CS233727B2 - Device for programming of liquid mixture for liquid chromatography - Google Patents

Abstract

A liquid composition programming device, especially for liquid chromatography, comprising a mixing chamber and electromagnetic valves connected with liquid tanks, wherein in the mixer (1) in the immediate vicinity of liquid inlets (3) to the mixing chamber (2), seats (9) of at least two electromagnetic valves (10) are fixedly mounted, the closing members (11) of which have at their end portions the form of an inverted frustum of a cone, with the wider portion of the cone situated between the wall of the chamber (2) and the seat (9) of the electromagnetic valve (10). The mixer (1) has the form of a cylinder, and the liquid inlets (3) to the mixing chamber (2) are disposed on the periphery thereof. Liquid is fed via (5) to a chromatographic column, not shown; (6) is a rotary stirrer. <IMAGE>

Description

The invention relates to a device for programming a liquid mixture, in particular for liquid chromatography.

The fluid composition programming system of U.S. Patent No. 4,004,884 is provided with a connector that is connected via n electronically operated two-way solenoid valves to various liquid tanks connected to a common source of pressurized gas · Only one two-way valve opens during fluid composition programming at a given time for a time that is proportional to the amount of liquid fed into the mixing chamber.

A disadvantage of the described system is the presence of all n fluids in the mixing chamber where the individual fluid streams are combined in a single stream; this causes unavoidable contamination of the fluids fed according to the program under these circumstances with liquids that must not be involved in the chromatographic process. Chromatography may cause inactivation of the column or the formation of additional vertices on the sorptogram and baseline shift.

A further disadvantage of said system is that the individual liquids in the tanks are saturated with pressurized gas. Since relatively high pressures of the order of 5 to 50 MPa are used in the chromatography, the liquid in the tank is saturated with gas within a few minutes. The gas dissolved in the liquid causes disadvantageous fluctuations in its properties and prevents operation of the chromatograph due to the release of gases from the liquid during flow through the detector. In addition, the mixing chamber used in this system does not mix the components, so that the spectrum of the liquid mixture to be programmed differs from the desired spectrum at individual moments. In addition, the location of two-way valves and liquid tanks in the pressure part of the system requires these components to withstand high pressures.

The known liquid mixture programming device consists of a three-way valve which is connected on one side to three liquid tanks and on the other side via a mixer with the suction side of the piston pump.

The mixer has a Danger Area of 1.9 ml. The outlet end of each line that supplies fluid to the valve is provided with a diaphragm actuated by an electromagnetic coil. At the point of connection of all three pipes, each containing a different liquid, all liquids are present at any one time, regardless of how much liquid is programmed.

A considerable disadvantage of the above system is the constant contact of the currently programmed liquids contained in the tanks connected to the valve. This results in the programmed liquids being contaminated with other liquids, which can lead to deactivation of the chromatographic column, baseline fluctuations and other disturbances. Another disadvantage is the large harmful space of the device due to the connection of the valve, mixer and pump.

The present invention eliminates the disadvantages of the prior art devices and provides an apparatus for programming a mixture of liquids, in particular for liquid chromatography, which consists of a mixing chamber with solenoid valves connected to liquid tanks. SUMMARY OF THE INVENTION In the mixer, the seats of at least two solenoid valves are fixedly fixed in the mixing chamber wall, the closing parts of which are in the form of inverted truncated cones, the wider truncation of which together with the front face of the seat form part of the mixing chamber wall.

According to another feature of the invention, the mixer has a cylindrical shape. According to a preferred embodiment of the invention, the electromagnetic valves are two-way.

An advantage of the device according to the invention is that the mixing of liquids, which in this case are not intended to form a programmed mixture of liquids from n components, is eliminated up to now. Concentrations of individual components over time are optional. In addition, the liquid tanks, solenoid valves and mixer can be located on both the discharge and suction side of the pump.

