DE861279C - Total consumption measuring or counting device for four quadrants - Google Patents

Description

Total consumption measuring or counting device for four quadrants the The invention relates to a total consumption measuring or counting device for four Quadrants, which are mostly used in remote counting technology for other purposes is composed of conventional devices and is characterized by high measurement accuracy nffd operational reliability. The four quadrants correspond to the different ones Operating states of a system, which can be seen in the various possible phase positions between mains voltage and mains current.

The first quadrant includes all operating states between pure capacitive load and the in-phase of mains voltage and current at Consumption of energy, the second quadrant all operating states between the last described case and the purely inductive load. The third quadrant includes the operating states between the purely inductive load and the phase opposition of voltage and current on delivery, the fourth quadrant the operating states between the last-mentioned load case and the purely capacitive load.

According to the invention, each of the lines whose consumption is summed up should be, two active and two reactive consumption meters each for a quadrant pair with return inhibition or empty return and pulse generator assigned. Act here all active consumption meters for quadrant pair I and II rotating forward, all active consumption meters for quadrant pair III and IV rotating backwards on a first total pulse generator, all active consumption meters for the quadrant pair III and IV turning forward and all active consumption meters for the quadrant pair 1 and II rotating backwards on a second total active pulse generator, all blind consumption meters for quadrant pair I and IV turning forward, all blind consumption meters for quadrant pair II and III rotating backwards to a first total dummy pulse generator and all dummy consumption meters for rotating the pair of quadrants II and III forward, for the pair of quadrants 1 and IV Turning backwards on a second total dummy pulse generator. Continue to press the total pulse generator of one type, e.g. the two total active pulse generators Directional relay with one of the pulses of the total pulse generator of the other type flow switch through which these pulses are assigned to four of the four quadrants Receivers with registration devices distributed in such a way that each of the total consumption of the other type on the registration device assigned to the quadrant used is measured or counted.

An embodiment of the invention is shown in the drawing.

Fig. I shows the circuit diagram of the entire measuring device; Fig. 2 shows an embodiment for a direction relay; 3 and 4 show variants the embodiment of Fig. I. For the sake of simplicity, it is assumed that the Total reactive consumption should only be determined for two lines 1, 2 (Fig. I). If the total reactive consumption is to be formed for several lines, then is to expand the circuit accordingly.

Active consumption meters II, 21 and the reactive consumption meters are connected to line I 31, 4I connected, the active consumption counters I2, 22 and the line 2 Blind consumption meters 32, 42.

The active consumption meter 1-1 only runs when operating in the first and second quadrant, for example only if energy is drawn forward, while the active consumption meter2I runs backwards empty if it is not through a Return inhibition is held. When operating in quadrants III and IV, that is when energy is supplied, the active consumption meter II runs backwards or empty is held by a return inhibition, the active consumption meter 21 forward. The active consumption meter II measures the consumption for quadrants 1 and II, the active consumption meter 21 for quadrants III and IV. The same applies to the active consumption meters I2, 22. The reactive consumption meters work in a similar way. The reactive consumption meter 3I measures the capacitive reactive consumption for the quadrants I and IV, the reactive consumption meter 41 the inductive reactive consumption for the quadrants II and III. The same applies to the blind consumption meters 32 and 42.

Each counter is provided with a pulse generator 9. The pulse generator 9 of the active consumption meter II is connected to an electromagnetic latch mechanism I'I 1 of one first total active pulse generator 100 connected. The pulse generator of the counter 12 is with the Kiinkwerk II2, that of the counter 2I with the Klinkwerk I2I, that of the counter 22 connected to the latch mechanism 122. The Klinkwerke III act forward turning on a drive shaft of the total pulse generator IOO, the ratchet mechanisms 121, I22 on the other hand rotating backwards. Between the shaft attached to the clinker works and the pulse generator a certain idle state is switched on in a known manner. It is also the driving force executed in a known manner so that it is only actuated when the shaft rotates forward will. Since such sum impulses are known per se, they are not discussed here in more detail explained. The counters II, I2, 2I, 22 are also connected to the latch mechanisms 211, 2I2, 22Ij 222 of a second total active pulse generator 200 connected. The ones from the counters II and 12 actuated latch mechanisms 211, 212 act. but now turning that backwards from the counters 2I, 22 operated ratchet mechanisms 22I, 222 rotating forward on the pulse generator shaft a. Otherwise the arrangement is the same as in the case of the pulse generator 100. The use Backward rotating clinker works is necessary because, for example, the direction of energy flow in both lines I; 2 can be opposite and consequently the active consumption of the two lines are subtracted from each other and only the difference between these quantities must be transmitted by the pulse generator IOO, 200.

