CN204376780U - The operating mechanism of the motor starter of the quick disjunction of energy - Google Patents

Abstract

The operating mechanism of the motor starter of the quick disjunction of energy, comprise drive bevel gear, operation knob, trip gear and be pivoted on driven taper gear on side plate and push rod by pivot, drivenly engage all the time with drive bevel gear, operation knob, active and driven taper gear three can link mutually.One linkage comprises the combination of ratchet device, connecting rod and trip gear, energy-stored spring, there is the mechanism dead point and following driving-chain relation that are limited by the position of connecting rod: make driven taper gear order about ratchet device to the rotational in separating brake direction and connecting rod moves simultaneously, the motion of ratchet device touches trip gear and unlocks and make energy-stored spring drive push rod to forward open position to, the motion of connecting rod simultaneously still process auxiliary drive tripping campaign until finally make push rod forward open position to; Make ratchet device reset and make link motion with the rotational making driven taper gear to combined floodgate direction, drive tripping to drive push rod to forward closing position to, safe and reliable.

Description

The operating mechanism of the motor starter of the quick disjunction of energy

Technical field

The utility model relates to Low Voltage Electrical Apparatus, is specifically related to the operating mechanism of a kind of alternating current machine starter or low-voltage circuit breaker, the operating mechanism of the motor starter of the particularly quick disjunction of a kind of manually operated energy.

Background technology

AC motor starter is a kind of electrical equipment relatively more conventional in low-voltage electrical apparatus; the starting/stopping being usually used in low voltage three-phase squirrel cage asynchronous motor controls; and there is overload, disconnected phase, short-circuit protection and load transfer function infrequently, also can make isolator and use.Alternating current machine starter comprises the three parts shown in Fig. 3; that is: be arranged on the functional unit 100 in enclosing cover 25, base component 200 and comprise the base member 300 of base shell 27; base component 200 comprises the pedestal 26 be arranged in base shell 27 and the contact system, pressing plate and the operating mechanism that are arranged on pedestal 26; by being fixedly connected with of enclosing cover 25 and base shell 27; be encapsulated in by the parts such as operating mechanism, contact system in described shell, enclosing cover 25, pedestal 26 and base shell 27 are all for fixing related components and shield.

The operating mechanism of current AC motor starter is connecting rod operation mechanism, manually need operate operation knob or the handle of starter, orders about operating mechanism and performs combined floodgate/sub-switching operation.When closing operation, artificial drive knob is as rotated clockwise, knob driving gear wheel set is rotated, gear pair drives main spring energy storage again and drivening rod swings, linkage is finally made to cross dead point, cause connecting rod to order about push rod rotate counterclockwise and withdraw to extreme higher position, withdrawing of push rod makes moving contact close from trend fixed contact under the counter-force of touch spring drives.When sub-switching operation, artificial drive knob is as rotated counterclockwise, knob again driving gear wheel set rotates, and gear pair pulls connecting rod again, when link motion is to mechanism dead point, by the effect of energy-stored spring power, connecting rod 5 rapid movement, make push rod 6 dextrorotation go to extreme lower position fast, moving contact starts to leave from fixed contact, until operating process terminates completely, moving contact can arrive the maximum open position be separated with fixed contact.Disconnect process (starting comprising moving contact to escape to from fixed contact the process that it arrives maximum open position) at existing operation starter, existence still strong between staff and handle, make the contact opening speed of starter relevant with the speed of staff operation knob like this, that is: operation knob is slow, then opening speed is slow; Operation knob is quick, then opening speed is fast, so just unavoidably there is following problem: one is that therefore common staff service speed can not meet the requirement of contact breaking speed because the manual speed of people is relatively slow.Two is answer people and different due to the size of the manual power of people and the speed of speed, so make the breaking speed of contact also answer people and different.

In addition, from the condition of work of alternating current machine starter, alternating current machine starter need realize the basic controlling performance of the starting/stopping to load (as three-phase squirrel-cage asynchronous motor), its sub-switching operation is much more frequent than general circuit breaker, and the load current of the control loop of alternating current machine starter to have starting current large, galvanic properties is inductive load current and there is the feature of switching overvoltage, also need to realize overload simultaneously, disconnected phase, short-circuit protection and load transfer function infrequently, so require that starter reliably can connect the starting current of motor, disjunction normal current and fault current, its condition of work is relatively harsh, starter is needed to have good arc extinction performance.And breaking capacity, arc extinguishing ability all with the breaking speed positive correlation of contact, breaking speed is faster, and breaking capacity, arc extinguishing ability are better.The typical products scheme of the contact breaking speed of a kind of existing quickening motor starter in sub-switching operation process as, adopt in normal sub-switching operation process, touch tripping mechanism dropout, namely trip action is utilized to realize the principle of quick disjunction, but this principle relying on the elastic force separating brake of energy-stored spring release completely, conical gear can not be engaged all the time, particularly in separating brake process, conical gear can not engage, namely sub-switching operation power cannot act on operating mechanism, so, when contact generation melting welding causes the elastic force of energy-stored spring can not order about contact disjunction completely extremely, the operating physical force of knob cannot be attached in sub-switching operation process by operating mechanism, therefore it can not realize forcing separating brake, and when forcing separating brake failure (when contact is still in closed), knob position can also arrive open position, bring potential safety hazard thus.Also have, because the mutual interlocking gear in existing product tripping mechanism generally must all adopt sharp tooth structure, before shake-up mutual interlocking gear is threaded off, if do not take the measure of the power of unloading to energy-stored spring, then dropout disjunction is easy to the pointed tooth that weares and teares frequently, causes the mutual interlocking gear of frequent breaking operation very easily to lose efficacy.

