KR101006399B1 - Solar electricity controller - Google Patents

Abstract

PURPOSE: A solar power controller is provided to improve work efficiency by automatically switching solar power to utility power. CONSTITUTION: A power input unit(10) receives power through a sunlight collector or an external power supply unit. A controller(20) is comprised of a microprocessor, a timer, a watt-hour meter, and a driving memory. A switching unit(30) selectively connects the progressing path of power inputted through the sunlight collector or external power supply unit. A relay(40) selectively outputs DC power or AC power. An inverter(50) converts DC power outputted from the relay to AC power. A sensor is comprised of an impact sensor and a current sensor.

Description

Solar power controller with power switching function {Solar electricity controller}

The present invention relates to a solar power controller having a power switching function.

In detail, the present invention provides a power supply controller of various electronic and electrical devices that supply their own power using solar light, and adds a configuration for switching the power supply from KEPCO by factors such as climate and time. The present invention relates to a solar power controller having a power switching function that can be used efficiently, and that an additional configuration can be installed in a single case with a controller so that maintenance can be performed more conveniently.

Electronic and electrical devices using solar light can mainly exemplify street lamps and traffic lights installed outside, and such street lamps and signals are installed with a solar heat collecting device for converting the solar light into electrical power when it is collected on one side. Then, a solar controller for converting and supplying the power converted by the solar heat collecting device into an electric form suitable for a street lamp or a traffic light and controlling the supply state of the power is provided.

In order to supply the power collected from the solar heat collecting device with the power suitable for the power supply target device, the photovoltaic controller supplies and cuts the power, raises or lowers the voltage, controls the amount of current, and direct or alternating current power. It is configured to include a switch, a transformer, a converter or an inverter for performing the conversion and the like.

The solar controller of the above configuration collects sunlight during a daylight with a large amount of sunshine and converts it into electrical power and stores the same, and supplies power to the power supply target device at the same time or night time.

Such a solar controller has an optimal configuration for supplying solar power, but when the amount of sunshine is insufficient due to the daytime climate or by the time zone, the KEPCO external input power is connected. The same external input power supply is mainly switched by hand by the worker at the site where the street lights or traffic lights are installed.

Accordingly, the switching process of the external input power of the solar controller causes considerable manpower, time and cost waste, and the control panel to which the solar power is input and the control panel to which the KEPCO external power is input are installed separately. There is a time and economic penalty for maintenance to manage each of them.

The present invention has been invented to solve the above problems.

Accordingly, the present invention provides a power controller of various electronic and electrical devices that supply their own power by using solar light, and adds a configuration for switching the power supply from KEPCO by factors such as climate and time to more efficiently supply power. Its purpose is to provide a solar power controller that can be used and that additional components can be installed in a single case with the controller to make maintenance more convenient.

In order to achieve the above object, the present invention has the following configuration.

The present invention includes a power input unit for inputting power from an external power supply unit supplied from a solar heat collecting device or KEPCO; A control unit for selecting a power input from the solar heat collecting device or an external power supply unit and generating and outputting a signal for supplying a desired power to a target device for inputting power; A switching unit which receives the signal generated by the controller and selectively connects a progress path of the power input from the solar heat collecting device or an external power source; A relay unit for selecting and outputting DC or AC power by signals input through the switching unit and the control unit; And an inverter converting the DC power output from the relay unit into an AC power to be supplied by the target device and outputting the AC power.

The control unit may include a microprocessor controlling power supply by selecting power to be supplied to a target device according to a set time and a power amount of power input through the solar heat collecting device, from power supplied by sunlight or power input from the outside; ; A timer for counting an input time of power through the solar heat collecting device; A power meter for measuring the amount of power input through the solar heat collecting device; And a driving memory in which data for controlling the input of the power by the microprocessor by the signal input through the timer and the electricity meter is stored.

On the other hand, in the present invention, each of the above configuration is installed in a single panel.

In addition, the present invention is the charge and discharge to prevent the electrical shock of the load caused by the sudden interruption of the power supply when the power supplied from the solar heat collecting device is switched to the external power source of the KEPCO due to unforeseen factors It further comprises a circuit portion.

In particular, the present invention, the impact sensor for the physical damage factor of the solar heat collecting device, the sensor unit made of a current sensor for measuring the supply or supply of power applied to the lighting unit; When the abnormality of the power supply in the sensor unit occurs, the communication module for notifying the administrator of the fact that the power supply problem has occurred; is configured to further include.

