RU2185040C1 - Method, system, and regulator power unit for remote power control system of domestic appliances, primarily for luminosity control of lighting fixtures - Google Patents

Abstract

FIELD: remote control, condition inspection, and adjustment of domestic appliances. SUBSTANCE: system has regulator, supply mains, remote control panel, and communication line. Power unit has RS flip-flop, switch, comparator, current-limiting circuit with rectifier, capacitor, rectifier, and regulator. Method is based on that upon determining frequency characteristics of supply mains their values are chosen and assumed constant, entered in memory of microprocessor unit, and frequency characteristics of domestic-appliance control signals are corrected using values obtained. EFFECT: provision for controlling characteristics of appliances and for keeping their operating power at desired level. 7 cl, 4 dwg

Description

 The invention relates to the field of regulation and control of the state of regulated objects and can be widely used for remote monitoring, diagnostics of the condition and control of numerous and various electrical appliances of household appliances, such as audio, video systems, room protection systems, microclimate devices, fans, heaters, etc. etc., as well as lighting devices of various types, systems and purposes.

 A wide range of possible uses of the claimed inventions is due to their numerous functionality, usability and ease of operation and the ability to control many units of various devices working simultaneously. At the same time, the regulation of the electrical parameters of the functioning of household appliances, in particular, the power carried out when controlling them, is provided with the help of the regulators that are part of the remote control system, and when using remote controls also included in the system, it becomes possible to control various important functions of modern electronic devices in the distance.

 Lighting devices, which are the most important and necessary part of household tools, equipped with wireless remote control systems, are designed to provide the greatest comfort and ease of use for any category of users, including persons with disabilities, when using devices in residential, industrial, medical etc. the premises.

 Currently, various control systems for electrical appliances are used.

 One of the known means that implements optimized control of lighting devices is the device described in patent US 5811942, class. H 05 B 37/02, publ. 09/22/1998, based on the use of a control module containing microprocessors and a control program in read-only memory, and electrical units for direct control of actuators by command received from the control module. When controlled from the keyboard, the automatic setting of the on and off time is provided: day, evening, night. The device also contains a voltage stabilizer. Through the use of the control program, the known device provides an economical mode of illumination of lighting devices and, if necessary, their constant glow.

 The disadvantage of this device is the inability to control, including remote, electrical and functional parameters of various household devices.

 Also known is a multi-channel system that implements a method of regulating the illumination presented in the description of US patent 5814950, class. H 05 B 37/02, publ. 09/29/1998, consisting of a communication system for transmitting analog data in accordance with the level of light intensity emitted by light sources. When receiving data from the memory of a remote computer, the system, in accordance with the program laid down, transmits successively through a communication line to each lighting module, consisting of a microcontroller and read-only memory, a command to turn on light sources with a given brightness level.

 The disadvantage of this device is the inability to remote (wireless) control due to the lack of an appropriate control body and the inability to control the functions of household appliances. The known device is also characterized by excessive complexity of operation and high cost.

 In international application PCT 96/41502, cl. H 05 B 37/02, publ. 09/19/1996, a means of controlling the radiation intensity of a light source based on controlling the power supplied to the light source based on determining the presence of the user is described. The controller that controls the power supplied to these sources may have a wired and wireless connection with the lighting control.

 The disadvantage of this device is the inability to control the radiation of the light sources in accordance with pre-set parameters due to the lack of software in the device. For the same reason, the user does not have the operational ability to control the glow parameters due to the lack of a control panel. Accordingly, the system does not allow controlling the functions of household appliances from the control panel. The disadvantages include the inability to control various household appliances, for example, heaters, floor heating means, etc., since the system is designed to control only light sources.

 Closest to the claimed system and method are the method and system for remote control of electrical appliances presented in the application for European patent 0069470, cl. H 02 J 13/00, publ. 01/12/1983 A well-known method implemented in this system comprising a central control unit, auxiliary units, consisting of a user-programmable microprocessor connected to the central unit, and a communication line, based on the transmission of command and request signals from the central unit to the auxiliary and vice versa . The system also contains light indicators, a keyboard unit and a network power supply. The functioning of the known system provides for monitoring the supply current with subsequent transmission of signals corresponding to the current state to the central unit controlling the light indication unit depending on the brightness of the lighting fixtures. The known method and device are characterized in that they use the method of ultrasonic transmission of input signals.

 The disadvantages of these tools are the inability to control the functions of household equipment from the control panel, while the control panel itself is rigidly attached to a specific place, because control is carried out through a wired connection, which is used as an electrical network.

 A big advantage of modern remote control systems is the use of a wireless remote control.

 Currently, many types of control panels are widely used.

 One of the most common is the well-known control panel, presented in the description of US patent 4725694, cl. G 08 C 21/00, publ. 02.16.1988, comprising a display screen connected to a control computer, equipped with sensor areas for introducing information into the processing system.

 A disadvantage of the known remote control is that it is wired, as well as the fact that it does not provide the ability to record the corresponding commands when pre-configured by its manufacturers to control household appliances.

 Also known remote control described in US patent 5450079, CL. H 03 K 17/94, publ. 09/12/95, containing a programmed microprocessor, a display controller, a display screen designed to display the processed information, and mechanical switching controls for controlling parameters.

 This console also has all of the above disadvantages.

