KR20120085638A - Lighting Control Device And Lighting Control Module - Google Patents

Abstract

PURPOSE: A light control device and a light control module are provided to control a lamp using a power phase control circuit according to a touch signal from a touch detection module by using a microprocessor. CONSTITUTION: A light control device(200) is located in the inside of an opening section(110). The light control device is fixed to a wall by a plurality of screws(120). A first hook member is formed on one side of a cover plate(220). A second hook member is formed on the rear surface of a glass plate. The glass plate is fixed to the light control device by combining the first hook member and the second hook member.

Description

Lighting Control Device And Lighting Control Module

The present invention relates to a light control device, and more particularly to a touch type light control device.

1 is a three-dimensional view of a light switch device according to the prior art. As shown in FIG. 1, the light switch device 1 according to the related art includes a switch body 11, a pressing plate 12, and a cover plate 15. The cover plate 15 defines a boundary of the opening, and the pressing plate 12 is formed in the opening but is connected to the switch body 11. The light switch device 1 according to the prior art has a mechanical coupling structure, and the pressing plate 12 is used to control the switch body 11 for switching the on and off states of the light switch device. In addition, the area of the opening described above is formed larger than the area of the pressing plate 12, so that a gap is formed between the pressing plate 12 and the cover plate 15, and the pressing plate 12 is inserted into the opening during the on / off switching process. This will prevent the interference.

In general, the light switch device 1 is mounted on the wall, so that the user presses it to switch on the light (not shown in the figure). Since the light switch device is used by different users in public places such as inns and hospitals, for example, it is necessary to keep clean and prevent bacterial infection at all times. However, since there is a gap between the pressing plate 12 and the cover plate 15 of the light switch device 1, the cleaning liquid easily flows between the gaps when cleaning, which causes the Since the circuit is easily broken, it is not easy to clean the light switch device 1.

In addition, in a place where an aesthetic factor is important, such as an inn, the light switch device 1 according to the prior art is difficult to arbitrarily change the design, it is difficult to flexibly reflect the intention of the designer. For these reasons, there is a need to improve the light switch device 1 according to the prior art.

It is an object of the present invention to provide a touch type light control device and a touch type light control module that can return to a pre-stored light intensity value.

Another object of the present invention is to provide a touch type light control module that can easily replace the glass plate.

The present invention relates to a light control device used to control a light, the light control device comprises a touch sensing module, indicator light module, power phase control circuit and a microprocessor.

The touch sensing module includes a first touch sensor and a second touch sensor, and the first touch sensor and the second touch sensor sense a touch and output a sensing signal. The indicator module includes a plurality of light emitting diodes (LEDs). The power phase control circuit is used to control the brightness of the lamp. The microprocessor includes a temporary storage area. The light storage value is stored in the temporary storage area, and the microprocessor controls the power phase control circuit according to the detection signal and connects a plurality of light emitting diodes connected to each other according to the brightness of the light. Decide When the first touch sensor and the second touch sensor sense a touch at the same time, the microprocessor causes the power phase control circuit to switch on the light according to the light intensity value stored in the temporary storage area, and to adjust the light intensity of the light. Value, the indicator module switches on the plurality of light emitting diodes connected to each other according to the light intensity value, and adjusts the brightness of the plurality of light emitting diodes connected to each other. When the first touch sensor senses a touch and the touch time is less than the first touch scheduled time, the microprocessor causes the power phase control circuit to gradually switch on the light within the second touch scheduled time, and the microprocessor The indicator module causes the plurality of light emitting diodes connected to each other to be switched on according to the brightness value of the lamp, and adjusts the brightness of the plurality of light emitting diodes connected to each other. If the second touch sensor senses the touch and its touch time is less than the third touched time, the microprocessor causes the power phase control circuit to gradually switch off the light within the fourth touched time, and the microprocessor The indicator module causes the plurality of light emitting diodes connected to each other to be switched on according to the brightness value of the lamp, and adjusts the brightness of the plurality of light emitting diodes connected to each other.

The present invention also relates to a light control module provided in a light control device used to control a light, wherein the light control module includes the above-described light control device and a flat plate, wherein the flat plate is detachably detachable. The device is assembled and mounted. The flat plate has a first touch zone, a second touch zone and an indicator light zone, wherein the position of the first touch sensor corresponds to the position of the first touch zone, and the position of the second touch sensor corresponds to the position of the second touch zone. The positions of the plurality of light emitting diodes described above correspond to the positions of the indicator light zone.