As described above, the present invention can be automatically switched according to the requirements of the power supply by the solar power supply and the external power supply from KEPCO can eliminate the manpower, time, and economic waste for this work You get an effect.

In addition, the present invention is to provide a configuration for supplying solar power, and a configuration for supplying external power to be installed on a single panel to be more convenient to perform their maintenance time, economical There is an effect to gain.

1 is an exemplary street lamp with a controller according to the present invention installed.
2 is a block diagram of a controller according to the present invention;
3 is a control block diagram of a controller according to the present invention;
Figure 4 illustrates a further Example 1 of the present invention.
5 is a further exemplary embodiment of the present invention.

Embodiments of the present invention as described above will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a street lamp provided with a controller according to the present invention, FIG. 2 is a block diagram of a controller according to the present invention, and FIG. 3 is a block diagram of a controller according to the present invention.

Referring to the drawings, the controller 1 according to the present invention is applied to the street lamp 2 is configured. Here, the street lamp 2 is a representative electronic and electrical device for receiving solar power, and in addition to being applicable to a traffic light or various lighting devices, the street lamp 2 exemplifies the street lamp 2 as a representative device. It is revealed.

The street lamp 2 is composed of a strut 3 installed at a constant height from the ground, and an illumination unit 4 emitting light from the upper side of the strut 3 to the lower side. Here, the lighting unit 4 may be configured to be driven by an AC power source such as an incandescent lamp, a fluorescent lamp, a halogen lamp, and may be a component applied to an LED which has recently increased in use.

The controller 1 is installed on the lower side of the support 3 to facilitate installation and maintenance. The controller 1 includes a power input unit 10, a control unit 20, a switching unit 30, a relay unit 40, and an inverter 50.

The power input unit 10 is divided into a solar heat collecting device 11 or an external power supply unit 12 supplied from KEPCO. Here, the solar heat collecting device 11 is as known to collect the sunlight in the form of a plate-like structure in which a plurality of solar cells are connected to convert the solar light into electrical energy.

The control unit 20 selects the power input from the solar heat collecting apparatus 11 or the external power supply unit 12, and supplies the desired power to the lighting unit 4 of the street light 2 for inputting power. It is a configuration for generating and outputting signals.

The control unit 20 includes a microprocessor 21, a timer 22, a power meter 23, and a driving memory 24. Here, the control unit 20 includes a display unit 25 for displaying a control situation performed by the microprocessor 21 visually or audibly, and the display unit 25 includes an LCD droplet panel, 7- Display elements such as segments, LEDs, or buzzers or alarms may be applied.

The microprocessor 21 selects the power to be supplied to the lighting unit 4 according to the time already set and the amount of power input through the solar heat collecting device 11 from the power by the solar light or the power input from the outside. To control the power supply.

This microprocessor 21 is for performing the same function and can be applied by substituting a microcomputer and a central processing unit (CPU).

The timer 22 is configured to count the input time of the power source through the solar heat collecting apparatus 11. In addition, the electricity meter 23 is a measuring device for measuring the amount of power input power through the solar heat collector (11).

The driving memory 24 is a configuration in which data for the microprocessor 21 to control the input of power by a signal input through the timer 22 and the electricity meter 23 is stored. The driving memory 24 may be applied in the form of a ROM, a RAM or the like in the form of a device.

The switching unit 30 is a component for selectively connecting the progress path of the power input from the solar heat collecting device 11 or the external power supply unit 12 by receiving the signal generated by the control unit 20. Such a switching unit 30 may be divided into a solar switch for regulating the power input by the solar heat collector 11 and a KEPCO switch for regulating the power input through the external power supply unit 12.

The relay unit 40 is configured to selectively output a DC or AC power by a signal input through the switching unit 30 and the control unit 20. The relay unit 40 is divided into an AC (AC) relay and a DC (DC) relay. The relay unit 40 is divided into an incandescent lamp for driving the lighting unit 4 of the street light 2 by AC, It is for responding to a kind of a luminaire such as a fluorescent lamp or a luminaire such as an LED for driving by direct current.

The inverter 50 is connected to the DC relay of the relay unit 40 and is configured to convert the DC power output from the relay unit 40 into an AC power to be supplied by the lighting unit 4 and output the converted AC power.

In particular, the controller 1 includes the above-described configuration of the power input unit 10, the control unit 20, the switching unit 30, the relay unit 40, and the inverter 50 in a single panel 60. It is configured to be integrated and maintainable.

