KR100368801B1 - A security power supply apparatus of uninterruptible - Google Patents

Abstract

The present invention makes it possible to stably supply the necessary power to the place where the power is used even in the event of power failure, to minimize the power loss and power damage occurring during power outage, and to make the product small to reduce the manufacturing cost At the same time, it is easy to install, which not only improves the productivity and economics of the overall product, but also provides an uninterruptible power safety device that improves efficiency and maximizes user reliability.

In order to achieve the above description, the present invention provides an output emergency shutoff function capable of interlocking by an emergency switch, an output of a remote controller and a fire alarm signal, a function of selectively selecting an output voltage using a dip switch, and a variable resistor. It is formed to achieve a function of finely adjusting the output voltage using the volume consisting of, and the function of detecting the abnormality of the board and the peripheral device.

Description

Uninterruptible Power Supply {A SECURITY POWER SUPPLY APPARATUS OF UNINTERRUPTIBLE}

The present invention relates to an uninterruptible power supply for supplying a direct current power supply stably even in an uninterruptible state,

More specifically, the emergency switch, the output of the remote controller and the output of the fire alarm signal, etc. can be interlocked output, the function of selecting the output voltage by using a dip (DIP) switch and a variable resistor By using the volume to finely adjust the output voltage, and the function of detecting the board (Board) and peripheral equipment abnormality to achieve a stable power supply in the place where the power is used even during power failure In order to minimize power loss and damage in case of power failure and emergency, and to make the product small, it is easy to install while lowering the manufacturing cost, thereby improving the overall product productivity and economy. To improve efficiency and maximize user confidence Uninterruptible power supplies relates to safety.

In general, the power supply used is to supply power to drive such as machinery, hardware and electronics.

An uninterruptible power supply, which is commonly implemented among the above power supplies, includes a rectifier circuit that obtains a direct current from a commercial power source, an inverter circuit that converts the direct current power source to an AC power source, and supplies the load to the load. In the normal state in which the battery is configured to include a charging battery and power is supplied from a commercial power source, the power is converted into direct current by the rectifying circuit, and then converted into alternating current by the inverter circuit and supplied directly to the load. The power converted into direct current by the battery charges the battery, and in the power failure state, the inverter circuit converts the direct current power charged in the battery into alternating current and is supplied to the load, which is simply charged during uninterruption. By using the battery, alarm signal in case of emergency such as fire It can't be operated, it can't receive the desired output voltage, it can't detect any abnormality of peripheral device or board and can't achieve stable power supply, so the power loss part is converted into heat, causing heat generation and damaging and damaging the power supply device. There is a problem that there is no safety in use.

Therefore, due to the above problems, the conventional uninterruptible power supply has a problem in that the productivity and the economical efficiency are lowered and the efficiency is lowered, thereby minimizing the reliability of use for the user.

The present invention has been made to solve the problems occurring in the related art as described above, and has the following objects.

The present invention makes it possible to stably supply the necessary power to the place where the power is used even in the case of power failure, to minimize the power loss and damage occurring during power outages and emergencies, and to reduce the manufacturing cost by making the product small At the same time, the purpose of the present invention is to provide an uninterruptible power supply safety device that can be easily installed, thereby improving the overall product productivity and economy, as well as improving efficiency, thereby maximizing user reliability.

In order to achieve the above object, the present invention provides an output emergency shutoff function capable of interlocking by an emergency switch, an output of a remote controller and a fire alarm signal, and a function of selectively selecting an output voltage using a dip (DIP) switch. It is formed to achieve a function of finely adjusting the output voltage by using a volume composed of a variable resistor, and a function of detecting an abnormality of a board and an abnormality of a peripheral device.

1 is a block diagram illustrating the present invention;

2 is a circuit diagram showing to specifically practice the present invention,

3 is a schematic diagram showing implementations connected to the terminals of the present invention.

<Explanation of symbols for the main parts of the drawings>

10: AC power supply 20: bridge circuit

30: voltage balanced circuit 40: continuous output terminal

50: voltage adjusting unit 60: falling voltage supply unit

70: detector 80: abnormal alarm signal

90: battery drive unit 100: emergency output terminal

110: emergency stop signal terminal 120: battery connection terminal

130: relay drive unit

In order to carry out the above object will be described in detail with reference to the accompanying drawings which is a preferred embodiment of the present invention.

In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The following terms are terms set in consideration of functions in the present invention, which may vary depending on the intention or custom of the producer, and the definitions should be made based on the contents throughout the present specification.

