KR20140004380U - Uninterruptible Power upply with Automatic transfer switching circuit - Google Patents

Abstract

(B) of the emergency change-over switch is connected between the output of the uninterruptible power supply, the instantaneous power failure compensating device or the power conversion device and the load, and the output of the uninterruptible power supply device, the instantaneous power failure compensating device, Wherein said contact point (b) is used as a driving power source of said power source device, said compensating device, or said converting device when said uninterruptible power source device, instantaneous power failure compensating device, or power conversion device is normal, The driving power is supplied to the load contact c and when the uninterruptible power supply, the instantaneous power failure compensating device, or the power conversion device is abnormal, the driving power is no longer supplied to the driving coil of the emergency switching switch The contact b of the emergency change-over switch can not maintain the connection with the load contact c and the other contact a of the emergency change- (c), and another power conversion device is connected to another contact (a) of the emergency change-over switch or an external power source is directly connected to supply a normal external power source to the load .

Description

Technical Field [0001] The present invention relates to an external power compensating device using an emergency switch circuit,

The present invention relates to a compensation technique for an input power abnormality of an electric power conversion apparatus such as an uninterruptible power supply apparatus including an instantaneous power failure compensating apparatus or an automatic voltage regulator and more particularly to an automatic transfer switching circuit ) To the external power supply. The present invention also provides an emergency bypass circuit to prevent the damage of the electric / electronic equipment due to the breakdown or failure of the power conversion device so that the normal external power can be smoothly supplied to the load when the power conversion device breaks down or an error occurs. To an emergency switch circuit

Contrary to the past, the structure of modern industry is composed of high-tech, high-precision machinery and high-tech machinery. Precision technology, which is referred to as nanotechnology, is applied in various industries, and all industries are being advanced. This causes various problems that did not occur in past industrial sites.

Electricity, which is the power of the industry, is highly reliable. However, in industrial sites where many types of industries are concentrated and many factories are intertwined, alternating loads of various loads and frequent switching of large capacity loads, momentary voltage drop due to nonlinearity of load power, , And shortage of electric power system due to induction lightning, remote lightning, etc. and instantaneous power failure due to excessive power capacity are becoming more frequent.

In the past, low-precision, low-integration industrial age represented by the chimney industry, a momentary power failure or a short-time power failure within a few minutes could be tolerated. However, ), Etc. In the case of highly integrated equipment such as measurement equipment and communication equipment, voltage is reduced by several tens of milliseconds, fatal damage is caused by power outage, defective product is generated, equipment is shut down The number of cases of major losses is increasing. Among these problems, the uninterruptible power supply has been developed steadily to prepare for the power outage, and the uninterruptible power supply unit of the new concept called the instantaneous power failure compensating apparatus has appeared. The automatic voltage adjusting apparatus is an instantaneous voltage compensator A new product has emerged.

The prior art which is a basis for the technology of the uninterruptible power supply or the instantaneous power failure compensator is shown in Fig. In the present specification, the emergency switching switch circuit of the present invention is applied to the power conversion device such as the above-mentioned uninterruptible power supply device, instantaneous power failure compensating device, or automatic voltage regulator in order to distinguish it from the following conventional technologies, An auxiliary device for emergency supply of power to a load is referred to as an 'external power compensating device'.

The control unit 120 monitors the external power source and controls the transfer switch control unit 160 in the control unit 120 when the external power source is normal so that the bidirectional transfer of the transfer switch unit 100 The SCR (SW1) switch is turned on to supply an external power source to the load, and at the same time, the bidirectional SCR (SW2) switch is turned on to increase or decrease the voltage through the transformer 150, The converter function is used to store the DC power in the capacitor or the battery, which is the DC source 130. The control unit 120 controls the transfer switch control unit 160 to open the bidirectional SCR (SW1) switch of the transfer switch unit 100 to return to the external power source And the bidirectional SCR (SW2) switch is turned on. Then, the inverter 140 is operated to supply DC energy from the DC power source 130 made of a capacitor or a battery and turn on / off the AC power to generate an AC pulse And supplies it to the load through the bidirectional SCR (SW2) switch of the transfer switch unit 100 according to the voltage level of the external power source by boosting or reducing the voltage by the transformer 150. [

When the control is abnormal or disabled due to burnout or failure of the uninterruptible power supply unit or the instantaneous power failure compensating unit, the bidirectional SCR (SW1, SW2) switch of the transfer switch unit 100 and the inverter 140 can not be controlled, The inverter 140 does not operate and the bidirectional SCR (SW1, SW2) switches are all opened, and the supply of power to the load is stopped.

