RU2018129468A - Miniature circuit breaker operating mechanism - Google Patents

Claims (11)

1. The operating mechanism of the miniature circuit breaker, comprising a handle (2) pivotally mounted on the housing (1), a drive connecting rod (3), a fixed contact (10) and a movable contact (4) placed in the housing (1), as well as a tension spring (13) and a disengaging lever (5), moreover, one end of the drive connecting rod (3) is pivotally connected to the handle (2), and the other end of the drive connecting rod (3) is mated to a movable contact (4), one end of the tension spring (13) ) is mounted on the housing (1), and the other end of the tension spring (13) is connected to the slide contact pin (4); the movable contact (4) is driven by the tension spring (13) together with the drive connecting rod (3) to create the contact pressure and elastic tensile forces necessary to ensure the reliability of the electrical contact to close the movable contact (4) and the fixed contact (10), and the tension spring (13) creates the elastic force of the stored energy necessary to return the mechanism for uncoupling the movable contact (4) from the stationary contact (10); in this case, the switching lever (5) is placed on the movable contact (4), and is used to control the locking and unlocking interaction between the drive connecting rod (3) and the movable contact (4); with automatic shutdown, the disengaging lever (5) disconnects the drive connecting rod (3) from the movable contact (4) to automatically disengage the working mechanism. 2. The working mechanism according to claim 1, characterized in that the shaft (6) of the rotation of the mechanism and the restrictive shaft (7) are provided in the housing (1), while the movable contact (4) is pivotally mounted on the rotation shaft (6) of the mechanism, movable contact (4) is fixed on the rotation shaft (6) of the mechanism and the restriction shaft (7) with a tension spring (13). 3. The working mechanism according to claim 2, characterized in that the movable contact (4) is mounted to rotate on the shaft (6) of rotation of the mechanism through the arcuate hole (41) provided on it, the installation and interaction between the arcuate hole (41) of the movable contact (4) and the rotation shaft (6) of the mechanism provide that the tension gap h has a value such that the movable contact (4) and the fixed contact (10) are closed. 4. The operating mechanism according to claim 2, characterized in that the movable contact (4) is provided with an arcuate hole (41), a drive groove (42), a hinge hole (43), a restrictive groove (44), a spring hook (45) and a point touch (40) of the movable contact, and the arcuate hole interacts with the rotation shaft (6) of the housing mechanism (1); restrictive groove (44) interacts with the restrictive shaft (7) of the housing (1); the drive groove (42) on the movable contact (4) interacts in a drive manner with the drive end (32) of the drive connecting rod (3), and the hinge hole (43) on the movable contact (4) interacts with the axis (52) on the switch lever (5) ) 5. The working mechanism according to claim 4, characterized in that the movable contact (4) is provided with an arcuate hole (41) and a hinge hole (43), one end is provided with a concave drive groove (42), and the other end is provided with a touch point ( 40) a movable contact, a spring hook (45) is located between the arcuate hole (41) and the drive groove (42), a restrictive groove (44) is located between the arcuate hole (41) and the movable contact (4), the hinge hole (43) is located between restrictive groove (44) and arcuate hole (41), arcuate opening s (41) disposed in the movable contact part 4, near to the spring hook (45), and pivot hole (43) disposed in the movable contact portion (4), proximal to the confining groove (44). 6. The operating mechanism according to claim 1, characterized in that one end of the movable contact (4) is provided with a drive groove (42), which interacts with the drive end (32) of the drive connecting rod (3), which pivots the lever (5) pivotally mounted on a movable contact (4), provided with a trip part (53) and a locking surface (51) for realizing a locking and unlocking interaction between the drive connecting rod (3) and the movable contact (4). 7. The operating mechanism according to claim 6, characterized in that the locking interaction consists in the fact that the locking surface (51) on the switching lever (5) abuts against the drive end (32) of the drive connecting rod (3), the drive end (32) it is locked in the drive groove (42) on the movable contact (4), and the drive end (32) of the drive connecting rod (3) and the locking surface (51) of the switch lever (5) create a locking force acting together on the drive groove (42); and the unlocking interaction consists in the fact that the locking surface (51) on the switching lever (5) is separated from the drive end (32) of the drive connecting rod (3), and the drive end (32) extends into the drive groove (42) on the movable contact ( 4). 8. The operating mechanism according to claim 1, characterized in that the switch-off lever (5) is further provided with a return device for turning the switch-off lever (5) about an axis (52), which brings the locking surface (51) on the switch-off lever (5) to stop on the drive end (32) of the drive connecting rod (3), as a result of which the drive end (32) is locked in the drive groove (42) on the movable contact (4) so that the drive connecting rod (3) and the movable contact (4 ) are mutually locked. 9. The operating mechanism according to claim 1, characterized in that the trip part (53) on the shut-off lever (5) is rotated by the trip device of the miniature switch around the axis (52) and brings the locking surface (51) of the shut-off lever (5) into a state of separation from the drive end (32) of the drive connecting rod (3), which allows the drive end (32) to enter the drive groove (42) on the movable contact (4) so that the drive connecting rod (3) and the movable contact (4) are unlocked. 10. The operating mechanism according to claim 1, characterized in that the continuation of the line connecting the two ends (31) and (32) of the drive connecting rod (3) is stabilized below the center of rotation “O” of the handle (2) in a position in which the movable contact (4) and fixed contact (10) are closed; the continuation of the line connecting the two ends (31) and (32) of the drive connecting rod (3) is stabilized above the center of rotation “O” of the handle (2) in a position in which the movable contact (4) and the fixed contact (10) are open; and during the shutdown process, the continuation of the line connecting the two ends (31) and (32) of the drive connecting rod (3) moves from a position below the center of rotation “O” of the handle (2) to a position above the center of rotation “O”. 11. The working mechanism according to p. 3, characterized in that in the state when the movable contact (4) and the fixed contact (10) are closed, the force acting on the movable contact (4) is the sum of the pulling force of the tension spring (13), contact pressure of the fixed contact (10) acting on the contact point (40) of the movable contact, and the locking forces of the drive end (32) of the drive connecting rod (3) and the locking surface (51) of the switch lever (5) acting together on the drive groove ( 42) movable contact (4), where the resulting contact force pressure and closing force is balanced by the pulling force of the tension spring (13); and in the state when the movable contact (4) and the stationary contact (10) are open, the force acting on the movable contact (4) is the sum of the pulling force of the tension spring (13), the restraining force of the shaft (6) of rotation of the mechanism on the housing (1 ) acting on the arcuate hole (41) and the contact force of the restrictive shaft (7) of the housing (1) acting on the restrictive groove (44) of the movable contact (4), where the resulting contact force and the pulling force of the tension spring (13) are balanced restraining force of the shaft (6) Ma acting on the arcuate aperture (41).