CN102426999A

CN102426999A - Operating mechanism of modularized breaker

Info

Publication number: CN102426999A
Application number: CN2011102686110A
Authority: CN
Inventors: 杨峰; 祝利杰; 王先锋; 司莺歌; 周长青
Original assignee: Zhejiang Chint Electrics Co Ltd
Current assignee: Zhejiang Chint Electrics Co Ltd
Priority date: 2011-09-13
Filing date: 2011-09-13
Publication date: 2012-04-25
Anticipated expiration: 2031-09-13
Also published as: CN102426999B

Abstract

The invention provides an operating mechanism of a modularized breaker. A lever and a lock catch are respectively pivotedly installed at a contact support; there are two states between a first hasp surface on the lever and a second hasp surface on the lock catch, wherein the two states include a contact locking state and a separating unlocking state; on the condition of the contact locking state, the lever, the lock catch and the contact support can not make relative free motions; and on the condition of the separating unlocking state, the lever and the lock catch can make free rotations relatively to the contact support. A moving contact is pivotedly installed at the contact support through a first connection structure and a pressure spring; one end of the spring is connected with the contact support and the other end of the spring is connected with the moving contact; and the spring is used for energy storage and providing contact pressures for the moving contact and a static contact, wherein the moving contact and the static contact are in a closed state. The lock catch is provided with a restriction member that is installed and connected through a second connection structure; an elastic antenna on the restriction member and a glide plane on the housing are contacted and are in a sliding fit. According to the invention, the operating mechanism has advantages of improved reliability and service life, small volume, few parts, and low cost as well as is easy to be produced automatically in a large scale.

Description

The operating mechanism of modularization circuit breaker

Technical field

The present invention relates to a kind of operating mechanism of low-pressure plastic shell circuit-breaker, especially a kind of operating mechanism of modularization miniature circuit breaker.

Background technology

The modularization miniature circuit breaker is widely used in utilities building and private residence at present and uses as branch, combined floodgate, overload, the short-circuit protection of electrical equipment because its volume is little, breaking capacity is high and clamping-rail is easy for installation, receives the favor in market.Existing modularization miniature circuit breaker generally adopts the for example disclosed operating mechanism of Chinese invention patent application CN88103427A; This generic operation mechanism comprises that a toggle that handle constituted that is connected with kinematic link, one have the mechanical chain that a moving contact supportive device that is installed in rotation on the plate on the pivot and can be broken off by the action of trip(ping) bar; This chain be to be installed in a lock bolt on the axle of plate by stop catch of trip(ping) bar and rotation to match and constitute; Connect skewer and be directly connected on the lock bolt, this conventional assembly structure has been formed a deceleration transmission level.

But the part count of existing operating mechanism is many; Operating physical force or tripping force are bigger than normal, are to be fixed together through a spring 38 and a swivel plate 40 like the contact support 36 of CN88103427A, and contact support 36 can be rotated to guarantee the product contact pressure and the excess of stroke with swivel plate 40 among a small circle; This swivel plate not only need occupy bigger space; But also need to adopt expensive material, operating mechanism not only part is many, and efficiency of assembling is low; Make the volume of circuit breaker bigger than normal or after volume-diminished performance index such as breaking capacity descend, be difficult to realize the further microminiaturization of miniature circuit breaker.In addition, be to stick with glue knot or weld together through modes such as bonding or rivet hots to achieve a fixed connection between the moving contact of existing miniature circuit breaker operating mechanism and the contact support, complex procedures, and firmness is unreliable.Not environmental protection of production process produces pernicious gas and the big production efficiency that reduced of labor strength.Because adhesive glue needs two kinds of glue to mix at least; Also need send into the firing equipment oven dry then handles; The duration that not only needs very long bonding agent to solidify, and glue flows out unavoidably in this process, and the problem that bonding agent pollutes the circuit breaker moving contact often takes place inevitably; Possibly cause breaker contact point to have the no power problem, will spend a large amount of man-hours and remove this pollution difficulty.If adopt rivet hot to be fixedly connected mode, not only can cause the decline significantly of production efficiency, and this rivet hot need adopt more expensive material to do strutting piece, and the intensity that thermoplastic is fixedly connected is lower.Moreover, moving contact and contact support are rigidly fixed ways of connecting, make the operating physical force of operating mechanism or tripping force bigger than normal, be unfavorable for the life-span of circuit breaker.

