KR0146949B1 - Dimming control device and dimming control method for stand lamp - Google Patents

Abstract

The present invention relates to an illuminance control device of the stand for automatically adjusting the illuminance of the lamp by sensing the illuminance of the surroundings and the human body, and rectifying the input voltage of the commercial AC power input from the AC power input terminal into DC. A power factor correction means for receiving a direct current voltage output from the bridge circuit, maintaining a constant output voltage and supplying a current in phase with the input voltage, and a constant voltage output from the power factor improvement means. A microcomputer that outputs a constant voltage circuit, a constant voltage signal output from the constant voltage circuit, and outputs an alternating operation signal for controlling the overall operation of the illuminance control device, and receives an alternating operation signal output from the microcomputer Lamp driving means for driving a; Illumination sensing means for receiving a constant voltage signal of a voltage circuit and detecting ambient light and outputting the detected illuminance data to the microcomputer, and detecting infrared rays generated from a human body by receiving a constant voltage signal of the constant voltage circuit. Human body detecting means for outputting the infrared rays to the microcomputer, key input means for outputting an operation start signal and a selection signal for selecting the illuminance control function of the stand to the microcomputer, and an operation outputted from the key input means. And display means for displaying in advance the time or illuminance set in advance on the microcomputer by a start signal and a selection signal.

Description

Illumination control device of the stand and its illumination control method

1 is a schematic block diagram of a roughness adjusting device of a stand according to an embodiment of the present invention.

2 is a detailed circuit diagram of the illuminance control device of the stand according to an embodiment of the present invention.

3 is a flowchart showing an operation procedure according to the present invention.

* Explanation of symbols for main parts of the drawings

10: power factor improving means 11: power factor improving device

12: smoothing circuit 13: output voltage detection unit

20: constant voltage circuit 30: microcomputer

40: lamp driving means 41, 41 ': signal input unit

42: lamp 50: illuminance detection means

51: illuminance sensor 60: human body detection means

61 infrared sensor 62 band filter

63: amplifier 70: key input means

80: display means 90: alarm generating means

The present invention relates to an illuminance control device of the stand for automatically adjusting the illuminance of the lamp by sensing the illuminance of the surroundings and the human body, and a method of adjusting the illuminance thereof.

In general, the conventional illuminance control device uses a simple switch on / off method or a method of changing the illuminance of several levels by a user's key touch.

However, in such a conventional method, it is difficult to expect the effect of power saving without considering the illuminance of the surroundings and the case where the user has been away for a long time. There was a difficult problem.

Therefore, the present invention has been made to solve the conventional problems as described above, an object of the present invention is to reduce the energy by detecting the ambient light and the presence or absence of the user using the human body sensor and the illumination sensor. In addition to providing a stand illuminance control device and a method of adjusting the illuminance which can pursue convenience in use.

Another object of the present invention is to separate the automatic key and the manual key to compare the illuminance set by the user with the ambient illuminance so that the illuminance under the stand can be kept constant to protect the eyesight of the user as well as saving power. It is to provide an illuminance control device of the stand and its illuminance control method to obtain the effect of.

Still another object of the present invention is to maintain a power factor of a power supplied to a lamp by using a power factor improving device to approximately 1, thereby providing a device for adjusting the illumination intensity of the stand and preventing the loss of power and its illumination control method. It is.

In order to achieve the above object, the illuminance control device of the stand according to the present invention receives a bridge rectifier circuit for rectifying the input current of the commercial AC power input from the AC power input terminal, and receives the DC voltage output from the bridge rectifier circuit. Power factor improving means for maintaining a constant voltage and supplying the input voltage and current to the load, and a constant voltage for receiving a constant output voltage signal output from the power factor improving means and outputting a constant voltage regardless of a change in the current flowing through the load. A microcomputer that receives a constant voltage signal output from the constant voltage circuit and outputs an alternating operation signal for controlling the overall operation of the illuminance control device, and receives a alternating operation signal output from the microcomputer to drive the lamp. Lamp driving means and the constant voltage circuit Illumination sensing means for receiving a constant voltage signal and sensing ambient light and outputting the detected illuminance data to the microcomputer, and receiving infrared light generated from the human body by receiving a constant voltage signal of the constant voltage circuit to detect the detected infrared light. A human body detecting means for outputting to the microcomputer, a key input means for outputting an operation start signal and a selection signal for selecting the illumination control of the stand to the microcomputer, and an operation start signal and selection output from the key input means. And display means for displaying a predetermined time or illuminance on the microcomputer by a signal.

