DE2627129A1 - ARRANGEMENT FOR DETERMINING THE AMOUNT OF A FLOWING MEDIUM EXCEEDING A SPECIFIED AMOUNT BY QUANTITATIVE MEASUREMENT WITH THE HELP OF A PULSE COUNTER - Google Patents

Description

SIEMENS AKTIENGESELLSCHAFT Our mark

Berlin and Munich £ VPA 76 P 3 f O 9 FRG

Arrangement for detecting the amount of a flowing medium exceeding a predetermined amount by quantitative measurement with the help of a pulse encoder counter

The invention relates to an arrangement for detecting the amount of a flowing amount exceeding a predetermined amount Medium by quantitative measurement with the aid of a pulse generator counter, the pulses emitted by this on a the amount of presettable pulse counter, which, when its preset number of pulses is reached, an overconsumption counter brings it into effect and which returns to its starting position with the help of a time base counter after each measuring period has elapsed is reset.

An arrangement of this type has become known from FR-PS 1 475 885. In this known device, an electronic counter is used as the over-consumption counter, the input of which is connected to the pulse generator counter via a gate
stands. The door always receives an opening pulse from the pulse counter if the preset number of pulses is exceeded within a measuring period. After a measuring period has elapsed
the pulse counter is set to zero with the help of the tent base counter
reset and the gate closed so that the now arriving pulses are again accumulated in the "pulse counter. Since the pulse frequency of the pulse generator counter can be very high, an electronic overconsumption counter is used in the known arrangement. The disadvantage here is that devices must be provided so that in the event of failure of the supply

HS 21 RM / 9.6.1976 _{7Q9851 / 0493}

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supply voltage the meter reading of the overconsumption meter is retained. Another disadvantage of the known arrangement is that Individual pulses can be lost, especially at high pulse frequencies.

The invention is based on the object of an arrangement of the initially to create described type, which is simpler in construction than the known arrangement and that as an overuse meter a conventional roller counter known per se can be used, even if the pulse frequency of the pulse generator counter is relatively high. The arrangement according to the invention is characterized in that the pulse counter after reaching its preset Pulse number triggers a pulse that both advances an overconsumption counter by one step and resets the time base counter to its original position. The time base counter is preferably designed as a pulse counter, at the input of the mains voltage and the output via a monoflop with the reset input of the pulse counter is connected and that the output of the pulse counter via another monoflop on the one hand with the reset input of the pulse counter and the time base counter as well as the input of the overconsumption counter.

The invention is explained in more detail with the aid of the drawing, in which an exemplary embodiment of the arrangement is shown schematically.
Show it:

Figure 1 is a circuit diagram and

FIG. 2 is a diagram showing the operation of the device .

1 with a pulse counter is referred to, which has, for example, nine counting stages. The pulse counter 1 receives from a pulse generator counter The pulses emitted are supplied via an input terminal 2. A smoothing element is used via an input terminal 3 4 a time base counter 5 is supplied with the line frequency of 50 Hz. This time base counter 5 basically represents a frequency divider represents, for example, the network frequency so low that at the output 6 of the time base counter 5 a

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Measuring period pulse is emitted. With a 14-digit frequency divider, this gives a measuring period of 5 minutes 27.68 seconds. This measuring period pulse is fed to a monoflop 7, which acts on the reset input R of the pulse counter 1 via a diode 8. The pulse counter 1 is therefore always reset to the starting position after the given measuring period if its content is less than nine pulses. The output 9 of the pulse counter is connected to the input of a further flip-flop 10, which always receives an input pulse when the pulse counter has passed, that is, a pulse occurs at the output 9. The output 11 of the monoflop 10 is connected on the one hand via a line 12 and a resistor 13 to the reset input R of the pulse counter 1 and on the other hand via a line 14 to the reset input R of the time base counter 5 connected to the base of a transistor 16, the emitter of which is connected to the negative pole and the collector of which is connected via a coil 17 of an electromechanical overconsumption counter 18 and a resistor 19 to the positive pole 20 of the supply voltage. The coil 17 has a diode 21 connected in parallel to prevent overvoltages.

