DE3305766A1 - Method for minimising energy costs, and a maximum load monitor for carrying it out - Google Patents

Abstract

In a method for minimising the energy costs calculated in accordance with the total consumption and the maximum consumption within defined time intervals, a computer is used to determine automatically, on reaching an operating consumption, taking into account the time which has already passed, whether consumers must be switched off in order that the maximum load remains below a selected value. If it is found that, in the case of switched-off consumers, the maximum load is not being fully used, the computer ensures that consumers are automatically switched on again.

Description

Law office

Ruppert & Schlagwein

Bahnhofeallee 11
D-6350 Bad Nauheim
Phone: 06032/23 37

M. Pitsch / E. Seuring D 02.02.83

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Method for minimizing energy costs for high load monitors for its implementation

The invention relates to a method for minimizing the total consumption and maximum consumption within energy box calculated at fixed time intervals, in particular for electrical energy. Farther the invention relates to a maximum load monitor for performing this method.

The electric utilities are keen to get one over the time to deliver the same amount of electricity as possible so that the line network is utilized as evenly as possible is. If customers have high labor consumption in the short term, the power grid must be used for this short period of time are laid out and otherwise remains unused. These occurrences mean that larger consumers do not only for the total labor consumption in küJh, but also have to pay fees for the provision of energy. To identify the staging box so-called maximum load counters are used 2D measure the work consumption in this interval over and over again for fixed intervals of mostly 15 minutes. Today

Common peak load meters have a pointer that in 15 minute intervals according to the work consumption changes over a scale and thereby a drag pointer takes away. The higher the position of the drag pointer iat on the meter reading day, the higher the amount to be paid Deployment fees.

In order to enable the customer to use his maximum load as possible To keep it small, there are already high-load monitors known, which give a warning signal, for example, if there are nactors half the interval time shows that the work probably drawn up to the end of the interval is above of a limit value. The customer then has the option, for example, of an electrical room heating system temporarily switch off so that the maximum load remains within the desired limits.

In practice, such maximum load monitors only lead to one minor reduction in the maximum price. This is because it is difficult to gauge which consumers each most expedient for how long to be switched off. Apart from this, switching it off manually is annoying and makes it necessary to return to the egg after a while " switch to think.

The invention is based on the object of a method to develop the type mentioned, which can be carried out automatically without human intervention and enables the highest possible utilization of a selected maximum load limit. In addition, a maximum load monitor should be to be developed to carry out the procedure.

The first-mentioned object is achieved according to the invention by that after reaching a specified work consumption in each time interval taking into account the

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up to then elapsed time by means of a computer the work likely to be performed here at the end of the interval is determined, and that according to the determined Maximum value at the end of the interval Consumers downshifted in their power according to a predetermined program, switched off or switched on.

With this procedure, the company can be used by a customer occurring maximum load can be reduced drastically because at a short-term high energy consumption automatically Consumers are switched off or switched down, the power of which does not have to remain constant at all times. To the For example, electric room heating is suitable for switching off or switching off in order to reduce the maximum load. If it turns out that the maximum load is not being used in a certain interval, the procedure a previously switched off consumer, e.g. the room heating switched on again. So be thanks of the method according to the invention, no consumers are unnecessary switched off for a long time. Since the downshifting or disconnection or connection of consumers after a a fixed program, undesired repercussions on the course of production can largely be avoided will.

The utilization of a selected maximum load limit value is j particularly simple if the method is designed as specified in claim .2.

The inventive method can without replacing the Maximum load counter and without intervention in this counter can be carried out if a maximum load monitor with a D can be placed on the maximum load meter, the meter display scanning sensor is used.

SUBMITTED I.

The sensor is particularly simple if it is is designed for scanning a pointer position, for example by infrared.

It is expedient to use them to carry out the process a tax situation, which as in claim 5 «. specified is designed.

An advantageous development of the tax situation is in Claim 6 stated.

Since the time intervals of the maximum load counter with the time intervals of the reference timer of the control logic match it is necessary to always start the reference timer synchronously with the maximum load counter. This can be beneficial due to the falling back Pointer of the maximum load meter, what is done by the Sensor on the maximum load counter is detectable.

The connection of consumers in addition to utilizing the selected Maximum load limit is usually carried out through Establishing a second sensor threshold, as indicated in claim B.

2D For a more detailed explanation of the method according to the invention and a high load converter according to the invention is now referred to the drawing. Eg show

Figure 1 - an electric power meter with HBchBtlastzähler and the control device according to the invention;

Figure 2 - a block diagram of the invention Control device;

Figure 3 - a diagram to explain the operation of the method according to the invention.

FIG. 1 shows an electricity meter 1, which has a roller black 2 for displaying the work consumption and a; Maximum load counter 3 for displaying the maximum work consumption in constantly repeating time intervals of usually 15 minutes. The maximum load counter has a pointer k which is able to adjust a drag pointer 5 so that the drag pointer 5 always marks the maximum deflection of the pointer k. The pointer ff returns to its zero position every 15 minutes and then begins to move clockwise again according to the work consumption.

A sensor 6, which is placed on the disk of the electricity meter 1 and generates a sensor signal as soon as the pointer U is located behind the sensor 6, is essential for the invention. The sensor S can be, for example, an infrared sensor. A line 7 leads from the sensor 6 to a control device 8, which is able to switch different switching stages 9. These switching stages 9 are the switching stages of various consumers in a company.

