CN108057373A - Mixing plant dispersion impeller transmission mechanism - Google Patents

Abstract

The present invention relates to a kind of mixing plant dispersion impeller transmission mechanisms, it includes decentralized institution, bearing assembly and scattered driving device, the bearing assembly is equipped with synchromesh gear and ring gear, rack is equipped with fixed gear, bearing assembly is rotatably arranged in rack, fixed gear is located in ring gear and is mutually arranged concentrically, and ring gear is equipped with the inner ring flank of tooth, and synchromesh gear engages simultaneously with the inner ring flank of tooth and fixed gear；Decentralized institution includes central shaft, dispersion impeller and scattered axis；Scattered driving device is arranged in the rack of mixing plant and is connected with central shaft driven, central shaft is rotatablely connected through fixed gear center and respectively with rack and bearing assembly, scattered axis is rotatably arranged on bearing assembly and is connected with central shaft driven, and dispersion impeller is arranged on scattered axis.Such mixing plant, by independent power drive, can be realized and run at high speed, so as to improve the effect of dispersion with dispersion impeller transmission mechanism.

Description

Mixing plant dispersion impeller transmission mechanism

Technical field

The present invention relates to a kind of mixing plant, particularly a kind of mixing plant for mixing lithium battery material that is mainly used for is used Dispersion impeller transmission mechanism.

Background technology

It as social progress develops, is increasingly popularized using battery-driven product, small has electronic product, and big has The vehicles（Electric vehicle）Etc., driving battery is essentially lithium battery used by these products, and the system of lithium battery slurry Work is related to being stirred for multiple material, and still, current agitation mixer generally existing stirs non-uniform deficiency, causes The lithium battery slurry produced differs greatly, of poor quality for finally using the lithium battery produced of these lithium battery slurries It is different big, large-scale large power-consuming equipment is caused to be difficult to, using these lithium batteries, also constrain large-scale large power-consuming equipment（Such as electricity Electrical automobile）The development of industry.

China Patent No. CN200320122190.1 discloses a kind of power mixer, mixing master on December 1st, 2004 Axis is driven by the hybrid electric motor with reduction box by chain drive, and two planet axis for playing mixing are led by mixing Axis is revolved round the sun by planetary gear mechanism driving and rotation, and scattered main shaft is driven by scattered motor by tape handler Dynamic, which passes through the tube chamber of tubulose mixing main shaft, and lower end drives two scattered axis by tape handler, and two is scattered Axis is connected to the main box both sides of planetary gear mechanism by bearing, revolves round the sun with main box, while also by scattered electricity Machine driving carries out high speed rotation.The agitating paddle of the machine and scattered axis are driven simultaneously by a motor, and motor load is big, influences motor Service life.

The content of the invention

It is an object of the invention to overcome above-mentioned the shortcomings of the prior art, and provide a kind of simple and reasonable for structure, tool The mixing plant for having independent driving, the dispersion effect to material good dispersion impeller transmission mechanism, to overcome the prior art not Foot.

The object of the present invention is achieved like this：

A kind of mixing plant dispersion impeller transmission mechanism exists including decentralized institution, bearing assembly and scattered driving device, feature In：The bearing assembly is equipped with synchromesh gear and ring gear, and rack is equipped with fixed gear, and bearing assembly is rotatably arranged on In rack, fixed gear is located in ring gear and is mutually arranged concentrically, and ring gear is equipped with the inner ring flank of tooth, and synchromesh gear is same When engaged with the inner ring flank of tooth and fixed gear；Decentralized institution includes central shaft, dispersion impeller and scattered axis；Scattered driving device is set Be connected in the rack of mixing plant and with central shaft driven, central shaft through fixed gear center and respectively with rack and branch Bearing assembly is rotatablely connected, and scattered axis is rotatably arranged on bearing assembly and is connected with central shaft driven, and dispersion impeller is arranged on scattered On axis.

The purpose of the present invention can also use following technical measures to solve：

As more specific scheme, the scattered axis is equipped with two or more and is centrally located axis periphery.

