DE10108159A1 - System and process for controlling electricity outlet use and signal station link local signal points with a central control unit through a data bus - Google Patents

Abstract

A system for controlling electrical consumption in which local signal points (2) are connected to a central control unit (1) over a data bus. Signals are received by the control unit and messages such as operational signals sent to the local point on the basis of an established protocol and information received. An independent claim is also included for the process of operating the above system.

Description

The invention relates to a system and a method for controlling electrical consumers, at which local signal points via a Da tenbus communicate with a central control unit, the zentra le control unit receives signals from the local signal points and ent speaking programs stored in the central control unit Steuerig nale forwards to the local signaling points, which in turn the electrical control consumers. In addition, the invention relates to a Signal station for a system for controlling electrical consumption chern with other signal stations, possibly via a central Control unit that can communicate and act as a consumer controls and / or as sensor information to other signal stations or forwarded to the central control unit.

Such arrangements are for example from DE 197 45 210 A1 known. The central control unit enables central tasks ben can be easily programmed, while this at rein decentralized systems is very complex, since each decentralized one unit according to the overall system function individually must be grammed. On the other hand, decentralized arrangements have the  Advantage that despite a possible connection failure, a large number of Stations continue to communicate with each other due to the decentralized structure can denicate. To this advantage also in the arrangement according to the To be able to use DE 197 45 210 A1, this proposes permanently adjustable emergency Integrate switching functions in the event of a central control failure unit can perform an emergency function.

It is an object of the present invention, a generic arrangement further.

As a solution, the invention proposes a control system of electrical consumers, at which local signal points over communicate a data bus with a central control unit. in this connection the central control unit receives signals from the local signal points and accordingly directs programs stored in the central control unit me control signals to the central signal points, which in turn control the electrical consumers. The system according to the invention is characterized by the fact that the communication comprises a protocol, which is an indication of the destination of a message and the sender of a Message as well as the message. In an alternative embodiment the system according to the invention is characterized in that the Communication includes a protocol that has at least one indication about the destination of a message and at least one online / offline bit and the Message itself. Such a protocol enables mi nimal information to determine whether the system is in normal operation  works or whether an emergency function must be used. The minimali Sampling the protocol causes a recipient to use its destination adresse recognizes that he is being addressed while he is speaking from the outside or the on / offline bit can recognize whether the entire system is in normal operation or in emergency operation. While the latter Alternatively this can obviously be included in the protocol Information is taken from the sender that normally, except for the central control unit of each sender sends formations to the central control unit while each receiver receives its control signals from the central control unit. Only in Emergency operation, there is immediate communication and a local The signal point immediately sends control signals to another signal point as receiver.

As a further solution, the invention proposes a control method of electrical consumers, at which local signal points over communicate a data bus with a central control unit. in this connection the central control unit receives signals from the local signaling points and directs accordingly from Pro stored in the central control unit control signals to the local signal points, which of them control the electrical consumers. The Ver invention driving is characterized by the fact that the central control unit at Er hold a message from a local signaling point a confirmation signal sends.  

As long as the local signaling point does not receive such a confirmation signal holds, she knows that the corresponding message is not at the central Control unit arrived and the connection is therefore disturbed. In one In a specific application, the local signaling point can be the corresponding one For example, send the message up to eight times until you are satisfied is that the connection is actually broken. Then the loka switches le control unit to an emergency operation and strives immediately with to communicate other signal points assigned to it in a suitable manner adorn.

The confirmation signal preferably comprises an analog signal element, which is superimposed on the normal bus cycle. Such a confirmation The supply signal is already present after a little more than one cycle preferably after three bars at the latest, as such a confirmation signal recognizable, so that such confirmation in the shortest possible time and can be done with minimal effort.

