JPH0458262B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to an inverter device, and particularly to an inverter device with an improved backup method.

[Technical background of the invention and its problems]

Conventionally, the following methods have been used as backup methods for inverters. (1) A backup inverter circuit is provided for each unit inverter.

(2) In the case of a multiplexed inverter configuration, disconnect the failed unit inverter and continue operation.

However, in the case of method (1), it becomes uneconomical when a plurality of inverters are operated, and in the case of (2), there are problems such as full capacity operation is impossible.

[Purpose of the invention]

The present invention has been made in view of the above reasons, and when a unit inverter fails, it is possible to back up all unit inverters with an economical configuration, and even in the case of a multiplexed inverter configuration, even after the failed unit inverter is disconnected, the entire capacity can be restored. The purpose is to provide an inverter device that can be operated.

[Summary of the invention]

In order to achieve such an object, the present invention provides an inverter device comprising disconnecting devices on the input side and output side of a plurality of inverter units, in which the input side and output side disconnecting devices each have a main disconnecting section and a preliminary disconnecting section. The preliminary disconnecting sections of the input side disconnecting device are connected to each other via the input side system line, the preliminary disconnecting sections of the output side disconnecting device are connected to each other via the output side system line, and the input side disconnecting device is connected to each other via the input side system line. The system line and the output side system line are respectively connected to the input side and the output side of the backup inverter unit.

[Embodiments of the invention]

Hereinafter, one embodiment of the present invention will be described with reference to the drawings.

FIG. 1 shows an example in which the present invention is applied to a system in which the inverter unit is a duplex inverter and a plurality of units are operated. Inverter units 1, 2, and 3 are duplex inverters, and are supplied with power through transformers 7, 8, and 9 from disconnectors 4, 5, and 6 connected to power supply bus P, respectively. The inverter unit 1 is composed of two unit inverters arranged in parallel, and input side disconnecting devices 10, 11 and output side disconnecting devices 12, 13 arranged on the input side and output side of the unit inverters, respectively. Inverter units 2 and 3 are similarly constructed. The output side disconnecting devices 12 and 13 are connected to the electric motor 14. Similarly, the output side disconnecting devices of inverter units 2 and 3 are also connected to the electric motor 1.
5 and 16. By the way, the input side
Each disconnecting device on the output side includes a main disconnecting section and a auxiliary disconnecting section. For example, disconnection devices 10, 11, 12,
In No. 13, the main disconnect portions are 10a, 11a, 1
2a, 13a, preliminary disconnection section 10b, 11b, 1
2b and 13b, respectively. Furthermore, the input side system lines 17 and 18 are connected between the preliminary disconnecting section of the input side disconnecting device.
are connected to each other via. This number of system lines corresponds to the number of multiplexed inverter units.

Similarly, the preliminary disconnecting sections of the output-side disconnecting device are connected to each other via the output-side system lines 19 and 20.

The input side system lines 17 and 18 and the output side systems 19 and 20 are connected to the input side and the output side of the backup inverter unit 21, respectively. In this configuration, for example, if a failure occurs in the unit inverter 1a of the inverter unit 1 that drives the electric motor 14 and it becomes inoperable,
Switching will be performed to the backup inverter unit. That is, first, the disconnector 4 is opened, and then the main disconnector 10a of the disconnector 10 and the main disconnector 12a of the disconnector 12 are opened to disconnect the faulty unit inverter 1a from the system.

Next, by closing the preliminary disconnecting section 10b and the preliminary disconnecting section 12b, and then turning on the disconnector 4, the backup inverter unit 21 is connected to the inverter via the input side system line 17 and the output side system line 19. It is replaced with the unit inverter 1a of the unit 1, and the function of the previous inverter device is restored.

Next, a method of switching to a backup inverter unit will be explained with reference to FIG.

Even after switching the main circuit to the backup inverter unit 21, the control circuit remains connected to the unit inverter 1.
The control circuit 22 of a is used. Switching of the thyristor gate signal to the unit inverter or backup inverter unit is performed by gate signal switching circuits 23 and 24. That is, during unit inverter operation, the gate signal of the inverse converter 25 is converted into an optical signal by the light emitting diode 26, and the gate signal of the forward converter 27 is converted into an optical signal by the light emitting diode 28. 3
2, it becomes an electric signal again and is supplied to the thyristor. On the other hand, when operating the backup inverter unit, the gate signal switching circuit 2
3 and 24, the light emitting diode that converts the gate signal into light is switched from 26 to 33 and from 28 to 34. The gate signal is supplied to the thyristors of the inverse converter 39 and the forward converter 40 via optical fibers 35, 36 and opto-electric conversion circuits 37, 38, as in the case of operating the inverter unit. Note that when optical thyristors are used, the optical-electric conversion circuits 31, 32, 37, and 38 can be omitted.

As is clear from the above, according to the embodiment of the present invention, (1) When a plurality of unit inverters are operated, all the unit inverters can be backed up by one backup inverter. Therefore, economical efficiency is improved.

(2) Compared to the case where a backup inverter circuit is provided for each inverter, the inverter device can be made smaller and lighter.

(3) Full capacity operation can be continued even if a unit inverter of the multiplexed inverter fails.

(4) Failure duration can be shortened.

〔Effect of the invention〕

As explained above, according to the present invention, when a unit inverter fails, all unit inverters can be backed up with an economical configuration, and even in the case of a multiplexed inverter configuration, the failed unit inverter can be disconnected. It is possible to provide an inverter device that can operate at full capacity even after

[Brief explanation of the drawing]

FIG. 1 is a diagram explaining one embodiment of the present invention, and FIG.
The figure is a diagram illustrating a method of switching to a backup inverter unit according to an embodiment of the present invention. 1, 2, 3... Inverter unit, 1a...
Unit inverter, 10, 11... Input side disconnecting device, 10a, 11a... Main disconnecting section, 10b, 11
b... Preliminary disconnecting section, 12, 13... Output side disconnecting device, 12a, 13a... Main disconnecting section, 12b, 13
b...Preliminary disconnection section, 17, 18...Input side system line, 19, 20...Output side system line, 21...Backup inverter unit.

Claims (1)

[Scope of Claims] 1. In an inverter device comprising a disconnection device on the input side and output side of a plurality of inverter units, each of the input side and output side disconnection devices is provided with a main disconnection section and a auxiliary disconnection section, and The preliminary disconnecting sections of the side disconnecting device are connected to each other via the input side system line,
The preliminary disconnecting sections of the output side disconnecting device shall be connected to each other via the output side system line, and the input side system line and the output side system line shall be connected to the input side and output side of the backup inverter unit, respectively. An inverter device featuring: 2. The inverter device according to claim 1, wherein the inverter unit is a multiplexed inverter.