Summary of the invention

What the present invention will solve is the problems referred to above that prior art exists; A kind of operating mechanism of modularization circuit breaker of miniaturization is provided; Be intended to further improve the reliability of circuit breaker, the fail safe and the production efficiency of use, make the miniaturization of circuit breaker volume, more reasonable structure, be easier to extensive automation assembling production.

The technical scheme that the present invention addresses the above problem employing is:

A kind of operating mechanism of modularization circuit breaker; Comprise the operating grip 1 that is pivoted on respectively on the case for circuit breaker 10; Have moving contact 5 contact support 2, be fixedly mounted on fixed contact 9 on the shell 10, the return spring 8 that is connected with operating grip 1 with shell 10 respectively, the energy-stored spring 7, connecting rod 6, the lever 3 that are connected with contact support 2 with shell 10 respectively and be installed in contact and support the snap close 4 on 2; This operating grip 1 is connected with lever 3 hinges through connecting rod 6; Moving contact 5 is carried out closure/disjunction with fixed contact 9 and is cooperated, and said contact support 2 is pivoted on the case for circuit breaker 10 through second pivot 26.Described lever 3 is pivoted on contact respectively with snap close 4 and supports on 2; On lever 3, be provided with the first hasp face 31; On snap close 4, be provided with the second hasp face 41; But the first hasp face 31 is connected with the second hasp face, 41 hasps to make and has the contact locking between the first hasp face 31 and the second hasp face 41 and separate the release two states; And under the first hasp face 31 and contact lock-out state that the second hasp face, 41 hasps are connected, lever 3, snap close 4 and contact are supported free movement relatively between 2 threes; Separate under the released state what the first hasp face 31 and the second hasp face 41 contact hasps were connected, lever 3 and snap close 4 can support 2 freely to rotate with respect to contact.Described moving contact 5 is pivoted in the rotating shaft 22 of contact support 2 through compression spring 11; One end of compression spring 11 supports that with contact 2 are connected; The other end of compression spring 11 is connected with moving contact 5; At the breaker closing state, compression spring 11 energy storage also provide contact pressure to the moving contact 5 that is under the closure state with fixed contact 9.Install to connect a limited part 40 on the described snap close 4, limited part 40 is provided with curved elasticity feeler 401, and said elasticity feeler 401 contacts with sliding surface 104 on the shell 10 and is slidingly matched.

Moving contact can link to each other through first bindiny mechanism with the contact support; Described first syndeton comprises the stopper slot 21 that is formed in the contact support 2, be formed on rotating shaft 22 in the stopper slot 21, be formed on the opening 23 on the sidewall of stopper slot 21 and be formed on the through hole 51 on the moving contact 5; Moving contact 5 pivots through through hole 51 and is installed in the rotating shaft 22; And in packing stopper slot 21 into from opening 23, can only court swing with closing motion direction in the opposite direction so that limits moving contacts 5 jointly rotating shaft 22 and stopper slot 21.

Described snap close 4 can be installed with limited part 40 through second syndeton and be connected; Wherein said second syndeton comprises the mounting groove 42 that is formed on the snap close 4, is formed on the mounting boss 402 on the limited part 40, and limited part 40 is fixedly mounted in the mounting groove 42 of snap close 4 through mounting boss on it 402.Perhaps, described second syndeton comprises the mounting groove 42 that is formed on the limited part 40, is formed on the mounting boss 402 on the snap close 4, and snap close 4 is fixedly mounted in the mounting groove 42 of limited part 40 through mounting boss on it 402.In addition; Described second syndeton also can comprise: said stop 40, snap close 4 all are pivoted on contact through the 4th 24 and support on 2; And said stop 40, snap close 4 apportion contacts are supported 2 both sides; Such as, running through contact support 2 for the 4th 24 and support 2 both sides to stretch out from contact, said stop 40, snap close 4 be an end of the 4th 24 respectively.

Wherein, be at operating grip 1 under the first settling position state of corresponding closing position, the line A between the connecting rod 6 hinged first center of rotation P and the second center of rotation S be positioned at operating grip 1 the first pivot center O below; Be at operating grip 1 under the second settling position state of corresponding separating brake position, described line A be positioned at operating grip 1 the first pivot center O above.Described connecting rod 6 and the lever 3 hinged first center of rotation P are arranged between the second pivot center Q and the first hasp face 31 of lever 3.The extended line of line A between the described connecting rod 6 hinged first center of rotation P and the second center of rotation S passes between the 3rd pivot center R of the second pivot center Q of lever 3 and snap close 4.

