KR20120009280A - Intelligent Power Supply Unit With Power Saving - Google Patents

Abstract

PURPOSE: An intelligent power saving power supply device is provided to economize the power of an electronic product by secluding a relay switching part which is connected to a load. CONSTITUTION: A sensor(120) is composed of a heat detection sensor, a light detection sensor, and a current detection sensor. The heat detection sensor senses whether a person exists in inside. The light detection sensor is arranged with the heat detection sensor and senses whether light exists or not. The current detection sensor senses the current change of loads. A box type main body is attached in an interior fixed position. The box type main body offers a space which establishes one and more power sources and sockets. A controller(100) is installed in the box type main body and is connected to a power supply unit. The controller secures a relay switching part(150) connected to load corresponding to a sensing signal.

Description

Intelligent Power Supply Unit With Power Saving}

The present invention relates to an intelligent power saving power supply that can be installed and used anywhere, such as homes, offices, and business facilities where electricity is supplied. In particular, the present invention provides power to various electrical and electronic products according to the user's situation and environment. The present invention relates to an intelligent power saving power supply device that arbitrarily cuts off power supply to avoid unnecessary waste of electricity.

In recent years, it is well known that energy-saving lighting fixtures are used for the purpose of controlling indoor lighting in homes, offices, and business facilities, and one of such energy-saving lighting fixtures is disclosed in Korean Patent No. 10-0202925 &Quot; prior art ".

However, since the prior art is configured to control only the lighting, there is a disadvantage in that the scope of use is limited to any particular product and narrows, and in the home or office, various electronic and electrical products (computers, printers, chargers, dryers, Toasters, etc., tend to be left unplugged in an outlet or a socket as it is, but the prior art has a problem in that it is not universally useful in helping to save power.

Domestic Patent Registration No. 10-0202925, Energy Saving Lighting Fixture Control Device

Accordingly, an object of the present invention is to provide an intelligent power saving power supply device that solves the above-mentioned shortcomings and has both generality, practicality and economical efficiency that can be used for power saving of various electronic and electrical products as well as indoor lighting.

Intelligent power saving power supply device of the present invention for achieving the above object is provided at a predetermined position in the home or business room of claim 1 therein space for installing at least one or more power sockets connected to the power and the power inside Providing a box-shaped body; Installed in the main body and connected to the power supply unit, and when a detection signal corresponding to a factor of electric waste is input from loads such as a lamp, an electronic device, and an electrical appliance connected to the power supply unit, the power supply unit is connected to the load corresponding to the detection signal. It characterized in that it comprises a control unit for applying an electrical signal for blocking the relay switching unit.

In addition, the present invention is the control unit of claim 2 in order to achieve the above object is disposed with the heat sensor and the heat detection sensor for detecting the presence of a person in the room and the light sensor for detecting the presence of light and the current of the load A sensing unit comprising a current sensing sensor detecting whether there is a change; A microcomputer (CPU) controlling to apply an electric signal to turn off power of a side, which is a waste of electric power, depending on whether a sensing signal is input from the sensing unit; An operation unit configured to allow the user to select detection sensors of the detection unit such that only a detection signal desired by a user is input to the micom; It is installed between the power supply unit and the microcomputer and the loads, and short-circuits the power applied to the load according to the control signal of the microcomputer according to the input of the detection signal selected by the control unit, and operates the control unit again. It characterized in that it comprises a relay switching unit to return to the on state.

In another aspect, the present invention is characterized in that the control unit of claim 3 is provided with a setting unit and a display window for arbitrarily setting the control value required for power saving according to the use environment.

The present invention has the effect of being able to be used universally for power saving of various electronic products and electrical appliances as well as indoor lighting, and large quantities can be supplied at a safe price by a simple configuration.

1 is a view showing an example of a front surface of an outlet to which an intelligent power saving power device according to the present invention is applied;
FIG. 2 is a block diagram schematically illustrating a detailed configuration of an intelligent power saving power supply device installed in FIG. 1.
3 is a view showing another example of the front of the outlet to which the intelligent power saving power device according to the present invention is applied,
4 is a block diagram schematically illustrating another configuration of the intelligent power saving power supply device installed in FIG. 3.

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

1 is a view showing a front of an outlet to which an intelligent power saving power supply device according to the present invention is applied as an example, and FIG. 2 is a block diagram schematically showing a detailed configuration of the intelligent power saving power supply device installed in FIG. 1.

