KR101291151B1 - The low power consumption concent for blocking the standby power using ir signal - Google Patents

Abstract

PURPOSE: A low power consuming power outlet for blocking standby power using infrared signals is provided to turn off a contact portion by allowing a standby power diagnosis module to inactivate a relay switch when utilization equipment is placed in a standby mode. CONSTITUTION: If a light receiving module (100) is turn on, a relay switch (600) is applied with a power voltage in order to turn on a contact portion (300). When the contact portion is turned on, a thyristor of a standby power diagnosis module (400) is applied with power so that the relay switch is electrified. A sensing controller (400a) of the standby power diagnosis module senses an amount of current in a power line by receiving a signal from a current sensor (300), and sends out a control signal according to the sensed amount of current in order to turn on or off the thyristor. The standby power diagnosis module turns on or off the relay switch through the thyristor and the sensing controller. [Reference numerals] (AA) Filter; (BB) IR signal

Description

The low power consumption concent for blocking the standby power using IR signal}

The present invention relates to a standby power cut-off outlet configured to cut off standby power supplied in a state in which a home appliance or the like connected to an outlet is not in use of electricity, that is, a home appliance or the like is not in operation.

More specifically, the present invention relates to a standby power blocking outlet configured to block power consumption by its own standby power generated when the standby power blocking outlet is connected to a power source.

Various types of electrical appliances are used in homes and offices, and these electrical appliances are powered by a multi tap extended from an outlet or an outlet installed on a wall of a building.

In addition, since these electrical appliances are always supplied with power regardless of whether they are used or not, the time for waiting for the function in the off state takes more weight than the time for performing the original functions. Excessive generation of standby power (Power Vampire) plays an important role in determining the energy efficiency rating of electrical appliances.

The International Energy Agency has made recommendations to each country to reduce the standby power of all electrical appliances to less than 1 watt (W) .In Korea, the standby power of household appliances and industrial products has been announced since 2010. Is regulated to less than 1W and less than 0.5W in 2015 to reduce unnecessary power consumption.

To completely cut off standby power in electrical appliances, it is very cumbersome to disconnect the power supply to the electrical appliance by disconnecting the plug from the outlet or the power strip or by turning off the power switch installed in each outlet of the power strip. .

In order to improve this problem, various types of standby power cut-off devices have been proposed, and in general, a technology for cutting off standby power when it is determined that the power is turned off by recognizing the power consumption of electrical appliances has been applied.

However, such a conventional standby power cut-off device is inconvenient to manually turn on the power of the outlet in order for the standby power cut-off outlet to operate again in a state where the standby power cut-off control is executed. To this end, a separate outlet power switch can be easily attached to the user's hands and used to return to the on state again, but it also has the disadvantage of being inconvenient.

In addition, the standby power cut-off outlet itself for monitoring and blocking the standby power of such home appliances, such as less than 1W also requires a power source is also consumed by the standby power of 0.5W or more in its own standby power.

In other words, the standby power cut-off outlet cuts off the standby power of home appliances if it is less than 1W, and energizes it if it is more than 1W, but needs a power source for driving its own circuit to monitor standby power of the home appliances. Standby power equivalent to or higher than home appliances is being consumed to power the standby power cut-off outlet itself.

Moreover, even if there are several outlets, standby power must be controlled for each household appliance connected to each ward, so that standby power for driving an outlet to cut off standby power of each household appliance connected to each ward is required. Since it is necessary to distinguish separately, the power consumption of the standby power cut-off outlet is inevitably higher.

Therefore, the effect of the current law to reduce the power consumption by the standby power by blocking the standby power of the home appliances through the standby power outlet is practically inadequate, and it is urgent to prepare for this.

In order to improve the above problems, an object of the present invention is to provide a standby power cut-off outlet configured to cut off the power consumption by its own standby power is generated connected to the power source for driving the internal circuit.

In addition, an object of the present invention is to provide a standby power cut-off outlet configured to be easily returned to the on-state from an off state after the standby power cut-off outlet cuts off standby power of household appliances and the like.