Summary of the invention

In order to overcome the defect of above-mentioned prior art, the purpose of this utility model is the operating mechanism of the motor starter providing the quick disjunction of a kind of energy, can improve the opening speed of contact, and the opening speed of contact and the speed of dependent manual operation are had nothing to do.Simultaneously along with the raising of breaking speed, also improve the arc extinction performance of motor starter.

To achieve these goals, the utility model have employed following technical scheme.

The operating mechanism of the motor starter of the quick disjunction of a kind of energy, be arranged in enclosing cover 25, comprise and be pivoted on a drive bevel gear 2 on enclosing cover 25 and operation knob 1 respectively, energy-stored spring 4, comprise the trip gear of tripping 15 and snap close 19 and the driven taper gear 3 be pivoted on side plate 23 by pivot 10 and push rod 6, described drive bevel gear 2 is in transmission connection with operation knob 1, realize the mutual interlock of operation knob 1 and drive bevel gear 2, manpower can be passed to operating mechanism, described push rod 6 is changed in a rotating manner between closing position and open position.Described driven taper gear 3 and drive bevel gear 2 are fixedly connected with engaging all the time of both realizations by enclosing cover 25 and side plate 23, mutually link to enable operation knob 1, drive bevel gear 2 and driven taper gear 3 three.Described operating mechanism also comprises a linkage, this linkage comprises a ratchet device, connecting rod 5 and described trip gear, the combination of energy-stored spring 4, there is the mechanism dead point limited by the position of connecting rod 5, and, described linkage should meet following driving-chain relation: make described driven taper gear 3 order about described ratchet device to the rotational in separating brake direction and connecting rod 5 moves simultaneously, the motion of described ratchet device touches described trip gear and unlocks, and make energy-stored spring 4 drive push rod 6 to forward open position to, the tripping 15 of the motion of the connecting rod 5 simultaneously still trip gear described in process auxiliary drive is moved until finally order about push rod 6 to forward open position to, order about the reset of described ratchet device with the rotational making described driven taper gear 3 to combined floodgate direction and order about described connecting rod 5 and move, connecting rod 5 drives the tripping 15 of trip gear to drive push rod 6 to forward closing position to, and push rod 6 orders about energy-stored spring 4 and realizes energy storage simultaneously.

According to another kind of execution mode of the present utility model: described ratchet device comprises the ratchet 18 being arranged on the ratchet 17 on driven taper gear 3 by a bindiny mechanism and being pivoted on side plate 23, described ratchet 17 is provided with drive division F, described ratchet 18 is provided with follower E and initiative part H, this follower E coordinates with the drive division F on ratchet 17, and the initiative part H on ratchet 18 coordinates with the touch part G on snap close 19.

According to another execution mode of the present utility model: one end of the tripping 15 of described trip gear is provided with tripping fulcrum B, the other end of tripping 15 is provided with bearing pin 16, second end chain connection of the centre position between described tripping fulcrum B and bearing pin 16 and connecting rod 5, bearing pin 16 coordinates with the track groove A on push rod 6; The snap close 19 of described trip gear is pivoted on side plate 23, and snap close 19 is provided with touch part G and snap close fulcrum C, and this snap close fulcrum C fastens described tripping fulcrum B and forms locking, and this snap close fulcrum C unclamps described tripping fulcrum B and forms unblock.

According to a kind of variant embodiment of the present utility model: described linkage comprises the tripping 15 of trip gear and snap close 19, the ratchet 17 of ratchet device and ratchet 18, connecting rod 5 and its elastic force orders about the energy-stored spring 4 that push rod 6 rotates to open position; Second end of described connecting rod 5 and tripping 15 chain connection, its first end and driven taper gear 3 chain connection; One end of described tripping 15 is provided with tripping fulcrum B, and the other end is provided with bearing pin 16, the centre position between its tripping fulcrum B and bearing pin 16 and the first end chain connection of described connecting rod 5, and described bearing pin 16 coordinates with the track groove A on push rod 6; Described ratchet 17 is provided with drive division F and the bindiny mechanism be arranged on by ratchet 17 on driven taper gear 3, described ratchet 18 is pivoted on side plate 23, and ratchet 18 is provided with the follower E that can coordinate with the drive division F on the ratchet 17 and initiative part H that can coordinate with the touch part G on snap close 19; Described snap close 19 is pivoted on side plate 23, and snap close 19 is provided with touch part G and snap close fulcrum C, and snap close fulcrum C fastens described tripping fulcrum B and forms locking, and snap close fulcrum C unclamps described tripping fulcrum B and forms unblock.

