RU2458250C1 - Peristaltic pump - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: proposed pump consists of housing 2 with suction and delivery unions 3, 4 connected with elastic tubular element 1. Pump incorporates motor 11 with rotor 6 carrying finger 7 rigidly secured thereon to get in contact with elastic tubular element 1 by intermediate link 8. Tight housing 8 accommodates extra union 5 to equalise excess pressure in housing and aforesaid unions.. Second end of equalising union 5 serves to feed fluid to tank 16. Pump is equipped with pressure leak control chamber with built-in pressure pickup 14 connected with tight housing 1 to make external member of rotor shaft 6.

EFFECT: longer life at high excess pressure in elastic element, expanded applications.

2 cl, 2 dwg

Description

The invention relates to a pump engineering industry and can be used in the chemical, oil and gas, food, medical and other branches of science and technology, as well as in the transportation of natural and associated gas.

Known peristaltic pump, taken as a prototype, consisting of a housing with a suction and discharge fittings connected to an elastic tubular element, an electric motor with a rotor, on which a runner is in contact with the elastic tubular element (RU 2312252 C2, 12/10/2007 )

A disadvantage of the known peristaltic pump is the unreliability of its operation when the fluid is supplied to a receiving tank with overpressure, which limits its scope due to pumping of the fluid only at atmospheric pressure.

The objective of the invention is to increase reliability in the supply of fluid to the receiving tank.

The technical result of the invention is to increase the service life of peristaltic pumps at overpressure in the elastic element, which expands the scope of their application.

The technical result is ensured by the fact that in a peristaltic pump, consisting of a housing with suction and discharge fittings connected to an elastic tubular element, an electric motor with a rotor, on which a runner is in contact, by means of an intermediate link with an elastic tubular element, the housing is sealed, and it has an additional fitting installed to equalize the overpressure in the housing, the suction and discharge fittings, while the second end of the equalizing fitting is intended It is suitable for supplying pressure to the housing from a fluid reservoir. The peristaltic pump is equipped with a pressure leakage control chamber with an integrated pressure sensor connected to a sealed housing and enclosing the rotor shaft.

The invention is illustrated by drawings, where in Fig.1 shows a General view of a peristaltic pump built into the pumping system, Fig.2 is a section aa of Fig.1.

The peristaltic pump consists of an elastic tubular element 1 located in a sealed enclosure 2 with a suction 3, injection 4 and equalizing 5 fittings, and a rotating rotor 6 with a runner 7 mounted on its shaft. The ends of the elastic tubular element 1 are connected to the suction 3 and 4 forcing fittings . The slider 7 of the rotating rotor 6 in the housing 2 has the ability to impact on the elastic tubular element 1 through an intermediate link 8, made in the form of two diametrically located rollers. To eliminate the displacement of the elastic tubular element 1, guide rollers are provided 9. An oil seal 10 is installed on the shaft of the rotating rotor 6, which ensures the tightness of the housing 2. The rotation of the rotor 6 is provided by a stepper motor 11 connected to the rotor shaft 6 by a coupling 12. The peristaltic pump is equipped with a pressure leakage control chamber 13 with a built-in pressure sensor 14 connected to a sealed housing 2 and covering the rotor shaft.

Figure 1 presents the connection diagram of the peristaltic pump in the pumping system, where the positions 15 and 16 indicate respectively the tank with excess pressure for the pumped fluid and the tank for the pumped fluid. The outlet vessel 15 is connected to the suction nozzle 3 by the pipe 17, and the tank 16 is connected to the discharge nozzle 4 by the pipe 18 and the nozzle 5 by the pipe 19. The pipe 20 connects the inlet of the vessel 15 to the inlet of the vessel 16.

The peristaltic pump operates as follows. To pump the fluid from the tank 15 into the tank 16, where the fluid may be under pressure, the suction nozzle 3 by a pipe 17 is connected to the outlet of the tank 15, and the discharge nozzle 4 and the equalizing nozzle 5 are connected by pipelines 18 and 19 to the inlet of the tank 16. The inlet of the vessel 16 is connected by a pipe 20 to the inlet of the vessel 15. With this connection, the pressure in the suction 3, discharge 4 and equalizing 5 fittings is equalized. When the stepper motor 11 is turned on, the rotating rotor 6 with the runner 7 acts through the intermediate link 8 on the elastic tubular element 1, creating a peristaltic movement of the fluid along the elastic tubular element 1. Equalizing the pressure inside and outside the elastic tubular element allows the flow of fluid into the tank, in which fluid is under overpressure without damaging the elastic tubular element. The pressure sensor 14 registers the pressure value in the sealed chamber 13 and detects a leak from the sealed enclosure 2.

Thus, the proposed peristaltic pump ensures its operation when pumping fluids at a pressure significantly higher than atmospheric, while maintaining the performance of the elastic tubular element.

Claims (2)

1. A peristaltic pump, consisting of a housing with suction and discharge fittings connected to an elastic tubular element, an electric motor with a rotor, on which a runner is rigidly fixed, which is in contact with an elastic tubular element, characterized in that the housing is sealed and installed in it additional fitting for equalizing the overpressure in the housing, the suction and discharge fittings, while the second end of the equalizing fitting is designed to supply pressure to Case from the tank for the pumped-over fluid. 2. A peristaltic pump, characterized in that it is equipped with a pressure leakage control chamber connected to the sealed housing with an integrated pressure sensor connected to the sealed housing and enclosing the rotor shaft.

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