SU4403A1 - A device for determining the level of standing fluid in wells - Google Patents

Description

About P and a hf-ipe-:

liquid leveling device

to patent A. A. Bogushevsky, dated January 2, 1926

(for century. Sayd. No. 6140).

On the grant of a patent published January 31, 1928. The patent is valid for 15 years dated January 31, 1928.

FIG. 1, 2, and 3 of the drawings explain the principle of operation of the device; FIG. 4 depicts a longitudinal and transverse sections of the proposed device.

To clarify the effect of the instrument, it is assumed that there is a bent elbow, 1, 2, 3, 4, 5 (Fig. 1). The knee 1 is open at the top, and the knee 5 at the top is hermetically closed. Mercury is poured into the lower part of the tube, and the air enclosed in knee 5 is under atmospheric pressure. In this case, the mercury in open knee 1 and in closed 5 will stand at the same level 301. If then the tube is completely immersed in the liquid, then its pressure on the mercury in the open knee will increase, as a result mercury in a closed knee, squeezing the air enclosed in it, will raise

in wells.

mothers (Figs. 2 and 3), In knee 5, two wires 7 and 8 are uninsulated for 109-PO, and above are strictly isolate wires and connected to the electrical stimulant. current. In the position shown in FIG. I, ends 9 and Yu are separated, and the current through the wires will not pass. When mercury is raised in knee 5, ends 9 and 10 will be closed with mercury; therefore, current can be passed through circuit 20, 9, 10, 16. If a voltmeter is included in this circuit, then, at the direction of the latter, it will be possible to know the voltage existing at any given moment in the circuit. As the mercury in knee 5 rises (as the device is immersed in the liquid), the resistance of the circuit will decrease, as the mercury, rising, will short all the smaller and smaller wires. This change

the voltage will be indicated by a voltmeter, and by the oscillation of the latter, it will be possible to judge the position of the uroin of the liquid at any moment. It is difficult to design a usable device based on the above, mainly for the following reasons: the difference between the lowest and highest positions of the mercury level is almost inconvenient to make large (otherwise the device would be too cumbersome and inconvenient to use). By limiting the size of the device to a height of about 1-2 meters, it turns out that, even with extreme positions of mercury levels, switching on or off into a common chain a few hundred meters in length of a wire, 2 meters long, is very difficult to catch with the naked eye arrows voltmeter. In the proposed device, it is intended to eliminate this difficulty as follows: wires (copper), which supply current to the device, are taken of a relatively large cross section so that their resistance is insignificantly possible (wires 20 and 16 in Fig. 4). These wires, respectively, insulated, enter the upper part 111 of the device and here 2 wires (uninsulated) of a very small cross section are connected to the ends, moreover from a material having the greatest possible resistance (for example, iron). In order for the resistance of the wire to be placed in the device; If possible, enlarge it, it is made of considerable length and is wound spirally on a rod made of a non-conductive material (for example, wood, etc.). If the diameter of the rod is taken equal to, for example, 2 cm, then supposing that 20 rows of wire will be screwed on 1 bar, cm of the rod, the entire length of the wire wound by 1 bar will be obtained. the rod meter is equal to 62.8 X 20 125.6 m. It is assumed that the electrical conductivity of iron is 6 times less than that of copper,

The found wire will correspond to 750 meters of copper wire. Under such conditions, the difference in the resistance of the wire, even with minor fluctuations of the mercury column, will be so sensible that it can be detected by the swing of the arrow 1. Jul. 2 meter. Winding the wires to the core should be made so that the turns of the wire do not touch.

Inside the iron tube 5 (approximate diameter 1 inch and length about 1 meter) of the proposed device (Fig. 4) a wooden rod 112 is placed on which a thin wire is wound (outer tube 4, with a diameter inside I /, corresponds to the left bend 1 of the tube shown in Fig. 3). Fluid pressure is transmitted to mercury through apertures 14; Mercury from the annular space between the tubes 5 and 4 through the holes 15 enters the inside of the tube 5 and here under the pressure of the liquid column rises accordingly.

The device on a thin steel rope is lowered into the annular gap between the pump tubes and the walls of the working column. When the liquid level is reached (as indicated by the movement of the arrow of a voltmeter connected to the circuit or by means of a special bell), the device is lowered into the liquid to a certain depth (for example, 25-50 sazh.). Note the position of the arrow in the voltmeter at a given immersion; as the level decreases, the voltmeter reading will be acc. change and when the liquid level drops so much that its column above the device is close to zero, the circuit will open; This moment can be caught by the indication of the voltmeter needle. The device is equipped with a load of 12. The subject of the patent.

A device for determining the level of fluid standing in wells, lowered into the well on a cable that has two insulated wires, and consists of two tubes nested into one another, with mercury poured into the lower part, from which a large tube is closed on top and filled in part by air, characterized by the use of resistance 7, 8, having the form of a non-conductive current rod 112 with a spiral thin uninsulated wire wound on it, which is used to determine the depth of the device by changing the resistance of the electrical second circuit formed by the conductors 20, 16 and rheostat and closable mercury comprised within the communicating tubes 5 .i 4, of which the latter has openings 14 for entry of liquid into the device hole.

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