The controller 1 configured as described above is basically at a time set by the timer 22 of the controller 20 in a state of supplying power to the lighting unit 4 of the street light 2 through the solar heat collecting apparatus 11. Accordingly, the power supply and the driving to the street lamp 2 are controlled by intermittent the power in the switching unit 30.

In such a state, for example, when the amount of daylight is low and the amount of power collected by the solar heat collecting device 11 is insufficient, the electricity meter of the control unit 20 measures this and the control unit 20 controls the switching unit 30. It is possible to supply external power supplied by KEPCO.

Additional Example 1

4 is an exemplary view of a further embodiment 1 of the present invention.

Referring to the drawings, the controller 1A of the first embodiment has a sudden interruption of power supply when the power supplied from the solar heat collecting device 11 is switched to an external power source by KEPCO due to an unforeseen factor. A configuration in which a charge and discharge circuit unit 70 for preventing an electric shock of the generated load, that is, the lighting unit 4, is further added.

Here, the charge-discharge circuit unit 70 is a circuit including a capacitor having a generally suitable capacity, which passes a portion of the power supplied through the solar heat collector 11 to be charged in the capacitor, the solar heat collector When the power supplied from (11) is cut off, the charged power is immediately discharged, and the power is supplied at the moment of switching to the external power from the switching unit 30.

At this time, the charge-discharge circuit unit 70 is a natural configuration including a circuit configuration such as a converter for supplying a direct current charging power to the capacitor. For reference, the interruption of the power supply of the solar heat collecting device 11 due to the unforeseen factors may illustrate the breakdown of the solar heat collecting device 11 exposed to the outside, a climatic condition, or a disconnection in the working process.

Additional Example 2

5 is an exemplary view of a further embodiment 2 of the present invention.

Referring to the drawings, the controller 1B of the second embodiment is prepared in case of failures such as the interruption of its own power supply, the failure of the solar heat collecting device 11, and the failure of supply of external power to the KEPCO. The configuration for notifying the user of the street lamp manager of the mobile phone is presented.

To this end, the controller 1B is a current sensor 82 for measuring the supply or the degree of supply of power applied to the impact sensor 81, the lighting unit 4 for the physical damage factor of the solar heat collecting apparatus (11). And a sensor module 80, etc., and a communication module for notifying an administrator of a mobile phone when an abnormal shock set in the solar heat collecting apparatus 11 is detected or an abnormality is detected in the power applied to the lighting unit 4. It comprises 90.

Herein, the communication module 90 is a device for performing wireless communication, and establishes a connection with a base station of each communication company in advance, and the above-described notification can be mainly performed through a mobile phone text.

10: power input unit 11: solar heat collector
12: external power supply unit 20: control unit
21: microprocessor 22: timer
23: power meter 24: drive memory
30: switching unit 40: relay unit
50: inverter 60: panel
70: charge and discharge circuit 80: sensor
90: communication module

Claims (5)

delete delete delete delete In the solar power controller having a power switching function,
A power input unit 10 for inputting power from the solar heat collecting device 11 or the external power supply unit 12 supplied from KEPCO;
Control to supply the power to be supplied to the lighting unit (4) by selecting either the power by the sunlight or the power input from the outside according to the set time and the amount of power input through the solar heat collecting device (11) A micrometer 21, a timer 22 for counting an input time of a power source through the solar collector 11, and a power meter for measuring the amount of power inputted through the solar collector 11 23 and a control unit 20 including a drive memory 24 storing data for controlling the input of power by the microprocessor 21 by signals input through the timer 22 and the electricity meter 23; ;
A switching unit 30 for receiving a signal generated by the control unit 20 and selectively connecting a progress path of the power input from the solar heat collecting device 11 or the external power supply unit 12;
A relay unit 40 for selecting and outputting a direct current (DC) or alternating current (AC) power by a signal input through the switching unit 30 and the control unit 20;
An inverter 50 for converting the DC power output from the relay unit 40 into an AC power to be supplied by the lighting unit 4 and outputting the alternating current power;
Charge / discharge circuit unit for preventing the electric shock of the load caused by the sudden interruption of the power supply when the power supplied from the solar heat collecting device 11 is switched to the external power source of KEPCO due to unforeseen factors ( 70);
The sensor unit 80 including the impact sensor 81 for the physical damage factor of the solar heat collecting device 11, the current sensor 82 for measuring the supply or supply of power applied to the lighting unit (4) )Wow;
A communication module 90 for notifying the administrator's mobile phone that a problem of power supply has occurred when an abnormality in power supply occurs in the sensor unit 80; Solar power controller having a power switching function comprising a.

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