First, as shown in Figs. 1 and 2, the present invention is a block diagram showing for explaining the present invention, Figure 2 shows a circuit diagram showing for implementing the present invention in detail.

That is, in the present invention, in the AC power supply unit 10 to which AC power is applied, and the bridge circuit unit 20 for easily converting the AC power output from the AC power supply unit 10 into the DC power supply, The output DC power of the bridge circuit unit 20 is supplied to generate a current 10A and to output the voltage balance circuit 30 and the voltage output from the voltage balance circuit 30 in order to prevent abnormal operation of itself. A continuous output terminal 40 for controlling the voltage, the voltage adjusting unit 50 for selecting and adjusting the output voltage of the voltage balancing circuit 30, and a voltage output from the bridge circuit unit 20 to a predetermined voltage. A falling voltage supply unit 60, a detecting unit 70 for detecting an emergency cutoff signal and an abnormal signal, and an abnormal alarm signal unit for alarming when an input power shortage, a fuse error, an output short circuit and a load are abnormal. 80 and bat at the time of power failure Battery drive unit 90 for executing a power supply to the power of the power supply, an emergency output terminal 100 in which an output voltage connected in an emergency is cut off by an internal relay, and an output voltage connected to the emergency output terminal 100 in an emergency Emergency shutoff signal terminal 110 to be connected to, the battery connection terminal 120 to supply the power of the battery in the event of power failure, and relay drive unit driven by the relay when AC power is not applied or the battery capacity is insufficient It consists of 130.

In addition, the circuit which is a specific example which consists of said structure is shown below.

In the AC power supply unit 10 and the bridge circuit unit 20, a fuse F1 is connected to a power input side, and the other side of the fuse F1 emits light to indicate a resistance R2, a diode D2, and an AC input normal. A diode L2 is connected in series, and is connected to the input side of the bridge circuit BR1 between the resistor R2 and the light emitting diode D2, and an electrolytic capacitor C3 is connected between the output side of the bridge circuit BR1. do.

The continuous output terminal 40 is connected to an electrolytic capacitor C2, a resistor R4, and a light emitting diode L1 for indicating normal continuous output, respectively, at the output terminal of the voltage balancing circuit 30.

The voltage adjusting unit 50 has a resistor R11 connected to a dip switch SW1 for selecting an output DC power supply, and a variable resistor VR1 capable of fine adjustment of an output voltage to the resistor R11.

The falling voltage supply unit 60 is connected to the bridge circuit unit 20 between a diode D5 and a resistor R13, and a zener diode ZD1 for lowering a predetermined voltage to the other side of the diode D5. ) Is connected, and the resistor R14 and the diode D6 are connected in parallel to the other side of the resistor R13.

The detector 70 has the resistor R14 connected to the input terminal 3 of the amplifier U5A, and between the resistor R18 and the resistor R22 for voltage distribution at the input terminal 2 of the amplifier U5A. And a capacitor C7 are connected, the other side of the zener diode ZD1 is connected to the terminal 8 of the amplifier U5A, the terminal 4 of the amplifier U5A is grounded, and the amplifier ( A resistor R19 is connected to the output terminal 1 of U5A, and an input terminal 5 of the amplifier U5B is connected between a resistor R34 and a resistor R35 for voltage distribution, and the amplifier U5B The input terminal 6 is connected to the input terminal 2 of the amplifier U5A, and the output terminal 7 of the amplifier U5A is connected to the output terminal 1 of the amplifier U5A.

The abnormal alarm signal unit 80 has a base end of the transistor Q2 that amplifies a fine signal, and is connected between the resistor R19 and the resistor R15, and an electrolytic capacitor (B) of the transistor Q2. C8), diode D9, and resistor R25 are connected in parallel, resistor R37, resistor R23, resistor R28 are connected in parallel to input terminal 5 of amplifier U1B, and resistor R23. ) On the other side, a diode D8 and an electrolytic capacitor 9 are connected in series, and a resistor R21 and a light emitting diode L4 representing an emergency alarm are connected between the resistor R23 and the resistor R28, and the amplifier A resistor R38 and an electrolytic capacitor C10 are connected to the input terminal 6 of the U1B, and an output terminal 7 of the amplifier U1B is connected between the resistor R28 and the resistor R38.