As shown in the drawing, in the present invention, the main body 10 has a rectangular rectangular shape for the purpose of being conveniently mounted at a predetermined position in a room such as a home or an office and a factory, and an inner space of a box (not shown). It is also configured in the form of a box, and also the main body 10 may be configured to be separated into two in order to be able to perform internal maintenance as needed. In addition, the space formed inside the main body 10 includes one or more power sockets S1 to S3 connected to the power supply unit 110 introduced into the room, a sensing unit 120 configured to detect a waste of electricity, and a detection. The display unit 20, which is configured to control the operation unit 140 to select the unit 120 and the LEDs that indicate whether the operation unit 140 is operated, is disposed to be exposed to the outside. In FIG. 1, three plug insertion sockets S1 to S3 used to connect a load are installed. However, the number of sockets S1 to S3 may be arbitrarily modified.

In the main body 10, as shown in FIG. 2, the main body 10 is installed in the main body 10 and connected to the power supply 110, and from loads such as electric lights, electronics, and electrical appliances connected to the power supply 110. When a detection signal corresponding to a factor of electric waste is input, a control unit 100 is configured to control to apply an electric signal necessary to drive the relay switch unit 150 of the load side corresponding to the detection signal to shut off.

That is, the control unit 100 recognizes the detection unit 120 and the detection signal input from the detection unit 120 to detect a waste factor of electricity supplied from the power supply unit 110 and the power supply unit 110. The user selects the detection sensors 122, 124, and 126 of the detection unit 120 so that only the detection signal desired by the user is input to the microcomputer 130 and the microcomputer 130 controlling the power flowing to the load to be off. It is installed between the operation unit 140, the power supply unit 110 and the microcomputer 130 and the socket portion (S) to which the load is connected to the operation unit 140 to operate so as to input the detection signal selected by the operation unit 140 According to the control signal of the microcomputer 130 according to the control circuit is short-circuited, it is composed of a relay switch unit 150 to return to the on (on) state according to the operation of the operation unit 140 again.

In addition, the detection unit 120 is a heat detection sensor 122 for detecting the presence or absence of a person in a work space such as a home or office, and a light detection sensor 124 for detecting the presence or absence of indoor light. And, and consists of a current sensor 126 for detecting whether the current changes of the loads connected to the socket (S).

For example, when the manipulation unit 140 selects and operates any one switch (refer to FIG. 1) associated with the thermal sensor 122 of the sensing unit 120, the microcomputer 130 may control the manipulation unit 140. Recognizing a signal applied from the signal to the heat sensor 122 associated with the signal to send a control signal to detect the change in heat according to whether or not the person moving in the home or office. In addition, the display unit 20 turns on the LED corresponding to the thermal sensor 122 (see FIG. 1) so that the user can confirm that the thermal sensor 122 is in operation. In this state, for example, even when the lamp is on, when there is no movement of people (change of heat) is detected by the heat detection sensor 122, the detection signal at this time is input to the microcomputer 130 and The microcomputer 130 applies an electric signal to the relay switch unit 150 connected to the lamp L to drive the relay switch 150 to be turned off, thereby quickly shutting off the power to the lamp L, thereby providing a lamp L. Eliminate unnecessary waste of electricity in

On the other hand, if you want to return to the original state that the power is applied to the lamp (L), the relay switch unit 150 by pressing the corresponding switch (see Fig. 1) that was operating the heat sensor 122 in the operation unit 140 again The relay switch unit 150 returns to its original on state by releasing the current which has been applied to be driven to the off state, and the lamp L is turned on again. Since the configuration of the relay switch unit 150 is a general technology, a separate description thereof will be omitted. In addition, the corresponding LED of the display unit 20 is off to inform that the non-operation.

In another example, when the manipulation unit 140 operates the switch (see FIG. 1) disposed in association with the light sensor 124 of the sensing unit 120, the microcomputer 130 corresponds to the corresponding operation unit 140. By the signal applied by the switch operation, the associated light sensor 124 is controlled to detect the presence or absence of light in the room. The display unit 20 turns on the LED corresponding to the light sensor 124 to confirm that the light sensor 124 is in operation.

For example, while leaving the office or workplace at work, the indoor lighting (L) is off (off) while the power of the electronic products such as computers or printers plugged into the sockets (S1 ~ S3) in the main body 10 of the present invention is turned off There is a case where it is not left as it is not a waste of electricity, at this time, when there is no light detection signal for a predetermined time from the light sensor 124 input to the microcomputer 130, the microcomputer 130 is a socket By applying an electrical signal to the relay switch unit 150 connected to the unit (S) to drive the relay switch unit (off) off (off) quickly the power flowing to various loads connected to the socket portion (S) quickly By blocking, unnecessary waste of electricity in the socket portion S is eliminated. In order to return the relay switch unit 150 to its original state, pressing the corresponding switch that caused the light sensor 124 to operate in the operation unit 140 may release the current that was applied to make the relay switch unit 150 turn off. The relay switch unit 150 is returned to the original on state, so that the socket unit S is also maintained in the on state, and the corresponding LED of the display unit 20 is turned off to indicate that it is inoperative.

