DE2228709C3 - Method and device for operating a heating system consisting of several electrical heating devices - Google Patents

Description

The invention relates to a method for operating one consisting of several electrical heating devices Heating system for which only one maximum can be taken from the network, not for all heating devices at the same time sufficient power is available.

After the previously unused capacity of the electricity supply company (EVU) meanwhile has been exploited in the metropolitan areas due to the increase in night-time storage heating, many consumers feel compelled to operate an electric heater according to another possibility, taking into account the flatness that the EVU has depending on the electricity supply contract A limited output per apartment unit, for example 2 kW, for heating purposes over the entire time of the day is available (direct heating). However, this maximum approved performance is not sufficient for simultaneous operation of all heating devices of the system (residential unit), so that the operator in the sense of imposed restriction is forced to alternate only one or, if necessary, two Switch on heaters.

To the constant supervision of such a heating system, which is very annoying and when absent This may lead to expensive overheating of individual rooms, are already procedures and to be avoided Devices for the automatic operation of such systems have been proposed.

Thus, US-PS 31 96 254 describes a method, he the switching off of a number of heaters successively connected to a power source after reaching one predetermined temperature takes place, switching on takes place when the temperature falls below the setpoint

This procedure may be sufficient when it comes to radiators in rooms with the same cooling conditions acts, but not for those with differing heat requirements.

On the other hand, FR-PS 5 76 656 discloses a method for operating one of several heating devices existing system with a maximally limited energy known in which the heating devices, e.g. iron or the heating devices in a room, automatically by means of a rotating timer via sliding contacts one after the other in the specified order (all-round control) for a constant time to one Connected to the power source. Since the amount of heat supplied is the same for each device and none thermostatic temperature limitation is provided, this method is also used for heating rooms not suitable with differing heat requirements

Another proposal according to DE-AS 22 52 222, which does not belong to the state of the art, is to regulate the individual radiators as a function of a thermostat arranged in the room to be heated, whereby a maximum power consumption should not be exceeded. At the same time, the lowest possible power consumption is maintained in all radiators. This requires a complicated program control system with bridge circuits, etc.
In another control system according to DE-OS 21 50 318, the radiators, albeit with partial powers, are all acted upon simultaneously, which leads to complex control processes.

The invention has set itself the task of a method and with relatively simple means a device for the automatic operation of a heating system consisting of several electric heating devices of the type mentioned to create, with those to be achieved in the individual rooms Temperatures can be different, but should be as constant as possible. She goes with it from FR-PS 5 67 656, according to which the heaters automatically one after the other in a constant order can be connected to the power source with their full power.

The invention consists in that the duty cycle of the individual heating devices is directly controlled by the thermostat of the room in question is controlled and the heating devices of the Rooms that still have their setpoint temperature can be skipped.

The lowest possible temperature fluctuation in the rooms is achieved in a further embodiment of the Invention achieved in that the heating devices of the rooms in the order in which they are switched on are skipped whose actual temperature deviates less from the target temperature. This causes that the available power automatically takes the place of the maximum heat demand.

In contrast to the proposals mentioned above, the invention is based on the knowledge that it for the purpose of an even distribution of the available limited power to the It is not necessary to keep the individual radiators at as constant a temperature as possible hold, which leads to complicated control systems. Rather, the invention makes the heat capacity use of the rooms that equalize the room temperature to such an extent that there is the possibility of the Operate radiators according to the switch-on principle. This enables a decentralized control system in which the room temperature is also used as a control variable the switch-on series is used. In this control system, a radiator influences one or the other others immediately. This system is simpler than the known central control systems. It can also can be expanded at any time by adding additional heating circuits. One for carrying out the invention A suitable device for the method is that the switch of each heater has a lock is provided, which on the one hand from the temperature controller of the room in question (room thermostat) and on the other hand is influenced by the interlocking of the remaining heating circuits, the interlocks in are connected to each other in a certain sequence and the locking of the last heating circuit with that of the first is related. The locking can also be achieved in a further embodiment of the invention can be formed through the use of electronic digital modules.

The invention allows an automatic and in the sense of the temperature required in the individual rooms also as evenly as possible distribution of the available electrical energy to the heating rooms. Of course, the available heating must be used for this purpose electrical power in a reasonable proportion to the number and size of the rooms to be heated stand, whereby the outside temperature must also be taken into account. Such is the heating method of the invention with an available electrical power of 2 kW for a four-room apartment with four heating devices can be used up to an outside temperature of approx. 12 degrees Celsius, which for example in large Parts of the Federal Republic of Germany and the GDR are possible during the predominant annual heating period. at Outside temperatures below 12 degrees Celsius should have a greater output - possibly a higher one Tariff - to be made available or an additional night-time storage heater applied which would have to bear the base load.

