SU830182A1 - Pneumomicropipette - Google Patents

Description

I

The invention relates to accurate analytical instruments and can be used in scientific research in biology, biochemistry, physical chemistry, virology, medicine, and other areas that require accurate dosing of liquids.

A pneumatic micropipette is known, comprising an overpressure setting unit and a vacuumometric setting unit, connected by a flexible tube with tip ij.

The disadvantage of this micropipette is its low dosing accuracy, since the height of the liquid level in the tip channel and the sample size depend on the initial experimental condition, i.e. from the depth of the tip in the liquid.

The purpose of the invention is to increase the accuracy of dosing of the micropipette by eliminating the dependence of the sample size on the depth

immersing the tip in the liquid and improving its ergonomic performance.

Claims (2)

This goal is achieved by the fact that the pneumatic micropipette additionally contains a nozzle installed in the upper part of the tip, a repeater amplifier, the input of which is connected to the nozzle through a flexible tube, a choke connected by its input to the amplifier power channel, and an output to the amplifier input, impulse and a normally closed valve, the inlet of which is connected to the outlet of the assembly of the overpressure assembly, an outlet to the outlet of the vacuum pressure control assembly, and the control chamber of the normally closed valve is connected to the outlet m impulsatora having an input connected to the output of the repeater amplifier and to the control input nodes specifying pressure and vacuum pressure. The drawing shows a diagram of the pneumatic micropipette. An airfoil consists of an overpressure setting 1, a vacuum pressure sensor 2, a first flexible tube 3, which connects a vacuum pressure pressure node 2 with a tip 4 (can be multichannel), a normally closed valve 5, a pulsator 6, a follower-amplifier 7, connected to the nozzle 8 via a second flexible tube 9. The feed channel of the repeater amplifier 7 is connected to the input of the repeater amplifier through the choke 10. The pneumatic micropipette works as follows. The nozzle 8 is covered with a finger, while the pressure P between the throttle chamber rises to the pressure Pf, the supply. The repeater repeater-amplifier 7 (p P) is switched, and at the output of the pulser 6 during the time At appears the signal Р Р Р РР. Under the action of P, the corresponding switchings of the units for setting excess 1 and vacuum 2 pressure and the normal of the closed valve 5, as well as blowing a portion of air from the node 1 for setting the excessive pressure through the normally closed valve 5 and tip 4 to the atmosphere, occur. After the time d-b expires, the pulser 6 (P-j O) switches back, the normally closed valve 5 returns to its original normally closed state. Dip the tip end into the liquid. Since the channel of the tip 4 and the first connecting tube 3 at the same time represent a closed container, on one side closed by liquid, and on the other side - normally closed valve 5 and the outlet valve of the unit 2, which specifies vacuum pressure, the air condition in these channels is strictly subordinate e with the Kpiperon-Mendeleev gas state equation. As the tip tip becomes lazy, the pressure in the tip channel changes (increases) in accordance with the indicated law. The finger is removed from the nozzle opening 8. At this time, P O PJ, OH P O O i.e. The normally-closed state of the valve 5-24 does not change, but due to the switching of the node 2 of the vacuum pressure setting, the channel of the tip 4 is connected to the capacitance of the node closed at the other end 2. The change in pressure in the combined vessel again occurs in accordance with the gas state equation, i.e. the vacuum pressure decreases by an amount proportional to the initial decrease in the volume of the nozzle channel caused by the penetration into the nozzle channel of a certain volume of liquid. Due to this pattern, the Pneumatic micropipette collects a certain volume of the sample, regardless of the depth of the tip in the liquid. : Claims of the Invention A pneumatic micro pipette comprising an overpressure setting unit and a vacuum pressure setting unit connected by a flexible tube with a tip, characterized in that, in order to improve metering accuracy, by eliminating the dependence of the sample size on the tip’s immersion depth in a liquid and improving it ergonomic indicators, it additionally contains a nozzle installed in the upper part of the tip, a repeater amplifier, the input of which is connected via a flexible tube to the nozzle, the throttle connected with its input to the power supply channel of the amplifier, and the output to the amplifier input, the pulsator and the normally closed valve, whose inlet is connected to the output of the overpressure task assembly, the output to the outlet of the vacuum pressure transmitter, and The normally closed valve chamber is connected to the output of the pulsator, the input of which is connected to the output of the repeater amplifier and to the control inputs of the nodes specifying excess and vacuum pressure. Sources of information taken into account during the examination 1. USSR author's certificate dated to application No. 2663537, cl. G 01 N 1/14, B 01 L 3/02, 1978.