KR20110071397A - Electric outlet apparatus for intercepting standbypower and method of thereof - Google Patents

Abstract

PURPOSE: An automatic standby power shutdown outlet and a standby power shutdown method are provided to automatically turn on or off outlet power in case an electric device is attached or detached. CONSTITUTION: If the plug of an electric device is inserted, a switching unit(3) is automatically switched on. A current measurement sensor(6) measures the current amount of the electric device from the inserted plug. The state of the electric device is kept within a range in which a current value exceeds the predetermined range of the minimum current value. The state of the electric device is determined as a standby state. A controller(9) secludes standby power to the electric device through TRIAC(7).

Description

Automatic outlet apparatus for intercepting standby power and method of

The present invention relates to an outlet for automatically shutting off standby power, and in detail, the on / off switching of the power supply automatically according to the attachment / detachment of the electric using device, and the electric using device is a certain range of the minimum current value. The present invention relates to a standby power automatic shut-off outlet and standby power blocking method for blocking standby power by determining the standby state if the predetermined time is maintained within the range exceeding the state.

The outlet device is a device that receives power from the main outlet and supplies power to electronic devices such as TVs, audios, DVDs, fans, and the like that require power through a plurality of sockets.

If the electronic device is connected to an outlet device that is turned on, standby power is continuously consumed even when the electronic device is turned off. Therefore, to save power, the electronic device must be removed from the outlet device or the power supply of the outlet device must be cut off. However, this is very cumbersome, so users usually know that standby power is being consumed, but still keep their electronics and outlets connected.

In accordance with this problem, a power-saving outlet device has been proposed to automatically detect when an electronic device is turned off and to block standby power by blocking the connection of the outlet device and the electronic device. However, these devices also have the inconvenience of having to go through the setting operation to memorize the current value when the device is turned on and the current value when the device is turned off through a switch operation every time the electronic device is connected, and even when the device is changed and connected. There was the inconvenience of having to remember the new values manually.

  In addition, the conventional standby power cut-off switch consumes a small amount of power in standby mode, but waits for a signal when the electronic device is used again, but continues to be small even when the power cord of the electronic device is not connected. There was a disadvantage in that it was consumed, and in order to use it again when the standby power was cut off, it was disadvantageous that it could be used only by directly operating a switch or restoring power to the outlet through a remote controller.

An object of the present invention is to provide an automatic standby power outlet and standby power blocking method for automatically shutting off standby power.

Another object of the present invention is to provide a standby power automatic shut-off outlet and standby power cut-off method for automatically turning on / off the outlet power when the electric device is attached or detached.

Still another object of the present invention is to provide a standby power automatic shut-off outlet and standby power blocking method for automatically cutting off standby power by determining the standby power state when measuring a current amount when a current is connected and maintaining a minimum current value when the electric device is connected. Is in.

Still another object of the present invention is to automatically turn off the standby power outlet and standby to automatically restore power when a request for the use of an electric device is repeated by switching on and off the AC voltage input when the standby power cut-off state is connected to the electrical use device. It is to provide a power off method.

The standby power automatic shut-off outlet according to the present invention receives the commercial AC power from the AC input terminal to supply power to the electrical use device through a plug, in the outlet for automatically shutting off standby power, the commercial AC power input A switching mode power supply (SMPS) for receiving and converting the DC power to the following control unit; A zero potential detection unit (zero cross) for detecting a potential point of +,-, 0 of the AC power supply and transmitting the detected potential point to the control unit; A triac for turning on / off the power of the electric device according to a control signal of the controller; When the plug of the electrical device is inserted, as the slide bar is pressed and moved to the plug pin, the contact is connected and automatically switched on, and the plug is detached and the plug pin is pulled out to return the slide bar to the original state by a spring. Switching unit for maintaining the switch off (OFF) state automatically off the contact; A current measuring sensor for measuring an amount of current of the electric using device from a plug inserted into the switching unit; And a controller configured to control standby power to the electricity use device through the triac when the electricity use device is maintained in a state within a range exceeding a predetermined range of the minimum current value by determining that it is in a standby state. It is characterized by.

As an example, the electronic device may further include a memory for temporarily storing the maximum current value and the minimum current value of the electric using device measured by the current measuring sensor.