In addition, the method of adjusting the illuminance of the stand according to the present invention includes the first step of determining whether the off key of the key input means is input to the microcomputer and the case where the off key of the key input means determined in the first step is not input. In the second step of determining whether the manual key of the key input means is input to the microcomputer, and if the manual key of the key input means determined in the second step is not input, the automatic key of the key input means is micro. A third step of determining whether it has been input to the computer; and if the automatic key of the key input means determined in the third step is not input, a third step of determining whether the automatic key of the key input means has been previously input to the microcomputer. The illuminance sensor of the illuminance detecting means when the automatic key of the key input means determined in the fourth step and the fourth step has been previously input The fifth step of determining whether the illuminance value detected by the automatic key of the key input means is the same, and the illuminance value of the illuminance sensor determined in the fifth step is equal to the input value of the auto key. Otherwise, the sixth step of determining whether the illuminance value detected by the illuminance sensor of the illuminance detecting means is smaller than the value input by the automatic key of the key input means, and the illuminance sensor determined in the sixth step. When the illuminance value is smaller than the input value of the auto key, the seventh step of increasing the illuminance of the stand by increasing the value by 1 bit from the mode value of 0 to 255 steps set in the microcomputer, and the key input determined in the second step When the manual key of the means is input, the eighth step of converting the mode values of 0 to 9 steps set in the microcomputer and the mode value converted in the eighth step are used. A ninth step of maintaining the illuminance state of the device; a tenth step of converting mode values of 0 to 255 steps set in the microcomputer when the automatic key of the key input means determined in the third step is inputted; When the illuminance value of the illuminance sensor determined in the sixth step is not smaller than the input value of the auto key, the eleventh of decreasing the illuminance of the stand by decreasing the value by 1 bit from the mode value of 0 to 255 steps set in the microcomputer. And a twelfth step of turning off the lamp of the stand by converting the mode value of illuminance set in the microcomputer to 0 when the off key of the key input means determined in the first step is inputted. .

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic block diagram of a roughness adjusting apparatus of a stand according to an embodiment of the present invention, Figure 2 is a detailed circuit diagram of a roughness adjusting apparatus of a stand according to an embodiment of the present invention, Figure 3 is a Is a flowchart showing the operation procedure.

In Fig. 1 to Fig. 2, reference numeral 5 denotes a bridge rectifier circuit for full-wave rectifying the input voltage of the commercial AC power input from the AC power input terminal, and the DC voltage output from the bridge rectifier circuit 5 is shown. The power factor improving means 10 is a power factor improving element 11 such as, for example, KA7514, and the bridge, as the power factor improving means for supplying the input voltage and the current in phase to the load side while maintaining the output voltage constant. A smoothing circuit 12 for smoothing the pulsation component included in the direct current output from the rectifier circuit 5, an output voltage sensing unit 13 for detecting the output voltage Vdd of the power factor improving element 11, and The transformer 14 is configured to sense a current flowing through the field effect transistor PET connected to the output terminal P7 of the power factor improving element 11 via a resistor R6.

Reference numeral 20 denotes a constant voltage circuit which receives a signal of the constant output voltage VDD output from the power factor improving means 10 and outputs a constant voltage VCC regardless of a change in the current flowing through the load.

And, 30 receives an alternating voltage (VCC) signal output from the constant voltage circuit 20 at the input terminal (Io) to alternate operation at the output terminals (01,02) to control the overall operation of the illumination control device A microcomputer outputs the signals S1 and S2, and 40 is lamp driving means for driving the lamps 42 such as fluorescent lamps by receiving the alternating operation signals S1 and S2 output from the microcomputer 30. The lamp driving means 40 includes a signal input part 41, 41 'that receives alternating operation signals S1, S2 output from the output terminals 01, 02 of the microcomputer 30, and the signal input part. (41, 41 '), a lamp (42) driven by alternating operation signals (S1, S2) input to the signal input section, and a capacitor (C9) for forming a voltage source for supplying power to the lamp (42). C10 and clamping diodes D5 and D6 connected in parallel to the capacitors C9 and C10. .

