CN1305089C - Mechanized control modular for power break-off means and power break-off means arranged such modular - Google Patents

Abstract

The control module (10) has a container (11) coupled to a drive mechanism and auxiliary contacts (61). There is a switching control position. The electrical circuits are printed on a deck (60) in the container and having holes (62) for auxiliary contact (61) feet (63) connecting directly to the electrical circuit.

Description

Mechanization control module and the electric power disconnecting apparatus that is equipped with this module

Technical field

The present invention relates to a kind of mechanization control module that is used for the electric power disconnecting apparatus, this disconnecting apparatus comprises the disconnection module that at least one is driven by a Control Shaft, Control Shaft extends in the control module along a first axle A always, this control module comprises at least one shell, a motor, some auxiliary switches and give described motor power supply and send the circuit of signal according to the described auxiliary switch of the state transfer of described disconnecting apparatus, shell comprises an actuating mechanism that makes described Control Shaft rotation, motor is connected with described actuating mechanism, each auxiliary switch is provided with the control piston that a conversion equipment that is connected with described actuating mechanism promotes, described circuit is realized with the form of the printed circuit on a plate, this plate is arranged in described shell, and comprise some eyelets, be used to accept the leg of described auxiliary switch, they directly are connected with described circuit.

The invention still further relates to a kind of electric power disconnecting apparatus that this mechanization control module is housed, this disconnecting apparatus comprises at least one by the disconnection module that a Control Shaft drives, and this Control Shaft extends in the control module along an axis A always.

Background technology

The electric power disconnecting apparatus that the present invention relates to is the transducer of the circuit breaker that two position 0-I are arranged, two position I-II and the transducer of three position I-0-II, has or not fusing insurance, is used for low-voltage distribution.These disconnecting apparatuss generally comprise a control module and one or several overlapping disconnection module.Know that each disconnects module and comprises a movement device, for example has the movement device of cam, movement device is connected with a mechanism that jerks with a Control Shaft, so that drive at least two movable switches.This mechanism that jerks can or be contained in the control module, perhaps is contained in to disconnect in the module.Control module comprises that at least one manually drives the handle of Control Shaft.Control module also can be automatic.The industrial switch or the transducer that for example guarantee " conversion " when power supply changes between electrical network and the Emergency generator as required and use are exactly this situation.

The automation of control module realizes by a reducing motor that generally the line shaft of reducing motor is connected with the Control Shaft that disconnects module by a transmission device.In order to realize such automation, need connect the power supply of motor and the auxiliary switch that all are associated with electric wire.These auxiliary switches can provide the information of the operational mode of opening/stop state, disconnecting apparatus (manual mode, automatic mode or locking) of the transition status that closes disconnecting apparatus, motor.The signal that these auxiliary switches send is used for management and the control of the servo and user of motor to power equipment.

The wiring of motor and these auxiliary switches need be used special material, and for example electric wire, lug plate or binding post, binding ring and hand tools are as nipper pliers, wire stripping pliers, screwdriver, welder etc.During therefore this operation cost, uninteresting, must be undertaken by the personnel that qualification is arranged, and can not hide a wiring error.In addition, this wiring be undesirable, trouble with heaviness.Therefore, control module must be an oversize, and this is affected the volume of whole disconnecting apparatus.At last, the cost of this wiring operation is very high, is not suitable for undersized disconnecting apparatus.

In some electric device, as file EP-A-427,641 and WO-A-97/38430 in the circuit breaker described, auxiliary switch is directly installed on the electronic cards of the wiring that can cancel them.But, mechanism's complexity of use, heaviness and expensive, auxiliary switch or by the action of rotating cam perhaps passes through lever action.

