SU1569721A1 - Pneumometric head for determining direction of flow - Google Patents

Abstract

The invention relates to the field of measurement technology and can be used to measure the direction of velocity in an uneven flow. The aim of the invention is to improve the accuracy. With the help of the coordinator, the nozzles are installed at the required measurement point and rotated around the longitudinal axis in the horizontal plane. At the same time, in the receiving opening of the tube 4, which has fallen into the shadow behind the screen 13, the pressure changes dramatically. At the time of the highest overpressure or the highest dilution observed by the pressure gauge, the limb is installed on the coordinator, the angle of rotation relative to the initial position of the nozzle is determined, which corresponds to the angular position of the velocity component of the flow in the horizontal plane. To measure the direction of flow in the vertical plane, similar operations are carried out with an additional body 3 and a screen 10. 5 Il.

Description

Noah plane. To measure the flow direction in the vertical plane

similar operations are carried out with an additional body 3 and a screen, 5 or more,

The invention relates to a measurement technique, in particular, to devices for measuring the direction of velocity in an uneven flow.

The aim of the invention is to improve the accuracy

The design of the pneumometric nozzle is shown; in FIG. 2, view A in FIG; figure 3 is a section of the BB in figure 1; FIG. 4 is a section b-B in FIG. 1; figure 5 is a view of G in figure 1.

A pneumatic gauge nozzle for determining the direction of flow contains a base 1 on which the main body 2 is attached. The base 1 is rigidly fixed in a coordinate device intended for longitudinal and rotational movements of the nozzle. The lateral surface of the body 2 has a receiving opening 4 of rectangular shape at a distance of 12 -20 calibers from which the screen is installed with a cross-section equal to the cross-section of the receiving opening 4 "Additional housing 3 passes through the opening at the base and is rigidly fixed are to additional micrometer screw 5 of the coordinate-recording unit 6, intended for moving the secondary body along its longitudinal axis. Cases 2 and 3 are made in the form of hollow tubes, the axes of which are parallel to each other and located in the same plane. The shape of the tubes is made on the condition of ensuring minimal flow disturbance.

. In the additional body 3, the receiving opening 7 is rectangular in shape. Two holders 8 and 9 are rigidly attached to the main body 2, between the ends of which an additional screen 10 is mounted at a distance of 12-ZO gauges from the receiving opening 4. The longitudinal axis of the screen 10 is perpendicular to the longitudinal axis of the bodies 2 and 3 (Fig. 3). Between the housing 3 and the holders 8 and 9, a gap is made to allow free movement of the housing 30. On both sides of the receiving opening 4 there are spacers 11 and 12, between which they fasten

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Screen 13, the longitudinal axis of which is parallel to the longitudinal axis of the housings 2 and 3. Screens 10 and 13 are made, for example, of wire, the cross sections of screens 10 and 13 are equal to the cross section of the receiving openings of the tubes.

Pneumatic nozzles works as follows

With the help of the coordinator, the nozzles are installed at the required measurement point and rotated around the longitudinal axis 00 in the horizontal plane. At the same time, the pressure in the receiving hole 4 of the tube, which fell into the shadow behind the screens (vortex Karman track), changes sharply. At the time of the lowest overpressure or highest vacuum observed by the manometer, the angle of rotation relative to the initial pressure is determined by the gauge. the position of the nozzle, which corresponds to the angular arrangement of the components of the flow velocity in the horizontal plane.

To measure the flow direction in the vertical plane, the nozzles are turned 180 so that screen 10 is directed towards the flow. Then, with the help of an additional coordinate device, additional body 3 is moved with a receiving hole 7 along the body until a minimum excess is reached in the shadow behind the screen 10. the pressure or highest vacuum observed by the manometer and the scale determine the angle of flow in the vertical plane.

Claims (1)

Invention Formula A pneumatic gauge nozzle for determining the direction of flow, comprising a body, a tube mounted on it with a receiving opening, in front of which a screen is installed at a distance of 12–20 gauges, the cross section of which is equal to the cross section of the receiving opening, and the register by the fact that, in order to increase the accuracy, additional coordinate-recording unit, a screen and a housing with a receiving hole, which is mounted coaxially with the main body and can be moved along with Oei longitudinal axis, wherein the additional screen 13 6 Flow . Fig.Z 15697216 rigidly connected with the main body, while the longitudinal axis of the additional screen is located in a plane perpendicular to the axis of the main screen, and the additional body is rigidly connected with the micrometric screw of the additional coordinate-recording unit. Vida FIG. Z Bb Conditionally not showing coordinate FIG. and duff g