RU99100204A - CONTROL OF TEMPERATURE-TIME MODE OF ELECTRIC HEATING DEVICE - Google Patents

Claims (17)

1. A method of controlling the temperature-time regime of electric heating devices (8) installed at the end user (2), carried out in order to optimize energy consumption and cost, including connecting the end user (2) to the power supply network (1), application for controlling a specialized system control (4), forming part of the communication and control structure (3, 4, 5, 6, 7, 9), the connection of the local control unit to at least one electric heating device, when executed with the ability to control the operation of one or more electric heating devices, the task for the heating device of the desired user sequence, including at least one desired temperature change indicating its maximum allowable deviation, in certain periods of time, from the desired desired change, characterized in that the desired sequence the user is transferred from the end user, through the first communication network, to the control system, the desired sequence diagram is stored the user in the database provided in this control system, correct the desired user sequence in the database on the basis of information about the operating state of the power supply network transmitted to the control system through the second communication network, thereby obtaining the corrected user sequence taking into account the operating state of the power supply network, to which includes the total energy consumption, network capacity and possible registered off-design operating conditions - with the provision that the cycle the user’s frame all the time lay within the limits corresponding to the temperature deviations from its predetermined change, which are indicated in the desired user sequence for certain time periods, transmit control commands from the control system to the local control unit installed at the end user through the third communication network, continuously adjusting these control commands in the control center based on the corrected user sequence diagram and thereby optimizing the operation of heating device - firstly, based on the desired cyclogram of the user, and secondly, taking into account the operational status of the power supply network.  2. The method according to claim 1, characterized in that, if it is impossible, according to the current operating state of the power supply network, the specified primary optimization for short or long periods of time, from the control system to the end user is sent, through one of these communication networks, a message providing the user control options for the heating device, of which the first consists in controlling only according to the sequence diagram proceeding from the operating state of the power supply network, and the second - with temporary changes d into the desired sequence of the user during these periods, and the end user himself can make a choice of options for subsequent control of the heating device, or completely cancel participation in this control system.  3. The method according to claim 2, characterized in that when the operating state of the power supply network again allows for the specified primary optimization, a new message is generated in the control system for sending it to the end user through one of the communication networks, and if the user still applies this control system, it automatically returns to the initial desired user sequence.  4. The method according to claim 1, characterized in that the user in his desired sequence in certain periods of time additionally sets the desired values of one or more of the following parameters: level of energy consumption, periods when the heating device should be controlled, and also the level of energy cost , according to the tariff (tariffs) taking place in the relevant time periods.  5. The method according to p. 1, characterized in that as the specified first communication network for two-way data exchange between the end user and the control system, a public network, for example, the Internet, is used.  6. The method according to p. 1, characterized in that as the specified second communication network for one-way communication of the control system with the end user, a radio communication network, for example, a mobile telephone network, is used.  7. The method according to claim 6, characterized in that the messages from the control center addressed to the end user and transmitted over the radio communication network are received by the message receiver included in the specified control unit.  8. The method according to claim 6, characterized in that the messages from the control center addressed to the end user and transmitted over the radio communication network in the first mode relate to the transmission of control commands to an individual end user, and in the second mode to transmit control commands common to several end users or user groups.  9. The method according to claim 8, characterized in that a well-known call scheme is used for messages over a radio communication network, according to which the end user is assigned a first call address for receiving control commands transmitted in the first mentioned mode and a second call address for receiving control commands or messages transmitted in the second mentioned mode.  10. The method according to claim 1, characterized in that the control system includes a data processor for calculating control algorithms that generate control commands based on the desired user sequence, taking into account their adjustments based on monitoring by the control system at an integrated level of the power supply network and its operating states, while user cyclograms and information processed and produced by the indicated processor are stored in the database, and the connection between the control system and the end user is arranged through known devices for interfacing said processor with each of the communication networks.  11 Communication-control structure (3, 4, 5, 6, 7, 9) for controlling the temperature-time regime of electric heating devices (8) installed at the end user (2), designed to optimize the consumption and cost of energy in which the end user (2) connected to the power supply network (1) and which contains a specialized control system (4) with one or more communication interface devices, a local control unit (7) installed at the end user (2), connected at least re with one electric heating device (8) and configured to control the operation of one or more heating devices (8), moreover, this control unit (7) is located in that room, area or environment - the temperature of which is affected by the heating device, characterized in that said control unit (7) comprises a communication interface device (14) for receiving control commands and messages transmitted from the control system (4) to this control unit, a user interface device (9), is installed detected at the end user (2) and intended for two-way communication between this user (2) and the control system (4), moreover, the specified control system (4) is equipped with a data processor (12) that interacts, respectively, with the first interface device (13a , 13b) for one-way communication through the interface device (14) of the control unit (7), with a second interface device (19) for two-way communication between the control system (4) and the user interface device (9), as well as with the third interface device (21a ) d In order to receive information about the operating state of the power supply network (1), the control system (4) contains a database (11) that stores the desired user sequence diagram transmitted by the end user (2) to the control system (4), or adjusted versions of this sequence diagram, performed by the data processor (12), as well as control commands and messages that must be transmitted to the control unit (7) or to the end user (2).  12. The communication and control structure (3, 4, 5, 6, 7, 9) according to claim 11, characterized in that the communication interface device (14) of the control unit (7) is radio-connected, and the control unit (7) further comprises a data processing processor (15) connected to a radio communication device (14), as well as at least one switching device (16) connected to a data processing processor (15) and capable of supplying electricity to the heating device (8) under its influence, while the control unit (7) is made with possible Stu serial connection to an electrical circuit between the heating device (8) and the supply network (1).  13. The communication and control structure (3, 4, 5, 6, 7, 9) according to claim 12, characterized in that the radio communication device (14) is a radio receiver, mainly used in the known call system.  14. The communication and control structure (3, 4, 5, 6, 7, 9) according to claim 12, characterized in that the control unit (7) comprises a device for recording and displaying energy consumption data.  15. The communication-control structure (3, 4, 5, 6, 7, 9) according to claim 12, characterized in that the control unit (7) contains a device for displaying data about the control and operating parameters.  16. The communication-control structure (3, 4, 5, 6, 7, 9) according to claim 11, characterized in that it comprises an interface device connected to the control unit (7) for local control (18), with which the final the user (2) can observe the operation of the heating device (8) and, if necessary, cancel the participation of the control system (4), possibly entering his own commands.  17. The communication-control structure (3, 4, 5, 6, 7, 9) according to claim 16, characterized in that the interface device for local control (18) allows the end user to work with the control unit (7) manually.