SU100378A1 - Rotameter - Google Patents

Description

The proposed rotameter is of the known type for measuring the flow rate of instruments in which the transmission of indications to distance is carried out using a pneumatic relay; the control damper of the relay is connected to a permanent magnet located near the tube of the rotameter and driven by a permanent magnet placed inside this tube and connected to the float of the latter.

Unlike well-known devices of this type, in which negative feedback only covers the command circuit of a pneumatic instrument, the proposed rotameter provides deep feedback that provides high accuracy of measurement and straightness of the calibration characteristic.

This is achieved by installing the pneumatic relay nozzle on the movable part of the pneumatic servomotor P1, which moves the damper and, together with it, the external magnet to the equilibrium position relative to the magnet suspended from the float when the pressure in the system changes.

Ha FIG. 1 shows schematically an attachment to a rotameter for transmitting indications to a distance, which is a pneumatic relay with magnetic control; FIG. 2 takes note of the operation of this reoTe; in fig. Figure 3 shows a rotameter in which the servo motor, which provides feedback, is designed as a spring-loaded membrane.

The float of the rotameter with the help of a long brush (Fig. 1) is connected with a weight, inside which there is a permanent magnet 2. Under the action of the flow of fluid, the cargo 1 moves in the tube 3.

A permanent magnet 2 placed in the weight case, through the measured liquid medium 4 and the non-magnetic tube 3, will act on the permanent magnet 5 pivotally mounted on the pneumatic relay.

An external permanent magnet 5 is rigidly connected to a flap 6, which, depending on the relative position of the magnets 2 and 5, controls the outflow of air from the nozzle 7 mounted on the sylph 8, which is a pneumatic servo motor. Through the throttle 5, the bellows is connected to the compressed air supply line with a pressure of 1.1 kg / cm. Depending on the position of the valve 6 with respect to the nozzle 7 in the bellows, a pressure is created which expands or relieves the spring 10, under the action of which the nozzle 7 of the pneumatic relay rises or falls.

The equilibrium between the force due to the action: k1Em of air pressure inside the bellows and the reaction of the expandable spring 10 occurs in such a position when the external magnet 5 is approximately at the same level as the magnet 2. Because the reaction force of the spring 10 is proportional to its stretching and the effect of the rubber bellows 8 is insignificant, the pressure inside the bellows is a direct proportion of the movement of rpysiHiKia; NOPlavka. Thus, the pressure indicated or recorded by MaHio-MeTpOM 11,, p01Ports (I1Enalno fluid flow, flow through the | at | bar.

FIG. 2, on the operation of the pneumatic relay, shows three different positions. In position a, the relay is in equilibrium — the nozzle 7 is slightly open, the pressure force of the compressed air balances the reaction of the spring 10. Position b corresponds to the fully closed nozzle 7; as the air pressure increases,

entails raising the nozzle of the relay to the combination of magnets 2 and 5. The position in corresponds to a fully open nozzle 7; the pressure decreases and the relay nozzle drops until the magnets 2 and 5 are aligned.

FIG. 3 shows a rotameter, in which, as a servomotor 8, carrying a pneumatic relay nozzle 7, not a bellows is used, but a flat membrane 12, which is under the action of spring 10.

Subject invention

A rotameter with a permanent magnet suspended from the float interacting with an external magnet associated with a pneumatic relay gate serves to transmit the rotameter's indications over a distance characterized in that in order to achieve high measurement accuracy and straightness of the calibration characteristic provided by the introduction of deep feedback, the nozzle of the specified relay is mounted on the movable part of the pneumatic servomotor, which moves the valve when the pressure changes in the system, and with it The magnet relative to the magnet suspended from the float is in the equilibrium position.