, a membrane 5, bearings 6, an electric motor 7, an end sealing assembly 8, an upper bearing shield 9, a cavity 10 in communication with the pump cavity behind the impeller 2, the cavity 11, in communication with the oil-filled cavity of the electric motor 7.

Sewer pump operates as follows

In the manufacture of the pump, the internal cavity of the electric motor 7 is filled with oil, from which water vapor and air are removed, filling is carried out under vacuum to completely remove air from the electric motor 7, the pump is filled with the pumped liquid and is turned on. A certain pressure is established in the pump cavity behind the impeller 2, which acts through the cavity 10 in the rear cover 3 on the membrane 5, which in turn, due to slight movement, acts on the oil in the electric motor 7 through the cavity 11. As a result, the pressure in the pump housing 1 the impeller 2 and in the oil of the electric motor 7 becomes the same. Thus, there is no pressure drop across the mechanical seal 8. Therefore, in the absence of a pressure drop, there are no leaks through the mechanical seal 8.

When heated during operation of the pump, the oil expands and the diaphragm moves, as a result of which the pressure automatically equalizes.

Claims (1)

A pump, comprising an impeller fixed by a hub on a rotor shaft of an electric motor, located in a pump casing, hermetically connected to an electric motor casing, having bearing shields with bearings, an end sealing assembly, a pressure equalizing chamber, hermetically divided by a membrane into two cavities, in communication with an oil-filled electric motor cavity and the cavity of the pump behind the impeller, characterized in that the rotor and stator of the electric motor are placed in one cavity formed by the body of the electric motor For and filled with oil, the shaft is made upright, and the bearings are in the form of rolling bearings and are located in the cavity of the electric motor, the pump housing has a back cover, and the leveling chamber is formed by the lower bearing shield and the back cover of the pump, the stationary ring of the mechanical seal assembly is installed in the latter, and its movable ring is preloaded by a spring in the direction of the stationary ring, made resting on the hub of the impeller.