SU681097A1 - Device for gas sampling - Google Patents

Claims (2)

The invention relates to ferrous metallurgy, in particular, to devices for sampling gas for analysis from shaft furnaces, preferably blast furnaces. The closest to the invention according to the technical essence and the achieved results is a probe for sampling gas from the interwell space of a blast furnace containing a tip with gas inlets 1. The disadvantage of this probe is that when the probe is introduced into the shaft of the furnace, the gas inlets remain open, which inevitably leads to their blockage by particles of imhta, which also fall into the cavity of the probe and disrupt its normal operation. Cleaning these holes with a stream of compressed air through the cavity of the probe leads to unproductive air flow, since to prevent clogging of the holes, it is necessary that the flow of air into the furnace shaft and when it moves inside the shaft is continuous. The aim of the invention is to improve the protection of the gp-reception hole of the probe from blocking by particles of the charge and increase reliability. This is achieved by the fact that the known gas sampling probe, containing a tip with a gas intake opening, is provided with a gas intake opening area with a cylindrical valve movable in the axial direction. The flap is equipped with flanges, and on both ends. Fig, 1 shows a probe, a general view; in fig. 2 shows a section A-A in FIG. 1. The gas sampling probe comprises a tip 1 with a gas inlet 2 communicating with the cavity 3 of the tip. A cylindrical damper 4 is installed on the surface of the tip 1, the ends of which are provided with flanges 5 and 6. The tip of the tip is closed with a cone-shaped cover 7. The probe works as follows. When inserting the probe to the center of the kiln shaft, a cylindrical flap 4 is installed on its tip 1 under the influence of friction forces arising from the contact of the flap 4 surface with the flanges 5 and 6 on its ends to increase this friction force and shifts by the stroke amount H of the valve and closes the gas inlet 2. To take a sample of the gas, the probe moves in the opposite direction, while the damper 4 under the influence of the same friction force is fixed in a stationary state, and the gas intake opening 2 opens with the probe moving at the stroke value H of the damper. After stopping the probe, the gas sample under the influence of overpressure in the furnace charge enters the gas inlet. As the probe moves to the next gas sampling points, the gas inlet 2 opens and is protected from blocking by charge particles by injecting compressed air from the tip cavity 3. Compressed air is not supplied when inserting the probe into the furnace shaft, and so jfe when the probe stops at a given sampling point. The conical shaped cover 7 serves as a retractor of the probe tip and provides installation of the cylindrical valve 4. The cylindrical valve protects the gas inlet from particles The charge at the time when the probe is working and the most severe conditions - while advancing 74 of it in the thickness of the charge to the center of the mine According to preliminary calculations, the service life of the core, equipped with a cylindrical valve, increased 50% due to the protection of the airhole hole and the cavity of the probe from blocking by particles of the charge. At the same time, the air flow is reduced due to the fact that no compressed air is supplied during the progress of the probe to the center of the shaft. Claims A gas sampling device comprising a pipeline, a tip with a gas inlet, a water cooled embrasure with a valve and a displacement actuator, characterized in that, in order to avoid clogging the gas inlet and increase the reliability of the device, longitudinal movement and having a collar on both ends. Sources of information taken into account in the examination 1. Copyright certificate 561735, cl. From 21 to 7/24, 1977. Fmg / to J i FIG g