DE419844C - Device for measuring the amount of liquid flowing out of a container - Google Patents

Description

Device for measuring the amount of liquid flowing out of a container. The invention relates to a device that shows how much liquid was taken from a closed container, by indirect means Measurement.

As is known, a barrel, airtight container and the like can only have one Amount of liquid to be withdrawn, name the corresponding amount of air flowing in above. By draining the liquid, a negative pressure or an air-diluted pressure is created in the barrel Space, being through the top bunghole the difference between seeks to balance external, atmospheric and internal air pressure.

To completely equalize this pressure, the same amount of air must now be used flow in as liquid was withdrawn.

So to the amount of liquid that a container, z. B. a barrel, has been removed, you only need to do this until the pressure is completely equalized to measure the inflowing amount of air in order to immediately determine the outflowing amount of liquid to be able to read off, which, as mentioned, is proportional to the amount of air that fills the room is.

The invention is based on this principle by adding at the top of the bunghole of the barrel a device is attached to the incoming air of the crowd after measuring.

In the drawing, the subject of the invention is in one embodiment shown schematically, namely shows: Fig. i a longitudinal section through the whole Device, Fig.2 an external view, whereby the meter housing is cut, Fig.3 a cross section of the device in plan.

The bung i that goes into the bunghole of any barrel, container and the like fits or can be adapted, is pierced, and in this bore 2 sits a T-shaped piece of pipe 3, whose horizontal leg is an outwardly opening The poppet valve 4 carries, to compensate for the fermentation of the liquid in the Barrel resulting overpressure is used. The poppet valve seated at right angles to it s opens inwards as soon as there is a negative pressure in the barrel by releasing the liquid arises. Both valves 4 and 5 are spring-loaded and work automatically. On the Pipe section 3 sits the housing 6 in which an impeller 7 is provided. Tangential to the housing 6 a conical nozzle 8 opens into the same, which is downward again strongly conically expanded. The impeller consists of four or more hemispherical Blades 7 which are arranged radially around the shaft 9. The shaft 9 stands with a Counter unit io in connection, which is built into the housing ii, which in turn is attached to the housing 6. The counter is of a well-known design, similar to the tour counter, and only the translation of the impeller axis 9 to the counter axis 12 is important is controlled by means of gears 13 and 14 or by means of a worm drive that after a certain number of revolutions of the impeller 7, which comes out of the passage from Z. B. i liters of air result, the counting wheel is turned by one number, so that the amount of liquid withdrawn can be read immediately.

The number of revolutions of the impeller when passing z. B. i liter Air always stays the same and is the result of the nozzle cross-section and the air outlet speed. The air outlet speed results from the nozzle cross-section and the time which is used to leak 1 liter of liquid. Therefore time does not have to be measured, but it is expressed in a correspondingly changed air outlet speed directly proportional at the nozzle mouth or in the corresponding suction effect the speed of the outflowing liquid.

The air outlet speed at the nozzle opening is immediate affects the peripheral speed of the impeller 7, and after accounting for the Start-up and friction losses of the device, the constant can be determined which is the actual number of revolutions of the impeller when i liter Expresses air. Is this constant for i liter of air by calibration z. B. to ioo Revolutions of the impeller determined, the translation of the impeller axis must to the counter axis ioo: i, then the liter wheel of the counter switches itself forward by one number, and it is thus immediately evident that i liters of air are used for the Pressure equalization flowed through the device into the barrel and therefore proportional to it i liter of liquid has escaped.

A curved splash guard 15 is attached to your bung i and a lid 16 provided with a sieve is attached to the top of the nozzle 8.

Claims (2)

PATENT CLAIMS: i. Device for measuring out of a container the amount of liquid flowing out by means of the amount of air flowing into the container, characterized in that a housing placed on the container in an airtight manner (6), into which a nozzle (8) opens, contains an impeller (7) which is used by the draining liquid flowing in air is rotated and doing a meter sets in motion. 2. Device according to claim i, characterized in that that between the nozzle and the container a suction valve (5r) and laterally below a pressure valve (4) is switched on in the pipe section (3).