SU435458A1 - FLOW METER - Google Patents

Description

one

The invention relates to devices for measuring the flow rate of a fluid flowing through a pipeline.

Flowmeters are known that contain a cylindrical cone with inlet and outlet nozzles, hubs, a ball, and a signal pickup unit in which a helical fluid flow carries a freely rotating ball, whose rotational speed is, to some extent, proportional to the average flow velocity over the cross section and measured by an induction tachometer.

The aim of the invention is to simplify the design of the flow meter and ensure interchangeability.

This is achieved by the fact that, in the proposed flow meter, the hub is made hollow, connected to the inlet nozzle and provided with side holes, an adjusting device, for example, a screw, is installed in one of the holes of the hub.

FIG. 1 shows the scheme of the proposed flow meter; in fig. 2 is a section along A-A in FIG. one; in fig. 3 and 4 - flow meters with different types of adjustments.

The flow meter consists of a housing 1 placed in the housing of a hollow hub 2, which limits the movement of the ball 3 in the radial direction. On the hub 2 is fixed ring 4, limiting the displacement of the ball

3 in axial direction. In the hub 2, the lateral orifices 5 are cut through, made at an angle a to the radial direction, which ensures the formation of a tangential component of the flow velocity. The speed of rotation of the ball 3 is recorded by an induction tachometer 6 mounted on the outer side surface of the housing 1.

The flow meter is connected to the pipeline

upper end facing the flow of fluid. Fluid flow, passing the constricting part of the cavity of the hub 2, through the holes 5 enters the annular space between the outer surface of the hub 2 and the inner surface of Cornus 1, and then flows around the ball 3 n restrictive ring 4. The tangential component of the flow rate V is due to the fact that the side holes in the footpotted out at a certain angle a to the radius

(Fig. 2). The presence of this component and causes the screw movement of the flow around the ball, and the rotation of the ball. When a ball made of ferromagnetic material is rotated, a pulsed edd is induced in the winding of the tachometer 6. c., where the frequency of the pulses arriving at the secondary transducer is the propelled speed of the ball.

To adjust the static slope of the flow meter, it is provided

An adjusting screw 7 is installed in the hub 2. When the screw is screwed in and out, the total cross-sectional area of the side holes 5 in the hub 2 changes, which leads to a corresponding change in the flow velocity in the annular space between the hub 2 and the housing 1. Limit H: J measurements of the flow meter can be significantly expanded by changing the amount of flow through the hub of the mine hole 5. To do this, the inner thread 8 is cut at the bottom of the hub 2 (Fig. 1), on which interchangeable fittings can be fixed nn plug (not shown).

Adjustment of the flow meter can be performed by the sleeve 9, as shown in FIG. 3. Moving the sleeve 9 along the thread relative to the hub 2 changes the flow area of the side holes 5 of the hub.

FIG. Figure 4 shows an adjustment option by changing the cross section of the through axial hole in the hub 2 with a screw 10. In this case, as the cross section decreases, the flow rate entering the side holes 5 increases.

Subject invention

Claims (2)

1. A flow meter containing a cylindrical housing with inlet and outlet nozzles, A hub, a ball and a signal pickup unit, characterized in that, in order to simplify the flow meter design, the hub is made hollow, connected to the inlet nozzle and provided with lateral orifices. 2. A flow meter according to claim I, characterized in that, in order to ensure interchangeability, an adjusting device is installed in one of the holes of the hub, for example screw.