 Remote control devices for household appliances and computer systems, described in RF patent 2127019, publ. 02/27/97, contains a transceiver, a microprocessor with memory, a keyboard for controlling actuators, and a power source. This remote control is designed to control many units of simultaneously operating devices and is configured to adapt the information input field to the user's goals. In addition, in the known remote control there is an electromechanical controller located next to the display screen.

 However, the well-known remote control does not have in its memory information and the corresponding commands for controlling household appliances recorded by the manufacturers, but only allows you to record commands from the remote controls available to the user in its memory. At the same time, a limited number of buttons, insufficient for the full use of technology, can be placed on the virtual panel.

 Another disadvantage is the inability of the user to find the desired button by touch, because the buttons created on the display do not have a physical volume, which under certain conditions leads to inconvenience of operation, for example, in insufficient lighting, or the inability to concentrate on the remote control, or for persons with physical disabilities. In addition, to use the well-known remote control with limited lighting, the backlight of the display is necessary, which entails an increase in power consumption from batteries and, accordingly, a decrease in the time of continuous operation from these batteries.

 At the same time, the power supplies used in the known devices do not provide sufficient power necessary for remote control of several autonomously functioning electrical appliances when they are implemented by all operating modes inherent to them in demand by users.

 A disadvantage of the known power supplies when used in multi-function controllers designed to be connected in series with household appliances is the inability to operate in a wide range of input power supply upon receipt of the required output power. For example, this drawback is inherent in the power supply described in US patent 6009005, CL. H 02 M 7/217, publ. 12/28/1999.

 The prototype of the claimed power supply is a secondary power source according to the patent of the Russian Federation 2138113, class. H 02 M 7/21, publ. 09/20/1999, containing an RS-trigger, a smoothing capacitor, a transistor, resistors, a diode bridge, a current-limiting circuit with a rectifier, a zener diode, an OR-NOT logical inverter and a comparator, the output of which is connected to the S-input of the RS-trigger, the input of the current-limiting circuit with a rectifier connected to the high-voltage input of the unit.

And this known block is inherent in the above disadvantage
The technical result of the claimed invention is the elimination of all the above disadvantages. In addition, the claimed inventions provide reliable protection against inrush currents and high noise immunity.

 In addition to the above, it can also be noted that the claimed inventions are easy to operate at the same time as high cost-effectiveness, versatility and efficiency with maximum adaptability to various devices intended for control.

 In addition, the claimed remote control has special commands that allow you to control the power of household appliances and the brightness of the lighting devices, provided that it is used in the system claimed in this application.

 The above technical result is achieved in that the first claimed invention is a remote control system for the power of household appliances, mainly lighting devices, consists of at least one remote control and at least one controller containing a memory unit, a keyboard unit and service switches, at least one unit for receiving remotely transmitted input signals, a light indication unit for displaying operating modes with Stem, N (where N = 1, 2 ... - number controlled household electric) power switching control units and domestic appliances off, power supply and microprocessor unit.

 At the same time, the microprocessor unit is configured to operate in accordance with the program recorded in its memory and is designed to provide control signals for a smooth rise or instantaneous removal of the supply voltage from household electrical appliances, respectively, when they are turned on and off. It is also configured to process and store signals received from a unit for receiving input signals remotely transmitted by the user, if necessary, followed by their recognition by sequential comparison with signal codes previously stored in the microprocessor unit memory.

 When controlling lighting devices, the microprocessor unit is designed to control the brightness of the illumination of lighting devices and to establish a predetermined brightness level.

 The remote control via a communication line is connected to the control input of the controller associated with the unit for receiving remotely transmitted input signals, which is connected to one input of the microprocessor unit, bi-directional communications connected to the memory unit. The other input of the microprocessor unit is connected to the keyboard unit and service switches. The inputs of N power control units for turning on and off household appliances and a light indication unit are connected to the corresponding outputs of the microprocessor unit. The power supply is connected to memory units, receiving remotely transmitted input signals and a microprocessor unit.

In addition, the controller further comprises a unit for extracting clock pulses from the signal of the electric network, N current overload detection units, at least one temperature deviation detection unit and an audio indication unit,
The microprocessor unit of the claimed system is made with the ability to control the disconnection of electrical appliances when exceeding the permissible operating parameters of the power control units for turning household appliances on and off when a signal is received from the temperature deviation detection unit and with the possibility of accumulating information about time intervals for exceeding these parameters. Also, the microprocessor unit is designed to analyze signals about the parameters of the electric network generated by the sync pulse allocation unit, and to record information received from the keyboard unit and service switches and the unit for receiving remotely transmitted signals about the times the lighting devices are turned on and off for specified periods of time corresponding to calendar days, with the subsequent reproduction of the aforementioned on and off states and the aforementioned moments of on and off s to simulate the presence of a person in the room.

 Another purpose of the microprocessor unit is to play the function of "sunrise" and "sunset" by controlling the on and off lighting in accordance with the set time parameters.

 To the inputs of the microprocessor unit are connected blocks for detecting current overload and temperature deviations. The current output of the power supply is connected to one output of the controller, the output of the sync pulse allocation unit is connected to the corresponding input of the microprocessor unit and to the control input of the power supply, which is connected to the units for detecting overcurrent and temperature deviations.