The total active pulse generator IOO only works when the operation both lines I, 2 moved in quadrants 1 and II or if the lines 1 and 2 have different directions of energy flow, but the energy flow predominates in the area of quadrants 1 and II. The total active pulse generator 200 works only if both lines I, 2 are in the area of quadrants III and IV or predominantly work in this area.

A corresponding circuit with total dummy pulse generators 300 and 400 is intended for the blind consumption meters. The forward turning pegs, z. B. 33I, 44I, are with + signs, the backwards rotating, z. B. 341, 432, provided with --sign. The total dummy pulse generator 300 works during operation or predominant operation in quadrants 1 and IV, the sum pulse generator 400 at Operation or predominant operation in quadrants II and III.

The total active pulse generator IOO operates an electromagnetic ratchet mechanism IOI of a direction relay 5, which is shown particularly in FIG. The total active pulse generator 200 actuates an electromagnetic ratchet mechanism 201. In the rest position, the The pawl 3 of the pawl mechanism 101 is the position shown with solid lines and catches up to the dashed line when an impulse arrives Position 30 off. The angle a between positions 3 and 30 corresponds to the travel the latches.

The tooth pitch of the ratchet wheel4 is slightly larger than this stroke. The same applies to the pawl 8 of the pawl mechanism 20I, but here is the The ratchet wheel 55 is offset by half the travel, that is, α - relative to the ratchet wheel 4. Both pawl 2 wheels sit on a shift shaft 10, which by means of a non-circular Disc, star switch I3, a current switch 50 to 52 controls. On the shift shaft IO also sits a ratchet wheel 54 under the action of a spring 53, whose division is slightly larger than. The ratchet gear 53,54 2 is urgent as a result the switching shaft IO in positions that are about half a Klinlçenhub against each other are offset.

If the KlinEwerk IOI is working, the wave IO remains in the one shown Position, and through the star switch I3, the switch 50 is in connection with the contact 52 held. The pawl 3 slides along the tooth flank 14 of the ratchet wheel 4, without advancing this. If, on the other hand, the latch mechanism 201 is actuated, then it strikes the pawl 8 in the position 80, and when returning to the position 8 is the ratchet wheel 55 advanced by half a tooth pitch. As a result, the other parts rotated by half a tooth pitch, the star wheel I3 provides the switch 50 free, which now springs over to the contact 5I and remains there. at all further strokes of the pawl 8, it slides along one flank of the gearwheel, without advancing the wave TO. Only when the Klinkwerk IOI is operated again, the switch 50 is switched back to the contact 52. In Fig. 2 is another another embodiment indicated by dashed lines, in which the latch mechanisms IOI, 20I by a power amplifier gearbox with auxiliary motors I5, differential gear I6, locking thumb 171, 172 and the non-circular disk 18 is relieved of the switching work. One such The gearbox works as follows: If the shaft 10 is rotated in the direction of the arrow, then the first part 161 of the differential gear I6 makes this rotation with and rotates the second part of the differential gear 162 with the locking thumb 171 out of the way of the thumb 172. The continuously energized auxiliary motor I5 then rotates the non-circular disk I8 by I800, so that the switch 50 on the contact 51 is turned over, taking the third part of the differential gear I63 in the direction of the arrow with. This becomes the second part I62 of the differential gear with the thumb I7I turned back into the path of the locking thumb 172 so that the motor 15 and the disk I8 can no longer rotate.

The generated by the total blind consumption impulses 300, 400 Pulses are transmitted via this switch 50 of the direction relay 5 to the registration devices provided receiver 8I to 84 quadrant-wise distributed. Keeps the energy exchange z. B. in quadrant 1, then the pulses go only to the receiver 8I, the registered the reactive consumption for the first quadrant. The switch 50 is there on contact 51, and the pulse generator 300 works.

When the operation is switched to quadrant II, the total dummy pulse generator works 400. The pulses then go to the receiver 82 for quadrant II. Changes now the direction of energy flow with inductive loading is in the quadrant III worked, then by the action of the total active pulse generator 200, the switch 50 transferred to contact 52, and since the pulse generator 400 is now working, get there the pulses to receiver 8-3 for quadrant III.