[0006] Korean Patent No. 10-1009483 discloses a technique for solving the problems in the prior art, which is a basis for the technology of the uninterruptible power supply or the instantaneous power failure compensating apparatus. . When the control of the uninterruptible power supply unit is normal, the control unit 220 monitors the external power supply. When the external power supply is normal, the control unit 220 applies a pulse signal to the gate of the bidirectional SCR 200 switch to conduct bidirectional SCR. To the load. When an external power source such as a low voltage or a power failure occurs, the control unit 220 turns off the bi-directional SCR switch of the transfer switch unit 200 The inverter 240 is operated to supply energy from a DC power source 230 made of a capacitor or a battery and turn on / off the AC power to generate an AC pulse. The AC power is boosted or reduced by the transformer 250, And supplies it to the load.

The bidirectional SCR 200 switch can not control the bidirectional SCR 200 switch and the inverter 240 when the control is unstable or disabled due to fire damages or failure of the UPS or the instantaneous power failure compensating device. The inverter 240 fails to operate and the supply of power to the load is interrupted. At this time, a separate pulse circuit 210 is operated to turn on the bidirectional SCR 200 switch to supply external power to the load.

In FIG. 2, the pulse circuit 210 includes a constant voltage generation circuit for driving a separate pulse generation circuit, a separate clock oscillation unit that receives an inverter control signal from the control unit and oscillates when the control unit is abnormal, And a pulse circuit composed of a primary coil of a pulse transformer and an output unit for delivering pulses induced in the secondary coil to the SCR switch by a clock generated from the clock oscillating portion. However, in FIG. 2, the signal of the control unit for outputting the normal or abnormal state of the control unit may output a correct high signal when the control unit is normal, so that the output of the clock oscillating unit of the emergency transfer circuit may be low to prevent malfunction, (High impedance state: when the controller is in the steady state, the 'high' signal is outputted). In contrast, when the controller is in the abnormal state, that is, when the controller is malfunctioning, Since the clock oscillation unit does not normally oscillate the clock, the pulse circuit 210 used as the emergency bypass circuit (the circuit that supplies the external input to the load without going through the controller) does not operate correctly There are fatal flaws. Such a high impedance state is described in detail in Korean Patent Application No. 10-2012-0125891 of the present applicant.

In addition, although the pulse circuit 210 is operated when the control unit 220 of FIG. 2 is burned out or fails, the pulse circuit 210 is also an electronic circuit, which may cause a failure. Also, the bidirectional SCR 200 switch There is a risk of breakdown or burnout. In addition, when the control unit power supply unit for supplying power to the control unit fails, the control unit 220 and the pulse circuit 210 as well as all the control operations are interrupted, so that the power supply to the load is stopped even though the external input is normal there is a problem.

Another technique for solving the problems in the prior art (the prior art in Fig. 1), which is a basis for the technology of the uninterruptible power supply or the instantaneous power failure compensator, is introduced in Fig. 1 is a circuit to which an emergency switch control unit 370 and an emergency switchover switch 380 are added. The emergency switch switch control unit 370 and the emergency switchover switch 380 are connected to each other, The basic operation is the same as the circuit operation in Fig.

When the control unit 320 and the transfer switch control unit 360 are normal, the emergency transfer switch 380 receives a command from the emergency transfer switch control unit 370 to allow the MC2 of the emergency transfer switch 380 to conduct, When the control unit 320 and the transfer switch control unit 360 are abnormal due to burnout or malfunction, the control unit 320 receives an instruction from the emergency transfer switch control unit 370, And the MC1 is designed to conduct and supply power to the load.

