JP3100721U - Night light - Google Patents

Abstract

An object of the present invention is to emit light with low power and multicolor, and to carry it.
SOLUTION: A power supply electric circuit 10, a main control electric circuit 20, a rechargeable control electric circuit 30, and a multicolor light emitting diode 21 are mainly provided to a control circuit, and the main control electric circuit 20 includes a microprocessor, a function setting key SW1, It has a power switch SW2, and can select the color and change of light emitted from the multicolor light emitting diode 21, and the rechargeable control electric circuit 30 controls the rechargeable battery V, the charge control crystal U1, and the gate control transistors Q1, Q2. The light emitting diode can emit light even when disconnected from the main power supply, and also has the function of a flashlight.
[Selection diagram] Fig. 1

Description

The present invention relates to the various functions of the night light and has more practical effects. The main technologies and objectives are
Part 1. Main control electric circuit, power supply electric circuit, charge control electric circuit, multi-color light emitting diode provided, the main control electric circuit has a microprocessor CPU, function setting key, power switch, The color of the light can also be selected.
Part 2. The charge control circuit is equipped with a charge control crystal, a rechargeable battery, and two gate control transistors. It can be charged by plugging it into the main power supply. When charging is completed, charging stops automatically, and when the main power supply is used, it automatically turns off. In general, rechargeable batteries stop supplying electricity, thus the present invention uses the main power supply (house outlet) and can be detached from the main power supply, so it also plays the role of a flashlight, and more Is a practical effect.

The night light is inserted into the outlet of the house and plays a role as an illumination lamp for weak light (about 2 W) at night. All known structures use a "tungsten bulb" or a "small fluorescent lamp". Has disadvantages.
1. Tungsten bulbs and fluorescent lamps consume considerable power (about 2W)
2. Tungsten bulbs emit red light by wearing red glass bulbs, and fluorescent lamps are other colors but all are fixed colors and cannot change color at any time.
3. The known structure must always be plugged into a house outlet at the time of use, and if it is removed from the outlet, no electricity will be turned on, and since it is a fixed light, it is impossible to carry it with you.
JP-A-2002-373506

In order to solve the above-mentioned drawbacks of the known structure, it is an object to provide the following night light.
Main control electric circuit, power supply electric circuit, charge control electric circuit, multi-color light emitting diode provided, the main control electric circuit has a microprocessor CPU, function setting key, power switch, The color of the light can also be selected. The charge control circuit is equipped with a charge control crystal, a rechargeable battery, and two gate control transistors. It can be charged by plugging it into the main power supply. When charging is completed, charging stops automatically, and when the main power supply is used, it automatically turns off. In general, rechargeable batteries stop supplying electricity, thus the present invention uses the main power supply (house outlet) and can be detached from the main power supply, so it also plays the role of a flashlight, and more Another object of the present invention is to solve the disadvantages and inconveniences of the known structure.

