SU20334A1 - Instrument for determining the direction of water flow in a stream and its velocity - Google Patents

Description

The proposed instrument is intended to achieve the simultaneous measurement of horizontal and vertical deviations of the water flow and its flow rate.

In the schematic drawing of FIG. 1 shows a vertical section of the device; FIG. 2 shows a section along the line CD in FIG. one; FIG. 3 - horizontal section of the device; FIG. 4 is a section along the line AB in FIG. 3; FIG. 5 - the general scheme of the device.

The device consists of a hollow rod 1, at the end of which a circular metal roller 2 (in Fig. 1 indicated by a dotted line) is reinforced with an increased diameter at the top and bottom. A freely rotating sleeve 3 with tides 4 is put on the roller 2, to which a feather 5 is tightly attached. To the lower end of the roller 2, a metal plate b is attached in the form of a sector (Fig. 3), near the outside of which there is a slot made There are copper box 7 bolted to sector 6. From above, box 7 is covered with an ebonite lid 8, on which pins 9 are placed 60 ° right and left; up to 30, one and the other side of the contacts go through 2 °, and after, from 30 to 60, - through L. Attach to the ebonite board between contacts.

wooden paraffin bar 10, on which resistance is wound in the form of a thin, insulated, nickel-nickel wire. A wire of its length, approximately two ohms of resistance, has branches and by these branches it is attached to each contact. At the bottom of the pen above the contacts, the spring and the slider 11 are fixed. Measurement of the horizontal angle is made by the feather 5, which from the action of the water jet takes one or another position from zero (Fig. 3) and by its slider 11 becomes one or the other contact, thereby including the magnitude of the resistance, which corresponds to a certain number of degrees. The magnitude of this resistance is determined by the wire 12 (Fig. 5) connected to the resistance from the rod 13, or a separate wire, further through the Wheatstone bridge, where the resistance box identical to that placed in the box 7 is included in G2. and rj, taking into account the resistance of the wire 12. The resistance box in the bridge has the same digital degree values as box 7, and is used to directly obtain the digital degree value of the flow direction. The magnitude of the angle is determined by rotating the slider over the contacts of the resistance box in the bridge of the Untston and the readings of the arrow of the galvanometer.

On the sleeve 3, small tides 14 are made, on which a plug 16 is put,: carrying a pinwheel 17 at one end, and a horizontally arranged feather 18 at the other 18. A plug together with a feather 18 covers a box 19 reinforced by tides 20 to a feather 5. B The box 19 is covered with a fork 16, opposite the contacts of the box 19, spring-sliders 21 are arranged, and on the opposite side a roller 22 (indicated by a dotted line in Fig. 2) acts as a brake to avoid excessive vibrations of the turntable in its balanced state - In water. The device of box 19 is the same as box 7, with the only difference that the vertical angles are measured in the opposite direction from 0 to 36 ° and the measurement accuracy is 2 °.

Measurement of vertical angles is the same as horizontal. This action of the jet of water on the feather 18 of the plug 16 takes the upper or lower position from zero and becomes one aiz contacts or temporarily stops on it and includes a certain resistance, which corresponds to a certain number of degrees of angle. Determination of resistance, and at the same time the number of degrees, is carried out according to the same scheme as for horizontal angles via wire 23 (Fig. 5), Wheatstone Bridge 24, resistance r, r -, and r. When measuring horizontal and vertical angles at the same time, the determination of the velocity of the flow of water is carried out by means of an ordinary turntable with electric signaling.

The subject of the patent.

1. An instrument for determining the direction of water flow in a stream and its speed, characterized by the use of two feathers having mutually perpendicularly located rotational axes and bearing contacts that slide along the buttons of the resistance stores included in the schemes of the Wheatstone bridges.

2. In the device described in p. 1, use a rotor mounted on the front of one of the feathers to determine the velocity of the water flow.