Low-frequency circuit breaker

What is claimed is: 1. A low-frequency circuit breaker, comprising: a semiconductor switch and a mechanical switch, the semiconductor switch configured by connecting first and second thyristors in anti-parallel with each other, wherein the mechanical switch is connected in series with alternating-current paths forming part of an alternating-current circuit, and the semiconductor switch is connected between different phases of the alternating-current paths, and the mechanical switch is constantly made conductive to cause a conduction current to flow to the alternating-current paths, the first and second thyristors are made conductive by supplying a gate signal to the first and second thyristors at least immediately before current cutoff, the conduction current through the alternating-current paths is switched to flow through the thyristors by opening the mechanical switch, and the gate signal to the thyristors is turned off to cut off the conduction current through the alternating-current paths after switching the conduction current. 2. A low-frequency circuit breaker, comprising: a semiconductor switch and a mechanical switch, the semiconductor switch configured by connecting first and second thyristors in anti-parallel with each other, wherein the mechanical switch is connected in series with alternating-current paths forming part of an alternating-current circuit, and the semiconductor switch is connected between different phases of the alternating-current paths; an abnormality detector which detects an abnormality of a current flowing through the alternating-current paths; and a circuit breaker control circuit which makes the mechanical switch constantly conductive to cause a conduction current to flow to the alternating-current paths, makes the first and second thyristors conductive by supplying a gate signal to the first and second thyristors at least immediately before current cutoff, makes the conduction current through the alternating-current paths be switched to flow through the thyristors by supplying an open command to the mechanical switch when an abnormality of a current is detected, and turns off the gate signal to the thyristors after switching the conduction current, thereby to cut off an abnormal current flowing through the alternating-current paths. 3. A low-frequency circuit breaker for use in a system which converts alternating-current power into electric power through alternating-current paths forming part of an alternating-current circuit by a power converter, and supplies the converted electric power to a load, comprising: an abnormality detector which detects a short circuit of a semiconductor device forming part of the power converter; a semiconductor switch and a mechanical switch, the semiconductor switch configured by connecting first and second thyristors in anti-parallel with each other, wherein the mechanical switch is connected in series with the alternating-current paths, and the semiconductor switch is connected between different phases of the alternating-current paths; and a circuit breaker control circuit which makes the mechanical switch constantly conductive to cause a conduction current to flow to the alternating-current paths, makes the first and second thyristors conductive by supplying a gate signal to the first and second thyristors at least immediately before current cutoff, makes the conduction current through the alternating-current paths be switched to flow through the thyristors by supplying an open command to the mechanical switch when a short circuit of a semiconductor device forming part of the power converter is detected by the abnormality detector, and turns off the gate signal to the thyristors after switching the conduction current, thereby to cut off an abnormal current flowing through the alternating-current paths. 4. A low-frequency circuit breaker for use in a wind generator system which converts alternating-current power generated by a permanent-magnet-type wind generator installation into electric power through alternating-current paths forming part of an alternating-current circuit by a power converter made of an IGBT element, and supplies the converted electric power to a load, comprising: an abnormality detector which detects an abnormality of a current flowing through the alternating-current paths or detects a short circuit of the IGBT element; a semiconductor switch and a mechanical switch, the semiconductor switch configured by connecting first and second thyristors in anti-parallel with each other, wherein the mechanical switch is connected in series with the alternating-current paths, and the semiconductor switch is connected between different phases of the alternating-current paths; and a circuit breaker control circuit which makes the mechanical switch constantly conductive to cause a conduction current to flow to the alternating-current paths, makes the first and second thyristors conductive by supplying a gate signal to the first and second thyristors at least immediately before current cutoff, makes the conduction current through the alternating-current paths be switched to flow through the thyristors by supplying an open command to the mechanical switch when an abnormality of a current is detected or a short circuit of the IGBT element is detected by the abnormality detector, and turns off the gate signal to the thyristors after switching the conduction current, thereby to cut off an abnormal conduction current flowing through the alternating-current paths.