According to another kind of embodiment of the present utility model: the action that the trip gear described in described ratchet device touches unlocks occur in driven taper gear 3 to separating brake direction rotate start after arrive the position at mechanism dead point to described connecting rod 5 before.

Preferred further: the snap close 19 of described trip gear is provided with the back-moving spring resetted for ordering about snap close 19.

Further preferred: the ratchet 18 of described ratchet device is provided with torque spring 24, the initiative part H that the elastic force of torque spring 24 orders about described ratchet 18 contacts with the touch part G on described snap close 19.

Further preferred: the bindiny mechanism of the ratchet 17 of described ratchet device comprises the ratchet rotating shaft 21 be arranged on driven taper gear 3, be arranged on locking structure on ratchet rotating shaft 21 and ratchet 17 and spring 22, described locking structure limits ratchet 17 and can only unidirectionally rotate around described ratchet rotating shaft 21, and described spring 22 provides locking power to described locking structure.

Preferred further: the described mechanism dead point limited by the position of connecting rod 5 has angle theta=180 ° between line P and line Q, wherein line P is the line between the hinge of the hinge 14 of the first end that described connecting rod 5 is connected with driven taper gear 3 and the second end of connecting rod 5, and line Q is the line between the hinge 14 of described connecting rod 5 first end and the pivot 10 of driven taper gear 3.

Preferred further: described energy-stored spring 4 is torsion spring, and one end of this torsion spring is connected with push rod 6, and the other end of this torsion spring is connected with side plate 23.

The utility model tool has the following advantages:

1, by adopting the linkage comprising trip gear, ratchet device, connecting rod and energy-stored spring, in normal sub-switching operation process, preferentially touch trip gear by ratchet device unlock, cause energy-stored spring to drive push rod to forward disjunction position to, quick disjunction can be realized.

2, connecting rod process auxiliary drive trip gear is adopted to cause push rod to forward disjunction position to, to guarantee when contact generation melting welding, the sub-switching operation power of knob still can act on push rod, and add separating brake operating physical force to realize forcing separating brake to push rod, and can guarantee that knob can not forward disjunction position to when realizing the failure of pressure separating brake.

3, the utility model also can realize unloading power to the elastic force of the energy-stored spring acting on trip gear before shake-up trip gear unlocks, to reduce the wearing and tearing of trip gear, thus the fail safe of the frequent combined floodgate/sub-switching operation of improving product, reliability and useful life.

Accompanying drawing explanation

Advantage of the present utility model and feature can be more clearly found out from the description of accompanying drawing illustrated embodiment, wherein:

Fig. 1 is the planar structure schematic diagram of the operating mechanism of the motor starter of the quick disjunction of energy of the present utility model being in open position.

Fig. 2 is the planar structure schematic diagram of the operating mechanism of the motor starter of the quick disjunction of energy of the present utility model being in closing position.

Fig. 3 is the exploded perspective schematic diagram of the alternating current machine starter of the operating mechanism of the motor starter adopting the quick disjunction of energy of the present utility model.

Fig. 4 is the K partial enlarged drawing of Fig. 2.

Embodiment

Below in conjunction with the embodiment that Fig. 1 to Fig. 4 provides, further illustrate the embodiment of the operating mechanism of the motor starter of the quick disjunction of energy of the present utility model.

See Fig. 1,2, the operating mechanism of the motor starter of the quick disjunction of energy of the present utility model is arranged in pedestal 26, comprise the driven taper gear 3 and push rod 6 that are pivoted on the side plate 23 of operating mechanism by pivot 10, also comprise the trip gear being pivoted on a drive bevel gear 2 on enclosing cover 25 and operation knob 1, comprising tripping 15 and snap close 19, drive bevel gear 2 and operation knob 1 are in transmission connection, and manpower can be passed to operating mechanism.Described drive bevel gear 2 is in transmission connection with operation knob 1 can adopt any one known frame mode, object is in transmission connection by this, realize the mutual interlock of operation knob 1 and drive bevel gear 2, namely the rotational of operation knob 1 drives the rotation of drive bevel gear 2, and the rotation of drive bevel gear 2 also can drive the rotation of operation knob 1.Drive bevel gear 2 and operation knob 1 can adopt any one known frame mode to be pivoted on respectively on enclosing cover 25, and drive bevel gear 2 and operation knob 1 can be rotated relative to enclosing cover 25.Driven taper gear 3 is arranged on the side plate 23 of operating mechanism by pivot 10, can rotate to make described driven taper gear 3 around described pivot 10.By being fixedly connected with of pedestal 26 and side plate 23, realize engaging of drive bevel gear 2 and driven taper gear 3, driven taper gear 3 engages all the time with drive bevel gear, and push rod 6 is changed in a rotating manner between closing position and open position.Applicant finds after repeatedly studying various like product: first, speed operations the separating brake breaking speed of mechanism, mainly will accelerate push rod 6 forwards the open position shown in Fig. 1 to velocity of rotation from the closing position shown in Fig. 2, this velocity of rotation can not be subject to tying down or disturbing of the sub-switching operation power inputted by operation knob 1 simultaneously.Second, solve the security hidden trouble that contact melting welding brings, in this separating brake process, namely needing the sub-switching operation power additional drives push rod 6 inputted by operation knob 1 to perform pressure separating brake, and can also guarantee that knob 1 can not forward the open position shown in Fig. 1 to when forcing separating brake failure, 3rd, size and the rotary speed of its opening speed of operating mechanism and the moment of torsion of dependent manual operation are relevant, thus cause opening speed inconsistent, make the interrupting performance of product inconsistent, so from improving interrupting performance inconsistent, be desirably in sub-switching operation process the operating physical force broken away from knob 1 and input, but, from solution contact melting welding hidden danger, be desirably in sub-switching operation process the operating physical force got involved knob 1 and input, to realize forcing separating brake, and guarantee that knob 1 can not forward open position to when forcing separating brake failure, in other words, must guarantee that push rod 6 is in disjunction position when knob 1 forwards open position to.Obviously, improve interrupting performance inconsistent with solution contact melting welding hidden danger, be conflict, should start with for the mechanism carrying out transmission between driven taper gear 3 and push rod 6 and carry out innovative design.For this reason, the operating mechanism of the motor starter of the quick disjunction of energy of the present utility model comprises a kind of linkage that simultaneously can solve above-mentioned three problems.Described linkage comprises the combination of trip gear, ratchet device, connecting rod 5 and energy-stored spring 4, and wherein ratchet device comprises ratchet 17 and ratchet 18 (see Fig. 4).

