KR930003910Y1 - Power on-off circuit - Google Patents

Abstract

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Description

Power supply cutoff and supply circuit by external signal

1 is a block diagram of a power interruption and supply circuit according to the present invention.

2 is a power cut and supply circuit diagram according to the present invention.

Figure 3 is a block diagram when using the power cut and supply circuit according to the present invention connected to the facsimile.

Figure 4 is a block diagram when using a plurality of power cut and supply circuits according to the present invention connected to a computer, a modem, and the like.

5 is a block diagram of a case where a power cut and supply circuit according to the present invention is used in connection with a LAN system and each computer.

Figure 6 is a block diagram when using the power cut and supply circuit according to the present invention connected to other online systems.

* Explanation of symbols for main parts of the drawings

1: external signal line 2: electronic and electrical equipment line

3: external signal line surge protector 4: sensing circuit

5: Automatic / manual selection circuit 6: Automatic display LED

7: Relay drive circuit 8: AC output control relay

9: AC output socket 9 ′: Manual indication LED

10: AC surge protector 10 ′: LED for monitoring

11: AC input circuit breaker 12: voltage drop transformer

13: DC voltage regulator U1A, B: NAND gate

U2: sensing circuit Q1, Q2: transistor

MOV1 to MOV4: Barista 21: Facsimile

22: power off and supply circuit 23: modem

24: Computer 25: Printer Monitor

The present invention completely cuts off the power of equipment such as facsimile or personal computer and operates the device only for the necessary period according to the external signal such as telephone signal when using it, thus completely protecting the inside of the device and extending the life of the product. The present invention relates to a power cut-off and supply circuit by an external signal that protects the device and prevents power consumption by preventing power from being unnecessarily increased.

Individually necessary devices, such as personal computers, copiers or facsimile machines, are operated simultaneously in the office. For example, computers or terminals operated by external signals through a network such as a LAN or an integrated computer network inside the company. In this case, the facsimile lamp which is operated by an external signal is a conventional device, which is operated during a used device and when a user or an operator forgets to turn it on for a long time and performs other work, it is malfunctioned by an external signal or in particular by a thunderstorm light. In many cases, the high voltage generated caused damage to the inside of the device, resulting in various problems such as shortening the life of the device or excessive power consumption.

The present invention was devised to solve such a problem in the related art, and various electronic and electric devices as described above operate only for a necessary period by an external signal as needed, and prevent unnecessary operation, and external high voltage suddenly It plays a role of preventing the inflow, extending the life of the device and preventing unnecessary power consumption.

The power interruption and supply circuit by external signals according to the present invention will be useful and critical in various ways for home automation, factoring automation, or office automation, which are expected in the future.

The block diagram of the power cut-off and the supply circuit by the external signal according to the present invention is as shown in FIG. 1 but the detailed circuit diagram is shown in FIG. The external signal line 1 is connected to the signal lines of one or more electronic and electrical equipment 2 via a surge voltage protector 3, and detects the signal of the external signal line 1 and according to the selection of the automatic and manual selection circuit 5. The driving control of the power supply relay 8 is performed, and the power applied from the power line 11 'via the breaker 11 and the surge voltage protector 10 is passed through the socket 9 under the control of the relay drive circuit 7. It is configured to be applied to the electronic device.

A detailed drawing of the circuit according to the present invention is shown in FIG. 2, and the configuration thereof is further described in detail. The external signal line 1 is connected to the signal line 2 of the electronic and electrical device through an external signal sensing circuit U2. The NAND gate U1B outputs the signal sensed by the signal line 2 to an input terminal of the NAND gate U1A so that the output of the NAND gate U1A drives the transistor Q1 to operate the relay 8. And to supply power to the power socket 9 of the electronic and electrical device via the surge voltage protection varistors MOV1 to MOV1 at the external power line 11 '.

Referring to the operation of the circuit according to the present invention is as follows.

The relay K1 in the circuit is normally in automatic operation when the switch SW1 is off. Therefore, the power is not applied to the electronic device when the relay K1 is in the off state. When the external signal is input, the relay K1 is turned on. Connected on to supply power to the electronic and electrical equipment. When the switch SW1 is turned on, power is applied to the electronic and electric equipment regardless of whether an external signal is applied.

The external signal is applied through the same line as the connection jack of the telephone line, is passed through the fuse (F2) to the sensing circuit (U2), connected from the sensing circuit (U2) to the connection jack of the electronic and electrical equipment at the same time, and passed through the fuse (F3) It is connected to the sensing circuit U2 via R8 and a capacitor C6.

Here, the varistor MOV4 is connected between the external signal line and the connection jack of the electronic and electrical device to prevent unnecessary high voltage from flowing along the external signal line. According to the external signal applied to the sensing circuit U2, the sensing circuit U2 outputs the output voltage from "high" to "low", so that all of the input terminals of the NAND gate U1B are "high". The output of the sensing circuit U2 becomes "low" so that the output of the NAND gate U1B changes from "low" to "high".

