SU46710A1 - A device for determining the weight of a liquid in a tank by the pressure it produces to the bottom of the tank - Google Patents

Description

The invention is intended to determine the weight of liquids of variable capacity (for example, juices, syrups, molasses of sugar factories).

The proposed device for determining the weight of a liquid in a tank by the pressure it produces at the Bottom of the tank is based on measuring the hydrostatic pressure of a liquid by measuring with a mercury manometer the air pressure in a pipe submerged in a liquid, and the oscillation of the manometer using electromagnetic induction is taken into account by a counting mechanism of one or another design .

In FIG. 1 shows a vertical section of an instrument for determining the weight of a liquid in a tank by the pressure it produces at the bottom of the tank; and FIG. 2 diagram of connections.

A device designed to take into account the amount of diffusion juice and to monitor the operation of a diffusion battery (pumping amount and fluctuations, pumping time, number of fillings and discharge of the measuring tanks) is formed from a sufficiently long inch tube 7 ending at the bottom with conical expansion 2 with a number of elongated

; of the slots, the upper edge of these slots should be at the level of the horizontal bottom of the measuring device. The upper part of the tube ends in a cylindrical

(178) .-,

an extension 3 that is screwed onto the threads of the test tube 5 formed by the protrusion of the bed 4.

Through the opening, the interior of this vessel, into which the previously weighed quantity of mercury has been poured, is associated with atmospheric air. A tube 6, 8 is screwed through a hole in the bed 4, the end of which reaches the bottom of the tube-shaped vessel 5. Inside the tube 6, a thin-walled steel float 7 is floating in mercury, carrying soft iron on the thin-walled brass tube J4, moving inside a brass tube 8, on which double coils of a / b and / 7 electromagnetic induction are worn. A tube 9 is screwed into the upper end of the tube 8, carrying a glass bulb 10 at the side, partially filled with transformer or otherwise easily moving oil, into which the tip of the glass tube 7 /, which is connected to the tap 75 and the tube 72 supplying compressed air from air small compressor or gas saturation. By means of tube J8, the space of tubes 9, 8 1Л 6 is connected with the space of tubes 3, 1 to 2 through tube 19, bearing tap 22 and glass bulb 20, exactly the same as pear 10. Devices are installed one in each measuring cup of diffusion juice . Using the faucet 75, compressed air or a saturation gas is injected into the device so that about 3-5 pelvic bubbles per second break through the oil layer (fluctuations of the gas flow rate not exceeding much of this norm can not tell device). Depending on the degree of filling of the dipsticks with the 1-density of the diffusion juice, the core / 5 takes one or another position, causing the corresponding i movement (Fig. 2) of the core of the second pair of coils connected with the counting device 23, which marks the corresponding number of kilograms of movement of the core in one direction (during the reverse motion of the core, the calculating apparatus, of course, does not work, since the gear is provided with a dog). The movements of the same core in both directions are communicated to the recording apparatus 24, which draws a broken curve characterizing the amount of pumping, its duration, number of pumpings and the duration of emptying the measuring tanks. Electromagnetic induction coils are powered by an alternating current lighting network. When checking the readings of the device proceed as follows. Clean water is drawn into a completely empty measuring tank and the meter reading is noted. It should be noted three or four readings. In order to be able to obtain these readings, without pouring water from the measuring device each time, proceed as follows: after the first reading of the meter readings, the tap 22 is opened with the key; at the same time, the air compressed in the instrument's space leaves through the control glass pear 20 and through the opening 2 / into the atmosphere. Then they wait a few minutes until the number of gas bubbles in both JO and 20 pears is the same, the faucet 22 is hermetically closed, and a new counter reading is noted. Both numbers with a properly working device must match exactly. Thereafter, water is discharged from the measuring device and weighed on decimal or centesimal scales. The resulting weight of the WATER in the measuring device is compared with the instrument reading and the eventual correction factor is calculated. fluids in the tank according to the pressure produced by it at the bottom of the tank, characterized by the use of a tube submerged to the bottom of the tank / with expansion in the upper part, connected by an external tube / 5 with an internal tube 8, 6, immersed in a vessel 5 with mercury poured into it, what is a tube , 6 and the vessel 5 are a mercury manometer, taking into account the pressure of the gas supplied through the tube 18, necessary to empty the tube from the fluid. For reading the readings of a mercury manometer of a device consisting of a float 7 connected to a rod 15 of soft iron, 1 placed inside double coils / b, 17 electromagnetic induction electrically connected to another pair of coils, the core of which is articulated in turn with a counting mechanism 23. The subject invention. 1. A device for determining the weight 2. In the device according to claim 1 application

FIG 1

g /

2

FIG. 2