DE648849C - Circuit arrangement for totalizing several counters present in different stations - Google Patents

Description

It is already a circuit arrangement for electrically remote-registering liquid meters ο. Like. Known in which as a result of the movement of a driven by the knife 5 organ causes the registration to be immediately interrupted again. This is done by the fact that two circuits alternate through the circuit be closed, both over

ίο run a second contact device that regardless of the duration of the contact on the liquid meter, the immediate Interruption of each circuit causes and at the same time paves the way for the other Circuit prepared. The known device works with a rotating contact device that makes contact at two points there, and the device should prevent - that if the circumferential contact stops in the short-circuit position, the power source remains switched on and very much is consumed quickly.

Furthermore, a device for totalizing has become known in which of Pulses are sent to the output measuring units, which are initially sent to the sub-summing relay are fed. These sub-summing relays store a large number of pulses and only give an impulse to the main totalizer after reaching a certain number Further. On the other hand, there are also totalizers. became known at which are prevented by special mechanical but electrically controlled devices should that with simultaneous emission of pulses by several summand encoders Miscounts occur.

With all of these totalizers, however, errors can occur in the display of the totalizer caused by the fact that the grinding brushes on the contact devices when the output measuring units are jolted stand out so that several impulses are simulated when in reality only a single rotation of the measuring mechanism has taken place.

The invention relates to a circuit arrangement for totalizing several meters in different stations, each of which has a double contact device contains, in particular for counting the electrical work, in which the described Disadvantages are avoided in that the contact device is in the first position a first relay is triggered, which is via a self-holding contact holds and prepares a circuit for a second (pulse relay) relay, which is made to respond in the second position of the contact device 60 ^

*) The patent seeker stated as the inventor:

Dr.-Ing. Wilhelm Stäblein in Berlin-Hermsdorf.

and also holds itself. Contacts are actuated by the second relay in such a way that that the connection to the totalizer between the respective static S and those further back interrupted and the totalizer via a normally open contact is energized, and obtained by operating the totalizer the first relay a counter-excitation, which causes ίο a shutdown of this relay, whereby the second relay and the totalizer are also switched off again.

An embodiment of the invention is shown in the figure. It affects one Totalizer for connection to electrical meters. The counters are with contact devices provided through which the first, next, the first relay to respond which is held by a self-holding contact and closes a normally open contact in the excitation circuit of the second relay. Thereupon, the second relay is activated by the contact device of the meter brought, which also lasts until the now appealing summing device a normally open contact closes and the first relay is de-energized again, so that second relay drops out again. Provision is accordingly made that the totalizer only moves a step back when both relays respond, and that by responding to the summing device Relay can be made to drop out again. As described in more detail below Embodiment emerges, is a playing of the contact brushes in this circuit without influence, since the self-sustaining relays are not interrupted by a contact in the response circuit, but first. by opening the self-holding circuits to the Waste can be brought. The circuit is also made so that also at simultaneous contact from several meters, all pulses from the totalizer are correct be included.

In the exemplary embodiment 1, 2, 3 mean the output measuring units, where the individual Counters with associated relays and contact devices are located, 4 is the contact device on the counter axis, 5, 6 the contact brushes, 7 the first relay with the two windings 7 'and 7 ", 8 the second relay with the two windings S ', -8 "and 9 das Totalizing relay.

The impulse emitted by a counter and the reception of the impulse by the totalizing relay 9 does the following:

The contact device 4 rotates in the direction of the arrow, initially touching the Brush 5 and energizes relay 7 (circuit:

