KR102006234B1 - Lights having wireless half-automatic switch - Google Patents

Abstract

The present invention relates to a lamp having a wireless semi-automatic switch, and more particularly, a relay for transmitting electrical energy to a lamp when a motion detection signal is not received for a preset time input to a timer while the lamp is turned on. A semi-automatic switch is provided to short-circuit the lamp to be switched to the power saving mode. After the lamp is switched to the power saving mode, a short-circuit relay is maintained even if any motion detection signal is received. The power saving mode of the lamp is continued until there is a wireless manual operation.
According to the present invention, even if the user goes out without forgetting to turn on the lights in the house or office, when the set time of the timer is completed, the lights are automatically turned off in the power saving mode (OFF) can be prevented the generation of wasted idle power, Solving the problem of forgetting to turn off the manual light when the light is turned on by the semi-automatic switch, and the problem of poor usability in daily life such as the automatic light that is often turned on by unnecessary movement. Solved.

Description

LIGHTS HAVING WIRELESS HALF-AUTOMATIC SWITCH}

The present invention relates to a lamp having a wireless semi-automatic switch, and more particularly, a relay for transmitting electrical energy to a lamp when a motion detection signal is not received for a preset time input to a timer while the lamp is turned on. A semi-automatic switch is provided to short-circuit the lamp to be switched to the power saving mode. After the lamp is switched to the power saving mode, a short-circuit relay is maintained even if any motion detection signal is received. The present invention relates to a lamp equipped with a wireless semi-automatic switch of a new way to continue the power saving mode state of the lamp until there is a wireless manual operation.

In modern times, when we look at the consumption of electric power consumed by electric appliances used everywhere in the world, about 10% of standby power is always captured in statistics. Even though the power is off, the power and plug cords are not completely disconnected.

That is, even if the switch attached to the electric appliance is turned off, the power consumption does not become zero completely unless the electric appliance plug is disconnected from the power supply. The reality is that the plug is often left as an excuse.

On the other hand, the standby power described above has already been recognized as a common common sense to the public through campaigns such as 'disconnecting power after using electrical equipment,' but in addition to the standby power, there is additionally wasted power, but the public's perception Is almost as it is.

Currently, the power control method of the lighting is mostly manual by direct contact with the user.In the case of the house, the lighting is turned on or off through the on / off control of individual wall switches that are linked one-to-one with the lighting, and in the office one-to-one Or it is common to control dozens of lights using a few wall on / off switch that is interlocked one to many.

More specifically, in the case of an office, a single wall switch controls the entire lighting of a line or an area as a whole. In some cases, the wall switch may be turned off at an interval of one hour after leaving work, depending on the intended use. .

At this time, the remaining person will turn on the electric appliances around him directly to resume work or turn on / off the lights by using a remote controller or a smart phone for the user's convenience. As a result, if the user forgets to turn off the lights remain on.

Therefore, the manual control method of the lighting such as the wall switch, the remote control, the smart phone, and the like introduced above is an important problem that if you leave it forgotten to be turned on and continue to be turned on as a result, wasting power unnecessarily.

In order to solve the problems of the manual control method, there is an automatic lighting method as a power control method of a lighting lamp, and a sensor equipped with a motion detection sensor.

Conventional technology using the automatic lighting method is disclosed in Korea Patent Publication No. 10-1996-0016640 "Indoor light flashing control device according to the detection of the human body", in detail installed at the entrance side of a predetermined indoor space of the person's entrance state A first human body sensor for detecting a human body, a second human body sensor for detecting a state where a person is placed in the predetermined indoor space, and a detection signal from the first and second human body sensor A signal amplifier for amplifying, an A / D converter for converting the signal-amplified sensed signal into a recognizable digital signal form, a key input unit for setting a predetermined blinking time by key input, a timer for timekeeping, and A display unit for displaying a state in which the timer is counted according to the flashing time set by the key input unit, and storing the flashing time set through the key input unit; When the detection signal from the first human body sensor is received and recognized through the / D converter, the control signal for lighting an indoor light is output, and the timer is detected when the detection signal from the second human body sensor is received. To perform the time-keeping operation so that the indoor light is turned off when a predetermined time elapses, and the control unit receives the control signal from the microcomputer and the microcomputer to display the time-of-day display on the display, and then flashes the indoor light. It is composed of a flashing driving unit that is driven for the purpose of detecting the state of entering the room through the human body sensor, so that the indoor light is turned on, and after the set time has elapsed is a technology that automatically turns off the indoor light.

