BG110404A - Method for control of the accumulation and consumption of energy and device for its implementation - Google Patents

Abstract

The method and the device can be applied in lighting fixtures using photovoltaic panels, wind generators or other autonomous energy sources. According to the method, by means of a charge controller (5), controlled by a microcontroller (3), a monitoring is carried out of the optimum point of the power source (8) through a control module of the power supply (6), at least one lighting fixture (2), and control of the power to the supply source (8) from a battery (7), and by means of a thermoelectric converter (9) û the heat energy, released from the operation of the lighting fixture (2) and/or from the conversion of the solar or the mechanical energy, is converted into electricity and is accumulated in the battery (7). A variant of the method is developed, in which control of energy consumption of the lighting fixture (2) is carried out simultaneously with the control of the accumulation of energy. An opportunity is provided as well for thermal protection and control of the lighting fixture (2). The device implementing the method includes a control microcontroller (3) connected to a charge controller (5) and control module of the power supply of the light source (6), whose input is connected to the charge controller (5), and its output û to at least one lighting fixture (2), and the charge controller (5) is also connected to the battery (7), the energy source (8) and one or more thermoelectric converters (9). The device may include at least one temperature sensor (1) positioned adjacent to or in the lighting fixture (2) and connected to the control microcontroller (3) also measuring the operating temperature. The advantages of the method and the device are that higher yield of energy is achieved from a smaller source, the cost of the lighting system is relatively decreased, the life of the battery and the lighting fixtures is prolonged.

Description

A method for managing the accumulation and consumption of energy and a device implementing the method

Technical field

The method and device implementing the method find application in lighting techniques for controlling the accumulation and consumption of energy in luminaires using autonomous renewable energy sources, such as photovoltaic panels or wind generators.

BACKGROUND OF THE INVENTION

There is no known method for managing the accumulation and consumption of energy in luminaires using autonomous renewable energy sources.

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SUMMARY OF THE INVENTION

It is an object of the invention to provide a method for controlling the accumulation and consumption of energy in luminaires using autonomous renewable energy sources, to optimize their mode of operation, to increase their efficiency in use and to extend their service life.

The problem is solved by a method that includes:

Implementation of thermal protection and control of the light source using a known or designed method, and at the same time monitoring the optimum power point of the energy source by means of a charged controller and regulating through it the power supplied from the source to the accumulator (current and voltage) , such as

the charging of the battery is carried out on the principle of "direct current - constant voltage", and by means of a thermoelectric converter (Peltier element), the heat released in the operation of the luminaire and / or in the conversion of solar or mechanical energy is converted into electrical energy and accumulated back to the battery.

The charge controller constantly records the accumulated energy in the battery and for each duty cycle (from sunset to sunrise) of the luminaire, the accumulated energy is given in such a way as to guarantee the required minimum light flux for the whole period. In the case of long periods of low energy production, respectively insufficient accumulated energy in the battery, a constant proportional or according to a predefined lighting scheme is guaranteed for the nominal duty cycle of the luminaire.

A device has been created implementing the method comprising a temperature sensor mounted directly next to or in the light source and coupled to a control microcontroller that records the operating temperature. The microcontroller is also connected to a radio unit, a charge controller, and a power supply control unit of the light source whose input is connected to the charging controller and its output to the light source. The charging controller is also connected to the battery, the power source and one or more thermoelectric converters.

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The advantages of the method and the device that realizes it are that they achieve a higher energy production from a smaller source, ie. efficiency is increased and the cost of the system decreases given the relatively high cost of photovoltaic panels, wind turbines and other renewable energy sources, and the life of the battery and of luminaires as a whole is extended.

Explanation of the annexed figures

Figure 1 is a diagram of a device implementing the method for managing the accumulation and consumption of energy in luminaires using autonomous renewable energy sources.

Examples of carrying out the invention

Exemplary embodiments of the method and apparatus described below are developed without limiting them to the examples presented herein.

Example 1:

A method has been developed whereby the thermal protection and control of the light source is carried out using a method known for the purpose and at the same time monitoring the optimum power point of the energy source - wind generator by means of a charged controller and controlling through it the power supplied from the source to the accumulator. (current and voltage), charging the battery on the principle of "constant current - constant voltage", and by means of a Peltier element, separated during operation of the luminaire warm the energy is converted into electrical energy and stored back into the battery.

