SU1209230A1 - Apparatus for dosing blood - Google Patents

Description

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The invention relates to medical technology, namely to devices for dispensing physiological media including blood, and intended for use in artificial kidney apparatus.

The aim of the invention is the elimination of stagnant zones due to the direct movement of blood.

 The drawing shows the proposed device, the frontal section.

The device includes a batch tank consisting of body elements 1 and 2, check valves 3 and 4, inlet 5 and outlet 6 blood supply nipples. Between the case elements 1 and 2, a membrane 7 is installed, dividing the dosing tank into two isolated cavities 8 and 9. The case element 1 contains inlet 10 and outlet 11 chambers connected to cavity 8, respectively, inlet 12 and outlet 13 channels. At the output of the input channel 12 and the output channel 13, perforated limiters 14 and 15 are installed. The body element 2 is provided with a fitting 16 for connection to a source of control medium. The fitting 16 is connected to the cavity 9. The inner surface of the body elements 1 and 2 is spherical in shape and provided with a system of transverse and radial grooves 17 and 18 connected to each other and perforated stops 14 and 15 ..

The device works as follows

Before starting the operation, the device is connected through the nozzle 5 to the source from which blood flows, and through the nozzle 6 to the load of the device, and through the nozzle 16 to the source of the controlled medium, in which periodically excessive pressure and vacuum are created.

Under the influence of overpressure, the cavity 9 is filled with the control of the medium with the help of the medium 16, the membrane 7 moves towards the body element 1, is displaced

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the blood from the cavity 8. The check valve 3 closes and the check valve 4 opens and the blood moves from the cavity 8 through the holes of the perforated restrictor 5, the output channel 13, the output chamber 11, the open check valve 4 and the output blood supply nipple 6 into the device load .

 O As the membrane 7 is pressed against the inner surface of the body element, the blood continues to move along the perforated limiter 15 through the system of grooves 17.

 5 Under the influence of a vacuum, the cavity 9 is released from the control medium through the fitting 16. The membrane 7 moves towards the body element 2, and a vacuum is generated in the cavity 8. The non-return valve 3 is opened and the non-return valve 4 is closed. The cavity 8 is filled with blood from its source through the nozzle 5, the open reverse

5 valve 3, the inlet chamber, 10, the inlet channel 12 and through the holes of the perforated stopper 14.

As you press the membrane 7 to the inner surface of the body

0 of element 2, the control medium continues to move to fitting 16 through a system of grooves 18.

The operation cycle described is repeated periodically.

5 I

Reducing the number of bypass

valves, their implementation in the form of check valves, lack of a pump, flow sensor, reduces the cost

e. of the device, which creates prerequisites for its single use and allows sterilization under factory conditions, which reduces the possibility of blood infusion. Lack of stagnant zones in the dosed tank. when the membrane comes into contact with the internal surfaces of the body elements, due to the presence of a system of transverse and radial grooves on them, it increases

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blood dosing accuracy.

Control environment

Claims (1)

DEVICE FOR BLOOD DOSING, containing a sealed dosing tank with two body elements and a membrane between them, dividing the tank into two isolated cavities, fittings and valves, characterized in that, in order to eliminate stagnant zones due to direct-flow movement of blood, the fittings are located on one axis with installed in them · we, while the inner surface of the housing elements is made spherical in shape and equipped with a system of transverse and radial grooves, and in the places of connecting the fittings Lena perforated guides made of 'one piece with the housing element. >