In the above method, the motion sensor automatically turns on when it detects a person's movement and automatically turns off if it does not redetect the movement within a set time, and automatically turns off the lights that the user has forgotten and forget to turn off. You can automatically block the problem.

However, this automatic method is often turned on by something other than the user's will, and there is a problem in that power other than the original purpose is wasted. For example, even after the power is turned off, the light may be turned on by movements of other people, animals, and fine objects other than the user, and may be turned on in response to wind and bright light, depending on the sensitivity of the sensor.

The bigger problem is that the user unconditionally reacts to the user's movements, for example, when not sleeping, turning over, or passing around for a while, the power goes beyond the waste of power, causing inconvenience to the user.

Looking at the recent technology development trend to solve the above problems, we want to use the multi-sensor to distinguish the user and the non-user movement, but these products are very expensive on the market and still have a clear distinction and control Has not provided.

Alternatively, it may be possible to control the lighting by the user's face recognition, but this is not only expensive but still has disadvantages, and it is turned on unconditionally when it is tossed while sleeping and passing by for a short time. The problem still remains.

In order to provide consumers with a lamp which is capable of automatically cutting off the 'forgotten and wasted power' described above, the lamp having a new type of semi-automatic switch that combines the advantages of manual lighting and automatic lighting, The invention was devised.

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0001) Korea Patent Publication No. 10-1996-0016640 (published May 22, 1996)

The present invention was devised to solve the above problems, and more particularly, when a motion detection signal is not received for a preset time input to a timer while the lamp is turned on, a relay for transmitting electric energy to the lamp is provided. A semi-automatic switch is provided to short-circuit the lamp to be switched to the power saving mode. After the lamp is switched to the power saving mode, a short-circuit relay is maintained even if any motion detection signal is received. It is an object of the present invention to provide a lamp equipped with a wireless semi-automatic switch of a new way to continue the power saving mode state of the lamp until there is a wireless manual operation.

According to a preferred embodiment of the present invention, by receiving electrical energy from the power supply lamp 100 is supplied with power by the wireless manual operation of the user; A wireless motion detection sensor 200 provided in the lamp 100 and transmitting a motion detection signal to a semi-automatic switch when a motion of a person or a thing is detected in a motion recognition range of a detection area; When the timer 310 is provided therein and the motion detection signal is not received for a preset time input to the timer 310 while the lamp 100 is turned on, a relay for transmitting electrical energy to the lamp 100 is provided. And a semi-automatic switch 300 to short-circuit the lamp 100 to be switched to the power saving mode. After the lamp 100 is switched to the power saving mode, any of the wireless motion detection sensors 200 may be used. Even if the motion detection signal is received, the semi-automatic switch 300 maintains a shorted relay so that the power saving mode state of the lamp 100 continues until there is a wireless manual operation by the user. Wireless communication with the semi-automatic switch 300 is possible so that the short-circuit relay of the semi-automatic switch 300 can be remotely reconnected and a manual operation function is provided. It is characterized in that the wireless input unit 500, such as a mounted remote control or a smart phone is provided.

According to another embodiment of the present invention, the semi-automatic switch 300 in the state in which the lamp 100 is turned on, the motion detection signal before the set time of the timer 310 from the wireless motion detection sensor 200 is completed When received, the timer 310 is initialized for each reception, so that a relay for transmitting electrical energy to the lamp 100 is kept connected. If the motion detection signal is not received, the timer is maintained. When the setting time of 310 is completed, the relay is shorted to switch to the power saving mode state in which the lamp 100 is turned off, and in the power saving mode state in which the lamp 100 is turned off, the user As long as the input signal by the wireless manual operation is not received, the relay is irrespective of the motion detection signal received from the wireless motion detection sensor 200. It is characterized by continuing to be short-circuited.

According to another embodiment of the present invention, in place of the wireless manual operation of the user, the user to connect the short-circuit relay of the semi-automatic switch 300 through the wired wall switch to the lamp 100 in the power saving mode state Characterized in that configured to be.

