KR100912004B1 - Multi-tab for cutting off the standby-power and method for cutting off the standby-power using the multi-tab - Google Patents

Abstract

According to the present invention, when the power is turned off, the power of the home appliance is completely cut off, and thus all the products connected thereto can be saved, thereby automatically saving standby power that is discarded without being used in a home or office. A standby power cutoff multi-tap, comprising: a standby power detector (6) for detecting standby power flowing into a home appliance through a plug connected to an outlet (11) to generate a standby power value; A current sensing unit 3 which detects these current values and generates a detection signal according to the operation of the home appliances which are plugged into the outlet 11; When the power is supplied from the power supply unit by the ON operation of the switch and the standby power value is greater than the current value by comparing the standby power value generated by the standby power detector 6 with the current value generated by the current detector 3. A microcomputer 5 generating a power off signal; It relates to a standby power cut-off power strip, characterized in that it comprises a relay 10 for shutting off the power to the outlet 11 by the power cut signal.

Standby power, switch, outlet, microcomputer, power strip

Description

Standby Power Blocking Multi-tap and multi-tap method for standby power off {MULTI-TAB FOR CUTTING OFF THE STANDBY-POWER AND METHOD FOR CUTTING OFF THE STANDBY-POWER USING THE MULTI-TAB}

1 is an overall perspective view of a standby power cut-off power strip of the present invention;

2 is a block diagram illustrating an internal circuit of the standby power cut-off power strip of FIG. 1;

3 is an overall flowchart of a standby power blocking method using a multi-tap of the present invention.

* Description of the main parts of the drawings *

1: power supply part 2: rectification part

3: current detecting unit 4: electric leakage detecting unit

5: micom 6: standby power detection unit

7 switch 8 display unit

9: RF receiver 10: relay

11: outlet 15: remote control

The present invention relates to a standby power cut-off outlet for cutting off standby power flowing into a home appliance connected to a home power strip.

While electronics are plugged in, power that constantly leaks while it's not working is often called standby power.

However, as this standby power has been recognized as the main culprit of power wastage in recent 2-3 years, it has earned the nickname of “Power Vampire” in developed countries. .

VCR. TV. Microwave. dish washer. Cell phone chargers have more power to be sent in a standby state that is connected to a power source but does not perform a function than the time required to perform a device.

Think about how many hours a day you use your home microwave.

According to the International Energy Agency (IEA), 10-15% of the average power consumption of OECO member countries is consumed by standby power, and in Japan, 12% of annual power consumption is consumed by standby power. Is shown.

In developed countries, most electronic products, such as VCRs in living rooms, cable set-top boxes, hair dryers in bathrooms, electric shavers, and microwaves in kitchens, are plugged into outlets while the user is away from home, and energy is lost to standby power. As the arrow is returning to the Asian electronics companies that mainly produce these devices, it shows that the domestic electronics companies, which are wasting energy by allowing standby power to be consumed without any neglect, are simply uneasy.

If design, function, price, brand, etc. are the criteria for purchasing electronic products, standby power will be the standard to decide whether to sell to the market earlier.

An object of the present invention for solving the above problems, the present invention relates to a standby power blocking multi-tap that cuts off the standby power by detecting a standby state that does not perform the inherent function of the load device to short-circuit the power.

The present invention for achieving the above object, in the multi-tap, standby power sensing unit for detecting the standby power flowing into the home appliance through a plug connected to the plurality of outlets 11 to generate a standby power value (6) )Wow; A current sensing unit 3 which detects these current values and generates a detection signal according to the operation of the home appliances which are plugged into the outlet 11; When the power is supplied from the power supply unit by the ON operation of the switch and the standby power value is greater than the current value by comparing the standby power value generated by the standby power detector 6 with the current value generated by the current detector 3. A microcomputer 5 generating a power off signal; It is achieved by the standby power off power strip characterized in that it comprises a relay 10 for shutting off the power to the outlet 11 by the power off signal.

In addition, according to the present invention, the microcomputer 5 is connected to an electrical leak detecting unit 4 for detecting whether the power supply unit 1 is short-circuited at one side thereof, and the microcomputer 5 is leaked from the electrical leak detecting unit 4. When the signal is received, it is preferable that the power of the power supply unit 1 is not transmitted to the outlet 11 through the relay 10.

In addition, in the present invention, the microcomputer 5 is connected to the RF receiver 9 at one side thereof, and is preferably supplied with power from the power supply unit by receiving an ON operation command of the switch through the remote controller 15.

In addition, in the present invention, the microcomputer 5 is connected to the display unit 8 at one side thereof, and when the microcomputer 5 emits the light emitting diode of the display unit 8 when the power supply state is in the standby power cutoff state. It is preferable to flash the light emitting diode.