If the confirmation signal is generated within a certain time window rated or expected, all Sig communicating via the bus nalstellen or the central control unit during this time window renounce own activities, so that the rest of the bus operation is only insignificant Lich, namely disrupted for the duration of the time window. Especially at a communication with an analog confirmation signal, the Hö he can quite correspond to the normal pitch, can in this way se the confirmation within the shortest possible time under minimum  Time spent on the bus. In this respect, the fiction is suitable moderate method and the system according to the invention in particular for bus systems with only one channel and / or with a relative low cycle rate work. Since the present system or present Procedures with a relatively short protocol length and with a relatively short confirmation time works, the ent speaking arrangements despite a small number of channels or despite a low number of cycles relatively quickly.

The system according to the invention or the invention preferably uses procedures in accordance with a group address for the emergency situation. In conc ter implementation this can be done in such a way that the respective sensors or signal points used as sensors, a message that is the target of each contains the relevant group address, output while the corresponding Recipients or actuators then addressed with exactly this group address can be. The respective recipients can use the Ab sender or by means of an online / offline bit to determine whether this is the case is an emergency order or not. On the other hand, it is also think bar that each signaling point has different addresses, one for the normabe drive, one for emergency operation, and thus the need agile decision is made. With such an arrangement can even check the online / offline bit or the sender in the protocol be waived, with the redundancy associated with this Verification is possible, which further increases operational safety.  

The signal points preferably have a memory in which a memory such group address can be placed. In particular, this will Group address preferably when initializing from the controller stored in this memory, so that the signal points are centrally located in their emergency function can be programmed or set.

In addition, it is advantageous if the signal locations have a memory in which an offline mode of operation can be stored. This is also preferably done during an initialization by the tax unity. For example, such an offline mode of operation define whether a switch has the function "on / off" or a button function should report to the data bus. Accordingly, the offline receivers of this type are assigned to the respective recipients to be implemented when connecting to the central Control unit is interrupted.

Because the group addresses or the offline functionality is central The system can be influenced from the control unit in its emergency functions can also be easily re-programmed be lubricated.

It is understood that such a central assignment of group addresses and / or offline functions independent of the others Features of the present invention is advantageous.  

The control unit preferably records the time of receipt and / or sending a message. This way, time depending on central control functions are easily performed, which is very difficult to program, especially in decentralized systems is cash. However, the central control unit is capable of such central Functions without further ado.

It is also advantageous if the control unit is based on a single Condition sends messages to at least two signal points. Also one Such procedures are only under decentralized arrangements difficult conditions possible, since all local signal points ent must be programmed accordingly and it is necessary that extra signal points, which are able to execute complex programs be installed. In contrast, the system according to the invention is which works with a central control unit and a decentralized one Communication only used for security reasons, in this regard partially applicable.

Likewise, the control unit is readily able, when a Failure to start an error routine, for example over a telephone or a modem forwards an appropriate warning.

A large number of signal stations are already available via one system Control of electrical consumers, preferably also via the System described above, known, each with different signal stations, if necessary communicate via a central control unit and the  control a consumer as an actuator and / or information as a sensor can forward to other signal stations or the central control unit NEN.

To expand the functionality of such a system, the Invention before that such a signal station means for measuring a Current flow - especially the amount and / or time - at one Has consumers. In this way, on the one hand, the functionality of the consumer - such as a freezer - can be checked. On the other hand, it can also be checked whether a consumer is over is used at all or for too long. That way it is, for example possible to watch a television after a certain time that it is off during the day Children is used to switch off.

Especially in connection with a television set, if applicable could also be plugged into another socket, is recommended a signal station that has a lockable standard socket for each dwelling consumer and a standard plug for a normal plug can has. In this way, the standard connector can be fixed connected to the corresponding connector of the consumer and locked become. It is thus - even if the plug is inserted into another socket is plugged - integrated into the overall bus via the AC network and the device - such as the television - can easily are constantly checked or checked. In the present together hang is arranged under a lockable standard socket  understood with which a plug is connected to the signal station can be that he does not correspond without using violence or without a suitable tool - such as without a key - from the Signal station can be removed.

In addition, the invention proposes a signal station that an Inf rarotsender and / or an infrared receiver and preferably with one Bluetooth® chip. In this way, this signal station can Communication with a standard device via infrared - such as to communicate with a television. To the TVs can then, for example, desired channels, such as play the news at 8pm, turn on.