Wherein said snap close 4 also comprises a drive link 12 and is formed on the hole 43 on the snap close 4 that an end of drive link 12 is installed in the hole 43.Described snap close 4 is provided with at least one touching face 44.

Wherein said compression spring 11 is a torsion spring.

The present invention adopts less parts to realize the function of operating mechanism; Adopt elasticity to connect the modes of being rigidly connected such as replacing bonding or rivet hot and realize being connected between moving contact and the contact support; Product reliability and life-span have not only been improved; And volume is little, part is few, cost is low, is easy to mass automatic production.

Description of drawings

Fig. 1 is the structural representation of embodiment of the operating mechanism of modularization circuit breaker of the present invention, and the state of each part under first settling position that operating grip 1 is in corresponding make position has been shown among the figure.

Fig. 2 is the structural representation of the gate-dividing state of operating mechanism embodiment shown in Figure 1, and the state of each part under second settling position that operating grip 1 is in corresponding disjunction position has been shown among the figure.

Fig. 3 is the assembling schematic perspective view of operating mechanism embodiment shown in Figure 1.

Fig. 4 is that the back of the body of Fig. 3 is looked schematic perspective view, and syndeton and assembly relation that moving contact and contact are supported have been shown among the figure.

Fig. 5 is the explosive view of operating mechanism embodiment shown in Figure 1, and the shape and structure and the assembly relation of the part of modularization circuit breaker operation mechanism of the present invention has been shown among the figure.

Fig. 6 is the local enlarged diagram of the C among Fig. 2 and Fig. 3, and lever and the contact matching relation that latches under the lock-out state have been shown among the figure.

Fig. 7 is the principle schematic of embodiment shown in Figure 1, and the position relation of operating mechanism center of rotation of motion-related member under closure state has been shown among the figure.

Fig. 8 is the principle schematic of embodiment shown in Figure 1, and the position relation of operating mechanism center of rotation of motion-related member under the disjunction state has been shown among the figure.

Embodiment

Below in conjunction with embodiment shown in the drawings, be example with the miniature circuit breaker, further describe the embodiment of the operating mechanism of modularization circuit breaker of the present invention.The operating mechanism of modularization circuit breaker of the present invention is not limited to the description of following examples.

Referring to the operating mechanism of the miniature circuit breaker shown in Fig. 1 to 6, comprise case for circuit breaker 10, lever 3, snap close 4, moving contact 5, respectively be pivoted on operating grip 1 and contact support 2 on the case for circuit breaker 10, be fixedly mounted on fixed contact 9 on the case for circuit breaker 10, the return spring 8 that is connected with operating grip 1 with case for circuit breaker 10 respectively, respectively with case for circuit breaker 10 and contact support 2 be connected energy-stored spring 7, respectively with operating grip 1 and lever 3 hinged connecting rods 6.Operating grip 1 is installed on first pivot 102 on the case for circuit breaker 10 through first axis hole 19 that is provided with on it pivotally; Operating grip 1 is the first pivot center O (referring to Fig. 8 or 7) around the center that first pivot 102 rotates, and contact support 2 is installed on second axis hole (end illustrates among the figure) on the case for circuit breaker 10 through second pivot 26 that is provided with on it pivotally.One end of return spring 8 is connected with case for circuit breaker 10, and its other end is connected with operating grip 1.One end of energy-stored spring 7 is connected with case for circuit breaker 10, and the other end of energy-stored spring 7 supports that with contact 2 are connected.One end of connecting rod 6 is connected with operating grip 1 hinge; Connecting rod 6 is the second center of rotation S (referring to Fig. 8 or 7) with operating grip 1 hinged center of rotation; The other end of connecting rod 6 supports lever 3 hinges on 2 to be connected with contact, and connecting rod 6 is the first center of rotation P (referring to Fig. 8 or 7) with lever 3 hinged centers of rotation.Moving contact 5 has disjunction state that separates with fixed contact 9 and the closure state that contacts with fixed contact 9, is under the closure state at moving contact 5, and energy-stored spring 7 energy storage correspondingly are under the disjunction state at moving contact 5, and energy-stored spring 7 discharges.Operating grip 1 receives first locating surface 101 and the stop limits of second locating surface 102 on the case for circuit breaker 10, has first settling position and the corresponding described moving contact 5 of corresponding described moving contact 5 and the closure state of fixed contact 9 and second settling position of the disjunction state of fixed contact 9.Operating grip 1 makes operating grip 1 be stabilized in first settling position with contacting of first locating surface 101, under this position, and return spring 8 energy storage; Operating grip 1 makes operating grip 1 be stabilized in second settling position with contacting of second locating surface 102, and under this position, return spring 8 discharges.Here pivot to install and be meant the installation that to rotate (swing of definitely saying so) after two parts are installed together.The hinge connection is meant the connection of having only a rotational freedom after two parts link together.

