KR102368571B1 - Street lamp using sunlight comprising white light diode with excellent light quality - Google Patents

Abstract

The present invention relates to a power-saving white light diode using sunlight, and more particularly, to a power-saving white light diode capable of emitting white light of excellent light quality using sunlight.
A power-saving white light diode using sunlight according to the present invention comprises: a main power source charged with electricity generated by sunlight; a standby power supply for powering street lights; a smart switch connected to the main power supply to supply power to the LED, and connected to a reserve power supply to supply power to the LED when the amount of power of the main power source is insufficient; The state of the main power is measured, and when the energy of the main power is lower than the predetermined standard, the connection of the smart switch is changed from the main power to the standby power, and when the energy of the main power is higher than the predetermined standard, the connection of the switch is changed from the preliminary power. Smart switch control unit to change back to main power; and a white light source including a light source circuit connected to the smart switch.

Description

Street lamp using sunlight comprising white light diode with excellent light quality

* The present invention relates to a street lamp using sunlight, and more particularly, to a street lamp using sunlight having a white light diode of excellent light quality.

A method is being developed to generate electricity using sunlight, and to store it and use it as a streetlight at night. When electricity generated by solar power is used, the energy used in the production of electricity can be saved and it is eco-friendly.

However, solar power generation is greatly affected by the weather, and when the amount of sunlight is low, the amount of power generation decreases, which causes the storage battery to not be charged with a sufficient amount of electricity, resulting in the lamp not being turned on at night. .

In order to solve this problem, a method has been proposed to expand the area of the solar power panel to generate sufficient power even on a day when there is little sunlight, to charge a storage battery, and then to use it at night. However, increasing the power generation panel causes an increase in cost.

As one of the methods for overcoming this, Korean Patent Laid-Open No. 10-2016-0091516 proposes a method of providing a light quantity increasing member in order to increase the energy efficiency of an LED street lamp using sunlight.

On the other hand, in Korean Patent No. 1081555 granted to Seil Technology Co., Ltd. and Korean Utility Model Registration No. 449424 issued to Hankook Entec, an annular light source is used to efficiently use the light stored by sunlight, or a lighting type Suggests the use of light sources.

An object to be solved by the present invention is to provide a street lamp capable of obtaining a good quality light source using sunlight.

Another object to be solved by the present invention is to provide a street lamp capable of obtaining a good quality light source using electricity stored using sunlight and general electricity.

In order to solve the above problems, the street lamp according to the present invention is

a main power source charged with electricity generated by sunlight;

a standby power supply for powering street lights;

a smart switch connected to the main power supply to supply power to the LED, and connected to a reserve power supply to supply power to the LED when the amount of power of the main power source is insufficient;

The state of the main power is measured, and when the energy of the main power is lower than a predetermined standard, the connection of the smart switch is changed from the main power to the standby power, and when the energy of the main power is higher than the predetermined standard, the connection of the switch is changed from the preliminary power Smart switch control unit to change back to main power; and

It characterized in that it comprises a white light source connected to the smart switch.

In the present invention, the white light source includes a constant voltage circuit, a driving circuit, an automatic power control circuit, a constant current control circuit, and a white diode so that a high quality light source can be provided while using a main light source whose output is reduced according to use. You can have a circuit.

In the practice of the present invention, in the light source circuit, the constant voltage circuit is connected to the DC voltage Vcc output from the smart switch and the ground line, and the output terminal of the constant voltage circuit is connected to a driving circuit, and the automatic power control circuit is directly connected to the driving circuit. connected, the output terminal of the driving circuit is connected to the constant current control circuit, the anode of the white diode is connected to the DC voltage Vcc output from the smart switch, and the cathode of the white diode is connected to the constant current control circuit.

In an embodiment of the present invention, the constant voltage circuit may be composed of a resistor and a constant voltage module.

