DE296818C - - Google Patents

Description

IMPERIAL

kV PATENT OFFICE.

PATENT LETTERING

CLASS 21 e. GROUP

SIEMENS-SCHUCKERT WERKE G. m. B. H. in .SIEMENSSTADT b. BERLIN.

Patented in the German Empire on April 4, 1915.

When distributing electrical energy through intercity centers, it happens that several Consumption points that are spatially far apart for the account of the same customer are supplied. This can be B. be the case with an estate -with far away Vorwerke or a group of localities whose communities are based on common Get energy bill.

ίο Will in such a case between the Suppliers of electrical energy and the customer billing according to the maximum consumption tariff agreed, it is unreasonable if, as the maximum consumption of the group of consumption points simply the sum of the data from the maximum consumption meters of the individual consumption points is taken. Because In general, the highest consumption will be achieved within the contract period. B. Summer or Winter half-year, do not occur in all consumption points of the group at the same time, but in one earlier, the other later. This has to create a certain balance between the consumption points and consequently the maximum consumption of the group be smaller than the sum of the maximum consumption values of the individual consumption points. In order to be able to base the billing on the maximum group consumption, you somehow determine its worth. The following can be used to solve this problem Keep an eye on the way: You create a special network for the group of consumption points, feeds this network at one point through a branch from the distribution network of the control center and installs a maximum consumption meter in this junction. In practice this It will be difficult to tread the path because of the costs of the special network decide.

Another means that can be used in AC systems is the so-called summation circuit of current transformers, which are sometimes used in central stations to determine the Load applied to a group of machines or a group of feeder lines will. For the purpose considered here, a system with a simple Alternating current perform this summation circuit in the following way:

At each junction from the distribution network of the headquarters to one of the group members A current transformer is installed in one of the lines at the point of consumption. From the secondary terminals of all of these current transformers one brings together special lines after one place. Here are the lines connected to the peak consumption meter or to the primary winding of a current transformer, to the secondary of the maximum consumption

meter is connected in such a way that the current transformers of the consumption points are connected in parallel to the maximum consumption meter or its current transformer are working.

This summation circuit would be for a three-phase system with unequal loads on the three phases of current transformers according to the principles applicable to consumption measurement in the three-phase network with at least two current transformers in each consumption point branch and two current transformers for the maximum consumption meter to execute.

Such a summation circuit does not cause as high investment costs as the first one mentioned system in which a special high-voltage | network is required; but it still requires considerable effort for the lines, which lead from the current transformers of the consumption point feeders to the maximum consumption meter. Because these lines must in consideration of the voltage drop.

To cover the costs of the special required to measure the maximum group consumption To reduce the line system, a new type of device is proposed here, which makes use of the familiar thought, the movements, in a special way different consumption meters by power surges after one the transmitted power surges transferring totalizing device.

Cables are also required for transmission through power surges. Since these lines only have to carry current surges, not measuring currents of a precisely defined strength or strong operating currents, the value of their resistance only plays a subordinate role. The lines can therefore be made of cheap material, e.g. B. iron wire, only require inexpensive insulation, such as the telegraph lines, can be reduced in number without damage by earth return and therefore cause only a relatively low effort.

For the purpose specified at the beginning and for the one yet to be described Peculiarity of the new facility will take advantage of these advantages of using electrical surges in achieved particularly high, because the consumption points to be monitored are usually are spatially very far apart, and because the new facility makes it possible with a single metal line connecting the consumption points in a row and im

• The rest of them get by with earth return lines.

For the following description of the invention, the definition of the term “maximum consumption” is assumed, on which the maximum consumption meters based on the meter principle are based. The highest energy consumption in a certain time, divided by this time, is considered the maximum consumption, which is a performance variable in any case. Is this time (T) z. B. assumed equal to an ^x / ₄ hour, and the highest energy consumption occurred _{during Y 4} hours (V _mas ) z. B. equals 2.5 kilowatt hours, so is the maximum consumption

2.5
0.25

== 10 kilowatts.

Devices for measuring the maximum consumption defined in this way are e.g. B. in the German patents 137115 and 213816 of class 21 e described.

With devices according to the first-mentioned patent specification, the invention can be realized by the device, which is calculated, for example, for a group of three consumption points A, B, C and shown schematically in the drawing.