According to an aspect of the present invention, there is provided a standby power cut-off outlet that cuts standby power of a load device by receiving power, the contact portion being formed on a wire line connected to the power source to turn on and off a power supply; A current sensor for sensing a current state on the wire line; A light receiving module which receives an infrared ray transmitted from an infrared remote controller for driving a load and turns on the bridge rectified current from the wire line; A relay switch to turn on the contact part by applying a voltage when the light receiving module is turned on; And a standby power diagnosis module configured to control a voltage applied to the relay switch through the amount of current sensed by receiving a signal from the current sensor while operating by receiving power from the wire line when the contact unit is turned on. We present standby power cutoff outlet to be.

The light receiving module may include: an infrared light receiving element through which the rectified current is bridged from the wire line while receiving and turning on infrared rays transmitted from the infrared remote controller; And a semiconductor switch in which the infrared light-receiving element is energized when a voltage is applied and turned on when the infrared light receiving element is energized, so that the rectified current is bridged from the wire line.

The standby power diagnosis module may include: a detection control unit which receives a signal from the current sensor when the contact unit is turned on, detects an amount of current flowing through the wire line, and transmits a control signal according to the detected amount of current; And a semiconductor switch configured to receive a control signal transmitted from the detection control unit and to be turned on to apply a voltage to the relay switch.

The inventors can achieve the following effects by the standby power cut-off outlet.

First, the contact portion configured in the wire line in the standby power cut-off outlet of the present invention receives power from the wire line only when the contact portion is turned on by receiving an infrared signal, and receives the signal from the current sensor to sense the amount of current through the detected amount of current. The standby power diagnosis module controls the voltage applied to the relay switch, so that the relay switch does not operate in the standby power state in which the load device has a small current amount, so that the contact part is turned off again. It has the effect of shutting off power.

Secondly, the standby power cut-off outlet according to the present invention receives an infrared signal from the light receiving module within a short time within 30 ms after pressing the infrared remote control, and the standby power diagnostic module is supplied with a load while the contact is turned on. It is effective to monitor the amount of current to control the standby power state of the load equipment.

Third, even if the standby power cut-off outlet is turned off after controlling the standby power state of the load device, it receives the infrared signal generated by the light receiving module when operating the remote control of the load device to be driven without a separate method. It is very simple to restore the power to the standby power cut-off outlet because it is driven while being able to easily manage the standby power again while turning on the contact part.

1 is an internal configuration of a standby power cut-off outlet according to an embodiment of the present invention.
Figure 2a, 2b, 2c is a state diagram using the standby power cut-off outlet according to an embodiment of the present invention.
Figure 3 shows the operation mechanism of the standby power cut-off outlet according to an embodiment of the present invention.
4 is an operation state diagram of the relay switch according to the infrared signal according to the embodiment of the present invention.
5A and 5B are conceptual explanatory diagrams comparing the effect of the standby power cut-off outlet according to the embodiment of the present invention with the conventional standby power cut-off outlet.

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

1 is an internal configuration of a standby power cut-off outlet according to an embodiment of the present invention. Referring to FIG. 5, in the present invention, a light receiving module 100 capable of receiving an infrared remote controller signal is configured at a standby power blocking outlet that receives power and cuts off standby power of a load device.

In addition, the standby power cut-off outlet of the present invention is formed with a contact portion 200 for turning on and off the power supply on the wire line connecting the power source.

The light receiving module 100 is configured to receive an infrared ray transmitted from an infrared remote controller for driving a load, and to turn on the electric current rectified by the bridge from the wire line.

In more detail, the light receiving module 100 includes an infrared light receiving device 100a through which the rectified current flows from the wire line while receiving and turning on infrared light transmitted from the infrared remote controller. The semiconductor switch 100b includes a semiconductor switch 100b through which a voltage is applied and turned on at the time of energization and the bridge rectified current is energized from the wire line.

The infrared light receiving device 100a may be configured by a Darlington method including a transistor, a diode, or a plurality of transistors.

In addition, the current sensor 300 for sensing the current state on the wire line is configured to sense the state of the amount of current being consumed by the load device.

The contact unit 200 is configured to be turned on by the relay switch 600 while being driven by receiving a voltage when the light receiving module 100 is turned on.

In more detail, when the light receiving element 100a receives infrared rays, while the bridge rectified current is energized from the wire line, a trigger voltage is applied to the semiconductor switch 100b and the semiconductor switch 100b is turned on. .

At this time, the bridge rectified current from the wire line is energized through the semiconductor switch 100b, and in this process, a voltage is applied to the relay switch 600 connected to the semiconductor switch 100b and the series line, and the contact portion 200 is applied. Is configured to be turned on.

