A calibration joint for a three-phase electric disconnect switch includes a linkage pipe extending through a lock ring, which includes an axial guide shaft, a threaded shaft, and a self-piercing set screw securing the lock ring to the linkage pipe. The linkage pipe also extends through a clevis housing, which includes an axial joiner shaft and a clevis bracket securing the clevis housing to an operating lever of the disconnect switch. An adjustment rod extending through the axial guide shaft of the lock ring, through the axial joiner shaft of the clevis housing, and engaging with lock nuts allows axial adjustment of the clevis housing with respect to the lock ring, and thus with respect to the linkage pipe. This, in turn, allows fine adjustment of the blade and jaws of an associated phase switch with respect to the switch actuator independent of the other phase switches.

A calibration joint for a three-phase electric disconnect switch includes a linkage pipe extending through a lock ring, which includes an axial guide shaft, a threaded shaft, and a self-piercing set screw securing the lock ring to the linkage pipe. The linkage pipe also extends through a clevis housing, which includes an axial joiner shaft and a clevis bracket securing the clevis housing to an operating lever of the disconnect switch. An adjustment rod extending through the axial guide shaft of the lock ring, through the axial joiner shaft of the clevis housing, and engaging with lock nuts allows axial adjustment of the clevis housing with respect to the lock ring, and thus with respect to the linkage pipe. This, in turn, allows fine adjustment of the blade and jaws of an associated phase switch with respect to the switch actuator independent of the other phase switches.

A quick-alignment linkage for a three-phase electric disconnect switch includes a drive pipe, a linkage pipe, and a linkage interconnecting the drive pipe and the linkage pipe. The linkage includes quick-alignment straight edge configured to be parallel to the centerline of the drive pipe when the drive pipe is in the fully closed drive pipe position. The quick-alignment straight edge is typically positioned adjacent to a calibration mechanism of the linkage when the drive pipe is in the fully closed drive pipe position. The drive pipe may also include a flat surface with an alignment indicator configured to be parallel to the quick-alignment straight edge when the drive pipe is in the fully closed drive pipe position. The alignment indicator is also positioned adjacent to the calibration mechanism and its quick-alignment straight edge when the drive pipe is in the fully closed drive pipe position.

A quick-alignment linkage for a three-phase electric disconnect switch includes a drive pipe, a linkage pipe, and a linkage interconnecting the drive pipe and the linkage pipe. The linkage includes quick-alignment straight edge configured to be parallel to the centerline of the drive pipe when the drive pipe is in the fully closed drive pipe position. The quick-alignment straight edge is typically positioned adjacent to a calibration mechanism of the linkage when the drive pipe is in the fully closed drive pipe position. The drive pipe may also include a flat surface with an alignment indicator configured to be parallel to the quick-alignment straight edge when the drive pipe is in the fully closed drive pipe position. The alignment indicator is also positioned adjacent to the calibration mechanism and its quick-alignment straight edge when the drive pipe is in the fully closed drive pipe position.

Fuse devices and electrical systems using the fuse devices are disclosed, with the fuse devices having internal components to cause a fuse blown event when the pre-determined current level is reached through the contacts. The internal components can comprise a levitation actuator that causes separation between one or more of the contacts as the current level approaches the predetermined level. This causes contact levitation and arcing, which increases the resistance at the contact being separated. This in turn causes the current through the contacts to seek another path that in the embodiments herein is a path to a pyro feature. The current activates the pyro feature, which causes the contacts to separate and puts the fuse device in “fuse blown” condition where currents can no longer flow through the contacts.

Fuse devices and electrical systems using the fuse devices are disclosed, with the fuse devices having internal components to cause a fuse blown event when the pre-determined current level is reached through the contacts. The internal components can comprise a levitation actuator that causes separation between one or more of the contacts as the current level approaches the predetermined level. This causes contact levitation and arcing, which increases the resistance at the contact being separated. This in turn causes the current through the contacts to seek another path that in the embodiments herein is a path to a pyro feature. The current activates the pyro feature, which causes the contacts to separate and puts the fuse device in “fuse blown” condition where currents can no longer flow through the contacts.

A safety switch assembly for use on a movable device. The assembly includes a bracket, an impact surface that is held in position in the bracket, and a switch. The bracket and impact surface are clamped against the movable device. The impact surface is an easily replaceable component.

A modular structure for safety switches for controlling access for machines and industrial plants comprises a casing (2) housing switching means for controlling one or more circuits of the machine or plant, drive means adapted to interact with the switching means upon the opening/closing of the access, an auxiliary module (3-3.sup.v) housing at least one control (4.sup.i-4.sup.v) adapted to be manually operated to operate on the switching means and/or the drive means and comprising a box hollow body (5) having at least one opening (6) for inserting the control (4.sup.i-4.sup.v) provided with first means for removably connecting the control (4.sup.i-4.sup.v), the latter being selected within a series of controls (4.sup.i-4.sup.v) having functions different from each other and each provided with a fastening rod (7.sup.i-7.sup.v) adapted to be inserted in the opening (6) of the box body (5) and provided with second connecting means complementary to the first connecting means.

The invention relates to a circuit arrangement (100) for evaluating at least two switching states of an actuating element, having a moveable contact means (110) which is connectable to the actuating element, a first evaluation circuit (140a) with a first voltage divider, which has first node points (K1a, K2a, K3a, K4a, K5a) and a first tap (150a) for tapping off a first output signal (A1, A3, A5) of the first evaluation circuit (140a), at least one second evaluation circuit (140b) with a second voltage divider, which has second node points (K1b, K2b, K3b, K4b, K5b) and a second tap (150a) for tapping off a second output signal (A2, A4, A6) of the second evaluation circuit (140b), first contact surfaces (121a, 122a, 123a, 124a, 125a) which are each electrically connected to one of the first node points (K1a to K5a), and second contact surfaces (121b, 122b, 123b, 124b, 125b) which are each electrically connected to one of the second node points (K1b to k5b), wherein via the movable contact means (110), depending on the switching state of the actuating element at least one of the first contact surfaces (121a to 125a) and/or at least one of the second contact surfaces (121b and 125b) are electrically connectable to a predetermined reference potential (P). The invention also relates to a method for operating a circuit arrangement (100), and to a switching device having a circuit arrangement (100).

Problem: Provided are a typing assistance member that enables keys located away from character keys, such as a backspace key, an enter key, and a delete key, which are relatively frequently used, to be easily pressed, and can suppress erroneous key input, and a keyboard provided with the typing assistance member.

Solution: A typing assistance member is fixed on a predetermined key of a keyboard used in a personal computer. The typing assistance member is a columnar pressing column disposed such that the key can be pressed by fixing one end to a pressing surface of the key, and a height of the pressing column is larger than a stroke depth of the key.