DE918468C - Drum counter for measuring liquids - Google Patents

Description

Drum counter for measuring liquids With the well-known drum counters, which are used to measure liquids, one can have a good measurement accuracy achieve a large area by appropriately designing the measuring space. In Practice shows that despite this training there are still certain measurement errors appear. These measurement errors are dependent on the flow rate and arise from the fact that when penetrating the measuring edge assigned to each measuring space through the liquid level forms a dome on the liquid surface of the measuring chamber. The liquid content this dome slowly flows back to the inside of the drum over the measuring edge and is reduced in size so the volume already measured. This causes a multiple display, because now the rotation of the drum corresponds to a smaller volume than you assigned.

The drainage of the liquid dome mentioned and thus the multiple display depends on the time available for drainage. The bigger the time for this process is, d. H. the smaller the flow rate in liters per hour is, the greater the error.

The invention relates to a drum counter for measuring liquids of the type mentioned at the beginning and aims to eliminate this error.

According to the invention there is a backflow of liquid from the liquid dome to the inside of the drum prevents each measuring room from having an additional drain Opening is assigned so that the liquid tip by the drainage of liquid disappears from the measuring room to the outlet side.

The return of liquid to the inside of the drum is thus prevented, so that the above-mentioned measurement error is eliminated.

There are various ways in which the invention can be practiced Ways. You can, for example, in the outflow channel of each measuring space an additional opening Place in such a position that the liquid can drain through this opening is possible after completion of the measuring process. Another option is obtained if a special one leading to the discharge side is attached to each measuring room Discharge line is arranged in the area of the measuring edge so that the flow through it Liquid after completion of the measuring process is possible.

The two mentioned embodiments of the invention are shown schematically in FIG. This figure shows an embodiment in the lower part of the invention, in the case of Idem, the additional drain opening in the drainage channels each measuring room is located. The drum counter is shown in cross section. from the liquid to be measured flows into the inner chamber I of the drum counter. The meter is assigned three measuring chambers 2, 3, 4, in which the liquid in in a manner known per se one after the other through the openings 5, 6, 7. Direct after filling such a chamber, for example chamber 2, d. H. then, when the measuring edge 8 penetrates through the surface of the liquid, it is formed at the inflow point, so for example at 5, a liquid dome 9, which through Flow of the liquid towards the interior I in the previously known meter caused a measurement error. The subject matter of the invention is intended to eliminate this error special drainage openings IO in the drainage channels II arranged at such a point, that the outflow of the liquid through this opening only after the end of the Measuring process, but can take place in time that the liquid tip g cannot flow inwards.

Another embodiment is shown in the upper part of FIG. Here a special drainage line takes care of the drainage of the liquid dome I2, which are assigned to the measuring edge at each measuring space and which are guided in such a way that a In this case, too, the liquid drains off after the measurement process has ended to prevent the backflow of liquid to the intermediate channel I. is possible.

Another embodiment of the invention is shown in FIG. In order to support the action of the bore Io and the drum from the position in the The liquid tip g flows back, screwing it out as quickly as possible, is here According to the further invention, a collecting chamber I3 is provided on the outlet channel II, which absorbs the liquid emerging from the bore IO. This will increase the torque enlarged and the drum rotated faster from this position. Also can in that the outlet edge 15 of the collecting chamber I3 is at the same level as that of the Outlet channel II lies, a larger unmeasured overflow in spite of the deeper lying Bore OK only enter when the liquid level has already reached the drum bore has achieved d. H. the drum is overloaded. Through an opening in the wall the collecting chamber, which can be closed by a screw 14, is a The hole can be cleaned. The collecting chamber can also in the axial direction next to must be used in the outlet channel.

Fig. I represents the moment immediately after diving off the measuring edge 8 and shortly before the opening IO becomes effective in the case shown in FIG Exemplary embodiment, an operating phase is shown, which shortly after! shown in Fig. 1 is. Here the measuring edge 8 is a little more dipped, the level in the inner cylinder is due to the liquid flowing into the following Chamber sunk a little and the opening IO has just come into effect. The liquid flows through this opening into the collecting chamber I3.

Claims (4)

PATENT CLAIMS: I. Drum meters for measuring liquids, in which after the filling of the respective measuring space after the penetration of the Liquid surface through the measuring edge in the area of which a liquid dome forms, characterized in that a backflow of liquid from this liquid dome to the inside of the drum is prevented by the fact that each measuring space has an additional drainage opening is assigned so that the liquid cap by draining liquid from the measuring space on the outlet side disappears. 2. Arrangement according to claim I, characterized in that in the outflow channel (11) an additional opening (IO) is attached to such a point in each measuring space is that an outflow of the liquid through them after completion of the measuring process is possible is. 3. Arrangement according to claim I, characterized in that at each A special discharge line (I2) leading to the discharge side in the area of the measuring chamber The measuring edge is arranged in such a way that it allows the liquid to flow out after completion of the measuring process is possible. 4. Arrangement according to claim I or 2, characterized in that next to the outlet channel (II) of each measuring chamber an additional collecting chamber (I3) is arranged that the liquid emerging from the additional opening (IO) catches and thus increases the torque of the drum.