Summary of the invention

The objective of the invention is to overcome above-mentioned shortcoming, a kind of mechanization control module that fully phases out wiring is proposed, this has just eliminated the danger of wiring inherited error, therefore the design of this control module is simpler, more economical, compacter, number of spare parts is limited, outstanding Mechanical Reliability is arranged, do not have running clearance, and use easily.Another object of the present invention is to guarantee the different operational modes of this mechanization control module at it: manually, automatically and the safety in the locking, avoid the danger that has an accident.

This purpose reaches as the mechanization control module that defines in the preface by a kind of, it is characterized in that this module comprises a base that is arranged in shell, this base is between actuating mechanism and plate, this base is in order to carry the basic auxiliary switch parallel with axis A, and it is following and can moving slider that conversion equipment comprises that some are installed in described base, these slide blocks are provided with and are used for the boss that cooperates with the control piston of auxiliary switch, when disconnecting apparatus is changed, actuating mechanism drive in the described slide block at least one move.

In addition, this plate is provided with one and can accepts the device of a selection disconnecting apparatus operational mode and the platform of a release mechanism that is connected with a locking device.

This purpose also reaches as defined disconnecting apparatus in the preface by one, it is characterized in that comprising a mechanization control module defined above, and this control module is on the disconnecting apparatus and be embedded on its Control Shaft.

Description of drawings

Can understand the present invention and its advantage by following better to the description of a preferred embodiment that provides as non-limiting example and with reference to accompanying drawing.

Fig. 1 is a disconnecting apparatus overall perspective that mechanization control module of the present invention is housed;

Fig. 2 is the front surface perspective view of Fig. 1 mechanization control module lid, does not have motor;

Fig. 3 is the platform perspective view that has Fig. 2 module release mechanism, and lid is removed;

Fig. 4 is the perspective view of the plate of Fig. 2 module, and platform is removed;

Fig. 5 is the base of Fig. 2 module and the birds-eye perspective of actuating mechanism, and plate is removed;

Fig. 6 is the base of Fig. 2 module and the birds-eye perspective of actuating mechanism, has plate and release mechanism.

Fig. 7 similarly schemes with Fig. 5, and base is partly cut;

Fig. 8 similarly schemes with Fig. 7, and base is removed, so that slide block and actuating mechanism only occur;

Fig. 9 is the birds-eye perspective of Fig. 2 module release mechanism;

Figure 10 is the bottom perspective view of Fig. 9 release mechanism.

Embodiment

With reference to Fig. 1, mechanization control module 10 of the present invention is used to equip known various types of electric power disconnecting apparatus 1, this device comprises the disconnection module 2 that at least one is driven by a Control Shaft, the cross section of Control Shaft is generally square, symbolically the pivot center A with it represents, and extends in the control module 10 always.For example these disconnecting apparatuss 1 can be single-phase or multi-phase circuit breaker or transducer, have or do not have the neutral line, and fusing insurance or fusing insurance being arranged.

With reference to Fig. 2-4, control module 10 comprises that one is the shell 11 of parallelepiped substantially, is used to be contained in disconnecting apparatus 1, and is embedded on the Control Shaft, also comprises a motor 12 that is connected with this shell.Shell 11 is by 13 sealings of the lid shown in a Fig. 2, and lid 13 forms the front surface of control module 10.Lid 13 is provided with a handle 14 of selecting the operational mode of disconnecting apparatus 1, and operational mode is: locking mode, manual mode, automatic mode.Lid 13 comprises that one can be observed dislocation 0, I or the II of disconnecting apparatus 1, the window 15 of II, also comprise an eyelet 16, it is the square opening 17 of axis with A that eyelet 16 can lead to of being connected with the Control Shaft of disconnecting apparatus 1, and this square opening 17 can be accepted a manually handle (not shown) of control." locking " mode can be corresponding with any one position 0, I or the II of disconnecting apparatus 1, and can see as following, can be fixed and lock by a padlock (not shown) of passing a lockplate 18, can see, can pass lid 13 and touch lockplate 18 as following." manually " pattern can add a manual joystick in square hole 17, so that manual switch disconnecting apparatus 1, and need not to disconnect motor 12." automatically " pattern can be by mechanization control module 10 transfer trips 1.Will see as following, be provided with release mechanism 30, so that only under " manually " pattern, just allow to enter square hole 17.