In addition, in the drawing, 50 receives a constant voltage (VCC) signal output from the constant voltage circuit 20 to sense illuminance around the stand, and the detected illuminance data is input terminal A of the microcomputer 30. As the illuminance detecting means for outputting to / D), the illuminance detecting means 50 is provided to the illuminance sensor 51 for detecting illuminance by changing the resistance value according to the amount of light around the stand, and the illuminance sensor 51. A load resistor R19 connected in parallel and a capacitor C11 for filtering noise components contained in the illuminance data sensed by the illuminance sensor 51 are constituted.

The human body 60 receives a constant voltage (Vcc) signal output from the constant voltage circuit 20, detects infrared rays generated in the human body, and outputs the detected infrared rays to the input terminal 11 of the microcomputer 30. As a sensing means, the human body detecting means 60 includes an infrared sensor 61 for detecting infrared rays generated by the human body, and a frequency below a low-pass blocking frequency and a high-pass blocking frequency among infrared frequencies detected by the infrared sensor 61. A band filter 62 which cuts a frequency above a frequency and passes only a frequency of a band, an amplifier 63 that amplifies only an infrared signal having a bandwidth passed by the band filter 62, and an amplifier 63 connected in parallel The load resistor R20 is connected to the input terminal I ₁ of the microcomputer 30 so that the amplified bodily sensation signal is input.

And, 70 is a key input means for outputting an operation start signal and a selection signal for the user to select the illumination control function of the stand to the microcomputer 30, the key input means 70 is An off key for turning off the lamp 42 of the stand, a manual key for manually adjusting the illuminance of steps 0 to 9 in order to keep the illuminance of the stand constant, and a 0 to so as to properly maintain the illuminance of the stand. It consists of an automatic key that automatically adjusts illuminance in step 255, a clock key for correcting time, and an alarm key for generating an alarm at a predetermined time.

Reference numeral 80 denotes display means for displaying a preset time or illuminance in the control of the microcomputer 30 according to the operation start signal and the selection signal output from the key input means 70.

On the other hand, reference numeral 90 is an alarm generating means for generating an alarm by a signal output to the output terminal 04 of the microcomputer 30 at a predetermined time, and 100 is an oscillator for generating a constant clock. One side is grounded through the capacitor C12.

The signal input units 41 and 41 'of the lamp driving time 40 include bias resistors R15 and R16 for applying alternating operation signals S1 and S2 output from the microcomputer 30, and the microcomputer ( The transistors TR1 and TR2 turned on / off by the alternating operation signals S1 and S2 of the transistor 30 and the emitter and collector terminals of the transistors TR1 and TR2 in parallel; The diodes D3 and D4 protect the transistors TR1 and TR2.

Hereinafter, the effect of the roughness control device of the stand configured as described above will be described.

First, when the commercial AC power supplied from the power input terminal of the stand is rectified by DC in the bridge rectifier circuit 5 and applied to the power factor improving means 10, the converted DC signal is the capacitor C1 of the power factor improving means 10. ) And the resistors R1 and R3 and the primary side of the transformer 14.

In the smoothing circuit 12 composed of the resistors R1 and R2 of the capacitors C1 and C2, the input terminal of the power factor improving element 11 is smoothed by smoothing the pulsation component included in the direct current output from the bridge rectifying circuit 5. When outputting to P3, the power factor improvement control signal is output through the output terminals P1, P2, P4, and P7 of the power factor improving element 11. At this time, the output voltage detecting unit 13 detects the output voltage VDD through the resistors R11 to R13.

At this time, when the output voltage VDD decreases due to the light emitted from the lamp 42, the output terminal P7 of the power factor improving element 11 outputs a high signal, and the high level signal causes the resistor R6 to rise. It is applied to the gate terminal of the field effect transistor (FET) to turn on the field effect transistor (FET) and at the same time the signal output from the output terminal (P5) of the power factor improving element 11 to the input voltage in the transformer 14 The voltage is increased to keep the output voltage VDD constant.

In addition, the output terminal P4 of the power factor improving element 11 senses the amount of current flowing through the transformer 14 and the transistor FET, and flows in-phase current having an effective value equal to a voltage currently input to the load. By improving the power factor to almost one.

The output voltage VDD constantly maintained from the power factor improving means 10 is supplied to the constant voltage circuit 20, and the output voltage VDD signal output from the power factor improving means 10 is supplied to the constant voltage circuit 20. The microcomputer 30, the illuminance detecting means 50, and the human body detecting means 60 receive a constant voltage Vcc regardless of the fluctuation of the current flowing through the lamp 42 by the capacitor C7 and the zener diode ZD. And outputs to the alarm generating means (90).

