RU33949U1 - Peristaltic pump - Google Patents

Description

PERISTALTIC PUMP TYPE

The utility model relates to the field of pump engineering and can be used for pumping friction sensitive fluids, suspensions, pasty materials.

Known peristaltic type pumps containing an elastic tube interacting with pinch rollers (UK patent N 1203571 IPC F04 B 43/12, French patent N 2041317 IPC F04 B 43/00, US patent N 3644068 U1.417-477). The disadvantages of these pumps are: significant wear of elastic tubes due to large deformation; the need to disassemble the main pipelines when replacing an elastic tube; limited performance. To increase productivity, there are designs of pumps with several parallel flexible hoses, pinch rollers (French patent N 2041317 for IPC F04 B 43/00), which greatly complicates the design of the pump. The indicated drawbacks are deprived of peristaltic type pumps with pinch rollers, the working body of which is made in the form of a plate of elastic material, fixed with a lining in the housing, on the inner surface of which a groove is made, the shape of which corresponds to the profile of pinch rollers (US patent N 2519642 and N 2794400 cl .417-477). With the constructive implementation of such a pump with a wide profile groove overlapped by a plate of elastic material and fixed with a lining on the housing

IPC S06 B21 / 02 F04B43 / 12

can significantly increase the productivity of the pump. The organization made an amicable sample of such a pump. It was shown that the entire force of the discharge pressure during the pumping of the suspension is perceived by the elastic plate, and therefore the relatively low mechanical strength of the elastic material did not allow working even at a working pressure of HUM in the Art. The elastic plate swelled in the form of a dome and burst. The service life of the elastic plate was 8-10 hours of continuous operation, which does not ensure the normal conduct of the production process and reduces the safety of the process.

The objective of the proposed technical solution is to increase the reliability and durability of the pump, ensuring stable pump performance.

The technical result is achieved by the fact that the pad, with which the elastic plate is attached to the pump casing, is made with alternating longitudinal grooves and ribs, and pinch rollers are made with protrusions included in the grooves and depressions located above the ribs of the pad, and the sealed housing is in communication with the source adjustable vacuum. This design of the pump allows you to create high-performance peristaltic pumps with stable performance (pressure, performance) and increase the life of the elastic plate due to the fact that during operation all the force from the discharge pressure of the pumped liquid will be perceived not by the elastic plate, but by the lining ribs , and the presence of vacuum in a sealed pump housing, the value of which can be adjusted, allows you to save the volume of the working cavity between the profile oh groove and elastic plate unchanged.

The drawing shows the proposed pump non-static

type where: na figure 1 is a longitudinal section; PA figure 2 is a transverse section aa (PA figure 1); in Fig.Z - section BB. The pump consists of a casing 1 with a wide profile groove 2, with a suction and discharge pipe, pipes 3 and 4. The groove 2 is overlapped by an elastic plate 5, which is fixed to the casing 1 by a lining 6 with bolts and nuts 7 and 8. The lining is made with alternating longitudinal grooves 9 and ribs 10. In the bearing strut 11 there is a shaft 12c fitted with discs 13 and 14, the axles 15 of the pinch rollers 16 are located between them. The rollers 16 are made with annular grooves 17 and protrusions 18. To create a tight volume in the space of rotation of the rollers, the housing 1 is closed at the ends by covers 19 and 20 through gaskets 21 using bolts and nuts 22 and 23. The shaft output through the cover 20 is sealed with a seal 24. A pipe 25 serves to communicate the sealed housing with an adjustable vacuum source.

The pump operates as follows. Non-pumped fluid through the suction pipe 3 enters the working cavity formed by the profile groove 2 and the elastic plate 5. Two adjacent rollers 16, pinching the elastic plate, form a certain dose. When the shaft 12 rotates, pinch rollers squeeze the dose into the discharge pipe 4. The force from the discharge pressure of the pumped liquid is not perceived by the elastic plate 5, but by the ribs 10 of the lining 6. During operation, the sealed housing communicates with the source of adjustable vacuum through the pipe 25.

The proposed technical solution was made and tested with positive results and recommended for pumping liquid explosive mixtures.

Claims (1)

A peristaltic type pump comprising a sealed housing with a wide profile groove, a covered plate of elastic material and a plate fixed to the body, a rotor with pinch rollers mounted on the rotation axes, characterized in that the plate is made with alternating longitudinal grooves and ribs, and pinch rollers are made with protrusions included in the grooves and depressions located above the ribs of the lining, and the sealed housing is in communication with a source of adjustable vacuum.