KR20180096090A - Uninterruptible power supply system - Google Patents

Abstract

The present invention relates to an uninterruptible power supply system configured to enable continuous power supply even when an uninterruptible power supply apparatus fails. To this end, according to the present invention, the uninterruptible power supply system includes an input power supply unit (1) for supplying AC power, a conversion unit (2), a battery (3), an inverse conversion unit (4), and an automatic switch unit (5) for connecting a bypass power supply unit (21) to an output power supply unit (11) when the inverse conversion unit (4) fails, wherein the uninterruptible power supply system further includes an emergency automatic switch unit (6) for automatically connecting the bypass power supply unit (21) to the output power supply unit (11) when the automatic switch unit (5) fails; and an emergency automatic transfer switch driver (9) for changing the power supply connection between an output voltage detection PT (7) for detecting an abnormal output voltage in the output power supply unit (11) and the emergency automatic switch unit (6).

Description

[0001] Uninterruptible power supply system [0002]

The present invention relates to an uninterruptible power supply system, and more particularly, to an uninterruptible power supply system capable of providing a stable bypass power supply to an output power supply unit even when an automatic change-over switch for supplying a bypass power is failed in an inversion unit failure of the uninterruptible power supply system ≪ / RTI >

Due to the recent developments in the industry, there are many instability factors of input AC power (KEPCO power, generator power, etc.) due to the characteristics of various kinds of electric devices used in many fields. As a solution to this problem, an uninterruptible power supply system has been introduced and operated. The uninterruptible power supply system supplies the input AC power to supply the stabilized power to the equipment regardless of the voltage and frequency fluctuation of the input power source and the momentary power failure and various power failures. It is a constant voltage, Of high-quality power. This uninterruptible power supply system configures the system to provide bypass power for failure or system replacement. When removing the uninterruptible power supply system from the power supply system, use a manual switch to ensure that the bypass power is directly connected to the output power supply. In this case, as a pre-planned result, the bypass power is connected to the output power supply by manual switch operation simultaneously with the removal of the uninterruptible power supply system, so that there is no power supply problem and the uninterruptible power supply can still be maintained. When the uninterruptible power supply system is installed between the input power supply unit and the output power supply unit and a malfunction occurs in the inversion unit for converting the DC converted from the AC power to the AC power again, An automatic changeover switch for automatically changing the power supply line between the output power of the inversion transformer and the bypass power supply is provided so as to be provided to the power supply unit so that the uninterrupted state due to the failure of the inverse transformer can be prevented. However, if the automatic switch for automatically changing the power supply line fails when the inversion section fails, the bypass power supply can not be provided to the output power supply section, and uninterruptible power supply becomes impossible One). Even in the conventional technology (for example, FIG. 2), in case that the normal power can not be supplied to the output power supply due to failure of the automatic transfer switch, a plurality of uninterruptible power supply systems and a plurality of switches are used, And the like. However, the problem of this prior art is that it is a system which uses a large number of expensive uninterruptible power supply systems and operates by using a large number of switches, which is a complicated and costly system, and yet it is difficult to achieve an uninterruptible uninterruptible power supply . SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the conventional techniques, and therefore, it is an object of the present invention to provide a bypass power source, which can stably provide an output power supply unit even when an automatic switch is broken in a conventional uninterruptible power supply system, So that the function can be performed completely.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems and to provide a bypass power source that can be supplied to an output power supply unit in a steady state even if a failure occurs in an automatic power switch of an uninterruptible power supply system.

The uninterruptible power supply system according to one embodiment includes a power supply unit 1, a bypass power supply unit 21, an output power supply unit 11, a net conversion unit 2 for converting an AC power source to a DC power source, An inverse conversion unit 4 for converting the direct current power source into an alternating current power source and an output of the inversion unit 4 and a bypass power supply unit 21 An automatic changeover switch driver 8 for driving the automatic changeover switch unit 5 and a control unit 8 for detecting an output state of the inverse changeover unit 4, The inverse transformer controller 10 for detecting a failure of the power supply unit 4 and providing a signal for notifying the failure to the automatic switch driver 8, the bypass power supply unit 21 and the output power supply unit 11 Emergency disconnecting switches for maintenance (31) And an input terminal connected to the bypass power supply unit 21 and the output terminal of the automatic switch unit 5, an emergency automatic switchover unit 6 for driving the emergency automatic switchover unit 6, The automatic switch switch driver 9 detects the power state of the output power supply unit 11 and detects a failure of the automatic switch section 5 and outputs a signal indicating the failure to the emergency automatic switch switch driver 9 Output voltage detection PT (7).