The microcomputer 30 receives a constant voltage (Vcc) signal output from the constant voltage circuit 20 to control the overall operation of the illuminance control device while providing a trigger signal to the input terminal P5 of the power factor improving element 11. And outputs the alternating operation signals S1 and S2 for controlling the illuminance of the lamp 42 by the lamp driving means 40 through the bias resistors R15 and R16 of the signal input sections 41 and 41 '. It is output to the drive means 40.

The alternating operation signals S1 and S2 output from the microcomputer 30 become low when one alternating operation signal S1 is in a high state, and the alternate operation signal S2 is in a low state. In the high state, since the other alternating operation signal S1 is configured to be in the low state, the ramp driving means 40 transmits the alternating operation signal to the transistors TR1 and TR2 through the bias resistors R15 and R16, respectively. Is applied.

Accordingly, the transistors TR1 and TR2 connected to the voltages R15 and R16 alternately operate according to the high or low level of the alternating operation signals S1 and S2 to supply power to the lamp 42. The lamp 42 is turned on at a predetermined illuminance. At this time, the illuminance detecting means 50 receives a constant voltage (Vcc) signal output from the constant voltage circuit 20 to sense the illuminance around the stand, and detects the illuminance data of the A / D of the microcomputer 30. Output to the terminal, the microcomputer 30 compares the illuminance data detected from the illuminance detecting means 50 with the value input from the automatic key of the key input means 70, and the illuminance under the stand at the preset illuminance value. Can be kept constant to protect the user's eyesight and save energy.

In addition, the human body detecting means 60 receives a constant voltage (Vcc) signal output from the constant voltage circuit 20 to detect the infrared rays generated in the human body through the infrared sensor 61, the detected infrared bands The filter 62 detects and amplifies only the infrared frequency band generated by the human body by removing a signal generated by an object other than the human body or a heat source (specifically, a signal of a frequency band lower than the high frequency cutoff frequency and a frequency higher than the high frequency cutoff frequency). Next, it is input to the input terminal I ₁ of the microcomputer 30.

In addition, the microcomputer 30 receives the infrared detection signal output from the human body detecting means 60, and when the user is separated from the stand for a predetermined time (30 seconds), the stand of the stand is controlled by the microcomputer 30. By turning off the lamp, not only the energy saving effect is large, but also the convenience of use can be pursued.

On the other hand, according to the operation start signal and the selection signal input from the key input means 70, the microcomputer 30 outputs the preset time or illuminance through the display means 80, so that the user can illuminate the time or the stand. You can check the status.

Next, a method of adjusting the illuminance of the stand according to the present invention will be described in detail with reference to FIG. In FIG. 3, S denotes a step.

3 is a flowchart showing the operation procedure according to the present invention.

First, when the commercial AC power input from the AC power input terminal is applied to the power factor improving means 10 with the DC voltage rectified by the bridge rectifier circuit 5, the output voltage Vdd signal is output from the power factor improving means 10. Output to the circuit 20, the constant voltage circuit 20 generates a constant voltage Vcc and applies it to the input terminal Io of the microcomputer 30 to start the stand.

At this time, in order to adjust the illuminance of the stand, it is determined in step S1 whether the off key of the key input means 70 is input to the microcomputer 30, and the off key of the key input means 70 is not input. If no (No), the flow advances to step S2 to determine whether the manual key of the key input means 70 has been input to the microcomputer 30.

As a result of the discrimination in step S2, when the manual key of the key input means 70 is not input (No), the process advances to step S3 and the automatic key of the key input means 70 is set to the microcomputer 30. In the case where the automatic key is not input (No), it is determined in step S4 whether the automatic key of the key input means 70 has been previously input to the microcomputer 30.

As a result of the discrimination in step S4, when the automatic key of the key input means 70 has been previously input (if yes), the process proceeds to step S5 and detected by the illuminance sensor 51 of the illuminance detecting means 50; It is determined whether the illuminance data and the value input by the automatic key of the key input means 70 are the same.

Subsequently, in step S6, the result of the discrimination in step S5 is the illuminance data detected by the illuminance sensor 51 when the illuminance data of the illuminance sensor 51 and the input value of the auto key are not equal (No). Is determined whether or not the value input by the automatic key of the key input means 70 is small. If the illuminance data of the illuminance sensor 51 is smaller than the input value of the automatic key (if yes), the step is determined. In step S7, the mode value of 0 to 255 preset in the microcomputer 30 is increased by 1 bit to increase the illuminance of the stand, and then the process returns to step S5 to repeat the operation of step S5 or less.