In a preferred embodiment of the present invention, in the constant voltage circuit, one end of the resistor is connected to a DC voltage Vcc, the other end is connected to a constant voltage module, one end of the constant voltage module is connected to a ground line, and the other end is connected to a voltage to an output terminal. acts as

In the practice of the present invention, it is preferable that the driving circuit is composed of resistors Rb, Rc, Re, capacitor Ce, and triode T.

In a preferred embodiment of the present invention, in the driving circuit, one end of Rc is connected to the output terminal of the constant voltage circuit, and the other end is connected to the collecting electrode of the triode T. In the driving circuit, one end of Rb is connected to the output terminal of the constant voltage circuit, and the other end is connected to the base electrode of the triode T and the automatic power control circuit. The emission electrode of the triode T is connected to the resistor Re and the capacitor Ce to act as an output terminal of the driving circuit. After the resistor Re is connected in parallel with Ce, one end is connected to the ground line and the other end is connected to the emission electrode of T to act as an output terminal of the driving circuit.

In the practice of the present invention, the automatic power control circuit is configured by connecting two or more diodes in series.

In a preferred embodiment of the present invention, in the automatic power control circuit, the positive electrode is connected to the base electrode of the resistor Rb, the triode T, and the negative electrode is connected to the ground wire.

In the practice of the present invention, the constant current control circuit is composed of a triode and a resistor.

In a preferred embodiment of the present invention, the base electrode of the triode is connected to the emission electrode of the triode, and the collecting electrode of the triode is connected to the cathode of the group of white light diodes. The triode discharge electrode is connected to a resistor, and the other end of the resistor is connected to a ground wire.

In an embodiment of the present invention, the white light diode is a diode group in which a plurality of white light diodes are connected in series and/or in parallel.

In a preferred embodiment of the present invention, in the white light diode, the anode is connected to Vcc and the cathode is connected to the collecting electrode of the triode. It is preferable to constitute a light source.

According to the present invention, a novel method for stably operating even when light collection is insufficient due to climate change or insufficient sunlight is provided. The method according to the present invention can effectively mix and use the battery stored from sunlight and general power, so that the solar panel can be used as much as the concentrated amount without unreasonable expansion of the solar panel. has been able to produce

In addition, it is configured to have a good quality light source even in a state in which the output of the main power supply of the present invention is gradually reduced.

1 is a block diagram showing the principle of a white light diode solar street light according to an embodiment of the present invention.
2 is a block diagram of a light source circuit included in a white light diode solar street lamp according to the present invention.
3 is a circuit diagram of a white light diode solar street light light source circuit according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail through examples. It should be noted that the following examples are illustrative of the present invention and are not intended to limit the present invention.

As shown in FIG. 1 , the overall structure is composed of a main power supply 10 , a spare power supply 20 , a smart switch 30 , a smart controller 40 , and a white light source 50 , and the main power supply 10 . The current generated by the solar panel 10 is stored.

The main power supply 10 is a battery power formed by charging the electricity generated by the plate-shaped photovoltaic cell 60 that collects sunlight to generate a current in a high-energy capacitor. The output terminal of the main power supply 10 is connected to the smart switch 30 .

The reserve power 20 is power supplied to the street lamp by transmission from the power plant, and is a reserve power in the sense that power is supplied only when the energy of the main power is insufficient.

The spare power 20 may use 220V or 380V AC power mainly used in streetlights as input power. The standby power 20 is output after being converted into direct current through a process such as rectification, filtering, voltage stabilization, and the like. The output terminal of the spare power 20 is connected to the smart switch 30 .

The smart switch 30 is a switch that is periodically turned on/off, and in the on state is a switch that selectively operates between the main power supply 10 and the standby power supply 20, and the selection between the main power supply and the standby power supply is the main power supply. It is determined in real time according to the state of the power supply 10 .

The smart switch 30 is basically connected to the main power supply 10 and uses energy generated by sunlight. Therefore, when the energy of the main power supply 10 is sufficient, it is connected to the main power supply, and only when the energy of the main power supply 10 is insufficient, the connection is changed from the main power supply to the standby power supply. Accordingly, when the energy of the main power supply 10 is recovered by charging or the like, the connection is changed from the standby power source to the main power source again.