 The I-th output of the group of individual outputs of the controller is connected to the corresponding output of the i-th power control unit on and off household appliances, the high-voltage output of the power supply is connected to the input of the clock allocation unit and the output of the i-th power control unit on and off household appliances which is connected to the i-th overcurrent detection unit. One output of the regulator directly, and the i-th output of a group of individual conclusions of the regulator are connected to the mains through the i-th household appliance. The corresponding output of the power supply is connected to a common bus, the communication line is wired or wireless, and the remote control, if necessary, is configured to connect to the aforementioned power supply or to connect to a power network or at least one autonomous battery.

 In addition, when using a wireless communication line, the remote control is made with the possibility of joint control of more than one controller and is designed to generate control signals in accordance with the selected controllers. Also, the remote control can be configured to emit infrared signals or radio signals to transmit them to a unit for receiving remotely transmitted input signals.

 As a remote control in the claimed system can be used a remote control comprising a keyboard, a memory unit, an input signal receiving unit, a remote control command transmission unit, a power supply unit, an indication unit, a mode selection unit, a microprocessor and a power control unit, the inputs of which are connected with a battery pack and a keyboard, and the output is connected to an input signal receiving unit, a memory unit, and a microprocessor.

 In this case, the microprocessor is configured to, in accordance with the program stored in its memory, process, store and recognize signals generated by the unit for receiving input signals received from other remote controls, and to bring these signals into correspondence with control signals transmitted to the command transmission unit remote control, and also configured to set the parameters of the carrier frequency of the signal transmitted by the remote control command transmission unit.

 In addition, the microprocessor, at the request of the user, is designed to read code symbols corresponding to the selected controlled household appliance from the memory block and is configured to separately control several household electrical appliances in different combinations and with the possibility of generating signals controlling the power of household electrical appliances, and when control of lighting devices is made with the ability to control the brightness of the illumination of lighting devices. At the same time, the microprocessor is double-sided connected by a communication to the memory unit, the mode selection unit is electromechanical and designed to supply signals corresponding to the selected household electrical appliances to a microprocessor connected to the outputs of the mode selection unit, keyboard, and input signal receiving unit. The microprocessor outputs are connected to the display unit and the remote control command transmission unit.

 The remote control can also be configured to emit infrared signals or radio signals to transmit them to a unit for receiving remotely transmitted input signals.

 In addition, when using a wireless communication line, the remote control is made with the possibility of joint control of more than one controller and is designed to generate control signals in accordance with the selected controllers.

 The claimed method for remote control of the power of household electrical appliances, mainly lighting devices, consists in the selection of household electrical appliances subject to current control and the type of control of wireless and / or wired and determine the frequency parameters of the power supply network.

 According to the method, the functioning parameters are continuously monitored for the remote control system power capacity of household appliances, based on which, when the above parameters are outside the acceptable values, household appliances are disconnected from the supply network.

 In addition, the method is based on the fact that the power control of household electrical appliances is carried out by smoothly supplying when turning on and / or instantly removing the supply voltage when turning off household electrical appliances.

 Preliminarily or in the process of remote power control, if necessary, fixed values of the power of household electrical appliances are set, and when controlling lighting fixtures, the brightness of their glow is controlled, if necessary, setting pre-fixed brightness values, by switching the lighting devices on and off at specified times, reproduce their operating mode "sunrise "or" sunset "with the ability to select and set the time interval for transition to the state of maximum glow in the "sunrise" mode and in a state of no glow in the sunset mode.

 The method also consists in the fact that the signals generated on the basis of the input actions received from the user are stored and, in response to these signals, generate control signals for household appliances, establishing the correspondence of the received and control signals, if necessary, adding or changing the said correspondence when receiving new actions , the signals of which are also remembered and establish new correspondence of the control signals to the newly introduced.

 After determining the frequency parameters of the electric network, the values of these parameters are selected, which are taken as constants, they are remembered and, based on the obtained values, the frequency parameters of the control signals of household appliances are corrected.

 The power control of each household appliance is produced by changing the time intervals during which current is supplied to the said appliance. When setting the time interval for transition to the state of maximum glow in the "sunrise" mode and in the absence of glow in the "sunset" mode, the time delayed for the user to turn on the "sunrise" and / or "sunset" modes is set, the light mode is set and, if necessary , sound confirmation of receiving remote control signals that carry information about input actions.

 When the operating parameters of household appliances go beyond the permissible values, they enable the alarm and record the characteristics of the mentioned parameters when the household appliances are turned on and off.

 Also, the inventive method is based on the fact that when controlling lighting devices for predetermined time periods corresponding to calendar days, information is stored on the moments of switching on and off the lighting devices at the corresponding time of the day with the current moving averaging of these values with the subsequent reproduction of the said switched on and off states of the lighting instruments and mentioned points in time. These operations are carried out to simulate the presence of a person in the room, which can be used to implement the security functions of the object in which the system that implements this remote control method is installed.

 At the same time, power regulation by smoothly supplying the supply voltage is carried out for 0.5-1 sec.

 The inventive power supply for a remote control system for the power of household appliances, mainly lighting devices, contains an RS-flip-flop, a smoothing capacitor, a current-limiting circuit with a rectifier and a comparator, the output of which is connected to the S-input of the RS-flip-flop.

 The input of the current-limiting circuit with a rectifier is connected to the high-voltage input of the unit. The power supply also contains a key, a rectifier and a stabilizer, the output of which is the output of the unit, the current input of which is the input of the rectifier connected to one output of the key, the control input of which is connected to the output of the RS-trigger.