Control module 10 comprises a platform that has release mechanism 30 20 shown in Figure 3 between shell 11 and lid 13.This platform 20 outer is with some and the embedding shape mutually of the shape complementarity of shell 11 and lid 13, and making can be by overlapping and imbed row mutually and assemble.By hold-down screw 13a assembly is fused.The inside of platform 20 comprises some recessed and protruding shape and some cavitys, is used to accept to form the different parts of safety device 30 and locking device, and guides their to rotate or move.

Control module 10 comprises a base 50 and a plate shown in Figure 4 60 that has auxiliary switch 61 for 20 times with platform in its shell 11, be printed on the circuit to motor 12 and auxiliary switch 61 power supplies on the plate.Can see the back side of this plate 60 among Fig. 4, printed circuit can be located at the two sides.Plate 60 comprises the eyelet 62 that some pass through the leg 63 that is positioned at the auxiliary switch 61 below the plate.Plate 60 is fixed on the base 50 by several hold-down screws 64.These hold-down screws 64 are preferably stainless, hang up scolding tin when avoiding weld job.When plate 60 was assembled on the base 50, the leg 63 of auxiliary switch 61 can be by a kind of method of a collection of scolding tin of using once by directly being welded on the plate 60.Realize being connected between auxiliary switch 61 and the complete printed circuit by this Installation Modes in quick, economic mode, not wiring does not have wrong danger, and maximum reliability and minimum volume are arranged.Plate 60 comprises two ledges 65 and 65 ' that stretch out shell 11, each ledge form one can accept a plug 66 insert (enfichable) connector, so that connect on the one hand the electronic control circuit of motor 12, the signal of auxiliary switch 61 is passed to be equipment such as management that the user uses, control on the other hand.

Control module 10 also comprises the actuating mechanism 70 that a Control Shaft that makes disconnecting apparatus 1 rotates and the conversion equipment 80 of auxiliary switch 61 below base 50, describe these devices in detail below with reference to Fig. 5-8.

Actuating mechanism 70 comprises a driving gear 71 that is connected with the output shaft (not shown) of motor 12, bigger and driven gear 72 engagements that fuse with a cylindricality pillar 73 of driving gear 71 and diameter.The square hole 74 that can accept the square Control Shaft of disconnecting apparatus 1 passes this cylindricality pillar 73.This gear train forms a decelerator, and its moderating ratio depends on the gear ratio between driving gear 71 and the driven gear 72.The bottom that has the cylindricality pillar 73 of driven gear 72 comprises that an installation stops 75, is used for being contained in the groove of a shape complementarity, this groove be located at one with part (not shown) that the square Control Shaft of disconnecting apparatus 1 is connected in.

Base 50 be shaped as shaped as frame, forming one be the center cavity 51 of rectangle substantially, is provided with two vertical limit 52a and 52b, and in 53 extensions of the side direction prolongation in upper edge, a limit.Base 50 comprises the seat hole 54 that some penetrate, and auxiliary switch 61 is positioned at wherein, and the leg 63 of auxiliary switch 61 is directed upwards towards the direction of plate 60, and the control piston (not shown) is downward.In an example shown, the quantity in these holes 54 is 11, and the position is as follows: four in the side direction prolongation 52 of framework, four in vertical limit 52a, three in another vertical limit 52b.

There are 81, one first and second slide block 82a that can below the auxiliary switch 61 that is arranged in vertical limit 52a and 52b, move of some guide rails to be installed on the guide rail 81 below two vertical limit 52a of base 50 and the 52b.Each slide block 82a comprises two parallel inclined-planes 83 that are provided with boss 84, and inclined-plane 83 can make the control piston of corresponding auxiliary switch 61 move, and makes auxiliary switch change state.Be provided with some elastic sheets between these two inclined-planes 83, their effect is the running clearance of eliminating between slide block 82a and the guide rail 81, makes the machinery control of auxiliary switch 61 reliable.