According to another embodiment of the present invention, the voltage value of the motion detection signal received from the wireless motion detection sensor 200 is compared with a preset voltage table, or the current value of the received motion detection signal is a preset current. The motion degree determining unit 410 quantitatively determines the magnitude of the magnitude of the motion detected by the wireless motion detection sensor 200 in comparison with a current table, and the lamp 100 is turned off. In the power saving mode state, when receiving a signal that is determined as a large movement from the motion degree determining unit 410, generating a large operation determination signal to control the switching of the short-circuit relay of the semi-automatic switch 300 is connected again And a control unit 400 configured as a determination unit 420.

According to another embodiment of the present invention, the motion degree determining unit 410 is a reference voltage and a reference value when the voltage or current value when detecting the movement of the degree of activity in the room in everyday life, respectively, When a voltage / current value equal to or less than the reference voltage / reference current is measured, it is determined that the detected motion is not a large motion and no signal is generated, and a voltage / current value higher than the reference voltage / reference current is measured. When it is determined that the detected motion is a large motion, it is characterized in that for transmitting the signal that the large motion is detected to the mode switching unit 420.

According to another embodiment of the present invention, the reference voltage / reference current is a resistor value designed between an output terminal and an (−) input terminal of an amplifier in an electronic circuit constituting the wireless motion detection sensor 200. According to the change, the voltage / current value and the sensitivity of the wireless motion detection sensor 200 are set differently in proportion to the resistance value, but in the state in which the lamp 100 is turned on, the resistance value is a default value. By setting a higher value than the resistance value in the power saving mode, the sensitivity of the wireless motion detection sensor 200 is increased, thereby generating a motion detection signal even if a very small motion is detected within the motion recognition range of the wireless motion detection sensor 200. In the power saving mode state in which the lamp 100 is turned off, the resistance value is set back to the default value so that the sensitivity of the wireless motion detection sensor 200 returns to the initial state. As a result, a large operation determination signal is generated by the mode switching determination unit 420 only when a large operation according to the reference voltage / reference current is detected.

Meanwhile, the present invention may be variously modified and may have various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to the specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the drawings, similar reference numerals are used for similar elements.

Also, the terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "having" are intended to indicate that there is a feature, number, step, action, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

The lamp equipped with a wireless semi-automatic switch according to the present invention provides the following effects.

First, even if the user goes out forgetting to turn on the lights in the house or office, when the set time of the timer is completed, the lights are automatically turned off in the power saving mode (OFF) can prevent the generation of wasted power.

Second, with the semi-automatic switch, the user can solve the problem of forgetting to turn off the manual lamp when the lamp is turned on, and the user can receive any motion detection signal in the power saving mode when the lamp is turned off. By never turning on until there is a wireless input signal, the automatic lighting that is often turned on by unnecessary movements solved the problem of poor usability in everyday life.

Third, when the lamp is turned on, the sensitivity of the wireless motion sensor is automatically set so that the sensitivity of the wireless motion detection sensor is increased, and the timer for maintaining the ON state is continuously reset even with a small movement within the motion recognition range. In the everyday life, the degree of movement of the light (ON) is an advantage that does not easily switch to the power saving mode.

Fourth, even if a user loses a wireless input device such as a remote controller or a smartphone that can communicate with a lamp, the reference voltage of stretching or extending arms wide in the sensing area of the wireless motion sensor is exceeded. When a large operation is performed, a relay such as a lamp which is turned off in the power saving mode is reconnected to turn on the lamp without the wireless input device.

1 is a reference diagram for schematically illustrating a lamp according to the present invention;
2 is a configuration diagram for explaining the configuration of the lamp according to the present invention;
3 is a circuit diagram showing an electronic circuit of a wireless motion detection sensor according to the present invention;
Figure 4 is a flow chart for the on / off algorithm of the lamp according to an embodiment of the present invention,
5 is a flowchart illustrating an on / off algorithm of a lamp according to another embodiment of the present invention.

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

First, FIG. 1 is a reference diagram for schematically illustrating a lamp according to the present invention, and FIG. 2 is a block diagram for explaining the configurations of the lamp according to the present invention.

1 and 2, a lamp having a wireless semi-automatic switch according to an embodiment of the present invention is a lamp 100, a wireless motion detection sensor 200, a semi-automatic switch 300, the control unit 400 And a wireless input unit 500.

