KR100695481B1 - Automatic Lighting Control Unit of a Household and Method Thereof - Google Patents

Abstract

An apparatus and a method for automatically controlling lighting for a furniture are provided to prevent a fire due to overheat of a lamp by switching off the lamp when luminance is not changed after a door of the furniture is opened and the lamp is switched on. A power supply unit(10) provides power to a lamp and an electric control element. A light detection unit(20) changes inner resistor to be varied in response to illumination light energy according to detection of illumination light. A luminance manual input unit(30) inputs a reference luminance value which switches on the lamp. A light detection time setting unit(40) determines an input time of light which is inputted by the light detection unit(20). A luminance variable measuring unit(50) measures an average luminance by detecting a changed luminance value for a predetermined time in the light detection time setting unit(40). A micom(60) is electrically connected to the power supply unit(10), the light detection unit, the manual input unit, the light detection time setting unit, and the luminance variable measuring unit. The micom compares data inputted from the light detection unit with data of the luminance manual input unit. The micom outputs a lamp switching-on signal if the light detection value is above the reference luminance value. The micom outputs a lamp switching-on/off signal which maintains an on-state of the lamp if the luminance is changed, and which switches off the lamp if the luminance is not changed.

Description

Automatic Lighting Control Unit of a Household and Method Thereof}

1 is a block diagram of the present invention.

2 is a circuit embodiment of the present invention.

Figure 3 is an exemplary view of the installation appearance of the present invention.

4 is a detailed configuration diagram of FIG. 3.

5 is an operational flowchart of the present invention.

Explanation of symbols on the main parts of the drawings

10: power supply

20: light sensing unit

30: Illuminated illuminance manual input unit

40: light detection time setting unit

50: illuminance change measurement unit

60: micom

70: output unit

80: lamp

100: lighting case

110: cylindrical hole

The present invention relates to an automatic lighting control device and method for furniture, and in particular, to adopt an illuminance sensor to control the internal lighting according to the change in the illumination, the automatic lighting control device for furniture, characterized in that the lighting is automatically made in the interior of the furniture And to a method.

Today, people are increasingly seeking convenience due to the increase of income, and interest in personal fashion is increasing due to the increase of income and development of the clothing industry.

In general, clothes are stored in a closet, such as a dresser, or in the case of owning a lot of clothes in a separate dressing room.

Although the lighting device is provided in the wardrobe or the dressing room as described above, the lighting device is mostly to be operated by the user or lit by opening and closing of the door.

However, a fluorescent lamp or a halogen lamp is used as a lighting device, and a power line is formed between the doors of the furniture or a power source between the furniture to install the power supply line of the lamp and the power supply line of the magnetic sensor installed at the door of the furniture or the dressing room. Since the line must be formed, the installation is difficult, there was a problem that the productivity is lowered.

In addition, there is a system that automatically turns on when external light is detected by using a light sensor, but when the door is closed for a long time or kept open for a long time, the lights are continuously turned on, causing excessive power consumption and overheating. There was a problem with the risk of fire.

The present invention is to solve the above problems, by detecting the amount of change in illuminance so that the lighting is turned on only when there is a change in illuminance is turned off when there is no change in illuminance, so when not using a closet lamp for a long time The purpose is to prevent this from turning on.

As a means for achieving the above object,

The present invention provides a power supply unit for supplying power to the lamp and the electric control element; A light detecting unit for changing an internal resistance corresponding to the irradiation light energy as sensing ambient irradiation light; A lighting illuminance manual input unit for designating a light quantity value at which the lamp should be unconditionally turned on; An optical sensing time setting unit for determining an input time of light input by the optical sensing unit; An illuminance change measuring unit configured to change an illuminance value changed during the time specified by the light sensing time setting unit; The light detection unit, the lighting illuminance manual input unit, the light sensing time setting unit, the illuminance change measuring unit, and the electrical connection, the data input from the light sensing unit and the data of the lighting illuminance manual input unit are compared to compare the lamp lighting signal. It is characterized in that it configures the microcomputer to output the lamp flashing signal by letting the illuminance change measuring unit measure the illuminance change for the time designated by the light sensing time setting unit.

In addition, a cylindrical hole for preventing direct transmission of the lamp light in the lighting case, characterized in that the sensor for detecting the light is installed inside the cylindrical hole.