Therefore, the output of the NAND gate U1A becomes "low" and is applied to the transistor Q1. When the output voltage of the sensing circuit U2 is "high", it is 12 volts and when it is "low", it is 0 volts. When the output of the NAND gate U1B is applied to the base of the transistor Q1 as "low", the transistor Q1 is turned on so that the relay K1 is turned on, so that power is applied to the socket 9 of the electronic device. do.

If either side of the input terminal of the NAND gate U1B changes from "high" to "low", the relay K1 is turned on. When the switch SW1 is on, the input terminal of the NAND gate U1B is turned off. As the output of the NAND gate U1B becomes high, the output of the NAND gate U1B becomes high, and the output of the NAND gate U1B becomes high. Is on.

Accordingly, as described above, when the switch SW1 is in the ON state of the passive state, the relay K1 is always in the ON state.

In the above operation, the power is supplied to the electronic device by detecting an external signal within 1-3 seconds. When the external signal is terminated, the power is cut off after 7-15 seconds. This will extend the protection period by allowing more information processing time and solve the unreasonable points of reoperation.

When the switch SW1 is turned off automatically by the operation of the automatic manual switch SW1, the relay K1 operates according to whether or not the sensing signal U2 of the external signal is applied to the transistor Q2. The base is at a high level through resistor R3, which turns on the automatic indication LED (6).

On the contrary, when the switch SW1 is placed in the manual position, the base of the transistor Q2 becomes high through the resistor R3 to turn on the automatic display LED 6.

On the contrary, when the switch SW1 is placed in the manual position, the transistor Q2 stops operation, the automatic display LED 6 is turned off, and the input of the NAND gate U1B is at the "low" level, so that the relay K1 operates to supply power. It will be supplied to electronic and electronic equipment.

At this time, the power supply LED 9 'is turned on through the resistor R6 connected to the power line and the diode D8.

In the circuit, the surge protector 10 has a varistor (MOV1) primarily connected between three power supply lines, and a varistor (MOV2) for secondary prevention between two wires. As a third prevention circuit that prevents high voltage pulses from being introduced when using a periphery type peripheral device during a thunderstorm, a gas type varistor (GAS1) is used by connecting a barista (MOV3) in series.

The input of the protection circuit as described above is connected to the monitoring LED (10 ') to prevent the use of the fuse (F1) or to indicate whether the pulse type protection circuit is operating.

The power supply, which has undergone the protection circuit as described above, is connected to the primary side of the small-capacity transformer T1 and the input side of the relay K1. In the small-capacity transformer T1, the secondary voltage of the extremely small current is supplied to the diodes D3 to D6. The filter is sent to the required DC voltage through the filter capacitor, and the converted DC voltage is connected to the input side of the power supply circuit 13 to supply DC voltage 12V to each part.

The power cut-off and supply circuit according to the external signal according to the present invention may operate when a telephone signal is received, such as the facsimile 21, as shown in FIG. 3, but the modem 23 and the computer as shown in FIG. (24) and the printer monitor 25 can also be used in connection, as shown in Fig. 5 can also be connected to a LAN system and connected to a plurality of personal computers, respectively.

Therefore, the power cut and supply circuit according to the external signal according to the present invention is useful to prevent unnecessary operation by connecting to a plurality of electronic and electrical devices, to save power consumption, and to extend the life by protecting the internal device.

The present invention is not limited to the above description but includes many more possible embodiments.

Claims (3)

An external signal line 1 is connected to a signal line of one or more electronic and electrical equipment 2 via a surge voltage protector 3, to sense the signal of the external signal line 1 and to select an automatic or manual selection circuit 5. According to the control of the relay drive circuit 7, the power supply relay 8 drives and controls the power supply relay 8, and the power source 11 ′ is applied to the socket 9 under the control of the relay drive circuit 7. Power interruption and supply circuit by an external signal, characterized in that configured to be applied to the electronic and electrical equipment through. An external signal line (1) is connected to a signal line (2) of the electronic and electronic device through an external signal sensing circuit (U2), and a signal sensed by the signal line (2) to the NAND gate (U1B). One side of the NAND gate U1B is applied through a manual and automatic selection circuit 5, and an output of the NAND gate U1B is applied to an input terminal of the NAND gate U1A so that an output of the NAND gate U1A is applied. Configured to drive the transistor Q1 to operate the relay 8, and to apply power to the power socket 9 of the electronic and electrical device through the surge voltage protection varistors MOV1 to MOV1 at the external power line 11 '. Power interruption and supply circuit by the external signal characterized in that. According to claim 1, the surge voltage protector (10) is primarily prevented by first connecting the varistor (MOV1) between the power supply line set, respectively, and the secondary protection by connecting the varistor (MOV2) between the two wires And a power cut-off and supply circuit according to an external signal, comprising a gas type varistor (GAS) and a barista (MOV3) connected in series to each wire as a third prevention.