KR20000064117A - Energy save multi Consent - Google Patents

Abstract

PURPOSE: A multi-socket for power saving is provided to automatically switch powers of additional loads by power-on/off of a main computer, so that power consumption is saved. CONSTITUTION: Power rectified onto bridge diodes(D1-D4) is smoothed as a condenser(C2), to be switched onto a cramping circuit(5) and a relay coil(Ry), thereby power of a load side are supplied or intercepted. If a main computer is turned on, supplying power to the bridge diodes rectifies the power in which cramp-power diodes(D5-D9) are continued. Simultaneously, triggering a base of a second transistor(Q2) turns on the main computer to continue a first transistor(Q1), which leads to excite the relay coil. And a movable contact of the relay is switched into a second fixed contact(B), which brings power to connectors(CN3-CNn) of a load side. In contrast, if the power of the main computer is cut off, the transistors are turned off, so that the movable contact is recovered from the second fixed contact, and switched into a first fixed contact(A). Consequently, powers supplied to the connectors are off. That results does not have to respectively turn off each switch of the load side.

Description

Multi outlet for energy savings {Energy save multi Consent}

The present invention relates to a multi-outlet that can save power waste, and more particularly to a multi-outlet to save power waste on computer peripherals.

Many functional loads that come with the use of a conventional computer, for example, monitors, printers, scanners, speakers, speakers, etc. in order to use together additional functions are used in conjunction with multiple outlets. Therefore, after using the computer, it is inconvenient to turn off the power to each load in order to turn off the power. If the power is not turned off at the load side, a lot of power is wasted even though it is not used. In addition, even if the power of the load side device is turned off, the power for the detection of the micon continues to be consumed. Such wasted power has a problem that enormous loss occurs when it is determined by individuals as well as nationally.

The present invention has been made in view of the above-mentioned point, and when using a personal computer, a multi-outlet is used to use the many functional loads described above. In this case, only the main body power of the main computer is ON / OFF. When it is turned off, the power is automatically turned ON and OFF without turning ON / OFF the remaining additional load side power, and the convenience of not having to cut off the load power every day and the waste of power generated by not forgetting and shutting off the load power. In addition, even if shut off to prevent the waste of power leakage. In order to achieve the above object, in the present invention, power is supplied to the power lead-in line CN1 by connecting the power supply of the main computer to the first connector CN2 of the multi-outlet and turning on the switch by the diodes D1 to D4. Through the full-wave rectification and supplying to the clamp circuit composed of diodes D4 to D9, the base of the transistor Q1 is triggered and turned on through the obtained constant power supply, and the trigger of the transistor Q2 is again triggered. It is inconvenient to turn on / off the power of the load side by excitation of Ry) to switch the power supply to the above-mentioned relay contact so that the power of the load-side connectors (CN3 to CNn) of the multi-outlet is made simultaneously with the ON / 0FF of the main computer. The power consumption can be prevented by eliminating the problem and cutting off the leakage current on the load side.

1 is a circuit diagram of an embodiment for explaining the present invention.

2 is a perspective view of the present invention.

Explanation of marks in drawing

1 is outlet body, 2 is wire, 3 is switch, 4 is full-wave rectifier circuit, 5 is clamping circuit, CN1 is power input connector, CN2 is computer connector, CN3 ~ CNn) is load side connector, D1 ~ D10 is diode , Q1 and Q2 are the transistors, Ry is the relay, A is the movable contact of the relay, B and C are the fixed contacts of the relay, C1, C2 and C3 are the capacitors and R1 to R4 are the resistors.

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

1 is a detailed circuit diagram for explaining the present invention, and FIG. 2 is a perspective view of the present invention. In the figure, CN1 is a power input connector connected to the multi-outlet main body 1 and the conducting wire 2, and the main body 1 is provided with any number of load connectors CN2, CN3 to CNn, and the load side (not shown). The plug 3 can be plugged in, and the switch 3 is installed at one side of the main body together with the indicator light. In the present invention, the electrical circuit shown in FIG. 1 is configured in the main body 1 side. .

That is, one end of the power input connector CN1 is connected to one end of the input side of the ground diodes D1 to D4 constituting the full-wave rectification circuit 4, and the other side is connected through the connector CN2 of the main computer. The output side of the full-wave rectification circuit 4 composed of (D1 to D4) is directly connected to the diodes D5 to D9 for the clamping circuit 5, and the collector of the emitter grounded transistor Q2 is connected to the resistor R1. It is connected to the anode of the bridge diode through R2 and the base of the transistor Q2 is connected to the middle branch of diode D8 and diode D9 through resistor R3. Meanwhile, the emitter-collector of the transistor Q1 and the coil of the relay Ry are connected in series with the output side of the bridge diode, and the base of the transistor Q1 is the branching point of the resistor R1 and the resistor R2. One side of the load side connecting connectors CN3 to CNn to the other side of the input power connector and the other side of the connectors CN3 to CNn to the fixed contact point B of the relay Ry, and the relay ( The movable contact C of Ry is connected to one side of the input power connector CN1 described above. In the drawings, reference numerals C1 and C3 denote delay capacitors, C2 denote smoothing capacitors, and D10 denote relay protection diodes.

The clamping circuit unit 5 and the relay Ry to smooth the power rectified by the ground diodes D1 to D4 of the full-wave rectifier circuit 4 with the capacitor C2 so as not to exceed the power supply at all. It is configured to supply or cut off power to the load side by turning on / off power to coil. Therefore, when the main computer (not shown) connected to the connector CN2 is turned on, power is supplied to the ground diodes D1 to D4 through the connector CN2, and the full-wave rectified power is supplied to the clamp power supply diodes D5 to D9. Is conducted. At the same time, by triggering the base of the transistor Q2, the transistor Q1 is turned on to conduct the transistor Q1 to excite the coil of the relay Ry, so that the movable contact C of the relay Ry is fixed from the fixed contact A to the fixed contact ( By switching to B), power is also supplied to the load side connectors CN3 to CNn connected to the fixed contact B at the same time.

On the contrary, when the main computer is powered off, the transistors Q1 and Q2 are turned off at this time, so that the coil of the relay Ry cannot be excited, and thus the movable contact C of the relay Ry is restored from the fixed contact B. The power supply which is restored and switched to the fixed contact point A and supplied to the load side connectors CN3 to CNn is turned off, so that the switch on the load side does not have to be turned off as usual.

According to the present invention, the power of the monitor and the printer, the scanner, the speaker, and the like are turned on simultaneously with the use of the computer, and the power of the computer is turned off simultaneously with the load side used in combination with the computer. It is an effective invention that can save power.

Claims (2)

In the main body (1), any number of load connectors (CN2, CN3 to CNn) is provided so that the load side plug can be inserted. One end of the power input connector CN1 is connected to one end of the input side of the full-wave rectifying circuit 4 in one side of the main body 1, and the other side thereof is connected through the connector CN2 of the main commutator. The output side of the full wave rectifying circuit 4 is connected to the clamp circuit 5, The base of the emitter grounded transistor Q2 is connected via a resistor R3 to the branching point of the diode D8 and diode D9 of the clamping circuit 5 and the correlator is connected to the transistor Q1 via a resistor R2. ) And through the emitter-collector of transistor Q1 to excite the coil of relay Ry, Multi-outlet for power saving, characterized in that to turn on / off the power to the load-side connectors (CN3 ~ CNn) through the movable contact (C) of the relay (Ry). The method according to claim 1, Multi-outlet for power saving, characterized in that the above-described circuit is built in one side of the outlet body (1).