RU2290536C1 - Peristaltic pump - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: invention relates to pumps intended for transfer of hydraulic mixes under pressure and it can be used at concentrating mills in different industries. Proposed pump has fixed housing with suction and delivery branch pipes, flexible hose placed inside housing and closed in vertical plane and roller engaging with hose when rolling over its inner perimeter and secured on rotor which is mechanically coupled with drive. Hose is provided with wedge thickening of its side walls over entire perimeter. Said wedge thickenings are pointed inwards the hose, and side edges of roller and fixed housing are rounded off, with possibility of pressing walls of hose from top and bottom to its wedge thickenings at deformation of hose caused by roller rolling over hose.

EFFECT: increased service life of hose owing to provision of bending of its side walls at nonzero radius of curvature, reduced fatigue stresses in deformation walls of hose.

Description

The invention relates to pumps for pumping under pressure of hydraulic mixtures, namely to peristaltic pumps, and can be used in processing plants in various industries.

A peristaltic pump (prototype) is known, which contains a stationary housing with suction and discharge nozzles, a flexible hose and a roller closed in a vertical plane, interacting with the hose when rolling around its inner perimeter and mounted on the rotor, which is kinematically connected to the drive (Improvement techniques and technologies for waste storage in the context of integrated use of the subsoil (Sat Scientific Scientific Work. Mechanobr, 1984, pp. 54-55, Fig. 1).

A disadvantage of the known pump is the rather quick failure of the hose due to its fatigue wear when interacting with the hose, which rolls in with a large force to press the roller against it, which is accompanied by bending of the walls along the edges of the hose with a practically zero radius of curvature. And in the case when the width of the roller and the housing is adopted less than the width of the deformed hose, it is possible to violate the tightness of the cavity of the hose under pressure with a decrease in this pressure, and a decrease in pump performance.

The technical result of the invention is to increase the service life of the hose by ensuring the bending of its side walls with a non-zero radius of curvature.

The technical result is achieved by the fact that in a peristaltic pump containing a stationary housing with suction and discharge nozzles, a flexible hose and a roller located inside the housing and closed in a vertical plane, interacting with the hose when rolling around its inner perimeter and mounted on the rotor, which is kinematically connected with the drive, according to the invention, the hose along its entire perimeter is made with wedge-shaped thickenings of its side walls, while the wedge-shaped thickenings face the inside of the hose, and Shackle edge roller and a stationary housing configured to press the radii of the hose walls to the top and bottom of its wedge-shaped thickenings of the hose during deformation it rolls on the roller.

The peristaltic pump is shown in FIG. 1 — a transverse section through the interaction of the hose with the roller, and FIG. 2 — the same, when the hose is undeformed.

The peristaltic pump contains a stationary housing 1 with suction and discharge nozzles (not shown), a flexible hose 2 located inside the housing 1 and closed in a vertical plane and interacting with it when rolling around its inner perimeter roller 3. Roller 3 is mounted on a rotor (not shown) which is kinematically coupled to a drive (not shown). The hose 2 along its entire perimeter is made with wedge-shaped thickenings 4 of its side walls, while the wedge-shaped thickenings 4 are directed inside the hose 2. The lateral edges of the roller 3 and the stationary body 1 are made with roundings 5 and 6 with the possibility of pressing the walls of the hose 2 from above and from below its wedge-shaped thickenings 4 when the hose 2 is deformed by the roller rolling around it 3. 7 and 8 are deformable sections of the hose 2 adjacent to its wedge-shaped thickenings 4.

The peristaltic pump operates as follows. When the rotor is rotated and the roller 3 is rolled around the hose 2 and compressed in a vertical plane, an excess pressure is created in front of the roller 3, which ensures the flow of the hydraulic mixture into the discharge pipe and its further transportation. When rolling the roller 3, its lateral edges and the lateral edges of the stationary housing 1 in the zone of contact of the roller 3 with the hose 2 with their roundings 5 and 6 press the walls of the hose 2 from above and below to its wedge-shaped thickenings 4, ensuring the tightness of the pump discharge chamber. Moreover, due to the presence of wedge-shaped thickenings 4, the side walls of the hose 2 in sections 7 and 8 of their adjoining to the wedge-shaped thickenings 4 are deformed at nonzero bending radii, which exclude fatigue failure of the walls of the hose 2.

Distinctive features of the invention provide an increase in the service life of the hose by ensuring the bending of its walls with a non-zero radius of curvature and a significant reduction in fatigue stresses in the deformable walls of the hose.

Claims (1)

A peristaltic pump, comprising a stationary housing with suction and discharge nozzles, located inside the housing and vertically closed, a flexible hose and a roller interacting with the hose when rolling around its inner perimeter and mounted on a rotor that is kinematically connected to the drive, characterized in that the hose along its entire perimeter it is made with wedge-shaped thickenings of its side walls, while the wedge-shaped thickenings are turned into the hose, and the lateral edges of the roller and the stationary body in Full with rounded to press the hose walls of the top and bottom to its wedge-shaped thickenings roller rolls on it at the hose deformation.

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