In the present embodiment, when the first touch sensor senses a touch and the touch time is greater than or equal to the first touch expected time, the microprocessor causes the power phase control circuit to adjust the brightness of the lamp to be brighter according to the touch time. do. Next, the brightness of the lamp after the bright adjustment is stored in a temporary storage place to be the light intensity value. If the second touch sensor senses the touch and its touch time is greater than or equal to the third touched scheduled time, the microprocessor causes the power phase control circuit to adjust the brightness of the light to darken according to the touch time. Next, the light intensity of the light after dark adjustment is stored in a temporary storage place to be the light intensity value.

In the present embodiment, when neither the first touch sensor nor the second touch sensor detects a touch during the delay time, the microprocessor causes the indicator module to cause the brightness of the plurality of light emitting diodes connected to each other to be dark as the brightness value of the power saving mode. Adjust to lose.

Those skilled in the art will readily understand the other objects and advantages of the present invention. Hereinafter, with reference to the specific embodiments and the accompanying drawings in order to easily understand the objects, features and advantages of the present invention will be described in detail.

1 is a three-dimensional view of a light switch device according to the prior art.
2A is an explanatory diagram showing a state in which the light control device according to the embodiment of the present invention is mounted in the opening of the wall.
2B is an explanatory view showing a state in which the glass plate and the light control device according to the embodiment of the present invention are assembled.
Figure 2c is an explanatory view showing a state in which the glass plate and the light control device according to the embodiment of the present invention is assembled.
3 is an explanatory view showing a glass plate according to an embodiment of the present invention.
4 is a conceptual diagram illustrating a function of a light control apparatus according to an embodiment of the present invention.
5 is a flowchart of a light control method according to an embodiment of the present invention.
6 is a flowchart of a light control method according to an embodiment of the present invention.

2A is an explanatory view showing a state in which the light control device according to the embodiment of the present invention is mounted in the opening of the wall, and FIG. 2B is a front view of the state in which the glass plate and the light control device according to the embodiment of the present invention are assembled. Figure 2c is an explanatory view, Figure 2c is an explanatory view showing a state in which the glass plate and the light control device according to the embodiment of the present invention is assembled.

As shown in FIG. 2C, the light control module 100 according to the embodiment of the present invention includes a light control device 200 and a glass flat plate 300. The light control device 200 includes an outer housing 210 and a cover plate 220. The outer housing 210 is located on the inner surface side of the cover plate 220, the internal electronic components of the light control device 200 to be described later is mounted inside the outer housing 210 and protected.

As shown in FIG. 2A, when the light control module 100 is mounted on a wall, the light control device 200 is first placed in an opening 110 forming a boundary of the wall, and a plurality of screws 120 are placed. Fix the light control device 200 to the wall by using.

Next, as shown in FIG. 2B, the glass plate 300 is detachably mounted to the light control device 200. In this embodiment, the first hook member 211 is formed on one side of the cover plate 220. As shown in FIG. 2C, a second hook member 311 is formed on the rear surface of the glass flat plate 300. Through the fitting coupling of the first hook member 211 and the second hook member 311, the glass flat plate 300 is fixed on the light control device 200. When the glass plate 300 is to be replaced, the glass plate 300 is pulled out so that the second hook member 311 is separated from the first hook member 211, thereby separating the glass plate 300, and the new glass. Insert the plate 300. Through the above-described structure, when you want to paint the wall or to change the design to a new design, it is possible to replace only the glass plate 300 without having to replace the entire light control module 100.

Referring to FIG. 2C, an accommodation space 313 is formed on the rear surface of the glass flat plate 300 so that the cover plate 220 may be accommodated in the accommodation space 313. According to the above structure, the glass flat plate 300 has a flat surface as a whole, and when the light control module 100 needs to be cleaned, the cleaning liquid penetrates into circuits and electronic components inside the light control module 100. You can prevent it.

3 is an explanatory view showing a glass plate according to an embodiment of the present invention. As shown in FIG. 3, the glass plate 300 includes a first touch zone 331, a second touch zone 332, and an indicator light zone 333. In the exemplary embodiment of the present invention, the first touch zone 331, the second touch zone 332, and the indicator light zone 333 are all described as having a rectangular shape, but the present invention is not limited thereto. The glass plate 300 may be designed according to a user's request. Preferably, the glass plate 300 may be designed differently according to the pattern, color, etc. of the wall on which the light control module is mounted.