In addition, the illustrated standby power diagnosis module 400 operates by receiving power from the wire line when the contact unit 200 is turned on, and receives a signal from the current sensor 300 to sense the relay switch through the detected amount of current. The voltage applied to the 600 is controlled.

In more detail, the standby power diagnosis module 400 receives a signal from the current sensor when the contact unit 200 is turned on, detects the amount of current flowing through the wire line, and sends a control signal according to the detected amount of current. The sensing control unit 400a is configured.

In addition, the semiconductor switch 400b is configured to receive a control signal transmitted from the sensing control unit 400a and to turn on the voltage to the relay switch 600.

Figure 2a, 2b, 2c is a state diagram of the standby power cut-off outlet according to an embodiment of the present invention, Figure 3 shows the operating mechanism of the standby power cut-off outlet according to an embodiment of the present invention, Figure 4 is The operation state of the relay switch according to the infrared signal by embodiment is shown.

Referring to the bar, it will be described in detail the operation of the standby power cut-off outlet of the present invention.

Figure 2a shows the state of the standby power blocking outlet in the off state without using a home appliance as a load device, the standby power blocking outlet 200 is open because the standby power is not generated at all, the standby power cut off The power consumption of the outlet itself can be said to be zero.

Referring to the upper figure of FIG. 2B, when using a home appliance that is a load device, an infrared signal is transmitted by pressing an infrared remote controller of the home appliance.

At this time, the light receiving module 100 of the standby power cut-off outlet receives the turn-on and applies a voltage to the relay switch 600 to drive the contact unit 200 by turning it on.

Referring to FIG. 4, since it generally takes about 0.3 to 1 second to press the remote control, when the infrared light receiving element 100a of the light receiving module 100 receives infrared rays emitted while pressing the remote control, The current rectified by the bridge from the electric wire line is supplied to the infrared light receiving element 100a.

As the infrared light receiving device 100a is energized, a bias voltage is triggered to the semiconductor switch 100b, and the relay switch 600 is applied while the bridge switch current is energized while the semiconductor switch 100b is turned on. It turns on while closing the contact portion 200 through.

Here, the semiconductor switch (100b) is composed of a thyristor (SCR), once the characteristics of the thyristor, the energized current flows continuously, the infrared ray is no longer emitted from the remote control, the full-wave rectified current is 0 At the point, the thyristor is turned off, and thus the relay switch 600 is no longer applied to the relay switch 600, so that the contact unit 200 may be opened again.

However, at this point, the relay switch 600 receives the signal from the current sensor 300 in the standby power diagnosis module 400 driven by receiving power from the wire line while the contact unit 200 is turned on. ) To control the voltage applied.

In other words, upon turning on the contact unit 200, the detection control unit 400a receives a signal from the current sensor 600, detects an amount of current flowing through the wire line, and transmits a control signal according to the detected amount of current.

Accordingly, the voltage is applied to the relay switch 600 while the semiconductor switch 400b is turned on using the control signal as a trigger voltage, and thus the contact unit 200 is continuously turned on, and the home appliance is a load device. As the power is supplied to the infrared receiver, the infrared signal from the remote controller is driven to drive the home appliances. Referring to the lower part of FIG. 2B, it can be seen that power is supplied to the load while the standby power cut-off outlet is continuously operated even though infrared light is not emitted from the remote controller.

Figure 3 shows the operating mechanism of the standby power cut-off outlet according to an embodiment of the present invention, showing a series of such processes in sequence,

When the infrared rays emitted from the remote control are received through the light receiving module 100, the time when the voltage is applied to the relay switch 600, and the time of about 20ms within 0.3 to 1 second, the standby power diagnosis module is operated. In addition, even though the infrared light is no longer emitted from the remote control over time, and thus the light receiving module 100 does not receive the infrared light, the continuous power supply to the load under the standby power detection and control of the standby power diagnosis module 400 is already It is configured to be possible.

That is, the standby power cut-off outlet of the present invention receives the infrared signal from the light receiving module 100 within a short time within 30 ms after pressing the infrared remote control, and the standby power diagnostic module is supplied with power while the contact unit 200 is turned on. While monitoring the amount of current supplied to the load has an effect configured to control the standby power state of the load equipment.

Referring to Figure 2c, it shows a case of transmitting the off signal to the infrared through the remote control of the load device, in this case, while the infrared receiver of the home appliance operates by receiving infrared light, the home appliance power is off and the infrared receiver is also powered off It turns into a state.