In the maximum consumption meter at consumption point A, let R _{A be} a wheel that is friction-coupled with the meter in the maximum consumption meter, the so-called "measuring wheel"; the translation between it and the counter is chosen so that the wheel does not fully rotate in the set time T even with the possible maximum _{consumption F raax.} As long as it is coupled to it, the meter gives the measuring wheel a rotational speed proportional to the instantaneous consumption (watt consumption).

The measuring wheel is provided with a ratchet 2; A pawl 3, which is moved by the armature 4 of an electromagnet Ma , can engage in its teeth. If current surges flow through the winding of this magnet, the pawl 3 plays and switches the measuring wheel back counter-clockwise step by step, uncoupling it from the meter at each step by overcoming the friction in the friction clutch.

This movement of the measuring wheel comes to an end when an arm 5 connected to it has flipped a switch Sa into the position shown. Before the arm 5 annually grips it, this changeover switch is held by an overweight indicated at 6 in the position that the changeover switches Sβ and Sc have in the drawing. If the arm 5 has laid it around, it can also be held in this position by an electromagnet m_ \ whose movable core is connected to it.

In the consumption points B, C the same organs can be found with the same, only through

the indices different names again. The circuit of the switch S, the magnets M and m can be seen in the drawing.

A line 7, which contains a breaker 9 driven by a motor 8, leads from the pivot point of the changeover switch Sa via the switch 10 to a current source Q. From there, a line 11 leads via the winding of a magnet N at 12 to earth.

The magnet N can act on a climbing wheel 15 by a pawl 14 moved by its armature 13. This wheel is z. B. pulled by a weight 16 in a certain by pin 17 and fixed stop 18 initial position. During the movement caused by the pawl 14, the wheel can adjust a drag pointer (not shown), the maximum consumption indicator.

To consider the mode of operation of the entire system, it is initially assumed that the switch 10 is open, the interrupter 9 is stationary, that the changeover switches 5 are all in the same position as Sß and Sc in the drawing, and that the measuring wheels are at any angle from their initial positions are rotated forward by the counter ". Now the motor 8 is started by a clockwork, the interrupter 9 is set in rotation and, when it has the appropriate number of revolutions, the current source Q is switched on by closing the switch 10. Then current surges flow through the magnets N and ma- to consumption point B, the power surges do not enter because at first not to have the position shown so by assumption of the switches Sa, but the position as the other switch. through the power surges that is of parts Ma and 2, 3, 4 existing switchgear of consumption point A. is put into operation and also the summing switchgear consisting of parts N, 13, 14, 15 Each current surge the measuring wheel Ra is brought back by one step and the climbing wheel 15 on the summing switch mechanism is rotated forwards by one step from the initial position, ie counterclockwise. After a number of current surges and steps of the measuring wheel Ra and the switching wheel on the 'summing switchgear, which corresponds to the initial deflection of the measuring wheel R _A , this measuring wheel returns to its starting position and puts the switch S _A in the position shown. As a result, it makes the switching mechanism of its own consumption point ineffective and instead connects the switching mechanism of consumption point B with the power source and the summing switching mechanism. This circuit status of the entire system is shown in the drawing.

The same game that previously took place at consumption point A is now repeated at consumption point B. The summing switch gear continues its wheel in the same way; if the measuring wheel Rß is brought back to its initial position, the ratchet wheel 15 has made a deflection which corresponds to the sum of the deflections of Ra and R _J} at the beginning of the retrievals. If the switch Sb is thrown by the retrieved measuring wheel Rß , the switching mechanism of the consumption point C continues the game, and the summing switching mechanism switches its switching wheel on. After retrieving the measuring wheel Rc , the ratchet wheel 15 has a deflection which corresponds to the sum of the deflections of Ra, Rß, Rc at the beginning of the retrievals.

The number of consumer switchgear that can work in this way with a summing switchgear is apparently theoretically unlimited. In the last of the series, the line leading from the switch S is missing. As a result, this changeover switch only causes an interruption of the switching circuit when the switching wheel is moved back to its starting position. Current surges can then no longer flow through the switching circuit if the interrupter 9 also continues to work and is supplying voltage surges to the switching circuit. If the current surges do not occur, the summation switching mechanism does not continue to work; the forward movement of the ratchet wheel 15 therefore stops at the moment when the measuring wheel returns to its starting position at the last point of consumption.