According to another embodiment of the present invention, when the inversion unit 4 fails to supply a normal AC power to the output power supply unit 11 due to a failure, the inverse transformation unit controller 10 controls the inverse transformation unit 4 The automatic switch driver 8 detects a failure of the inverse converter 4 and provides a signal indicating the failure to the automatic switch driver 8, Based on the signal, drives the automatic switch section 5 to change the power supply line so as to connect the bypass power supply section 21 to the output power supply section 11. [

The uninterruptible power supply system according to another embodiment may be configured such that the automatic switching switch unit 5 is connected to the output power supply unit 11 via the output terminal of the inverting unit 4 or the bypass power supply unit 21, The output voltage detection PT 7 senses that the voltage is not normal from the output power supply unit 11 and detects a failure of the automatic switch unit 5 and outputs a signal indicating the failure The emergency automatic switch switch driver 9 drives the emergency automatic switch section 6 on the basis of the provided signal so as to supply the bypass power supply section 21 to the emergency automatic switch- To the output power supply unit (11).

The subject matter regarded as the invention is particularly pointed out and distinctly claimed in the claims at the conclusion of the specification. The foregoing and other features and advantages of the invention will be apparent from the following detailed description, taken in conjunction with the accompanying drawings.
1 shows an example of a conventional uninterruptible power supply system.
2 shows an example of another conventional uninterruptible power supply system.
3 shows an uninterruptible power supply system of the present invention.

According to exemplary embodiments of the present invention, a sequential uninterruptible power supply system is provided that further includes an emergency automatic switch section, an output voltage detection PT, and an emergency automatic switch-off driver.

Referring now to the drawings, FIG. 1 illustrates an exemplary conventional uninterruptible power supply system. 1, an exemplary uninterruptible power supply system includes a power supply unit 1, a bypass power supply unit 21, and an output power supply unit 11. The uninterruptible power supply system includes a net conversion unit (3) for charging the direct current power converted by the net converting section (2), an inverse converting section (4) for converting the direct current power into an alternating current power, an output voltage An automatic changeover switch unit 5 for changing the power supply line between the bypass power supply unit 21 and the bypass power supply unit 21, an automatic switch driver 8 for driving the automatic switch unit 5, (10) for detecting a failure of the inversion section (4) by sensing an output state of the inversion control section (10) and providing a signal to the automatic switch switch driver (8) The bypass A supply unit (21) comprises a maintenance emergency breaker (31) for connecting said output power supply (11).

For example, as shown in FIG. 1, an exemplary uninterruptible power supply system is configured such that, in normal operation, AC power is supplied from a commercial or redundant power supply to the input power supply unit 1, The AC power source converts the DC power from the net converting section 2 to the DC power, and supplies the DC power to the inverting section 4 while charging the battery 3. [ The inverse transformer 4 converts the supplied DC power into a stable AC power of a constant voltage and a constant frequency and supplies it to the automatic switch section 5. [ When the inversion section 4 normally operates and supplies a stable alternating-current power having a normal constant voltage and a constant frequency, the automatic switch section 5 supplies the alternating-current power supplied from the inversion section 4 to the output power supply section 11 And supplies a stable AC power of a constant frequency to the device.

The direct current power is supplied from the battery 3 to the inverse transformer 4 in a stepped manner and the inverse transformer 4 converts the direct current supplied from the battery 3 into a constant voltage, To a stable alternating-current power having a constant frequency, and supplies the alternating-current power to the automatic switch section 5. When the inversion section 4 normally operates and supplies a stable alternating-current power having a normal constant voltage and a constant frequency, the automatic switch section 5 supplies the alternating-current power supplied from the inversion section 4 to the output power supply section 11 It supplies high-quality AC power to the device with no disconnection even during power failure time.

1, if a failure occurs in the inversion section 4 and the inversion section 4 can not supply a stable alternating-current power having a normal constant voltage and a constant frequency, the inverse transformation section controller 10 outputs, from the output terminal of the inversion section 4, Detects a failure of the inversion section 4 and provides a signal for notifying the failure to the automatic switch driver 8. Based on the signal, the automatic switch switch 8 switches the automatic switch section 5 The bypass power supply 21 may be connected to the output power supply unit 11 instead of the output of the failed inverting unit 4 so that the AC power can be supplied to the corresponding equipment in the event of failure of the inversion unit 4 Let's do it.