However, since the emergency switch control unit 370 is supplied with power from the control unit 320 and an independent control unit including the pulse generating unit is provided in the emergency switch control unit 370, if the power of the control unit 320 is malfunctioning The emergency change-over switch 380 can not be normally operated when the emergency switch-off control unit 370 is abnormal or when the emergency-change-switch control unit 370 is in failure. Therefore, even with the improved prior art, There is a problem of interruption.

In order to solve the above-described fatal defects of the prior art, the present invention provides (1) a signal for judging the abnormality of the control unit or an emergency switch circuit circuit which does not need to receive the driving power from the control unit. (2) According to the present invention, the emergency change-over switch does not require the power source of the control unit for operation and operates to change the contact position according to the output of the uninterruptible power supply unit, the instantaneous power failure compensating unit or other power conversion unit. (3) Since there is no need for a separate control unit for driving the emergency change-over switch, there is no fear of failure of the control unit for driving the emergency change-over switch, (4) And an external power supply compensating device using such a circuit.

According to another feature of the present invention, a contact b of the emergency change-over switch is connected between the output of the uninterruptible power supply unit, the instantaneous power failure compensating unit or the power conversion unit and the load, and the uninterruptible power supply unit, , Or the output of the power conversion device is used as a driving power source for the emergency switch circuit, and the contact (b) is connected to the driving coil of the emergency switching switch when the uninterruptible power supply device, the instantaneous power failure compensating device, When the uninterruptible power supply, the instantaneous power failure compensating device, or the power converting device is abnormal, the drive coil of the emergency change-over switch is supplied with the drive power of the power supply device, the compensation device or the conversion device and is connected to the load contact (B) of the emergency switch can not maintain the connection with the load contact (c) because the drive power is not supplied to the emergency switch, (C) is connected to the other contact (a) of the switch, and another power conversion device is connected to the other contact (a) of the emergency change-over switch or the external power is directly connected, And an external power compensating device for supplying the external power compensating device.

According to another aspect of the present invention, there is provided an external power source compensation device in which the above-mentioned power conversion device is an automatic voltage regulator, and the contact terminals a, b, and c are non-contact semiconductor switches.

According to another feature of the present invention, a contact (b) of the emergency change-over switch is connected between the output of the uninterruptible power supply, the instantaneous power failure compensating device or the power conversion device and the load, and the uninterruptible power supply, (B) is connected to the drive coil of the emergency change-over switch when the uninterruptible power supply device, the instantaneous power failure compensating device, or the power conversion device is in a normal state, using the output of the device or the power conversion device as a drive power source for the emergency- When the uninterruptible power supply unit, the instantaneous power failure compensating unit, or the power conversion unit is abnormal, the drive coil of the emergency change-over switch is supplied with the drive power of the power supply unit, the compensation unit, The drive power is not supplied any more so that the contact b of the emergency switch can not maintain the connection with the load contact c, (C) is connected to the other contact (a) of the position, and another power conversion device is connected to the other contact (a) of the emergency change-over switch or the external power is directly connected, To the power supply circuit.

The present invention eliminates the fatal defects of the prior art and simplifies the emergency switch circuit so that there is no defect rate for the emergency switching circuit of the conventional power supply apparatus such as the uninterruptible power supply apparatus, the instantaneous power failure compensating apparatus, or the automatic voltage regulator, To maximize reliability, consequently, to protect the load device, to smoothly supply power to the load, to ensure the operation of industrial electric and electronic devices, to simplify the circuit, to zero the defective rate, and to reduce the production cost. do.

In addition, the present invention can be applied not only to the emergency bypass circuit of the instantaneous power failure compensating device or the uninterruptible power supply, but also to the emergency switching or emergency bypass switch of all the power conversion devices. In addition to the power conversion device, This has the added advantage of being applied to different systems of emergency switching switches that can switch to the power of another system in the event of a failure or a power failure.