Above-mentioned drive bevel gear 2 engages all the time with driven taper gear 3, object is that operation knob 1, drive bevel gear 2 and driven taper gear 3 three are linked mutually, that is: closing by hand operation makes operation knob 1 rotate, to drive drive bevel gear 2 to rotate, the driven taper gear 3 of rotating drive of drive bevel gear 2 rotates to combined floodgate direction; Manual brake separating operation makes operation knob 1 rotate, and to drive drive bevel gear 2 to rotate, the driven taper gear 3 of rotating drive of drive bevel gear 2 rotates to separating brake direction.When automatically threading off disconnection, the elastic force of energy-stored spring 4 drives driven taper gear 3 to rotate to separating brake direction, and drive bevel gear 2 also can be driven to rotate, and the rotation of drive bevel gear 2 drives operation knob 1 to get back to open position.Described push rod 6 is arranged on side plate 23 by pivot 11, can pivotally 11 rotate to make push rod 6.The rotation of push rod 6 is for controlling the disjunction of contact system/closed, that is: when push rod 6 pivotally 11 forward the open position shown in Fig. 1 in the direction of the clock to time, the pressing plate 12 of the control part D compressing base component 200 of push rod 6 moves down, moving down of pressing plate 12 drives contact support 13 to move down with moving contact 7, and moving down of moving contact 7 causes moving contact 7 and fixed contact 9 disjunction.When push rod 6 pivotally 11 forward the closing position shown in Fig. 2 in the counterclockwise direction to time, the control part D of push rod 6 discharges the compressing for pressing plate 12, under the elastic force effect of touch spring 8, moving contact 7 moves up with contact support 13, and causing moving contact 7 to close with fixed contact 9, the moving up of contact support 13 drives pressing plate 12 to move up reset.

Linkage of the present utility model can realize the quick disjunction of separating brake, contact melting welding hidden danger can also be solved simultaneously, its key be the linkage be made up of trip gear, ratchet device, connecting rod 5 and energy-stored spring 4 structure and by trip gear, ratchet device, the driving-chain that formed between connecting rod 5 and energy-stored spring 4, i.e. the driving-chain structure of linkage.The course of work of the driving-chain of described linkage comprises: described driven taper gear 3 is to the rotation in separating brake direction, order about described ratchet device and connecting rod 5 moves simultaneously, the motion of this ratchet device first touches trip gear and unlocks, this unblock causes energy-stored spring 4 to drive push rod 6 to forward open position to, the tripping 15 of the simultaneously motion of connecting rod 5 still process auxiliary drive trip gear is moved, and this motion is finally ordered about push rod 6 and forwarded open position to.Described driven taper gear 3 to the rotation in combined floodgate direction, order about described ratchet device reset and drive link 5 move, connecting rod 5 drives the tripping 15 of trip gear to move, and tripping 15 drives push rod 6 to forward closing position to, and push rod 6 orders about energy-stored spring 4 energy storage.

