SU1344362A1 - Apparatus for dialysis - Google Patents

Abstract

The invention relates to the field of medicine and can be used to clean biological fluids from toxic impurities. The purpose of the invention is to increase the performance of the device. The upper part of the housing 1 is connected by means of nozzles 3 and 4 to a source of biological fluid. The lower part of the housing 1, the cylinders 7 and 8, the tanks 13 and 14 are filled with dialysis solution, which, during the dialysis cycle, circulates along the membrane 2, making oscillatory movements. Due to the pulsed effect of the pulsating flow on the membrane layer, the conditions for dialysis are improved. 1 hp f-ly, I ill. ff / / p / LLJ .. and / L w & ShSht ff 4. (L CA: 4 4 CO O5 N5

Description

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The invention relates to medical technology, in particular, to devices for the purification of biological fluids from toxic impurities, such as blood from hemodialysis, and can also be used in other areas of technology, such as chemical technology.

The purpose of the invention is to increase the productivity of the device and reduce the consumption of dialysis fluid by providing oscillatory movement of the dialysis fluid along the membrane.

The drawing shows a schematic diagram of a dialysis device.

The device comprises a housing 1 with a horizontal semipermeable membrane 2, inlet nozzles 3 and a withdrawal. Yes 4 biological fluids, for example blood, on one side of membrane 2 and inlet nozzles 5 and outlet 6 of a dialysing solution on the other side of membrane 2, the same cylinders 7 and 8 for the original dialyzing solution and the treated dialysis solution. The cylinders 7 and 8 each have the same piston 10 located on the common rod 9. The pipes connect one side of the cylinder 7 for the original dialyzing solution, having a nozzle 11, with an input nozzle 5 and the opposite side of another cylinder B, having a nozzle 12, The outlet pipe 6. In this case, the device is additionally equipped with containers for the initial dialysis solution J3 and for the treated dialysis solution 14, connected by pipelines with the sides of the cylinders 7 and 8, respectively, opposite to the horon m connected to the housing 1 and having a pipe The pipe connecting the pipes 5 and 1J can be additionally connected through a three-way valve 21 to the container for the original dialyzing solution 13, which allows the device to be fed with the original dialysis solution while simultaneously discharging an equal volume spent dialysis solution from the tank 14.

The dialysis device operates as follows.

The upper part of the housing 1 is connected by means of nozzles 3 and 4 to a source of biological fluid, for example a patient. The lower part of the housing 1, the cylinders 7 and 8, the containers 13 and 14 are filled with dialysis plant. a thief who circulates along the membrane 2 during dialysis while performing oscillatory movements.

The circulation of the dialysis solution is carried out as follows.

From the initial position, the rod 9 with 25 using the handle 20 moves towards the nozzle 12, while the piston 10 in the cylinder 8 contacts the restriction plate 19 and does not contact the plate 18, the holes 17 are not blocked, in this phase the piston 10 in the cylinder 7, on the contrary, is in contact with the plate 18 and is not in contact with the restriction plate 19, and the holes 17 in the piston 10 are blocked. The dialysis fluid is moved toward the cylinder 7 due to the suction force generated by the piston 10 therein. The piston 10 in the cylinder 8 is moved to the distance 2, after which the rod is moved in the opposite direction to the distance Ij, corresponding to the movement of the piston 10 in the cylinder 8 and greater than 1, With 30

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ki 15 and 16 respectively. The pistons 10, 45 versts 17 of the pistons 10 in the cylinder 8 are loose on the rod 9 and have through holes 17, plates 18 are fixed at the ends of the rod 9, which intersect with the plate 18, and the holes 17 of the piston 10 in the cylinder 7 do not intersect with the plate 18, Due to this, the Dialysis Solution overlapsing the openings 17, the ac of the other CTO-QQ is escaped from the container 13 through the housing 1 of the rock of the pistons 10 are fixed limited in the direction of the cylinder 8, and the spent Dialysis Solution from the cylinder 8 enters the container 14. Due to what zi l stock 9 rod endings 9. Cylinders 7 and 8 are extended to the far right,

in which the plate 19 in the cylinder 8 is limited, with the wall having a pipe 16, and the plate 18 in the cylinder 7 does not reach

The body plates 19 arranged so that the plates 18 do not reach the walls of the cylinders 7 and 8 are at extreme distances from one another, and the handle 20 is located on the rod 9 between the cylinders 7 and 8, which is necessary to set the rod 9 in motion .

