SU606630A1 - Blood fractionation rotor - Google Patents

Claims (3)

(54) A ROTOR FOR BLOOD BLOODING into the sleeve 5 and ends in close proximity to the inside of the surface of the reflector 6. The operation of the rotor is as follows. The rotor is placed on the drive device (not shown in the drawing), the top of the bolt .16 is pressed against the ring 17 of the movable seal using a special clamp (not shown in the drawing) and the tube 13 is connected to the blood vessel. When the drive device is rotated, the housing 1, the insert 2, the disk 9 with the movable seal ring 17 are rotated, and the valve 16 with the cable 13 and the extraction device remain stationary. The blood through the tube 13 with a certain speed is supplied to the rotor and flows onto the inner surface of the reflector 6, from where under the action of centrifugal force it is evenly distributed over the entire inner surface of the cavity 4 of the insert 2. When a blood stack is drained with a thin layer down the surface of the insert 2, it is divided into components in accordance with; their specific weight. At the same time, the more dense components (erythrocytes) enter through the narrow slot into the annular cavity 3 of the rotor, being distributed evenly along the inner surface of the housing 1, fill it and, subject to high centrifugal forces, are separated again. Thus, if the blood cells, because of the high rate of blood supply, do not separate, the cells will be divided in the inner cavity of the ryutor, then they will undergo secondary division. In the annular cavity 3. The selection of the densest cells is made when the annular cavity 3, and hence the axial channels 14, are filled with blood components. In this case, the components output from the rotor, in contact with the stationary disk li and the sleeve 12, are pushed back into the central part of the sampling device and out of the rotor through the nozzle. Thus, sequential selection of blood cells is carried out in accordance with their specific weight: from the heaviest to the lightest. The proposed rotor design allows the fractionation of blood to be performed at a high frequency of rotation of the rotor at a high feed rate to the rotor. As is known, the centrifugal force, to which the blood cells are subjected, is directly proportional to the distance of the cell layer to the axis of rotation. In this rotor design, the main part of the fractionated blood is collected in the inner cavity of the insert, which has a small radius of rotation. Consequently, the main part of blood cells at a high frequency of rotation of the rotor will not be subjected to the destructive action of the centrifugal field, and when cells are removed from the rotor, due to the small volume of the Annular cavity, their time in it is small and the cells will not have time to destroy. An invention of a rotor for blood fractionation, comprising a housing with a roof, an insert inserted inside it to form an annular cavity between them, a blood injection tube, a pressure disc for withdrawing separated fractions, so that increase the productivity of the process of fractionation and preservation of the biological activity of blood cells; the insert is attached to the hull of the hull and installed to form an annular gap between it and the lid to evenly separate the separated fractions, and inside it ene cavity frustoconical facing othsshtm big base downwards, inside which the upper part razmescheia dispensing sleeve with a reflector for supplying blood to steiku cavity. Sources of information taken into account in the examination: 1. USSR Author's Certificate No. 554889, cl. B 04 B 5/00, 1975. but