As an example, the control unit may further include a wired / wireless network unit so as to transmit standby power cutoff state information and power usage state information of the outlet to a management system using a network.

As an example, when the standby power of the electricity use device is cut off, the control unit repeatedly controls the on / off of the supplied AC commercial AC power to be automatically disconnected when the power supply is requested to restore power. It is characterized by.

As one example, the range exceeding a predetermined range of the minimum current value of the electrical device is 2.5 times the minimum value.

The standby power blocking method of the standby power automatic shut-off outlet according to the present invention receives a commercial AC power input from the AC input terminal to supply power to the electrical use device through a plug connected to the outlet, to a method for automatically shutting off standby power The method may include: (a) changing a switch-on state while a contact of a switching unit is connected when a plug of the electric using device is inserted, so that power is supplied to a control unit; (b) measuring a maximum current value and a minimum current value of the electric utility device; And (c) determining the standby power state to cut off the standby power when the electricity use device is maintained within a predetermined range within a predetermined range of the minimum current value.

As an example, (d) it may further comprise the step of waiting for the power supply request by repeating the on / off of the supplied AC commercial AC power.

As an example, (e) the method may further include automatically recovering the power in the on state of the AC power which is repeated when the power supply request signal is transmitted from the electricity use device.

As an example, (f) it is characterized in that it further comprises the step of automatically returning to the switching off (OFF) state as the switching additional contact falls when the plug of the electrical device is detached.

As an example, the step (a) is characterized in that the contact is connected and automatically switched on as the slide bar is pressed and moved to the plug pin when the plug of the electrical device is inserted.

As one example, step (c) is characterized in that the determination of the over-range within 2.5 times the minimum current value of the electrical device as a standby power state.

The present invention can automatically turn on / off the power of the outlet when the electrical device is attached or detached, and the electrical device is within a range exceeding a predetermined range of the minimum current value. If it maintains for a certain period of time, it can be regarded as standby power state and automatically cut off the standby power.After connecting the electricity use device, the power is automatically turned on when the electricity use request is repeated by repeatedly turning on / off the AC voltage input when the standby power is cut off. It has the effect of automatically recovering.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the automatic standby power outlet and standby power blocking method according to the present invention.

1 is a block diagram showing the configuration of an automatic standby power off outlet according to a preferred embodiment of the present invention.

As shown in FIG. 1, the standby power automatic shut-off outlet receives a commercial AC power from the AC input terminal 1, converts the AC power into DC power, and supplies a switched-mode power supply to the following control unit 9. supply, hereinafter 'SMPS' (4) and the control signal of the zero potential detection unit (zero cross) 5 and the following control unit 9 for detecting and transmitting potential points of +,-, 0 of the AC power supply to the control unit According to the triac (7) for turning the power (ON) / off (OFF) of the electrical device and the plug (10, see Figure 2a) of the electrical device is inserted plug pin 11, As the slide bar 20 (see FIG. 2A) is pressed and moved to the contact point, the contact is automatically switched on, and the plug 10 (see FIG. 2A) is detached and the plug pin 11, 2a), the slide bar is returned to its original state by the spring and the contact is Current measuring sensor for measuring the amount of current of the electrical device from the switching part 3 for automatically maintaining the switch off state and the plug 10 (see FIG. 2A) inserted into the switching part 3 (6) and the electric use device measured through the current measuring sensor 6 is determined to be in a standby state if it is maintained for a predetermined time within a range exceeding a predetermined range of the minimum current value through the triac (7) The controller 9 is configured to control to cut off standby power of the furnace, and a memory 8 for storing the minimum current value and the maximum current value of the connected electric using device may be further configured.

In addition, the wired / wireless network unit 10 may be configured to allow the control unit 9 to transmit the standby power cutoff state information of the outlet and the power use state information to the management system using a network.

The control unit 9 may transmit information on the power use state and standby power state of the electricity-using device through the wired / wireless network unit 10, and receive a control signal from a management system capable of wired / wireless network to the outlet. It is also desirable to be able to control the on / off of the connected electrical device.

The measured minimum current value and maximum current value may be stored in an internal memory (not shown) of the controller 9.

When the electrical device is connected to the output terminal (2), the contact that is separated from the switching unit 3 is connected to the switching ON state.

The SMPS 4 supplies power to the control unit 9 when the outlet is maintained in an ON state by the switching unit 3.