In another example, when the manipulation unit 140 operates the switch (see FIG. 1) disposed in association with the current sensing sensor 126 of the sensing unit 120, the microcomputer 130 of the manipulation unit 140 is operated. By the signal coming from the switch, the associated current sensor 126 is controlled to detect whether the current changes, and the display unit 20 lights the LED corresponding to the current sensor 126 by turning on the current sensor ( 126) to confirm that it is working.

For example, when a load such as an electronic product such as a computer or a printer or an electrical product such as a charger is used in each of the sockets S1 to Sn of the socket S, a current change occurs for a time set in the microcomputer 130. When there is no change, for example in the case of a battery charger in a mobile phone, when there is no change in current for at least 30 minutes, and in the case of electronics such as a computer or a printer, when there is no change in current for 30 minutes The detection sensor 126 serves to detect such a current change of the loads connected to the socket S.

In this situation, when the microcomputer 130 receives a detection signal indicating that there is no change of current for a predetermined time from the current sensor 126, the microcomputer 130 is electrically connected to the relay switch unit 150 connected to the socket S. By applying a signal to drive the relay switch 150 to be off (off) to quickly cut off the power flowing to the various loads connected to the socket (S), unnecessary from the loads connected to the socket (S) Eliminate electricity waste The function of returning the shorted relay switch unit 150 to the original state is the same as the above example, and a separate description thereof will be omitted.

In addition, when the power supply of an unused electronic product is cut off by a current change sensor, the computer uses a peripheral device such as a monitor, a printer, and an internet communication terminal in addition to the computer main body. Even if the power of the peripheral device such as a printer may be kept on as it is, in this case the present invention by the current change sensor function to quickly cut off the power of the product not used for a long time, unnecessary waste of electricity Do not.

In the above example, the functions of the respective sensing sensors have been separately described for clarity, but the user may select any one, two or all according to the selection of the operation switches of the operation unit 140, and if necessary, the operation unit 140 Do not operate in the ON state.

3 is a view showing another example of the front of the outlet to which the intelligent power saving power supply device according to the present invention is applied, and FIG. 4 is a block diagram schematically showing another configuration of the intelligent power saving power supply device installed in FIG. The same parts as in the embodiment of FIG. 1 are denoted by the same reference numerals in order to avoid redundant description.

This embodiment, unlike the intelligent power saving device of the embodiment, the setting button 170 that allows the user to directly control the temperature, sensitivity or time of the light according to the site situation and the display window that is displayed for the setting ( All other configurations are the same as those shown in FIG. 2, and the description thereof is the same as in the embodiment of FIG.

In addition, the intelligent power-supply power device of the above embodiments has been described as an example of an electrical outlet, but in a general home, office or work facility, it is installed at an entrance for supplying power to the whole, and a sensor is separately installed at each position. The power supply of the whole room may be interrupted.

Industrial Applicability The present invention provides an advantage of giving practicality that it can be used for power saving of various electronic products and electrical appliances as well as indoor lighting, and economical efficiency of eliminating unnecessary waste of electricity.

20, 30: outlet body 100: control unit
110: power supply unit 120: detection unit
130: microcomputer 140: control panel
150: relay switch unit 170: setting unit

Claims (3)

A box-type body mounted at a predetermined position in a home or a room for providing a space for installing at least one power source and a socket connected to the power source; And
Installed in the main body and connected to the power supply unit, and when a detection signal corresponding to a factor of electric waste is input from loads such as a lighting lamp, an electronic device, and an electrical appliance connected to the power supply unit, it is connected to the load corresponding to the detection signal. Intelligent power saving power supply comprising a control unit for applying an electrical signal to block the relay switching unit. According to claim 1, wherein the control unit is arranged with the heat sensor and the heat sensor for detecting the presence of people in the room and the light sensor for detecting the presence of light and the current sensing for detecting the current changes of the load A sensing unit consisting of a sensor;
A microcomputer (CPU) controlling to apply an electric signal to turn off power of a side, which is a waste of electric power, depending on whether a sensing signal is input from the sensing unit;
An operation unit configured to allow a user to select detection sensors of the detection unit so that only a detection signal desired by a user is input to the micom; And
It is installed between the power supply unit and the microcomputer and the loads, and short-circuits the power applied to the load according to the control signal of the microcomputer according to the input of the detection signal selected by the control unit, and operates the control unit again. Intelligent power saving power supply comprising a relay switching unit to return to the on state. The intelligent power supply of claim 1 or 2, wherein the control unit is further provided with a setting unit and a display window for arbitrarily setting a control value necessary for power saving according to a use environment.

Images