1 is a block diagram showing a basic configuration of an uninterruptible power supply unit of the related art.
Figure 2 shows a prior art for improving the device shown in Figure 1;
3 shows another prior art for improving the device shown in Fig.
4 is a diagram showing an emergency switch circuit and an external power supply compensating device according to the present invention.
5 is a diagram showing an emergency switch circuit and an external power supply compensating device according to the present invention when an automatic voltage regulator is used as a power supply compensating circuit.
6 is a diagram showing an emergency switch circuit and an external power supply compensating device according to the present invention when two automatic voltage regulators are used.
7 is a diagram showing an emergency switch circuit and an external power supply compensating device according to the present invention when an uninterruptible power supply unit and an automatic voltage regulator are used.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 4 is a circuit diagram of an emergency switch circuit and an external power supply compensating device according to the present invention.

4, the emergency switch 450 is a mechanical contact switching device such as a relay, a magnet contact, or the like, and connects the terminal a or b to the terminal c. Since the terminal a and the terminal b are not connected to each other at the same time, the emergency change-over switch 450 is always connected to either a or b.

If the uninterruptible power supply 400 is normal, the external input is supplied to the load when the external input is normal and the AC input is inverted from the DC source in the uninterruptible power supply 400 when the external input is abnormal, The output of the uninterruptible power supply is always supplied to the load. The drive coil of the emergency change-over switch 450 connects the output of the uninterruptible power supply 400 with drive power. When the uninterruptible power supply 400 is normal, the contact b of the emergency change-over switch 450 is connected, If the uninterruptible power supply 400 does not supply an output due to the burnout or failure of the control unit or the power supply unit and other components of the uninterruptible power supply unit 400, Since drive power is not supplied to the drive coil of the emergency switch 450, the terminal b of the emergency switch 450 can no longer maintain the connection and the connection is switched to the terminal a. That is, if the uninterruptible power supply 400 fails to supply an output due to burnout or failure of the control unit or the power supply unit and other components of the uninterruptible power supply 400, the emergency switch 450 directly connects the external input and the load When the external input is normal, a normal voltage is supplied to the load, so that the operation stop or damage of the load due to the failure of the UPS 400 can be prevented.

In the emergency switch, the contact terminals a, b, and c may be formed of solid state switches, and the drive coil may be a solenoid coil or the like.

According to the present invention, the emergency change-over switch 450 is provided not only to the uninterruptible power supply but also to the external power supply, such as an automatic voltage regulator, an inverter system, etc., It is possible to apply it to an emergency bypass circuit of the power supply.

5 to 8 show an embodiment in which the emergency switch circuit of the present invention is applied to a power assist device such as an automatic voltage regulator other than the UPS device.

Fig. 5 shows another example of the present invention, in which the emergency switch circuit of the external input is shown when the automatic voltage regulator is used as the power assist device. When the automatic voltage regulator is normal, the contact b of the emergency change-over switch 550 is connected to supply the output of the automatic voltage regulator 500 to the load. When the automatic voltage regulator 500 is connected to the control unit or the automatic voltage regulator 500 , The terminal b of the emergency change-over switch 550 is no longer connected to the drive coil of the emergency change-over switch 550 because no drive power is supplied to the drive coil of the emergency change-over switch 550 And the connection is switched to terminal a. Therefore, when the automatic voltage regulator 500 fails to supply an output due to an abnormality or a failure, the emergency switch 550 connects the external input and the load directly. Thus, when the external input is normal, a normal voltage is supplied to the load. The operation stop or damage of the load due to the failure of the voltage regulator 500 can be prevented.

Fig. 6 shows another example of the present invention, showing an emergency input switch circuit for external input when two automatic voltage regulators are used. When the automatic voltage regulator 1 (610) is normal, the contact b of the emergency switch 650 is connected to supply the output of the automatic voltage regulator 1 (610) to the load, and the automatic voltage regulator 1 (610) If the other components of the automatic voltage regulator 1 610 fail to supply the output due to the burnout or the failure, the driving power of the emergency switching switch 650 is not supplied to the driving coil, so that the terminal b of the emergency switching switch 650 is no longer The connection can not be maintained and the connection is switched to the terminal a. Therefore, when the automatic voltage regulator 1 610 fails to supply an output due to abnormality or failure, the emergency change-over switch 650 connects the output of the automatic voltage regulator 2 620 connected in parallel between the external power source and the load to the load If the external input is normal, the normal voltage is supplied to the load, and the operation stop or damage of the load due to the failure of the automatic voltage regulator 1 (610) can be prevented.