Operating mechanism all has mechanism dead point; At separating brake in the operating process of closing a floodgate, mechanism must pass over this dead point and could realize retraining equilibrium of forces, and operating mechanism just can be stabilized in "on" position; And at combined floodgate in the operating process of separating brake, mechanism also must pass over this dead point could realize retraining equilibrium of forces, operating mechanism just can be stabilized in gate-dividing state.Mechanism dead point is limited by the position of some component in mechanism, in different mechanisms, is different for limiting component and the position thereof at mechanism dead point.The dead point of linkage of the present utility model is limited by the position of connecting rod 5, in other words: this linkage has the mechanism dead point limited by the position of connecting rod 5.See Fig. 1,2 or Fig. 4, the design feature at the concrete mechanism dead point limited by the position of connecting rod 5 is, angle theta=180 ° between line P and line Q, wherein line P is the line between the hinge 14 of first end be connected with driven taper gear 3 of connecting rod 5 and the hinge of the second end of connecting rod 5, and line Q is the line between the hinge 14 of the first end of connecting rod 5 and the pivot 10 of driven taper gear 3.Under the gate-dividing state shown in Fig. 1, angle theta is greater than 180 °; Under the "on" position shown in Fig. 2 and Fig. 4, angle theta is less than 180 °; Be transformed in the closing operation process of the "on" position shown in Fig. 2 and Fig. 4 at the gate-dividing state shown in Fig. 1, angle theta from large to small and cross 180 °, dead point; Be transformed in the sub-switching operation process of the gate-dividing state shown in Fig. 1 in the "on" position shown in Fig. 2 and Fig. 4, angle theta is changed from small to big and is crossed 180 °, dead point.

The concrete structure of described ratchet device can have numerous embodiments, one preferred embodiment as Fig. 1,2 or Fig. 4 shown in: as described in ratchet device comprise the ratchet 17 and ratchet 18 which is provided with drive division F, ratchet 17 is arranged on driven taper gear 3 by a bindiny mechanism, ratchet 18 is pivoted on side plate 23 by pawl pivot 20, ratchet 18 is provided with follower E and initiative part H, follower E can coordinate with the drive division F on ratchet 17, and initiative part H can coordinate with the touch part G on snap close 19.In order to make the ratchet 18 energy reliable reset be pivoted on side plate 23, a kind of preferred scheme is as shown in Figure 4: the ratchet 18 of described ratchet device is provided with torque spring 24, and the elastic force of torque spring 24 orders about the initiative part H of ratchet 18 and contacts with the touch part G on snap close 19.The elastic force of described torque spring 24 should be less than the elastic force of the back-moving spring of snap close 19, to guarantee that the elastic force of torque spring 24 can not touch snap close 19 action.The reliability of the follower E action of ratchet 18 can be driven in sub-switching operation process in order to the drive division F improving ratchet 17 further, and the drive division F on ratchet 17 from the position Positive rotational on the follower E of ratchet 18 to the follower E of ratchet 18 under position, and the drive division F of ratchet 17 in closing operation process can from the position Positive rotational under the follower E of ratchet 18 to the follower E of ratchet 18 on position, the above-mentioned bindiny mechanism be installed on driven taper gear 3 by ratchet 17 can adopt following preferred version: the bindiny mechanism of the ratchet 17 of described ratchet device comprises the ratchet rotating shaft 21 be arranged on driven taper gear 3, be arranged on the locking structure on this ratchet rotating shaft 21 and ratchet 17 and spring 22, this locking structure limits ratchet 17 and can only unidirectionally rotate around ratchet rotating shaft 21, spring 22 provides required locking power to locking structure, ratchet 17 is the clockwise direction shown in Fig. 4 around the direction that ratchet rotating shaft 21 rotates.That is, locking structure makes ratchet 17 to rotate by clockwise direction, can not counterclockwise rotate.

The concrete structure of described trip gear can have numerous embodiments, one preferred embodiment as Fig. 1,2 or Fig. 4 shown in: as described in trip gear comprise tripping 15 and snap close 19, one end of tripping 15 is provided with tripping fulcrum B, the other end of tripping 15 is provided with bearing pin 16, the chain connection of the centre position between its tripping fulcrum B and bearing pin 16 and the second end of connecting rod 5, bearing pin 16 coordinates with the track groove A on push rod 6; Snap close 19 is pivoted on side plate 23, and snap close 19 is provided with touch part G and snap close fulcrum C, and the tripping fulcrum B that snap close fulcrum C fastens tripping 15 forms locking, and snap close fulcrum C unclamps described tripping fulcrum B and forms unblock.The object that above-mentioned bearing pin 16 coordinates with the track groove A on push rod 6 is to realize the driving relationship between tripping 15 and push rod 6, bearing pin 16 slides in track groove A, the bearing pin 16 moving through its one end of tripping 15 coordinates with track groove A, push rod 6 is driven to rotate around push rod pivot 11, otherwise, drive push rod 6 around rotation the coordinating also by track groove A and bearing pin 16 of push rod pivot 11, the motion of driving tripping 15.To coordinate with the track groove A on push rod 6 owing to adopting bearing pin 16 and the chain connection of the second end of connecting rod 5 between the tripping fulcrum B and bearing pin 16 of tripping 15, therefore make in closing operation process, the tripping fulcrum B of tripping 15 is fastened by the snap close fulcrum C of snap close 19 all the time.Snap close 19 is pivoted on side plate 23 by latch pivot 28, snap close 19 is provided with back-moving spring (not shown), the elastic force of this back-moving spring orders about snap close 19 and resets, and namely makes snap close 19 and snap close fulcrum C thereof automatically can fasten the tripping fulcrum B of tripping 15.

