SE407461B - FLUIDISTOROSCILLATOR TYPES - Google Patents

Description

now... 7709338-3 2 with a negative pressure that directs the flow towards the outlet on this side. Then open this control inlet and the other closes, controlled on the same set the flow towards the other outlet. By connecting them both control inlets switch the flow between the two outlets. Alternating the frequency is, with the appropriate dimensioning, directly proportional to the flow.

Using a fluidistor rocker as a flow meter is previously known through the Swedish ugläggningsskriften 3H9.iU6. f i: The desired properties of the flow meter are achieved by the invention by giving the flow meters the special design shown in the subsequent claim.

A suitable embodiment of a flow meter according to the invention will now be described in connection with the accompanying drawing where Fig. 1 shows a section through a flow meter and Fig. 2 a section along A-A in Fig. 1.

The flow meter comprises an inlet 1, two control inlets 5 and 6, one control channel 7 and two outlet channels 8 and 9 located in one and the same plan. In this way, the flow meter can be made small. The flow meter is designed as a box with a flat lid and bottom. Inlet 1 is pre- except for lid and bottom bounded by two guide plates 3 and 4, which provides a wedge-shaped inlet. The inlet can thus be made short.

The angles between the guide plates 3 and H and the flow meter of the flow meter A-A in Fig. 1 are each suitably between 400 and 500. The inlet mouths is further covered by a net 2. This results in blowing when used outdoors does not interfere with the function of the meter. Without the network would the inlet need to be considerably longer. The two guide inlets 5 and 6 are located on either side of the interconnection between the the bore 1 and the two outlet channels 8 and 9. The control inlets are interconnected 'through the control channel 7, which runs circularly around the two outlet ducts 8 and 9. Compared with the usual design with a more angular control channel, a better signal1 / noise relationship. The design also helps to make the meter small. The outlet 10 runs perpendicular to the inflow direction and the plane formed by the inlet 1, the guide inlets 5 and 6, the guide channel 7 and the outlet ducts 8 and 9 and is located in the center of it circle, as described by the control channel 7. The outlet occupies the entire the space between the outlet ducts 8 and 9 so that the pressure drop in the meter shall be minimal. An interconnection channel between the two outlets 7709338-3 407 461 The rear ends of the Q channels 8 and 9 are provided with a cam 11, which contributes to direct the flow to the outlet 10. The oscillations are detected through the pressure waves generated in the control channel by means of a transmitter 12 and an ultrasonic receiver 13 located at the end of the control channel points and directed towards a point 1ß on the flow meter symmetry plane located from the inlet slightly beyond the center of the control channel and at half the height between the lid of the meter and the bottom. Through this focus of transmitter and receiver, the ultrasonic signal will pass through the the channel with wall reflections.

\ In one embodiment, flow meters had the following data: length 110 mm, wide as mm, nöja nu mm, weight so g, rëyekfan u mm H20 at 100 11min and 28 mm H 2 O at 200 1 / min, measuring range 16-250 1 / min and measuring error less than 2% RMS of displayed value over the entire measuring range fi.

By changing the geometry linearly, the measuring range can be moved upwards or down.

Claims (1)

.._..... ,, u.,, 7709330-3 Claim flowmeter of fluid fluid oscillator type with two interconnected control inlets (5, 6) located on each side of the connection between an inlet (1) and two outlet channels (8, 9) and with the in-A inlet (1), the control inlets (S, 6), the control channel (7) and the outlet channels (8, 9) located in one and the same plane and where the oscillations are detected by the pressure waves generated in the control channel, characterized in that the inlet (1) is provided with a net (2) over the mouth and is limited by two guide plates (3, H), which give a wedge-shaped inlet, that the guide channel (7) runs circularly around the two outlet channels (8, 9), that the outlet (10) runs perpendicular to the inflow direction and the plane formed by the inlet (1), the guide inlets (5, 6), the guide channel (7) and the outlet channels (8, 9), and is located in the center of the circle described by the guide channel (7), that a connecting channel between the rear ends of the two outlet channels is provided with a cam (11); which helps to direct the flow to the outlet (10) and that the oscillations are detected by means of a transmitter (12) and an ultrasonic receiver (13) located at the end points of the control channel and directed towards a point (19) on the plane of symmetry of the flow meter beyond the center of the control channel and at half the height between the cover of the meter and the bottom. REQUIRED PUBLICATIONS: Sweden 330 835 (F1sc 1/10), 405 415 (Gow 1/00) us 3 230 960 (1a7-s1.s) âçggïzhäläbiiršâtlllniçd'Inventor AB (Bil. 1.5 till inv. Skr. Av 1979-05- 10) Fluidic Quarterly, vol 5, nr 1 ", Jan 1973, p 31. A publication from 1975 (Car 6 to inv. Skr. Of 1979-05-10) Report from symposium" Power Fluidics for Process Control of 9 April 1973, The Institute of Measurement and Control, pp. 71-78.