In addition, in the standby power blocking method using a multi-tap, the microcomputer 5 receives the ON signal for power supply from them by the operation of the switch 7 or the remote controller 15, thereby the power supply unit (1) Power supply step (S10) is supplied to the outlet 11 through the relay 10; Standby power detection step (S20) for detecting the standby power in the standby power detector (6) as the standby power flowing into the home appliance in the operation stop state through the plug plugged into the outlet (11); A home appliance operating step (S30) in which the home appliance is operated while the microcomputer 5 memorizes the standby power value; A power supply and current sensing step (S40) of measuring the current value supplied from the current sensing unit 3 to the home appliance and transferring it to the microcomputer 5; When the measured current value is smaller than the initial standby power value (S50), it is preferable that the microcomputer 5 is constituted by a power cutoff step (S60) that cuts off the power supply to the outlet 11 through the relay 10. .

In addition, the present invention, in the power supply step (S10), the ground fault detecting unit 4 detects whether the ground fault from the power supply unit 1, and when the ground fault occurs, the ground fault signal to the microcomputer 5 according to the microcomputer 5 It is preferable to cut off the power supply to the outlet 11 through the relay (10).

In addition, the present invention compares the measured current value and the initial standby power value (S50), when the measured current value is greater than the standby power value, the power supply and current sensing step of continuously supplying power to the outlet 11 (S40) It is preferable to return to).

In addition, the present invention preferably returns to the power supply step (S10) after performing the power cut step (S60).

Hereinafter, embodiments of the standby power cut-off power strip and the standby power cut-off method using the power strip will be described in detail with reference to the accompanying drawings.

1 is an overall perspective view of the standby power cut-off power strip of the present invention, FIG. 2 is an internal circuit diagram of the standby power cut-off power strip of FIG. 1, and FIG.

As shown in the figure, the standby power cut-off power strip of the present invention includes a plurality of outlets 11 and a remote controller 15 for remotely controlling the power operation of the outlets 11.

The outlet 11 has an insertion part of a general standard for plugging in a home appliance, a power supply switch 7 for allowing a current to flow in the outlet 11, and a display unit 8 for checking the power supply state. Is coupled to the formed housing.

The rear of the outlet 11 of the housing is connected to the wall outlet plug is connected to receive power.

The switch 7 or the remote controller 15 supplies power to the home appliance through a plug plugged into the insert according to the ON operation, and cuts power to the plug from the insert 11 according to the OFF operation. Let's go.

The display unit 8 indicates whether the power supply state or the standby power cut-off state, and a light emitting diode part indicating the operation state is built into the housing. When the power supply state, the display unit 8 emits light and the standby power cut-off state. If the LED flashes.

In order to perform the power supply and standby power cut-off operation, the circuit configuration as shown in FIG.

As shown in the figure, the standby power cut-off outlet of the present invention is a power supply unit 1, rectifier 2, current detection unit 3, earth leakage detection unit 4, microcomputer 5, standby power detection unit 6 And a switch 7, a display unit 8, an RF receiver 9, a relay 10, an outlet 11, and a DIP switch 12.

The power supply unit 1 supplies power to the outlet 11 through the relay 10.

In addition, the power supply unit 1 transmits AC power to the rectifier 2 to easily supply power to the microcomputer portion 5, and the rectifier 2 rectifies the transmitted power and transfers it to the microcomputer 5.

The ground fault detecting unit 4 detects whether there is a leakage current from the power supply unit 1, and thus transmits a ground fault signal to the microcomputer 5 when a leakage current occurs.
The current detection unit 3 detects these current values when using the home appliances that are plugged into the outlet 11 and transmits the detection signals accordingly to the microcomputer 5.

The standby power detector 6 detects standby power generated in an initial state in which a plug of a home appliance is plugged into the outlet 11, and transmits the standby power value to the microcomputer 5.
In this case, the standby power detection unit and the current detection unit have the same configuration, and are described differently so as to distinguish and classify the standby power value and the current value among the currents transferred from the outlet to the microcomputer.
That is, the current sensing unit and the standby power sensing unit 6 are current sensing units consisting of a current sensor CT, a diode, a smoothing capacitor, a zener diode, and a resistor, and the home appliances in which the current transformer CT is connected to an outlet. It functions to detect the current of the loads in proportion to the power supplied to the diode, and the diode and the smoothing capacitor rectify and convert the current of the detected loads into a direct current signal, so that the currents of the loads detected through the resistance are converted into voltages. It enters the AD converter. At this time, the input voltage to the AD converter protects the microcomputer through the zener diode so as not to exceed 5V.
That is, it converts the current flowing through the current transformer (CT) into a voltage and compares it with the microcomputer.In this case, when the current value is small, the voltage input to the AD of the microcomputer is low, so it is determined that the standby power or off mode of the home appliance is If the current value is large, it is judged that the home appliance is in use because the voltage input to the AD of the microcomputer is high.
Therefore, when the load is not used, it is judged as standby power because the voltage is low, and when the load is used, it is judged as the load power and the power is supplied to and disconnected from the outlet.
In the microcomputer, it is determined whether to use the home appliance by comparing the voltage coming into the AD through the current transformer (CT), but the principle is that the current transformer (CT) detects the current, so that it can be judged by comparing the current. Therefore, since the standby power or the load power is determined, the standby power can be compared and judged.
The switch 7 is a switch part capable of turning on / off the main power by itself, and transmits a signal to the microcomputer 5 to turn on / off the power supply 220V to the outlet 11.

