RU2001134014A - The way to control the energy consumption mode of household appliances - Google Patents

Claims (32)

1. A method for controlling the mode of consumption of electric power by systems of power consumers, said system of power consumers comprising a plurality of power consumers (U), comprising, in turn, a set of intelligent power consumers (UI) equipped with control systems (SC), said set power consumers (U) are functionally connected to a power supply network (RE), power measuring means (CE, NM) capable of transmitting power consumption (PD) information to said control systems (SC) where control systems (SC) perform power management by collaboratively intelligent power consumers (UIs) based on power consumption information (PD) transmitted by power measurement means (CE, NM), characterized in that each control system (SC) regulates the power consumption of a jointly operating intelligent consumer (UI) of power based on information about power consumption (PD) of the power and state information of a jointly operating intelligent consumer (UI) of power, received data from the control system (SC) itself, the indicated power consumption (PD) information and the intelligent consumer (UI) status information (PRD) are processed to determine the priority (PriorEff) in order to establish the right for the jointly operating intelligent consumer (UI) ) power for the consumption of packets (ΔР) of available power from the power supply network (RE). 2. The method of controlling the mode of consumption of electric power by systems of power consumers according to claim 1, characterized in that it uses the indicated priority (PriorEff) as the initial value assigned to each corresponding intelligent consumer (UI) of power in the procedure (S.2, S. 6, S.7) competitions in a variety of intelligent power consumers (UI). 3. A method of controlling the mode of consumption of electric power by systems of power consumers according to claim 2, characterized in that the indicated priority (PriorEff) is made variable in time as a function of status information (PRD). 4. A method for controlling the mode of consumption of electric power by systems of power consumers according to claim 3, characterized in that said priority (PriorEff) is obtained based on the value of dynamic priority (PRD), which is part of the information about the intelligent consumer (UI) of power. 5. The method of controlling the mode of consumption of electric power by systems of power consumers according to claim 4, characterized in that said priority (PriorEff) is used for a control timer (TP), which prompts to attract the value of the specified priority (PRD) for the procedure (S.2, S.6, S.7) competitions. 6. The method of controlling the mode of consumption of electric power by systems of power consumers according to claim 5, characterized in that in series with determining the values obtained due to the information on power consumption (PD), the control system (SC) goes to the state (S.2, S. 6) competition for positive increment, while reducing energy consumption. 7. The method of controlling the mode of electric power consumption by systems of power consumers according to claim 6, characterized in that in the indicated state (S.2, S.6) of the competition for a positive increment, the control system (SC) evaluates the information on power consumption (PD) in the end of the evolution of priority (PriorEff) dictated by a timer (TP) to establish subsequent transitions (T.2, TZ, T.4, T.16, T.20, T.21, T.22, T.23). 8. The method of controlling the mode of consumption of electric power by systems of power consumers according to claim 7, characterized in that said subsequent transitions (T.2, T.3, T.4, T.16, T.20, T.21, T. 22, T.23) are also set based on threshold values (K0, K1, K2, K3, K4, K5) of power stored in the control system (SC). 9. The method of controlling the mode of consumption of electric power by systems of power consumers according to claim 8, characterized in that the threshold values (K0, K1, K2, K3, K4, K5) of the power are adjustable. 10. The method of controlling the mode of electric power consumption by systems of power consumers according to claim 8, characterized in that said threshold values (K0, K1, K2, K3, K4, K5) of power can be adjusted individually for each intelligent consumer (UI) of power. 11. The method of controlling the mode of consumption of electric power by systems of power consumers according to claim 7, characterized in that subsequent transitions (T.2, T.22) provide for the selection of a packet of available power (ΔP) from the power supply network (RE). 12. The method of controlling the mode of consumption of electric power by systems of power consumers according to claim 7, characterized in that subsequent transitions (T.2, T.22) provide for the transition (T.3) to the rest state (S.4). 13. The method of controlling the mode of consumption of electric power by systems of power consumers according to claim 12, characterized in that in the indicated state (S.4) of rest, the priority (PriorEff) is reset and then incremented at a constant speed. 14. The method of controlling the mode of consumption of electric power by systems of power consumers according to claim 2, characterized in that the power consumption of the intelligent consumer (UI) of power is reduced by deactivation. 15. The method of controlling the mode of consumption of electric power by systems of power consumers according to claim 6, characterized in that in series with the second determination of the values obtained due to the information on power consumption (PD <K2), to reduce energy consumption, the control system (SC) switches to (S.2) competition for negative increment. 16. The method of controlling the mode of electric power consumption by systems of power consumers according to clause 15, characterized in that in the indicated state (S.6), the competition for the negative increment timer (TP) induces to engage priority (PriorEff) in the opposite direction to switch to the state ( S.7) competition for positive increment. 