Further advantages, goals and characteristics of the present invention will become apparent explained with reference to the description of the accompanying drawing, in which at a system according to the invention is illustrated in a playful manner. In the drawing demonstrate

Figure 1 is a schematic representation of a system according to the invention for controlling electrical consumers.

Fig. 2 is a visualization of a further Sys tems according to the invention on a computer monitor to the system per-program to verify its functionality;

Fig. 3 is a schematic representation of a protocol for the system of Figures 1 and 2.

Fig. 4 is a schematic representation of the acknowledgment signal the system of Figure 1 to 3.

Fig. 5 is a circuit diagram for a signal station;

FIG. 6 shows a schematic illustration of the signal station according to FIG. 5;

Fig. 7 is a circuit diagram of another signal station;

Fig. 8 is a circuit diagram of a signal station for driving a roller shutter;

FIG. 9 shows a schematic illustration of the signal station according to FIG. 8; such as

Fig. 10 is a schematic representation of a system according to the invention with several central control units.

The system for controlling electrical consumers shown in FIG. 1 comprises a central control unit 1 , which communicates with various local signal points 2 via a bus system 3 . In vorlie embodiment, the local signal points are each housed in signal stations, which can be arranged, for example, in a junction box. In this exemplary embodiment, the AC network is used as the bus 3 , and instead an extra bus, which is generally far less expensive, can be installed. In particular, telephone lines can also be used for this bus.

In the present exemplary embodiment, the AC frequency becomes a higher frequency vibration superimposed, which is used for data transmission.

The system shown in Fig. 1 comprises two switches 4 , which are used as changeover switches for illuminating a bathroom via the lamp 5 . In addition, this controls a fan 6 of the bath. In addition, the system controls a roller shutter 7 by means of two buttons 8 , a coffee machine 9 and a display 10 via a light sensor 11 .

The signal points with the light sensor 11 and the signal points with the switches 4 , 8 as sensors are able to send signals to the central control unit 1 , while the remaining signal points 2 are only used as receivers. As can be seen, some of the signal locations 2 have a double function.

The arrangement according to FIG. 1 is controlled by a program stored in the central control unit 1 in such a way that the bathroom lamp 5 can be switched on and off in an alternating circuit via the switches 4 . At the same time a few minutes after turning on the bath is room lamp 5 is turned on, the fan 6, which is also a few minutes after the bathroom light is extinguished 5, is turned off. In addition, the central control unit 1 contains a program which checks whether the bathroom lamp 5 is switched on between 7:30 a.m. and 8:30 a.m. In this case, the socket of the coffee machine 9 is also supplied with electricity. In addition, the roller shutters 7 is opened and lowered as a function of time, and opening or lowering can also be carried out manually via the switch 8 . The display 10 is activated with the message "The light in the garage is on" when the corresponding light sensor 11 measures a corresponding light incident.

The central control unit 1 is connected to a modem 12 and can in this way contact previously set telephone numbers if an error has been measured by the central control unit 1 . In addition, the modem 12 can also be used to give up control signals, such as, for example, a command to switch on the coffee machine 9 , the system from the outside.

To make programming easier, a computer can be connected to the central control unit, which enables the entire house or building to be visualized. A corresponding illustration is shown in FIG. 2 by way of example, the consumers depicted there essentially corresponding to the consumers shown in FIG. 1 and are only numbered as examples.

The system shown in FIG. 2 also uses the light sensors 11 as motion detectors and also controls radiators 14 , sockets 15 , a standard lamp 16 and a front door bell 17 . In addition, the motion detectors 11 are used for an alarm system in addition to the activation of outdoor lamps. The same applies to suitable contacts on the windows 19 , the alarm system being able to control an alarm siren 18 .

Various programs can be controlled via the user interface shown in FIG. 2, for example for the holiday season. In addition, it is possible to operate all roller shutters in the house or building centrally and to check the alarm status - for example via open cellar doors. The system also has an external thermometer for regulating the radiators 14 and light sensors for switching on external lighting or for switching on the alarm function.