However, in the uninterruptible power supply system shown in Fig. 1, when the changeover switch unit 5 fails, the AC power supplied from the inversion unit 4 or the bypass power supply unit 21 can not be connected to the output power supply unit 11 There is a problem that power is not supplied to a corresponding device connected to the output power supply unit 11. [

Figure 2 shows another embodiment of a conventional uninterruptible power supply system. As shown in FIG. 2, this embodiment is an improvement of this embodiment to solve the problem of the embodiment of FIG. 1, and includes an input power supply unit 1 for supplying AC power, A battery 3 that is charged by the DC power converted by the net conversion unit 2 and a DC power supply unit that converts the DC power supplied from the net conversion unit 2 or the battery 3 to AC power The uninterruptible power supply units 210, 220 and 230 constituted of the inverting unit 4 and the static switch 5 for changing the power supply line and the bypass unit for supplying power when the internal parts of the uninterruptible power supply unit fail, The power supply unit 21 and the changeover switches 211, 212, 231, 232, 221, 222, 213, 233 and 232 which can manually switch the power supply lines, When the bypass power supply 21 supplies the output power The uninterruptible power supply to a relates to a redundant circuit configuration of the power supply.

However, the prior art embodiment shown in FIG. 2 is costly, complicated in configuration due to the configuration using a plurality of uninterruptible power supply units and a plurality of changeover switches, and has a problem in that the failed uninterruptible power supply It is troublesome to operate the transfer switches individually by checking the supply devices and also when the uninterruptible power supply fails, the bypass power must be connected manually by manually operating the transfer switches. Therefore, the purpose of the uninterruptible uninterruptible power supply It is difficult to achieve.

Figure 3 illustrates one embodiment of the present invention. 3, an exemplary uninterruptible power supply system of the present invention has a power supply unit 1, a bypass power supply unit 21, and an output power supply unit 11 as shown in FIG. 1, A battery 3 for storing the DC power converted by the net converting unit 2, an inverse converting unit 4 for converting the DC power into an AC power, An automatic switch section 5 for changing the power supply line between the output of the inverse transform section 4 and the bypass power supply section 21, an automatic switch driver (not shown) for driving the automatic switch section 5 An inverse transformer controller 10 for detecting an output voltage of the inverse transformer 4 to detect a failure of the inverse transformer and providing a signal indicating the failure to the automatic switch driver 8, Supply system And a maintenance emergency breaker 31 for connecting the bypass power supply unit 21 to the output power supply unit 11 during maintenance. In addition, the bypass power supply unit 21 and the automatic switch- An emergency automatic switching switch unit 6 connected to the output of the output power supply unit 11 and an input terminal of the automatic transmission switch unit 5, an emergency automatic switching switch driver 9 for driving the emergency automatic switching switch unit 6, And an output voltage detection PT (7) for detecting a failure of the automatic switch section (5) and providing a signal indicating the failure to the emergency automatic switch driver (9).

The uninterruptible power supply system of the present invention shown in FIG. 3 operates in the same manner as the uninterruptible power supply system shown in FIG. 1 in a normal case or in the case of a failure of the inversion unit 4. FIG. However, when the transfer switch unit 5 is failed in FIG. 1, for example, the transfer switch unit 5 fails and the normal AC power supplied from the inversion unit 4 or the bypass power supply 21 is supplied The normal AC power is not supplied to the output power supply unit 11 and thus the corresponding devices connected to the output power supply unit 11 are not supplied with the AC power Lt; / RTI > However, in the embodiment of the present invention, when the output voltage detecting PT 7 detects that the voltage in the output power supply unit 11 is not normal, it detects that the automatic transfer switch unit 5 has failed, The automatic emergency switch switch driver 9 supplies the signal to the emergency automatic switch switch driver 9 and then the emergency automatic switch driver 9 switches the emergency automatic switch 6 on the basis of the signal provided by the output voltage detecting PT 7 And connects the bypass power supply 21 to the output power supply unit 11. As a result, the devices connected to the output power supply unit 11 are automatically supplied with the normal AC power, thereby avoiding the uninterruptible power supply.