As further embodiment, the scattered axis is equipped with three, and every scattered axis is equipped with upper and lower two dispersion impellers.

As further embodiment, the dispersion impeller include intermediate panel, upper scattered tooth and lower scattered tooth, upper scattered tooth and Scattered tooth is alternately distributed in intermediate panel periphery down.

As further embodiment, the bearing assembly is protective cover, and protective cover includes upper cover plate, sheath, lower cover, axis Bearing and the synchromesh gear；Upper cover plate and lower cover are connected to sheath upper and lower ends, and sheath is cylindrical, synchromesh gear It is rotatably arranged on upper cover plate, bearing block is arranged on lower cover；The ring gear is arranged on upper cover plate, and central shaft is through upper Cover board is stretched into sheath；The scattered axis is rotatably assorted with bearing block, and scattered axis lower end is extend out to below lower cover and with disperseing Disk connects.

As further embodiment, the scattered driving device includes scattered motor and the second motor rack, the second motor rack It is arranged in rack, scattered motor is arranged on the second motor rack, and scattered motor is connected with central shaft driven.

As further embodiment, the decentralized institution further includes scattered former moving gear, drive socket and scattered passive tooth Wheel disperses outside the centrally disposed axis of original moving gear, and drive socket is rotatably arranged on bearing block, and scattered driven gear is arranged on biography Moving sleeve is outer and passes through synchronous belt and scattered former movable sprocket drive connection；Scattered axis passes perpendicularly through drive socket and and drive sleeve Cylinder vertical sliding motion cooperation disperses axis upper end and is sequentially connected with lift drive mechanism.

As further embodiment, the lift drive mechanism is cylinder, hydraulic cylinder or electric cylinder.

As further embodiment, the rack is equipped with mixer drive, and mixer drive is passed with bearing assembly Dynamic connection.

As further embodiment, the mixer drive includes stirring motor, the first motor rack, reduction box and stirring Former moving gear, the first motor rack are arranged in rack, and stirring motor and reduction box are arranged on the first motor rack, and stirring motor leads to Reduction box is crossed to be sequentially connected with the former moving gear of stirring；The ring gear is additionally provided with the outer shroud flank of tooth, stirs former moving gear and outer shroud Flank engagement.

Beneficial effects of the present invention are as follows：

（1）Such mixing plant, by independent power drive, can be realized and run at high speed, so as to improve with dispersion impeller transmission mechanism The effect of dispersion.

（2）The scattered axis of such mixing plant dispersion impeller transmission mechanism can be scattered that need not use with elevating movement During disk, scattered axis can be packed up, in order to avoid influencing other operations, while also bring certain protection to scattered axis and dispersion impeller, carry Its high service life.

Description of the drawings

Fig. 1 is one embodiment of the invention main structure diagram.

Fig. 2 is overlooking the structure diagram of the present invention.

Fig. 3 is left view of the present invention（Amplification）Structure diagram.

Fig. 4 is the A-A section views of Fig. 3（It reduces）Structure diagram.

Fig. 5 is enlarged structure schematic diagram at B in Fig. 4.

Fig. 6 is enlarged structure schematic diagram at C in Fig. 4.

Fig. 7 is overlooking the structure diagram after the crossbeam of the invention for taking portal frame away.

Fig. 8 is agitating paddle driving gear component overlooking the structure diagram in the present invention.

Fig. 9 is agitating paddle and dispersion impeller location diagram in the present invention.

Schematic diagram after Figure 10 simplifies for Fig. 9.

Figure 11 is agitating paddle and dispersion impeller transmission mechanism structure diagram in the present invention.

Figure 12 is enlarged structure schematic diagram at D in Figure 11.

Figure 13 is the main structure diagram of Figure 11.

Figure 14 is the H-H section views of Figure 13（Amplification）Structure diagram.

Structure diagram after Figure 15 rises for dispersion impeller in Figure 13.

Figure 16 is that charging basket lifts rear structure diagram in Fig. 1.