The input terminal of the smart switch 30 is connected to the main power supply 10 or the preliminary power supply 20, and the output terminal of the smart switch 30 is directly connected to the white light source 40 and is required for the white light source 50. Supply DC power.

The smart switch 30 is controlled by a smart controller 40 . The control output terminal of the smart controller 40 is connected to the control terminal of the smart switch 30 to control the on, off and switching functions of the smart switch.

The smart controller 40 can monitor the energy of the main power supply 10, and can monitor in real time whether the energy of the main power supply 10 exceeds a predetermined standard, and also has a regular control function, The white light source emits light by issuing a smart switch operation command only at night.

When the main power supply 40 provides the sampling value to the smart controller 40 , the smart controller 40 monitors the current capacity of the main power supply 10 . When the smart controller 40 detects that the energy of the main power supply 10 is insufficient than a predetermined standard, it sends a command to switch the input terminal to the standby power supply 20 to the smart switch 30 . The smart switch 30 changes the input terminal from the main power supply 10 to the standby power supply 20 accordingly.

When the smart controller 40 detects that the energy of the main power source 40 is sufficient, for example, exceeds a predetermined standard, the smart controller 40 is connected to the smart switch 30 of the smart switch 30 . It sends a signal to change the input terminal back to the main power supply (10). Accordingly, the smart switch 30 changes the input terminal from the preliminary power 20 to the main power 10, and the white light source is again supplied with power by the main power.

As shown in FIG. 2 , the light source circuit inside the white light source 50 includes a constant voltage circuit 1 , a driving circuit 2 , an automatic power control circuit 3 , a white light diode 4 and a constant current control circuit 5 . is composed of

The constant voltage circuit 1 is connected to the DC voltage Vcc output from the smart switch 30 and the ground line GND, the driving circuit 2 is connected to the output terminal of the constant voltage circuit 1, and the automatic power control circuit 3 is the driving circuit It is directly connected to the furnace (2). The output terminal of the driving circuit 2 is connected to the constant current control circuit 5, the anode of the white light diode 4 is connected to the DC voltage Vcc output from the smart switch, and the cathode of the white light diode 4 is connected to the constant current control circuit ( 5) is connected to

3, the constant voltage circuit 1 is composed of a resistor Ra and a constant voltage module W, one end of Ra is connected to Vcc, and the other end is connected to the constant voltage module W to act as an output terminal. One end of the constant voltage module W is connected to the ground line, and the other end is connected to Ra to act as an output terminal.

The driving circuit 2 is composed of resistors Rb, Rc, Re, a capacitor Ce, and a triode T. One end of Rc is connected to the output terminal of the constant voltage circuit 1, and the other end is connected to the collecting electrode of the triode T. One end of Rb is connected to the output terminal of the constant voltage circuit (1), and the other end is connected to the base electrode of the triode T, the power automatic control circuit (3). The emission electrode of the triode T is connected to the resistor Re and the capacitor Ce to act as an output terminal of the driving circuit (2).

The automatic power control circuit 3 is composed of two or more diodes connected in series, and the anode is connected to the resistor Rb, the base electrode of the triode T, and the cathode is connected to the ground line. When white light diodes must be connected in parallel, the total number of white light diodes is calculated according to the total power design value of the lamp, and the number of possible series in each group is determined according to the technical parameters of the main power storage battery, connected in series, and then connected in parallel.

The constant current control circuit 5 is composed of a triode T ₁ and a resistor R ₁ . The base electrode of the triode T ₁ is connected to the emission electrode of the triode T, and the collecting electrode of the triode T ₁ is connected to the cathode of the white light diode group LED ₁ . The emission pole of the triode T ₁ is connected to the resistor R ₁ , and the other end of the resistor R ₁ is connected to the ground wire.

