RU196491U1 - Two-section electric pump unit - Google Patents

Abstract

The utility model relates to mechanical engineering, namely to pumps for pumping various liquids. The two-section electric pump unit contains the pump sections of the electric pump unit mounted on the base plate, successively communicated to each other by the bypass pipe, while the pump sections of the electric pump unit are installed vertically on the base plate, each pump section is equipped with its own drive motor, the shaft of which is connected to the shaft of the pump section through a magnetic a coupling located in a separate housing made with radial stiffeners and coaxially connected between of flange connections with an electric motor located on it and a housing of the pump section located below it, in the upper part of which there is a discharge pipe, and in the lower part, a support cup sealed to the latter by means of a flange connection is installed, in which a sliding bearing support of the pump section shaft is installed, a suction pipe of the pump section is installed in the side wall of the support cup, the support cup is connected to the base plate by means of a flange connection, by means of a flange connection between the support cup and the housing of the pump section, the suction pipe and the discharge pipe are installed in the horizontal direction, the bypass pipe through the flange connection is hermetically connected from the side of one end to the discharge pipe of the first section and from the side of the other end to the suction pipe of the second section along the pumped electric pumping unit of a liquid medium. The result is a reduction in starting torques on the shafts of the sections and couplings while simultaneously providing separate and independent speed control for each section individually. 3 ill.

Description

The utility model relates to mechanical engineering, namely to pumps for pumping various liquids, including for pumping neutral, aggressive, toxic, as well as explosive and fire hazardous liquids, vapors that may form explosive mixtures with air, including for pumping commodity petroleum, petroleum products, methanol and gas condensate.

A centrifugal sectional multistage centrifugal pump is known, each section of which consists of a separate housing with 8-18 steps mounted on the shaft, each of which consists of an impeller, a holder, a disk and a guide apparatus with O-rings, while the sections are interconnected using sub and the shafts of the sections are interconnected by roller couplings, and the shaft of the extreme section is connected to the electric motor, and the sections are arranged vertically, and the axial loads from the shaft weight are perceived by the fifth and fenugreek (see the book Handbook of Oilfield Equipment, edited by E.I. Bukhalenko, M., Nedra, 1983, pp. 291-298, Fig. 118-119).

However, this centrifugal sectional multistage centrifugal pump has significant axial dimensions, which complicates its ground operation and, moreover, there are requirements for the alignment of the shafts when connecting the sections to each other and with the motor shaft, which ultimately requires the use of a complex design of ground structures for installation and operation pump design described above. In addition, the start-up of the pump by one electric motor has increased starting torques on the shafts and couplings of the sections and at the same time there is no possibility of including individual sections in the work independently of each other, which complicates the process of regulating the operation mode of such a pump.

The closest to the utility model in terms of technical nature and the achieved result is a two-section electric pump unit containing pump sections of the electric pump unit mounted on a base plate, successively communicated with each other by means of an overflow pipe (see patent document CN No. 2138203 Y, class F04D 1/10, published on July 14, 1993).

This two-section electric pump unit allows you to assemble a ground-based electric pump unit on a base plate. However, the horizontal arrangement of the pump section requires structural complexity to ensure coaxial operation of the shafts of the sections and to prevent bending, and moreover, as in the pump described above, it is not possible to turn on separate pump sections independently of each other, which complicates the process of regulating the operation mode of such a pump.

The technical problem, the solution of which the present utility model is aimed at, is the elimination of the problems identified in the known technical solutions.

The technical result consists in reducing starting torques on the shafts of the sections and couplings with the simultaneous independent electric drive of each section of the unit with the provision of separate and independent speed control on each section separately in combination with the vertical arrangement of the shafts of the sections and electric motors.

The indicated technical problem is solved, and the technical result is achieved due to the fact that the two-section electric pump unit contains pump sections of the electric pump unit mounted on the base plate, successively communicated to each other by the bypass pipe, while the pump sections of the electric pump unit are installed vertically on the base plate, each pump section equipped with its own drive motor, the shaft of which is connected to the shaft of the pump section through a magnetic coupling located in a separate housing made with radial stiffeners and coaxially connected by means of flange connections to the electric motor located on it and the housing of the pump section located below it, in the upper part of which there is a discharge pipe, and in the lower part it is coaxially mounted supporting a cup in which the bearing of the sliding bearing of the shaft of the pump section is installed, a suction nozzle is installed in the side wall of the support cup section, the support cup is connected to the base plate by means of a flange connection, moreover, by means of a flange connection between the support cup and the pump section casing, the suction pipe and the discharge pipe are installed in a horizontal direction, the bypass pipe is flange-connected to the discharge pipe of the first section from one end and from the other end to the suction pipe of the second section along the liquid pumped by the pump unit Reda, the side wall of the magnetic coupling housing each pump section is provided with a fitting for mounting thereon a temperature sensor within the magnetic coupling housing, and the side wall of the housing of each pump section in its upper part is provided with a fitting for mounting thereon pressure sensor inside the pump body portion.