If the consumption is capacitive with the same direction of energy flow, then the total dummy pulse generator 300 works; since the switch 50 is on the contact 52, the pulses are passed to the receiver 84 for quadrant IV.

Should the wireless consumption be separated according to the four quadrants are registered, then control the total dummy pulse generator 300; 400 the direction relay 5, and the total active pulse generators 100, 200 transmit their pulses to the receiver 81 to 84: FIG. 3 shows essentially the same layout as FIG here the sum pulse generators 100, 200, 300, 400, in which the differences in consumption are formed between the individual quadrant pairs, equal the sums of the positive and negative summands supplied by intermediate sum pulse generator 10000, 2000, 3000, 4000. So z. B. in the intermediate pulse generator IOOO from the active consumption meter II to the KlinWkwerk IOII and those from the active consumption meter 12 to the Klinkwerk 1012 positive counting pulses are added and sent to the positively rotating latch mechanism IIOO des Pulse generator 100 passed on. The active consumption meter 2I given to the Klinkwerk 202I and from the active consumption meter 22 to the Klinkwerk 2022 negative counting pulses in the intermediate pulse generator 2000 summed up and sent to the negative The rotating ratchet mechanism 2100 of the pulse generator 100 is passed on, the same applies for the pulse generators 3000, 4000, 200, 300, 400.

In Fig. 4, instead of the receivers 8I to 84 are electromagnets 5 in, 520 switchable double tariff meters 810, 820, 830, 840 are used, the can be directly advanced mechanically by the totalizers 300, 400. in the The rest of the arrangement is the same as in FIG. 3.

The invention offers the advantage that the counting or measuring device, in which the reactive or active consumption is registered separately according to four quadrants is, even with total consumption measurement, in a simple manner from mostly by itself Devices commonly used in remote counting are assembled like a building block can be. For example, the receivers 81 to 84 can be conventional remote counters be. Since each counter only runs forwards, it is possible to achieve a high level of measurement accuracy achieve perfect operation.

Claims (3)

PATENT CLAIMS: I. Total consumption measuring or counting device for four quadrants, characterized by indicates that each line (1, 2, Fig. 1) two active (11, 21 and I2,22) and two reactive consumption meters (3I, 4I and 32, 42) each for a pair of quadrants (I and II, III and IV or I and IV, II and III) with return inhibition or empty return and with pulse generator (93 assigned are that all active consumption meters (11, I2) for quadrants I and II forward rotating, all active consumption meters (21, 22) for quadrants III and IV backwards rotating to a first total active pulse generator (IOO), all active consumption meters (zu, 22) for the Qudrants III and IV turning forward and all active consumption counters (II, I2) for quadrants 1 and II rotating backwards on a second sum active pulse generator (200), all blind consumption meters (3I, 32) for quadrants I and IV forwards rotating, all blind consumption meters (41, 42) for quadrants II and III Turning backwards on a first total dummy pulse generator (300) and all dummy consumption meters (4I, 42) for quadrants II and III turning forward, all blind consumption meters (31, 32) for quadrants I and IV backwards to a second total dummy pulse generator (400) act that the two sum pulse generator (Ioo, 200) of one type for the two total pulse generators (300, 400) of the other type with a direction relay (5) operate a current switch (50 to 52) through which the pulses of the other type flow, which these impulses to four receivers assigned to the four quadrants 1 to IV (8I to 84) with registration devices in such a way that the total consumption of the other type on the registration device assigned to the quadrant used is measured or counted. 2. Device according to claim I, characterized in that between the individual counters (e.g. II) and the total pulse generators (e.g. IOO) intermediate total pulse generator (e.g. 10000, Fig. 3 and 4) are switched on, the sum pulse generators (ion) feed the sums of the positive and the sums of the negative counting pulses. 3. Directional relay for total consumption measuring or counting device ¢ s according to claim I and 2, characterized in that two electromagnetically actuated ratchet mechanisms (IoI, 20I, Fig. 2), which in the same switching direction one by means of a non-circular disc (I3) od . Like. A switch (50 to 52) adjusting the switching shaft (Io) to drive half the ratchet path pawl strokes offset from one another have that the tooth pitches of their ratchet wheels (4, 55) are equal to or slightly greater than the pawl stroke (a) and that a ratchet gear (53, 54) is connected to the selector shaft (IO), which pushes them into positions, ie about half a ratchet stroke are offset from one another.