The more precise structure of the control device β results from FIG. 2. Dieae initially shows the pointer k, which is just in front of the sensor 6. The control device 8 is shown in dashed lines. The signal generated by the sensor 6 first reaches a sensor amplifier 10, which converts the sensor signal into a digital signal and sends it to both a control logic 11 and a sync pulse controller 12. This arrives at the sensor amplifier 10 from the sync pulse control 12

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branched signal via a reference timer 13 in the tax logic 11.

Furthermore, in the control device B there is a consumer detection 1 * f provided. Due to consumption requirements the individual consumers and the sensor signal taking into account the reference time of the sensor signal the control logic 11 decides which switching stage 9 is switched and thus which consumers are switched on or be switched off. The consumer registration must na- ■

1G, of course, to be able to signal whether a consumer is currently switched on. Des can about the Control lines of the consumers at the switching stages 9 can be determined, as these only carry voltage when the consumers are switched on.

The operation of the control device.B is the easiest to be understood on the basis of the diagram in FIG. This shows the work consumption measured by the maximum load meter 3 in KUIh during a measurement interval of 15 minutes. With 15 is a registered horizontal maximum line

2D draws. It should mark the maximum amount that should not be exceeded. In 15 minutes: no more than 7 KUIh should be used. Optimal utilization of the selected maximum load would be achieved if the electrical output were constant at 28 KU during the 15 minutes. The labor consumption would then be lost. speaking of the straight line 16. After 15 minutes, exactly 7 KbJh would be reached, which is marked by the point A on the maximum line 15. If the power requirement is higher than 2 [beta] KW, for example 60 KLl, then the work consumption would run according to the straight line 17 and, without the control device 8, would be 15 KhSi after 15 minutes, i.e. well above the maximum line 15. that the straight line 17 after three and a half minutes at a point B intersects an inherited sensor circuit 1B. '^ r & i \

The sensor B then sends a signal to the control logic This is calculated based on the signal and the reference time, which Laat. nach is possible so that at the end of the 15 minute intervals the maximum line 15 is not exceeded. "In this example, after three and a half Minutes with an output of 60 KuJ for the remaining one Time period only 20 KUI allowed, around 7 Klilh not to exceed.

A third straight line 19 is drawn in the diagram, ι the labor consumption of a 22.5 KliJ user reflects. After 15 minutes, the work consumption is gone at 5.5 KUJ, i.e. considerably below the maximum line 15. In order to be able to better utilize the selected maximum line, a second sensor cabinet 20 is provided. I will this reached, (point C), then the control logic 11 checks whether another four-consumer can be switched on. In the example, the connection of the original 60 KUI consumer is still possible in point 10.

I understand that the thresholds correspond to the existing Consumers need to be put. Of course, the control logic must be used for optimal results can also be adapted to the respective circumstances. It is of course also possible instead of the one described two thresholds to provide multiple thresholds, for example! 5, one threshold for each consumer.

Claims (1)

submitted later M. Pitach / G. Seuring Q2.02.83 Expectations M. procedure to minimize dejr, after G. total consumption and ^ * - maximum consumption within; .specified time intervals calculated energy costs, especially for electrical Energy, characterized in that after reaching a specified work consumption in each time interval, taking into account the time that has elapsed up to that point, using a computer the to estimated work performed at the end of the interval luird, and that according to the determined maximum value at the end of the interval consumers are downshifted in their power according to a predetermined program, switched off or switched on. · 2 .. The method according to claim 1, characterized in that within each time interval if the first school goods are exceeded within a predetermined period of time consumers switched off, and after reaching a second Schuelliiierter within Every interval consumers are switched on, provided that the remaining interval time at this point in time is low enough to rule out exceeding the maximum load . BATH 3. Maximum load monitor for carrying out the procedure according to claims 1 and 2 for an electric Maximum load counter, characterized by at least one on the maximum load counter (3) on-actionable, scanning the counter display Sensor (6). H. Maximum load monitor according to Claim 3, characterized in that the sensor (6) is designed to scan a pointer position. 5. Maximum load monitor according to claim 3 or one of the following, characterized in that that a control logic (11) is provided which, when a sensor signal is present, with the aid of a reference timer (13) the work performed extrapolated to a given time period, and that the control logic (11) is coupled to several switching stages (9), which van the control logic (11) according to the determined work to reduce the load optionally are switchable. 6. Maximum load monitor according to claim 3 or one of the the following, as indicated by, that in the control logic (11) two temporally spaced apart sensor signals can be introduced, wherein the first sensor signal for switching off consumers and the second sensor signal is used to switch on consumers. 7. Maximum load monitor according to claim 3 or one of the following, characterized in that the reference timer (13) is started in each case by the falling pointer (k) of the maximum load counter (3). • «· Λ -3- B. High loadbjächter according to claim 3 or one of the following, characterized in that according to the electrical power of the consumer Sensor target values (18, 20) are defined, --- -for those to utilize a selected maximum load limit the consumers are switched on or off. 9. Maximum load monitor according to claim 3 or one of the following, characterized in that the voltage in the control lines of the switching stages (9) to determine whether a consumer is switched on is monitored.