In figure：

1 it is portal frame, 11 be crossbeam, 12 be column, 13 be pedestal, 14 be guide groove, 15 is fixed gear；

2 be stirring motor, 21 be the first motor rack, 22 be reduction box, 23 be the former movable sprocket of stirring, 24 be stirring driving chain, 25 be stirring by movable sprocket, 26 it is stirring transmission shaft, 27 be the former moving gear of stirring, 28 is ring gear；

3 for scattered motor, 31 it is the second motor rack, 32 be scattered former movable sprocket, 33 be scattered driving chain, 34 is scattered passive Sprocket wheel, 35 be hollow shaft, 36 be scattered former moving gear, 37 be synchronous belt；

4 it is fixing sleeve, 41 is base ring；

5 it is agitating paddle, 51 be agitating shaft, 52 be stirring driven gear, 53 be the first auger arm, 54 be lower link, 55 is Second auger arm, 56 are connector；

6 it is dispersion impeller, 61 be scattered axis, 611 be straight-line guidance muscle, 62 be drive socket, 63 be scattered driven gear, 64 is Between disk, 65 be upper scattered tooth, 66 be lower scattered tooth, 67 be cylinder, 68 be linkage board；

7 it is charging basket, 71 be supporting castor, 72 be guide castor, 73 be outer flange, 74 be limit bolt, 75 is heat exchanging interlayer；

8 it is servo electric jar, 81 be vertical guide rail, 82 be sliding block, 83 be bracket, 831 be /V jack, 84 is bolster, 85 For /V frame；

9 it is protective cover, 91 be upper cover plate, 92 be sheath, 93 be lower cover, 94 be synchromesh gear, 95 is bearing block.

Specific embodiment

The invention will be further described with reference to the accompanying drawings and embodiments.

Referring to shown in Fig. 1-8 and Figure 11-14, a kind of mixing plant dispersion impeller transmission mechanism, the mixing plant bag Including rack and dispersion impeller transmission mechanism, rack are portal frame 1, and dispersion impeller transmission mechanism includes decentralized institution, bearing assembly（Supporting Component is protective cover 9）With scattered driving device.Portal frame 1 includes pedestal 13, column 12 and crossbeam 11,13 top left and right of pedestal Both sides are equipped with the column 12, and 11 both ends of crossbeam are undertaken on 12 top of column, and crossbeam 11 is equipped with rabbling mechanism, 4 and of fixing sleeve The protective cover 9.

The each several part casting of the portal frame 1, the pedestal 13 are equipped with 7 lifting mechanism of charging basket, 7 lifting machine of charging basket Structure includes the bracket 83 of elevating movement, and cross spacing structure is equipped between bracket 83 and charging basket 7.7 lifting mechanism of charging basket further includes Servo electric jar 8, vertical guide rail 81 and sliding block 82 correspond to servo electric jar 8 on portal frame 1 equipped with /V frame 85, servo electricity Dynamic cylinder 8 is arranged in /V frame 85, and servo electric jar 8 is equipped with the telescopic rod being directed toward up and down, and telescopic rod is pushed up with /V frame 85 84 bolster 84 of bolster is equipped between portion as elastic components such as spring, sponges, meanwhile, telescopic rod is sequentially connected with sliding block 82, sliding Block 82, which slides up and down, to be arranged on vertical guide rail 81, and vertical guide rail 81 is connected with column 12, and bracket 83 is connected with sliding block 82.It is described Cross spacing structure includes being arranged on the /V jack 831 of 83 top surface of bracket and the limit bolt 74 being arranged on charging basket 7, charging basket 7 peripheries are equipped with outer flange 73, and limit bolt 74 is arranged on 73 bottom of outer flange and is directed toward the /V jack 831, when bracket 83 When lifting charging basket 7, /V jack 831 is inserted in outside limit bolt 74, can be played the role of preventing 7 transverse shifting of charging basket, be avoided Topple over accident.The pedestal 13 of portal frame 1 is usually embedded ground, and 13 top surface of pedestal maintains an equal level with ground, and ground needs to dig It does basis and is connected with pedestal 13 in hole.

