DE1179017B - Counter checking system - Google Patents

Description

Meter test system Domestic water meters are tested on test stands with a measuring vessel that normally has a capacity of 1001. In the lower measuring range, i. H. below 5% of the nominal load, therefore, in some cases, very long test times are required. In addition, the meters must be read before and after the test and then the the first reading to be subtracted from the second, by the amount flowed through in the test Amount to be able to determine.

To improve the known test stands or to shorten the Test time, it is known to attach a device to a comparison counter, with which the flow rate by counting the revolutions of the starting shaft in fractions one revolution photoelectrically, for example by a photocell, by means of reflection is detected. With this test method there is always a calibrated comparison meter required, to which the meter to be tested is compared. A calibrated comparison meter over time, however, it is not as constant as a calibrated measuring device. He often has to be recalibrated in a conventional test station with a Measuring vessel. If an error in the comparison counter is not recognized immediately, then also the counters to be checked, which were compared with it, with this error afflicted and must all be checked again.

Electromechanically working test devices are also known, in which one is placed on the start-up star on each meter to be tested and The wave carried along by it is electromagnetically coupled with a pointer as soon as the liquid level triggers a contact in a measuring vessel. Another contact switches the clutch when the fluid level has reached its maximum limit out again. On a considerably enlarged and heavily subdivided dial the pointer then indicates the flow rate. The disadvantage of this design is that at The cover must be removed for each meter in order to put the shaft on the star to be able to. Furthermore, a mechanical device sooner or later shows signs of wear on who are the causes of failure.

The subject of the invention does not have the defects mentioned. at there is no wear and tear because the transmission is photoelectrically direct from each individual counter is made on the reading or testing device, which is why a comparison counter is not required. It is characterized by the fact that the run-up pointer or start-up star is designed as a disc, which the incoming light rays interrupts. This trained according to the invention Start-up star remains on everyone Counter. It is therefore not necessary to remove the meter hood in each case.

Will continue to be the person entrusted with the examination, for example by using a table tailored to the corresponding meter size, from which the plus and minus errors can be read up to one place after the decimal point are supported, then can with a single reading of the electrical counter the result can be taken immediately without having to calculate.

The measuring vessel itself is equipped with an electrical contact device provided, which gives a contact at exactly 10 1 content, through which a shutdown of the water flow is effected. It can do this either, as is known, by an electrical one Solenoid valve happen or when applying the ffieenden start by distraction of the water jet by means of an electrically operated flap.

The invention is shown in the drawing, for example. It Fig. 1 shows a meter test stand seen from the side, Fig. 2 shows a section through the device which detects the rotation of the start-up pointer, FIG. 3 a vertical Section through a thrust washer and FIG. 4 is a plan view of FIG. 3.

With the test table 1, the measuring vessel 2 stands for 10 1, for example Content related. The measuring vessel 2 is arranged on a stand 3 and has above a collecting funnel 4, in which the lines 5 and 6 from the meter 7 incoming liquid is admitted. The line 5 is through a solenoid valve 8 lockable. With 10 electrical cables are referred to, which lead to electrical devices 11, such as pulse converters, electrical remote meters and switching devices.

The meter 7 is the liquid to be measured through a line 12 supplied. On the meter housing is a pulse generator head 13 put on, with which the revolutions of the start-up pointer are recorded. The pulse generator head 13 is by means of an eccentric clamping device 14 on the housing head 15 of the meter 7 recorded. A photocell6 and a light source are located in its housing 17th

Both devices are aligned with the thrust washer 18 of the counter 7.

The thrust washer 18 can be used as a washer for the intended purpose be formed, which is pierced by radially extending slots 19.

Below it is a disk 20 with a reflective surface.

The light source 17 casts an outwardly shielded and bundled Light beam on the thrust washer 18 and passes through the slots 19 on the mirror 20. From there, this light beam becomes the photocell 16 according to the slots is reflected and is converted into pulses for via an associated electrical device converted the counter.

For the example shown, there are ten slots in the thrust washer 18 intended. Accordingly, the light beam becomes one revolution of the slotted disc 18 interrupted ten times. With each interruption the photocell 16 gives a pulse to a pulse converter 11 a, which amplifies it to an electric counter 11 b forwards. Instead of having slots, the thrust washer can also be used directly reflective surfaces are provided.

For manufacturing and economic reasons, it is advisable to the thrust washers for counters with photoelectrically transmitted quantity counting should be tested to train as plastic injection molded parts. To be particularly good To obtain reflective surfaces, these are advantageously made mirror-finish. A perfect mirroring can be achieved if a highly polished one in the disc 18 Nickel sheet or another mirror-like pane is injected. The mirror effect can also be achieved if a transparent molded part is viewed from below a layer of mercury is vapor-deposited. So that the other, very smooth surface the thrust washer 18 cannot affect the photocell 16, it is useful to all non-reflective sectors 21 are not parallel, but at an angle to the to let the actual mirror surface run. The ones that meet them Rays of Light source 17 are then reflected in other directions and can therefore not have adverse effects on the photocell. The reflective parts of the thrust washer 18 are denoted by 22.

Claims (5)

Claims: 1. Meter testing system consisting essentially of a test table and a measuring vessel connected to it, in which the Contents reduced to a fraction of the contents of the normally used container is compared with the meter to be tested and the detection of the flow rate by counting the revolutions of the starting shaft in fractions of a revolution photoelectrically, for example by a photocell, carried out by means of reflection, characterized in that that the start-up pointer or start-up star is designed as a disc, which the incoming Interrupts light beams. 2. Meter testing system according to claim 1, characterized in that the thrust washer (18) is designed as a reflector, the mirror surface (22) interrupted by non-reflective sectors (21) corresponding to the reduction in size of the container is. 3. Meter testing system according to claim 2, characterized in that the reflective surfaces (21) of the thrust washer (18) produced by spraying are. 4. Meter testing system according to claim 3, characterized in that the non-reflective surfaces of the thrust washer (18) to the reflective surfaces (22) stand at an angle. 5. Meter testing system according to Claims 1 and 2, characterized in that that the thrust washer (18) is a transparent disc on from below a reflective mass on the corresponding sectors, e.g. B. mercury, vapor-deposited is. Documents considered: Belgian Patent Specifications No. 504,381, 547,653; French Patent Nos. 1126 536, 1128 171; U.S. Patent No. 2 510 327.