The whole system is now reset to its initial state. If the current surges do not occur, the magnets m lose their power and, when they are released by the measuring wheels driven forward by the counters, let the switches S return to their initial position under the influence of the overweights 6. So that the game does not start all over again , a device is built into the switching circuit, indicated by η in the drawing, which also interrupts the sequence of voltage surges by switching off the current source Q if the current surges do not occur. It is expedient to also have the motor of the interrupter switched off by this device.
■ The initiation of the described game of the switchgear by starting the breaker and switching on the voltage is carried out by the clockwork at regular intervals, e.g. B. at every quarter-hour strike, repeated. The switching mechanisms are set up and operated so quickly with successive current surges that the retrieval of a measuring wheel

Claims (4)

—— requires only a short time of its greatest possible swing in relation to the time interval between successive games. With current surges that follow one another at intervals of 1Z10 to 1Z5 seconds and measuring wheels with 120 teeth, a measuring wheel can be retrieved from a deflection of 360 degrees in 12 to 24 seconds; the game of a system with z. B. five consumption points can then in no case require more than ι to 2 minutes. The ratchet on the summing switchgear moves with each game, which is proportional to the total consumption of all consumption points in kilowatt hours since the previous game. The consumption times of the various consumption points, which are included in the measurement and do not coincide with their beginnings because of the successive operation of the switching mechanisms, will generally also be of different lengths because of the generally different deflections of the measuring wheels. This results in a certain uncertainty in the measurement result, but this is practically irrelevant. The ratchet on the summing switchgear returns to its starting position after each game. After a number of games, the drag pointer driven by the ratchet wheel, if it was initially set to zero, will show the highest deflection that the ratchet wheel has made once during a game, and thus the highest consumption that the consumption points together once in the time of one game to the other, e.g. B. So in 1Z4 hour. It should also be emphasized that the summing switchgear system described here can be used for all purposes for which the periodic summation of movements is required. The essence of the switchgear shown is obviously not changed if the measuring wheels R are not driven by counters. You can see the measuring wheels z. B. think also placed on the axes of pointer instruments. If these pointer instruments are wattmeters, the drag pointer on the summing switch mechanism will also show a maximum consumption value, which is, however, defined differently than the one previously considered. Reference should also be made to an advantage that the summation switchgear described and shown offers when the time course of the consumption values is to be recorded by automatic writing mechanisms. You can then let the pens pull through the switchgear, so relieve the measuring devices themselves from the work of moving the pens and thereby increase the accuracy of their information and their durability. It is very useful to connect the summing switch to a writing unit that. write down the successive deflections of the ratchet 15, because this gives you a quick overview of the use of the whole group of consumption points. Ρλτεν τ-An Proverbs: 1. Device for measuring maximum consumption a group of spatially widely separated consumption points with the aid of current surges, characterized in that at each consumption point from an energy consumption meter (meter) one from him Abkuppelbafes wheel (measuring wheel) is driven, which is temporarily disconnected from Consumption meter by a switching mechanism that responds to current surges ("consumption point switching mechanism") is gradually brought back to a certain starting position, when this starting position is reached, the own consumption point switchgear ineffective and, for all consumption points except one, connects the switching mechanism of another consumption point with the summing switching mechanism. In this process, current surges are started at regular intervals in the circuit in which the summing switchgear and, at the beginning of the current impulse sequence, a certain consumption point switchgear is located, and in which the others Consumption switchgears are switched on one after the other by the measuring wheels, until the measuring wheel of the last point of consumption when it reaches its starting position the current impulse sequence aborts and restores the initial state of the entire circuit arrangement. '. 2. Consumption point switchgear for a device according to claim 1, characterized by a changeover switch (5) which, from a position in which it connects the switching mechanism to the line coming from the summing switch mechanism or from the switching mechanism of the preceding consumption point, through the measuring wheel returning to its initial position is switched to another position, where he connects the line leading to the switchgear of the next consumption point instead of his own switching mechanism and activates a device (m) that prevents him from returning to the first position as long as current surges are flowing. 3. Device according to claim ι with switches according to claim 2, characterized in that that one through the switching Current impulses influenced device (η) when the current impulses cease as a result of the interruption of the switching circuit by the measuring wheel returning to its starting position at the last point of consumption on the current impulse transmitter switches off the voltage, possibly also stops a rotating current surge transmitter. 4. The use of the device according to claim 1 to 3 for periodic summing the deflections of any measuring or display device of the same type. 1 sheet of drawings.