KR20020027832A - An automatic energy-saving apparatus and a concent using sensor - Google Patents

Abstract

PURPOSE: An automatic power-saving device using a sensor is provided to build a sensing unit including the sensor and a controller in an outlet, and to selectively sense time zones when electrical energy supply is not necessary, to automatically intercept or supply an AC power, so as to reducing power consumption as well as preventing fire. CONSTITUTION: An AC/DC converter is composed of a rectifier, a DC/DC converter unit, and a smoother. The rectifier rectifies an AC power. The DC/DC converter unit converts a rectified signal into a DC power. The smoother smooths the converted DC power. A sensing unit has a photo transistor and a switch controller. The photo transistor is turned on by sensing a light over a regular time, and is turned off if the light is not sensed. The switch controller is intercepted if the photo transistor is turned on, and is coupled with the DC power when the photo transistor is turned off. A switch supplies energy of the AC power to an electrical product through a plug connector if the switch controller is intercepted. If the switch controller is turned on, the switch intercepts the energy supplied to the electrical product.

Description

Automatic power saving device and outlet using sensor {AN AUTOMATIC ENERGY-SAVING APPARATUS AND A CONCENT USING SENSOR}

The present invention relates to a power-saving device and an outlet and a plug, and in particular, by detecting a switch and a switch including a sensor and a control unit in an electrical appliance or an outlet, selecting and detecting only a time zone in which no electric energy supply is required, and automatically cutting off or removing the AC power. The present invention relates to an automatic power saving device using a sensor for supplying and an outlet and a plug.

In general, electrical appliances used in industrial facilities such as homes, offices, and factories must always be powered and powered, such as refrigerators, and generate electrical energy only during certain periods of human activity, such as TVs, audio, and computer monitors. It is classified as necessary to supply.

However, even in the latter electric appliances, the power source is connected to a wall or a floor outlet, and thus, in most cases, it is used in a state in which the power source is always connected due to the difficulty of blocking and trouble.

Therefore, a lot of unnecessary power due to leakage power is consumed, and also includes the risk of a large fire caused by a short circuit. The conversion of power waste due to leakage power to the whole nation is a factor of considerable power waste.

The present invention is to solve such a problem, the object of the present invention is that there is no night time or person sleeping when a person who does not need to supply electric energy in an electric product that does not require constant power, such as TV and computer monitor Automatically detects the time when power saving is needed such as time using light sensor or infrared sensor, and automatically switches on when the detected signal is below a certain level, cuts off the electric energy and supplies it again when it exceeds a certain amount. In addition, the present invention provides an automatic power saving device and an automatic power saving outlet to obtain a fire prevention effect due to a short circuit.

Automatic power saving device and the outlet using the sensor of the present invention for achieving the above object is an AC / DC conversion unit for converting and smoothing the AC power to DC power in a conventional electrical appliance or outlet that does not require constant power; It includes a sensor including a light sensor, an infrared sensor, an acoustic sensor, and a circuit for controlling these signals, and a switch driven by a signal of the detector. When the switch is turned on automatically cuts off the power, and when a certain signal is detected, the switch is turned off to automatically supply power again.

1 is a configuration diagram of a power supply system of a conventional electric appliance.

2 is a system configuration diagram of an automatic power saving device using the sensor of the present invention.

3 is a circuit diagram of an automatic power saving device using a phototransistor as an embodiment of the present invention.

4 is a circuit diagram of an automatic power saving device using an illuminance (CdS) sensor as an embodiment of the present invention.

5 is a circuit diagram of an automatic power saving outlet according to an embodiment using the automatic power saving device of FIG. 4 of the present invention.

6 is a circuit diagram of a switch attached to an automatic power saving outlet according to the embodiment using the automatic power saving device of FIG. 4 of the present invention.

7 is a circuit diagram of an automatic power saving plug according to an embodiment using the automatic power saving device of FIG. 4 of the present invention.