. 3 · 233727

When the device is located on the pump discharge wall, the liquid tanks are in the form of a helical piping. The formation of a mixer and a mixing chamber in the shape of a cylinder allows the maximum filling of the mixing chamber with ballhndl, thus reducing the harmful space of the mixing chamber as much as possible. As a result, it can be programmed. exactly the composition of the moving phase even without. mixing at least 10 to 90% of the capeains flowing through the final chamber, as long as there is a moonoot fit, the capacity of the mixing chamber to the amount supplied by the pump, and the basic programming time of the liquid mixture fed to the column.

The invention will be explained in connection with the exemplary embodiment shown in the drawing, where FIG. 2 shows a block diagram of a liquid chromatograph with a programming device according to the invention.

As shown in FIG. 1, the programming device is provided with a baffle 8 having a cylindrical shape and having a aiming chamber 2 at the periphery thereof. fluid inlets J are provided. The mixing chamber 2 is limited from above by a piston 6, in which a dispensing channel 6 is arranged in the axis of the symmetrical axis. The mixing chamber accommodates a mechanical ram 6 in the form of a cylinder whose drive shaft X passes through a gland 8. The diameter of the mechanical stirrer 6 is smaller. about 1 mm than the diameter of the aiming chamber. For each fluid supply, the seat% of the 2-way solenoid valve 10 is stored. the part j £ of the electromagnetic venel £ 0. it has in the upper part the shape of an inverted truncated cone, whose larger base lies above the seat 9 of the solenoid valve 10. Closing part 1. 1 is immovable only with the magnet 1 2, which is slidably mounted in the housing at the solenoid valve 1 0. In the inner wall of the housing 1. 3, there is provided a supply channel 14 connected by a pipe 44 to a liquid tank 16. The electric coil is not displaced on the body. 17. The packing 18 and the sealing ring 19 form a packing 8. The seat 10 of the electromagnetic valve 10 is sealed between the housing. 13 of the solenoid valve 40. and a snowdriver 1 after peeing TefOon pads 20 ’

According to FIG. 2, the mixer 8 is connected to a font pump 21. and through the electric coil £ 7. not mounted on the body 13 of the electromagnetic vernuu 10 with the electronic. The piston pump 21 pushes the liquid mixture through the feeder 23 and the chromatographic column ¹ . «>

to detector 22 »which is connected to recorder 26’

The described device works in such a way that:. se. The electric coils 17 of the solenoid valves 40 are connected to the electronic control unit 22 and the function of the solenoid valves 10 is programmed to open alternately. The piston pump 21 sucks from the tank 56. the liquid through the solenoid valve 60 which is just opened, that through the inlet 6 the liquid flows into the mixing chamber 21 and therein, the liquid mixture already present in the mixing chamber 2 and flowing there according to the program is fed there. M ^ Ožlv! fluid flowing! the open electromagnetic valve 10 is proportional to its opening time.

After forming a mixture of individual compositions having a predetermined composition, the mixture is passed through a sand pump 21 and a feeder 23 to the chromagraph column 24. After passing through the astonishing column, the mixture enters the detector 21 and from there to the waste. .

Eiekarický.signál from the detector 25 is recorded in the recorder 26 ^е number of solenoid valves, which is provided with a mixer £ determines the number of components of the liquid programmed Smee.

Claims (3)

SUBJECT OF THE INVENTION 1. Liquid programming devices,. after names for liquid chromatography, consisting of a mixing chamber with electromagnetic valves connected to the liquid tanks, characterized in that in the mixing (i) the walls of the mixing chamber (2) are mounted at least with seats (9) at least two solenoid valves. (10) the closing parts (i) of which are in the form of inverted truncated cones, the wider base of which, together with the front face of the seat (9), forms a part of the mixing chamber wall (2) in the closed position. Device according to claim 1, characterized in that the mixer (1) has the shape of a cylinder. Device according to claim 1, characterized in that the solenoid valves (10) are two-way.