On the lower limb of each slide block 82a, a tooth bar 86 is arranged, this tooth bar 86 and 87 engagements of a driven wheel that is connected with the cylindricality pillar 73 of actuating mechanism 70 at center cavity 51 opposite positions with base 50.Therefore, when actuating mechanism 70 was moved with transfer trip 1, the rotation of driven gear 72 drove slide block 82a by travelling gear 87 and moves round about.Therefore the state of the corresponding auxiliary switch 61 of mobile change of slide block 82a can provide the signal of disconnecting apparatus 1 transition status.

Also there are 81, one the 3rd slide block 82b that can below the auxiliary switch 61 that is arranged in this side direction prolongation 53, move of some guide rails to be installed on the guide rail 81 below the side direction prolongation 53 of base 50.This slide block 82b and other two slide block 82a are similar, and have 88, two transmission forks 89 from the release mechanism of describing later 30 of two grooves to be positioned at wherein in its sidewall.For this reason, each in base 50 and the plate 60 comprise two can make these two transmission forks 89 by and guide the parallel slit 55,66 of these two transmission forks 89.The integral body that guide rail 81, slide block 82a and 82b, travelling gear 87 and transmission fork 89 are formed constitutes the conversion equipment of auxiliary switch 61.Certainly, the quantity on the position of these auxiliary switches 61, their quantity, slide block 82a that they comprise and 82b and inclined-plane 83 can be according to using and user's needs change.

This mechanization control module 10 comprises by the automatic mode of selecting handle 14 to select the device of the operation of disconnecting apparatus 1, select handle to carry out the transition to allow operation automatically, the locking device that allows that the manual mode of a manual joystick is installed or forbid controlling manually and automatically disconnecting apparatus 1.With reference to Fig. 2,3,9,10, this selects handle 14 can be approaching outside the lid 13, and is connected with release mechanism 30, so that the safety of assurance disconnecting apparatus 1 operational mode.

This release mechanism 30 comprises an indicator wheel 31 that overlaps on the cylindricality pillar 73 and be rotationally connected by a square shaft 32 and pillar 73.This indicator wheel 31 comprises radial groove 33a, 33b, the 33c corresponding with dislocation 0, I, the II of disconnecting apparatus 1, these positions are differentiated by the mark 31 ' that is located on this indicator wheel 31, and can be seen mark 31 ' by the window 15 of lid 13.As what below will see, these radial grooves 33a, 33b, 33c are used for locking mode, and some groove 33a, 33c comprise a center protruding pin 33 ' that is prohibited from entering these grooves.Indicator wheel 31 also comprises can be by the eyelet 16 approaching manually square openings 17 of joystick of lid 13.Release mechanism 30 also comprise one can be between three positions corresponding and the locking balladeur train 35 of indicator wheel 31 vertical moving with three kinds of operational modes.Locking balladeur train 35 is provided with an eyelet 37 by one and the perforated plate 36 that overlaps on the indicator wheel 31 prolongs, so that forbid that manual joystick enters its square opening 17 when selecting handle 14 to be in automatic mode and locking mode.At manual mode, locking balladeur train 35 has eyelet 37 centerings of a perforated plate 36 square opening 17 of indicator wheel 31, therefore allows manual joystick to enter this square opening 17.