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The RF receiver 9 may receive the ON / OFF signal from the RF remote controller regardless of the direction, and the signal transmitted to the RF receiver 9 is transmitted to the microcomputer 5 so that the switch unit ( Performs the same function as the signal in 7).

The relay 10 is ON / OFF in response to the command from the microcomputer 5 and applies a power source 220V to the outlet 11 as it becomes ON.

The DIP switch 12 is a switch for adjusting the time to cut off the power supply of the outlet 11 when the standby power flows.

The microcomputer 5 is supplied with power through the rectifier 2, a current value from the current sensing unit 3, an electrical leakage signal from the ground fault detecting unit 4, and standby air from the standby power detecting unit 6. Receives an ON / OFF signal from the power value, the switch 7 and the RF receiver 9.

The microcomputer 5 receiving the above signals controls the relay 10 according to the value to open and close the power supply circuit of the outlet 11.

That is, when the earth leakage signal of the earth leakage detection unit 4 is received, the power of the power supply unit 1 is not transmitted to the outlet 11 through the relay 10, and the current value from the current detection unit 3. When receiving the relay 10 to turn on the power of the power supply unit (1) to be delivered to the outlet (11) to operate the home appliances.

In addition, when the standby power value from the standby power detection unit 6 is received and stored, and is equal to or greater than the current value from the current detection unit 3, the relay 10 is turned off to turn on the current to the outlet 11. Does not flow.

In addition, when the power is supplied to the outlet, the light emitting diode of the display unit 8 is turned on and the light emitting diode is turned off according to the standby power blocking state.
In this case, when using an individual outlet, that is, using only one product per household, it is determined whether to use the product of the home appliance, and the power is supplied to and disconnected from the outlet. When using a multi-tap, a plurality of electronic products can be used, but the standby power of each home appliance is not known.
However, when power is supplied to the output of the standby power cut-off outlet, the voltage value that enters the AD from the microcomputer is memorized at first, and when the home appliances such as TV, audio, and DVD are used, the voltage of the AD is high and the load is used. If it is judged by the microcomputer and the load is not used, the microcomputer determines that the load is not used because the voltage input to AD is the same as when the power was initially supplied.
Therefore, when a plurality of magnets are connected through a plurality of outlets, the standby power of each home appliance may not be known, but the overall standby power may be known.

3 is a flowchart illustrating a standby power blocking method using an outlet of the present invention.

As shown in the figure, first, a power supply step (S10) of checking whether a power supply is performed is performed.

In the power supply step S10, the microcomputer 5 receives an ON signal for power supply from the microcomputer 5 through the operation of the switch 7 or the remote controller 15, and thus the power of the power supply unit 1 is relayed. It is a state which is supplied to the outlet 11 via (10).

At this time, the ground fault detecting unit 4 detects a ground fault from the power supply unit 1 and transmits the ground fault signal to the microcomputer 5 when a ground fault occurs, so that the microcomputer 5 is connected to the outlet through the relay 10 ( 11) Cut off the power supply.

In addition, when the switch 7 is in the OFF state, the microcomputer 5 issues an OFF command to the relay 10 so that the power supply to the outlet 11 is cut off, thereby completing the process of the standby power blocking method using the outlet of the present invention. do.

When power is supplied to the outlet 11 by the power supply step (S10), the standby power flows into the home appliance in the stopped state through the plug plugged into the outlet 11, and thus the standby power is standby power. The standby power sensing step S20 detected by the sensing unit 6 is performed.

In this step, as the standby power sensor 6 measures the standby power value, which is an initial value, and transmits the standby power value to the microcomputer 5, the microcomputer 5 stores the standby power value.

When the microcomputer 5 performs the home appliance operating step (S30) in which the home appliance is operated while the standby power value is stored, the current value supplied from the current sensing unit 3 to the home appliance is measured. The measurement is performed to the power supply and current sensing step (S40) to deliver it to the microcomputer (5).