The battery driver 90 has a resistor R32 connected to a dip switch SW2 for selecting an output voltage, a resistor R29 connected to the other side of the resistor R32, and an input terminal (A) of the amplifier U1A. 3) is connected between the resistor R29 and the resistor R36 for voltage sharing, the input terminal 2 of the amplifier U1A is connected between the resistor R20 and the resistor R24, and the resistor ( A zener diode ZD2 for generating an accurate voltage is connected between R20 and the other side of the resistor R24, and an output terminal 1 of the amplifier U1A is connected with a resistor R26, and A resistor R17 is connected to the other side, and a base terminal of the transistor Q3 is connected between the resistor R26 and the resistor R17, and a resistor R27 and a light emitting diode are connected to the collector terminal of the transistor Q3. L5 is connected in parallel, and a resistor R30 is connected to the other side of the diode L5, and an emitter terminal and a resistor R16 of the transistor Q3 are connected. This is to be a diode (D7) connected.

The emergency output terminal 100 and the emergency shutoff signal terminal 110 are connected with a resistor R10 and a light emitting diode L3 indicating normal emergency output, and a relay contact K1 is connected to the other side of the resistor R10. The bypass diode D3 is connected to one side of the relay contact K1, and the terminal J1, the resistor R12, and the diode D4 are connected to the other side of the relay contact K1.

A fuse F2 is connected to the battery connection terminal 120.

The relay driver 130 has a terminal J2 connected to one side of the relay contact K2, the resistor R27 and a diode D10 connected to the other side of the relay contact K2, and a relay contact K3. Terminal J3 is connected to one side of), and the resistor R25 and diode D11 are connected to the other side of the relay contact K3.

On the other hand, the present invention can be variously modified and take various forms in the circuit applied to the above configuration.

It is to be understood, however, that the present invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to do.

Figure 3 is a schematic diagram showing that the implementation is connected to the terminals of the present invention, a transformer (TR) is connected to the input terminal of the AC power supply unit 10 of each component installed on a printed circuit board (Printed Circuit Board), The transformer TR is a state in which the primary side and the secondary side do not interfere with each other, and the battery connection terminal 120 is connected to a battery B for supplying charged power during a power failure.

In addition, the terminal J3 of the relay driver 130 outputs a signal to a controller or a lamp when the power supply is cut off, and the continuous output terminal 40 provides a smooth driving of a driving component such as a sensor. Supplying power, the emergency output terminal 100 is configured to be connected to apply in an emergency, such as opening the door at a time when a fire occurs, and the emergency shutoff signal terminal 110, the output of the emergency switch, the remote controller And fire alarms.

According to the present invention configured as described above, when the output voltage connected to the emergency output terminal 100 applies an external contact signal to the emergency cutoff signal terminal 110 in an emergency, the output voltage is caused by the relay contact. The output connected to the continuous output terminal 40 is not cut off.

The output voltage of the present invention can be used to select DC 13.8V and DC 27.5V, respectively, and to use the dip switch (SW1) and dip switch (SW2) to select the desired output voltage, Both the switch SW1 and SW2 are set to ON to obtain the DC 13.8V, and both the switch SW1 and SW2 are set to OFF to obtain the DC 27.5V. It is done by

The output voltage can be finely adjusted by the variable resistor VR1, and when a board abnormality or a peripheral device abnormality occurs, the signal is displayed using a light emitting diode as described above, and a non-powered contact is provided to the terminal to provide a remote control. It is possible to connect to the input of the controller, and the signal detection includes the shortage or interruption of the AC input (when connecting the battery), the abnormality of the fuse formed in the AC power supply unit, the abnormality of the fuse formed in the battery connection terminal, and the output is shorted or the load is too large. Will be detected.

As described in detail above, the present invention provides an output emergency shutoff function capable of interlocking with an emergency switch, an output of a remote controller and a fire alarm signal, a function of selectively selecting an output voltage using a dip (DIP) switch, By using the volume composed of variable resistor, it is possible to finely adjust the output voltage and to detect the abnormality of the board and peripheral devices. It has the effect of supplying the power supply and the minimization of power loss and damage occurring in case of power failure and emergency. Productivity and economics are improved, and the efficiency is also improved, resulting in the highest level of user trust. To be a very useful invention that can achieve multiple effects simultaneously, such that it is clear.