Before describing the above configurations in detail, the "leave power" which is an important concept in the present invention will be described.

First, in the case of an automatic lamp, when the motion of a person or an object is detected within the detection area, the lamp is turned on. If the robot does not continuously detect the movement of the object for a predetermined time, the power does not need to be pressed. It is turning off automatically.

On the contrary, in the case of a manual lamp, both on / off should be operated by a user, and when the user does not turn off the lamp, power is continuously applied to the lamp.

If the user does not turn off the lamp intentionally, there is no problem in the above manual method, but if the user simply forgets to turn off the lamp and keeps the power on, the lamp is operated by a third party. The problem is that the power is kept wasted until it is found and turned off or remembered by the user.

As described above, in the present invention, the electric power that is wasted without waste due to the user forgets the OFF of the lamp and is turned off in the present invention is referred to as the term 'leave power', and unless the user carefully turns off the lamp. In everyday life, everyone often goes on at least once and commits to generating neglect power.

Hereinafter, the components of the present invention for blocking the "leave power" generated by the user forgetting to turn off the lamp as described above will be described in detail.

First, the lamp 100 is supplied with electric energy from a power source and is supplied with power by a wireless manual operation of a user, and is configured to be compatible with existing products by allowing the use of a general lamp product on the market. Lose.

Here, the user's wireless manual operation means that the user can turn on / off the light by operating a button input or a screen touch using a device capable of remote communication with the light such as a remote controller or a smart phone. Means direct control.

Next, the wireless motion detection sensor 200 is provided in the lamp 100, and transmits a motion detection signal to a semi-automatic switch to be described below when the movement of a person or object is detected in the motion recognition range of the detection area. do.

The wireless motion detection sensor 200 may use a conventional general sensor, and may be provided integrally connected to the lamp 100 in the manufacturing step and additionally installed in accordance with the user's request to the lamp 100 already installed. Can also be installed.

Next, the semi-automatic switch 300 is provided with a timer 310 therein, when the motion detection signal is not received for a predetermined time input to the timer 310 in the state that the lamp 100 is turned on, By shorting a relay for transmitting electrical energy to the lamp 100, the lamp 100 is switched to the power saving mode.

Since the semi-automatic switch 300 performs a key function for blocking the source of neglected power, the principle will be described in more detail below.

Semi-automatic as used in the present invention means a method that is operated according to the on / off algorithm shown in FIG.

In other words, as the semiconductor has the properties of the conductor under certain conditions and the properties of the insulator under the opposite conditions, the present invention is a fusion of the advantages of the automatic method and the manual method in the field of lighting lamps. It is operated in an automatic manner to compensate for the 'forgetting to turn off the user', and in another specific condition is to operate in a manual manner to compensate for the 'lamp automatically turns on even when unnecessary situations'.

Specifically, assuming that the state in which the lamp 100 is currently operating as the initial state, the semi-automatic switch 300 connected to the lamp 100 is provided with a timer 310 and the timer 310 is wireless operation detection The time is continuously counted until the motion detection signal is received from the sensor 200.

First, when the motion detection signal is received before reaching the preset completion time, the timer 310 initializes the time count, and the lamp 100 continues to be turned on as long as this initialization is repeated. do.

In other words, the lamp 100 in this state is basically set to the automatic method, and exhibits the same performance as the automatic method as long as the motion detection signal is continuously received.

On the contrary, when the motion detection signal is not received until a preset completion time, the semi-automatic switch 300 cuts off the short circuit of the relay and accordingly, the lamp 100 is switched to a power saving mode state in which the lamp 100 is turned off.

In this state, the lamp 100 is operated in a completely manual manner, and thus, even if the semi-automatic switch 300 receives any motion detection signal from the wireless motion detection sensor 200 until there is an external input of the user. It will never turn on.

In order to turn on the lamp 100 in the power saving mode again, the user must directly input the wireless / remote manual operation. Thus, the manual method in the power saving mode and the automatic method in the ON state are converged. The semi-automatic method was born.

According to the above-described principle, the lamp having the wireless semi-automatic switch includes the semi-automatic switch (no matter what motion detection signal is received from the wireless motion detection sensor 200 after the lamp 100 is switched to a power saving mode). 300 maintains a shorted relay.