4 is a conceptual diagram illustrating a function of a light control apparatus according to an embodiment of the present invention. As shown in FIG. 4, the light control device 200 includes a touch sensing module 230, an indicator light module 240, a microprocessor 250, a power conversion circuit 260, and a power phase control circuit. 270 and a photo coupler 280. The cover plate 220 is formed of a plastic plate mounted on a printed circuit board, and all the above-mentioned electronic components are coupled to a circuit on the cover plate 220, and are coupled to each other through the cover plate 220. do. A part of the electronic component is formed on the front of the cover plate 220, the other part of the electronic component is formed on the back of the cover plate 220 is located inside the outer housing 210. In the embodiment of the present invention, the touch sensing module 230 is formed on the front surface of the cover plate 220. Since a person skilled in the art will be able to arrange the positions of electronic components differently according to the type of electronic products, detailed description of the arrangement method will be omitted.

The power conversion circuit 260 is used to convert an external AC power source (AC) into a DC power source. The power conversion circuit 260 is coupled to the microprocessor 250 and is connected to the microprocessor 250 by about 5 V. Send a phase sensing signal (Ps). The microprocessor 250 is coupled to the touch sensing module 230, and outputs a brightness control signal Lcs and an instruction control signal Ics according to a sensing signal detected by the touch sensing module 230.

In an embodiment of the present invention, in order to protect the microprocessor 250, the photocoupler 280 is to be coupled between the microprocessor 250 and the power phase control circuit 270, the microprocessor 250 is The brightness control signal Lcs is transmitted to the power phase control circuit 270 through the photocoupler 280.

The lamp 400 is coupled to the live and neutral of the AC power source AC through the power phase control circuit 270 of the light control device 200. The power phase control circuit 270 receives the brightness control signal Lcs of the microprocessor 250 and controls the brightness of the lamp 400 according to the brightness control signal Lcs. The indicator module 240 includes a plurality of light emitting diodes (LEDs), which informs the user of the intensity value of the lamp 400 currently being used. The indicator module 240 receives an instruction control signal Ics of the microprocessor 250, opens a plurality of LEDs associated with each other according to the instruction control signal Ics, and connects the plurality of LEDs connected to each other. Adjust the brightness.

In an embodiment of the present invention, the touch sensing module 230 includes a first touch sensor 231 and a second touch sensor 232, wherein the above-described touch sensor is classified as a capacitive touch sensor. Can be. In the present embodiment, it will be described that the indicator module 240 includes five light emitting diodes (first LED 241 to fifth LED 245). When the light control device 200 and the glass flat plate 300 are assembled and integrated, the position of the first touch sensor 231 corresponds to the position of the first touch region 331, and the position of the second touch sensor 232 is reduced. The position corresponds to the position of the second touch zone 332, and the position of the indicator light module 240 corresponds to the position of the indicator light zone 333. Therefore, when the user touches the first touch zone 331 and the second touch zone 332, the first touch sensor 231 and the second touch sensor 232 output a detection signal for detecting the touched area. .

It should be understood that the term “A touches B” in an embodiment of the present invention substantially causes the touch sensor to be “actually close to B” or “A touches B”. This includes all situations that cause a touch signal to be generated.

5 is a flowchart of a light control method according to an embodiment of the present invention. As shown in FIG. 5, the microprocessor 250 determines whether the touch sensing module 230 is touched according to whether the touch sensing module 230 detects a sensing signal.

When the first touch sensor 231 and the second touch sensor 232 detect a touch at the same time, the power phase control circuit 270 is a light 400 according to the light intensity value previously stored in the temporary storage place 251. Switch on, and adjust the brightness of the light 400 to the pre-stored light intensity value, the indicator module 240 is switched on the LED connected to each other according to the previously stored light intensity value, the brightness of the LED connected to each other Adjust it.