Described lever 3 is pivoted on contact respectively with snap close 4 and supports on 2; Specifically be meant and in contact support 2, be provided with the 3rd pivot 25 and the 4th pivot 24; On lever 3, be provided with Triaxial hole 32; Lever 3 is pivoted on contact through Triaxial hole 32 and supports on the 3rd pivot 25 on 2, and lever 3 is the second pivot center Q (referring to Fig. 8 or 7) around the center that the 3rd pivot 25 rotates.On snap close 4, be provided with the 4th axis hole 42, snap close 4 is pivoted on contact through the 4th axis hole 42 and supports on the 4th pivot 24 on 2, and snap close 4 is the 3rd pivot center R (referring to Fig. 8 or 7) around the center that the 4th pivot 24 rotates.On lever 3, be provided with the first hasp face 31, on snap close 4, be provided with the second hasp face 41, contact under the lock-out state with the second hasp face 41 at the first hasp face 31, lever 3, snap close 4 and contact are supported free movement relatively between 2 threes.Separate under the released state with the second hasp face 41 at the first hasp face 31, lever 3 can support 2 freely to rotate with respect to contact with snap close 4.On snap close 4, also be provided with a limited part 40; Limited part 40 is installed with snap close 4 through one second syndeton and is connected; Second syndeton described here comprises the mounting groove 42 that is formed on the snap close 4, is formed on mounting boss 402 and circular hole 403 on the limited part 40; Mounting boss 402 is installed in the mounting groove 42, and circular hole 403 is pivoted on contact with snap close 4 and supports on the 4th 24 on 2.Like Fig. 3, shown in 4; Said stop 40, snap close 4 all are pivoted on contact through the 4th 24 and support on 2; And said stop 40, snap close 4 apportion contacts are supported 2 both sides; Run through the front and back of contact support 2 for the 4th 24 and support 2 both sides to stretch out from contact, said stop 40, snap close 4 be an end of the 4th 24 respectively.Second syndeton shown in the drawings is a preferred version; Another program of alternative this scheme is: described second syndeton comprises the mounting groove 42 that is formed on the snap close 4, is formed on the mounting boss 402 on the limited part 40, and mounting boss 402 is fixedly mounted in the mounting groove 42.On limited part 40, be provided with curved elasticity feeler 401, be formed on curved elasticity feeler 401 on the limited part 40 and contact with sliding surface 104 on the case for circuit breaker 10 and be slidingly matched.Moving contact 5 is pivoted on contact through first syndeton and compression spring 11 and supports on 2, and an end of compression spring 11 supports that with contact 2 are connected, and the other end is connected with moving contact 5.First syndeton described here comprises the stopper slot 21 that is formed in the contact support 2, be formed on rotating shaft 22 in the stopper slot 21, be formed on the opening 23 on the sidewall of stopper slot 21 and be formed on the through hole 51 on the moving contact 5; Moving contact 5 pivots from opening 23 through through hole 51 and is installed in the rotating shaft 22, and in the stopper slot 21 of packing into.The width of opening 23 passes through degree of being to allow moving contact 5 from opening 23 less times greater than the width of moving contact 5.Under moving contact 5 is in place state; Three sidewalls (end illustrates among the figure) of rotating shaft 22 and stopper slot 21 limit moving contact 5 jointly can only be towards a direction swing; The closing motion of this swaying direction and moving contact 5 is in the opposite direction, and the direction of the active force that promptly stops with the contact of 9 pairs of moving contacts 5 of fixed contact is consistent.The width of the opening 23 of first syndeton of embodiment shown in the drawings is less times greater than the width of moving contact 5; This is preferred scheme; Another program of alternative this scheme is; The width of opening 23 equals the width of moving contact 5, and the width that require opening 23 this moment guarantees that with tolerance fit between the width of moving contact 5 opening 23 permission moving contacts 5 pass through.Be under the disjunction state at moving contact 5, the elastic acting force of compression spring 11 orders about moving contact 5 and contacts with the bottom surface (end illustrates among the figure) of stopper slot 21, makes moving contact 5 be in the state of supporting 2 no relative displacements (angular displacement) with contact; Be under the closure state at moving contact 5; Because the contact of 9 pairs of moving contacts 5 of fixed contact stops; Make moving contact 5 and contact support 2 to producing relative angular displacement, and results in pressure spring 11 produces strains and energy storage, just; Be under the closure state at moving contact 5, compression spring 11 energy storage also provide contact pressure to moving contact 5 and fixed contact 9.The contact pressure spring 11 preferred torsion springs that adopt.