Accordingly, the power saving mode of the lamp 100 is continued until there is a wireless manual operation of the user.

4 is a flowchart illustrating an on / off algorithm of a lighting lamp according to an exemplary embodiment of the present invention. Hereinafter, the semi-automatic switch 300 will be described in more detail with reference to FIG. 4.

First, when the motion detection signal is received from the wireless motion detection sensor 200 before the setting time of the timer 310 is completed while the lamp 100 is turned on, the timer 310 is initialized for each reception. By doing so, the relay for transmitting the electrical energy to the lamp 100 is maintained to be kept connected.

The semi-automatic switch 300 is turned off in the state where the lamp 100 is turned on by shorting the relay when the set time of the timer 310 is completed when the motion detection signal is not received. To enter the power saving mode.

Accordingly, when the semi-automatic switch 300 is in the power saving mode state in which the lamp 100 is turned off, the motion detection received from the wireless motion detection sensor 200 is not received unless an input signal by a user's wireless manual operation is received. Regardless of the signal, the relay is kept short-circuited.

On the other hand, in the power saving mode, the user can remotely connect the short-circuit relay of the semi-automatic switch 300, wireless communication is possible with the semi-automatic switch 300, such as a remote control or a smart phone equipped with a manual operation function The wireless input unit 500 is provided.

At this time, in the present invention, although the remote control or a smart phone as an example of the type of the wireless input unit 500, if using the principle of the semi-automatic switch 300, which is a core component, can achieve the object and function of the present invention Other embodiments using other wired or wireless input devices within the scope may be considered equivalent to the present invention.

Hereinafter, another embodiment of the method of reconnecting the shorted relay in the power saving mode state without using the wireless input unit 500 will be described.

First, instead of the wireless manual operation of the user, the lamp 100 in the power saving mode may be configured to allow the user to reconnect the shorted relay of the semi-automatic switch 300 through the wired wall switch.

That is, the wired wall switch may be installed in parallel or in addition to the case where the wireless manual operation of the user may not be possible due to the failure of the wireless input unit 500, or by installing only the wired wall switch without the wireless input unit 500. Like a general lighting of the user can be configured to control the manual ON (on) by touching the wire wall switch directly.

3 is a circuit diagram showing an electronic circuit of a wireless motion detection sensor according to the present invention, Figure 5 is a flow chart for the on / off algorithm of the lamp according to another embodiment of the present invention.

3 and 5, the controller 400 includes a motion degree determining unit 410 and a mode switching determining unit 420.

Here, the motion degree determining unit 410 detects the voltage value of the motion detection signal received from the wireless motion detection sensor 200 by the wireless motion detection sensor 200 by comparing the voltage value of the motion detection signal with a preset voltage table. Quantitatively determine the magnitude of the magnitude of the movement.

Alternatively, the current value of the motion detection signal received from the wireless motion detection sensor 200 may be compared with a preset current table according to the configuration of the circuit diagram. In this case, the magnitude of the magnitude of the detected motion is large and small. Quantitative judgment is based on numerical values.

In the following, a detailed description will be given by taking voltage values as an example, but according to the configuration of the circuit diagram, the current value may be used as a measure of a motion detection signal. The description will be omitted.

That is, when determining the degree of magnitude and smallness of the detected movement using the current value instead of the voltage value, the voltage may be replaced with a current, the voltage table with a current table, and the reference voltage with a reference current.

Meanwhile, the voltage table herein refers to a table that records measured voltage values for representative operations based on the detected radius of motion and how fast the radius of the motion changes during a unit time.

In this case, since different voltage values may be displayed for the same motion for each electronic circuit of the motion detection sensor used in the market, the present invention does not provide a table in which a specific voltage value is recorded, and the magnitude of the motion generated in the specific motion. The present invention can be applied to various other products by using the speed and the speed as a criterion of 'large motion'.

In this case, the motion degree determining unit 410 may set the reference voltage and the reference current as the voltage or current value when the motion of the indoor activity in the daily life is detected.

In detail, the motion degree determining unit 410 detects a voltage / current value when a motion of a person walking at a speed of 0.8 to 1 m / s is detected at a distance of 1.5 to 2 m from the wireless motion detection sensor 200. You can use the reference voltage / current, as well as other activities such as running a vacuum cleaner in a living room or room, cooking in the kitchen, squat, push-ups, sit-ups, or light exercise such as yoga. May be included in the category of indoor activities.

