SU1727843A1 - Peristaltic pump - Google Patents

Abstract

The invention relates to medical technology, in particular to devices for pumping biological fluids and medicinal substances, and allows for improving the weight and size characteristics of a pump and reducing the time needed to prepare the pump for operation. The peristaltic pump includes a housing 21 with an adjustable drive, an output shaft, an elastic tube 16 with a valve 19 and a tube clamp 22, while the spring-loaded driven shaft with a segment roller 10 with protrusions fixed on it, which is kinematically connected with the segment roller 5 with cavities located on the output shaft, and between the rollers there is an elastic tube 16, with the delivery end 18 of which is spring-loaded 20 and attached to the wall of the housing 21 with a retainer 22. 3 Il.

Description

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WITH

The invention relates to medical technology, in particular to devices for pumping biological fluids and drugs.

A device for pumping biological fluids is known, comprising a housing with a lodgment for an elastic tube, an adjustable drive with an output shaft on which a rotor with rollers is mounted.

However, this device has large dimensions and mass, is complicated in design, and there are difficulties in its preparation for work, associated with filling the elastic tube into the cradle and setting the jacquer.

Closest to the proposed technical solution is a peristaltic pump comprising an adjustable drive housing, on the output shaft of which there is a rotor with rollers, an elastic tube with valves and tube retainers.

The disadvantage of the known pump is that it is complicated in construction, has large dimensions and mass due to the presence of a rotor with rollers and means for tensioning and fixing the tube. In addition, for reliable fixation of the elastic tube in a predetermined position, it is necessary to use special flanges located at the suction and delivery ends of the elastic tube, in connection with which preparation of the pump for operation takes considerable time and therefore the pump cannot be used in providing emergency medical care. unsteady conditions.

The aim of the invention is to improve the weight and size parameters and reduce the time to prepare the pump for operation.

The goal is achieved by the fact that in a peristaltic pump comprising an adjustable drive housing, an output drive shaft, an elastic tube with a valve and a tube clamp in the housing, a spring-loaded driven shaft with a fixed projection roller fixed on it is installed, which is kinematically connected a segmented roller with cavities located on the output shaft, and between the rollers an elastic tube is laid, with its delivery end spring-loaded and attached to the wall of the housing.

FIG. 1 shows a kinematic diagram of a peristaltic pump; in fig. 2 - segmented rollers in decompressed state, top view; in fig. 3 - the same, compressed

state (protrusions on the driven segment roller conventionally not shown).

The peristaltic pump contains an electric motor 1, via coupling 2 connected to a gearbox 3, an output shaft 4, which has a segment roller 5 with a segment 6 and recesses 7 and gear 8, a driven shaft 9, which has a segment roller 10 with protrusions 11 and a segment 12, gear 13,

springs 14, pressed by adjusting screws 15, elastic tube 16, made with suction end 17, discharge end 18 and valve 19, spring 20 fixed on housing 21, and retainer 22.

Peristaltic pump works as follows.

Squeezing the driven shaft 9, between the protrusions 11 stack elastic tube 1 b, the discharge end 18 of which is spring loaded

spring 20, the tube 16 is fixed to the pump housing 21 with a clamp 22. The adjusting screws 15 through the springs 14 create an occlusion of the elastic tube 16. The motor 1 is turned on, the rotation of which

through the coupling 2 and the gearbox 3 is transmitted to the output shaft 4. Gear 8 is rigidly fixed on the output shaft 4 and meshes with gear 13 fixed on the driven shaft 9. As a result

this results in rotation of the segment rollers 5 and 10, which push the flexible tube 16 towards the suction end 17 by a distance equal to the circumference of the segment roller minus the arc length of the segment, or

L jrdp-lA, where L is the stroke of the tube;

dp is the diameter of the segment roller;

ABOUT

but

g is the radius of the segment; с - chord length

5c-2rslri2,

a is the central angle, gr; h g (1 - cos |).

When the elastic tube 16 0 moves, the spring 20 is compressed and fluid is drawn into the suction end 17, and the air in the tube is forced out through the discharge end 18. As soon as the segments 6 and 12 touch the other, segment rollers 5 and 10 expand to form a gap through which the elastic tube 16 returns to its original position under the influence of the spring 20.

Then the cycle repeats.

The technical and economic indicators of a peristaltic pump are due to a decrease in its dimensions and weight, and the simplicity of the design causes high reliability, ease of use and a significant reduction in the time it takes to prepare it for work.

Thus, when using the proposed invention in comparison with the known, the time for preparing the pump for operation is reduced, the weight and size indicators are improved, the design is simplified, reliability is increased, and power consumption is reduced. All this allows the use of a peristaltic pump in both stationary and non-stationary conditions. In addition, due to the synchronous continuous rotation of the segment rollers, the power consumption is reduced, which allows the pump to be used for unsteady operation.

conditions from autonomous power sources.

Claims (1)

Claims of the Invention A peristaltic pump, comprising a housing in which an adjustable drive with an output shaft, an elastic tube with a valve and a tube clamp, is characterized in that, in order to improve the weight and size parameters and shorten the preparation time of the pump for operation, a pump shaft kinematically associated with the output shaft with segment rollers fixed to them with protrusions on the driven shaft and valleys on the output shaft, an elastic tube is laid between the rollers, and gnetayuschy end of its spring loaded and attached to the wall of the lock body.