Fig. 7 shows another example of the present invention, which shows an emergency switch circuit of an external input when the uninterruptible power supply and the automatic voltage regulator are used. When the uninterruptible power supply 710 is normal, the contact b of the emergency switch 750 is connected to supply the output of the uninterruptible power supply 710 to the load, and the uninterruptible power supply 710 is connected to the control unit or the uninterruptible power supply If the other components of the emergency switch 710 do not supply power due to burnout or failure, the drive power of the emergency switch 750 is not supplied to the drive coil, so that the terminal b of the emergency switch 750 is no longer connected And the connection is switched to terminal a. Accordingly, when the UPS device 710 fails to supply an output due to an abnormality or failure, the emergency switch 750 is connected to the load through the automatic voltage regulator 720 connected in parallel between the external power source and the load If the external input is normal, the normal voltage is supplied to the load, and the operation stop or damage of the load due to the failure of the UPS 710 can be prevented.

Explanation of symbols
100, 200, 300: Bidirectional SCR switch or relay
110: Pulse circuit
120, 220,
130,230,330: DC source
140,240,340: inverter / converter section
150, 250, 350: Transformer
160, 260, 360:
370: Emergency switch control section
380: Emergency switch
400: Uninterruptible power supply, instantaneous power failure compensation device
450,550,650,750: Emergency switch
500: Automatic voltage regulator,
610: Automatic voltage regulator 1, 620: Automatic voltage regulator 2
710: Uninterruptible power supply, 720: Automatic voltage regulator

Claims (4)

If an external power source causes an abnormality such as a low voltage or a power failure, the inverter is operated to supply DC energy from a DC power source composed of a capacitor or a battery, turn on / off the AC power to generate an AC pulse, To the external power supply,
(B) of the emergency change-over switch is connected between the output of the uninterruptible power supply, the instantaneous power failure compensating device or the power conversion device and the load, and the output of the uninterruptible power supply device, the instantaneous power failure compensating device, Wherein said contact point (b) is used as a driving power source of said power source device, said compensating device, or said converting device when said uninterruptible power source device, instantaneous power failure compensating device, or power conversion device is normal, Drive power is supplied to the load contact c,
When the uninterruptible power supply, the instantaneous power failure compensating device, or the power conversion device is in an abnormal state, the driving power is no longer supplied to the driving coil of the emergency switching switch so that the contact b of the emergency switching switch contacts the load contact c , And the load contact (c) is connected to the other contact (a) of the emergency change-over switch,
Wherein another power conversion device is connected to another contact (a) of the emergency change-over switch or an external power supply is directly connected to supply a normal external power supply to the load. The apparatus of claim 1, wherein the power converter further comprises an automatic voltage regulator. The external power source compensation device according to claim 1 or 2, wherein the contact terminals (a, b, c) are made of solid state switches. If an external power source causes an abnormality such as a low voltage or a power failure, the inverter is operated to supply DC energy from a DC power source composed of a capacitor or a battery, turn on / off the AC power to generate an AC pulse, And a control unit for supplying power to the external power source,
(B) of the emergency change-over switch is connected between the output of the uninterruptible power supply, the instantaneous power failure compensating device or the power conversion device and the load, and the output of the uninterruptible power supply device, the instantaneous power failure compensating device, Wherein said contact point (b) is used as a driving power source of said power source device, said compensating device, or said converting device when said uninterruptible power source device, instantaneous power failure compensating device, or power conversion device is normal, Drive power is supplied to the load contact c,
When the uninterruptible power supply, the instantaneous power failure compensating device, or the power conversion device is in an abnormal state, the driving power is no longer supplied to the driving coil of the emergency switching switch so that the contact b of the emergency switching switch contacts the load contact c , And the load contact (c) is connected to the other contact (a) of the emergency change-over switch,
Wherein another power conversion device is connected to another contact (a) of the emergency change-over switch or an external power source is directly connected to supply a normal external power source to the load.

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