The control unit 9 supplied with power from the SMPS 4 receives the current value of the electric using device connected from the current measuring sensor 6.

The controller 9 checks the minimum current value and the maximum current value among the current values, checks the rated capacity of the connected electric using device, and determines the standby state by applying the standby current value corresponding to the minimum current value.

The controller 9 transmits a signal to cut off standby power through the triac 7, which is determined to be in a standby state when the electric using device is maintained within a range exceeding a predetermined range of the minimum current value.

The control unit 9 receives zero potential point information from the zero potential detection unit (Zero cross) 5 so as to repeatedly input the AC alternating voltage to a predetermined portion ON and a predetermined portion OFF.

In this case, power consumption may be further reduced by the time that the power is turned off while the standby power is turned off.

In addition, while repeating the on / off, when the power use signal of the electric using device is transmitted from the output terminal 2, the signal is automatically connected in the on state and the power is restored.

In addition, when another electric using device is connected, the minimum current value and the maximum current value received from the current measuring sensor 6 can be received to check the current value of the connected electric using device, and thus the standby current value is automatically reset. Can be.

2A to 2B are views illustrating a configuration of a switching unit of an automatic standby power cut-off outlet according to a preferred embodiment of the present invention.

2A to 2B, when the plug pin 11 of the plug 10 is inserted into the outlet 40, the inclined surfaces of the slide bar 20 are pressed and moved in the contact direction to be separated from the contact surfaces 21. 22 is connected to the switching ON state.

On the other hand, the first spring 31 is provided at the bottom of the slide bar 20 so as to keep the contact state smoothly, so that the contact point can be automatically dropped when the plug pin 11 is pulled out.

In addition, the contact surface 22 is pushed back slightly so that the pushing force is generated by the second spring 30 to maintain the contact state safely.

3 is a flowchart illustrating a standby power blocking method of an automatic standby power outlet according to a preferred embodiment of the present invention.

Referring to FIG. 3, when the electrical use device is connected to the outlet, the switch is automatically switched to the ON state, and power is supplied to the controller and the electrical use device (S300 and S302).

When the power supply to the electric using device is started and the power ON state is maintained for a predetermined time, the current measuring sensor 6 measures the current value of the electric using device (S304 and S306).

The minimum current value and the maximum current value of the electric using device are measured and temporarily stored, and the current value of the current state is measured to determine whether it is smaller than the minimum current value (S308).

As a result of the determination in step 308, if the measured current value is smaller than the minimum current value, the temporarily stored minimum current value is replaced and stored (S310).

As a result of the determination in step 308, it is determined whether the measured current value is maintained for a predetermined time in a state equal to the minimum current value or within a range exceeding a predetermined range of the minimum current value to determine whether the electric device is on or off. (S312).

As a result of the determination in step 312, if the measured current value is maintained for a predetermined time within a range equal to the minimum current value or more than a certain range, it is determined that the electrical use device as a standby power state to turn off the power (OFF).

On the other hand, the range exceeding the predetermined range of the minimum current value is preferably set to 2.5 times the minimum current value.

However, the range is not limited, and the excess range for determining the standby power state may be adjusted according to the power using device.

In addition, the reference of the time for which the measured current value is maintained within the range equal to the minimum current value or over a predetermined range may be set in minutes or in seconds to minimize power waste.

When the power use signal is input from the electricity use device while the standby power of the electricity use device is cut off, the on / off repetition state of the input AC AC voltage is maintained to automatically recover power and switch to the use state ( S314).

The current value is continuously measured while the power is connected, and the current is measured by repeatedly performing ON / OFF for the input power even when the standby power is cut off (S316). It determines whether it is larger than the range exceeding a predetermined range and waits for automatic power recovery (S318).

The current measured in standby power cutoff is simply measured for the ON / OFF function as opposed to distinguishing between the maximum and minimum current values.

This saves power by off-state time.

As described above, when the electricity use device is connected, the switching is automatically turned on, and power is supplied to the controller to receive the current value of the electricity use device measured from the current measuring sensor to receive the minimum current value and the maximum current. Determine the rated capacity of the electricity use device by grasping the value, and if the electricity use device is kept within a certain range exceeding a certain range of the minimum current value for a certain time, it is determined as the standby power state to cut off the standby power, AC AC input power By repeatedly performing the on / off with respect to the power amount as much as the time to be off can be reduced, and when the use signal from the electrical use device is connected to the signal in the on state can be automatically restored power.