At this time, the measured current value and the initial standby power value are compared (S50). If the measured current value is larger than the initial standby power value, the power supply and current continuously supplying power to the outlet 11. Return to the detection step (S40).
In addition, when the measured current value is not greater than the standby power value stored in the microcomputer 5 (S50), that is, when the first standby state is not supplied to the home appliance, the microcomputer 5 determines this. The power cutoff step S60 is performed to cut off the power supply to the outlet 11 through the relay 10. After performing the power cutoff step S60, the switch is returned to the power supply step S10 again. Otherwise, the entire process of the standby power blocking method using the multi-tap of the present invention is completed.
In this case, when the standby power value is the same as the power value, only the standby power flows because all of the initial home appliances are connected to the outlet when the operation is stopped. In other words, when using a power strip (stand with a power switch), a TV, and audio, the initial standby power value is minimum when power is supplied to the standby power cutoff output when all the appliances are turned off. do. If you turn off all three of your home appliances, the standby power value will be the same as the initial standby power value.
If the power value is smaller than the standby power value, the stand lamp is turned on when the power is supplied after the power switch of the stand is turned ON under the same conditions. It is the sum of stand-by power and standby power of TV and audio.

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Since the standby power value is maximized when using TV and audio, the standby power value becomes smaller than the initial standby power value when the stand, TV, and audio are all turned off after use.

As described in detail above, the standby power cut-off outlet of the present invention, unlike the existing product, completely cuts off the power of home appliances when the power is turned off, and thus all products can be 'saved'. Therefore, you can save power while in use by automatically cutting off standby power that is not used in your home or office.

In addition, the plug is automatically pulled out in case of leakage current, preventing fire, overload and overcurrent, and extending the life of expensive electric and electronic devices.

Although the technical idea of the standby power cut-off outlet of the present invention and the standby power cut-off method using the outlet has been described with the accompanying drawings, this is by way of example and not by way of limitation. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (8)

In the power strip, A standby power detector 6 which detects standby power flowing into a home appliance through a plug connected to a plurality of outlets 11 and generates a standby power value; A current sensing unit 3 which detects these current values and generates a detection signal according to the operation of the home appliances which are plugged into the outlet 11; The power is supplied from the power supply unit by the ON operation of the switch, and the standby power value is not smaller than the current value by comparing the standby power value generated by the standby power detector 6 with the current value generated by the current detector 3. A microcomputer 5 for generating a power off signal; Standby power cut-off power strip characterized in that it comprises a relay (10) for shutting off the power to the outlet (11) by the power cut signal. The method of claim 1, The microcomputer 5 is connected to an electrical leak detecting unit 4 that detects a short circuit of the power supply unit 1 on one side thereof, so that the microcomputer 5 receives an electrical leak signal from the electrical leak detecting unit 4. The standby power cut-off power strip, characterized in that when the power of the power supply unit 1 is not transmitted to the outlet 11 through the relay (10). The method of claim 1, The microcomputer (5) is connected to the RF receiving unit (9) on one side thereof, standby power cut-off power strip characterized in that the power is supplied from the power supply by receiving the ON operation command of the switch via the remote control (15). The method of claim 1, The microcomputer 5 is connected to the display unit 8 at one side thereof. When the microcomputer 5 is in a power supply state, the microcomputer 5 emits light emitting diodes of the display unit 8 and blinks when the standby power is cut off. Standby power cut off power strip characterized in that. In the standby power blocking method using a power strip, The microcomputer 5 receives the ON signal for power supply from the operation of the switch 7 or the remote controller 15, and thus the power of the power supply unit 1 is connected to the outlet 11 through the relay 10. A power supply step (S10) supplied to the; Standby power detection step (S20) for detecting the standby power in the standby power detector (6) as the standby power flowing into the home appliance in the operation stop state through the plug plugged into the outlet (11); A home appliance operating step (S30) in which the home appliance is operated while the microcomputer 5 memorizes the standby power value; A power supply and current sensing step (S40) for measuring the current value supplied from the current sensing unit 3 to the home appliance and transferring it to the microcomputer 5; If the measured current value is not greater than the initial standby power value (S50), the microcomputer 5 is configured to cut off the power supply to the outlet 11 through the relay 10 is characterized in that the power cut step (S60) Standby power blocking method using a power strip. The method of claim 5, In the power supply step (S10), the ground fault detecting unit 4 detects a ground fault from the power supply unit 1, and when a ground fault occurs, the ground fault signal is transmitted to the microcomputer 5, the microcomputer 5 relay ( 10) the standby power cut-off method using a power strip, characterized in that to cut off the power supply to the outlet (11) through. The method of claim 5, Comparing the measured current value with the initial standby power value (S50), if the measured current value is greater than the standby power value to return to the power supply and current sensing step (S40) to continuously supply power to the outlet (11) Standby power blocking method using a multi-tap characterized in that. The method of claim 5, Standby power cutoff method using a multi-tap characterized in that back to the power supply step (S10) after performing the power cut step (S60).

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