RU2006105650A - TURNING LOCK-CHAIN MECHANISM FOR AUTOMATIC FUSE - Google Patents

Abstract

The mechanism has a spring mechanism (38) and a lever (8) with a stop surface. The surface and a coupling surface (22) define housing with walls forming a stop when a coupling lever (18) is in stable position. A coupling end of a hand-lever (3) is forced against the stop. The surface (22) is conformed such that at all points of the surface, a normal to the surface is oriented along a direction meeting a rotating axis of the lever (18).

Claims (19)

1. A rotary locking and coupling mechanism for an automatic fuse comprising a housing, a pivot handle (3) mounted rotatably on a fixed axis (5) relative to the housing and comprising a coupling end (7), wherein said handle (3) may occupy a position switching on and off position, while experiencing the action of the spring (13) in the direction of the switching off position, the intermediate lever (8), mounted with the possibility of rotation around a fixed axis (12) relative to the housing and with the possibility of interaction with the coupling end (7) of the hinge handle (3), the coupling lever (18) mounted for rotation about an axis (17) mounted on the intermediate lever (8), and containing a coupling surface (22) configured to interact with the coupling end (7) a hinge handle (3), a mechanism spring (38) acting on said coupling lever (18) by a force causing it to rotate about its axis (17) in a predetermined direction, a contact device comprising at least one fixed contact (1) and at least one corresponding subs contact (2), while this device can occupy a first position in which the fixed contact (1) and the movable contact (2) depart from each other, and a second position in which the fixed contact (1) and the movable contact (2) pressed against each other, while the transition from the first position to the second position is controlled by an intermediate lever (8), means of holding (26, 30) of the clutch lever (18) in a stable position, containing a strut (27) against which the clutch lever (18 ) under the action of the spring (38) of the mechanism, the drive device (36), occupying the recessed recessed position in which it is separated from the restraint means (26, 30), and the extended position in which it acts on the restraint means (26, 30), while the said mechanism can occupy a contact position in which the hinge handle (3) in its position of inclusion rests, acting on the said coupling end (7), in the emphasis (39), formed simultaneously by the coupling surface (22) of the coupling lever (18) in its stable position and the intermediate lever (8), thus acting on the intermediate lever (8) to hold the contact devices in its second position, characterized in that the intermediate lever (8) contains a locking surface (15), and when the coupling lever (18) is in a stable position, the coupling surface (22) and the locking surface (15) form a nest with converging walls forming the said stop (39), to which the coupling end (7) of the hinge handle (3) is pressed, the coupling surface (22) is made in such a way that at any point of this coupling surface (22) the normal to it occupies a direction, coupled with a rotary axis (17) th lever (18). 2. The locking mechanism according to claim 1, characterized in that the coupling surface (22) of the coupling lever (18) is formed by a cylindrical section centered on the pivot axis (17) of the coupling lever (18). 3. The locking mechanism according to one of claim 1 or 2, characterized in that the coupling end (22) of the hinge handle (3) is formed by a cylindrical section centered on an axis parallel to the rotary axis (17) of the coupling lever (18). 4. The locking mechanism according to one of claim 1 or 2, characterized in that the coupling lever (18) comprises a first contact surface (19) and a second contact surface (20), with the spring (38) of the rotation mechanism acting on the latter; the coupling lever (18) around its axis (17). 5. The locking mechanism according to claim 4, characterized in that the first contact surface (19) and the second contact surface (20) are located on both sides of the rotary axis (17) of the clutch lever (18), and the holding means (26, 30) contain a support section (28), which is located near the strut (27) and, when the mechanism is in its contact position, is pressed against the aforementioned first contact surface (19). 6. The locking mechanism according to one of claim 1 or 2, characterized in that the mechanism further comprises a double-acting spring (35) interacting with the clutch lever (18) and with the strut (27) with the possibility of acting on said strut (27) in direction of the clutch lever (18). 