The white light diode 4 (LED ₁ ) is a white light diode group formed by connecting white light diodes in series. The anode is connected to Vcc and the cathode is connected to the collecting electrode of T ₁ , followed by two or more white light diode groups in parallel. They can be connected to form a white light source with higher power.

The operation process of the light source circuit is as follows.

If the environmental temperature does not change, when the DC voltage Vcc is provided by the stored main power supply 10 , the voltage Vcc gradually decreases during the discharging process of the main power supply 10 . However, by ensuring the stability of the operating voltage of the driving circuit 2 through the voltage stabilization process of the constant voltage circuit 1, the driving circuit 2 is equipped with a stable load capacity, so that the constant current control circuit 5 is controlled by the white light diode 4 The white light diode 4 can continuously emit light having a constant brightness by providing a stable operating current necessary to control the light. When the environmental temperature rises, the automatic power control circuit lowers the constant current value of the constant current power supply, and in the opposite case, increases the constant current value of the constant current power source so that LED ₁ is always in the ideal operating current state.

1: constant voltage circuit
2: drive circuit
3: Power automatic control circuit
4: white light diode
5: Constant current control circuit
10: main power
20: spare power
30: smart switch
40: smart controller
50:

Claims (5)

A light source circuit for a white light source, comprising:
The white light source is
a main power source that is charged with electricity generated by sunlight and whose voltage decreases over time;
a standby power supply for supplying power to a white light source street lamp including an LED;
a smart switch connected to the main power supply to supply power to the LED, and connected to a standby power supply when the amount of power of the main power is insufficient to supply power to the LED;
The state of the main power is measured, and when the energy of the main power is lower than a predetermined standard, the connection of the smart switch is changed from the main power to the standby power, and when the energy of the main power is higher than the predetermined standard, the connection of the switch is changed from the preliminary power. Smart switch control unit to change back to main power; and
a light source circuit connected to the smart switch;
The light source circuit is
A white diode having an anode connected to the DC voltage Vcc output from the smart switch and a cathode connected to a constant current control circuit;
a constant current control circuit connected to the cathode of the white diode, to which a constant voltage is applied by a constant voltage circuit, and driven by a driving circuit in which the power is automatically controlled in the automatic power control circuit;
A constant voltage circuit connected to the DC voltage Vcc output from the smart switch and the ground line;
a driving circuit connected to an output terminal of the constant voltage circuit and an automatic power control circuit, and an output terminal connected to a constant current control circuit;
and an automatic power control circuit connected to the driving circuit,
The constant voltage circuit is composed of a resistor Ra and a constant voltage module W, one end of Ra is connected to Vcc, the other end is connected to the constant voltage module W to act as an output terminal, and one end of the constant voltage module W is connected to a ground line, and , the other end is connected to the resistor Ra to act as an output terminal;
The driving circuit is composed of resistors Rb, Rc, Re, capacitor Ce, and triode T, one end of Rc is connected to the output terminal of the constant voltage circuit, and the other end is connected to the collecting electrode of the triode T, of Rb One end is connected to the output terminal of the constant voltage circuit, the other end is connected to the base electrode of the triode T, the power automatic control circuit, and the emission electrode of the triode T is connected to the resistor Re and the capacitor Ce to the output terminal of the driving circuit. act;
The automatic power control circuit consists of two or more diodes connected in series, the anode is connected to the resistor Rb, the base electrode of the triode T, and the cathode is connected to the ground line,
The constant current control circuit is composed of a triode T1 and a resistor R1, the base electrode of the triode T1 is connected to the emission electrode of the triode T, the collecting electrode of the triode T1 is connected to the cathode of the white light diode group LED1, The discharge pole of the od T1 is connected to the resistor R1, the other end of the resistor R1 is connected to the ground wire,
The white light diode is a group of white light diodes formed by connecting the white light diodes in series, and the anode is connected to Vcc and the cathode is connected to the collecting electrode of the triode T1.

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