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

The present invention is provided with a light sensor, an infrared sensor, or an acoustic sensor in an electrical appliance or an outlet or a plug to solve the above problems to detect the change in illuminance or the presence of a person, and if the detected signal falls below a certain level, switch It is to provide an automatic power saving device, an automatic power saving outlet and a plug that can turn on to automatically cut off the power supplied to an electrical appliance or an outlet, and turn off the switch to supply power again when the detected signal reaches a predetermined level.

The automatic power saving device using the sensor of the present invention, the outlet and the plug include an AC / DC converter, a detector, and a switch.

The AC / DC converter converts AC power into DC power to supply power required for the sensor including the sensor to operate.

The sensor detects a predetermined condition by the sensor and the control circuit and generates a signal for controlling the operation of the switch.

The switch plays a role of connecting or disconnecting AC power to an electrical appliance, an outlet or a plug by a control signal of a sensing unit.

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

1 is a configuration diagram of a power supply system for supplying power to a conventional electrical appliance 200, the electrical energy is supplied by connecting the plug 200 of the electrical appliance to the AC power source or the general outlet 100. In addition, electrical appliances are used in a state where power is always connected in most cases due to the difficulty of power off and hassle. FIG. 2 is a system configuration diagram illustrating the concept of the automatic power saving device of the present invention. As shown in FIG. 2, the automatic power saving device according to the present invention may include an AC / DC converter 400 in addition to a conventional power supply system. ), The sensing unit 500 and the switch 600 are included.

AC power or general outlet 100 supplies AC voltage of 60Hz 110V or 220V, which is a commercial power in Korea, and AC / DC converter 400 converts and smoothes this AC power to DC power.

The sensing unit 500 receives the DC power and turns on the switch 600 when the amount detected through the light, infrared or acoustic sensor is below a certain level so that the AC power 100 is not supplied to the electrical appliance 200. When the detected amount is greater than or equal to a certain level, the switch 600 is turned off so that the AC power is supplied to the electric product.

Next, embodiments of the present invention will be described in detail with reference to the drawings.

3 is a circuit diagram of an automatic power saving device using a photo transistor as an embodiment of the present invention. As shown in FIG. 3, the automatic power saving device of the present invention includes an AC / DC conversion unit 400, a detection unit 500, and a switch 600 in a conventional AC power or outlet 100 and an electrical appliance 200. It includes.

AC power or general outlet 100 supplies electrical energy as electrical products, the commercial power in Korea supplies 60Hz 110V or 220V.

The AC / DC converter 400 converts the AC power into DC power. The diode D1 and the capacitor C1 rectify the AC power, and the DC / DC converter unit 410 is connected to the diode D1. The signal rectified through the capacitor C1 is converted into direct current, and the capacitor C2 smoothes the signal changed into direct current by the DC / DC converter unit 410.

The detector 500 includes a resistor R1, a resistor R2, a photo transistor 510, and a transistor TR1. When the photo transistor 510 senses a predetermined level or more of light, the photo transistor 510 is turned on. The DC power supplied through the AC / DC converter 400 flows through the photo transistor 510, and when detecting light below a predetermined level, the port transistor 510 is turned off. One end of the resistor R1 is connected to one end of the capacitor C2, and one end of the resistor R2 is connected to the other end of the resistor R1. The collector terminal of the photo transistor 510 is connected to the common terminal of the resistor R1 and the resistor R2, the emitter terminal is connected to the AC power supply 100, and the base terminal senses light of a predetermined level or more. The base end of the transistor TR1 is connected to the other end of the resistor R2, and the emitter end is connected to the emitter end of the photo transistor 310.

The switch 600 includes a relay, and when the phototransistor 510 of the sensing unit 500 detects light of a predetermined level or more and turns on, the DC power supplied from the AC / DC converter 400 is a phototransistor. Since the transistor 510 flows, the transistor TR1 is turned off and the switch 600 is turned off to supply electrical energy to the electrical appliance. When the photo transistor 510 detects light below a predetermined level and turns off, the transistor TR1 is turned on to operate the switch to cut off the AC power supply 100 supplied to the electrical appliance.