Plus bar, contact segment 4, brush 5, relay winding / ', minus bar). The relay 7 now closes its self-holding contact Yes ₁ \ (self-holding circuit: positive rail, contact Yes ₁ , winding 7 ', negative rail) and its working _{contact 7 O 2} , which is in the excitation circuit of the other relay 8. The contact segment 4 now leaves the brush 5 and touches the brush 6 after half a turn, so that the relay 8 is excited (circuit: positive rail, contact segment 4, brush 6, normally open contact 7 a->, relay winding 8 ', normally closed contact 9 r, Minus rail). The relay 8 closes its self-holding contact 8 O ₁ , its normally open contacts 8 a ₂ and Sa ₃ and opens its normally closed contacts Sr ₁ and 8r ₂ . Relay 8 initially remains energized via self-holding contact 8 O ₁ (self-holding circuit: positive rail, self-holding contact Yes ₁ , self-holding g ₀ contact So ₁ , winding 8 ", negative rail). The circuit for relay winding 7" is prepared via normally open contact _{Sa 2} which is explained below. The normally closed contacts 8 r _x and 8 r ₂ interrupt the control line to and from the totalizer 9 for the further away, z. B. at the point 3, lying counter. The totalizing relay 9 is excited via the normally open contact 8 a _s (circuit: positive rail, self-holding contact 7 O ₁ , go _{normally open contact 8a 3} , normally closed contact Sr ₂ of counter i, totalizing relay 9, negative rail) '. Relay 9 responds as a result, opens its normally closed contact 9 r and closes its normally open contact 9 a. The opening of the normally closed contact 9r has no effect on the relay 8, since it remains attracted via its self-holding winding 8 ″. The closing of the normally open contact ga, on the other hand, causes the counter-excitation of the relay 7 (circuit: plus-too rail, self-holding contact Yes ₁ , RelaiSwick- Iung7 ", normally open contact 8 a ₂ , normally closed contact 8 T _{1 of} the counter i , normally open contact ga, minus rail). The relay 7 is thereby caused to drop out. Since it both work Contact Yes ₁ a ₂ opens in the circle of relay coil 8 "and the working contact 7 in the circle of relay coil 8 ', also relay this case also the operating contact 8 a ₃ so that falls 8 again. Opens again, the Summenzählrelais 9 is re-energized, and therefore falls thus recording the counter revolution is completed by the summing relay contacts are all back in the w in the waste $ education position shown;.. the normally closed contacts Sr ₁ and Sr ₂ close again the operating lines for the more distant meters.

When the relay 8 responds, the iao self-holding contact 8aj must be earlier than or at least at the same time as the work con-

Close takt8a ₃ , otherwise the circuit of the winding 8 'will be interrupted by the opening of the normally closed contact 9r when the relay 9 responds, and relay 8 will drop out again' kartri. In this case also, the contact 8 opens a ₃ wi * Eder _r so that the meter relay 9 also decreases again. If the contact between segment 4 and brush 6 still exists, relays 8 and 9 pump during the entire contact period between segment 4 and brush 6. This is also avoided _{by setting the contacts 8% and 8 a 3 correctly} that the relay 8 receives a drop-out delay which is greater than that of the sum counting relay.

Another dimensioning rule for the re-

- lais should be derived from the obviously worst case that all counters are rotate at the same speed and spatial phase. The relay 7 then all respond at the same time, and the Contact segments 4 all touch their associated brushes 6 at the same time. The relays 8 then speak one after the other in some random order on, the totalizing relay 9 takes a step each time it is triggered and thereby switches in the manner described above via the relay 7, the relevant relay 8 again away. In the time until the brush s closes again, all relays 8 must therefore over their associated relays 7 are made to drop out, d. H. the time from the start of contact between segment 4 and brush 6 up to the start of contact between segment 4 and brush 5 must be used to process the entire Switching process of the entire relay chain are sufficient.

Claims (1)

40. Claim: Circuit arrangement for totalizing several in different stations existing counters, each of which contains a double contact device, in particular for counting the electrical work, characterized in that in the first position of the contact device a first relay is triggered, which is self-holding via a self-holding contact holds and prepares a circuit for a second (pulse transmission) relay, which is made to respond in the second position of the contact device and also holds itself, and that contacts are actuated by the second relay in such a way that the connection to the totalizing device between the respective station and those further back interrupted and The totalizer is excited via a normally open contact, by actuating the first relay a counter-excitation receives, which causes a switch-off of the first relay, whereby the second relay and the totalizer be switched off again. 1 sheet of drawings