Below in conjunction with Fig. 1,2,7 and 8, further specify the operation principle of the operating mechanism of modularization circuit breaker of the present invention.Be under the first settling position state shown in Fig. 1 or 7 at operating grip 1; The hinged first center of rotation P of connecting rod 6 and the line A between the second center of rotation S be positioned at operating grip 1 the first pivot center O below; Under this state; Energy-stored spring 7 acts on operating grip 1 through the power that contact support 2, lever 3 pass to connecting rod 6 along line A; Since line A be positioned at operating grip 1 the first pivot center O below; Make operating grip 1 produce clockwise moment of torsion so connecting rod 6 acts on the power of operating grip 1, this moment of torsion promotion operating grip 1 contacts with first locating surface 101 and makes operating grip 1 be stabilized in first settling position, moving contact 5 and fixed contact 9 closures.Be under the second settling position state shown in Fig. 2 or 8 at operating grip 1; The hinged first center of rotation P of connecting rod 6 and the line A between the second center of rotation S be positioned at operating grip 1 the first pivot center O above; Under this state; Energy-stored spring 7 acts on operating grip 1 through the power that contact support 2, lever 3 pass to connecting rod 6 along line A; Since line A be positioned at operating grip 1 the first pivot center O above; Make operating grip 1 produce anticlockwise moment of torsion so connecting rod 6 acts on the power of operating grip 1, this moment of torsion promotion operating grip 1 contacts with second locating surface 102 and makes operating grip 1 be stabilized in second settling position, moving contact 5 and fixed contact 9 disjunctions.Connecting rod 6 and the lever 3 hinged first center of rotation P are arranged between the second pivot center Q and the first hasp face 31 of lever 3; Such setting makes the active force of 6 pairs of levers 3 of connecting rod order about the first hasp face 31 to the swing of the second hasp face 41, to realize the locking that contacts of the first hasp face 31 and the second hasp face 41.The extended line of line A between the connecting rod 6 hinged first center of rotation P and the second center of rotation S passes between the 3rd pivot center R of the second pivot center Q of lever 3 and snap close 4.Because this architectural feature and the first above-mentioned center of rotation P are arranged on the architectural feature between the second pivot center Q and the first hasp face 31, have realized locking or release between lever 3 and the snap close 4.Specifically; Contact under the lock-out state with the second hasp face 41 at the first hasp face 31; Lever 3, snap close 4 and contact are supported free movement relatively between 2 threes, thereby contact support 2 is controlled by the active force of connecting rod 6, combined floodgate or sub-switching operation that can only operation response handle 1.When receiving the touching of circuit breaker actuating device (like electromagnetic tripping apparatus, bimetal leaf) on the touching face 44 of snap close 4 or the drive link 12; Snap close 4 takes place to rotate around the 3rd pivot center R; This rotation makes the second hasp face 41 separate release with the first hasp face 31, thereby lever 3 loses constraint, can support 2 freely to rotate with respect to contact; Contact support this moment 2 is not controlled by the active force of connecting rod 6, and response automatic trip action under the elastic force effect of energy-stored spring 7.After the automatic trip release; The elastic force effect of the elasticity feeler 401 on the limited part 40 of snap close 4 is ordered about snap close 4 toward back rotation; The first hasp face 31 is got back to the second hasp face 41 contacted lock-out state; Under this lock-out state, contact support 2 return to again can only operation response handle 1 combined floodgate or sub-switching operation state.

Referring to Fig. 1,2,3, shown in 5, be installed in snap close 4 in the contact support and also comprise a drive link 12 and be formed on the hole 43 on the snap close 4, an end of drive link 12 is installed in the hole 43, and the other end of drive link 12 cooperates with the shake-up of bimetal leaf (not shown).Described snap close 4 is provided with a touching face 44, is used for cooperating with the shake-up of electromagnetic tripping apparatus (not shown).For satisfying the needs of can be adaptive more actuating device, can increase the quantity of touching face 44, the touching face of increase by 44 can be arranged on other position that can promote the snap close 4 that snap close 4 rotates counterclockwise.

What should be understood that is: the foregoing description is just to explanation of the present invention, rather than limitation of the present invention, and any improvement that does not exceed in the connotation scope of the present invention all falls within protection scope of the present invention.