In the course of work on the creation of a two-section electric pump unit, it was revealed that it is possible to increase the reliability of the work and, as a result, increase the uptime and the overhaul life due to the above set of features, each of which is necessary to achieve the claimed technical result, with an autonomous drive of each from the pump sections of the unit, at start-up, it allowed to reduce the starting torque, which reduced the peak loads on the electric drive, preventing thus its failure. At the same time, this made it possible, due to the vertical arrangement of the shafts of the pump sections and the electric motor connected to each of them, in combination with the use of a magnetic coupling during start-up and at increased loads, to reduce the requirements for runout of the shafts during their unwinding and thereby prevent the failure of the pump sections and at the same time, the vertical arrangement of the shafts reduced the radial loads on the bearings installed along the shafts in the electric motor and in the pump section, due to their virtually mechanically independent twisting, and the above mentioned arrangement of nozzles on the body, including the bypass pipe minimizes the possibility of creating a radial load in the pump section. At the same time, the autonomous drive of each section allows you to independently adjust the performance of each section and thus smoothly control the performance of the entire unit and, as a result, reduce peak loads on electric motors, and in the event of failure of one of the motors by increasing the load on a workable section and continuing the unit's performance of its function to prevent the development of an emergency on the technological equipment serviced by the unit, for example, chemical-technological equipment AANII continuous technological cycle of production.

In FIG. 1 shows a side view of a two-section electric pump unit.

In FIG. 2 shows a top view of a two-section electric pump unit

In FIG. 3 shows a longitudinal section through a section of a two-section electric pump unit.

The two-section electric pump unit contains pump sections 2 and 22 of the electric pump unit mounted on the base plate 1, sequentially communicated to each other by the bypass pipe 3, while the pump sections 2 and 22 of the electric pump unit are installed vertically on the base plate 1.

Each pump section 2 is equipped with its own drive motor 4, the shaft 5 of which is connected to the shaft 6, respectively, of the first pump section 2 and the second pump section 22 through a magnetic coupling 7 located in a separate housing 8 made with radial stiffeners 9 and coaxially connected by flange connections 10 with the electric motor 4 located on it and the housing 11 located below it, respectively, of the first pump section 2 and the second pump section 22, in the upper part of which is the discharge pipe 12, and in the lower part coaxially mounted is hermetically connected to the latter by means of a flange connection 13 a support cup 14, in which a bearing 15 of the sliding bearing 16 of the shaft 6 of the pump section 2 is installed.

In the side wall of each support cup 14 is installed a suction pipe 17, respectively, of the first pump section 2 and the second pump section 22.

Each support cup 14 is connected to the base plate 1 by means of a flange connection 18, moreover, by means of a flange connection 13 between the support cup 14 and the housing 11 of the pump section 2, the suction pipe 17 and the discharge pipe 12 are mounted horizontally parallel to each other.

The bypass pipe 3 by means of a flange connection is hermetically connected from the side of one end to the discharge pipe 12 of the first section 2 and from the side of the other end to the suction pipe 17 of the second pump section 22 along the liquid medium pumped by the pump unit.

The side wall of the housing 8 of the magnetic coupling 7 of each pump section, respectively, 2 and 22 is made with a fitting for mounting a temperature sensor on it inside the housing 8 of the magnetic coupling 7, and the side wall of the housing 11 of each pump section, respectively, 2 and 22 in its upper part made with a fitting for installing a pressure sensor on it inside the housing 11 of the pump section, respectively, 2 and 22.

Two-section electric pump unit operates as follows.

The shaft 6 of each pump section 2 and 22 is driven into rotation from its electric motor 4 through magnetic couplings 7. The rotation from the shaft 6 is transmitted to the pump wheels. The pumped liquid from the first pump section 2 through the bypass pipe 3 enters the second section 22 to further increase the discharge pressure and supply the pumped liquid through the discharge pipe 12 of the second section 22 to the consumer.

Using the proposed design will allow

- to provide work at lower speeds of rotation of the shaft of the pump sections to ensure a given pressure;

- reduce peak loads on electric motors;

- provide a wider range of heads and flows, due to the use of two pump sections installed in one unit.

- the ability to change the pressure developed by the unit in a wide range;

- increase the reliability of leakage prevention through the use of a magnetic coupling;

- increase the reliability of the unit, since in the event of failure of one of the pump sections, the operability of the unit as a whole is not lost and its operation can be continued after connecting the remaining pump section;

- to increase the reliability of work due to the unloading of the vertical rotors of the pump section from axial forces, which allows you to flexibly adjust multisection units to the needs of any process and significantly increases their resources.

Claims (1)

A two-section electric pump unit containing pump sections of the electric pump unit mounted on a base plate, successively communicated to each other by a bypass pipe, characterized in that the pump sections of the electric pump unit are installed vertically on the base plate, each pump section having its own electric motor, the shaft of which is connected to pump section shaft through a magnetic coupling located in a separate housing made with radial stiffeners and clearly connected by means of flange connections to the motor of the pump section located on it and located on the bottom of the pump section, in the upper part of which there is a discharge pipe, and in the lower part a support cup sealed to the latter by means of a flange connection is installed, in which a bearing support for the sliding bearing of the pump shaft is installed section, in the side wall of the base cup is installed a suction pipe of the pump section, the base cup is connected to the base plate by means of a flange the connection, moreover, by means of a flange connection between the support cup and the pump section housing, the suction pipe and the discharge pipe are installed in the horizontal direction, the bypass pipe through the flange connection is hermetically connected from the side of one end to the discharge pipe of the first section and from the other end to the suction pipe of the second sections along the liquid medium pumped by the electric pump unit.

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