SU1084649A1 - Automatic device for gas-liquid flow scanning - Google Patents

Abstract

1. AUTOMATIC DEVICE FOR SCANNING GAS-LIQUID FLOWS, comprising a cylindrical body, a probe and a drive mechanism. distinguished by the fact that, in order to expand the area of receiving information and reduce time, the housing has a closed on the inner surface; a groove made in a sector with an angle of 18015 & the length of the probe's movement, and its end is provided with an aerodynamic wing, and the probe is equipped with a pin articulated with the housing groove, an aerodynamic plate and an L-shaped mainline. 2. The device according to claim 1, in order to measure the electrophysical parameters, the probe is filled with electrically insulating material and is equipped with electrically conductive tires and a current collector (L mi having a contact connection with the input of the current collector.

Description

QO About {i

The invention relates to a measurement technique, in particular for the study of local values of parameters at various points in the cross section of gas-liquid flows, and can be used for sampling in the analysis of the composition of temperature, electrical conductivity, etc. A known automatic gas sampling device containing radially located gas pipelines with shut-off elements included in a common collector and a mechanical device which surrounds the sequential opening (closing) shut-off elements f 3. The disadvantage is that the known device does not allow high-speed flow scanning in connection with the presence of a mechanical locking element has a limited number of sampling points due to the blocking of the flow cross section and has a discreteness of analysis. It is also known a device for sampling gas, containing a cylinder made in the form of a cylinder, a probe mounted rotatably inside the housing, and a drive mechanism installed outside the flow. The housing is made with a slit along its generatrix, and the probe with a slot in the form of a screw lines С2 The disadvantages of this device are a narrow flow zone, subjecting to scanning, limited slotting, the inability to change the scanning program, as well as the presence of a mechanical drive complicating the design and increase dimensions. The purpose of the invention is to reduce the time for obtaining information in a wide area of the flow section. This goal is achieved by the fact that in an automatic device for scanning a gas-liquid flow comprising a cylindrical body, a probe and a drive mechanism, the body has a closed groove on the inner surface, made in the sector with an angle of 18015 for the length of the probe's movement, and its end is equipped with an aerodynamic edge, and the probe is equipped with a pin articulated with a housing groove, an aerodynamic plate and an L-shaped mainline. In order to measure the electrophysical parameters, the probe is filled with electrically insulating material and is equipped with electrically conductive tires and current collectors having a contact connection with the current collector input. Figure 1 shows an automatic probe device for taking a sample from a gas stream, a general view of} in Figure 2 - a sweep of a housing groove; Fig. 3 shows a device for measuring electrophysical parameters; figure 4 - node I fig.Z. The device consists of a cylindrical body 1 mounted rotatably on axis 2, and a probe 3. Case 1 has a closed groove 4 on the inner surface (the sweep is shown in Fig. 2) providing reciprocating and rotational movement of the probe 3 at the rear end aerodynamic wing 5, which rotates the device under the action of the incident gas flow. The probe 3 on the protruding portion 1 of the housing contains an aerodynamic plate 6, which serves to reciprocate it, and a pin 7 articulated with the groove 4 of the housing 1. In the probe 3 from the side 1 of the housing there is a L-shaped sampling line 8 for representative testing, ensuring selection without mixing and stratification, arising during its flow inside the housing 1. Coaxially with the output of the L-shaped line 8 along the axis of rotation 2 of the housing 1, a channel 9 for sucking the excess sample and suction is located I. When measuring the electrophysical parameters, the device eliminates the L-shaped highway 8, the probe 3 (Fig. 3) is filled with electrically insulating material 10 (for example , fluoroplastic), in which electrically conductive tires 11 are laid, and in channel 9 a current collector is placed, containing a disk 12 with press-on ring tires 13 and a disk 14 rotating against channel 9, having electrodes 15, pressed by springs 16. Device works as follows.

Claims (2)

1. AUTOMATIC DEVICE FOR SCANNING GAS-LIQUID FLOWS, containing a cylindrical body, a probe and a drive mechanism, characterized in that, in order to expand the information acquisition zone and reduce time, the body has a closed surface: a groove made in a sector with an angle of 18015 ° to the length of the probe’s movement, and its end is equipped with an aerodynamic wing, and the probe is equipped with a pin, an aerodynamic plate, and an L-shaped trunk connected to the groove of the body. 2. The device according to claim 1, characterized in that, in order to measure the electrophysical parameters, the probe is filled with insulating material and equipped with electrically conductive tires and current collectors having a contact connection to the input of the current collector. SU .... 1084649 -g FIG. /