Claims (2)

In the AC power supply unit 10 to which AC power is applied, and the bridge circuit unit 20 for easily converting the AC power output from the AC power supply unit 10 into a DC power supply, A voltage balancing circuit 30 for supplying the output DC power of the bridge circuit unit 20 to generate a current 10A and preventing abnormal operation thereof; A continuous output terminal 40 for continuously outputting the voltage output from the voltage balancing circuit 30, A voltage adjusting unit 50 for selecting and adjusting the output voltage of the voltage balancing circuit 30, A falling voltage supply unit 60 for lowering the voltage output from the bridge circuit unit 20 to a predetermined voltage; A detector 70 for detecting the emergency cutoff signal and the abnormal signal; An abnormal alarm signal unit 80 for alarming when there is a shortage of power input, a fuse error, an output short circuit, and an abnormal load. A battery driving unit 90 for supplying power to the battery at the time of power failure; An emergency output terminal 100 in which an output voltage connected in an emergency is cut off by an internal relay; An emergency shutoff signal terminal 110 for connecting an output voltage connected to the emergency output terminal 100 in an emergency; Battery connection terminal 120 to supply power to the battery in the event of power failure, Uninterruptible power supply safety device, characterized in that consisting of a relay drive unit 130 is driven by a relay when the AC power is not applied or the battery capacity is insufficient. The method of claim 1, The voltage adjusting unit 50 has a resistor R11 connected to a dip switch SW1 for selecting a DC power to be output, and a variable resistor VR1 capable of fine adjustment of an output voltage connected to the resistor R11. The falling voltage supply unit 60 is connected to the bridge circuit unit 20 between a diode D5 and a resistor R13, and a zener diode ZD1 for lowering a predetermined voltage to the other side of the diode D5. ) Is connected, and the resistor R14 and the diode D6 are connected in parallel to the other side of the resistor R13, The detector 70 has the resistor R14 connected to the input terminal 3 of the amplifier U5A, and between the resistor R18 and the resistor R22 for voltage distribution at the input terminal 2 of the amplifier U5A. And a capacitor C7 are connected, the other side of the zener diode ZD1 is connected to the terminal 8 of the amplifier U5A, the terminal 4 of the amplifier U5A is grounded, and the amplifier ( A resistor R19 is connected to the output terminal 1 of U5A, and an input terminal 5 of the amplifier U5B is connected between a resistor R34 and a resistor R35 for voltage distribution, and the amplifier U5B The input terminal 6 is connected to the input terminal 2 of the amplifier U5A, the output terminal 7 of the amplifier U5A is connected to the output terminal 1 of the amplifier U5A, The abnormal alarm signal unit 80 has a base end of the transistor Q2 that amplifies a fine signal, and is connected between the resistor R19 and the resistor R15, and an electrolytic capacitor (B) of the transistor Q2. C8), diode D9, and resistor R25 are connected in parallel, resistor R37, resistor R23, resistor R28 are connected in parallel to input terminal 5 of amplifier U1B, and resistor R23. ) On the other side, a diode D8 and an electrolytic capacitor 9 are connected in series, and a resistor R21 and a light emitting diode L4 representing an emergency alarm are connected between the resistor R23 and the resistor R28, and the amplifier A resistor R38 and an electrolytic capacitor C10 are connected to the input terminal 6 of the U1B, and an output terminal 7 of the amplifier U1B is connected between the resistor R28 and the resistor R38. The battery driver 90 has a resistor R32 connected to a dip switch SW2 for selecting an output voltage, a resistor R29 connected to the other side of the resistor R32, and an input terminal (A) of the amplifier U1A. 3) is connected between the resistor R29 and the resistor R36 for voltage sharing, the input terminal 2 of the amplifier U1A is connected between the resistor R20 and the resistor R24, and the resistor ( A zener diode ZD2 for generating an accurate voltage is connected between R20 and the other side of the resistor R24, and an output terminal 1 of the amplifier U1A is connected with a resistor R26, and A resistor R17 is connected to the other side, and a base terminal of the transistor Q3 is connected between the resistor R26 and the resistor R17, and a resistor R27 and a light emitting diode are connected to the collector terminal of the transistor Q3. L5 is connected in parallel, and the resistor R30 is connected to the other side of the diode L5, and the emitter terminal of the transistor Q3 is connected to the resistor R16. This is connected to the diode (D7), The emergency output terminal 100 and the emergency shutoff signal terminal 110 are connected with a resistor R10 and a light emitting diode L3 indicating normal emergency output, and a relay contact K1 is connected to the other side of the resistor R10. The bypass diode D3 is connected to one side of the relay contact K1, and the terminal J1, the resistor R12 and the diode D4 are connected to the other side of the relay contact K1. The relay driver 130 has a terminal J2 connected to one side of the relay contact K2, the resistor R27 and a diode D10 connected to the other side of the relay contact K2, and a relay contact K3. The terminal (J3) is connected to one side of the), the resistor (R25) and the diode (D11) is connected to the other side of the relay contact (K3), the uninterruptible power supply safety device.