In detail, the microprocessor 250 generates and displays the brightness control signal Lcs and the indication control signal Ics of the previously stored light intensity values according to the pre-stored light intensity values, and determines the LEDs connected to each other. do. The power phase control circuit 270 receives the light intensity control signal Lcs showing the previously stored light intensity value through the photocoupler 280, switches on the light 400, and adjusts the light intensity of the light 400. Adjust the previously saved light intensity value. The indicator module 240 switches on the LEDs connected to each other and adjusts the brightness of the LEDs connected to each other according to the indication control signal Ics showing the pre-stored electric light intensity values. In an embodiment of the present invention, the number of LEDs that are switched on and the brightness of the lamp 400 is formed to be directly proportional. For example, when the lamp 400 is switched off, the first LED 241 is switched on, and when the lamp 400 has the maximum brightness (100%), the first LED 241 to the fifth LED ( 245 are all switched on, and when the lamp 400 has 60% brightness, the first LED 241 to the third LED 243 are switched on, and the brightness of the first LED 241 is the second LED. Higher than the luminous intensity of the second LED and higher than that of the third LED, so that the luminous intensity of the LEDs is gradually changed. In addition, when the first touch sensor 231 and the second touch sensor 232 do not sense for 10 seconds, the brightness of the LED is adjusted to be dark.

Since the microprocessor 250 controls the method of the power phase control circuit 270 and the touch sensing module 230 by using the light intensity control signal Lcs and the indication control signal Ics, it has already been described in detail. In the following steps, the description thereof will be omitted.

Referring back to FIG. 5, when the first touch sensor 231 senses a touch and the touch time is less than 1 second (the first touch scheduled time), the microprocessor 250 may supply the power phase control circuit 270. Turn on the lamp 400 gradually within 2 seconds (second predetermined time), the indicator module 240 switches on the LEDs connected to each other according to the brightness value of the lamp 400, Adjust the brightness. In this embodiment, the lamp 400 is gradually switched on within 2 seconds so that the user can easily accept the brightness change of the lamp 400. According to another embodiment, the second predetermined time may also be set to be substantially zero seconds.

When the first touch sensor 231 senses a touch and the touch time is greater than or equal to 1 second (the first touched estimated time), the microprocessor 250 causes the power phase control circuit 270 to respond to the touch time. Adjust the brightness of the lamp 400 to be bright. Next, the brightness value of the lamp after the bright adjustment is stored in the temporary storage place (251). Finally, the microprocessor 250 causes the indicator module 240 to switch on the LEDs connected to each other according to the brightness values of the lights 400 and to adjust the brightness of the LEDs connected to each other.

If the second touch sensor 232 senses a touch and the touch time is less than one second (third touch scheduled time), the microprocessor 250 causes the power phase control circuit 270 to execute three seconds (fourth scheduled). In time), the lamp 400 is gradually switched off, and the indicator module 240 switches on the LEDs connected to each other according to the brightness values of the lamps 400 and adjusts the brightness of the LEDs connected to each other. More specifically, at this time, in the state in which the light 400 is switched off, the brightness value is 0, but by switching on the first LED 241, the user is the position of the light control module 100 To be recognized. In this embodiment, the lamp 400 is gradually switched off within 3 seconds so that the user can easily accept the brightness change of the lamp 400.

When the second touch sensor 232 detects a touch and the touch time is greater than or equal to 1 second (the third touched estimated time), the microprocessor 250 causes the power phase control circuit 270 to respond to the touch time. Adjust the brightness of the light 400 to darken. Next, the brightness value of the lamp after dark adjustment is stored in the temporary storage place (251). Finally, the microprocessor 250 causes the indicator module 240 to switch on the LEDs connected to each other according to the brightness values of the lights 400 and to adjust the brightness of the LEDs connected to each other.

When neither the first touch sensor 231 nor the second touch sensor 232 detects a touch for 10 seconds (delay time), the microprocessor 250 causes the indicator module 240 to adjust the brightness of the LEDs connected to each other. By adjusting the brightness value to be dark in the power saving mode, the indicator module 240 enters the power saving mode to save power.

6 is a flowchart of a light control method according to an embodiment of the present invention. This embodiment allows only the on / off control of the lamp 400 to proceed without the brightness control. In this embodiment, one touch zone and the touch sensor to control one lamp, hereinafter, the first touch zone 331 and the first touch sensor 231 to control the lamp 400 will be described as an example. Do it.

As shown in FIG. 6, when the first touch sensor 231 senses a touch, the microprocessor 250 causes the power phase control circuit 270 to control a toggle switch, thereby providing a light ( If 400 is switched off, the lamp 400 is switched on, and if the lamp 400 is switched on, the lamp 400 is switched off.