 The R-input of the RS-trigger is the control input of the unit. The output of the current-limiting circuit with a rectifier is connected to the output of the rectifier, to the inputs of the comparator and stabilizer, and to the positive terminal of the smoothing capacitor, the negative terminal of which is connected to a common bus and to another terminal of the key.

 The invention is illustrated by drawings.

 In FIG. 1 is a diagram of the inventive remote control system, FIG. 2 is a diagram of a controller, FIG. 3 is a diagram of a remote control, and FIG. 4 is a diagram of a controller power supply.

 The remote control system (figure 1) contains a controller 1 that controls the power supplied to the load 3, representing a household appliance included in the electric power supply network 4, a remote control 2 and a communication line 5.

 The controller (Fig. 2) contains a microprocessor unit 6, a power supply unit 7, a memory unit 8, a keyboard and service switch unit 9, a unit for receiving remotely transmitted input signals 10, a light indication unit 11, N (where N = 1, 2, .. . - the number of controlled household electrical appliances) power units 12 for turning on and off household appliances, N overcurrent detection units 15, an audio indication unit 13, a sync pulse extracting unit from an electrical network signal 14, and at least one temperature detecting unit from declination 16.

 The remote control (figure 3) contains a microprocessor 17, a memory unit 18, a mode selection unit 19, a keyboard 20, an input signal receiving unit 21, a remote command transmitting unit 22, a power supply unit 23, a power control unit 24 and an indication unit 25 .

 The power supply (Fig. 4) contains an RS-trigger 26, a key 27, a comparator 28, a current-limiting circuit 29 with a rectifier 30, a capacitor 31, a rectifier 32, and a stabilizer 33.

 The remote control 2 through the communication line 5 is connected to the control input of the controller associated with the unit for receiving remotely transmitted input signals 10, which is connected to the input of the microprocessor unit 6, bidirectional communications connected to the memory unit 8.

 The input of the microprocessor unit 6 is connected to the keyboard and service switch unit 9. The inputs of the i-th (where i = 1-N) power control unit for turning on and off household appliances 12 and light units 11 and sound 13 are connected to the corresponding outputs of the microprocessor unit.

 The power supply 7 is connected to the memory units 8, receiving remotely transmitted input signals 10, the i-th power control unit for turning on and off household appliances 12 and the microprocessor unit 6, to the blocks for selecting clock pulses 14, detecting overcurrent 15 and temperature deviations 16.

 Blocks for detecting overcurrent 15 and temperature deviations 16 are connected to the inputs of the microprocessor block B. The current output of the power supply unit 7 is connected to one output of the controller, the output of the clock allocation unit 14 is connected to the corresponding input of the microprocessor unit 6 and to the control input of the power supply unit 7.

 The i-th output of the group of individual outputs of the controller is connected to the corresponding output of the i-th power control unit for turning on and off the household appliance 12, the output of which through the i-th current overload detection unit 15 is connected to the corresponding input of the microprocessor unit 6.

 One output of the controller is directly, and the i-th output of the group of individual terminals of the controller through the i-th household appliance 3 is connected to the supply network 4. The corresponding output of the power supply is connected to a common bus.

 The communication line is made in the form of a wired or wireless. The remote control, if necessary, can be made with the ability to connect to the aforementioned power supply or with the ability to connect to a power supply network or with at least one autonomous battery.

 Microprocessor unit 6 contains a microcontroller, which can be used as a controller PIC16C63 company "Microchip". The controller controls the operation of the circuit breaker in accordance with the program located in its program memory.

 The memory block 8 contains a ROM chip with non-volatile storage of information and a two-wire serial input-output interface (EEPROM).

 As the block 9 of the keyboard and service switches can be used tact buttons, or microswitches, etc.

 As a unit for receiving remotely transmitted input signals, a hybrid microcircuit of a narrow-band sensitive photodetector can be used, various varieties of which are used in household electronic equipment.

 In power control units for turning household appliances on and off, as a rule, powerful field-effect transistors with current-limiting circuits with rectifiers are used, which allows implementing a current protection system with high speed, since transistors can be forcedly closed (turned off) at any time, and this avoids current surges at the moment of switching on, because switching on occurs at the moment when the voltage in the network is close to zero.

 The overcurrent detection unit 15 is a voltage comparator processing the signal from the power unit 12. The signal from the output of the overcurrent detection unit is supplied to the microprocessor unit 6, and the corresponding power unit disconnects the appliance from the mains.

 In the remote control (figure 3), the microprocessor 17 is connected by a two-way communication with the memory unit 18 and connected to the outputs of the mode selection unit 19, the keyboard 20 and the input signal receiving unit 21.

 The outputs of the microprocessor 17 are connected to the display unit 25 and the transmission unit of the remote control commands 22.

 The inputs of the power control unit 24 are connected to the power supply unit 23 and the keyboard 20, and the output is connected to an input signal receiving unit, a memory unit, and a microprocessor. The mode selection block 19 may be made in the form of a switch.

