JPS60148346A - No-break power source - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] [Technical Field to which the Invention Pertains] This invention relates to switching from a power supply device such as a CVCF (constant voltage/constant frequency) inverter to a direct power supply (hereinafter also referred to as commercial power supply). The present invention relates to an uninterruptible power supply that wraps the inverters around each other without instantaneous interruption, and particularly to an uninterruptible power supply that has a function to protect an inverter from an overcurrent condition.

[Prior art and its problems]

Conventionally, in such an uninterruptible power supply, when the CVCF inverter enters an overcurrent state for some reason, control is performed to suppress the Lllll power to a predetermined value or less by lowering its output voltage. This is not a particular problem if power is being supplied to the load only from the inverter side, but if this is done during the wrap switching period and the voltage is tied like normal overcurrent control, then both [Objective of the Invention] This invention has been made with this in mind. The purpose of this is to protect the inverter by preventing rush current from flowing into the inverter even during the wrap period between the inverter and the commercial power source.

[Key points of the invention]

The key point is to detect the wrap period between the commercial power supply and the inverter power supply, and to prevent overcurrent control from flowing into the inverter during this period (lock) to prevent commercial power from flowing into the inverter and protect it. It was designed to achieve this. In addition, if there is a short circuit accident on the load side during the wrap period,
Normally, the impedance on the commercial side is much lower than the output impedance of the inverter, and the short circuit current flows from the commercial side, so there is no risk of damage to the inverter.

[Embodiments of the invention]

FIG. 1 is a configuration diagram showing an embodiment of the present invention, and FIG. 2 is a waveform diagram of each part for explaining its operation.

In Fig. 1, 1 is a power source such as a CVCF inverter;
2 is an inverter power supply switch, 3 is a commercial power supply switch, 4 is a load, 5 is an inverter output voltage detector, 6 is a circular current detector u3, 7 is a voltage regulator (AVR), 8
9 is an overcurrent protection device, 9 is a switching controller, 10it is an analog switch, and 11e is an AND gate.

That is, the commercial power supply is connected to the bus line via the inverter IFi switch 2 and the switch 3, respectively. is connected to supply power to the load 4. At this time, the selection of inverter power supply or commercial power supply is made by switching f
It is controlled by ljJ controller 9. Therefore, when power is supplied to the inverter, the switch 2 is closed by the output from the 9J replacement 11ii controller 9, and the output voltage is applied to the detector 5.
Since the voltage is fed back to the voltage regulator 7 via the voltage t%1fWj, the voltage t%1fWj regulator 7 controls its output voltage so that it becomes a predetermined voltage value. On the other hand, the inverter output current is detected by the detector 6 and provided to the overcurrent protection device 8 via the switch 10. Note that at this time, the switch 10 is closed as shown. The overcurrent protection device 8 determines the level of the output voltage, and when it is determined that the output voltage has reached a predetermined level or higher, it issues a command to the voltage regulator 7 to lower the output voltage of the inverter. The device 7 controls the output voltage so that the current reaches a predetermined value.

When switching from inverter power supply to commercial power supply due to a failure in the inverter 1, the controller 9 closes switches 2 and 3 at the same time for a predetermined period of time and wraps both power supplies with each other to prevent instantaneous power interruptions. controlled as follows. At this time, for switches 2 and 3, Fig. 2 (a)
, (b) of the drive commands are guided to the AND gate 11, so the Antogames 1 and 11 send out No. 48 to the switch 10 and send this to the switch 10 only when both commands ■ and ■ exist at the same time. It is opened (OFF) as shown in FIG. 2 (c), and the operation of the overcurrent protection device 8 is stopped. In this manner, the overcurrent protection device 8 stops working during the wrap period of both power supplies, so the voltage regulator 7 does not throttle the voltage, and therefore, there is no fear that commercial power will rush in. It goes without saying that the switch 1o is kept ON except when both power supplies are wrapped.

〔Effect of the invention〕

According to this invention, since the overcurrent protection device is legged by the AND condition of the inverter power supply command and the commercial power supply command, even if an overcurrent accident occurs during power supply switching,
The inverter output voltage is not throttled, thus eliminating the risk of power flowing into the inverter from the commercial side and damaging its components.

[Brief explanation of drawings]

FIG. 1 is a configuration diagram showing an embodiment of the present invention, and FIG. 2 is a waveform diagram of each part for explaining its operation. Code explanation 1...CVCF (constant voltage/constant frequency) inverter, 2.3.10...switch, 4...
Load, ......Output current detector, 6...Circular voltage detector, 7...Voltage regulator, 8...Song overcurrent retention device, 9...Song direct feed ( Commercial) - Inverter switching controller, 11... Curved gate, L... Power supply bus.

Claims (1)

[Claims] A commercial power supply and a power supply consisting of an inverter device equipped with an overcurrent protection circuit for protecting against overcurrent conditions by controlling the output voltage at least when the output current exceeds a predetermined level are connected via switches. In an uninterruptible power supply that connects to the power supply bus to the load, and closes both switches when switching the power supply, the power supply is wrapped around each other and switched without momentarily interrupting the power supply. An uninterruptible power supply characterized in that a locking means is provided to stop the operation of the overcurrent protection circuit during the wrapping, and the protection is achieved by preventing commercial power from flowing into the inverter device using the four locking means. Device.