Claims

1. the operating mechanism of a modularization circuit breaker; Comprise: moving contact (5), fixed contact (9), the energy-stored spring (7), connecting rod (6), lever (3) and the snap close (4) that are pivoted on operating grip (1) on the case for circuit breaker (10), are pivoted on the contact support (2) of case for circuit breaker (10), the return spring (8) that is connected with operating grip (1) with shell (10) respectively, are connected with contact support (2) with shell (10) respectively through second pivot (26); This operating grip (1) is connected with lever (3) hinge through connecting rod (6); Moving contact (5) is carried out closure/disjunction with fixed contact (9) and is cooperated, and it is characterized in that:

Described lever (3) and snap close (4) are pivoted on respectively in the contact support (2); Lever (3) is connected with snap close (4) hasp makes free movement relatively between lever (3), snap close (4) and contact support (2) three, and lever (3) releasing is connected with the hasp of snap close (4) makes lever (3) and snap close (4) recover freely rotating with respect to contact support (2);

Described moving contact (5) is pivoted in the rotating shaft (22) of contact support (2) through compression spring (11); Compression spring (11) is sleeved in the rotating shaft (22); One end of compression spring (11) is connected with contact support (2); The other end of compression spring (11) is connected with moving contact (5), and at the breaker closing state, compression spring (11) energy storage also provides contact pressure to the moving contact (5) and the fixed contact (9) that are under the closure state;

Described snap close (4) go up to install connects a limited part (40), and limited part (40) is provided with curved elasticity feeler (401), and said elasticity feeler (401) contacts with sliding surface (104) on the shell (10) and is slidingly matched.

2. the operating mechanism of modularization circuit breaker according to claim 1; It is characterized in that: contact support (2) is provided with stopper slot (21); The rotating shaft (22) of moving contact (5) is formed in the stopper slot (21); A sidewall of stopper slot (21) is provided with opening (23), and moving contact (5) is provided with through hole (51), and moving contact (5) pivots through through hole (51) and is installed in the rotating shaft (22); And in packing stopper slot (21) into from opening (23), can only court's direction swing in the opposite direction so that limit moving contact (5) jointly with closing motion rotating shaft (22) and stopper slot (21).

3. the operating mechanism of modularization circuit breaker according to claim 1; It is characterized in that: snap close (4) is provided with mounting groove (42), limited part (40) is provided with mounting boss (402), and limited part (40) is inserted in snap close (4) mounting groove (42) through the mounting boss on it (402); Perhaps snap close (4) is provided with mounting boss (402), limited part (40) is provided with mounting groove (42), and snap close (4) is inserted in the mounting groove (42) of limited part (40) through the mounting boss on it (402).

4. the operating mechanism of modularization circuit breaker according to claim 1; It is characterized in that: said stop (40), snap close (4) all are pivoted in the contact support (2) through the 4th (24), and said stop (40), snap close (4) apportion contact are supported the both sides of (2).

5. the operating mechanism of modularization circuit breaker according to claim 1 is characterized in that:

Be at operating grip (1) under the first settling position state of corresponding closing position, the line A between the hinged first center of rotation P of connecting rod (6) and the second center of rotation S be positioned at operating grip (1) the first pivot center O below;

Be at operating grip (1) under the second settling position state of corresponding separating brake position, described line A be positioned at operating grip (1) the first pivot center O above.

6. the operating mechanism of modularization circuit breaker according to claim 1; It is characterized in that: said lever (3) has first a hasp face (31) with snap close (4) hasp, and the hinged first center of rotation P of described connecting rod (6) and lever (3) is arranged between the second pivot center Q and the first hasp face (31) of lever (3).

7. the operating mechanism of modularization circuit breaker according to claim 6 is characterized in that: the extended line of the line A between the hinged first center of rotation P of described connecting rod (6) and the second center of rotation S passes between the 3rd pivot center R of the second pivot center Q of lever (3) and snap close (4).

8. the operating mechanism of modularization circuit breaker according to claim 1 is characterized in that: described snap close (4) also comprises a drive link (12) and is formed on the hole (43) on the snap close (4) that an end of drive link (12) is installed in the hole (43).

9. according to the operating mechanism of claim 1 or 8 described modularization circuit breakers, it is characterized in that: described snap close (4) is provided with at least one touching face (44).

10. the operating mechanism of modularization circuit breaker according to claim 1 is characterized in that: described compression spring (11) is a torsion spring.