SU437911A1 - Vortex flow meter - Google Patents

Description

This invention relates to the field of measuring flow rates of a liquid or gases.

Vortex flowmeters are characterized by a pronounced dependence of the output parameter not only on the flow rate, but also on the viscosity of the medium being measured. In addition, they have sufficiently large irreversible notors of the nanor.

The known vortex flowmeter with the help of a special compensating element compensates for the viscosity, however with a large measurement error.

In order to improve measurement accuracy when compensating for viscosity and reducing irreversible flow head notices in the proposed vortex counter-flow meter, the compensating element is designed as an additional swirling device installed in the central part of the swirl vortex apparatus with the opposite direction of the swirling flow and an effective area smaller than the main jet-breathing apparatus.

The drawing shows a diagram of the meter-flow meter.

The counter-flow meter includes a housing 1, a first air-breathing apparatus 2, a forming pipe 3, an additional jet-swirler 4, a receiver-converter 5 n of the straightener 6.

The measured flow enters the instrument body, then into the air-breathing apparatus 2 and twists the flow clockwise. The formation of an external rotating jet occurs in the constriction of the body. The air-swirler 4 twists the flow counterclockwise, and the second wrap1 forming the jet occurs in the nozzle 3. The effective space of the swirler 4 is smaller than that of the swirl-2, therefore when the external and internal rotating jets merge, the total speed and direction of rotation are determined by the external jet with the greater power, i.e., the internal jet inhibits the rotation of the outer.

The on-time losses in the rotating jet have a power dependence on the matching of the tangential and axial components of the flow velocity, therefore it is advisable to reduce this ratio. This is ensured by installing an additional swirl, which retards the rotation of the external jet and thereby reduces irreversible head loss.

The viscosity of the measured medium reduces the speed of rotation of both the external and internal jets, but since the decrease in the speed of rotation of the internal jet causes

the decrease in inhibition is a resultant rotating flow, its flow rate / stays with constant and does not depend on the viscosity effect.

The resulting rotary jet, falling into the body expansion area, performs satellite rotation around the instrument axis, creating a periodic electrical signal in the transducer receivers proportional to the flow rate.

The subject matter of the invention is a vortex counter-flow meter, comprising a housing, a pulverized-fauce, -: at; emn CTr, a stringer and a compass member, characterized in that, in order to improve the accuracy of the measurement, when compensating viscosity and. reduction of irreversible losses of flow pressure; the compensating element is made in the additional swirl unit installed in the central part of the air-breathing apparatus with the opposite direction of twist and the effective area is smaller than that of the main air-breathing apparatus.