The protective cover 9 is rotatably arranged on the lower section of crossbeam 11, protective cover 9 include upper cover plate 91, sheath 92, lower cover 93, Synchromesh gear 94 and bearing block 95, upper cover plate 91 and lower cover 93 are connected to 92 upper and lower ends of sheath, and sheath 92 is in cylinder Shape, synchromesh gear 94 are rotatably arranged on upper cover plate 91, and lower cover 93 is equipped with bearing block 95；11 bottom of crossbeam is fixed with Fixed gear 15, synchromesh gear 94 are engaged with fixed gear 15.

The fixing sleeve 4 is cylindrical, and 4 upper end of fixing sleeve is fixedly connected with 11 bottom of crossbeam, and protective cover 9 is located at fixing sleeve 4 insides, 4 lower end of fixing sleeve are used to be connected with the open top of charging basket 7；4 lower end of fixing sleeve is equipped with the top of base ring 41 and charging basket 7 Opening relief coordinates, and mating surface can be equipped with sealing ring between base ring 41 and charging basket 7.4 periphery of fixing sleeve is equipped with multiple windows, window Mouthful transparent windows, headlamp, charge door, vacuum-pumping tube etc. can be set, depending on showing practical application.

Decentralized institution includes scattered motor 3, the second motor rack 31, disperses former movable sprocket 32, disperse driving chain 33, is scattered By movable sprocket 34, central shaft（Central shaft is hollow shaft 35）, scattered former moving gear 36, dispersion impeller 6 and scattered axis 61；Second electricity Rack 31 is arranged on one end opposite with opposite first motor rack 21 on crossbeam 11, and scattered motor 3 is arranged on the second motor rack 31 On, scattered motor 3 passes sequentially through scattered former movable sprocket 32, scattered driving chain 33, disperses to be passed by movable sprocket 34 and hollow shaft 35 Dynamic connection, hollow shaft 35 are stretched into through fixed gear 15, upper cover plate 91 in protective cover 9 outside crossbeam 11；Scattered original moving gear 36 In protective cover 9 and it is arranged on outside hollow shaft 35；Scattered axis 61 is rotatably arranged on the bearing block 95 of lower cover 93, is disperseed 61 upper end of axis is stretched into protective cover 9 and is sequentially connected with scattered former moving gear 36, and scattered 61 lower end of axis extends 93 lower section of lower cover It is connected with dispersion impeller 6.

The lifting of scattered axis 61 is arranged on lower cover 93, and control 61 elevating movement of scattered axis is equipped in protective cover 9 Lift drive mechanism.

The lift drive mechanism is cylinder 67, and the control gas circuit of cylinder 67 is led to through hollow shaft 35 outside portal frame 1.Each point It dissipates 61 upper end of axis to connect by linkage board 68, the cylinder body of cylinder 67 is arranged in protective cover 9, the piston rod and linkage board of cylinder 67 68 connections（Certainly, can also be that each scattered axis 61 is corresponded to and driven by a cylinder 67）.

The decentralized institution further includes drive socket 62 and scattered driven gear 63, and drive socket 62 is rotatably arranged on bearing On seat 95, scattered driven gear 63 be arranged on drive socket 62 it is outer and pass through synchronous belt 37 with it is scattered former dynamic on hollow shaft 35 Sprocket wheel 32 is sequentially connected；Scattered axis 61 passes perpendicularly through drive socket 62 and coordinates with 62 vertical sliding motion of drive socket, disperses axis 61 Upper end is sequentially connected with cylinder 67.Specifically：Scattered 61 surface of axis is equipped with straight-line guidance muscle 611, drive sleeve along its axis direction 62 inner walls of cylinder are equipped with straight-line guidance groove, straight-line guidance muscle 611 and straight-line guidance groove straight line along 62 axis direction of drive socket It is slidably matched.