The input signal receiving unit 21 of the remote control can be configured to receive infrared signals sent from other control panels, in which case the block 21 can consist of a narrow-band sensitive photodetector, a power filter and a switch disconnecting the photodetector from the microprocessor, which is in the remote control configured to, in accordance with the program recorded in its memory, process, store, and recognize signals generated by the input signal receiving unit, received from other remote controls,
The clock allocation unit 14 serves to determine the presence of voltage in the electric network and the current frequency in it and provides pulses to the microprocessor unit with the network frequency and duty cycle 2. At the same time, the clock pulses arrive at the microprocessor unit - to synchronize the moment the electrical devices turn on with the moment the voltage passes through the network zero, as well as to the control input of the power supply to synchronize its operation with the voltage in the network.

 In the remote control, the power control unit (electronic key), having received a signal from the keyboard, supplies power from the power supply unit to the input signal receiving unit, the memory unit and the microprocessor.

 In the power supply unit of the controller (figure 4), the output of the comparator 28 is connected to the S-input of the RS-flip-flop 26, the input of the current-limiting circuit 29 with a rectifier 30 is connected to the high-voltage input of the block.

 The output of the stabilizer 33 is the output of the unit, the current input of which is the input of the rectifier 32, connected to one output of the key 27, the control input of which is connected to the output of the RS-flip-flop 26, the R-input of which is the control input of the unit.

 The output of the current-limiting circuit 29 with a rectifier 30 is connected to the output of the rectifier 32, to the inputs of the comparator 28 and stabilizer 33, and to the positive terminal of the smoothing capacitor 31, the negative terminal of which is connected to a common bus and to another terminal of the key 27.

 When controlling household electrical appliances, for example, lighting devices, the functioning of the claimed inventions is as follows.

 The system that implements the claimed method includes at least one controller powered by an alternating current electric network, and at least one remote control powered by an autonomous source. Each regulator may contain one or more power units 12 (Fig. 2) for separate power adjustment, respectively, of one or more lighting devices. One (general) terminal of the regulator is directly connected to the electric network, individual terminals of the regulator connected to the terminals of the power units are connected to the electric network through the corresponding lighting devices.

 The following functions are attributed to the microprocessor unit of the controller in accordance with the program recorded in its memory: the issuance of control signals for a smooth increase or instantaneous removal of the supply voltage from household appliances, respectively, when they turn on and off, processing and storing of input signals. Subsequently, if necessary, at the request of the user, the microprocessor unit implements the recognition function of the mentioned input signals by sequentially comparing them with the signal codes previously stored in the memory, controlling the brightness of the lighting fixtures and setting a predetermined brightness level, controlling the disconnection of electrical appliances when the permissible operating parameters are exceeded systems when detecting temperature deviations, accumulation of information on temporary x intervals for exceeding these parameters, analysis of signals about the parameters of the electric network, recording information from the keyboard unit and service switches and the unit for receiving remotely transmitted input signals, about the moments of switching on and off of lighting devices for specified periods of time corresponding to calendar days, followed by by reproducing said on and off states and said on and off moments to simulate the presence of a person in a room, and in work function "sunrise" and "sunset" by controlling the turning on and off of lighting according to the established time parameters.

 When applying power to the controller (Fig. 1), by including it in the power circuit of the electric lighting device 3, an initialization program is executed, the voltage frequency in the electric network 4 is analyzed based on the signal received from the clock allocation unit 14, and the data are recorded in the memory unit 8 In the future, the voltage frequency in the electric network is considered unchanged (50 or 60 Hz), up to the loss of the supply voltage of the regulator circuit (disconnecting the circuit breaker or device from the electric network) and the next time AI is determined again. Analysis of the frequency of the current in the electrical network is necessary to synchronize the moment of supply of current to the appliance with the moment the voltage in the network passes through zero in order to avoid peak current surges at the moment of supply of current to the appliance and ensure maximum power entering the appliance.

 Next, the controller goes into the standby state of the command, that is, the keyboard block and service switches 9, the block for receiving remotely transmitted input signals are interrogated 10. Also, the signals from the temperature deviation detection unit 16 and the current overload detection unit are monitored by the microprocessor controller unit 15. The unit for detecting temperature deviations 16 measures the temperature inside the controller housing and provides the corresponding signals to the microprocessor unit, in the case of Exit temperature of range.

 Every 1.5 minutes, information on the status of the regulator (turned on or off and what power level of the electric lighting device is installed) is recorded in the controller’s memory block for its subsequent use during the simulation of human presence, and information on the work for the last seven days is used (the average data, since short-term on and off are not recorded).

 When a signal is received from a keyboard unit and service switches or a remote control via a communication line and a unit for receiving remotely transmitted signals, the corresponding command is executed (increase the brightness, turn on the sunrise function, turn on the light). Switching on smoothly, in order to reduce the starting current, since the resistance of cold incandescent lamps is much lower than that of lamps turned on at full power. If the power of the appliance exceeds the maximum allowable, or the temperature inside the controller exceeds the maximum allowable, then the corresponding signal is sent to the microprocessor unit from the overcurrent detection unit or the temperature deviation detection unit, and the appliance does not turn on.

When the temperature inside the controller case rises due to exceeding the maximum permissible load power, increased ambient temperature or difficult ventilation, and when this temperature is reached a critical value, the corresponding signal is received from the temperature deviation detection unit to the microprocessor unit, which records the moment of detection of the emergency begins to make a permanent record in the memory block of data on the parameters of the functioning of the controller in p bench thermal overload, for example, to remember a time during which the controller is in thermal overload mode
This data, due to the thermal overload mode, can then be used to resolve possible conflict situations when the regulator is damaged due to a long-term violation of operational requirements. With a further increase in temperature, the regulator gives a sound signal and disconnects the device from the electric network. In this case, the appliance can be forcibly turned on in the consumption mode, not more than 40% of the maximum power, and for a time, not more than two minutes. These restrictions will continue to exist until the temperature inside the regulator body drops to a safe value.