In addition, the step of assigning the optical sensing time and the manual input value to the microcomputer; Inputting a current illuminance measurement value from an illuminance sensor and comparing it with a manually input illuminance value; As a result of the comparison, if the current illuminance value is higher than the manually input illuminance value, it is determined that the door is open and the lamp is turned on.If the current illuminance value is lower than the manually input illuminance value, the lamp is judged to be closed and the lamp is turned on. Not making it; Checking an amount of change in illuminance for a designated time after the lamp is turned on; If the illuminance changes, the lighting is kept on and if the illuminance does not change for a specified time, the lamp is turned off.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and the preferred embodiments associated with the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a block diagram of the present invention.

2 is a circuit embodiment of the present invention.

Figure 3 is an exemplary view of the installation appearance of the present invention.

4 is a detailed configuration diagram of FIG. 3.

According to the present invention, the configuration of the power supply unit 10, the light sensing unit 20, the light illuminance manual input unit 30, the light sensing time setting unit 40, and the illuminance change measuring unit 50 will be described. And a microcomputer 60, an output unit 70, and a lamp 80.

The power supply unit 10 converts and rectifies the applied AC power into DC power, outputs the same, drives elements constituting various circuits, and outputs main power to the lamp to light the lamp 80. do.

The light detecting unit 20 is called a CdS sensor whose resistance value is changed according to the brightness of the surroundings, and uses photoconductive cells containing CdS (cadmium sulfide) as a main component. The photosensitive unit 20 converts the internal resistance corresponding to the irradiation light energy by the brightness of the ambient light by the characteristics of the CdS photoconductive cell.

That is, the light sensing unit 20 outputs to the microcomputer 60 a proportional light sensing signal of an internal resistance which is converted in correspondence with the sensed ambient light.

At this time, the light detecting unit 60 outputs a low resistance value as the ambient irradiated light (incident light energy) is larger, and outputs a large resistance value as the ambient irradiated light is smaller, so that the photodetector 60 operates almost close to an insulator where there is little light energy. The incident energy of the irradiated light causes current to flow by the internal resistance according to the magnitude.

On the other hand, when the light detecting unit 20 of the present invention directly receives the light from the lamp 80 as the control target, it is impossible to accurately measure the illuminance according to the external environment, so that the light of the lamp 80 directly passes through the lighting case 100. The cylindrical hole 110 is formed to prevent the light from being formed, and the light sensing unit (sensor) 20 is positioned on the inner upper portion of the hole 100.

That is, when the light sensing unit 20 is not installed inside the hole 110 as in the present invention, the light of the control target lamp 80 is input to the light detecting unit 20, and according to the external environment The illuminance is not measured, but the illuminance of the current control target lamp 80 is measured, making it difficult to specify an accurate lamp off time point, and even a lamp off time may not exist.

Therefore, in the present invention, the cylindrical hole 110 is further installed to allow light outside the furniture to be measured when the door is opened, thereby preventing light from directly entering from the adjacent lamp 80 to closely measure the change in illuminance of the external environment. I could do it.

The illuminance manual input unit 30 inputs illuminance to be turned on so that the lamp 80 is automatically turned on when the illuminance data input by the illuminance manual input unit 30 is exceeded.

For reference, since the interior of the furniture is very dark, it is not necessary to set much standard illuminance, and it is desirable to determine about 30-50 lux. It is assumed that light may be input from the outside even though it is very weak.If light that is weaker than the illuminance specified by the manual light input unit is turned on, do not turn on the light. If it is formed high, turn on immediately.

The light sensing time setting unit 40 sets the input time of the light input by the light sensing unit 20. In the present invention, the light sensing time is maintained for about 1 minute, and then the average amount of change is applied to the lamp off point. Make a decision.

The illuminance change measuring unit 50 determines the off time of the lamp by averaging the illuminance input for the time specified by the light sensing time setting unit 40 so that the microcomputer, which will be described later, can control the lamp off based on this. Do it.

That is, the amount of change in illuminance is checked for a predetermined time while the lamp 80 is turned on, and if the change in illuminance does not occur during that time, the lamp 80 is turned off.

The microcomputer 60 is electrically connected to the light sensing unit 20, the light illuminance manual input unit 30, the light sensing time setting unit 40, and the illuminance change measuring unit 50. On the basis of the data input from the light source 20, if the light intensity exceeds the data of the manual input unit 30, the lamp 80 is turned on, and the light change time measuring unit 40 changes the light intensity during the time specified by the light sensing time setting unit 40. If there is no change to control the lamp 80 to turn off.

As a result, the microcomputer 60 automatically turns off the lamp by determining that the user does not exist in front of the furniture or the door of the furniture is closed incorrectly if the change in the illuminance does not occur for a predetermined time after the lamp 80 is turned on.