The criterion of the degree of small and large for such a movement can be adjusted according to the space in which the lamp equipped with the wireless semi-automatic switch according to the present invention is used and the daily activity of users located in the space, and by changing the reference voltage, It is possible to adjust the reference value for distinguishing between 'movement' and 'movement not big motion'.

The reference voltage will be described in detail with reference to the circuit diagram of FIG. 3.

In the present invention, the reference voltage is changed as the resistance value designed between the output terminal and the negative input terminal of the amplifier in the electronic circuit constituting the wireless motion sensor 200, the resistance The value of the voltage value and the sensitivity of the wireless motion detection sensor 200 is set differently in proportion to the value.

For example, in the circuit diagram of FIG. 3, the magnitude of the detected operation is determined by measuring a voltage value proportional to the magnification of the resistor R31 (= 18 KΩ) and the resistor R26 (= 1.8 MΩ). (Default magnification = R26 / R31 = 1.8M / 18K = 100)

That is, in the circuit diagram of FIG. 3, the magnification 100 is the default value, and the default meaning is the resistance value in the power saving mode.

In this case, when the value of the resistor R26 is adjusted and converted to 0.9 MΩ, the voltage is measured at a value proportional to 50 magnification, so that the sensitivity can be adjusted small for the same operation size. (Magnification after adjustment = R26 / R31 = 0.9M / 18K = 50)

On the contrary, when the value of the resistor R26 is adjusted to 3.6 MΩ, the voltage is measured at a value proportional to the magnification 200, so that the sensitivity can be greatly adjusted for the same operation size. (Magnification after adjustment = R26 / R31 = 3.6M / 18K = 200)

Using this principle, the resistance value is set higher than the default value (resistance value in the power saving mode state) when the lamp 100 is turned on.

Accordingly, by increasing the sensitivity of the wireless motion detection sensor 200, even if a small movement is detected within the motion recognition range of the wireless motion detection sensor 200 can generate a motion detection signal.

On the contrary, in the power saving mode state in which the lamp 100 is turned off, the resistance value is set back to the default value so that the sensitivity of the wireless motion detection sensor 200 is restored to the initial state.

After the sensitivity of the wireless motion sensor 200 is restored to an initial state (sleep mode), when a voltage value equal to or less than the reference voltage is measured, it is determined that the detected motion is not a large motion and no signal is generated. Don't let that happen.

Accordingly, the large motion determination signal is generated by the mode switching determination unit 420 only when a large motion according to the reference voltage is detected. In this state, the wireless motion detection sensor 200 is not required for unnecessary movement. It will not respond.

Meanwhile, when a voltage having a value higher than the reference voltage is measured, it is determined that the detected motion is a large motion and transmits a signal indicating that a large motion is detected to the mode switching determination unit 420.

That is, when the mode switch determining unit 420 receives a signal determined to be a large movement from the motion degree determining unit 410 in the power saving mode state in which the lamp 100 is turned off, the mode switching determining unit 420 generates a large operation determination signal and semi-automatically. The short circuit relay of the switch 300 is controlled to be connected again.

Therefore, when the lamp 100 is turned on, the wireless motion detection sensor 200 detects a daily movement or a smaller movement than that, so that the timer 310 of the semi-automatic switch 300 is controlled by the daily movement in the room. Continued to be initialized it is possible to keep the relay that delivers the electrical energy to the lamp 100 is continuously connected.

In addition, after the lamp 100 is turned off, the wireless motion detection sensor 200 allows only the larger motion than the daily movement to be sensed, so that the lamp 100 such as curtains, paper, and robot cleaners scattered in the wind again. It is possible to prevent a situation in which it is not necessary to be turned on unnecessarily when it does not need to be turned on.