Select handle 14 to comprise a square connecting axle (not shown), be used for being rotatably connected with a radial arm 38 that is provided with a square opening 39, the end of radial arm 38 be one with the moving contact (not shown), be used for along one be located at the locking balladeur train 35 cam type surface 40 move.This cam type surface 40 extends about 90 ° and the curved groove of center on the pivot center B that selects handle 14 by one and constitutes.The straight line that the rotation axis B of selection handle 14 and the pivot center A of indicator wheel 31 pass through is substantially parallel with the guide rail 81 of base 50.The radius of cam type surface 40 gradually changes, and makes locking balladeur train 35 produce moving to indicator wheel 31 directions.The end of cam type surface 40 is straight line linearity ranges 41 point-blank that pass through with above-mentioned pivot center A and B.Locking balladeur train 35 is subjected at platform 50 one to stop and lock the effect of one of balladeur train 35 return mechanism 42 between stopping.In an example shown, this return mechanism 42 is made of a compression helical spring, and be used at least locking balladeur train 35 being taken to the position of " manual mode " from the position of " locking mode ", and help it to turn back to the position of " automatic mode " from the position of " manual mode ".

This locking balladeur train 35 also comprises two parallel transmission forks 89 that extend from the bottom vertical direction of above-described the 3rd slide block 82b.These transmission forks 89 pass platform 20, plate 60 and base 50, pass parallel slit 66,55.Their end is two pin 89a that are arranged in the respective grooves 88 of the sidewall that is located at these slide blocks 82b, so that move along the guide rail 81 of base 50 according to the band of position movable slider 82b that locks balladeur train 35, thereby has selected operational mode.Therefore, connected auxiliary switch 61 provides the representative signal of the operational mode of disconnecting apparatus 1.

Safety device 30 also comprise one the front surface of control module can be approaching the device of " locking " pattern that disconnecting apparatus 1 is locked in.This device comprises on the vertical mounting platform 20 lockplate 18 around the back shaft 43, does not allow to rotate between the home position that locks and the exit position that can lock at a lockplate 18 so that can be in the plane of lockplate 18.Lockplate 18 is subjected to the effect of a return mechanism 44, and in the example shown, this return mechanism 44 is one and is wrapped in back shaft 43 helical spring on every side, and is used for lockplate 18 is brought back to home position.Lockplate 18 comprises that seizing of can touching from lid 13 outsides hold button 19.Lockplate 18 also comprises one or several lock hole 45, and when lockplate 18 was in the exit position, these lock holes 45 can be laid one or several padlock (not shown).Lockplate 18 constitutes by the perspective curve of center on back shaft 43 is fan-shaped, and there is a foot 46 at its rear portion, is used for being blocked in when locking balladeur train 35 is in the position corresponding with " automatic mode " locking balladeur train 35.Setting out from above and comprise seizing and hold button 19 in the front portion of lockplate 18, is lock hole 45 then, is the back that 47, one inclined ramp 47a of a jag appear at jag 47 at last.

The function of the different piece of forming this mechanization control module is described below.In order to make disconnecting apparatus 1 in " automatic mode " operation down, the operator should make and select handle 14 vertical substantially with the mid-plane of shell 11, shown in Fig. 1,3,9,10.Perforated plate 36 parts of locking balladeur train 35 are stopped up the square opening 17 of indicator wheel 31, prevent that manual joystick is in place.Lockplate 18 is blocked in home position, because its foot 46 leans against on the locking balladeur train 35, cancels the degree of freedom that it rotates around back shaft 43.The auxiliary switch 61 that connects with the 3rd slide block 82b provides a signal corresponding with " automatic mode ".Indicator wheel 31 is in a position corresponding with the position 0 of disconnecting apparatus 1.Therefore disconnecting apparatus 1 can move, and by motor 12 conversion automatically in or another position, and the Control Shaft of motor 12 by its train of reduction gears 71,72 control disconnecting apparatuss 1 rotates to one or another direction.Simultaneously, travelling gear 87 moves the first or second slide block 82a, and the first or second slide block 82a provides a signal corresponding with the dislocation of disconnecting apparatus 1.