Such a switch 600 is composed of a relay or a power semiconductor switch including a coil 610 and a contact element 620. When using a relay, the first terminal of the coil 610 is connected to one end of the resistor (R1) to receive the DC power of the AC / DC converter 400, the second terminal of the coil 610 is a transistor It is connected to the collector end of TR1. In addition, when the third terminal of the contact element 620 is connected to one end of the AC power supply 100 and the fourth terminal, which is an open terminal, is connected to the third terminal, a third terminal forms an open circuit and is connected to an electrical product. When is connected to the third terminal, the AC power supply 100 is supplied to the electrical appliance.

4 is a circuit diagram of an automatic power saving device using the CdS sensor 520, which is one of the illuminance sensors, according to an embodiment of the present invention. As shown in Figure 4, the automatic power saving device of the present invention, as shown in Figure 3 in addition to the conventional AC power source or outlet 100 and the electrical appliance 200 AC / DC converter 400, the detection unit 500 ) And a switch 600.

AC power or general outlet 100 supplies electrical energy as electrical products, the commercial power in Korea supplies 60Hz 110V or 220V.

The AC / DC converter 400 converts the AC power into DC power. The diode D1 and the capacitor C1 rectify the AC power, and the DC / DC converter unit 410 is connected to the diode D1. The signal rectified through the capacitor C1 is converted into a required direct current, and the capacitor C2 smoothes the signal changed into a direct current by the DC / DC converter unit 410.

The detector 500 includes a resistor R1, a resistor R2, a resistor R3, a transistor TR1, a transistor TR2, a display element LED, and a CdS sensor 520, and a CdS sensor 520. ) Detects more than a predetermined amount of light, the self resistance of the CdS sensor 520 decreases, so that the transistor TR1 is turned on by the resistor R1, and the transistor TR2 and the display element are turned off. When the sensor detects light below a predetermined level, the self resistance of the CdS sensor 520 is increased to turn off the transistor TR1, and the DC power of the AC / DC converter 400 includes a resistor R2 and a resistor R3. ) And the transistor TR2 and the display element are turned on. One end of the CdS sensor 520 is connected to the common terminal of the capacitor C2 and the resistor R2, and the other end is connected to the base terminal of the transistor TR1 and the common terminal of the resistor R1. The other end of the resistor R1 is connected to the AC power supply 100. The resistor R2 is connected to the collector terminal of the transistor TR1, the common terminal of the resistor R3 and the base terminal of the transistor TR2, and the emitter terminal of the transistors TR1 and TR2 and the other end of the resistor R3 are It is connected to the AC power supply 100. The collector terminal of the transistor TR2 is connected to the cathode side of the display device LED, which indicates an operating state of the transistor TR2.

The switch 600 includes a relay, and when the CdS sensor 520 of the sensing unit 500 detects light above a predetermined level and the resistance thereof decreases, the DC power supplied from the AC / DC converting unit 400 is reduced. A substantial portion of is applied to the resistor R1 so that the transistor TR1 is turned on, the transistor TR2 is turned off, and the switch 600 is turned off to supply electrical energy to the electrical appliance. When the CdS sensor 520 detects light below a predetermined level and the resistance increases, the transistor TR1 is turned off, and the transistor TR2 is turned on to operate the switch, thereby supplying an AC power supply 100 to the electric product. To block.

Such a switch 600 is composed of a relay or a power semiconductor switch including a coil 610 and a contact element 620. When using a relay, the first terminal of the coil 610 is connected to one end of the resistor (R2) to receive the DC power supply of the AC / DC converter 400, the second terminal of the coil 610 is displayed It is connected to the anode of the device (LED). In addition, when the third terminal of the contact element 620 is connected to one end of the AC power supply 100 and the fourth terminal, which is an open terminal, is connected to the third terminal, a third terminal forms an open circuit and is connected to an electrical product. When is connected to the third terminal, the AC power supply 100 is supplied to the electrical appliance.

FIG. 5 is a circuit diagram of an automatic power saving outlet according to the embodiment using the automatic power saving device shown in FIG. 4 of the present invention. As shown in FIG. 5, AC power may be input through the plug 300, and a plurality of outlets 700 may be installed in parallel to supply AC power automatically saved to a plurality of electrical products.