In the drawings, an embodiment of the invention is shown.

F i g. 1 shows the temperature profile of a heating system for four rooms, each with one heater, e.g. one maximum power of 2 kW is available.

F i g. 2 shows a control device of the heating system in FIG schematic representation.

3 shows details of the locking of the heating circuits for rooms a and b as an exemplary embodiment.

Fig. 4 shows the mode of operation of the lock in a schematic representation.

In Fig. 1 the target and actual temperature of the individual rooms a - d is plotted against the switch-on time.

In FIG. 2, la to \ d denotes the switches of the heaters 2a to 2d. The switches are influenced both by the temperature regulators 3a to 3d of the rooms concerned, as well as by the interlocks 4a to Ad , which are connected to one another in their order, ie Aa with Ab, Ab with Ac, Ac with Ad and Ad with 4a. The number of heating circuits, by removal of other elements 1 e, 2e, 3eund Ae e ^r weitert be arbitrary.

ίο Consider in more detail the case where the heater of the space a of the temperature controller 3a from practice. "The lock has been switched off at the point 4a Aa 1 on reaching the target temperature 2a

The temperature controllers Zb and 3d in rooms b and d had already switched to heat demand at points Eb 1 and Ed 1 as a result of the temperature falling below the setpoint, namely 3b before 3d

When the heater 2a is switched off, it is locked and, at the same time, the lock Ab of the heater 2b is released by its lock 4a. Since its temperature controller 3b is on heat demand, the heater 2Zj is switched on. The locking of the heaters 2c and 2d remains. If the temperature controller 3 £> had not been on heat demand at the point in time Aa 1, the heater 2d would have been switched on.

As can be seen from Fig. 1, the heater 2c / comes on after switching off the heater 2b at the point Ab 1, since the temperature controller 3d of the room d has indicated heat demand before the temperature controller 3c of the room c. This means that one or more heating devices can be skipped in the order in which they are switched on, depending on the heat requirements of the rooms in question. F i g. 1 also shows that the length of time a heater is switched on can vary depending on the heat demand of the room.

In Fig. 3 the locking of the switches 1 a and 1 b is implemented by means of relays. There are three relays 5a, 6a and 7a or Sb, 6b and Tb , the relay 5a actuating the switch la (etc.). The deer ', 6a actuates its contacts 6a' and 6a "(etc.).

The relay 7a actuates its contacts 7a 'and 7a ", the latter being connected to the lock Ab . The lock 4a is accordingly connected to the lock Ad , which is not shown.

The temperature controller 3a or 3b has a switching contact 3a'bzw confirmed by the room temperature. 3i>'with the positions "On" and "Off".

The high-resistance resistor 8a or Sb and the capacitor 9a or 9b are used for the pulse-like excitation of the relay 7a or Tb.

The mode of operation of the locking mechanism 4a and Ab is shown in FIG. 4 with the symbols used in circuit algebra (0 = off; L = on).

The locking can also be implemented with advantage by using electronic digital modules will.

As can be seen from the drawings, there is a particular advantage of the device described in the fact that they should expand the heating system through additional rooms - possibly at the same time Increase in the available power - by simply adding additional heating circuits (interlocks, Temperature controllers and heaters) expanded

6'i can be.

For this purpose 4 sheets of drawings

Claims (5)

Patent claims: 1. Procedure for operating a heating system consisting of several electrical heating devices, for the only one that can be taken from the network, not for simultaneous operation All heating devices have sufficient power available, with the heating devices being automatic one after the other in the same order with their full power to the power source are, characterized in that the duty cycle of the individual heating devices is immediate from the thermostat of the room concerned is controlled and in the order of Switching on the heaters in the rooms that still have their set temperature are skipped. 2. The method according to claim 1, characterized in that in the order of the switch-ons the heating devices of the rooms are also skipped, the actual temperature of which is less different from the Target temperature deviates 3. Device for carrying out the method according to claim 1 or 2, characterized in that the switch (la— \ d) of each heater (2a— 2d) is provided with a lock (Aa-Ad) , which is on the one hand from the temperature controller (3a— 3d) of the room concerned (room thermostat) and, on the other hand, is influenced by the interlocks of the other heating circuits, the interlocks (4a, Ab, Ac, Ad) being connected to one another in a certain order and the interlocking of the last heating circuit connected to that of the first stands. 4. Apparatus according to claim 3, characterized in that the locks (Aa-Ad) are formed by using electronic digital modules. 5. Apparatus according to claim 3 or 4, characterized in that the number of heating circuits can be expanded by adding further elements (Ie, 2e, 3e and Ae) .