SU454753A3 - Pump system - Google Patents

Description

The invention relates to pumping systems with means for providing a continuous, uniform flow of fluid through the pipeline and can be used, in particular, in systems for automatic fluid analysis. Pumping systems are known primarily for liquid samples, containing means for mixing the test liquid with reagents and subsequent supply to the dialyzer and calorimeter, means for supplying reagents from the reservoir through pipelines with high and low resistance sections. The purpose of the invention is to provide a constant flow rate of the fluid. This is achieved in that the means for supplying the reactants are supplied with a high pressure source of gas supplied to the reactant tanks through the pressure regulator. The reagent booster lines contain adjustable, temperature-dependent elements included in the high resistance section of the pipeline. In addition, the temperature-controlled elements are in the form of capillary tubes. The drawing shows the proposed system, where a diagram of an analytical device is presented, which serves to determine the concentration of glucose in each series of blood samples. The sample supply unit 1 contains samples and test tubes 2 and goes into a suction device 3 having a suction tube 4. It is subsequently inserted into the test tubes and connected through the tube 5 to the upper end of the peristaltic-type pump tube 6. A tank of high-pressure gas 7 is connected through pressure regulators 8 and 9 to a pipeline 10, where a constant pressure is maintained. An expanded flask 11 has a short discharge tube that is connected to the pipeline and a long discharge tube that is connected to the inlet of the high resistance coil 12 via the tube 13. The tube 14 connects the pipeline to the high resistance coil 15, and the conductor 16 pipelines with high resistance coil 17. The flask 18 is connected to the high resistance coil 19 by means of the tube 20, and the reagent flask 21 to the high resistance coil 22 by means of the tube 23. The coils are located in the bath 24 at 37 ° C.

High resistance coils provide such a flow rate through them that varies linearly with pressure on the coils. Thus, the total pressure change across all coils will create a stable proportional flow rate change.

The tube 25, 1 is a shower; and from the coil 15, it passes into the tube 26 extending from the coil 12 to provide a gas distribution flow of the diluent. The tube 27. leaving the tube 6 of the pump, is further connected to the tube 26 to add a liquid sample to the diluent segments. The tube 26 goes to the horizontal mixing plate 28. The tube 29 connects the output of the mixing coil to the inlet of the common channel 30 of the dialyzer 31.

The tube 32 extending from the coil 17 is transferred to the tube 33, which extends from the coil 19, in order to provide a gas separation unit for the diluent. The tube 33 leads to the receiving channel 34 of the dialyzer 31 for transferring samples through the dialyzer membrane to the diluent segmeite. The tube 35 extending from the coil 22 is connected to the tube 36, located at the end of the receiving channel 34, to add the reagent to the sample segment containing the thinner.

The tube 25 has an elastic compressible part, which is normally closed by the clamping bar part 37a, and the tube 32 has an elastically compressible part, normally closed by the clamping rod part 376.

The pump periodically releases the clamping rod to allow gas to pass through the pipelines. The length of the pipelines from the stem rod to the dialyzer is chosen so as to ensure the simultaneous supply of the gas segments to the donor and receiving channels. The tube 36 leads to a horizontal coil 38, the output of which is connected to the reactive coil 39 of the heating bath 40.

The output of the reactive coil is connected by tube 41 with the inlet of compartment 42 in the calorimeter 43.,

The flow section contains the upper channel 44, the inlet of which is connected to the tube 41, and the outlet is from the CLEANING WASTE, and the lower side channel 45, having an upper inlet, which is connected to the middle outlet in the channel 44, and the outlet of which is connected to tube 46 pump. The pump tube 46 is located in the pump 47, of the peristaltic type, and moves the flow of the treated sample without gas segments through the side channel and then to the output. The calorimeter 43 includes a light source 48, filters (not shown) and a light detector 49 connected to a recorder 50.

Subject invention

1. The pumping system is primarily for automatic analysis of fluid samples,

including means for mixing the test liquid with reagents and subsequent supply to the dialyzer and calorimeter, means for supplying reagents from the reservoir through pipelines having high

and low resistances, characterized in that, in order to provide a constant flow rate of liquid, the means for supplying the reactants are provided with a source of high pressure gas supplied to tanks with

reagents through the pressure regulator, and reagent supply lines have temperature-controlled elements included in the high resistance section of the pipeline.

2. System no. 1, characterized in that the temperature-controlled elements are in the form of capillary tubes.