FIG. 6 is a circuit diagram of an automatic power saving outlet according to the embodiment using the automatic power saving device shown in FIG. As shown in Fig. 6, one end of the simple switch is connected to one end of the AC power supply, and the other end is connected to the second terminal of the outlet 700. Therefore, when the simple switch 750 is off, the electrical appliance of the outlet connected to the simple switch 650 that is turned off can receive AC power only through the automatic power saving device of FIG. 4, and the simple switch 750 is When it is turned on, the electrical appliance of the outlet connected to the turned on simple switch 650 can always receive AC power regardless of the state of the automatic power saving device.

7 is a circuit diagram of an automatic power saving plug according to an embodiment using the automatic power saving device of FIG. 4 of the present invention. As shown in Fig. 7, the circuit of the present invention is shown embedded in the plug 300 itself. Accordingly, AC power may be input through two terminals of the plug 300, and electrical power that is automatically saved may be supplied to the electrical product through the connected outlet 800.

The embodiments of the present invention described above are not limited to the embodiments mentioned above, which are only one embodiment of the present invention, and of course, many modifications or variations are possible.

For example, in addition to the photo transistor and the CdS sensor, the sensing unit may be equipped with other light, infrared, sound, and temperature sensors, and several sensors may be used in duplicate. And as a control circuit for the sensor signal of the sensing unit, it is possible to supply AC power to the electrical products by attaching a counter and a comparison circuit.

In accordance with the present invention it is possible to prevent the risk of large-scale fire due to unnecessary power waste and leakage current.

Claims (7)

Sensing parts and switches including sensors in electrical appliances or outlets in order to achieve power savings and fire prevention effects by selecting and detecting time zones that do not require power supply in electrical appliances used in homes, offices and factories. Built-in AC / DC converter for driving this, the automatic power saving device characterized in that it detects a predetermined signal or more through the sensor and cut off the AC power by driving a switch. The method of claim 1, The AC / DC converter includes a rectifier for rectifying the AC power, a DC / DC converter unit for converting the rectified signal into a required DC power, and a smoothing part for smoothing the converted DC power, The sensing unit is turned on when a certain amount of light is detected, the photo transistor is turned off when a predetermined amount of light is not detected, and the switch is turned off when the photo transistor is turned on, and coupled to the DC power supply when the photo transistor is turned off It includes a control unit, The switch is such that when the switch control unit is cut off, the energy of the AC power is supplied to the electrical appliance through the plug connection unit, and when the switch control unit is turned on, the AC power cuts off the energy supplied to the electrical appliance. Automatic power saver. The method of claim 1, The AC / DC converter includes a rectifier for rectifying the AC power, a DC / DC converter unit for converting the rectified signal into a required DC power, and a smoothing part for smoothing the converted DC power, The sensing unit includes a switch controller for turning on when a predetermined or more light is detected using an illuminance sensor whose resistance changes according to the illuminance of the light, and turning off when a predetermined or more light is not detected. The switch is such that when the switch control unit is cut off, the energy of the AC power is supplied to the electrical appliance through the plug connection unit, and when the switch control unit is turned on, the AC power cuts off the energy supplied to the electrical appliance. Automatic power saver. The method according to claim 1 or 2 or 3, An automatic power saving type that automatically cuts off the AC power by detecting the time when power supply is not necessary in the electrical appliances used in homes, offices, and factories by embedding the automatic power saving device in a general outlet used to supply power to electrical equipment. consent. The method of claim 4, wherein Automatic power saving type outlet, characterized in that for connecting a plurality of the plug connection in parallel. The method according to any one of claims 4 to 5, The plurality of plug connection parts are connected in parallel, and one end is connected to one end of an AC power supply, and the other end is connected to a plurality of simple switches connected in parallel with the automatic power saving device output unit. consent. The method according to claim 1 or 2 or 3, The automatic power saving device is embedded in a plug that is connected to an AC power supply for supplying energy to an electric product, and automatically cuts off the AC power by selecting a time period when power supply is not required for an electric product used in a home, office, or factory. Automatic power-saving plug.