 One of the advantages of the claimed system is the ability to use the remote control to generate signals that control the power of household electrical appliances, and you can quickly set the required brightness of lighting electrical appliances, which is achieved through the use of a microprocessor in the remote control, configured to control the brightness of their glow, by generating the corresponding signals on remote control command transmission unit.

 To do this, on the remote control there is (depending on version) a keyboard consisting of one or more buttons. By briefly pressing one of them, the regulator sets the brightness of the lighting fixtures previously stored for this button; by longer pressing, the regulator switches to the brightness storage mode corresponding to the selected button. Then, using the remote control or the keyboard block of the regulator, the required brightness is set. Preliminary and current installation of modes is provided by software of the claimed system. Using the remote control command, the selected brightness is stored in the controller memory unit.

 The microprocessor of the remote control used in the remote control system is capable of separately controlling several control objects in their various combinations, for example, several heating and lighting electrical appliances at once or only household humidifiers. To do this, the remote control provides an electromechanical mode selection unit, designed to set the appropriate combination of control objects and supply a signal corresponding to a given combination to the microprocessor. This procedure is carried out by the user by selecting the appropriate buttons located on the remote control, while the microprocessor reads from the memory block the code symbols corresponding to the selected control object, previously recorded in the remote control memory block.

In addition, the microprocessor of the remote control is configured to, in accordance with the program stored in its memory, process, store and recognize signals generated by the unit for receiving input signals received from other remote controls, and to bring these signals into correspondence with control signals transmitted to the unit remote control command transmission, and also configured to set the parameters of the carrier frequency of the signal transmitted by the remote control command transmission unit, chrome Moreover, the microprocessor, at the request of the user, is designed to read code symbols corresponding to the selected control object from the memory block and is configured to separately control several control objects in different combinations and with the possibility of generating signals that control the power of household electrical appliances, and when controlling lighting devices made with the ability to control the brightness of the glow of lighting devices,
To control the regulator, remotes from other devices using the same communication line (infrared rays or radio signal) can be used. For this, the regulator must be configured for the commands received from these remotes, and the codes of the corresponding commands must be recorded in the regulator’s memory block, for example, when purchasing or preparing for the release of the finished product at the manufacturing plant. The setting mode for receiving signals from other remotes is set by the user. Using the keyboard block, the controller is switched to the "learning" mode. Then, using the keyboard block, the regulator function is selected, which should be implemented by a command coming from another, so-called “learning” console.

 While holding the corresponding buttons on the controller, the user presses the button on the remote control corresponding to the selected function. The signal received from the unit for receiving remotely transmitted signals is converted by the program stored in the memory of the microprocessor unit into a command code. The regulator is equipped with sound and light alarm units intended for setting up the remote control, the so-called "correct training", to confirm receipt of a command to receive the corresponding signals that these sound and light alarm units emit. The control of other functions of the controller is similarly configured, for example, as described above, the separate control of several control objects in their different combinations. Then, using the keyboard block, the controller exits the "learning" mode and enters the normal standby mode of the command.

 The regulator has the function of turning off the lighting fixtures after a time period set by the user. To do this, the sunset command is sent from the remote control for at least one second. At the same time, the regulator gives a sound signal, which corresponds to a delay of 15 minutes for turning on the sunset function, pressing the sunset button on the remote control again increases the delay time by 15 minutes. Thus, the delay time for turning on the sunset mode can be 15, 30, 45, or 60 minutes.

 The possibility of separate control of several controllers that are part of the remote control system is carried out using the remote control mode selection unit and the corresponding position of the keyboard unit and controller service switches. At the same time, in the remote control for each button intended for lighting control, there are two commands that are selected using the mode selection block, that is, a set of buttons for lighting control corresponds to two sets of commands. On the controller, in turn, is a mode switch, which is part of the keyboard unit and service switches, with which the user selects a set of remote control commands to which the controller should respond. Thus, the remote control, the mode selector switch of which is set to "1", will control the controller, the mode switch on the keyboard and service switch unit is also set to "1". To control the controller, the mode switch on the keypad and service switches is set to "2", the switch of the mode selection block on the remote control should also be set to "2". As a result, by changing the position of the switch of the mode selection block on the remote control, you can separately control two controllers using the same buttons on the remote control.

 The power supply unit of the regulator allows to sufficiently supply all its units with power thanks to the use of two options for power selection from the electric network: the first is used when the lighting devices are turned off or turned on at a power of less than 60% of the maximum; the second - when the power supplied to the appliance exceeds 60% of the maximum. For the first option, a current-limiting circuit 29 with a rectifier 30 is used. The voltage from the output of the rectifier 30 is smoothed by the capacitor 31 and fed to the input of the stabilizer 33.

 The signal from the sync pulse allocation unit puts the RS flip-flop 26 into the position that closes the key 27. In this case, if the voltage on the capacitor 31 exceeds the reference voltage of the comparator 28, the signal from the output of the comparator goes to the input S of the RS-flip-flop, and the key 27 opens again.