On the other hand, when the determination result at step S4 is that the automatic key of the key input means 70 has not been previously input to the microcomputer 30 (No), the process returns to step S1 to repeat the operation of step S1 or less. If the determination result at step S6 is that the illuminance data of the illuminance sensor 51 is not smaller than the input value of the auto key (No), the process proceeds to step S11 and 0 to 0 preset in the microcomputer 30. In step 255, the mode value is decreased by 1 bit to lower the illuminance of the stand, and then the process returns to step S5 to repeat the operation of step S5 or less.

When the manual key of the key input means 70 is input (yes), as a result of the discrimination in step S2, the mode values of steps 0 to 9 set in the microcomputer 30 are continued in step S8. To convert.

Thereafter, the flow advances to step S9 to return to step S1 while maintaining the current illuminance state of the stand in accordance with the mode value converted in step S8, to repeat the operation of step S1 or less.

When the automatic key of the key input means 70 is input (Yes) as a result of the discrimination in step S3, the mode value of 0 to 255 set in the microcomputer 30 is continued in step S10. In step S9, the operation of step S9 or less is repeated while the conversion is performed.

On the other hand, if the result of the discrimination in step S5 indicates that the illuminance data of the illuminance sensor 51 and the input value of the automatic key of the key input means 70 are the same (yes), the process proceeds to step S9 and the step S9 or less. Perform the action.

When the off-key of the key input means 70 is input (yes), the mode value of illuminance set in the microcomputer 30 is converted to 0 in step S12. The lamp 42 of the stand is turned off to end the operation.

According to the illuminance control device and the illumination control method of the stand according to the present invention as described above, by using the human body sensor and the illumination sensor to detect the ambient illumination and the presence or absence of the user can save energy Not only that, but it also has an excellent effect of pursuing the convenience of use. Also, by separating the auto key and manual key, the illumination condition set by the user can be compared with the ambient illumination. In addition to maintaining the user's eyesight, there is an excellent effect of preventing power loss by using a power factor improving device.

Claims (11)