The invention is explained in more detail with reference to FIG. In line a, the work is plotted as a function of time, the work A corresponding to the capacity of the pulse counter 1 nine pulses within the assumed measuring period of 5 minutes is 27.68 seconds. In line b, a series of impulses is shown, with the frequency of this Pulse series with fluctuating power consumption also is discontinuous. Each pulse in line b represents a certain predetermined power quantum. At time to the time base counter has just reset the pulse counter 1 to zero via the monoflop 7. As soon as the first impulse appears the content of the pulse counter 1 is increased by one, as can be seen from line a of FIG. Within five pulses were received in the first measurement period, i. H.

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the power threshold of nine pulses is not reached. The pulse counter 1 is reset via monoflop 7 and starts counting from zero. Within the second measurement period eight impulses have arrived, so that nothing else happens either. This will follow within the next measurement period The pulses from the pulse generator are so close to one another that the pulse counter is set to 27.68 seconds before the measurement period of 5 minutes has expired 1 is run through. The one-shot 10 is triggered by the pulse appearing at output 9 of pulse counter 1, which causes both a reset of the pulse counter 1 and a reset of the base counter 2. Also receives the base of the transistor 16 positive potential, so that the overconsumption counter 18 responds and advances by one step. As can be seen from line a, this is the measurement period shorter, since the time base counter is also set to zero, so that the next measurement period is much earlier begins. Since the pulse counter 1 is also run through in the following measuring period before the measuring period has expired, Here, too, a pulse is emitted to the overconsumption counter, as line c of FIG. 2 shows. Afterward a normal measuring period follows again with the constant measuring period time of 5 minutes 27.68 seconds, as FIG. 2 shows.

Compared to the known arrangement according to FR-PS 1 475 885 has the / inventive arrangement has the advantage that the overconsumption counter does not need to be designed for the possibly high pulse frequency of the pulse generator counter. It is only switched on with every ninth counting pulse, so that this is an electromechanical pulse counter can use instead of having to use an electronic counter, which in turn has a separate display device is required and measures must be taken so that the display is displayed in the event of a supply voltage failure is also preserved.

Instead of a time base counter that divides the network frequency, a generator can usually be used,

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which, however, must then be able to deliver a very constant frequency. The duration of the measuring period can also be changed; it may be made adjustable. In the same way, the pulse counter 1 can have more or fewer counting stages or the counter content can be designed and set variably. The in the description ■ ·. The values given are only to be understood as an exemplary embodiment. In particular, it is possible to design the pulse counter 1 in such a way that an electromechanically actuated over-consumption counter can be used with certainty.

4 claims
2 figures

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Claims (4)

- / - 76P 3 109 FRG patent claims ~ Ä 1. Arrangement for detecting that which exceeds a predetermined amount Amount of a flowing medium by quantitative measurement with the aid of a pulse encoder counter, where the pulses emitted by this are sent to a pulse counter that can be preset to the amount its preset number of impulses brings an overconsumption counter into effect and after a each measuring period is reset to its starting position with the aid of a time base counter, characterized in that that the pulse counter (1) triggers a pulse after reaching its preset number of Irapulses, which both a Uberconsumption plant (18) advances by one step and also resets the time base counter (5) to its starting position. 2. Arrangement according to claim 1, characterized in that the time base counter is designed as a pulse counter on which Input the mains voltage and its output via a monoflop (7) with the reset input (R) of the pulse counter (1) is connected and that the output (9) of the pulse counter (1) via a further monoflop (10) on the one hand with the reset input (R) of the pulse counter (1) and the time base counter (5) as well as the input of the over-consumption counter (18) is connected. 3. Arrangement according to claim 1 or 2, characterized in that the overuse meter (18) is a known per se Roller counter is used, which is achieved with the help of a Stepper motor or an electromagnetically operated pawl can be advanced. 4. Arrangement according to claim 3, characterized in that the required power supply via an additional winding one of the counter voltage coils. 70985 1/0493 ORIGINAL INSPECTBD