17. The method of controlling the mode of consumption of electric power by systems of power consumers according to clause 15, characterized in that in the indicated state (S.6) of the competition for negative increment, the intelligent consumer (UI) of power, the timer (TP) of which has reached the end of the count, can choose implementation of the transition (T.14), in which the package (ΔP) of power is released. 18. The method of controlling the mode of consumption of electric power by systems of power consumers according to claim 5, characterized in that, sequentially with determining informative values about the available power (PD), intelligent power consumers (UI) having priority (PriorEff) below a fixed threshold value, deactivated immediately. 19. The method of controlling the mode of electric power consumption by systems of power consumers according to claim 5, characterized in that, sequentially with determining informative values of available power (PD), intelligent power consumers (UI) having priority (PriorEff) are lower than the threshold value associated with with information on available power (PD) are immediately deactivated. 20. The method of controlling the mode of electric power consumption by systems of power consumers according to claim 2, characterized in that the control system (SC) of each intelligent energy consumer (UI) is allowed to use reduced load strategies and / or reduced consumption strategies. 21. A method of controlling the mode of electric power consumption by systems of power consumers according to any one of the preceding paragraphs, characterized in that each intelligent power consumer (UI) receives dynamic priority values (PRD) different from the values (dynamic priority) of each other intelligent consumer (UI ) power to prevent multiple intelligent consumers (UI) of power from entering unstable states. 22. A method of controlling the mode of consumption of electric power by systems of power consumers according to any one of the preceding paragraphs, characterized in that each intelligent power consumer (UI) to prevent the transition of multiple power consumers to unstable states receives a power packet (ΔP) at another point in time. 23. A method of controlling the mode of electric power consumption by systems of power consumers, where each power consumer has an appropriate priority (PriorEff) for accessing energy consumption, characterized in that said priority (PriorEff) is used to initialize a timer (TP) in proportion to the specified priority (PriorEff) and allowing the intelligent consumer (UI) of power, whose corresponding timer (TP) is the first to finish its own account, to gain access to energy consumption. 24. A method of controlling the mode of electric power consumption by systems of power consumers according to the preceding paragraph, characterized in that the priority timer (TP) is obtained by means of a counter using more bits than the number of bits used to determine the priority (PriorEff). 25. The method of controlling the mode of electric power consumption by systems of power consumers according to the preceding paragraph, characterized in that it uses the most significant bits (P8 ... P1) of the priority timer (TP) to represent priority (PriorEff) and less significant bits (13, 12 , 11) for a second temporary chant. 26. A method of controlling the mode of electric power consumption by systems of power consumers, where each intelligent power consumer (UI) has a corresponding priority (PriorEff, PRD) for accessing energy consumption, characterized in that each intelligent power consumer (UI) is provided for independently determining its own dynamic priority (PRD) as a function of the operating state of the most intelligent consumer (UI) of power and environmental information. 27. The method of controlling the mode of consumption of electric power by systems of power consumers according to the preceding paragraph, characterized in that said priority (PRD) is limited as a function of information, for example, the duration of a power consumer and / or the program and / or program stage and / or time , remaining until the end of the program and / or a possible reconfiguration of the program to request less power and / or consumer habits and / or a work schedule to the end and / or schedules for a lower electricity tariff. 28. The method of controlling the mode of consumption of electric power by systems of consumers of power according to p. 26 or 27, characterized in that said dynamic priority (PRD) is limited by the complexity of circuits operating in accordance with the principles of fuzzy logic. 29. A power consumer system comprising a plurality of power consumers (U), which, in turn, comprises a collection of intelligent power consumers (UI), with control systems (SC), said plurality of power consumers (U) being functionally connected to a network (RE ) of the energy source and contains, in addition, means (CE, NM) for measuring energy, configured to transmit energy consumption information (PD) to said control systems (SC), where said control systems (SC) autonomously perform adjustments the energy consumption of a jointly operating intelligent consumer (UI) of power based on the energy consumption information (PD) of the energy transmitted by means (CE, NM) for measuring energy, characterized in that said control system (SC) comprises means (TB6, TB7, TB8) for processing priority value (PRD). 30. The power consumer system according to clause 29, wherein the control system (SC) comprises a timer (TP) for calculating based on the priority value (PRD). 31. The system of power consumers according to the preceding paragraph, characterized in that the control system (SC) contains advanced fuzzy logic circuits for determining the priority value (PRD). 32. The power consumer system of claim 26, wherein said control system (SC) is coupled to means for audible and / or visual display for supplying signal information about energy consumption (PD).