CS268236B1 - The gas detector test equipment is mixed - Google Patents

Abstract

The solution relates to the field of analytical chemistry. Testing equipment for gas mixture detectors It consists of a piston pump, left distributor, mixing T-piece, right distributor, vacuum pump, sample reservoir, mobile phase accumulator and mixing bank.

Description

The invention relates to a test device for gas mixture detectors, provided with a piston pump connected by means of distributors, a mixing part and a flask with a mobile phase accumulator and further provided with a pump with a sample container.

Testing detectors with a known amount of test substance is an important requirement for the successful use of analytical instruments. In one case, the reaction is carried out by adding a known amount of the test substance to the stream of the test component in a carrier medium, gas or liquid, which is then transferred to the detector under test. Above all, it is necessary to monitor the dynamic dependence of the response of the detectors on the changing gas concentration. Exponential dilution is most commonly used. The device consists of a closed vessel of known volume through which a certain volume flow of the carrier medium flows. Prior to testing, a known amount of test substance is metered into the vessel, and the resulting mixture is stirred vigorously. Furthermore, devices are known for mixing two or more types of gases without the need for a mechanical stirrer. In this case, automatic gas mixing is used due to the high mobility of the gas molecules at normal elevated temperatures.

The disadvantage of the known devices is that due to the real capacity of the leads to the detector, the composition of the test mixture is not precisely defined at the outlet of the existing dosing device at the moment of starting the delivery of the carrier, washing medium. Another disadvantage of this arrangement is that in the preparation of a mixture with very low concentrations of active ingredient, due to leaks at the transitions of the mixture by individual functional parts, the obtained results can be grossly distorted, especially if the monitored ingredient is present in the ambient atmosphere.

These shortcomings are eliminated by a test device for gas mixture detectors, provided with a piston pump connected by means of distributors, a mixing part and a flask with a mobile phase accumulator and further provided with a pump with a sample container, according to the invention. Its essence lies in the fact that the piston pump is connected to the inlet of the left distributor, one outlet of which is connected to the inlet of the mixing T-piece and the second outlet to the inlet of the right distributor, one outlet of which is connected to the pump and the other outlet to the sample container. wherein the second inlet of the mixing T-piece is connected to the mobile phase accumulator and the outlet of the mixing T-piece opens into the inlet of the mixing flask. According to the advantageous. The line is a right-hand manifold, a mixing T-piece with its connecting, outlet and inlet pipes placed in a hermetically sealed cabinet provided with a gas inlet and outlet. Finally, the piston pump and the solution reservoir with the supply tubes can be housed in a hermetically sealed housing.

The higher effect of the test device according to the invention is to achieve a more accurate, approaching concentration of the monitored component at the entrance to the test detector and to reduce the deviation from the ideal course by limiting the diffusion of the monitored component by surrounding important functional elements surrounded by an inert, component-free component. atmosphere.

The test device is described in more detail below, for example, in an embodiment according to the attached drawing, in which a circuit diagram of a test device is indicated.

Test device detectors gaseous mixtures comprises a piston pump which is connected to left rack and a right rack 2 to the right the rack 2 J ^e is connected a vacuum pump 8 and the tray 2 of the sample. An accumulator S and a mixing flask are connected to the left switchboard 2 and a mixing flask which is connected to the tested detector 1, - 11 and an inert gas 12 is removed.

The device according to the invention operates in the following way. Testing was performed using a mixture of oxygen and nitrogen, which were pumped into the sample reservoir 2. The mobile phase battery 6 was filled with pure nitrogen. The output of detector 2 was connected by a short metal capillary to the input of a precision oxygen analyzer. After filling the sample piston pump 7, the device was put into operation, i.e. the sample was injected into the mobile phase, in this case pure nitrogen. After the oxygen analyzer signal stabilized, the oxygen sample supply was stopped

CS 266236 B1 and an exponential elution transition curve of the mixture from the mixing flask was recorded on a recorder not shown connected to an oxygen analyzer. deviations from the theoretical course of less than 1.2 were found with pure nitrogen 1: 1000 to 1: 10,000

Claims (3)

OBJECT OF THE INVENTION A test device for gas mixture detectors, provided with a piston pump connected by means of distributors, a mixing part and a flask with a mobile phase accumulator and further provided with a pump with a sample reservoir, characterized in that the piston pump (1) is connected to the inlet of the left distributor (2) one outlet is connected to the inlet of the mixing T-piece (4) and the other outlet to the inlet of the right distributor (j), one outlet of which is connected to the pump (8) and the other outlet to the sample reservoir (9), the other inlet of the mixing T-piece ( 4) is connected to the mobile phase accumulator (6) and the output of the mixing T-piece (4) opens into the inlet of the mixing flask (5). 2. Test device according to claim 1, characterized in that the left switchboard (2), the right switchboard (3), the mixing T-piece (4), with their connecting, outlet and supply tubes are arranged in a hermetically sealed housing (10) provided with a gas supply (11) and drainage (11). 3. Test device according to items 1 and 2, characterized in that the piston pump (1) and the sample container (°) with the supply tubes are housed in a hermetically sealed housing (12).