KR100766812B1 - Method for controlling electric lamp lighting and electric lamp system using the same - Google Patents

Abstract

A method for controlling the lighting of an electric lamp and an electric lamp system using the same are provided to control the number of the electric lamps turned on among a plurality of electric lamps by using one switch. An electric lamp system includes a plurality of electric lamps(51,52,53,54), a switch unit(40), a control unit(30), and a power switch(20). The switch unit(40) controls to light on the number of the electric lamps(51,52,53,54) among the plurality of electric lamps(51,52,53,54) selected according to a selection signal. The control unit(30) transmits the selection signal to the switch unit(40). The power switch(20) transmits electric power to the switch unit(40) and the control unit(30) or breaks the electric power according to a switching operation.

Description

Lighting control method and lighting system using the same {METHOD FOR CONTROLLING ELECTRIC LAMP LIGHTING AND ELECTRIC LAMP SYSTEM USING THE SAME}

1 is a view showing a light system according to an embodiment of the present invention.

FIG. 2 is a diagram illustrating an example of the controller of FIG. 1. FIG.

3 is a view showing a lighting control method of a lamp according to a first embodiment of the present invention.

4 is a view showing a lighting control method of a lamp according to a second embodiment of the present invention.

5 is a view showing a lighting control method of a lamp according to a third embodiment of the present invention.

The present invention relates to a lighting control method of a lamp and a lamp system using the same, and more particularly, to a lighting control method and a lamp system of a lamp that can easily operate the number of lights of the lamp.

In the living room or room of the home generally two or four lamps are used. In addition, two or four lamps are installed on the ceiling in an office or the like. As described above, two or four lights installed together may be turned off or all of the lights may be turned on, but some lights may be turned on and some lights may be turned off. For example, in the office, when only a few lights are turned on during the day when the sun shines from the outside, sufficient illumination is satisfied for the work, so that only some of the two or four lights are turned on to reduce power loss. In addition, in the case of a living room of a home where four lights are generally used, turning on all four lights is suitable for reading and the like, but there is a problem that glare is too bright when watching TV. In the case of a home room where two lamps are generally used, turning on both lamps is suitable for reading and the like, but it is often sufficient to turn on one lamp for general living. In this manner, it is often necessary to light only some of the plurality of lights.

As described above, there is a technique using a rotary switch as a conventional technique for selectively lighting only a part of a plurality of lights. However, this technique is not good in appearance because the string pulling the rotary switch down long, especially the high-rise homes with high ceilings, offices with a lot of people can not be applied. Another conventional technique is to install a separate switch on a wall for each light. However, this technique is not good aesthetics because a large number of switches must be installed on the wall, and a separate switch and wiring for each lamp requires a lot of installation costs.

Therefore, the technical problem to be achieved by the present invention is to solve the above problems, to provide a lighting control method and a lighting system of a lamp that can light only a part of the plurality of lights.

In addition, the technical problem to be achieved by the present invention is to provide a lighting control method and a light system that can light only a part of the plurality of lights without using a rotary switch having a poor appearance aesthetics.

In addition, the technical problem to be achieved by the present invention is to provide a lighting control method and lighting system that can light only some of the plurality of lights without having a separate switch and a separate wiring that is expensive and aesthetically undesired. It is.

In addition, the technical problem to be achieved by the present invention is to provide a lighting control method and a light system of a lamp that can control the number of lights turned on in a plurality of units of a plurality of lights.

As a technical means for achieving the above object, a first aspect of the present invention is a plurality of lights; A switch unit controlling to turn on a selected number of lights according to a selection signal among the plurality of lights; A control unit for transmitting the selection signal to the switch unit; And a power switch configured to transmit or cut power to the switch unit and the control unit according to a switching operation, wherein the control unit is switched to an on state before a predetermined period of time passes after the power switch is switched off. Provided is a light system for generating the selection signal so that the number of lights turned on among the plurality of lights increases or decreases than before the power switch is switched to the off state.

A second aspect of the invention is a plurality of lights; A switch unit configured to control a number of lights to be turned on according to a selection signal among the plurality of lights; A control unit for transmitting the selection signal to the switch unit; And a power switch that transmits or cuts power to the switch unit and the control unit according to a switching operation, wherein the control unit includes a plurality of lights that are turned on among the plurality of lights when the power switch is switched to an on state where the power switch is turned off. There is provided a light system for generating the selection signal such that the number increases or decreases before the power switch is switched off.