The night light according to the present invention relates to the combination of the outer shell 1 and the bulk 2 as shown in FIGS. 1, 2 and 3, and a control circuit is provided in the outer shell 1, and the bulk 2 transmits light and includes therein. A light emitting diode is provided, and the structure of the control circuit includes a power supply circuit 10, a main control circuit 20, a multicolor light emitting diode 21, and a charge control electric circuit 30,
Among them, the power supply electric circuit 10 has an electric resistance, a capacity of a capacitor, and a diode, is inserted into a power outlet of a house as a main power supply, rectifies and decompresses AC power of the main power supply, and performs circuit and multicolor light-emitting diodes. It is assumed that the DC power is required by the power supply 21.
The multicolor light emitting diode 21 includes light emitting diodes LED1, LED2, and LED3 of different colors and emits light of different colors.
The main control electric circuit 20 includes a microprocessor CPU, a function setting key SW1, and a power switch SW2. The microprocessor CPU includes a memory, an interpretation, and a signal reception control, and a multicolor light emitting diode emits light of different colors. And control the turn-off and turn-on of the power supply.
The charge control circuit 30 includes a charge control crystal U1, gate control transistors Q1 and Q2, and a rechargeable battery V. The charge control crystal U1 has a function of detecting whether or not the power supply circuit 10 is energized. When the power supply circuit 10 is turned off and the rechargeable battery V has insufficient power, the gate control transistor Q1 of the power supply circuit 10 is turned on, and the multicolor light emitting diode 21 and another gate control in the microprocessor CPU are turned on. The transistor Q2 does not turn on, and after the rechargeable battery V is fully charged, the charge control crystal U1 sends a sensing and control signal to turn off the gate control transistor Q1 and keep the other gate control transistor Q2 off. .
That is, the night light of the present invention has the following features.
1. Combine the outer shell and the
A control circuit is provided in the outer shell,
The bulk transmits light, and a light emitting diode is provided therein;
The structure of the control circuit is
Including power supply electric circuit, main control electric circuit, multicolor light emitting diode, charge control electric circuit,
The power supply electric circuit includes:
It has electrical resistance, capacitor capacity, diode, plugs into the outlet of the house that will be the main power supply, rectifies and decompresses the AC power of the main power supply, and converts it to DC power required by the circuit and the multicolor light emitting diode,
The multicolor light emitting diode,
Includes several different colored light emitting diodes, emitting different colored light,
The main control electric circuit includes:
It has a microprocessor, function setting key, power switch,
The microprocessor comprises:
With memory, interpretation, signal reception control, multi-color light emitting diode emits light in different colors, and controls the power on and off,
The charge control electric circuit includes:
Provide a charge control crystal, two gate control transistors, a rechargeable battery,
The charge control crystal is
It senses whether the power supply electric circuit is energized, the turn-off state and whether the charge amount of the rechargeable battery is sufficient, and when the power supply electric circuit is energized and the charge amount of the rechargeable battery is insufficient, The gate control transistor of the power supply electric circuit is connected and turned on, the connected multicolor light emitting diode and another gate control transistor in the microprocessor are not turned on,
When the rechargeable battery is fully charged, the charge control crystal senses and sends a control signal, the gate control transistor is turned off, and the other gate control transistor is also kept turned off,
When the power supply electric circuit is disconnected from the main power supply and the power switch of the main control electric circuit assumes the ON turn-on state,
The charge control crystal senses that the power supply electric circuit has no power supply, and turns off the gate control transistor of the power supply electric circuit connected to the rechargeable battery and turns on the other gate control transistor of the multicolor light emitting diode. , The multicolor light emitting diode emits light by the rechargeable battery,
As described above, when the color of the light of the multicolor light emitting diode is selected, and when the light is not inserted into the main power supply of the house, the light emitting diode has a rechargeable battery, thereby fulfilling a role as a mobile lighting.
2. The light emitting diode is characterized by exhibiting a plurality of individual solids and a single solid.

  The present invention controls many functions of the night light and can provide more practical effects.

  The present invention relates to a multicolor light emitting diode 21 and a light emitting diode having a high luminous intensity. In addition, as shown in FIG. 3, multi-colors are gathered into one light bulb (note: it is a known technique that a light emitting diode emits multi-colored light), and as shown in FIG. The light-emitting diodes LED1, LED2, and LED3 of each color (for example, red, green, and blue) are each an independent solid, and a light-emitting diode that emits monochromatic light is also included in the scope of the present invention.

When plugged into the outlet of the house that is the main power supply, that is, when the power supply electric circuit 10 is plugged into the main power supply, the power supply electric circuit 10 rectifies and reduces the AC power of the main power supply into low-voltage DC power, At this time, if the power switch SW2 of the main control electric circuit 20 turns on (turns on), the multicolor light emitting diode 21 emits light and the power switch
It does not glow when SW2 is OFF (turn off). When the power supply electric circuit 10 is energized, the rechargeable battery V of the charge control electric control circuit 30 is charged until the charging is completed.

  When the power supply electric circuit 10 is disconnected from the main power supply and the power switch SW2 of the main control electric circuit 20 is turned on (turned on), the rechargeable battery V of the charge control electric circuit 30 emits light from the multicolor light emitting diode 21. Let it. Therefore, the present invention can be moved and used, and has an effect similar to a flashlight. For example, in the bedroom, the night light is fixed to the outlet of the house and used, but when you want to move to the toilet, kitchen or other room, you can remove the present invention from the outlet and use it as portable lighting, Since it can be carried around, it can also be used as a lighting for direction indication, and has a practical effect that can be used in a wide range.

  As a method of selecting “emission color”, the present invention provides a multicolor light emitting diode 21, which is related to light emitting diodes LED 1, LED 2, LED 3 having different light colors, for example, red, green, Blue (three primary colors) is adopted. Press the function setting key SW1 once to red light, twice to green light, three times to blue light, four times to red and green light, Press 5 times to emit red and blue light, 6 times to emit green and blue light, 7 times to emit 3 colors at the same time, press for a long time (about 3 seconds) to return to the initial state and red light It emits light under the control of the microprocessor CPU, especially when two colors of light emit at the same time, producing an effect of emitting light of a mixed color of the two colors, thereby creating another new color. For example, when red and blue emit light at the same time, they become purple light, which produces a color change effect, and emits light of different colors without changing the bulb.

