RU52484U1 - CHROMATOGRAPH - Google Patents

Abstract

The utility model relates to the improvement of gas chromatographs, the analytical modules of which are equipped with strippers for introducing samples into the chromatographic column. The technical result (task) of the utility model is the elimination of interruption of the carrier gas stream during preparation of the stripper nozzle for the introduction of the sample into the chromatographic column and the associated failure of the detection system as a result of overheating of its sensitive elements. The chromatograph contains a carrier gas supply line 1, 2, 3 with flow regulators, an analytical module 4. Inside the analytical module 4 there is an evaporator 5, a detector 6. The analytical module 4 has fittings 7, 8 for connecting a nozzle column 9. On the evaporator 5 is installed stripper 10. The analytical module 4 is equipped with a two-way valve 11 connected to the carrier gas supply line 3 and column 9.

Description

The utility model relates to the improvement of gas chromatographs, the analytical modules of which are equipped with strippers for introducing samples into the chromatographic column.

An analogue of the utility model is a gas chromatograph, for example, Crystallux-2000 and Crystallux-4000, which consists of a main unit and an analytical module. The main unit contains a nozzle column, a gas flow formation unit, consisting of carrier gas supply lines equipped with electronic flow controllers, detector amplifiers and control electronics. Analytical modules contain evaporators and various multi-detector systems, as well as a stripper mounted on the evaporator (brochure attached).

However, this chromatograph has disadvantages. When preparing the desober nozzle for introducing another sample into the chromatographic column, the gas flow in the detection system is interrupted. This leads to the failure of the detecting system as a result of overheating of its sensitive elements.

The prototype of the utility model is the Crystallux 4000 M gas chromatograph, schematically shown in Fig. 1. The specified chromatograph contains: carrier gas supply lines 1, 2, equipped with flow regulators regulating the carrier gas supply, an analytical module 3, inside of which there is an evaporator 4 and a thermal conductivity detector (DTP) 5. The analytical module has fittings 6, 7 for

connecting the nozzle column 8. A stripper 9 is installed on the evaporator 4 (operation manual MKUB.415338.001 RE, Yoshkar-Ola, 2002, p. 18-28).

However, this chromatograph has disadvantages. When preparing the desober nozzle for introducing another sample into the chromatographic column, the gas flow in the detection system is interrupted. This leads to the failure of the detecting system as a result of overheating of its sensitive elements.

The technical result (task) of the utility model is the elimination of interruption of the carrier gas flow during preparation of the stripper nozzle for the introduction of the sample into the chromatographic column and the associated failure of the detection system as a result of overheating of its sensitive elements.

The technical result is achieved by the fact that in a chromatograph comprising an analytical module containing an evaporator and a detector. nozzle column, carrier gas supply lines equipped with flow controllers, an analysis results recording unit connected to the detector, a stripper mounted on the evaporator, according to the claimed utility model, the analytical module is equipped with a two-way valve. connected to the evaporator and an additional carrier gas supply line.

Fig. 2 schematically shows the claimed chromatograph, containing: carrier gas supply lines 1, 2 and an additional highway 3, equipped with flow regulators that regulate the supply of carrier gas to the analytical module 4. Inside the analytical module 4

the evaporator 5 is located, the detector 6, for example, a thermal conductivity detector (DTP). The analysis module has fittings 7, 8 for connecting a nozzle column 9. A stripper 10 is installed on the evaporator 5. The analysis module 4 is equipped with a two-way valve 11 connected to the carrier gas supply line 3 and column 9. Channel 12 connects the evaporator 5 with a two-way valve eleven.

The chromatograph operates as follows. The carrier gas from the supply gas carrier 1, 3 with a constant flow rate enters the analytical module 4, and from the highway 2 to the nozzle of the stripper 10.

The two-way valve 11 has two handle positions: “Operation” and “Sampling”.

When the handle of the valve 11 "Work" is positioned, the stripper nozzle is being prepared to enter the sample into the chromatographic column 9, while the valve opens the carrier gas passage from line 3 through the nozzle 7 and shuts off the carrier gas supply from channel 12 (i.e., from stripper 10);

With the position of the handle of the valve 11 "Sampling", the sample is introduced into the chromatographic column 9, while the valve 11 opens the gas passage from the channel 12 through the nozzle 7 and blocks the flow of carrier gas from the line 3.

In the absence of a two-way valve 11, during the preparation of the next sample for introduction into the chromatographic column 9 using the stripper 10, the carrier gas supply from the line 2 was interrupted, since it was necessary to disassemble the stripper 10 to change the nozzle with the sample, which led to air entering the chamber accident detector 6 and, as a result, to overheating, and subsequently to burnout of the spiral. To exclude overheating of the specified

spiral and its failure during the preparation of the next sample, usually turn off the chromatograph, which leads to a loss of time associated with the output of the chromatograph to a stationary mode.

The chromatograph device according to the proposed utility model makes it possible to exclude interruption of the carrier gas flow during preparation of the stripper nozzle for the introduction of the sample into the chromatographic column and the associated failure of the detection system as a result of overheating of its sensitive elements.

Claims (1)

A chromatograph comprising an analytical module comprising an evaporator and a detector, a nozzle column, carrier gas supply lines equipped with flow controllers, an analysis results recording unit connected to the detector, a stripper mounted on the evaporator, characterized in that the analytical module is equipped with a two-way valve connected with evaporator and additional line.