 When the power of the appliance exceeds 60%, the current flowing through the current-limiting circuit becomes insufficient to provide power to all the regulator units. The signal from the sync pulse allocation unit puts the RS-flip-flop 26 in the position that closes the key 27, and the current through the rectifier 32 charges the capacitor 31 to a voltage exceeding the reference voltage of the comparator 28, after which the signal from the output of the comparator goes to the input S of the RS-flip-flop, and the key 27 reopens.

 Thus, when the key 27 is closed, the current flowing through the appliance charges the capacitor 31. The signal from the sync pulse separation unit, arriving at the moment when the voltage in the electric network is close to zero, allows to reduce the charging current of the capacitor 31 from the rectifier 32 and thereby avoid it (capacitor) damage. In addition, the voltage taken from the key 27 to charge the capacitor 31 is subtracted from the voltage supplied to the electrical appliance, therefore, synchronizing the operation of the key 27 with the mains voltage using the signal from the sync pulse allocation unit eliminates the flashing of the lighting electrical appliances included in the system.

 The remote control operates as follows. By a signal from the remote control keyboard, the power control unit 24 of the remote control circuit is activated. In this case, the voltage from the power supply unit 23 through the power control unit is supplied to the microprocessor 17, the memory unit 18 and the input signal receiving unit 21. Immediately after that, the signal from the keyboard sets the command supplied by the microprocessor 17 to the remote control command transmission unit 22. The power control unit supplies voltage to the indicated units for approximately two seconds after the signal from the keyboard disappears, after which the power from the microprocessor, memory unit and input signal receiving unit is removed Thu thereby providing energy saving resource the batteries included in the battery block 23.

 The remote control of the system is configured to simulate the signals of other remote controls using a similar communication line. To do this, using the keyboard, the user puts the remote control in training mode. By pressing and holding the button on the remote control, which is supposed to assign a command corresponding to the selected function, presses the button corresponding to this function on the training remote. In this case, the signal from the emitter of the training console via the communication line is fed to the block for receiving external signals of the console and then to the microprocessor, where, using a program located in the program memory of the microprocessor, it is converted into a command code, which is recorded in the memory block of the console. Other buttons of the remote control are configured similarly to the corresponding selected functions of the training remote. After the setup process is completed, the user uses the keyboard to put the remote control into normal state, when the remote control issues a command when the buttons are pressed.

 For remote control of household audio and video equipment, the remote control memory contains sets of codes that correspond to commands for controlling various models of household appliances (televisions, VCRs, or music centers). The user can select from the attached list the most convenient set of commands for controlling his household appliances. Moreover, any selected set of commands can be changed at the request of the user by reconfiguring the individual buttons of the remote control in the manner described above, and stored in the memory block of the remote.

 The analysis of patent and literary sources showed that the totality of the characteristics indicated in the inventions is not previously described and is not known, and this particular combination provides functional completeness, completeness of the technical solution and achievement of the goal.

 It is obvious that the proposed preferred implementations of the inventions are one of the possible, various modifications of which, without changing the essence of the described inventions, can find application in various fields of production and human life.

Claims (7)

