JPH0547843U - Mixed gas generator - Google Patents

Abstract

(57) [Summary] [Objective] The consumption of high-purity component gas is small, and it is possible to reproducibly generate a mixed gas of a desired concentration. [Structure] A component gas cylinder 1 and a dilution gas cylinder 2 are connected to a measuring pipe 11 via a switching valve 10. The switching valve 10 is
Component gas and diluent gas inlets 12 and 13, component gas outlet 14, inlet 15 of measuring pipe 11 and outlet 1
6 and a mixed gas outlet 17 are provided, and the outlet 17 is connected to the tank 4 via a mixer 18. By changing the switching cycle time of the switching valve 10 and the volume of the measuring pipe 11, a mixed gas having a wide range of concentrations can be generated.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a mixed gas generator used for calibrating an analytical value in an analyzer such as a gas chromatograph.

[0002]

[Prior Art]

Gas chromatographs and other analyzers used for component analysis of process gases in petrochemical processes and steel processes are calibrated using standard gases whose accurate concentrations are known in advance by chemical analysis. Calibration involves passing several standard gases with different concentrations of measured components through an analyzer to find the relationship between concentration and scale. Normally, a pure gas close to 100% of the measured components is diluted appropriately with a diluting gas. (Several ppm to several%) and a mixed gas adjusted to a desired concentration is used as a standard gas. As a method for preparing the mixed gas, there are a method using a pressure ratio and a method using a flow rate ratio. FIG. 2 shows a preparation method based on a pressure ratio. 1 is a component gas cylinder, 2 is a dilution gas cylinder, 3 is a vacuum pump, 4 is a tank for containing a mixed gas, 5a to 5d are valves, and 6 is a pressure gauge. For example, when a component gas (eg CO) and a diluent gas (eg N ₂ ) are mixed at a pressure ratio of 1: 1 to prepare a mixed gas having a concentration of 50%, the tank 4 is temporarily vacuum pumped 3 a vacuum (-760 mmHg) by putting component gas to a pressure of 0 Kg / cm ^2, then may be added to the diluent gas from 0mmHg to a pressure of 1Kg / cm ^2. FIG. 3 shows a preparation method based on the flow rate ratio, in which the flow rate ratio between the component gas and the dilution gas is adjusted to 1: 1 by the flow meters 7A and 7B to obtain a mixed gas with a concentration of 50%.

[0003]

[Problems to be solved by the device]

 However, the above-mentioned preparation method using the pressure ratio is not common because there are legal restrictions on the handling of high-pressure gas. On the other hand, the preparation method based on the flow rate ratio requires a fairly large flow rate of several + to several hundreds of ml / min of the component gas, so that the consumption of the high-purity component gas increases. was there.

Therefore, the present invention has been made in view of the above-mentioned conventional problems, and its purpose is to reduce the consumption of high-purity component gas and to set the desired concentration with good reproducibility. The object is to provide a mixed gas generation device which can be easily manufactured.

[0005]

[Means for Solving the Problems]

 In order to achieve the above object, the present invention provides a mixed gas generator for mixing a component gas and a diluent gas to generate a calibration mixed gas having a constant concentration, and an inlet for the component gas and the diluent gas and an outlet for the component gas. And a metering tube inlet / outlet, a mixed gas outlet, and a switching valve having 6 ports, and a metering tube connected to the switching valve.

[0006]

[Action]

 In the present invention, the switching valve switches the flow paths of the component gas and the diluting gas and is connected to the measuring pipe. The component gas and the diluent gas are sent to the metering pipe to be metered by the switching operation of the switching valve, and are mixed at a predetermined flow rate ratio by changing the volume of the metering pipe and the switching cycle time of the switching valve.

[0007]

【Example】

 Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the drawings. FIG. 1 is a block diagram of a mixed gas generator according to the present invention. In the figure, the same components as those in FIGS. 2 and 3 are designated by the same reference numerals. In this embodiment, a component gas cylinder 1 and a dilution gas cylinder 2 are connected to a measuring pipe 11 via a switching valve 10 and the switching operation of the switching valve 10 mixes the component gas and the diluent gas to prepare a mixed gas having a predetermined concentration. It was done like this. The switching valve 10 is a 6-port valve similar to a well-known sample valve used in a gas chromatograph, so that the component gas and dilution gas inlets 12 and 13 and the component gas outlet 14 are provided. An inlet 15 and an outlet 16 of the measuring pipe 11 and an outlet 17 for the mixed gas are provided, and a mixer 18 is provided in the middle of the pipe connecting the outlet 17 and the tank 4. As the measuring pipe 11, a well-known measuring pipe used in a gas chromatograph is used as in the switching valve 10 described above. Used according to. 19A and 19B are pressure reducing valves, respectively.

Next, the preparation of the mixed gas in such a configuration will be described. First, the flow path of the switching valve 10 is kept in the state of a solid line, and the component gas of the component gas cylinder 1 is flowed to the discharge port 14 via the valve 5a, the flow meter 7A, the switching valve 10 and the measuring pipe 11, and the pipe 22 is used. To vent. In this state, the dilution gas in the dilution gas cylinder 2 is sent to the mixer 18 via the pressure reducing valve 19B 1, the valve 5b, the flow meter 7B and the switching valve 10. When the flow path of the switching valve 10 is switched from this state to the state of the dotted line, the flow paths of the component gas cylinder 1 and the measuring pipe 11 are cut off, while the dilution gas cylinder 2 and the measuring pipe 11 are connected through the switching valve 10. The component gas taken into the measuring pipe 11 is introduced into the mixer 18 together with the diluent gas, stirred and mixed, and stored in the tank 4. In this case, when the switching cycle of the switching valve 10 and the volume of the measuring pipe 11 are changed, the flow rate ratio of the component gas and the diluent gas taken in by the measuring pipe 1 changes, so that a mixed gas with a wide concentration of several ppm to several percent order. Can be prepared with high precision. Further, since the component gas and the diluent gas are measured using the switching valve 10 and the measuring pipe 11, the consumption amount of the high-purity component gas is extremely high as compared with the conventional mixed gas preparation method using only the flow meter described above. It is economical and economical.

[0009]

[Effect of the device]

 As described above, the mixed gas generator according to the present invention is configured to mix the component gas and the diluting gas by using the 6-port switching valve and the metering pipe. Since the consumption of the purity component gas is small and the gas with a minute flow rate can be accurately measured, it is possible to generate a mixed gas with a wide range of concentrations with high reproducibility.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a mixed gas generation device according to the present invention.

FIG. 2 is a configuration diagram showing a method for preparing a mixed gas according to a pressure ratio.

FIG. 3 is a configuration diagram showing a method of preparing a mixed gas according to a flow rate ratio.

[Explanation of symbols]

 1 Component Gas Cylinder 2 Dilution Gas Cylinder 4 Tank 10 Switching Valve 11 Metering Pipe 12 Component Gas Inlet 13 Component Gas Inlet 14 Component Gas Outlet 15 Measuring Pipe Inlet 16 Measuring Pipe Outlet 17 Mixed Gas Outlet

Claims (1)

[Scope of utility model registration request] 1. A mixed gas generator for mixing a component gas and a diluent gas to generate a calibration mixed gas having a constant concentration, an inlet for the component gas and the diluent gas, an outlet for the component gas, and an inlet for a measuring pipe. A mixed gas generation device comprising: a switching valve having 6 ports of a discharge port and a mixed gas outlet; and a measuring pipe connected to the switching valve.