DE1265441B - Volume measuring device - Google Patents

Description

Volumetric meter Addendum to patent: 1147 767 The invention relates on a volumetric measuring device with a built-in in a liquid flow and driven by this liquid motor with a volumetric motor arranged behind it Counters in a form-fitting or force-fitting connection.

The flow through a valve is the fluid motor immediate line controllable. It is a further development of the German patent specification 1 147 767 described device. In the case of the counter after the The main patents are the liquid motor and the volumetric counter on parallel lines Axes arranged. Both are connected to one another by a gear train.

As a result of the connection by means of a gear drive, the volume measuring device relatively expensive.

The object of the invention is therefore to make this transmission superfluous make in order to achieve a cheaper and a simplification in the structure. this happens in that the rotatable preferably designed as a rotary piston Parts of the liquid motor and the meter with the interposition of one at the same time serving as a bearing partition are each arranged on a common shaft.

Such a construction also makes the entire volumetric device its outer construction lines have been reduced considerably in size.

The meter can also be arranged in front of the motor, viewed in the direction of flow will. This has the advantage of regulating the pressure between the engine and the counter is based on the stable level of the pre-pressure. The engine is doing this in addition to the throttle device and the counter to the pressure pump.

Due to the more stable conditions on the preprint side, the Pressure tapping by the control device more precisely, so that measurement inaccuracies through incorrect pressure tapping can be avoided.

An exemplary embodiment of the invention is shown in the drawing. It shows F i g. 1 shows a vertical section through the device and FIG. 2 a horizontal one Section along line II-II of Fig. 1.

In a housing 1 there is a liquid motor 3, for example a pair of oval gears rotating in a chamber 23. The two Ovairwheels 3 are open Shafts 4 and 2 attached.

A volume counter also equipped with oval wheels 5 runs, in FIG. 1 shown located under the liquid motor, in a measuring chamber 27 um. The two Ovairwheels 5 are slid axially on the shafts 4 and 2, are non-rotatable with respect to the shafts.

The two pairs of oval gears are separated by a partition 28 suitable bearing material, for example hard carbon. Made of the same material are above the pair of oval gears 3 a measuring chamber wall, plate 29, and below of the pair of oval gears 5, a measuring chamber wall, plate 20, is arranged. A spring 31, possibly also several, with two pieces, one is preferably on each of the arranged both axes, presses or press the plates 20, 28 29 and the between them located oval wheel pairs 3 and 5 upwards against a cover 10 as an abutment, so that the pistons (oval gears) slide in the chambers with as little play as possible 23 and 27 is taken care of. The spring or springs 31 can also be adjusted by adjusting screws be replaced, by means of which a minimal running clearance can be fixed. It is also possible, the differential pressure between the inlet and outlet side of the device for pressing the pairs of oval gears and the bearing parts against each other when constructive Arrangement to use.

In the housing 1 there is also an inflow channel 19 and an outflow channel 12. Between the two extends as a connection next to the direct passage through the bracket 23 a bypass line or passage 25 in which a valve 17 with a Throttle-shaped shut-off body 27 is used. The shut-off body 27 is slidably slid on a rod 28. It stands under in the closing direction the action of a compression spring 29. By means of a screw plug screwed into the bottom part 16 21, the rod 28 is adjustable. The spring preload can thus be changed.

The measuring liquid makes its way from the inlet 19 into the outlet 12. The liquid motor 3 conveys only about half as much liquid as from the counter 5 is required so that in a channel connecting the two chambers 23 and 27 or room 22 the pressure drops. The counter 5 works as a pump. At a specific, very low speed, d. H. a low flow, is through the column of the liquid motor 3 so much measuring liquid flow in that before and downstream of the meter 5, that is to say in the channel 22 and in the outlet 12, the same pressure prevails. The differential pressure is therefore zero. The requirement for the flow is thus on a differential pressure of zero is satisfied, and the measurement result is error-free.

When the flow rate increases, the between the inlet 19 and the channel 22 increasing differential pressure, the valve 17 open. As a result, as much measuring liquid can flow through as for operation of the counter 5 is required for the condition differential pressure zero. The valve 17 is built to meet this requirement. His shut-off cone 27 is also like the characteristic of the compression spring29 with the gap losses of the liquid motor 3 precisely matched.

Claims (5)

Claims: 1. Volume measuring device with one in a liquid flow built-in and driven by this liquid motor with a behind it Counter in form-fit or force-fit ger connection in which the flow through a Valve can be regulated via a line bypassing the liquid motor, according to the patent 1147767, characterized in that they are designed as rotary pistons (oval gears 3) rotatable parts of the liquid motor and the meter (5) with interposition a dividing wall (28) which simultaneously serves as a bearing, each on a common Shaft (4 or 2) are arranged. 2. Volume measuring device according to claim 1, characterized in that the the flow through the bypass line (25) regulating valve (17) one as a throttle acting shut-off body (27) has. 3. Volume measuring device according to claims 1 and 2, characterized in that that the shut-off body (27) is adjustable in its throttling effect from the outside. 4. Volume measuring device according to claim 1, characterized in that the measuring chamber walls (29 or 20) are made of hard coal. 5. Volume measuring device according to claim 4, characterized in that the with the front chamber walls provided parts (20, 28, 29) in the housing (1) Are axially displaceable and od by springs (31), adjusting screws Front sides of the rotary piston (3 or 5) can be pressed.