According to a third aspect of the present invention, there is provided a lighting control method for controlling a number of lights that are turned on among a plurality of lights by switching a power switch, the method comprising: (a) converting the power switch to an off state; (b) transitioning the power switch to an on state; (c) if the time interval between step (a) and step (b) is greater than a predetermined time, turn on a predetermined number of lights among the plurality of lights, and if the time interval is less than the predetermined time, among the plurality of lights Increasing or decreasing the number of lights that are on than before the power switch is switched off; And (d) repeating the steps (a) to (c).

According to a fourth aspect of the present invention, there is provided a lighting control method for controlling a number of lights that are turned on by switching a power switch, the method comprising: (a) converting the power switch to an off state; (b) transitioning the power switch to an on state; (c) if the time interval between steps (a) and (b) is greater than a predetermined time, the number of lights equal to the number of lights that are turned on before the power switch is turned off among the plurality of lights. If the time interval is less than the predetermined time, increasing or decreasing the number of lights turned on among the plurality of lights than before the power switch is turned off; And (d) repeating the steps (a) to (c).

According to a fifth aspect of the present invention, there is provided a lighting control method for controlling a number of lights that are turned on among a plurality of lights by switching a power switch, the method comprising: (a) converting the power switch to an off state; (b) transitioning the power switch to an on state; (c) increasing or decreasing the number of lights turned on among the plurality of lights than before the power switch is turned off; And (d) repeating the steps (a) to (c).

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited by the embodiments described below. Embodiments of the present invention are provided to more completely explain the present invention to those skilled in the art.

1 is a view showing a light system according to an embodiment of the present invention. Referring to FIG. 1, the lighting system includes a power switch 20, a control unit 30, a switch unit 40, and a plurality of lights 51, 52, 53, and 54.

The power switch 20 transmits or cuts off the power transmitted from the AC power source 10 to the control unit 30 and the switch unit 40 according to a switching operation. The power switch 20 is generally installed on the wall of a home or office. The power switch 20 may be, for example, a toggle switch.

The controller 30 senses the switching operation of the power switch 20 and controls the switch 40 accordingly. To this end, the controller 30 outputs a selection signal to the switch unit 40.

As a first example of a method in which the control unit 30 controls the switch unit 40, when the power switch 20 is turned off before the predetermined time elapses after the power switch 20 is turned off, the control unit 30 The selection signal may be generated to increase or decrease the number of lights that are turned on among the plurality of lights 50. The predetermined time may be, for example, 5 seconds. The case where the power switch 20 is turned on before the predetermined time elapses after the power switch 20 is turned off means that the power switch 20 is temporarily turned off and on similarly to a double click. As an example in which the number of lights turned on increases or decreases, when the plurality of lights 51, 52, 53, and 54 are configured as four lights as shown in the drawing, and the number of lights turned on increases by one, the user switches the power switch 20. ) And then turn it on before the period of time has elapsed, and the number of lights turned on is 1-> 2-> 3-> 4-> 1-> The controller 30 may generate a selection signal to change from 2 to 3 to 4 in order. In addition, when the plurality of lights (51, 52, 53, 54) is composed of eight lights unlike the drawings and the number of lights turned on decreases by two, a predetermined period after the user switches the power switch 20 to the off state If you repeat the transition to the ON state before this time elapses, the number of lights turned on is 8-> 6-> 4-> 2-> 8-> 6-> 4-> 2 The controller 30 may generate a selection signal so as to change in order. The number of lamps that are turned on may be changed in one unit, or may be changed in two units as a plurality of units.

Preferably, when the power switch 20 is switched to the off state after the predetermined period has passed after the power switch 20 is switched to the on state, the control unit 30 is a predetermined number of lights among the plurality of lights 51, 52, 35, 54. The selection signal can be generated to turn on. For example, when the plurality of lights 51, 52, 53, 54 are configured as four lights as shown in the drawing, and the power switch 20 is switched to the off state after a predetermined period has elapsed after the switch is turned off, The selection signal can be generated so that two lights are always on. In this manner, when the user returns home to turn on the lights, only two of the four lights are turned on, so that power saving can be performed naturally. In addition, when the user feels dark, the number of lights may be adjusted by converting the power switch 20 to the off state and then immediately to the on state.