The control method of the "charging control electric circuit 30" is as follows. When the power supply electric circuit 10 is plugged into an outlet of a house serving as a main power supply, the power supply electric circuit 10 is turned on, the electric resistance R8 produces a bias, and the gate control transistor Q1 is turned on. Thus, it has diodes D4 and D5 for supplying electricity to the rechargeable battery V via the charge control crystal U1 and for supplying electricity directly to the rechargeable battery V and the multicolor light emitting diode 21 and the microprocessor CPU. , Isolating another gate control transistor Q2, whereby the gate control transistor Q2 is biased and exhibits a turn-off state. Therefore, the power of the rechargeable battery V is not supplied to the multicolor light emitting diode 21 and the microprocessor CPU, and the main power is supplied via the power supply electric circuit 10. When the charging of the rechargeable battery V is completed, the charge control crystal U1 senses that the electric charge of the rechargeable battery V has already reached a saturation state, and turns off, the gate control transistor Q1 turns off, and the main power supply, The supply electric circuit 10 does not supply the power to the rechargeable battery V. The gate control transistor Q1 does not turn on unless the power of the rechargeable battery V is consumed, and the power supply electric circuit 10 turns off the gate when the main power supply is disconnected from the house. If there is no power supply for generating the bias by the control transistor Q1, the power supply is turned off. At this time, the diodes D4 and D5 are in the state of no power supply again, and the power supply of the rechargeable battery V can be transferred, so that the other gate control transistor Q2 is turned on. The rechargeable battery V emits light by supplying power to the multicolor light emitting diode 21 and the microprocessor CPU.
In addition, by turning on (turning on) and turning off (turning off) the power switch SW2, the multicolor light emitting diode 21 is controlled to emit or turn off light.

FIG. 2 is a three-dimensional external view of the present invention. It is sectional drawing of this invention. 3 is a control circuit structure of the present invention. FIG. 4 is a circuit diagram of an embodiment in which the multicolor light emitting diodes of the present invention are independent solids.

Explanation of reference numerals

Reference Signs List 1 outer shell 2 bulk 10 power supply electric circuit 20 main control electric circuit 21 multicolor light emitting diode 30 charge control electric circuit
CPU microprocessor
D4, D5 diode
LED1, LED2, LED3, LED
Q1, Q2 Gate control transistor
SW1 function setting key
SW2 power switch
U1 charge control crystal
V Rechargeable battery

Claims (2)

Combine the outer shell and the
A control circuit is provided in the outer shell,
The bulk transmits light, and a light emitting diode is provided therein;
The structure of the control circuit is
Including power supply electric circuit, main control electric circuit, multicolor light emitting diode, charge control electric circuit,
The power supply electric circuit includes:
It has electrical resistance, capacitor capacity, diode, plugs into the outlet of the house that will be the main power supply, rectifies and decompresses the AC power of the main power supply to make it DC power required by the circuit and multicolor light emitting diode,
The multicolor light emitting diode,
Includes several different colored light emitting diodes, emitting different colored light,
The main control electric circuit includes:
It has a microprocessor, function setting key, power switch,
The microprocessor comprises:
With memory, interpretation, signal reception control, multi-color light emitting diode emits light in different colors, and controls the power on and off,
The charge control electric circuit includes:
Provide a charge control crystal, two gate control transistors, a rechargeable battery,
The charge control crystal is
It senses whether the power supply electric circuit is energized, the turn-off state and whether the charge amount of the rechargeable battery is sufficient, and when the power supply electric circuit is energized and the charge amount of the rechargeable battery is insufficient, The gate control transistor of the power supply electric circuit is connected and turned on, the connected multicolor light emitting diode and another gate control transistor in the microprocessor are not turned on,
When the rechargeable battery is fully charged, the charge control crystal senses and sends out a control signal, the gate control transistor is turned off, and the other gate control transistor is also kept turned off,
When the power supply electric circuit is disconnected from the main power supply and the power switch of the main control electric circuit assumes the ON turn-on state,
The charge control crystal senses that the power supply electric circuit has no power supply, and turns off the gate control transistor of the power supply electric circuit connected to the rechargeable battery and turns on the other gate control transistor of the multicolor light emitting diode. , The multicolor light emitting diode emits light by the rechargeable battery,
According to the above, a night light characterized by selecting a color of light of a multicolor light emitting diode and having a rechargeable battery when not plugged into a main power supply of a house, thereby achieving a role as a mobile lighting.   2. The night light according to claim 1, wherein each of the light emitting diodes exhibits a plurality of independent solids and a single solid.