SU690297A1 - Tachometric flowmeter - Google Patents

Description

(54) TACHOMETRIC FLOW METER

tenoganychitel, consisting of input 2 and output 3 fairings, located each other. At the entrance to the housing of the flow meter installed swirling device

4, and at the exit -.

5. To protect the sensitive element - the ball b during transportation and installation, there is an annular element 7, and a variable speed converter 8 for detecting the frequency of rotation of the ball. Fairings

2 and 3, respectively, with internal channels 9 and 10, form an axial slot 11, 12 with the body, and the end adjacent surfaces form their radial slot 13, communicating with channel 10. The frequency of rotation of the ball 6 in the radial slot 13 is recorded by the output converter 8. As The output transducer can be used: electromagnetic coils located both outside the housing 1u and inside the fairings 2 and .3. To record the speed of rotation of the ball, the electrical conductivity of the coolant can be used, for which the end surface of one of the fairings embeds insulated electrodes, and the second electrode will be the second fairing made of an electrically conductive material. The use of a half bridge circuit allows to obtain an effective ohmic type converter. It is possible to perform the flow part of the flow meter with an axial slit 12 of the output flap 3 with the housing 1 with a zero size .. It is also possible to perform a flow meter in which the internal channel 9 of the input flap 2 has a zero size. This is dictated by the need to have one or the other measuring range.

For a flow meter, the inlet cowling of which has an internal channel 9, the device O for swirling the flow can be made common FOR the entire flow NL or separately for the flow in the axial gap or for the flow passing through the internal channel. The choice of the flow of the flow of the flow. the measure is also determined by the mass of the ball and the sensitivity of the transducer, the presence of a solid impurity in the flow and the permissible value of hydraulic losses at p;

The flow meter works as follows.

The fluid flow at the inlet to the flow meter is e-twisted by a flow-through device designed, for example, in the form of a reset screw 4 with a smooth inlet. Then a part of the swirling flow (in the presence of an internal channel 9 in the input fairing 2) or the entire flow (with

the absence of an internal channel) enters the axial slot 11 and passes it, it is separated. At the same time, part of the stream (or the entire stream) enters the radial slot 13, in which it is accelerated in the tangential direction by decreasing the rotation radius while maintaining the moment of the amount of movement, and then enters the internal channel 10 of the exit flap 3 and passes 5, exits the meter. The swirling flow, the passage through the radial slot 13, acts on the ball 6 in the tangential and radial directions. The tangential composition of this effect leads to the rotation of the ball, which due to the centripetal force of rotation acting in the direction of the axis of rotation to the periphery, tends to move to a larger radius of rotation,

but the radial component of the hydraulic effect due to the drag force of the ball balances the centripetal force

The interchangeability of sensors or its individual elements during calibration and tuning in the proposed structures is achieved by throttling one of the streams that flow through the axial slots 11. Or. 12 or the internal channels 9 and 10. (- Ball b, the passage past the output converter 8, excites in it an electrical impulse, which is recorded by a vertical instrument.

The peculiarity of the proposed flow meter is that the rotating ball is in the unloaded state and there is no mechanical interaction with the body or with the supporting surface due to centrifugal force, and consequently, there is no main force causing mechanical wear of the ball and plastic deformation of the body, which allows extend the flow measurement range, increase the service life and sensitivity of the sensor. In addition, the absence of restrictive or supporting elements,: completed: in the form of: grooves, allows measuring the flow rate of a liquid when there is in it an insignificant amount of heavy impurity as it is carried away by the flow.

Claims (5)

1. Authors, USSR certificate 315930, cl. G 01 F 1/00, 01.10,71. . 2. Authors certificate of the USSR 373,534, cl. G 01 F 1/00, .12.01V73. 3. Patent SIR. 2518149, cl. 73-194, 15.11.66. 4. The patent of Great Britain 352925, cl. G 1 R, 19.02.65. 5. The copyright certificate of the USSR 231138, cl. G 01 F 1/00, 15.11.68 (prototype).