Also, preferably, when the power switch 20 is switched to the off state and then switched to the on state after a predetermined period of time has elapsed, the controller 30 may include a power switch among the plurality of lights 51, 52, 53, and 54. The selection signal may be generated to turn on the same number of lights as before the number 20) is turned off. For example, after adjusting the number of lights turned on by the user the day before, the power switch 20 is turned off, and after going to bed, the next day, when the power switch 30 is turned on again, the three lights are turned on. It will turn on. After that, if you want to adjust the number of lights, you can turn it off and immediately turn it on. In this way, after the user repeats the operation of switching the power switch 20 to the off state and immediately switching to the on state and setting the desired number of lights to be turned on, the power switch 20 is turned off. After some time has passed after the conversion, if the power switch 20 is turned on, the set number of powers are turned on, so that the user can continuously turn on a predetermined number of lights.

As a second example of the method in which the control unit 30 controls the switch unit 40, when the power switch 20 is switched to the off state and then to the on state, the control unit 30 includes a plurality of lights 51, 52, 53, and 54, the selection signal may be generated to increase or decrease the number of lights turned on. That is, in the second example, the number of lights turned on among the plurality of lights 51, 52, 53, and 54 is changed regardless of the time required for the power switch 20 to be turned on after being turned off. do.

The switch unit 40 supplies the power transmitted from the power switch 20 to some or all of the plurality of lights 51, 52, 53, and 54 according to the selection signal transmitted from the controller 30. More specifically, the switch unit 40 is composed of a plurality of switches (41, 42, 43), each switch is connected to the light to pass or block the power delivered to the light in accordance with the selection signal. At least one of the plurality of lights 51, 52, 53, and 54 may be turned on when the power switch 20 is turned on, and as shown in the drawing, one light, for example, the light at 54 is always turned on. The wiring connected to the light at 54 can always be short circuited. In addition, unlike the drawings, a switch may be connected to each of the plurality of lights 51, 52, 53, and 54. That is, four switches may be connected to the plurality of lights 51, 52, 53, and 54. In this case, even if one lamp is turned on, the control unit 30 can control the position of the lamp to be turned on. In this way, the four lamps are used evenly, there is an advantage that the replacement time is similar. In addition, unlike the drawings, a plurality of lights, for example, two lights may be connected to one switch. In this case, the number of lights to be turned on may increase or decrease by two according to the switching operation of the power switch 20. Each of the plurality of switches 41, 42, 43 may be configured as a triac or relay.

In the drawing, the number of the plurality of lights 51, 52, 53, 54 is four, but if the number of lights is two or more, they belong to the scope of the present invention regardless of the number of lights. The plurality of lamps 51, 52, 53, and 54 may be various types of lamps, such as an incandescent lamp, a discharge lamp, and a fluorescent lamp.

The lamp lighting apparatus illustrated in FIG. 1 may be configured as described above, and thus, the user may control the number of lights that are turned on among the plurality of lights 51, 52, 53, and 54 by switching the power switch 20.

FIG. 2 is a diagram illustrating an example of the controller of FIG. 1. FIG. 2, the controller includes an AC / DC converter 31, a capacitor 32, a microprocessor 33, and a clamping circuit 34. The controller 30 may further include a nonvolatile memory 35.

The AC / DC converter 31 converts the AC voltage output from the power switch 20 into a DC voltage of a predetermined level. Since the microprocessor uses a lot of 5V power, the AC / DC converter 31 can convert an AC voltage into a DC voltage of 5V, for example. As shown in the figure, the AC / DC converter 31 may include two diodes D1 and D2, one resistor R1, and one zener diode D3.

The capacitor 32 performs a function of maintaining the DC voltage output from the AC / DC converter 31 for a predetermined period even after the power switch 20 is turned off. For example, after the capacitor 32 charges a DC voltage of 5 V output from the AC / DC converter 31, the power switch 20 is turned off so that the voltage is not output from the AC / DC converter 31. In this case, the microprocessor 33 supplies more than the reset voltage to prevent the microprocessor 33 from being reset. In general, in the case of the microprocessor 33 receiving the 5V DC voltage, since 2.5V is the reset voltage, the capacitor 32 may maintain the voltage of 2.5V or more for 5 seconds after the power switch 20 is turned off. .

The clamping circuit 34 clamps the AC voltage output from the power switch 20 to a predetermined level so that the microprocessor 33 can detect the switching operation of the power switch 20. It performs the function of passing to. For this purpose, the clamping circuit 34 includes a resistor R2 and a zener diode D4.

The microprocessor 33 operates by receiving a DC voltage output from the AC / DC converter 31, and determines whether the power switch 20 is on or off from the clamped signal output from the clamp circuit 34. do. More specifically, the microprocessor 33 determines that the power switch 20 is in the on state when the clamped signal is continuously changed to the high level and the low level, and the power switch if the clamped signal remains at the low level. It is determined that 20 is in the off state.

