DE2706344A1 - Liq. meter with non-uniform movement - has compensator with eccentricity between magnetic coupling axis and driving pin rotation centre - Google Patents

Abstract

The measurement element non-uniform movement is system conditioned. The meter has further a magnetic coupling whose two parts are separated by a non-magnetic wall, with their axes in line with each other. One coupling part is driven by a pin of the measurement element, and the other part is connected with a display device. Central axis (20) of the magnetic coupling (13) does not coincide (distance 22) with the centre of the driving pin (10) path to compensate the non-uniformity of the measurement element (8) motion. The driving pin (10) engages a radial slot (11) in one of the coupling parts (12).

Description

Liquid meter

With various types of liquid meters, especially rotary piston, Oval wheel and lemniscate counters, the movement of the measuring organ is even with uniform Flow of a liquid to be measured is not uniform in principle. The irregularity occurs with a constantly changing sign (forwards and backwards of the display) and is equal to zero again after every full revolution of the measuring element. This means, that the measurement accuracy from the beginning or from the end of the measurement based on the position of the measuring element is dependent; incorrect measurements that are very significant in percentage terms can arise when small quantities are to be recorded. In particular in the case of liquid meters for custody transfer purposes, the non-uniform movement of the measuring element or the so-called system error caused thereby will.

To compensate for the system error of liquid meters it is known (DT-OS 25 06 683), the rotary movements of the measuring element of a liquid meter to be fed to the display unit via a differential gear. Such differential gears are at.

for example designed so that they contain a slider crank. This consists e.g. of two not aligned, but against each other around a certain one Amount of offset axes, on one of which the entrained part, for example a crank pin, is attached, and on the other axis that driven part, for example a drive plate, is attached. In a radial slot of the drive plate engages the crank pin, so that the drive plate is carried along with a constantly changing effective radius. Imprinted by this additional irregularity in motion is caused by a Rotary piston meter coming non-uniform rotary movement of the measuring element in a largely converted to uniform motion.

Such a mechanical differential gear means a not inconsiderable one additional effort. This is why liquid meters have a magnetic coupling (DT-OS 25 06 683) the magnetic coupling has been designed so that it has the non-uniform Compensates for movement of the measuring element. In the known magnetic coupling are to this Purpose the axes of the two coupling parts separated by a wall out of mutual alignment by one of the extent of the non-uniform rotational movement the drive member dependent distance from each other arranged offset, and the Magnetic coupling parts each have a magnet. With this well-known Magnetic coupling must be a specially designed coupling so that a liquid meter equipped with such a magnetic coupling in comparison to a counter with a mechanical differential gear, although considerably more cost-effective can be produced, but always through the specially designed magnetic coupling is still heavily burdened in its manufacturing costs.

The invention is therefore based on the task, a liquid meter to train with system-related non-uniform movement of its measuring organ so that it can be produced particularly economically despite compensation for the system error.

To achieve this object, the invention is based on a liquid meter with system-related non-uniform movement of its measuring organ and with one off two aligned with their axes and separated by a non-magnetic wall Clutch share existing magnetic coupling, in one of which Coupling part of the driving pin of the measuring element engages and the other coupling part is connected to a display unit.

According to the invention, the central axis is in this liquid meter the magnetic coupling according to the extent of the non-uniform movement of the measuring element arranged eccentrically to the center of the path of the driving pin, and the driving pin engages in a radially extending slot of one coupling part.

The main advantage of the liquid meter according to the invention consists in the fact that a conventionally designed magnetic coupling can be used, a magnetic coupling in which the axes of the two coupling parts are aligned are arranged and in which the arrangement of the magnets on the two coupling parts is done in the usual way. One coupling part only needs to be provided with a radially extending slot so that the driving pin of the measuring element can intervene.

To explain the invention, an exemplary embodiment is shown in the figure a liquid meter according to the invention shown in section.

The liquid meter shown contains a pot-shaped housing 1, which together with a cover part 2 forms a measuring chamber 3. The lid part 2 is by means of a fastening ring 4 on a flange 5 of the pot-like housing 1 attached.

Inside the measuring chamber 3, an inner ring 6 is provided in the usual way, within which a guide pin 7 is arranged. The measuring chamber 3 contains a Ring piston 8 which is provided with a guide pin 9. From the lead cone 9 a driver pin 10 is held. The annular piston 8 is by means of the guide pin 9 around the guide pin 7 of the measuring chamber 3 within the inner ring 6-at his Rotary movement guided on a circular path.

The driver pin 10 engages with its guide pin 9 protruding end into a radially extending slot 11 of a coupling part 12 of a magnetic coupling 13.

The coupling part 12 is just like a further coupling part 14 of the magnetic coupling 13 on a respective bearing pin 15 or

16 mounted, which are attached to a wall 17. The wall 17 from non-magnetic material separates the measuring chamber 3 from a transmission 18 for transmission of the rotary movements on a not shown, connected to a drive shaft 19 Display work.

The central axis 20 of the magnetic coupling 13 is eccentric to the axis 21 of the guide pin 7 and thus also to the center of the path of the annular piston 8 arranged. The eccentricity 22 is corresponding to the extent of the non-uniform Movement of the annular piston 8 selected. This ensures that the System errors are not noticeable even with small measured quantities, because by the corresponding dimensioned eccentric arrangement of the magnetic coupling to the guide pin 7 the measurement regardless of the beginning and the end with respect to the position of the annular piston 8 corresponds to the display with sufficient accuracy.

With the invention, a liquid meter is proposed in which through an eccentric arrangement of the magnetic coupling to the center, which is easy to make the path of the driving pin and through a radially extending slot in the driven coupling part compensates for system errors in an economically favorable manner is.

1 Figure 1 claim L e r s e i t e

Claims (1)

Patent claim liquid meter with systemic non-uniform Movement of his measuring organ and with one of two arranged in alignment with their axes and a magnetic coupling that is separated by a non-magnetic wall, in which one coupling part engages a driving pin of the measuring element and which another coupling part is connected to a display unit, characterized in that that the central axis (20) of the magnetic coupling (13) the extent of the non-uniform Movement of the measuring element (8) correspondingly eccentric (22) to the center (21) of the Track of the driving pin (10) is arranged and that the driving pin (10) in a radially extending slot (11) of one coupling part (12) engages.