SU735255A1 - Perfusion pump - Google Patents

Description

one

The invention can be used in medical technology, namely, in extracorporeal hemosorption apparatus for treating burns, poisoning and liver failure.

. A perfusion pump is known, in the case of which a pneumatically controlled working element is placed.

A disadvantage of the known pump is that the blood chambers communicate through the inlet valves, which complicates the device.

The purpose of the invention is to simplify the design of the pump. This is achieved by the fact that the body is made in the form of two differently sized communicating containers, and the operating element consists of two differently sized elastic cartridges placed in the corresponding capacity of the body.

The drawing shows the structural scheme of the infusion pump. The pump casing is designed as communicating tanks 1 and 2. The inlet nozzle 3 is located in the tank, and the outlet nozzle 4 is located in the tank 2, and the tanks are connected by an additional nozzle 5.

In a large container 1 in front of the inlet fitting 3 there is an elastic cartridge 6, and in a small container 2 there is an elastic cartridge 7 in the immediate vicinity of the outlet fitting 4.

The pump works as follows.

Perfusion pump connected to the device, such as extracorporeal hemosorbtsni.

Inlet 3 and outlet 4 are connected to perfusion lines,

to and cartridges 6 and 7 - to the drive of the perfusion pump.

When gas (liquid) flows under pressure Pi into the cartridge 6, it is stretched, initially leading to overlapping the inlet fitting 3. With further stretching of the container 6, it constantly fills the volume of container G, displacing the perfusion fluid into the small container 2 through additional fitting 5. But since the volume of the tank 1 is larger than the volume

20 of the container 2, then part of the displaced fluid enters the outlet fitting 4.

At the end of the working stroke, the pressure from the balllock 6 is released. At the same time, gas (liquid) enters the cartridge 7 under pressure Pj, which leads to stretching of the cartridge 7, and this, in turn, leads to overlapping of the additional fitting 5. With further stretching, the cartridge 7 fills the volume of container 2, at the same time, all the perfusion fluid entered is displaced into the outlet fitting 4.

At the same time, the entire volume of large capacity I, i.e., the suction flow, is filled, since the balloon 7 during the operating period Pi (like the balloon in the operating stroke PI) not only displaces the injected liquid, but also The role of the outlet valve, which prevents the flow of fluid into the large capacitance I through the additional fitting 5.

The working cycle P "occurs in antiphase with respect to the working cycle PaTakim way, at the outlet of the nozzle 4 due to different-sized containers I and 2, and also because of the antiphase of working cycles the current of perfusion fluid is constantly present during the operation of the perfusion pump.

Claims (1)

Invention Formula Perfusion pump, in the case of which 0 a pneumatically operated working element is disposed, characterized in that, in order to facilitate the pump’s co-adjustment, the casing is made of two differently sized communicating tanks, and the working element is two differently sized elastic cartridges placed in a corresponding casing container.