The signal stations 2 and the central control unit 1 communicate via the bus 3 using the protocol shown in FIG. 3. After a synchronization bit, the destination - for example a signal station - is specified first. This is followed by a subaddress with which individual units of a signal point or signal station can be controlled. A sender is then sent so that the recipient can recognize whether a signal station 2 or the central control unit 1 has sent the corresponding message. In this way, as already described above, an error routine can be initiated. The actual message follows a checksum.

The signal points or the central control unit acknowledge receipt of a complete message by means of an acknowledgment signal 20 , which is shown by way of example in FIG. 4. In the present exemplary embodiment, this confirmation signal 20 is sent at the end of a received message - indicated by clocks 21 . This confirmation signal 20 is to be sent during a time window 22 which speaks in approximately 2¾ cycles. Through this confirmation signal 20, the entire bus to "HIGH" is set to be so checked it over three control points in time 23 readily the existence of this confirmation signal 20 and its timely Erlö.

The signal station shown in FIGS. 5 and 6 makes it possible to switch two lines in phase via connections C, D, E and F in order to control any consumer. For this purpose, the signal station is connected to the AC network via connections A and B. This signal station also receives its signals via the AC network. Two buttons can be read out via connections G, H, I and J, which on the one hand can be used to switch lines C and F. However, since these signals of these two buttons are first supplied to the central control unit via the AC network and this then feeds the information necessary in the AC network, a completely different control can be selected. As he can be seen from Fig. 6, this signal station fits into a standard opening for a socket or a switch and can in particular be easily accommodated in a distributor or in a junction box.

The signal station shown in FIG. 7 corresponds essentially to the signal station according to FIGS . 5 and 6, but the lines C and F cannot be connected to the phase but to the lines D and E, respectively.

The signal station shown in FIGS. 8 and 9 is used to control a roller shutter. This signal station also has sensors G, H, I and J, which can optionally be used to control the roller shutter. On the other hand, the sensors can also serve completely different purposes. In addition, the signal station according to FIGS. 8 and 9 includes actuators for controlling a roller shutter motor, which may be adapted to different roller shutter motors.

Other units and expansion options Signal station with dimming function

Signal stations for stepless brightness control of lighting fixtures pern. Other consumers, at whom control over different voltages makes sense, connected will be.

Signal station with mains plug lock

Signal station in a connector housing that in any socket can be plugged in and a connection option for any Has power plug, which is locked and secured in this way unauthorized removal of the power plug is not possible device to be operated only via the signal station in the Ste can be operated.  

Signal station for energy measurement

Signal station for measuring the amount of energy withdrawn with message on control unit or internal storage for evaluation of history Data, in the normal connector housing and in the connector housing with mains sugar-locking.

Signal station for limiting the amount of energy

Signal station for limiting the available amount of energy with message on control unit or internal storage for evaluation of history Data, in the normal connector housing and in the connector housing with mains sugar-locking.

Signal station to limit the acceptance times

Signal station to limit the take-off times, the maximum Withdrawal time per day, week etc. set in the signal station or via the control unit can be regulated in the normal connector housing and in the connector housing with mains plug lock.

Signal station for switching off the alternating current

Signal station which, depending on the requirements, the AC power supply in be switch off certain areas and only when requested via correspond appropriate 230 volt consumers supply the power for the area switch on, the request via sensors, buttons or current flow can be registered. In this way, the 230-volt network emerging electrosmog can be reduced.  

Signal station with infrared transmitter and receiver

Signal stations that have an infrared transmitter and so any Devices with an infrared receiver can control this signal station can also include an infrared receiver and receive it Send messages to the control unit for further processing.

Signal stations controlled by the utility company

Control by the utility company can be done using special control units (e.g. in the Integrated electricity meter) or via a normal control unit where with these functions are specially protected by passwords and only are accessible to the RU.

Control unit for wired bus and PLC

Control unit with one or more connections for separate bus lines and integrated possibility of communication via the existing AC network (PLC).