This eliminates the need to manually turn the power on and off of the outlet, and automatically measures the standby power state by measuring the current value of each connected electrical device. On / off has the effect of reducing power consumption.

While the above has been shown and described with respect to preferred embodiments of the present invention, the present invention is not limited to the specific embodiments described above, it is usually in the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or prospect of the present invention.

1 is a block diagram showing the configuration of an automatic standby power off outlet according to a preferred embodiment of the present invention.

2a to 2b is a view showing the configuration of the switching unit of the standby power automatic shut-off outlet according to a preferred embodiment of the present invention.

3 is a flowchart illustrating a standby power blocking method of an automatic standby power outlet according to a preferred embodiment of the present invention.

Description of the Related Art [0002]

1: AC input terminal 2: Output terminal

3: switching unit 4: switching mode power supply (SMPS)

5: Zero potential detector (Z.C) 6: Current measuring sensor

7: triac 8: memory

9: control unit

Claims (11)

In the outlet for receiving commercial AC power from the AC input terminal and supplying power to the electricity-using device through the plug, and automatically shut off standby power, A switching mode power supply (SMPS) for receiving the commercial AC power and converting the DC power to a DC power supply; A zero potential detection unit (zero cross) for detecting a potential point of +,-, 0 of the AC power supply and transmitting the detected potential point to the control unit; A triac for turning on / off the power of the electric device according to a control signal of the controller; When the plug of the electrical device is inserted, as the slide bar is pressed and moved to the plug pin, the contact is connected and automatically switched on, and the plug is detached and the plug pin is pulled out to return the slide bar to the original state by a spring. Switching unit for maintaining the switch off (OFF) state automatically off the contact; A current measuring sensor for measuring an amount of current of the electric using device from a plug inserted into the switching unit; And And a controller for controlling to cut off standby power to the electricity use device through the triac when the electricity use device is maintained for a predetermined time in a state exceeding a predetermined range of the minimum current value. Standby automatic power outlet. The method of claim 1, And a memory for temporarily storing a maximum current value and a minimum current value of the electric using device measured by the current measuring sensor. The method of claim 1, And a wired / wireless network unit configured to allow the controller to transmit standby power cutoff state information and power usage state information of the outlet to a management system using a network. The method of claim 1, When the standby power of the electricity use device is cut off, the on-off of the supplied AC commercial AC power is repeatedly repeated when the power supply is requested to automatically cancel the standby control, so that the power can be restored Power auto shutoff outlet. The method of claim 1, The range of exceeding a predetermined range of the minimum current value of the electricity use device is 2.5 times the minimum value automatic standby outlet. In the method for receiving the commercial AC power from the AC input terminal to supply power to the electricity-using device through a plug connected to the outlet, to automatically shut off standby power, (A) when the plug of the electrical device is inserted is switched to the ON state while the contact of the switching unit is connected to supply power to the control unit; (b) measuring a maximum current value and a minimum current value of the electric utility device; And (c) the standby power of the standby power automatic shut-off outlet, characterized in that the standby power is cut off by determining that the standby power state when the electricity use device is maintained within a range exceeding a predetermined range of the minimum current value for a predetermined time; How to block. The method of claim 6, (d) repeating the on / off of the supplied AC commercial AC power to wait for a power supply request, the standby power blocking method of the standby power automatic shut-off outlet further comprising. The method of claim 6, (E) the standby power cut-off method of the automatic standby power outlet, characterized in that it further comprises the step of automatically recovering the power in the on state of the AC power that is repeated when the power supply request signal is transmitted from the electricity use device. The method of claim 6, (f) when the plug of the electrical use device is detached, further comprising the step of automatically switching back to the switching off (OFF) state as the switching additional contact is disconnected. The method of claim 6, In step (a), When the plug of the electrical device is inserted, as the slide bar is pressed and moved to the plug pin, the contact is connected to automatically switch on (ON) standby power blocking method of the standby power automatic shut-off outlet, characterized in that. The method of claim 6, In step (c), Standby power blocking method of the automatic standby power outlet, characterized in that for determining the excess range within 2.5 times the minimum current value of the electrical device used as the standby power state.

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