DE311377C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

Liquid meters are known in which a periodic flow is caused by the arrangement of a siphon system and the number of periods within a certain time is counted as a measure of the total flow rate. These measurements are inaccurate because the beginning and end of the lifting cannot be precisely determined.
■ Likewise, liquid meters are already known which enable the measurement of the average flow rate using measuring vessels, but initiate the measurement by switching taps and valves.

The accuracy of the measurement depends on the absolute tightness of these elements, Especially with liquids such as gasoline, kerosene, etc., only in the long run is very difficult to obtain.

The present invention is intended to periodically accurately measure the mean flow rate. That The lifting system should not effect the measurement itself, but through the nature of its own periodically working the measurement that is precisely calibrated to volume using Vessels made possible by special observation in a known manner, without that to initiate or carry out the measurement itself any closing organs or other mechanisms are necessary.

The figure shows the facility in the scheme. A lifter 2 is inserted into a vessel 1 in such a way that the short leg ends in the vessel 1, while the long leg penetrates the vessel and ends freely. A measuring vessel 3 is provided below the free mouth of the tube 2. At port 4, liquid flows, for. B. from container B to; at connection 5 it flows off. Liquid can only pass through the siphon 2 from the vessel 1 into the vessel 3. This is dimensioned so that it, 4P when it comes into operation, always conveys more liquid than is flowing in at 4 or out at 5. : If liquid flows in through connection 4, it rises to the apex of siphon pipe 2. From there, pipe 2 siphons the liquid into vessel 3. Since the siphon tube 2 is dimensioned so that it always siphons off more than flows through the entire system, the liquid level in vessel 1 drops to the end of the short siphon leg, while at the same time the liquid level in vessel 3 rises. When the liquid level in the vessel reaches the end of the short lever arm, the lifter stops working. Now the liquid level will rise again in the vessel 1, while it falls in the vessel 3, with the. Siphon 2 is definitely no longer flowing in liquid. Within such a period in which the siphon does not work, the time can be determined which elapses until the liquid level in the measuring vessel 3 passes between two calibration marks which enclose a known volume, i.e. until the amount corresponding to this volume has flowed out at 5 . With a simple, well-known calculation, the second

or determine the hourly mean flow rate. The control of the inflow amount at 4 can be done in any mechanical way or by hand. In the figure, for. B. prevents overflow of the vessel 1 in that its upper edge is higher than the liquid level in the container B.

Claims (1)

Patent claim: Liquid meter for random determination of the mean Flow rate in a line system, characterized in that in the to measuring liquid flow a measuring vessel (3) suitable for volume measurement and ' in front of this a siphon system (i, 2) are switched on so that in the measuring vessel (3) a alternating rise and fall of the liquid level takes place, with during the falling of the liquid level in the measuring vessel (3) no liquid in this flow in, but can only flow out of this according to the flow rate, so that the time that elapses until a volume determined by the calibration marks of the measuring vessel flows off, measured can be. 1 sheet of drawings.