SU1183119A2 - Apparatus for preparing dialysis solution - Google Patents

Abstract

DEVICE FOR PREPARATION OF DIALYING SOLUTION according to ed. St. No. 1003848, characterized by that. -2} that, in order to increase the stability of the ionic composition of blood plasma by improving the mixing of the components of the dialysis fluid, it is equipped with a check valve and throttle, while the mixing tank is sealed and equipped with a flow divider and heater installed in the lower part of this tank, the volume of which it is from 5 to 15 volumes of the dosing tank, with a dialysing solution dosing unit, the inlet of which is connected to the outlet of the check valve, the inlet of the latter is connected to the side wall mixing tank and the outputs of the throttles and switches of the component dispensers are connected to the bottom of the mixing tank. (O 00 with co

Description

The invention relates to a medical technique, namely, a hemodialysis apparatus, which is used in medicine for the treatment of patients with renal insufficiency.

The purpose of the invention is to increase the stability of the ionic composition of the blood plasma by improving the mixing of the components of the dialysate solution in the mixing tank.

The drawing shows a diagram of a device for the preparation of dialysis solution.

The device contains tanks 1 and 2 for storing dialysis solution, tank 3 for mixing the components, dispensers 4 and 5 components, dispenser 6 for dialysis fluid of its solution, vacuum pump 7, additional switchboard made up of bypass valves 8 and 9, pipelines 10-24.

Dispensers 4 and 5 contain a switch in the form of bypass valves 25-28 and dispensing tanks 29 and 30 with membranes 31 and 32 dividing the tanks 29 and 30 into insulated cavities 33-36.

The dispenser 6 contains a switch in the form of bypass valves 37-40 and a dosing tank 41 with a membrane 42 dividing the tank 41 into isolated cavities 43 and 44.

The device is equipped with a check valve 45 and throttle 46.

The tank 3 is sealed and provided with a divider 47 and a heater 48 installed in the lower part of this tank.

The volume of the mixing tank 3 is from 5 to 15 volumes of the tank 41 of the dispenser 6.

The tanks 1 and 2 for storing the components are connected by pipelines 10 and 11 to the inlet of the commutators of the dispensers 4 and 5 (to the inlet of the relief valves 25 and 26).

The inlet valve 9 of the additional switch is connected by a pipe 12 to the water supply network, and the outlet of these valves by pipes 13 and 14 is connected to the cavities 35 and 36 of the dosing tanks 29 and 30 of the dispensers 4 and 5 with the pipe 15 to the inlet of drossels 46.

The output of the switches of each metering device 4 and 5 is connected by pipes 16 and 17c to the lower part of the mixing vessel 3. With the same part of the tank 3 pipe 18 is connected to the output of the throttle 46.

The upper part of the tank 3 is connected by a pipe 19 of an overflow valve 8 of an additional switch and a pipe 20 to the inlet of a vacuum pump 7, the outlet of which is connected by a pipe 21 to a sewer drain.

The side wall 49 of the tank 3 is connected by pipe 22 to the inlet of the check valve 45 below the level of localization of air inclusions, the outlet of the valve 45 by pipe 23 is connected to the switch inlet of the dialysis pump 6 (with the bypass valves 37 and 39). 5 The output of the metering switch 6 (the output of the bypass valves 38 and 40) is connected by a pipe 24 with a consumer of the dialyzing solution.

The device works as follows. In the initial state of the device, the membranes 31 and 32 of the dispensers 4 and 5 of the components and the membrane 42 of the dispenser 6 of the dialysis fluid are in an uncertain position, the cavities of all the tanks are filled with air.

The initial operating position of the device is brought about by periodically repeating the cycle of operation until the first two doses of dialysis fluid are obtained from line 24, and all the cavities of the sealed tanks and pipes are filled with liquid.

In the initial operating state of the membrane device 31 and 32 of the dosing reservoirs 30 of the dispensers 4 and 5 components and the membrane 42 of the reservoir of the dialysis dispenser 6 are in the leftmost position, the cavity 44 of the dispenser 6 is filled with the prepared dialysis solution, and the cavities 35 and 36 of the dispensers 4 and 5 components - water.

