SU1082492A1 - Centrifuge for separating blood - Google Patents

Abstract

CENTRIFUGE FOR BLOOD SEPARATION, containing a cylindrical body with a lid, mounted inside the body a cylindrical insert forming with the latter a working chamber extended in the upper part and having openings for blood supply in the bottom part, and a device for supplying blood and draining the separated fractions, that, in order to improve the quality of blood separation, the insert is provided with an annular protrusion located above the apertures for blood supply with a gap relative to the inner wall of the body. The blood in the bottom part of the chamber of the cumulative cavity, while on the inner surface of the outer wall of the chamber above the ring O) the protrusion is made evenly around the circumference of the longitudinal ribs to prevent mixing of the separated blood fractions.

Description

The invention relates to a medical technique, in, D in particular, to devices for the continuous separation of a crystal into separate fractions, and can be used in medical practice. A device for dividing blood, containing a rotor made in the form of a conical body with a removable bottom, and an insert interposed between them, resting on the ridges made at the bottom of the rotor, a tube is passed through a hole in the center of the insert. blood. The cavity formed by the housing and the insert is in communication with the nozzle of the light fraction. Inside the casing in the lower part of the body there are tide inserts tightly adjacent to the surface, designed to seal the insert L1 3. The disadvantages of the known device are the impossibility of carrying out a non-rigorous process of blood release, inserting a complex concave shape, which leads to a change in the flow velocity in the separation zone and this causes trauma to the blood cells. A device for blood separation is known, comprising a housing with a removable lid with channels arranged therein for withdrawing fractions and a concentric cylindrical insert mounted in the housing connected to the lid. In the krgak and inset, a through axial channel is provided for uninterrupted blood supply to the narrow separation cavity between the body and the insert of a constant cross section. Prior art L23. A disadvantage of the known devices is the blood slipping during centrifugation relative to the housing wall, which reduces the separation efficiency, which is explained by the inertia of the blood supplied to the mouth. A device for blood separation is known, comprising a cylindrical housing with a lid, a cylindrical inset inside the housing, forming with the latter a working chamber, expanded in the upper part and having openings in the bottom part for blood supply, and a device for TGODV. . A disadvantage of the known device is the low separation efficiency, which is explained by the inertia of the blood supplied to the rotor. The purpose of the invention is to improve the quality, separation of blood. This goal is achieved by the fact that in the center for separating blood containing a cylindrical body with a lid, installed inside the body a cylindrical insert forming with the latter a working chamber extended in the upper part and having openings in the bottom part for blood supply, and the blood supply and removal of the separated fractions, the insert is provided with an annular protrusion located above the apertures for blood supply with a gap relative to the inner wall of the housing, serving to form in the bottom part of the chamber tion cavity to the blood, while the inner surface of the outer wall of the chamber above the annular protrusion formed uniformly circumferentially longitudinal ribs to prevent mixing the separated blood fractions. Fig, 1 shows a centrifuge, section; in fig. 2 shows section A-A in FIG. 1. The centrifuge for blood separation contains a cylindrical body 1 and a crinkle 2, interconnected through the bent edges of the outer 3 and inner 4 walls of the thin-walled working chamber 5. The movable part of the seal is tightly inserted in the center of the cover 6. The working chamber 5 in the upper part is expanded, and in the lower part it has an annular separating cavity 7, which is rigidly bounded by the housing 1 and the insert 8. The upper extended part of the chamber 5 communicates with the movable part of the seal 6 through the radial channels 9, 10 and 11, made in Krischka 2, through which The working chamber 5 is withdrawn separated fractions using a fixed part of the shutter 12 by fittings 13, 14 and 15. On the inner wall of the chamber 5 in its bottom part, tightly adjacent to the insert 8, an annular protrusion 16J located above the holes for blood supply 17 s a gap relative to the inner wall of the chamber 5 adjacent to the housing 1. Above the protrusion 16 on the outer wall of the chamber 5 there are vertical ribs 18 located up to the expanding part of the chamber. In the fixed part of the shutter 12 along the centrifuge axis there is a fitting 19 for blood supply, g Hermetically connected by tubes 20 and 21 to a collector 22. The housing is mounted on the chuck 23 of the drive device 24. The blood separation centrifuge operates as follows. The housing 1 together with the insert 8 and the collar 2. is rotated by the drive 24. Through the fitting 19, the tube 20, the collector 22, the holes 17, blood enters the lower part of the chamber 5, accumulates there and through the gap between the outer wall 3 of the chamber 5 and the distribution protrusion 16 rises evenly along the annular lanes

gz 1

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Fig.1 24 TTGcamera 5 between the projections 16, divided into fractions in accordance with their specific weights. The separation of blood under the action of centrifugal forces in the sections between the protrusions 16 occurs almost independently from one another, without slipping of the liquid relative to the wall, which ensures a high degree of separation. Blood fractions accumulate in the enlarged part of cavity 7, located in annular zones: erythrocytes - along the periphery of the cavity, plasma - towards the center, and between them the leukocyte layer. Separated fractions through channels 9, 10 and 11 are withdrawn by pumps connected by corresponding pipelines with fittings 13, 14 and 15 on the fixed part of the gate 12. The invention provides for the separation of blood into fractions in continuous mode with high fission quality.

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FIG 2

Claims (1)

CENTRIFUGA FOR SEPARATION OF BLOOD, containing a cylindrical body with a cover, a cylindrical insert installed inside the body, forming a working chamber with the latter, expanded in the upper part and having openings for supplying blood in the bottom part, and a device for supplying blood and collecting separated fractions, characterized the fact that, in order to improve the quality of blood separation, the insert is provided with an annular protrusion located above the holes for supplying blood with a gap relative to the inner wall of the body, which serves to form in the bottom of the chamber of the storage cavity for blood, while on the inner surface of the outer wall of the chamber above the annular protrusion longitudinal ribs are made uniformly around the circumference to prevent mixing of the separated blood fractions.