In this case, when the detection control unit 400a of the standby power diagnosis module 400 receives a signal from the current sensor 300, it is recognized that the amount of current detected is small so that the load has changed to the current standby power state. The relay switch 600 is controlled by preventing the trigger voltage from being applied to the semiconductor switch 400b from the sensing controller 400a.

In other words, as infrared rays are no longer emitted from the infrared remote controller, the semiconductor switches 100b and 400b are turned off at the point where the full-wave rectified current is 0, so that the relay switch 600 no longer has a voltage. Since the contact unit 200 is opened again because it is not operated anymore because it is not applied, it returns to the state shown in FIG. 2A again.

As described above, in order to operate the standby power cut-off outlet again in the state where the standby power cut-off control is executed, the present invention has an advantage of simply returning by pressing a remote controller for operating the load machine.

In addition, referring to Figure 1, in case the operation of the light receiving module 100, the external button unit 500 is configured to be installed in a separately accessible place in order to operate the standby power cut-off outlet manually in an emergency. It is configured to

5A and 5B are conceptual explanatory diagrams comparing the effect of the standby power cut-off outlet according to the embodiment of the present invention with the conventional standby power cut-off outlet.

5A is a configuration diagram of a conventional standby power cut-off outlet. Referring to FIG. 5, the standby power cut-off outlet itself requires a power source to monitor and cut off standby power of a household appliance such as a TV with less than 1W. Therefore, its own standby power is consumed with 0.8 \ ~ 1W standby power.

In other words, the standby power cut-off outlet cuts off the standby power of a home appliance such as a TV when it is less than 1W and energizes it when it is more than 1W, but needs a power source to drive its own circuit for monitoring the standby power of the home appliance. Therefore, standby power equivalent to or higher than home appliances, and power of 0.8W to 1W is being consumed to drive the standby power cut-off outlet itself.

5B is a block diagram of a standby power cut-off outlet according to an embodiment of the present invention. Referring to FIG. 5, when the standby power of the TV is less than 1 W, the TV and the standby power cut-off device receive signals from the current sensor. It can be seen that since the power is cut off (standby power 0W) and only 0.08W is consumed as the standby power of the light receiving module (IR receiver), the standby power can be greatly reduced as compared with the conventional standby power cut-off outlet.

In the above, the present invention has been described with reference to the preferred embodiments with reference to the accompanying drawings. The accompanying drawings and the foregoing embodiments are described by way of example to help those skilled in the art to understand the present invention. Therefore, various embodiments of the present invention can be implemented in a modified form without departing from the essential characteristics of the present invention, the foregoing embodiments are to be considered as illustrative and not restrictive. Therefore, the scope of the present invention should be interpreted according to the invention described in the appended claims rather than the above-described embodiments, and various modifications, alternatives, and equivalents described by those skilled in the art are described above. It is obvious that it is included in the scope of the.

100: light receiving module 100a: infrared light receiving element
100b: semiconductor switch (thyristor) 200: contact portion
300: current sensor 400: standby power diagnostic module
400a: detection control unit 400b: semiconductor switch (thyristor)
500: external button 600: relay switch

Claims (3)

In the standby power cut-off outlet that receives the power to cut off the standby power of the load device,
A contact portion formed on a wire line connected to the power source to turn off the power supply;
A current sensor 300 for detecting a current state on the wire line;
The infrared light receiving element 100a and the infrared light receiving element are turned on by receiving the infrared rays transmitted from the infrared remote controller driving the load and energizing the electric wave current rectified from the wire line. A light receiving module 100 including a thyristor 100b through which a radio wave current rectified from the wire line is energized;
A relay switch 600 for turning on the contact part by applying a voltage when the light receiving module is turned on; And
After the infrared ray of the infrared remote control disappears, the thyristor 100b is not energized so that the relay switch 600 is continuously turned on even when the light receiving module is turned off.
When the contact portion is turned on, the thyristor 400b receives power from the wire line and energizes the relay switch 600, and receives a signal from the current sensor 300 to detect the current amount of the wire line and according to the detected current amount. And a standby power diagnosis module (400) for controlling the relay switch (600) on and off through a detection control unit (400a) for transmitting a control signal and controlling the thyristor (400b) on and off. Low power consumption standby power outlet using signal. delete delete

Images