A device for protecting an inverter include a first power switch configured to be turned on when a first voltage signal from a first switch of a safety relay is applied thereto; a second power switch connected in series with the first power switch, wherein the second power switch is configured to be turned on when a second voltage signal from a second switch of a safety relay is applied thereto; and a power line for connecting the first power switch and the second power switch to each other in series and for connecting the series of the first power switch and the second power switch to a buffer of the inverter, wherein a third voltage signal is applied via the power line to the buffer.

A relay (100) is provided. The relay (100) includes an insulating housing (10) defining an accommodating cavity (11) therein; two binding posts (12) disposed to the insulating housing (10), each having an end extending into the accommodating cavity (11); an insulating plate (20) disposed within the accommodating cavity (11), movable between a first position and a second position, and having two connecting contacts (21) disposed on a first side of the insulating plate (20) facing the binding posts (12); a fuse (30) disposed between the two connecting contacts (21); a mounting base (40) connected to the insulating housing (10); and a push rod (41) movably disposed to the mounting base (40) and connected to the insulating plate (20), in which when the insulating plate (20) is located at the first position, the two connecting contacts (21) abut against the two binding posts (12) respectively, and when the insulating plate (20) is located at the second position, the two connecting contacts (21) detach from the two binding posts (12) respectively.

A relay (100) is provided. The relay (100) includes an insulating housing (10) defining an accommodating cavity (11) therein; two binding posts (12) disposed to the insulating housing (10), each having an end extending into the accommodating cavity (11); an insulating plate (20) disposed within the accommodating cavity (11), movable between a first position and a second position, and having two connecting contacts (21) disposed on a first side of the insulating plate (20) facing the binding posts (12); a fuse (30) disposed between the two connecting contacts (21); a mounting base (40) connected to the insulating housing (10); and a push rod (41) movably disposed to the mounting base (40) and connected to the insulating plate (20), in which when the insulating plate (20) is located at the first position, the two connecting contacts (21) abut against the two binding posts (12) respectively, and when the insulating plate (20) is located at the second position, the two connecting contacts (21) detach from the two binding posts (12) respectively.

An insulating switch assembly is disclosed. The insulating switch assembly provides electrical insulation between a user and highly charged electric components by employing highly-resistive or nonconductive material. The insulating switch assembly also distances the user from the electrical components by increasing the distance from the user input device and electric components. The user of the insulating switch assembly is provided layers of electrical insulation.

An insulating switch assembly is disclosed. The insulating switch assembly provides electrical insulation between a user and highly charged electric components by employing highly-resistive or nonconductive material. The insulating switch assembly also distances the user from the electrical components by increasing the distance from the user input device and electric components. The user of the insulating switch assembly is provided layers of electrical insulation.

A first terminal housing chamber of a terminal body includes a first elastic contact part that contacts the first counterpart terminal while imparting resilient force in a direction orthogonal to an insertion direction of the first counterpart terminal, and gaps with respect to the first counterpart terminal in a direction orthogonal to the insertion direction of the first counterpart terminal and the resilient force imparting direction of the first elastic contact part. A second terminal housing chamber of the terminal body includes a second elastic contact part that contacts the second counterpart terminal while imparting resilient force in a direction orthogonal to an insertion direction of the second counterpart terminal, and gaps with respect to the second counterpart terminal in a direction orthogonal to the insertion direction of the second counterpart terminal and the resilient force imparting direction of the second elastic contact part.

In order to suppress both large current and arc discharge during hot switching, a grounding circuit includes a first relay, a second relay, and a third relay, a first resistance connected in series with the first relay and is capable of connecting the feeding path to the ground, and a voltage divider connected in series with the second relay and the third relay and is connectable in such a way as to divide voltage between the feeding path and the ground, the third relay being disposed at a point at which the voltage is divided, and when the feeding path is to be connected to the ground, the feeding path is connected to the ground via the first resistance by the first relay, the voltage divider is connected in parallel with the first relay and the first resistance, and a connection to the ground is cut off.

In order to suppress both large current and arc discharge during hot switching, a grounding circuit includes a first relay, a second relay, and a third relay, a first resistance connected in series with the first relay and is capable of connecting the feeding path to the ground, and a voltage divider connected in series with the second relay and the third relay and is connectable in such a way as to divide voltage between the feeding path and the ground, the third relay being disposed at a point at which the voltage is divided, and when the feeding path is to be connected to the ground, the feeding path is connected to the ground via the first resistance by the first relay, the voltage divider is connected in parallel with the first relay and the first resistance, and a connection to the ground is cut off.

An insulating switch assembly is disclosed. The insulating switch assembly provides electrical insulation between a user and highly charged electric components by employing highly-resistive or nonconductive material. The insulating switch assembly also distances the user from the electrical components by increasing the distance from the user input device and electric components. The user of the insulating switch assembly is provided layers of electrical insulation.

An insulating switch assembly is disclosed. The insulating switch assembly provides electrical insulation between a user and highly charged electric components by employing highly-resistive or nonconductive material. The insulating switch assembly also distances the user from the electrical components by increasing the distance from the user input device and electric components. The user of the insulating switch assembly is provided layers of electrical insulation.