Furthermore, even when the wireless input device 500 such as a remote controller or a smart phone is not in the vicinity or lost, the user can take a large operation without turning it on so that the user can temporarily turn on the light 100 in the power saving mode.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: lighting 200: wireless motion detection sensor
300: semi-automatic switch 400: control unit
500: wireless input unit

Claims (5)

Illumination lamp 100 is supplied with electrical energy from the power supply is supplied by the wireless manual operation of the user;
A wireless motion detection sensor 200 provided in the lamp 100 and transmitting a motion detection signal to a semi-automatic switch when a motion of a person or a thing is detected in a motion recognition range of a detection area;
When the timer 310 is provided therein and the motion detection signal is not received for a preset time input to the timer 310 while the lamp 100 is turned on, a relay for transmitting electrical energy to the lamp 100 is provided. A semi-automatic switch 300 to short-circuit the lamp 100 to be switched to a power saving mode;
After the lamp 100 is switched to the power saving mode, the semi-automatic switch 300 maintains a shorted relay, no matter what motion detection signal is received from the wireless motion detection sensor 200, thereby allowing the user to wirelessly operate manually. Until this is to continue the power saving mode of the lamp 100,
The wireless input unit such as a remote control or a smart phone capable of wireless communication with the semi-automatic switch 300 and a manual operation function so that the user can remotely reconnect the short-circuit relay of the semi-automatic switch 300 in the power saving mode. 500 is provided,
The voltage value of the motion detection signal received from the wireless motion detection sensor 200 is compared with a preset voltage table, or the current value of the received motion detection signal is compared with a preset current table. A motion degree determination unit 410 for quantitatively determining the magnitude of magnitudes of the motions detected by the wireless motion detection sensor 200 quantitatively;
When receiving a signal determined to be a large movement from the motion degree determining unit 410 in the power saving mode state in which the lamp 100 is turned off, the short-circuit relay of the semi-automatic switch 300 is connected again by generating a large motion determination signal. Further comprising; a control unit 400 composed of a mode switching determination unit 420 to control to be,
The motion degree determination unit 410 as a reference voltage and a reference current value of the voltage or current when detecting the movement of the degree of activity in the room in everyday life, respectively,
When a voltage / current value equal to or less than the reference voltage / reference current is measured, it is determined that the detected motion is not a large motion, and no signal is generated.
When the voltage / current of a value higher than the reference voltage / reference current is measured, it is determined that the detected motion is a large motion, and a signal indicating that a large motion is detected is transmitted to the mode switching determination unit 420.
The reference voltage / reference current is
As the resistance value designed between the output terminal of the amplifier and the (−) input terminal in the electronic circuit constituting the wireless motion detection sensor 200 is changed, the voltage / current value is proportional to the resistance value. And accordingly the sensitivity of the wireless motion detection sensor 200 is set differently,
In the state where the lamp 100 is turned on, the resistance value is set higher than the default value (resistance value in the power saving mode state), so that the sensitivity of the wireless motion detection sensor 200 is increased, whereby the wireless motion detection sensor 200 Even if a small movement is detected within the motion recognition range of, it generates a motion detection signal.
In the power saving mode state in which the lamp 100 is turned off, the resistance value is set back to the default value, so that the sensitivity of the wireless motion detection sensor 200 is restored to the initial state, whereby a large motion according to the reference voltage / reference current has been detected. Only when the mode switching determination unit 420 is a light having a wireless semi-automatic switch characterized in that a large operation determination signal is generated.
The method of claim 1,
The semi-automatic switch 300
If the motion detection signal is received from the wireless motion detection sensor 200 before the setting time of the timer 310 is completed while the lamp 100 is turned on, by initializing the timer 310 for each reception, The relay for transmitting electrical energy to the lamp 100 is to be kept connected continuously,
If the set time of the timer 310 is completed in the state in which the motion detection signal is not received, the relay is shorted to switch to the power saving mode state in which the lamp 100 is turned off.
Accordingly, in the power saving mode state in which the lamp 100 is turned off, the relay is irrespective of the motion detection signal received from the wireless motion detection sensor 200 unless an input signal by a wireless manual operation of the user is received. Wireless semi-automatic switch equipped with a light, characterized in that to keep the short circuit.
3. The method according to claim 1 or 2,
In place of the wireless manual operation of the user, the wireless light semi-automatic switch, characterized in that configured to enable the user to reconnect the short-circuit relay of the semi-automatic switch 300 through the wired wall switch Equipped lighting.
The method of claim 1,
The reference voltage / reference current is
When the motion degree determination unit 410 detects the movement of a person walking at a speed of 1m / s at a distance of 1.5m to 5m away from the wireless motion detection sensor 200, characterized in that the wireless Lamp with semi-automatic switch.
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