In order to carry out the transition to " manual mode ", the operator should make and select handle 14 to rotate 1/4th circles, it is taken to the position of the mid-plane of shell 11 substantially, as shown in Figure 2.Carry out this when rotating, the moving of radial arm 38 with the cam type surface 40 of moving contact along locking balladeur train 35, and the locking balladeur train is moved forward in the direction of indicator wheel 31, relative up to the eyelet 37 that makes perforated plate 36 with square cell 17.Thereby can enter square opening 17, and allow manual joystick in place.Simultaneously, locking balladeur train 35 discharges lockplates 18, will explain that as following one section when having only indicator wheel 31 to allow the operator could twist-lock plate 18.The auxiliary switch 61 that connects with the 3rd slide block 82b provides a signal corresponding with " manual mode ".Indicator wheel 31 is in the corresponding dislocation in last position with " automatic mode " of disconnecting apparatus 1.Therefore disconnecting apparatus 1 can move, and by means of manual joystick manual switch in or another position.Simultaneously, travelling gear 87 moves the first and second slide block 82a, and the first and second slide block 82a provide a signal corresponding with the dislocation of disconnecting apparatus 1.

In order to carry out the transition to " locking mode ", the operator should be put into disconnecting apparatus 10 position of illustrated embodiment in advance.This position is corresponding with a position of the indicator wheel 31 shown in Fig. 9,10, and in this position, corresponding groove 33b can free in and out.Obviously, according to user's needs, can be provided with the dislocation I of disconnecting apparatus 1 or the locking mode of II.In this case, corresponding groove 33a or 33c no longer comprise centrepin 33 ', so that can free in and out on the contrary mutually with other groove.When disconnecting apparatus 1 was in position 0, the operator can catch seizing of lockplate 18 to hold button 19, makes it forward the exit position to, and can enter lock hole 45, and the operator can pass lock hole 45 and place a padlock.When carrying out this operation, the foot 46 of lockplate 18 abuts on 35 1 flanks 48 of locking balladeur train, and locking balladeur train 35 is pushed away forward in the direction of indicator wheel 31.This move of locking balladeur train 35 is possible, because relative with the terminal 49 that is located at below the locking balladeur train 35 with the groove 33b of the corresponding indicator wheel 31 in the position 0 of disconnecting apparatus 1.In this position, terminals 49 are embedded among the groove 33b, stop indicator wheel 31, and therefore the radial arm 38 that is connected with selection handle 14 moves in the straightway 41 of cam type surface 40 with moving contact.The perforated plate 36 of locking balladeur train 35 separates, and the new portion of laying equal stress on stops up square opening 17, stops manual joystick in place.The auxiliary switch 61 that connects with the 3rd slide block 82b provides a signal corresponding with " locking mode ".Provide a signal corresponding with auxiliary switch 61 that the first and second slide block 82a connect with the position 0 of disconnecting apparatus 1.Therefore disconnecting apparatus 1 is completely locked at position 0.

In order to carry out the transition to " manual mode ", the operator should take off the padlock of lockplate 18, and lockplate 18 is got back to home position under the effect of return mechanism 44.When lockplate 18 rotated around back shaft 43, the foot 46 of lockplate 18 left flank 48, discharges locking balladeur train 35, and locking balladeur train 35 returns " manual mode " under the effect of its return mechanism 42.This action that retreats obtains the help of lockplate 18, and its jag 47 and inclined ramp 47a have the trend that promotes locking balladeur train 35.When this moves, with in the straightway 41 of cam type surface 40, moving of the radial arm 38 of selecting handle 14 to be connected with moving contact.The perforated plate 36 of locking balladeur train 35 is allowing centering on the manual joystick square opening 17 in place again.Disconnecting apparatus 1 is in " manual mode ", and can swing to " automatic mode ", selecting handle 14 to rotate 1/4th circles, selecting handle to be re-applied in the position of Fig. 1.