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The pipe connecting the nozzles 5 and 1J can be additionally connected through a three-way valve 21 to the container for the initial dialysis solution 13, which allows the device to be fed with the original dialysis solution while simultaneously discharging an equal volume of the used dialysis solution from the tank 14.

The dialysis device operates as follows.

The upper part of the housing 1 is connected by means of nozzles 3 and 4 to a source of biological fluid, for example a patient. The lower part of the housing 1, the cylinders 7 and 8, the containers 13 and 14 are filled with dialysis plant. a thief who circulates along the membrane 2 during dialysis while performing oscillatory movements.

The circulation of the dialysis solution is carried out as follows.

From the initial position, the rod 9 with 5 using the handle 20 moves toward the nozzle 12, while the piston 10 in the cylinder 8 contacts the restriction plate 19 and does not contact the plate 18, the holes 17 are not blocked, in this phase the piston 10 in the cylinder 7, on the contrary, is in contact with the plate 18 and is not in contact with the restriction plate 19, and the holes 17 in the piston 10 are blocked. The dialysis fluid is moved toward the cylinder 7 due to the suction force generated by the piston 10 therein. The piston 10 in the cylinder 8 is moved to the distance 2, after which the rod is moved in the opposite direction to the distance Ij, corresponding to the movement of the piston 10 in the cylinder 8 and greater than 1, at that

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Versions 17 of the piston 10 in the cylinder 8 are not displaced by the plate 18, and the openings 17 of the piston 10 in the cylinder 7 are not interfered with by the plate 18. Due to this,

its walls have a pipe 11. Then the process without stopping the rod 9 is repeated in the opposite direction, and in no phase of operation of the device do the pipes 11 and 12 interfere with the plates 18, and the pipes 15 and J6 do not overlap the pistons 10.

During this operation, the dialyzing solution oscillates along the membrane while reversing it into housing 1. This improves the dialysis conditions due to the pulse effect of the pulsating flow on the near-membrane layer that determines the mass transfer rate, resulting in an increase in the unit capacity. Due to the long-term circulation of the dialyzing solution, it is possible to achieve a higher final concentration of the removed substance in the dialyzing solution and, thus, reduce its consumption required for the process.

Claims (2)

1. A dialysis device comprising a housing with a horizontal semipermeable membrane, inlet and outlet of biological fluid on one side of the membrane and inlets and outlet of dialysis fluid on the other side of the membrane, the same cylinders for the original and treated dialysis fluid, each of which has one same located on Editor M. Andrushenko Order 4871/6 Tehred, l. Oliynyk Proofreader Circulation 594 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4 0 five common rod, piston, pipelines connecting one side of the cylinder for the original dialysis races; the gun with the inlet nozzle, and the opposite side of the other cylinder with the pat-, -j (y6KOM dialysis fluid output, characterized in that increasing productivity and reducing dialysis fluid consumption by providing oscillatory movement of the dialysis fluid along the membrane; the device is additionally equipped with tanks for the initial and treated dialysis fluid, connected by pipelines with the sides of the cylinders for the original and treated solutions, respectively, opposite sides connected by the d housing, the pistons on the rod are movably mounted and have through holes, plates are attached to the ends of the rod, ensuring the overlap of the holes, and on the other sides of the pistons there are fixed limiting plates that the plates at the ends of the rod in its extreme positions do not reach the walls of the cylinders, the cylinders being located one distance from the other, but on the rod between the cylinder The handle is located. 2. A device according to claim, characterized in that the pipeline connecting the cylinder for the initial dialysis fluid to the housing is additionally connected, via a three-way valve, to the container for the initial dialysis fluid. 0 five 0 Compiled by O. Kabanov Tehred, l. Oliynyk Proofreader M. Demchik