RU2098810C1 - Gas-distributing cock - Google Patents

Abstract

FIELD: gas analysis instruments. SUBSTANCE: gas-distributing cock has immovable body with at least five gas channels and turning bush with not less than two gas channels. Length of bush channels provides for switching of at least two adjacent gas channels of body. EFFECT: higher results of analysis. 7 cl, 2 dwg

Description

 The invention relates to the field of gas analysis, in particular, to gas volumetric metering devices in gas analysis devices, including a gas chromatograph, and can be used in various fields of science and technology related to gas analysis, mainly gas chromatography.

 A known metering valve for a chromatograph [1] comprising a housing on which fittings are mounted, a rotary sleeve with channels, a metering loop, an accumulating tank and an auxiliary tank connected to two non-adjacent fittings. Some non-adjacent fittings have an expansion at the point of contact with the rotary sleeve, the channel used for introducing the carrier gas is divided by a partition into two communicating sections, while the width of the partition exceeds the diameter of the nozzle opening connected to the auxiliary tank. The rotary sleeve has three fixed positions, providing sample collection, squeezing the sample and introducing the sample. In the first position, the dosing loop and auxiliary vessel are connected in series, as well as the nozzle for collecting and dumping the sample while supplying the carrier gas to the chromatograph column. In the second position, the output of the metering loop is locked, the input of the metering loop and the output of the auxiliary tank, the input of the auxiliary tank and the carrier gas line, the carrier gas line and the entrance to the chromatographic column are connected in series. In the third position, the auxiliary container is locked, the carrier gas line, the metering loop and the column are connected in series. The disadvantage of this device should be recognized as the complexity of the design, as well as the fixed mode of operation of the device.

 The closest analogue of the invention should be recognized as a valve for dispensing samples into a gas chromatograph [2] containing a stationary body with fittings for supplying and outputting carrier gas and test gas, as well as calibration gas, a rotary sleeve with channels in the form of a ring part connecting the carrier gas line and the analyzed gas, an external calibration loop, and the nozzles are located at certain angles to the axis of the rotary sleeve. The device is quite difficult to manufacture, low accuracy of the analysis due to dilution of the sample with calibration gas.

 The technical problem to which the invention is directed is to develop a universal design of a gas distribution valve.

 The technical result obtained as a result of the implementation of the invention consists in increasing the convenience of using a crane, increasing the accuracy and speed of analysis.

 The gas distribution valve comprises a housing having at least five gas channels, a rotary sleeve with at least two gas channels in the form of a part of a ring of different lengths, providing switching of at least two adjacent gas channels of the housing, the rotary sleeve comprising a handle. The handle can be equipped with a drive: mechanical or electric. The rotary sleeve can be made with the possibility of external switching. Marks showing the boundaries of the gas valves can be made on the housing, and on the sleeve the boundaries of the channels.

 In FIG. 1 shows a gas distribution valve with a crane cross section of a plane; in FIG. 2 scheme of using a crane.

 All graphic materials show a preferred embodiment of the invention. The following symbols are used on the graphic material: crane body 1, rotary sleeve 2, handle 3 of sleeve 2, gas channels 4 8 with fittings, large and small channels 9, 10, stripper 11, sample inlet unit 12, chromatograph column 13, gas source 14 -carrier, exit 15 gas into the atmosphere.

 The device operates as follows. The sample is placed in a sampler (not shown) installed in the stripper 11. A small channel 9 connects the source 14 of the carrier gas (nozzle 6) and the column 13 of the gas chromatograph (nozzle 7). The sample injection unit 12 containing a cooled trap-condenser (not shown) is connected to the stripper 11. By turning the sleeve 2, the large channel 10 is combined with the carrier gas source 14 (nozzle 6), the chromatograph column 13 (nozzle 7) and the stripper (nozzle 8) . The desorber 11 is turned on. The impurity passes through the sample inlet 12 to the condenser, and the carrier gas passes through the nozzle 5, the small channel 9 and the nozzle 4 into the atmosphere. The node 12 of the input sample is disconnected from the stripper 11 and connected to the column 13 of the chromatograph. Turn the sleeve 2 so that the source 14 of the carrier gas is connected through the nozzle 5 to the node 12 of the input of the sample through the trap-condenser. The desorbed impurity enters the column 13. The sleeve is rotated so that the large channel 190 connects the carrier gas source 14, the column 13 and the sample inlet 12, and blow out the node 12.

Claims (7)

 1. A gas distribution valve comprising a fixed housing with gas channels and a rotary sleeve connected to the housing with channels in the form of a part of a ring, characterized in that at least five gas channels are made in the housing and at least two channels of different lengths are made in the rotary sleeve, the lengths of the channels of the rotary sleeve are selected so as to ensure switching of at least two adjacent channels located in the housing.  2. The crane according to claim 1, characterized in that the rotary sleeve comprises a handle.  3. The crane according to claim 2, characterized in that the handle is equipped with a drive.  4. The crane according to claim 1, characterized in that the sleeve is made with the possibility of stepwise movement.  5. The crane according to claim 1, characterized in that the sleeve is made with the possibility of smooth movement.  6. The crane according to claim 1, characterized in that the nozzle is installed at the outlet of the gas channels of the housing.  7. The crane according to claim 1, characterized in that the marks on the rotary sleeve indicate the boundaries of the channels.

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