From this description, obviously the present invention has reached the purpose of setting.Mechanization control module 10 designs on comprehensive its globality of electricity, machinery and security functions fully.This globality has been cancelled the wiring of motor 12 and auxiliary switch 61, and the institute of therefore having eliminated the wiring inherited error is dangerous.Therefore the control module 10 that obtains is compact, economical, can be easy to be contained on the various types of disconnecting apparatuss 1 that are provided with a Control Shaft.

The present invention is not limited to described embodiment, but extend to various to those skilled in the art's change and modification clearly, and still in the scope that claims are determined.

Claims (17)

1. the mechanization control module (10) that is used for electric power disconnecting apparatus (1), this disconnecting apparatus (1) comprises the disconnection module (2) that at least one is driven by a Control Shaft, described Control Shaft extends in the control module (10) along a first axle (A) always, this control module (10) comprises at least one shell (11), one motor (12), some auxiliary switches (61) and circuit, described shell (11) comprises an actuating mechanism (70) that described Control Shaft is rotated, described motor (12) is connected with described actuating mechanism (70), each described auxiliary switch (61) is provided with a control piston, the conversion equipment (80) that described control piston is connected with described actuating mechanism (70) promotes, described circuit is used for to described motor (12) power supply and the signal that sends according to the described auxiliary switch of state transfer (61) of described disconnecting apparatus (1), described circuit is realized with the form of the printed circuit on the plate (60), this plate (60) is positioned at described shell (11), and comprise that some are used to accept the eyelet of the leg of described auxiliary switch (61) (63) (62), described auxiliary switch (61) directly is connected with described circuit, this control module (10) is characterised in that: it comprises that one is arranged in described shell and the base (50) between described actuating mechanism (70) and described plate (60), this base (50) is in order to carry the described auxiliary switch (61) parallel with described first axle (A), and described conversion equipment (80) comprises slide block (82a, 82b), these slide blocks are installed in below the described base (50), can move, and be provided with boss (84), be used for cooperating with the control piston of described auxiliary switch (61), when described disconnecting apparatus (1) was changed, at least one described slide block (82a) was moved by described actuating mechanism (70).

2. mechanization control module as claimed in claim 1, it is characterized in that, described base (50) comprises that some are used to accept the seat hole (54) of described auxiliary switch (61), the leg (63) of described auxiliary switch (61) points to plate (60), and described control piston points to described actuating mechanism (70).

3. mechanization control module as claimed in claim 1, it is characterized in that, described conversion equipment (80) comprises the travelling gear (87) that at least one is connected with described actuating mechanism (70), and this travelling gear (87) meshes with the tooth bar (86) that at least one is located at least one slide block (82a).

4. mechanization control module as claimed in claim 3, it is characterized in that, described actuating mechanism (70) comprises the driven gear (72) that driving gear (71) that at least one is connected with described motor (12) and at least one and a cylindricality pillar (73) fuse, and cylindricality pillar (73) has described travelling gear (87) and is provided with first hole (74) with described first axle (A) that can accept the described Control Shaft of described disconnecting apparatus (1).

5. mechanization control module as claimed in claim 4, it is characterized in that, described mechanization control module comprises one the choice device of the function selecting of disconnecting apparatus (1) for " automatic mode ", " manual mode " and " locking mode ", this choice device comprises a selection handle (14) that can touch outside described shell (11), this selects handle (14) to rotate around one second axis (B), and cooperates with a safety device (30) that guarantees described operational mode safety.

6. mechanization control module as claimed in claim 5, it is characterized in that, described safety device (30) comprises an indicator wheel (31) and the locking balladeur train (35) with second hole (17) of described first axle (A) that is rotationally connected with described cylindricality pillar (73) and is provided with, can be by a manual joystick from approaching described second hole (17), the outside of described shell (11), described locking balladeur train (35) can vertically move with described first axle (A), and be provided with a perforated plate (36) that overlaps on the described indicator wheel (31), be used for stopping up described second hole (17) at " automatic mode " and " locking mode " to small part.