However, when the user comes to the front of the furniture again, a change in the illumination occurs, so the lamp 80 is turned on again, and the operation of checking the amount of change in the illumination for a specified time (about 1 minute) is repeated, and the lamp immediately turns on when the user approaches the furniture. Since it turns on, there is no burden to use.

The output unit 70 outputs a control signal of the microcomputer 60 to a lamp, and is usually composed of a transistor or a photodiac having a switching function. When the device is switched, the lamp 80 is turned on and the device is turned on. If it is not switched, the lamp 80 is turned off.

 In addition, it is a constituent means that can be incorporated in both the light sensing time setting unit 40 and the illuminance change measuring unit 50 and the microcomputer 60. Therefore, all functions are built into the one-chip microcomputer and the desired operation can be performed by program control. You can order.

Looking at the operation of the present invention in detail as follows.

First, the manufacturer can check the illumination change for a predetermined time through the light sensing time setting unit 40.

In addition, the illuminance inputs the illuminance value to be turned on unconditionally to the manual input unit 30.

Looking at the operation of the present invention in the setting is completed as described above, when the user opens the door of the furniture is turned on the lamp 80 immediately because the illumination is also out of the illumination specified by the manual input unit 30.

In addition, the amount of change in illuminance is monitored for a predetermined time while the lamp 80 is turned on.

On the other hand, the microcomputer 60 monitors the amount of change in illuminance for the time specified by the light detection time setting unit 40, and turns off the lamp 80 when there is no change in illuminance.

Looking at the control sequence of the present invention through the flow chart below.

5 is an operational flowchart of the present invention.

First, a step of designating a light sensing time and a manual input value to the microcomputer 60 of the system (S10);

The microcomputer inputs a current illuminance measurement value from an illuminance sensor, and compares it with a manually input illuminance value (S20);

As a result of the comparison, if the current illuminance value is higher than the manually input illuminance value, it is determined that the door is open and the lamp is turned on.If the current illuminance value is lower than the manually input illuminance value, the lamp is judged to be closed and the lamp is turned on. Do not make step (S30);

Checking a change amount of illuminance for a designated time (about 1 minute) after the lamp is turned on (S40);

If the illuminance is changed, the lighting condition is maintained continuously. If the illuminance does not change for a predetermined time, the lamp is turned off (S50).

Therefore, when the present invention is used, the door is automatically turned on when the door is opened, and if there is no change in illuminance thereafter, the lamp is automatically turned off so that the furniture is very efficient.

In particular, if the door is not closed well, the lamp is automatically turned off even when external light is detected, thereby preventing the risk of fire due to overheating of the lamp due to prolonged lighting.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, various other modifications and variations may be made without departing from the spirit and scope of the invention. Accordingly, it is intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

Claims (3)

A power supply unit supplying power to the lamp and the electric control element; A light detecting unit for changing an internal resistance corresponding to the irradiation light energy as sensing ambient irradiation light; A lighting illuminance manual input unit for designating a light quantity value at which the lamp should be unconditionally turned on; An optical sensing time setting unit for determining an input time of light input by the optical sensing unit; An illuminance change measuring unit configured to measure an average illuminance by detecting an illuminance value that changes during the time designated by the light sensing time setting unit; The light sensing unit, the light illuminance manual input unit, the light sensing time setting unit, and the illuminance change measuring unit are electrically connected to each other, and the light sensing value is determined by comparing the data input from the light sensing unit with the data of the light illuminance manual input unit. If it is abnormal, it outputs a lamp lighting signal, and the light change time measurement unit measures the average value of the light intensity change for the time specified by the light sensing time setting unit. Automatic lighting control device for furniture, characterized in that for configuring the output microcomputer. The method of claim 1, The light detecting unit is an automatic lighting control device for furniture, characterized in that installed in the interior of the cylindrical hole for preventing the direct transmission of the lamp light to the lighting case. Assigning a light sensing time and a manual input value to the microcomputer; Inputting a current illuminance measurement value from an illuminance sensor and comparing it with a manually input illuminance value; As a result of the comparison, if the current illuminance value is higher than the manually input illuminance value, it is determined that the door is open and the lamp is turned on.If the current illuminance value is lower than the manually input illuminance value, the lamp is judged to be closed and the lamp is turned on. Not making it; Checking an amount of change in illuminance for a designated time after the lamp is turned on; An automatic lighting control method for a furniture, characterized in that it comprises the step of keeping the lighting state if the illumination changes, and turning off the lamp if the illumination does not change for a specified time.

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