7. The locking mechanism according to claim 4, characterized in that the holding means comprise an auxiliary lever (26) mounted for rotation about an axis (25) mounted on the intermediate lever (8), while the auxiliary lever (26) on one of of its ends contains a strut (27), a lever (30) of shutdown, made with the possibility of rotation around a fixed axis (31) relative to the housing and with the possibility of interaction with the drive device (36), as well as with an auxiliary lever (26), removing the strut (27 ) from the first contact surface (19), when the drive device (36) passes from its recessed position to an extended position. 8. The locking mechanism according to claim 4, characterized in that the spring (38) of the mechanism is a spring containing a cylindrical spiral of coils, as well as two protruding ends, while the cylindrical spiral of coils is centered on the rotary axis (12) of the intermediate lever (8), in this case, when the mechanism is in a contact position, one of the ends rests on said second contact surface (20), and the second end rests on a restrictive rod (23), which is stationary relative to the housing. 9. The locking mechanism according to claim 7, characterized in that on both sides of its pivot axis (25), the auxiliary lever (26) comprises a strut (27) and a shoulder (29) containing an end portion configured to interact with the lever ( 30) shutdowns. 10. The locking mechanism according to claim 7, characterized in that the disconnect lever (30) comprises two arms (32, 33) that form an angle between themselves and are connected on the rotary axis (31) of the disconnect lever (30), the first arm ( 32) contains a section located opposite the drive unit (32), and the second shoulder (33) contains a rounded section designed to interact with the auxiliary lever (26). 11. The locking mechanism according to one of claim 1 or 2, characterized in that the means of restraint (26, 30) comprise a cocking finger (37) configured to expose the spring (38) of the mechanism to it when the mechanism is not in its contact position, while the cocking finger (37) allows the mechanism spring (38) to translate the drive device (36) from its extended position to the recessed position. 12. The locking mechanism according to claim 10, characterized in that the shutdown lever (30) comprises a cocking finger (37) located on the first shoulder (32) outside the area opposite the drive unit (36) and configured to act on to it by the spring (38) of the mechanism when the mechanism is not in the contact position, while the cocking pin (37) allows the spring (38) of the mechanism to press the first shoulder (32) to the drive device (36) to bring the latter into a recessed position. 13. The locking mechanism according to one of claim 1 or 2, characterized in that it further comprises a cocking spring (40) configured to exert a force on the holding means (26, 30) when the mechanism is not in a contact position, while the spring (40) cocking allows you to translate the drive device (36) from the extended position to the recessed position. 14. The locking mechanism according to claim 10, characterized in that it further comprises a platoon spring (40) configured to exert a force on the disconnect lever (30) when the mechanism is not in a contact position, while the platoon spring (40) allows pressing the first shoulder (32) to the drive unit (36) to move the latter to the recessed position. 15. The locking mechanism according to one of claim 1 or 2, characterized in that the intermediate lever (8) comprises a ramp (14) configured to engage the coupling end (7) of the hinge handle (3), the locking surface ( 15) is located at the entrance of the mentioned ramp (14). 16. The locking mechanism according to one of claim 1 or 2, characterized in that it further comprises a restrictive pin (24) connected to the intermediate lever (8) and configured to limit the angular amplitude of rotation of the coupling lever (18) relative to the intermediate lever (8 ) 17. The locking mechanism according to one of claim 1 or 2, characterized in that the hinged handle (3) contains a manual lever (4) protruding from the fuse body with the possibility of actuating it from the outside, as well as a rod (6) connected to the help of the hinge with the said lever (4) and containing at its end opposite the hinge, the said coupling end (7). 18. The locking mechanism according to one of claim 1 or 2, characterized in that the movable contact (2) comprises a bracket mounted to rotate on an axis (11) that is stationary relative to the housing, the mechanism further comprising a rod (9) connecting the intermediate a lever (8) and a movable contact (2) for controlling the contact device using this intermediate lever (8). 19. The locking mechanism according to one of claim 1 or 2, characterized in that the drive device (36) is an electromechanical power cylinder.