The concrete structure of above-mentioned linkage can adopt the compound mode of multiple different trip gear and ratchet device, such as a kind of linkage of optimal way comprises the combination of following trip gear and ratchet device: the tripping 15 of trip gear, its one end is provided with tripping fulcrum B, the other end is provided with bearing pin 16, the chain connection of the centre position between its tripping fulcrum B and bearing pin 16 and the second end of connecting rod 5, bearing pin 16 coordinates with the track groove A on push rod 6.The snap close 19 of trip gear, it is pivoted on side plate 23, and snap close 19 is provided with touch part G and snap close fulcrum C, and the tripping fulcrum B that snap close fulcrum C fastens tripping 15 forms locking, and the tripping fulcrum B that snap close fulcrum C unclamps tripping 15 forms unblock.The ratchet 17 of ratchet device is provided with drive division F and for ratchet 17 being arranged on the bindiny mechanism on driven taper gear 3, the ratchet 18 of ratchet device is pivoted on side plate 23, ratchet 18 is provided with follower E and initiative part H, follower E coordinates with the drive division F on ratchet 17, and initiative part H coordinates with the touch part G on snap close 19.Second end of connecting rod 5 and tripping 15 chain connection, first end and driven taper gear 3 chain connection.Energy-stored spring 4 adopts torsion spring, and its one end is connected with push rod 6, and the other end is connected with side plate 23, and its elastic force orders about push rod 6 and rotates to open position.

Described driven taper gear 3 is driven by the sub-switching operation of operation knob 1 to the rotation in separating brake direction, below in conjunction with accompanying drawing, drive connection included by driving-chain structure of the present utility model above-mentioned in sub-switching operation process (namely "on" position is as shown in Figure 2 transformed into the operating process of the gate-dividing state shown in Fig. 1) and gear sequences is described:

Elder generation orders about ratchet device by driven taper gear 3 and connecting rod 5 moves simultaneously, and namely driven taper gear 3 drives the first end of the ratchet 17 of ratchet device and connecting rod 5 pivotally 10 to rotate counterclockwise simultaneously; After this rotation starts, the motion of ratchet device first touches trip gear and unlocks, namely specifically rotated clockwise around pawl pivot 20 by the ratchet 18 of the ratchet 17 driving pawl device of ratchet device, ratchet 18 touches the snap close 19 of trip gear and snap close 19 is rotated counterclockwise around its latch pivot 28, then the rotation of latch pivot 28 makes trip gear unlock, and namely the snap close fulcrum C of snap close 19 is separated (namely snap close fulcrum C unclamps tripping fulcrum B) with the tripping fulcrum B of tripping 15; The unblock of described trip gear causes energy-stored spring 4 to drive push rod 6 to forward open position to, namely described unblock makes tripping 15 can not apply actuating force to push rod 6 because losing the equilibrant force that provided by snap close fulcrum C, so, the elastic force of energy-stored spring 4 drives push rod 6 to rotate clockwise around its push rod pivot 11, melting welding does not occur under normal circumstances at contact, the elastic force of energy-stored spring 4 will drive push rod 6 to forward open position to always; the tripping 15 of the simultaneously motion of connecting rod 5 still process auxiliary drive trip gear is moved, namely while the unblock of trip gear causes energy-stored spring 4 to drive push rod 6 to forward open position to, continue to keep ordering about ratchet device and connecting rod 5 pivotally 10 motions rotated counterclockwise simultaneously by sub-switching operation power by driven taper gear 3, this motion makes the drive division F on ratchet 17 turn to position shown in Fig. 1 (the drive division F of ratchet 17 is in the position under the follower E of ratchet 18) from the position (the drive division F of ratchet 17 is in the position on the follower E of ratchet 18) shown in Fig. 4, and once the drive division F of ratchet 17 forward ratchet 18 to follower E under position, then snap close 19 will toward back rotation (rotating clockwise) under the elastic force effect of its back-moving spring (not shown), the past back rotation of snap close 19 is ordered about its snap close fulcrum C and is contacted (namely snap close fulcrum C fastens tripping fulcrum B) with the tripping fulcrum B of tripping 15, thus trip gear is relocked, this locking makes sub-switching operation power can act on tripping 15 by driven taper gear 3 and connecting rod 5 again, namely the tripping 15 of the motion of connecting rod 5 still process auxiliary drive trip gear is moved, this motion is finally ordered about push rod 6 and is forwarded open position to.The elastic force of the rotation direction and energy-stored spring 4 of ordering about push rod 6 due to tripping 15 drives the rotation direction of push rod 6 to be identical, so tripping 15 finally can forward open position to by process auxiliary drive push rod 6.Of the present utility modelly the configuration achieves following two effects: one is melting welding does not occur under normal circumstances at contact, the auxiliary driving force that tripping 15 acts on push rod 6 acts on superposing of push rod 6 actuating force with energy-stored spring 4, can accelerate the velocity of rotation that push rod 6 finally forwards open position to; Two is under the abnormal conditions of contact generation melting welding, the auxiliary driving force that tripping 15 acts on push rod 6 acts on superposing of push rod 6 actuating force with energy-stored spring 4, the actuating force of push rod 6 for pressing plate 12 can be strengthened, enough large artificial sub-switching operation power is made to get involved breaking operation, to guarantee that push rod 6 finally can forward open position to.