At this time, the on / off state of the lamp 400 is determined, and if the switch is on, the indicator module 240 is turned off. If it is in the switched off state, it is again determined whether it is on / off tansition, and if it is YES, the indicator module 240 is delayed for a delay time of 10 seconds. Turn on. In addition, after the 10 second delay time is exceeded, the brightness of the LED in the indicator module 240 is adjusted to be dark.

As described above, the light control module 100 according to the embodiment of the present invention can easily replace the glass plate 300 to match the pattern, color of the wall. According to the embodiment of the present invention, when the light control module 100 needs to be cleaned, the cleaning liquid does not penetrate the circuit and the electronic components on the cover plate 220, thereby preventing damage to the light control module 100. You can do that. In addition, according to an embodiment of the present invention, the light control device 200 may return to the brightness value of the pre-stored light according to the user's habits, and the user can simplify the step of switching on the light 400. . In addition, when the light control module 100 according to the present invention is applied to a hospital, even if the user does not touch with a finger, even if the user is in close contact with the touch area and is substantially in contact, the detection sensor may detect this. By doing so, bacterial infection can be prevented.

The above embodiments are merely exemplary embodiments for explaining the technical features of the present invention, and are not used to limit the protection scope of the present invention described in the claims. Therefore, those skilled in the art should understand that various modifications and equivalent other embodiments are possible without departing from the spirit and scope of the present invention. Therefore, the protection scope of the present invention should be defined by the technical spirit of the appended claims.

100: light control module
200: light control device
230: touch sensing module
240: indicator light module
250: microprocessor
260: power conversion circuit
270: power phase control circuit
280: photocoupler

Claims (12)

