DE79348C - Control device for impeller water meters - Google Patents

Description

IMPERIAL

PATENTAMTX ^

CLASS 85: aqueduct.

In order to eliminate the deficiency which often occurs with impeller water meters, that same. If the information is too high for a large water flow, it will be based on the present Invention next to the actual inflow pipe arranged a second channel, which through an adjustable one from the inlet nozzle itself formed annular gap is fed.

The nozzle α, Fig. Ι, is screwed into the supply connection piece A and, with its edge and the conical bore of the connection piece A, forms an annular gap i, the size of which can be regulated by screwing in the nozzle A.

Instead of screwing in the nozzle, you can use it without a thread, so that it can is held in place by friction. The regulation of the gap can also be possible under certain circumstances be replaced by removing material or replacing the nozzle.

The chamber 0 is arranged between the secondary channel b and the annular gap i and can be formed by turning off the nozzle a on the outside or by turning the bore of the connector A out .

The annular gap i is now adjusted so that at the lower limit of the water consumption the throttling in this gap becomes so great that the main mass of the water passes through the narrowed nozzle α into the measuring space M and now relatively little water without a considerable jet effect through the channel b exits. This peculiar effect of the annular gap is explained by the following:

If one observes a flow of liquid moving forward through a straight pipe, as long as the through-opening of the straight pipe mouth corresponds to the sloping amounts of water, the same will flow past a small lateral opening of the pipe, such as the ring slot i represents, without at all or at all without sending considerable amounts of water through it.

However, the matter is different if the same pipe size or nozzle size increasing amounts of water flowing through. It then just becomes the water jet itself in living force 'increase, but it becomes the water through the significant constriction At the same time there is an opposite resistance at the muzzle, and the consequence of this is that there is a resistance in front of the muzzle there is pressure acting in all directions, which comes into its own in such a way that Liquid escapes through the annular slot. With a moderate increase in the amount of liquid this laterally escaping water will escape without significant pressure while at as the pressure of the diverted water increases, the pressure of the diverted water also rises proportionally.

For the side opening, however, a slot shape must be selected under all circumstances, hence the width of the gap in the wall in relation to the size of this opening is a very low one. A simple branch would therefore have the desired effect can not enter, because then even with small amounts of water there is too much lateral water Distraction would take place.

The effect of the device is significantly increased by the chamber ο, that with low water consumption the

living power of the amount of water is weakened even more.

In the case of greater water consumption, on the other hand, a considerable part of the water passes through the annular gap i into the chamber o, and the jet emerging from the canal b then acts more or less inhibitory on the impeller, depending on the direction of the mouth of the canal.

A modification of the device described results if the annular gap is not allowed to be formed by the nozzle α , but instead is laid directly on the wall of the nozzle A , as can be seen in FIG. Here, too, only very little water will enter chamber 0 through the annular gap i at low speeds, while at higher speeds, as a result of the narrowing of the nozzle α, more water will enter chamber 0.

Instead of the annular gap i , a row of holes i ^l can also be used, as can be seen from FIG. 3, for example. Here the holes are arranged in the nozzle wall itself, but it is also essential here that the holes are distributed over the entire circumference.

Claims (1)

Patent claim: A control device for impeller water meter with a secondary channel located in the wheel housing, consisting of an annular chamber 0 arranged in front of the latter, which with the annular slot i, which can be regulated by nozzle α , respectively. communicates with the openings i ¹ provided in the former, so that with a weak water inflow only a little liquid gets into the secondary channel b , while with a strong inflow this channel comes into full effect. 1 sheet of drawings.