When the control unit 30 described above operates as in the first example of the method of controlling the switch unit 40, the control unit 30 switches to the on state before the predetermined time elapses after the power switch 20 is switched off. The microprocessor 33 generates a selection signal to increase or decrease the number of lights that are turned on among the plurality of lights 50. If a predetermined time, such as 5 seconds, elapses after the power switch 20 is turned off, the voltage transferred from the capacitor 32 to the microprocessor 33 drops below the reset voltage, and the microprocessor 33 will be reset. . Thereafter, when the power switch 20 is turned on, the microprocessor 33 is turned on again. In this case, the microprocessor turns on a predetermined number of lights determined by initialization or the power switch 20 is turned off. Turn on the same number of lights as previously turned on. When the predetermined number of lights are turned on, the controller 30 does not need the nonvolatile memory 35 unlike in the drawing. However, when turning on the same number of lights as the number of lights that were previously turned on, since the number of lights that were turned on previously must be stored, a nonvolatile memory 35 is required as shown in the figure. That is, the microprocessor 33 stores the number of lights that have been turned on in the nonvolatile memory 35, and then, after a predetermined time has elapsed after the power switch 20 is turned off, the microprocessor 33 The processor 33 turns on the same number of lights as the number stored in the nonvolatile memory 35.

In the case where the control unit 30 described above operates as the second example of the method of controlling the switch unit 40, the microprocessor 33 when the power switch 20 is switched to the off state and then to the on state. Generates a selection signal such that the number of lights turned on among the plurality of lights 50 increases or decreases.

In addition, the microprocessor 33 receives the clamped signal output from the clamp circuit 34 and outputs a selection signal to the switch unit 40 accordingly, thereby enabling zero crossing switching. That is, the microprocessor 33 switches the switches 41, 42, and 43 included in the switch 40 at the point where the current of the AC power delivered from the power switch 20 becomes zero, thereby reducing the current loss. It can be minimized. This zero crossing switching is particularly effective for incandescent lamps, decorative lamps and the like.

As described above, the nonvolatile memory 35 is equal to the number of lights that the microprocessor 33 has previously turned on when the power switch 20 is turned off after the predetermined time has passed after the power switch 20 is turned off. This component is required to turn on the lights. The nonvolatile memory 35 may be, for example, an electrically erasable programmable read-only memory (EEPROM).

3 is a view showing a lighting control method of a lamp according to a first embodiment of the present invention.

1 and 3, first, the power switch 20 is switched to the off state (S11). After that, the power switch 20 is turned on (S12). After the power switch 20 is turned on, the control unit 30 turns on a predetermined number of lights among the plurality of lights 51, 52, 53, and 54 when the time interval between the steps S11 and S12 is greater than a predetermined time. If the time interval between the step S11 and S12 is less than the predetermined time, the number of lights turned on among the plurality of lights 51, 52, 53, 54 increases or exceeds before the power switch 20 is switched off. Reduce (S13). Thereafter, the steps S11 to S13 are repeated (S14).

Since various methods for increasing or decreasing the number of turned on lights among the plurality of lights 51, 52, 53, and 54 have already been described above, a detailed description thereof will be omitted for convenience of description.

4 is a view showing a lighting control method of a lamp according to a second embodiment of the present invention.

1 and 4, first, the power switch 20 is switched to the off state (S21). Thereafter, the power switch 20 is switched to the on state (S22). After the power switch 20 is turned on, the controller 30 controls the power switch 20 of the plurality of lights 51, 52, 53, and 54 if the time interval between steps S21 and S22 is greater than a predetermined time. Of the plurality of lights 51, 52, 53, 54 if the time interval between the steps S21 and S22 is less than a predetermined time, turning on the same number of lights as before the) turns to the off state. The number of lights that are turned on is increased or decreased from before the power switch 20 is switched to the off state (S23). After that, the steps S21 to S23 are repeated (S24).

In step S21, the power switch 20 is turned off and the number of lights that are turned on before the power switch 20 is turned off among the plurality of lights 51, 52, 53, and 54 is non-volatile. And storing in the memory 35. The operation of storing the number of lamps in the nonvolatile memory 35 may be performed before the power switch 20 is turned off or may be performed after the power switch 20 is turned off. In performing the step S23, by reading the number stored in the nonvolatile memory 35 and turning on the same number of lights, the power switch 20 of the plurality of lights 51, 52, 53, 54 is turned off. The same number of lights can be switched on as before the conversion.