The charge controller constantly records the accumulated energy in the battery and for each duty cycle (from sunset to sunrise) of the luminaire, the accumulated energy is given in such a way as to guarantee the required minimum light flux for the whole period. In the case of long periods of low energy production, respectively insufficient accumulated energy in the battery, a constant proportional or according to a predefined lighting scheme is guaranteed for the nominal duty cycle of the luminaire.

Example 2:

A method has also been developed whereby the light source is an LED lamp consisting of a plurality of LEDs, in which thermal protection and control of the LED lamp is carried out using a separate method created for this purpose by the authors and at the same time monitoring the optimum point of power of the power source - photovoltaic panel by means of a charged controller and regulation through it of the power supplied from the source to the battery (current and voltage), the charging of the battery is carried out on the principle of a continual current - constant voltage "and by Peltier element emitted during operation of the luminaire and the conversion of solar thermal energy is converted into electrical energy and is stored back into the battery.

The charge controller constantly records the accumulated energy in the battery and for each duty cycle (from sunset to sunrise) of the luminaire, the accumulated energy is given in such a way as to guarantee the required minimum light flux for the whole period. In the case of long periods of low energy production, respectively insufficient accumulated energy in the battery, a constant proportional or according to a predefined lighting scheme is guaranteed for the nominal duty cycle of the luminaire.

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Example 3

A device is implemented implementing the method of Example 2, comprising a temperature sensor 1 mounted in the LED lamp 2 and connected to a control microcontroller 3, which records the operating temperature. The microcontroller 3 is also connected to the radio unit 4, the charge controller 5 and the power supply control unit of the lamp 6 whose input is connected to the charging controller 5 and its output to the LED lamp 2. The charging controller 5 is also connected to the battery 7, the power source 8 and one or more thermoelectric converters 9.

Use of the invention

The operation and use of the device implementing the method are apparent from the nature of the method and its description above.

Claims (9)

Patent Claims 1. A method of controlling the accumulation and consumption of energy in which, through a charged controller (5) controlled by a microcontroller (3), the optimal power point of an autonomous energy source (8) fed through a control unit is monitored. power supply (6), at least one luminaire (2), and regulation of the power supplied from the source (8) to the battery (7), charging the battery (7) on the principle of "direct current - constant voltage", and by means of a thermoelectric transducer (9), the separated trans operation of the lamp (2) and / or the conversion of solar or mechanical energy thermal energy is converted into electrical energy and is stored back in the accumulator (7). Method according to claim 1, characterized in that simultaneously with the control of energy accumulation, the consumption of energy consumed by the luminaire (2) is also carried out. A method according to claim 2, characterized in that the energy consumption control is carried out by charging the controller (5) with constant account of the accumulated energy in the battery (7) and for each duty cycle of the luminaire (2) the accumulated energy is makes sure that the required minimum luminous flux is required throughout the period. Method according to claim 3, characterized in that, for long periods of low energy production, respectively insufficient energy accumulated in the accumulator (7), for the nominal duty cycle of the luminaire (2), it is guaranteed continuously in proportion or at a predetermined lighting scheme. A method according to claims 1, 2, 3 or 4, characterized in that the thermal protection and control of the light source (2) is further carried out using a known or designed method. A method according to claim 5, characterized in that a control is made by means of at least one temperature sensor (1) positioned directly next to or in the light source (2) and connected to a control microcontroller (3), which also detects the operating temperature. a signal that is fed to a light source power control unit (6) and thereby adjusts the amount of power supply supplied to the light source (2). The method implementation device of claims 1 to 6, comprising a control microcontroller (3) coupled to a charge controller (5) and a power supply control unit of the light source (6) whose input is coupled to the charge controller (5), and its output - with at least one luminaire (2), the charging controller (5) being further connected to the battery (7), the energy source (8) and one or more thermoelectric converters (9). Device according to claim 7, characterized in that it also includes at least one temperature sensor (1) positioned directly next to or in the luminaire (2) and connected to the control microcontroller (3), which also detects the operating temperature and producing a control signal supplied to the light source power control unit (6), which regulates the amount of power supply supplied to the light source (2). Device according to claim 7 or 8, characterized in that the microcontroller (3) is also connected to a radio unit 4, providing remote transmission of parameters for the operating mode and / or environment to the control center.