 1. A remote control system for the power of household electrical appliances, mainly lighting devices, comprising at least one remote control and at least one controller comprising a memory unit, a keyboard and service switch unit, at least one remote receiving unit transmitted input signals, light indication unit, N (where N = 1, 2... is the number of separately controlled household electrical appliances) of power control units for turning household appliances on and off, block p power and microprocessor unit, while the microprocessor unit is configured to operate in accordance with the program stored in its memory and is designed to provide control signals for a smooth rise or instantaneous removal of supply voltage from household appliances, respectively, when they are turned on and off, and also configured to process and storing signals received from the unit for receiving remotely transmitted input signals, if necessary, followed by their recognition by sequential comparison with signal codes previously recorded in the memory of the microprocessor unit, and when controlling lighting devices, the microprocessor unit is designed to control the brightness of the illumination of lighting devices and to establish a predetermined brightness level, the remote control is connected via a communication line to the control input of the controller associated with the unit receiving remotely transmitted input signals, which is connected to one input of a microprocessor unit, bi-directional connected to the memory unit, the other input of the microprocessor unit is connected to the keyboard and service switch unit, the inputs of the N power control units for turning on and off household appliances and the light indication unit are connected to the corresponding outputs of the microprocessor unit, the power supply unit is connected to the memory units, receiving remotely transmitted input signals and microprocessor unit, characterized in that the controller further comprises a unit for extracting clock pulses from the electrical signal network, N overcurrent detection units, at least one temperature deviation detection unit and an audio indication unit, a microprocessor unit is configured to control the disconnection of electrical appliances when exceeding the allowable operating parameters of the power control units for turning on and off household electrical appliances when a signal is received from the unit for detecting temperature deviations, with the possibility of accumulating information about time intervals for exceeding these parameters, and t It is also designed to analyze signals about the parameters of the electric network generated by the sync pulse allocation unit, and to record information coming from the keyboard unit and service switches and the unit for receiving remotely transmitted input signals about the moments of switching on and off of lighting devices for specified periods of time corresponding to calendar days , followed by the reproduction of the said on and off states and the said on and off moments to simulate there is no human being in the room, and it is also designed to reproduce the "sunrise" and "sunset" functions by controlling the on and off lighting devices in accordance with the set time parameters, the current overload and temperature deviation detection units, the current output of the power supply are connected to the inputs of the microprocessor unit connected to one output of the controller, the output of the clock allocation unit is connected to the corresponding input of the microprocessor unit and to the control input of the power supply, which ry is connected to the blocks for detecting current overload and temperature deviations, the i-th output of a group of individual terminals of the controller is connected to the corresponding output of the i-th power control unit for turning household appliances on and off, the high-voltage output of the power supply is connected to the input of the clock allocation unit and to the corresponding output i-th power control unit for switching household appliances on and off, the output of which is connected to the i-th current overload detection unit, one output of the regulator is direct Actually, the i-th output of the group of individual controller outputs is connected to the mains supply via the i-th household electrical appliance, the corresponding output of the power supply unit is connected to the common bus, and the communication line is wired or wireless.  2. The system according to claim 1, characterized in that the remote control comprises a keyboard, a memory unit, an input signal receiving unit, a remote control command transmission unit, a power supply unit, an indication unit, a mode selection unit, a microprocessor and a power control unit, inputs which is connected to the power supply unit and the keyboard, and the output is connected to an input signal receiving unit, a memory unit and a microprocessor, the microprocessor being configured to process, in accordance with the program stored in its memory, The memory, recognition and recognition of signals generated by the unit for receiving input signals received from other remote controls, and matching these signals with control signals transmitted to the remote control command transmission unit, is also configured to set the parameters of the carrier frequency of the signal transmitted by the unit transmitting remote control commands, in addition, the microprocessor, at the request of the user, is designed to read code symbols from the memory unit, respectively creating a selected controlled household electrical appliance, and is configured to separately control several household electrical appliances in different combinations and with the ability to generate signals that control the power of household electrical appliances, and when controlling lighting fixtures, it is configured to control the brightness of the lighting fixtures, while the microprocessor is connected by a two-way communication with a memory unit, the mode selection unit is electromechanical and is designed to supply signals, respectively existing microprocessor connected to the outputs of the mode selection unit, keyboard and input signal receiving unit, the microprocessor outputs are connected to the display unit and the remote control command transmission unit.  3. The system according to claim 1, characterized in that the remote control is configured to emit infrared signals or radio signals.  4. The system according to p. 1, characterized in that the remote control is made with the possibility of joint control of more than one controller and is designed to generate control signals in accordance with the selected controllers.  5. The method of remote control of the power of household electrical appliances, mainly lighting devices, implemented in the system according to claim 1, which consists in selecting household electrical appliances subject to current control and the type of wireless and / or wired control, determining the frequency parameters of the power supply network carry out constant monitoring of the functioning parameters that implements the method of a remote control system for the power of household appliances, based on which, upon exit the above parameters, outside the allowable values, disconnect household electrical appliances from the supply network, in addition, the method is based on the fact that the power control of household electrical appliances is carried out by smoothly supplying when turning on and / or instantly removing the supply voltage when turning off household appliances, previously or in the process remote power control, if necessary, set fixed values for the power of household appliances, when controlling lighting devices control the brightness of their glow, if necessary, setting pre-fixed brightness values, the method also consists in the fact that the signals generated on the basis of input actions received from the user are stored and, in response to these signals, form control signals for household appliances, establishing the correspondence between the received and control signals, if necessary, add or change the aforementioned correspondence when receiving new actions, the signals of which are also remembered and set new correspondences of the control signals to the newly introduced ones, characterized in that after determining the frequency parameters of the electric network, the values of these parameters are selected, which are taken as constant, they are stored and based on the obtained values they are corrected for the frequency parameters of the control signals of household appliances, the power of each household appliance is adjusted by changes in the time intervals during which current is supplied to said electrical appliance sets the light mode If necessary, sound confirmation of receipt of remote control signals that carry information about input influences, when the functioning parameters of household appliances exceed acceptable values, enable the alarm and record the characteristics of the mentioned parameters when the household appliances are on, when controlling lighting devices by turning on and turning them off at predetermined points in time reproduce the mode of their functioning "sunrise" or "sunset" with by the ability to select and set the time interval for transition to the maximum glow state in the “sunrise” mode and in the absence of a glow state in the “sunset” mode, the time delayed for the user to turn on the “sunrise” and / or “sunset” modes, as well as during predetermined time intervals corresponding to calendar days, remember information about the moments of turning on and off the lighting devices at the corresponding time of the day with the current moving averaging of these values with subsequent playback by reproducing said on and off states of lighting devices and said time instants to simulate the presence of a person in a room.  6. The method according to p. 5, characterized in that the power control by smoothly supplying the supply voltage is carried out for 0.5-1 s.  7. The power supply of the controller for a remote control system for the power of household appliances, mainly lighting devices, containing an RS-trigger, a smoothing capacitor, a current-limiting circuit with a rectifier and a comparator, the output of which is connected to the S-input of the RS-trigger, the input of the current-limiting circuit with a rectifier is connected to high-voltage output of the unit, characterized in that a key, a rectifier and a stabilizer are inserted into it, the output of which is the output of the unit, the current output of which is the input of the rectifier, with dined with one key output, the control input of which is connected to the output of the RS-trigger, R - the input of which is the control input of the unit, the output of the current-limiting circuit with a rectifier is connected to the output of the rectifier, to the inputs of the comparator and stabilizer, and to the positive terminal of the smoothing capacitor, whose negative terminal connected to a common bus and to another key terminal.

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