Control unit with additional radio communication

Control unit as before, but with additional or replacement commu possibility of radio communication.

Control units with additional communication line for networking of several control units

Control units that are networked with each other via separate lines or other communication channels (PLC, radio) and each take over the automation of sub-areas, whereby higher-level control units perform the functions that are cross-sub-area, the object states are known in all higher-level control units that Control decisions, however, are dealt with in the lowest possible level depending on the respective logical links and decision-relevant objects. An example of this is shown schematically in FIG. 10. Here, the control units 1 (numbered by way of example) are networked in a hierarchically ascending manner via a separate bus system 24 .

Claims (13)

1. A system for controlling electrical loads in wel chem local signal points (2) communicate via a data bus (3) with a central control unit (1), wherein the central STEU ereinheit receives (1) the signals from the local signal points (2) and Corresponding to programs stored in the central control unit ( 1 ), forwards control signals to the local signal points ( 2 ), which in turn control the electrical consumers, characterized in that the communication comprises a protocol which contains at least one indication of the destination of a message and the Sender of a message and the message itself. 2. System for controlling electrical consumers, in which local chemical signaling points ( 2 ) communicate via a data bus ( 3 ) with a central control unit ( 1 ), the central control unit ( 1 ) receiving signals from the local signaling points ( 2 ) and Corresponding to programs stored in the central control unit ( 1 ), forwards control signals to the local signal points ( 2 ), which in turn control the electrical consumers, characterized in that the communication comprises a protocol which contains at least one indication of the destination of a message and at least one has an online / offline bit and the message itself. 3. A method for the control of electrical consumers, communicate with wel chem local signal points (2) via a data bus (3) with a central control unit (1), wherein the central STEU ereinheit receives (1) the signals from the local signal points (2) and Corresponding to programs stored in the central control unit ( 1 ), forwards control signals to the local signal points ( 2 ), which in turn control the electrical consumers, characterized in that the control unit ( 1 ) receives a confirmation signal upon receipt of a message from a signal point ( 2 ) ( 20 ) sends. 4. The method according to claim 3, characterized in that the Bes actuation signal ( 20 ) comprises an analog signal element. 5. The method of claim 3 or 4, characterized in that the acknowledgment signal (20) riert gene within a time window (20) or is expected. 6. System or method according to one of claims 1 to 5, characterized in that the signal points ( 2 ) have a memory in which a group address is stored during an initialization by the control unit ( 1 ). 7. System or method according to one of claims 1 to 6, characterized in that the signal points ( 2 ) have a memory in which an offline function is stored during an initialization by the control unit ( 1 ). 8. System or method according to one of claims 1 to 7, characterized in that the control unit ( 1 ) records the time of the input and / or the sending of a message. 9. System or method according to one of claims 1 to 8, characterized in that the control unit ( 1 ) sends messages to at least two signal points ( 2 ) due to a single condition. 10. System or method according to one of claims 1 to 9, characterized in that the control unit ( 1 ) starts an error routine when an error occurs. 11. Signal station for a system for controlling electrical consumers, preferably according to one of claims 1 to 10, which can communicate with other signal stations, optionally via a central control unit ( 3 ), and which controls a consumer as an actuator and / or as a sensor Forwarding information to other signal stations or to the central control unit, characterized by means for measuring a current flow, in particular a particular quantity and / or time, to a consumer. 12. Signal station for a system for controlling electrical consumers, preferably according to one of claims 1 to 10, which can communicate with other signal stations, optionally via a central control unit ( 3 ), and which controls a consumer as an actuator and / or as a sensor Forwarding information to other signal stations or to the central control unit, characterized by a lockable standard plug socket for a consumer and a standard plug for a socket. 13. Signal station for a system for controlling electrical consumers, preferably according to one of claims 1 to 10, which can communicate with other signal stations, optionally via a central control unit ( 3 ), and which controls a consumer as an actuator and / or as a sensor Forwarding information to other signal stations or to the central control unit, characterized by an infrared transmitter and / or an infrared receiver, preferably with a Bluetooth® chip.