Since various methods for increasing or decreasing the number of turned on lights among the plurality of lights 51, 52, 53, and 54 have already been described above, a detailed description thereof will be omitted for convenience of description.

5 is a view showing a lighting control method of a lamp according to a third embodiment of the present invention.

1 and 5, first, the power switch 20 is switched to the off state (S31). Thereafter, the power switch 20 is switched to the on state (S32). After the power switch 20 is switched to the on state, the controller 30 increases or decreases the number of lights that are turned on among the plurality of lights 51, 52, 53, and 54 (S33). After that, the steps S31 to S33 are repeated (S34).

Since various methods for increasing or decreasing the number of turned on lights among the plurality of lights 51, 52, 53, and 54 have already been described above, a detailed description thereof will be omitted for convenience of description.

Lighting control method and lighting system of the light according to the present invention has the advantage that it is easy to adjust the number of lights that are turned on of the plurality of lights.

In addition, the lighting control method and the lighting system according to the present invention does not use a rotary switch having a string that is not aesthetically good, there is an advantage that it is aesthetically good.

In addition, the lighting control method and the lighting system according to the present invention, unlike the prior art that a separate switch should be installed for each light, by using a single switch can easily adjust the number of lights that are turned on of a plurality of lights There is this.

In addition, the lighting control method and the lighting system according to the present invention, unlike the prior art that a separate wiring for each light, the number of lights to be turned on of a plurality of lights using only one wiring, the wiring cost This has the advantage of being saved.

In addition, the lighting control method and the lighting system according to the present invention has the advantage that it is possible to control the number of lights turned on in one unit or a plurality of units using a single power switch.

In addition, the lighting control method and the lighting system according to the present invention, because the microprocessor can always monitor the AC current of 60Hz and apply power at zero crossing, thereby reducing the inrush current of the incandescent lamp, the life of the lamp There is an advantage that can be extended.

Claims (12)

delete delete A plurality of lights; A switch unit configured to control a number of lights to be turned on according to a selection signal among the plurality of lights; A control unit for transmitting the selection signal to the switch unit; And It includes a power switch for transmitting or cutting off power to the switch unit and the control unit according to a switching operation, The control unit may increase or decrease the number of lights that are turned on among the plurality of lights before the power switch is turned off when the power switch is turned off before the predetermined period has elapsed. Generating the selection signal so that The control unit is equal to the number of lights that were turned on before the power switch is switched to the off state when the power switch is turned to the off state after the predetermined period has elapsed. A light system for generating said selection signal to turn on a number of lights. A plurality of lights; A switch unit configured to control a number of lights to be turned on according to a selection signal among the plurality of lights; A control unit for transmitting the selection signal to the switch unit; And It includes a power switch for transmitting or cutting off power to the switch unit and the control unit according to a switching operation, The control unit may increase or decrease the number of lights that are turned on among the plurality of lights before the power switch is turned off when the power switch is turned off before the predetermined period has elapsed. Generating the selection signal so that The control unit An AC / DC converter connected to the power switch; A capacitor coupled to the output terminal of the AC / DC converter; A clamping circuit for clamping an AC voltage delivered from the power switch to a predetermined level; And And a microprocessor which receives power from an output of the AC / DC converter and senses a switching operation of the power switch from a clamped AC voltage output from the clamping circuit and generates the selection signal accordingly. The method of claim 4, wherein The control unit And a nonvolatile memory for storing the number of lights turned on among the plurality of lights. delete delete delete In the lighting control method of the electric light which adjusts the number of electric lights turned on among a some electric light by switching a power switch, (a) the power switch is turned off; (b) transitioning the power switch to an on state; (c) if the time interval between steps (a) and (b) is greater than a predetermined time, the number of lights equal to the number of lights that are turned on before the power switch is turned off among the plurality of lights. If the time interval is less than the predetermined time, increasing or decreasing the number of lights turned on among the plurality of lights than before the power switch is turned off; And (d) a lighting control method of a lamp comprising the step of repeating the steps (a) to (c). The method of claim 9, Step (a) is (a1) converting the power switch to an off state; And (a2) storing, in a nonvolatile memory, the number of lights that were turned on before the power switch of the plurality of lights was switched to an off state; The step (a2) is a lighting control method of the light is performed before or after the step (a1). The method of claim 10, In the step (c), by reading the number stored in the nonvolatile memory and turning on the same number of lights, the number of lights that were turned on before the power switch of the plurality of lights is switched off; Control method to turn on the same number of lights. delete

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