The present disclosure relates to a three-phase terminal block having a leakage current limiting function, in which a leakage current may be limited by expanding an area of a neutral line of a three-phase four-wire line connected to the terminal block, and thus the risk of electric shock to the human body due to the leakage current may be minimized.

A terminal block includes a state display portion which displays whether a conductor portion and a terminal electrode portion are in a connected state or a non-connected state at a third opening portion and a movable display member. The movable display member has a main body portion capable of reciprocating in a direction intersecting a terminal connection surface, a contact portion capable of coming into contact with a conductor portion inserted from a first opening portion into an accommodating portion, a force transmitting portion which moves the main body portion toward the terminal connection surface when the conductor portion is inserted from the first opening portion to the accommodating portion, and rotating mechanism portions which rotate the state display portion so that display of the state display portion can be changed between a connected state and a non-connected state in accordance with the reciprocating movement of the main body portion.

A terminal block includes a state display portion which displays whether a conductor portion and a terminal electrode portion are in a connected state or a non-connected state at a third opening portion and a movable display member. The movable display member has a main body portion capable of reciprocating in a direction intersecting a terminal connection surface, a contact portion capable of coming into contact with a conductor portion inserted from a first opening portion into an accommodating portion, a force transmitting portion which moves the main body portion toward the terminal connection surface when the conductor portion is inserted from the first opening portion to the accommodating portion, and rotating mechanism portions which rotate the state display portion so that display of the state display portion can be changed between a connected state and a non-connected state in accordance with the reciprocating movement of the main body portion.

The terminal block includes a movable operation feeling generating member (60) which generates an operation feeling according insertion of a conductor portion into an accommodating portion (12) from a first opening portion (111), and a first protruding portion (63) disposed in the accommodating portion to be capable of coming into contact with the movable operation feeling generating member being rotated by the insertion of the conductor portion into the accommodating portion from the first opening portion after the conductor portion and a terminal electrode portion (20) are changed from the non-connected state to the connected state. The movable operation feeling generating member includes a first contact portion (61) capable of coming into contact with the conductor portion inserted into the accommodating portion, and a second contact portion (62) which has a second protruding portion (70) generating the operation feeling by coming into contact with the first protruding portion (63).

A circuit having a digital output for connecting an electrical wire that is connected to an actuator, the digital output having a high level in a first voltage range, a low level in a second voltage range, and a third voltage range that is formed between the first voltage range and the second voltage range. The circuit being configured to output a test voltage, wherein the test voltage differs by a voltage difference from the high level and the low level.

An electrical connection terminal between two conductive elements includes at least one tightening screw, including a head and a thread, a stirrup, mounted around each screw, between the head and the thread of the screw, and a connector for each screw. Each connector includes a first stage, delimiting a tapping for receiving the tightening screw, and a second stage, arranged between the first stage and the stirrup and including a hole for passage of the screw, aligned with the tapping, the first stage being mobile relative to the second stage parallel to an axis of the screw. The terminal also includes a recess for receiving a first conductive element between the two stages of the connector, and a recess for receiving a second conductive element between the stirrup and the connector.

An easy assembly control panel and method is disclosed. In one example, an enclosure is provided having a pilot device coupled to the enclosure. A pre-assembled control panel is inserted into the enclosure, quick coupling the control panel to the pilot device and providing control communication between the pilot device and the control panel. No additional manual wiring or manual mechanical coupling is needed to couple the user interface device to the control panel. The control panel can be used as part of a system, such as a submersible pump system.

A terminal block includes: busbars connected to a device; a collar through which a fastening member is inserted; a housing integrally molded with the busbars and the collar; and a capacitor including a casing and a ground terminal protruding from the casing, the capacitor connected to the busbars, in which the housing houses the casing in a state where the ground terminal faces the collar so that the ground terminal and the collar can be fastened together to a metal case by the fastening member.

A terminal block for a power device includes a casing and a power cord. The terminal block is configured to be secured within the casing and to secure the power cord. The terminal block includes a body configured to fit within the casing of the power device. The body has at least one recess formed therein. The terminal block further includes at least one current transformer sized to fit within the at least one recess of the body.

Disclosed is a novel connector module structure, to be installed in a system to form connection between at least two functional modules. The connector module provides jumper connection capabilities, i.e., allowing one of its connection terminals to form electrical connection with a connection terminal of one or more particular non-adjacent connector modules.