RU182408U1 - PONTON PUMP UNIT WITH GROUP ACTUATOR - Google Patents

Abstract

The pontoon pump unit with a group drive contains a structure, the supporting element of which is the pontoon 2. Two or more pumps 3, 4 are vertically located on the pontoon. In order to increase the suction capacity and durability when pumping contaminated liquids, it is advisable to use single-screw pumps with an elastic stator. As the drive mechanism of the pumps, one motor 5 is used, on the shaft of which a pulley 8 is mounted, connected by V-belts to the pulleys of the pumps 6, 7. Technical result - utility model increases the possibility of using floating pumping units when pumping multiphase and highly viscous liquids in environmental events cleaning of open reservoirs and reservoirs. 5 cp f-ly; 1 ill.

Description

The utility model relates to pump engineering, in particular to the design of a floating pumping unit, and is intended for the purification of open reservoirs of oil-water emulsions and other contaminants in environmental events, the pumping of wastewater and sludge from open reservoirs and tanks.

Known floating pumping station (USSR author's certificate N 956843, IPC F04D 15/00, publ. 1982), containing an electric pump placed on a pontoon made in the form of two hollow disks connected by a traverse. The disadvantage of this design is the need to use a submersible motor, which complicates the use in explosive and fire hazardous facilities.

Known floating pumping unit (RF patent No. 2298693, IPC F04D 9/00, F04D 15/00, publ. 10.05.2007), including axial or centrifugal pumps immersed in water. The pump drive is an internal combustion engine located on the surface. The disadvantage of this design is the difficulty in accurately adjusting the position of the pump suction cavity for taking fluid from the surface of the reservoir, the inability to pump highly viscous liquids containing abrasive solids due to the type of pumps used (dynamic) and the relatively high metal consumption of the structure.

The technical problem to be solved in the proposed utility model consists in expanding the arsenal of technical means for cleaning and maintaining in proper condition the surfaces of open reservoirs and reservoirs containing multiphase liquids (water - oil - mechanical impurities).

The technical result provided by the utility model is to increase the possibility of using floating pumping units when pumping multiphase and highly viscous liquids in environmental measures for cleaning open water bodies. The proposed design with a group drive allows you to reduce the overall dimensions, which allows the possibility of using the installation for pumping liquids from open containers, and also eliminates the need to mount semi-submersible equipment directly on the tank.

The technical result is achieved in a pontoon pump unit with a group drive for pumping multiphase fluid from a reservoir placed on a pontoon and consisting of several vertical pumps, including working bodies in the form of a rotor and stator, a drive shaft, a sealing system, a bearing assembly and V-belt drive, according to a useful models, the drive is made from one engine located between the pumps, and the number of grooves on the drive pulley is multiple of the number of grooves on the pump pulley.

The receiving cavity of the pumps is separated from the reservoir by a sealed tank having radial openings for the pumped liquid phase from the upper part of the reservoir to enter the pump intake.

Single-screw pumps with an elastic stator are used as pumps.

As a drive engine used electric motor, hydraulic motor, pneumatic motor, internal combustion engine.

The pumps are mounted on the pontoon axially movable, and the pump pulley has additional grooves, which allows for a constant position of the drive motor to regulate the degree of immersion of the pumps to the liquid level in the reservoir.

When pumping a highly viscous fluid inside the pontoon, a pipeline was laid to supply coolant.

The drawing shows a pontoon pump unit with a group drive

The supporting structure is a sealed tank - pontoon 2. Several pumps are vertically located on the pontoon 2, for example, a variant with two pumps 3, 4 driven by a single engine 5. The design makes it possible to control the immersion depth of the pump receiving cavity in the pumped liquid phase from the reservoir 1 that allows you to separate the emulsion into dispersed phases (water - oil) and more effectively clean the pond.

In order to increase the suction capacity, efficiency and durability when pumping highly viscous and contaminated liquids, it is advisable to use single-screw pumps with an elastic stator, which in world practice are widely used in various industries (oil and mining, construction, utilities, metallurgy, coal industry and other)

As the drive mechanism of the pumps, one engine 5 is used, which is located in the center of the pontoon between the pumps 3, 4. A pulley 8 is fixed to the shaft of the engine 5, which is connected by means of V-belts to the pulleys of the pumps 6, 7. The pump pulley has additional grooves, the number of grooves on the engine pulley is a multiple of the number of grooves on the pump pulley. This allows, at a constant position of the drive motor 5, to regulate the degree of immersion of the pumps 3, 4 under the liquid level in the reservoir.

In order to increase efficiency when pumping highly viscous liquids inside the pontoon 2, a pipeline can be laid to supply hot coolant.

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Claims (6)

1. A pontoon pump unit with a group drive for pumping multiphase fluid from a reservoir, located on a pontoon and consisting of several vertical pumps, including working bodies in the form of a rotor and a stator, a drive shaft, a sealing system, a bearing assembly and a V-belt drive with a drive from one engine located between the pumps, and the number of grooves on the drive pulley is a multiple of the number of grooves on the pump pulley. 2. The unit according to claim 1, characterized in that the receiving cavity of the pumps is separated from the reservoir by a sealed tank having radial openings for the pumped liquid phase from the upper part of the reservoir to be received by the pump. 3. The unit according to claim 1, characterized in that single-screw pumps with an elastic stator are used as pumps. 4. The assembly according to claim 1, characterized in that an electric motor, a hydraulic motor, a pneumatic motor, an internal combustion engine are used as a drive motor. 5. The unit according to p. 1, characterized in that the pumps are mounted on the pontoon axially movable, and the pump pulley has additional grooves, which allows for a constant position of the drive motor to regulate the degree of immersion of the pumps to the liquid level in the reservoir. 6. The unit according to claim 1, characterized in that when pumping a highly viscous liquid inside the pontoon, a pipeline is laid for supplying a coolant.

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