SU24972A1 - Instrument for measuring the flow rate of water in open channels - Google Patents

Description

The proposed device for measuring the flow rate of water in an open channel is of the type of hydrometric spinners with a vertical axis of rotation. A device designed to measure, in the main way, speeds of small quantities, on the order of 3-5 sl per second, is equipped, as a rotating part, with a rotor consisting of two discs and two half-cylinders shifted relative to a circle to a friend at a distance their radius.

In FIG. 1 and 2 depict a view in two projections of an instrument for measuring the velocity of the flow of water in open channels; FIG. 3 is an enlarged sectional view of the contact chamber; FIG. 4-bottom support in section.

Between the two halves of the brass fork-like frame 2 is placed the axis a of the rotor 1 (Fig. 3 and 4), consisting of two horizontal disks, between which vertically two semi-cylinders are located, shifted by the radius of one relative to the other in the direction of the axis of rotation and facing their curved sides in opposite directions. The axis a is fixed in the thread in the hole of the lower disk g (Fig. 4). The lower part of the axis a has the form of a tilted cup, resting its bottom on the tip of the core g (Fig. 4). The latter, in turn, is screwed into a brass sleeve, inserted into a hole made at the end of the lower half of the plug b. To prevent the sleeve from falling out, the latter is clamped with screw E (FIG. 4). The other end of axis a is equipped with a screw cube (Fig. 3), which serves to transmit the rotation of axis a on the gear 3 (Fig. 3), which, in turn, serves to close the current after a certain number of rotor 1 turns. after one revolution, the end of the axis а, which goes immediately after the worm thread, is equipped with an eccentric. When the axis a rotates, the sharp edge of this eccentric at each revolution will come into contact with the contact spring n and close the current. Contact springs to and and, as well as clamps, serve to close the current and to connect current-carrying wires (Fig. 3). One of the clamps, located on the left wall of the contact chamber 4 (Fig. 1), serves to connect the wire, if desired, to have signals every ten rotor turns, and those on the top wall, for signaling through one turn. When the second terminal is turned on, the wire is connected directly to the rod.

For operation, the device is worn on a bar of the appropriate diameter, for

what is in the body of the bed 2 I1chets through hole ,. indicated by the vertical dotted line (Fig. 1). A clamping screw b is used to fix the instrument at one or another depth. The body of the forked frame 2 ends. the tail-wheel 3 (Fig. 1), serving rl easier installation of the device with a rod in the direction of the jets. The body of the plug is attached in a streamlined shape so as not to create an overpressure affecting the measurement results.

The signaling device can be a normal electric bell or a siren, which are included in the circuit of electroplating cells so that they can work when the current is closed by the contact springs to g.

The subject matter of the invention.

An instrument for measuring the flow rate of water in open channels, distinguished by the use, as a rotating part, of a rotor 1 consisting of two horizontal discs and placed between them in a vertical position, shifted one relative to the other in the direction of the axis of rotation of two half-cylinders facing their concave sides in opposite directions.

Fig 3 1