A limit switch includes: a switch main body; and an operation unit connected to the switch main body. The operation unit includes: a housing; a shaft member, a biasing member; and a plunger. The shaft member includes a shaft body supported by the housing in a manner rotatable from a return position to an operation position around a rotation axis, and a cam. The plunger includes: a plunger body; and at least one contact portion. The at least one contact portion includes a recess positioned on a facing surface facing the at least one protrusion and recessed in a direction moving closer to the switch main body. The recess includes: a first end; a second end; and an inclined surface. The inclined surface is inclined in a direction moving closer to the switch main body as the inclined surface extends from the second end to the first end.

A limit switch includes: a switch main body; and an operation unit connected to the switch main body. The operation unit includes: a housing; a shaft member, a biasing member; and a plunger. The shaft member includes a shaft body supported by the housing in a manner rotatable from a return position to an operation position around a rotation axis, and a cam. The plunger includes: a plunger body; and at least one contact portion. The at least one contact portion includes a recess positioned on a facing surface facing the at least one protrusion and recessed in a direction moving closer to the switch main body. The recess includes: a first end; a second end; and an inclined surface. The inclined surface is inclined in a direction moving closer to the switch main body as the inclined surface extends from the second end to the first end.

The limit switch uses a rolling sprocket mounted on an offset pivot point mounted in a housing in combination with inserts into individual links of the chain. The sprocket engages the chain using spring tension on the pivot point and rolls along the chain as the chain moves with the teeth of the sprocket inserting into the chain link spaces. An insert is attached in a chain link and positioned such that when the curtain reaches the desired terminal position, the inserts are at the point where the sprocket contact the insert. The insert blocks the cog of the sprocket which pushes the sprocket away from the chain and inwardly into the interior of the housing. Inside the housing the limit switch that is activated—either by contact or other means. The activation of the kill switch stops the motor and thus the movement of the curtains.

The limit switch uses a rolling sprocket mounted on an offset pivot point mounted in a housing in combination with inserts into individual links of the chain. The sprocket engages the chain using spring tension on the pivot point and rolls along the chain as the chain moves with the teeth of the sprocket inserting into the chain link spaces. An insert is attached in a chain link and positioned such that when the curtain reaches the desired terminal position, the inserts are at the point where the sprocket contact the insert. The insert blocks the cog of the sprocket which pushes the sprocket away from the chain and inwardly into the interior of the housing. Inside the housing the limit switch that is activated—either by contact or other means. The activation of the kill switch stops the motor and thus the movement of the curtains.

Techniques are disclosed implementing a lighted guard system, which changes from one color (e.g. white) when the guard is down (i.e. closed) and/or a machine associated with the guard is operational, to another color (e.g. red) when the guard is up (i.e. open) and/or the machine associated with the guard is not operational. The triggering of the change in state of the guard may be facilitated by a switch that changes state based upon a position of the guard.

Techniques are disclosed implementing a lighted guard system, which changes from one color (e.g. white) when the guard is down (i.e. closed) and/or a machine associated with the guard is operational, to another color (e.g. red) when the guard is up (i.e. open) and/or the machine associated with the guard is not operational. The triggering of the change in state of the guard may be facilitated by a switch that changes state based upon a position of the guard.

In an auto cancel mechanism for a turn signal switch device, a click stop mechanism includes a click feeling-generating body formed from an elastic material and supported on a switch case, and a click pin supported on a switch actuator and resiliently pressed against the click feeling-generating body. Since the click feeling-generating body is formed integrally with an elastic stopper part disposed between a guide pin and a front end of a guide groove, the guide pin collides with the elastic stopper part without colliding with the front end of the guide groove, and noise generated by the collision is reduced. Moreover, since the elastic stopper part is formed integrally by utilizing the click feeling-generating body, it is possible to suppress an increase in the number of components and the number of assembly steps.

In an auto cancel mechanism for a turn signal switch device, a click stop mechanism includes a click feeling-generating body formed from an elastic material and supported on a switch case, and a click pin supported on a switch actuator and resiliently pressed against the click feeling-generating body. Since the click feeling-generating body is formed integrally with an elastic stopper part disposed between a guide pin and a front end of a guide groove, the guide pin collides with the elastic stopper part without colliding with the front end of the guide groove, and noise generated by the collision is reduced. Moreover, since the elastic stopper part is formed integrally by utilizing the click feeling-generating body, it is possible to suppress an increase in the number of components and the number of assembly steps.

In an auto cancel mechanism for a turn signal switch device, a click stop mechanism includes a click feeling-generating body formed from an elastic material and supported on a switch case, and a click pin supported on a switch actuator and resiliently pressed against the click feeling-generating body. Since the click feeling-generating body is formed integrally with an elastic stopper part disposed between a guide pin and a front end of a guide groove, the guide pin collides with the elastic stopper part without colliding with the front end of the guide groove, and noise generated by the collision is reduced. Moreover, since the elastic stopper part is formed integrally by utilizing the click feeling-generating body, it is possible to suppress an increase in the number of components and the number of assembly steps.

In an auto cancel mechanism for a turn signal switch device, a click stop mechanism includes a click feeling-generating body formed from an elastic material and supported on a switch case, and a click pin supported on a switch actuator and resiliently pressed against the click feeling-generating body. Since the click feeling-generating body is formed integrally with an elastic stopper part disposed between a guide pin and a front end of a guide groove, the guide pin collides with the elastic stopper part without colliding with the front end of the guide groove, and noise generated by the collision is reduced. Moreover, since the elastic stopper part is formed integrally by utilizing the click feeling-generating body, it is possible to suppress an increase in the number of components and the number of assembly steps.