A bridge rectifier circuit for full-wave rectifying the input voltage of the commercial AC power input from the AC power input terminal, and a DC voltage output from the bridge rectifier circuit, and the output voltage is kept constant while the input voltage is in phase with the load. A power factor improving means for supplying a current of a constant voltage, a constant voltage circuit receiving a constant output voltage signal output from the power factor improving means, and outputting a constant voltage regardless of a change in current flowing through a load, and a constant voltage signal output from the constant voltage circuit. A microcomputer for receiving an alternating operation signal for controlling the overall operation of the illuminance control device, a lamp driving means for driving a lamp by receiving an alternating operation signal output from the microcomputer, and a constant voltage signal of the constant voltage circuit To detect the ambient light Illuminance sensing means for outputting the sensed illuminance data to the microcomputer, human body sensing means for detecting only a frequency generated in the human body by receiving a constant voltage signal of the constant voltage circuit and outputting the detected frequency to the microcomputer; Key input means for outputting an operation start signal and a selection signal for selecting the illuminance adjustment function of the stand to the microcomputer, and a time preset in the microcomputer by the operation start signal and the selection signal output from the key input means; Illumination adjusting device of the stand, characterized in that consisting of the display means for displaying the illuminance. The power factor improving device according to claim 1, wherein the power factor improving unit comprises: a power factor improving device, a smoothing circuit for smoothing the pulsation component included in the direct current output from the bridge rectifying circuit, and an output sensing the output voltage Vdd of the power factor improving device. And a voltage sensing unit and a transformer for sensing a current flowing through a field effect transistor (FET) connected to the power factor improving device. 2. The lamp driving apparatus of claim 1, wherein the lamp driving means is driven by a signal input unit for receiving alternating operation signals S1 and S2 output from the microcomputer and an alternating operation signal S1 and S2 input to the signal input unit. A stand comprising a lamp, capacitors C9 and C10 which form a voltage source for supplying power to the lamp, and crimping diodes D5 and D6 connected in parallel to the capacitors C9 and C10. Light control device. The illuminance sensor according to claim 1, wherein the illuminance detecting means comprises an illuminance sensor for detecting illuminance by changing a resistance value according to the amount of light around the stand, a load resistor R19 connected in parallel to the illuminance sensor, and the illuminance sensor. Illumination adjusting device of the stand, characterized in that consisting of a capacitor (C11) for filtering the noise component contained in the illuminance data detected by. The method of claim 1, wherein the human body detecting means includes an infrared sensor for detecting a frequency generated in the human body, and a frequency band below a low pass frequency and a frequency above a high pass cutoff frequency among the frequencies of the infrared rays detected by the infrared sensor. A roughness of the stand, comprising: a band pass filter passing only a frequency of?, An amplifier amplifying only an infrared signal having a bandwidth passed by the band pass filter, and a load resistor R20 connected in parallel to the low pass filter and the amplifier; Regulator. The apparatus of claim 1, wherein the key input unit comprises an off key for turning off the lamp of the stand, a manual key for manually adjusting the illuminance of steps 1 to 9 to maintain a constant illuminance of the stand, and Illumination control of the stand, consisting of an automatic key for automatically adjusting the illumination of 1 to 255 steps to maintain the illumination properly, a clock key for correcting the time, and an alarm key for generating an alarm at a predetermined time Device. 4. The signal input unit of claim 3, wherein the signal input unit has a bias resistor (R15, R16) for applying the alternating operation signals (S1, S2) output from the microcomputer, and the high of the alternating operation signals (S1, S2) of the microcomputer. Or a diode D3 connected in parallel to the transistors TR1 and TR2 turned on / off by a low level state and the emitter and collector terminals of the transistors TR1 and TR2 in parallel to protect the transistors TR1 and TR2. , D4) roughness adjusting device of the stand, characterized in that consisting of. A first step of determining whether the off-key of the key input means is input to the microcomputer, and if the off-key of the key input means determined in the first step is not input, the manual key of the key input means is input to the microcomputer. A second step of judging whether an input has been made; a third step of judging whether an automatic key of the key input means has been input to the microcomputer if the manual key of the key input means determined in the second step is not input; If the automatic key of the key input means determined in the third step is not input, the fourth step of determining whether the automatic key of the key input means has been previously input to the microcomputer, and the key determined in the fourth step is determined. When the automatic key of the input means has been previously input, the illuminance value detected by the illuminance sensor of the illuminance detecting means and the key input means A fifth step of determining whether the value input by the same key is the same; and when the illuminance value of the illuminance sensor and the input value of the auto key determined in the fifth step are not equal, by the illuminance sensor of the illuminance detecting means. The sixth step of determining whether the detected illuminance value is smaller than the value input by the automatic key of the key input means; and when the illuminance value of the illuminance sensor determined in the sixth step is smaller than the input value of the automatic key, The seventh step of increasing the illuminance of the stand by increasing the value by one bit from the mode value of 0 to 255 steps set in the microcomputer, and when the manual key of the key input means determined in the second step is inputted, An eighth step of converting the mode values of 0 to 9 steps set in step 9; a ninth step of maintaining the illuminance state of the stand by the mode value converted in the eighth step; When the automatic key of the key input means determined in the third step is input, the tenth step of converting the mode value of 0 to 255 steps set in the microcomputer and the illuminance value of the illuminance sensor determined in the sixth step If it is not smaller than the input value of the automatic key, the eleventh step of reducing the illuminance of the stand by decreasing the value by one bit from the mode value of 0 to 255 steps set in the microcomputer, and the key input means determined in the first step And a 12th step of turning off the lamp of the stand by converting the mode value of the set illuminance of the microcomputer to 0 when the off key is input. The method according to claim 8, wherein in the fourth step, when it is determined that the automatic key of the key input means has not been previously input to the microcomputer, the operation returns to the first step and repeats the operations below the first step. How to adjust the illuminance of the stand. The method according to claim 8, wherein when it is determined in the sixth step that the illuminance data of the illuminance sensor is smaller or smaller than the input value of the auto key, the process proceeds to the seventh and eleventh steps and is set in advance in the microcomputer. And increasing or decreasing the value of the bit by 1 bit in the mode value of 0 to 255 steps, and then returning to the fifth step and repeating the fifth step or less. The method of claim 8, wherein in the ninth step, the operation returns to the first step while repeating the operation of the first step or less while maintaining the current illuminance state of the stand according to the mode values converted in the eighth and tenth steps. Illuminance adjustment method of the stand characterized in that.