In order to the acceleration effect that the tripping characteristic of linkage can be utilized further to produce, the wearing and tearing of trip gear can also be reduced simultaneously, the preferred scheme of one of the present utility model is, described ratchet device touch action that trip gear unlocks occur in driven taper gear 3 to separating brake direction rotate start after arrive the position at mechanism dead point to connecting rod 5 before.Should understand, under the technical solution of the utility model, the action that ratchet device shake-up trip gear unlocks occurs in driven taper gear 3 and rotates the gear sequences feature after starting to separating brake direction, the wearing and tearing of trip gear can be reduced, because driven taper gear 3 to separating brake direction rotate start after initial sub-switching operation process in, the actuating force that driven taper gear 3 acts on tripping 15 by connecting rod 5 can shed most of actuating force being acted on tripping 15 by energy-stored spring 4 by push rod 6, that is, breaking operation power can reduce the interaction force between the snap close fulcrum C of the snap close 19 of trip gear and the tripping fulcrum B of tripping 15, and before connecting rod 5 arrives mechanism dead-centre position, trip gear still can keep locking, therefore, thread off after the rotation of separating brake direction starts at driven taper gear 3, greatly can reduce the interaction force between snap close fulcrum C and tripping fulcrum B, thus the wearing and tearing that can greatly reduce between snap close fulcrum C and tripping fulcrum B.And under the technical solution of the utility model, ratchet device touches action that trip gear unlocks and occurs in before connecting rod 5 arrives the position at mechanism dead point, opening velocity can be accelerated, because arrive the position at mechanism dead point at connecting rod 5 before, trip gear is still in the lock state, touch dropout in the locked state, the speed of dropout separating brake can be made to reach optimum efficiency.

Described driven taper gear 3 is driven by the closing operation of operation knob 1 to the rotation in combined floodgate direction, below in conjunction with accompanying drawing, drive connection included by driving-chain structure of the present utility model above-mentioned in closing operation process (namely gate-dividing state is as shown in Figure 1 transformed into the operating process of the "on" position shown in Fig. 2) and gear sequences is described:

Elder generation orders about ratchet device by driven taper gear 3 and connecting rod 5 moves simultaneously, and namely driven taper gear 3 drives the first end of the ratchet 17 of ratchet device and connecting rod 5 pivotally 10 to rotate clockwise simultaneously; After this rotation starts, driven taper gear 3 drives the motion of ratchet device to make it reset, namely this motion makes the drive division F on ratchet 17 turn to position shown in Fig. 4 (the drive division F of ratchet 17 is in the position on the follower E of ratchet 18) from the position (the drive division F of ratchet 17 is in the position under the follower E of ratchet 18) shown in Fig. 1, and in this position transfer process, the drive division F of ratchet 17 coordinates with the Contact of the follower E of ratchet 18, and ratchet 18 can not be made to hinder trip gear to lock; Meanwhile, driven taper gear 3 drivening rod 5 moves, and connecting rod 5 drives the tripping 15 of trip gear to move, and this motion makes trip gear keep locking all the time, i.e. the tripping fulcrum B of tripping 15 is fastened by the snap close fulcrum C of snap close 19 all the time; So tripping 15 is ordered about push rod 6 and rotated counterclockwise around its push rod pivot 11, until push rod 6 forwards closing position to; Meanwhile, energy-stored spring 4 energy storage is ordered about in the rotation of push rod 6.

Also should be clear, although the utility model is described with reference to some instantiations, but the foregoing is only preferred embodiment of the present utility model, all technical equivalences made according to the utility model claim change and amendment, all should be considered as within covering scope of the present utility model.

Claims (10)

1. the operating mechanism of the motor starter of the quick disjunction of energy, be arranged in pedestal (26), comprise and be pivoted on a drive bevel gear (2) on enclosing cover (25) and operation knob (1) respectively, energy-stored spring (4), comprise the trip gear of tripping (15) and snap close (19) and be pivoted on a driven taper gear (3) on side plate (23) and push rod (6) by pivot (10), described drive bevel gear (2) and operation knob (1) are in transmission connection, realize the mutual interlock of operation knob (1) and drive bevel gear (2), manpower can be passed to operating mechanism, described push rod (6) is changed in a rotating manner between closing position and open position, it is characterized in that:

Described driven taper gear (3) and drive bevel gear (2) are fixedly connected with engaging all the time of both realizations by enclosing cover (25) and side plate (23), mutually link to enable operation knob (1), drive bevel gear (2) and driven taper gear (3) three;

Described operating mechanism also comprises a linkage, this linkage comprises the combination of a ratchet device, connecting rod (5) and described trip gear, energy-stored spring (4), there is the mechanism dead point limited by the position of connecting rod (5), further, described linkage should meet following driving-chain relation:

Described driven taper gear (3) is made to order about described ratchet device to the rotational in separating brake direction and connecting rod (5) moves simultaneously, the motion of described ratchet device touches described trip gear and unlocks and make energy-stored spring (4) drive push rod (6) to forward open position to, and tripping (15) motion of the motion of the connecting rod (5) simultaneously still trip gear described in process auxiliary drive is until finally order about push rod (6) to forward open position to; With

Make described driven taper gear (3) order about described ratchet device to the rotational in combined floodgate direction reset and order about described connecting rod (5) motion, connecting rod (5) drives the tripping (15) of trip gear to drive push rod (6) to forward closing position to, and push rod (6) orders about energy-stored spring (4) and realizes energy storage simultaneously.