At the beginning of the operation cycle, the components are dispensed and the dialysing solution is deaerated, and the vacuum pump 7, valves 8 (additional switch) and 26 (switch components 4 and 5 components) are activated. The vacuum of the vacuum pump 7 through pipelines 19 and 20 and the valve 8 dialysate the solution in a tank 3 for mixing, and through the choke 46 through pipelines 13, 14, 15 and 18 water moves from the cavities 35 and 36 of the dispensers 4 and 5 to tank 3. When In this way, the membranes 31 are moved to the extreme right position, and the components of the dialysis solution from tanks 1 and 2 flow through valves 25 and 26 of dispensers 4 and 5 through pipelines 10 and 11 into cavities 33 and 34 of these dispensers, then all of the listed valves are closed and the vacuum is turned off pump 7. dosage the components and the deaeration of the prepared solution thus end. The check valve 45 is closed and prevents movement of the membrane 42 of the dispenser 6 in the event of leakage of the previously prepared solution filling the dispenser 6 through the valves 37-40 and the ingress of air from the pipeline 24 into its cavities 43 and 44.

The first stage of mixing the solution

5 begins by opening the valves 37 and 40 of the dialysis fluid dispenser 6, the valves 27 and 28 of the dispensers 4 and 5 of the components and the valve 9 of the additional switch. wherein the water under pressure of the water supply network through the pipe 12, the valve 9 and the pipes 13-15 enters the cavities 35 and 36 of the dispensers 4 and 5 of the components and through the throttle 46 and the pipe 18 to the mixing tank 3. The membranes 31 and 32 of the dispensers 4 are moved to the extreme left position and push the dialysis solution components through the valves 27 and 28 and the pipes 16 and 17 into the mixing tank 3, while the flow of water and components is distributed by the divider 47, and subjected to heating by the heater 48, the components are mixed with water by thermal and baroconvection. Due to the pressure drop across the choke 46, the dosing of the components ends earlier than the dosing of water, which ensures a constant ratio of the volumes of the doses of the components to the volume of the dose of the dialysis fluid dispenser. This ends the first stage of mixing the dialysate. The volume of water and components of the dialysate solution that entered the mixing tank 3 mixes the previously prepared solution through the check valve 45 through pipelines 22 and 23 through the valve 37 into the cavity 43 of the dialysis unit 6 dispenser, mixing the membrane 42 to the extreme right position and the prepared solution from the cavity 44 through the valve 40 of the dispenser 6 and the pipe 24 is supplied to the consumer, the dispensing of the dialysis solution is completed, after which all of the valves listed above are closed. While mixing the dialysing solution through valves 37 and 40 and the tank 41 of the dispenser 6, the second stage of mixing this solution is carried out by convective redistribution of the flows at the inlet and outlet of the dispenser 6 cavities. Then the components are dispensed and the solution is deaerated. The first step is to mix the dialysing solution in the tank 3. At the same time, the valves 38 and 39 of the dispenser 6, the valves 27 and 29 of the dispensers of the 4 and 5 components and the valve 9 are opened a switch, and the membrane 42 is in the rightmost position. The volume of water and components of the dialysis solution that entered the mixing tank 3 transfers the previously prepared solution through the check valve 45 through pipelines 22 and 23, through the valve 39 to the cavity 44 of the dialysate 6 dispenser and moving the membrane 42 to the extreme left position, delivers the prepared solution from the cavity 43 through the valve 38 of the metering device b and the pipe 24 to the consumer, which ends the cycle of operation of the device, which returns to the initial operating position. The proposed device operation cycle periodically repeats.

Claims (1)

DEVICE FOR PREPARATION OF DIALYSIS SOLUTION according to ed. St. No. 1003848, characterized in that the wall of the tank for mixing, and the outputs of the throttle and the switches of the dispenser components are connected to the bottom of the tank for mixing. about SU,.,. 1183119