The effects of the present invention, which can be expected by the construction and operation of the present invention as described above, are as follows. The emergency automatic switch 6, the output voltage detection PT 7, and the output voltage detection switch 7 are prepared in case that the automatic switch section 5 fails and the normal AC power can not be supplied to the output power supply section 11 during the operation of the uninterruptible power supply system. And the emergency automatic switch-off switch driver 9, the normal AC power can be supplied immediately through the emergency automatic switch 6 to the failure of the automatic switch section 5. Therefore, the uninterruptible uninterruptible power supply system Can be realized. In particular, the present invention can achieve a uninterrupted uninterruptible power supply system which is superior to the prior art of FIG. 2 in terms of ease of configuration, and enables a more stable power supply in the output power supply unit 11.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to limit the scope of the invention. The singular forms used herein are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should be understood that the terms "comprise" and / or "comprising " when used in this specification specify the presence of stated features, operations, and components, but do not limit the presence of one or more other features, And / or the presence or addition of groups thereof.

The foregoing description of the present invention has been presented for purposes of illustration and description, and is not intended to be exhaustive or to limit the invention to the precise form disclosed. Many modifications and variations are apparent to those skilled in the art without departing from the scope and spirit of the invention.

The configuration shown here is just one example. Many variations on this drawing described herein can be made without departing from the spirit of the invention. All of these variations are contemplated as part of the claimed invention.

(1): Input power supply
(2): net conversion section
(3): Battery
(4): Inverse transform unit
(5): Automatic switch section
(6): Emergency automatic switch section
(7): Output voltage detection PT
(8): Automatic switch driver (STATIC SWITCH DRIVER)
(9): EMERGENCY STATIC SWITCH DRIVER
(10): Inverse transformer controller
(11): Output power supply
(21): Bypass power supply
(31): emergency breaker for maintenance

Claims (3)

1. An uninterruptible power supply system having a power supply unit (1), a bypass power supply unit (21) and an output power supply unit (11), the uninterruptible power supply system comprising:
A net conversion unit 2 for converting AC power supplied from the power supply unit 1 into DC power;
A storage battery (3) charged from a DC power source converted by the net conversion unit (2);
An inverse transformation unit (4) for converting the direct current power into an alternating current power;
An automatic switch section 5 for automatically changing a power supply line between the output of the inversion section 4 and the bypass power supply section 21;
An automatic switch driver 8 for driving the automatic switch section 5;
An inverse transformer controller (10) for detecting an output voltage state of the inverse transformer (4) and providing information on the output voltage state of the inverse transformer (4) to the automatic change switch driver (8);
And a maintenance emergency breaker (31) for connecting the bypass power supply (21) to the output power supply (11) during maintenance of the uninterruptible power supply system,
An emergency automatic switch-off unit 6 connected to the bypass power supply unit 21 and an output terminal of the automatic switch unit 5 and having an output terminal connected to the output power supply unit 11;
An emergency automatic switch driver 9 connected to drive the emergency automatic switch section 6;
An output voltage detection PT (5) for detecting a failure of the automatic switch section (5) by sensing an output voltage state of the output power supply section (11) and providing a signal to the emergency automatic switch switch driver (7)
Uninterruptible power supply system. The inverse transformer controller (10) according to claim 1, wherein when the inverse transformer (4) fails to supply a normal AC power to the output power supply unit (11) The automatic switch switch driver 8 detects that AC power is not being output and provides a signal to the automatic switch driver 8 so that the automatic switch switch 8 can switch the automatic switch section 5 on the basis of the provided signal, To switch the power supply line so that the automatic switch section 5 connects the bypass power supply section 21 to the output power supply section 11
Uninterruptible power supply system. The power supply unit according to claim 2, wherein when the automatic switch-over unit (5) fails, a normal alternating-current power supply of the output terminal of the inversion unit (4) or a normal alternating-current power supply of the bypass power supply unit (21) The output voltage detecting PT 7 senses that the normal AC power is not supplied to the output power supply unit 11 to detect a failure of the automatic switch unit 5 and outputs the failure The emergency automatic switch-off switch driver 9 drives the emergency automatic switch-off unit 6 based on the provided signal to supply the bypass power-supply switch 6 21) to the output power supply unit (11)
Uninterruptible power supply system.

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