2. the operating mechanism of the motor starter of the quick disjunction of energy according to claim 1, it is characterized in that: described ratchet device comprises the ratchet (18) being arranged on the ratchet (17) on driven taper gear (3) by a bindiny mechanism and being pivoted on side plate (23), described ratchet (17) is provided with drive division F, described ratchet (18) is provided with follower E and initiative part H, this follower E coordinates with the drive division F on ratchet (17), and the initiative part H on ratchet (18) coordinates with the touch part G on snap close (19).

3. the operating mechanism of the motor starter of the quick disjunction of energy according to claim 1, it is characterized in that: one end of the tripping (15) of described trip gear is provided with tripping fulcrum B, the other end of tripping (15) is provided with bearing pin (16), second end chain connection of the centre position between described tripping fulcrum B and bearing pin (16) and connecting rod (5), bearing pin (16) coordinates with the track groove A on push rod (6); The snap close (19) of described trip gear is pivoted on side plate (23), snap close (19) is provided with touch part G and snap close fulcrum C, this snap close fulcrum C fastens described tripping fulcrum B and forms locking, and this snap close fulcrum C unclamps described tripping fulcrum B and forms unblock.

4. the operating mechanism of the motor starter of the quick disjunction of energy according to claim 1, is characterized in that:

Described linkage comprises the tripping (15) of trip gear and snap close (19), the ratchet (17) of ratchet device and ratchet (18), connecting rod (5) and its elastic force orders about the energy-stored spring (4) that push rod (6) rotates to open position;

Second end of described connecting rod (5) and tripping (15) chain connection, its first end and driven taper gear (3) chain connection;

One end of described tripping (15) is provided with tripping fulcrum B, the other end is provided with bearing pin (16), the first end chain connection of the centre position between its tripping fulcrum B and bearing pin (16) and described connecting rod (5), described bearing pin (16) coordinates with the track groove A on push rod (6);

Described ratchet (17) is provided with drive division F and the bindiny mechanism be arranged on by ratchet (17) on driven taper gear (3), described ratchet (18) is pivoted on side plate (23), and ratchet (18) is provided with the follower E that can coordinate with the drive division F on ratchet (17) and the initiative part H that can coordinate with the touch part G on snap close (19);

Described snap close (19) is pivoted on side plate (23), snap close (19) is provided with touch part G and snap close fulcrum C, snap close fulcrum C fastens described tripping fulcrum B and forms locking, and snap close fulcrum C unclamps described tripping fulcrum B and forms unblock.

5. the operating mechanism of the motor starter of the quick disjunction of energy according to claim 1, is characterized in that: the action that the trip gear described in described ratchet device touches unlocks occur in driven taper gear (3) to separating brake direction rotate start after arrive the position at mechanism dead point to described connecting rod (5) before.

6. can the operating mechanism of the motor starter of disjunction fast according to any one described in claim 1 or 3 or 4, it is characterized in that: the snap close (19) of described trip gear is provided with the back-moving spring resetted for ordering about snap close (19).

7. can the operating mechanism of the motor starter of disjunction fast according to any one described in claim 1 or 2 or 4, it is characterized in that: the ratchet (18) of described ratchet device is provided with torque spring (24), the initiative part H that the elastic force of torque spring (24) orders about described ratchet (18) contacts with the touch part G on described snap close (19).

8. the operating mechanism of the motor starter of the quick disjunction of the energy according to claim 2 or 4, it is characterized in that: the bindiny mechanism of the ratchet (17) of described ratchet device comprises the ratchet rotating shaft (21) be arranged on driven taper gear (3), be arranged on locking structure on ratchet rotating shaft (21) and ratchet (17) and spring (22), described locking structure limits ratchet (17) and can only unidirectionally rotate around described ratchet rotating shaft (21), and described spring (22) provides locking power to described locking structure.

9. according to claim 1 or 5 can the operating mechanism of the motor starter of disjunction fast, it is characterized in that: the described mechanism dead point limited by the position of connecting rod (5) has angle theta=180 ° between line P and line Q, wherein line P is the line between the hinge of the hinge (14) of the first end that described connecting rod (5) is connected with driven taper gear (3) and the second end of connecting rod (5), and line Q is the line between the hinge (14) of described connecting rod (5) first end and the pivot (10) of driven taper gear (3).

10. the operating mechanism of the motor starter of the quick disjunction of the energy according to claim 1 or 4, it is characterized in that: described energy-stored spring (4) is torsion spring, one end of this torsion spring is connected with push rod (6), and the other end of this torsion spring is connected with side plate (23).