7. mechanization control module as claimed in claim 6, it is characterized in that, described locking balladeur train (35) is connected with described selection handle (14), and described selection handle (14) is used at least described locking balladeur train (35) being shifted to " manual mode " and being shifted to " automatic mode " from " manual mode " from " automatic mode ".

8. mechanization control module as claimed in claim 7, it is characterized in that, described selection handle (14) is rotationally connected with a radial arm (38), described radial arm (38) be provided with one have described second axis (B) separate with moving contact, be used for moving along a cam type surface (40) that is located at described locking balladeur train (35), described cam type surface (40) extend in one with described first axle (A) be the angle that gradually changes of radius centered fan-shaped on, described cam type surface (40) ends at a linearity range (41), and described linearity range (41) overlaps with straight line by described first axle (A) and second axis (B).

9. mechanization control module as claimed in claim 8, it is characterized in that, described conversion equipment (80) comprises the transmission fork (89) that some are connected with described locking balladeur train, these transmission forks (89) pass described plate (60) and described base (50), are used for moving when described disconnecting apparatus (1) selection function at least one described slide block (82b).

10. mechanization control module as claimed in claim 8, it is characterized in that, described control module comprises that is used to guide platform (20), the return mechanism (42) that is positioned between described locking balladeur train (35) and the described platform (20) that described indicator wheel (31) rotates and described locking balladeur train (35) is mobile, and described return mechanism (42) is used for described locking balladeur train at least from its band of position of " locking mode " to the position of its " manual mode ".

11. mechanization control module as claimed in claim 10, it is characterized in that, comprise the shape that some are complementary around the described platform (20), be used for being assembled in described shell (11) with embedding mutually by overlapping, described control module (10) comprises that one is positioned at the above lid (13) of described platform (20), is used to seal described shell (11).

12. mechanization control module as claimed in claim 5 is characterized in that, described control module comprises a locking device that is used for described choice device is locked in " locking mode ".

13. mechanization control module as claimed in claim 12, it is characterized in that, described locking device comprises that at least one is vertically mounted on the lockplate (18) on the described platform (20), this lockplate (18) can rotate between a home position of forbidding locking and an exit position that allows to lock around a back shaft (43), this lockplate (18) comprise one can be approaching in the outside of described shell (11) seize and hold button (19) and at least one lock hole (45), when described lockplate (18) is positioned at the exit position so that can place a padlock time, described lock hole (45) is arranged to can be in the outside of described shell (11) near described lock hole.

14. mechanization control module as claimed in claim 13, it is characterized in that, described lockplate (18) comprises a foot (46), be used for when " automatic mode ", abutting in described locking balladeur train (35), described lockplate (18) is blocked on the home position, and is used for described locking balladeur train (35) being shifted onto " locking mode " from " manual mode " when its home position is shifted to its exit position at described lockplate (18).

15. mechanization control module as claimed in claim 14, it is characterized in that described lockplate (18) comprises the return mechanism (44) and the inclined ramp (47a) that is used for described locking balladeur train (35) is taken to from " locking mode " " manual mode " that are used for described lockplate (18) is brought back to from its exit position its home position.

16. mechanization control module as claimed in claim 6, it is characterized in that, described indicator wheel (31) comprises the corresponding groove of dislocation (33b) of at least one and described disconnecting apparatus (1), and described locking balladeur train (35) comprises at least one terminal (49), is used for being embedded in when " locking mode " described groove (33b).

17. comprise the disconnecting apparatus (1) of at least one disconnection module (2), described disconnection module (2) is driven by a Control Shaft that extends along a first axle (A), described disconnecting apparatus (1) is characterised in that, this disconnecting apparatus comprises one as one of above-mentioned claim described control module (10), this module (10) and is embedded on its Control Shaft on described disconnecting apparatus (1).

Images