Light control module used to control the light,
The light control module includes a light control device and a flat plate, wherein the flat plate is detachably mounted to the light control device and includes a first touch zone, a second touch zone, and an indicator light zone, and the light control device Is composed of a touch sensing module, indicator module, power phase control circuit and microprocessor,
The touch sensing module includes a first touch sensor and a second touch sensor, the position of the first touch sensor corresponds to the position of the first touch zone, and the position of the second touch sensor is the second touch sensor. Corresponding to the location of the touch zone, the first touch sensor and the second touch sensor detect a touch state and output a detection signal;
The indicator module includes a plurality of light emitting diodes, the positions of the plurality of light emitting diodes correspond to the position of the indicator light zone,
The power phase control circuit is used to control the brightness of the lamp,
The microprocessor includes a temporary storage location, wherein a light intensity value is stored in the temporary storage area, and the microprocessor controls the power phase control circuit according to the detection signal and connects a plurality of lights to each other according to the brightness of the light. Determine two light emitting diodes,
When the first touch sensor and the second touch sensor sense a touch at the same time, the microprocessor causes the power phase control circuit to switch on the light according to the light intensity value stored in the temporary storage location, Adjust the brightness to the light intensity value, and the indicator module switches on the plurality of light emitting diodes connected to each other according to the light intensity value, and adjusts the light intensity of the plurality of light emitting diodes connected to each other,
When the first touch sensor senses a touch and the touch time is less than the first touch scheduled time, the microprocessor causes the power phase control circuit to switch on the light within the second touch scheduled time, The microprocessor causes the indicator module to switch on the plurality of light emitting diodes connected to each other according to the brightness value of the light and to adjust the brightness of the plurality of light emitting diodes connected to each other.
When the second touch sensor senses a touch and the touch time is less than the third touch scheduled time, the microprocessor causes the power phase control circuit to switch off the lamp within the fourth touch scheduled time, and the micro And a processor to cause the indicator module to switch on the plurality of light emitting diodes connected to each other according to the brightness value of the light and to adjust the brightness of the light emitting diodes connected to each other. The method of claim 1, wherein when the first touch sensor senses a touch and the touch time is greater than or equal to the first touch predetermined time, the microprocessor causes the power phase control circuit to cause the electric light to be changed according to the touch time. Adjust the brightness to be bright, store the brightness of the lamp after the brightness is adjusted in the temporary storage to be the light intensity value,
If the second touch sensor senses a touch and the touch time is greater than or equal to the third touched time, the microprocessor adjusts the power phase control circuit so that the brightness of the light becomes dark according to the touch time. And storing the light intensity of the light after being darkly adjusted in the temporary storage place so as to be the light intensity value. The method of claim 1, wherein when both the first touch sensor and the second touch sensor do not detect a touch during a delay time, the microprocessor causes the indicator module to provide brightness of the plurality of light emitting diodes connected to each other in a power saving mode. Light control module, which allows adjustment to darken the intensity value. The method according to claim 1, wherein the flat plate includes at least one second hook member formed on the back side of the flat plate,
The light control device further comprises a cover plate, at least one side of the cover plate is formed with a first hook member,
And the flat plate is fixedly mounted on the light control device in a detachable manner through the coupling of the first hook member and the second hook member. The light control module of claim 4, wherein an accommodation space is formed on a rear surface of the plate, and the cover plate is accommodated in the accommodation space. The method according to claim 4, wherein the touch sensing module, the indicator module, the power phase control circuit and the microprocessor are coupled to each other via a circuit board, the first touch scheduled time is equal to the third touch scheduled time, The fourth touch expected time is greater than the second touch expected time. The light control module of claim 4, wherein the flat plate is a glass flat plate or a non-conductive flat plate. Light control module used to control the light,
A light control device having at least one touch sensor and a flat plate having at least one first touch zone,
The flat plate is detachably mounted to the light control device, and when the position of the touch sensor corresponds to the position of the first touch zone, and the object is in close proximity or contact with the first touch zone, the touch sensor Detects a touch state and outputs a detection signal to cause the light control device to control a light according to the detection signal. Light control device used to control the light,
Consists of touch sensing module, indicator module, power phase control circuit and microprocessor,
The touch sensing module includes a first touch sensor and a second touch sensor, and the first touch sensor and the second touch sensor detect a touch state and output a detection signal.
The indicator module includes a plurality of light emitting diodes,
The power phase control circuit is used to control the brightness of the lamp,
The microprocessor includes a temporary storage location, wherein a light intensity value is stored in the temporary storage area, and the microprocessor controls the power phase control circuit according to the detection signal and connects a plurality of lights to each other according to the brightness of the light. Determine two light emitting diodes,
When the first touch sensor and the second touch sensor sense a touch at the same time, the microprocessor causes the power phase control circuit to switch on the light according to the light intensity value stored in the temporary storage location, Adjust the brightness to the light intensity value, and the indicator module switches on the plurality of light emitting diodes connected to each other according to the light intensity value, and adjusts the light intensity of the plurality of light emitting diodes connected to each other,
When the first touch sensor senses a touch and the touch time is less than the first touch scheduled time, the microprocessor causes the power phase control circuit to switch on the light within the second touch scheduled time, The microprocessor causes the indicator module to switch on the plurality of light emitting diodes connected to each other according to the brightness value of the light and to adjust the brightness of the plurality of light emitting diodes connected to each other.
When the second touch sensor senses a touch and the touch time is less than the third touch scheduled time, the microprocessor causes the power phase control circuit to switch off the lamp within the fourth touch scheduled time, and the micro And a processor to cause the indicator module to switch on the plurality of light emitting diodes connected to each other according to the brightness value of the light and to adjust the brightness of the light emitting diodes connected to each other. 10. The method of claim 9, wherein when the first touch sensor senses a touch and the touch time is greater than or equal to the first touch expected time, the microprocessor causes the power phase control circuit to cause the electric light to be changed according to the touch time. Adjust the brightness to be bright, store the brightness of the lamp after the brightness is adjusted in the temporary storage to be the light intensity value,
If the second touch sensor senses a touch and the touch time is greater than or equal to the third touched time, the microprocessor adjusts the power phase control circuit so that the brightness of the light becomes dark according to the touch time. And storing the light intensity of the light after being darkly adjusted in the temporary storage place to be the light intensity value. 10. The method of claim 9, wherein when both the first touch sensor and the second touch sensor do not sense a touch during a delay time, the microprocessor causes the indicator module to have brightness of the plurality of light emitting diodes connected to each other in a power saving mode. Light controller, which allows adjustment to darken the intensity value. The method of claim 9, wherein when the first touch sensor senses a touch, the microprocessor causes the power phase control circuit to control a toggle switch with respect to the light, but the light is switched on. If the switch is switched off in the state of the light module for a delay time, and after the delay time is exceeded, the light control device for adjusting the brightness of the plurality of light emitting diodes in the light module darkened.

Images