The scattered axis 61 is equipped with three（Scattered 61 quantity of axis is equal with 51 quantity of agitating shaft）, wherein, two scattered axis 61 are equipped with the dispersion impeller 6 of upper and lower two minor diameters（Shown in F, G in Figure 11）, another scattered axis 61 is equipped with upper and lower two The dispersion impeller 6 of major diameter（Shown in E in Figure 11）.Above-mentioned three scattered axis 61 are with non-uniformly distributed formal distribution in protective cover 9 Pivot outside.Dispersion impeller 6 includes intermediate panel 64, upper scattered tooth 65 and lower scattered tooth 66, upper scattered tooth 65 and lower scattered Tooth 66 is alternately distributed in 64 periphery of intermediate panel.

Rabbling mechanism is additionally provided on the crossbeam 11, the rabbling mechanism includes stirring motor 2, the first motor rack 21, subtracts Fast case 22, the former movable sprocket 23 of stirring, stirring driving chain 24, stirring are by movable sprocket 25, stirring transmission shaft 26, the former moving gear of stirring 27th, ring gear 28, agitating paddle 5, agitating shaft 51 and stirring driven gear 52；First motor rack 21 is arranged on 11 one end of crossbeam, Stirring motor 2 and reduction box 22 are arranged on the first motor rack 21, and stirring motor 2 passes sequentially through reduction box 22, the former dynamic chain of stirring Wheel 23, stirring driving chain 24, stirring are sequentially connected by movable sprocket 25, stirring transmission shaft 26 and the former moving gear 27 of stirring；Annular Gear 28 is arranged on the upper cover plate 91 of protective cover 9 and is enclosed in outside the fixed gear 15, and ring gear 28 includes outer shroud tooth Face and the inner ring flank of tooth, the outer shroud flank of tooth are engaged with the former moving gear 27 of stirring, and the inner ring flank of tooth is engaged with the synchromesh gear 94；Agitating shaft 51 are vertically set on protective cover 9 and are rotatably assorted with upper cover plate 91 and lower cover 93, and 51 upper end of agitating shaft extends ring gear It is connected between 28 and fixed gear 15 and with stirring driven gear 52, stirring driven gear 52 is engaged with synchromesh gear 94, is stirred 51 lower end of axis extends 93 lower section of lower cover and is connected with agitating paddle 5.

The agitating paddle 5 is equipped with three, is respectively equipped with agitating shaft 51 on each agitating paddle 5, agitating shaft 51 is with non-uniformly distributed shape Formula is distributed in outside the pivot of protective cover 9.The agitating paddle 5 includes connector 56, the first auger arm 53, the second spiral The upper end of mixing arm 55 and lower link 54, the first auger arm 53 and the second auger arm 55 respectively with connector 56 two End connection, lower end of 54 both ends of lower link respectively with the first auger arm 53 and the second auger arm 55 is connected.

With reference to shown in Fig. 9 and Figure 10, periphery rotating path when L1 works 5 rotation of agitating paddle for three, L2 is in charging basket 7 Wall（7 lumen centers of charging basket theoretically can be understood as the pivot of protective cover 9, the overlapping or substantially overlapping of the two center）, L3, L4, L5 are the periphery rotating path for corresponding to dispersion impeller 6 during three scattered 61 rotations of axis thereon；Wherein, three agitating paddle 5 is rotated certainly The center of circle for turning path is respectively the 7 lumen centers point O of central point O ' deviation charging baskets that O1, O2, O3 order line form virtual face.

Guide castor 72 is horizontally arranged at 7 bottom centre of charging basket, 13 top surface of pedestal corresponds to guide castor 72 and is equipped with The guide groove 14 of front and rear direction, 14 top of guide groove and at least open at one end, guide castor 72 are inserted from the openend of guide groove 14 Enter, guide castor 72 is set there are three more than, and is distributed on 72 periphery of guide castor, and guide castor 72 leaves ground.7 outer wall of charging basket Equipped with heat exchanging interlayer 75, helical duct is equipped in heat exchanging interlayer 75, helical duct can lead to the heat transferring mediums such as coolant.

With reference to shown in Fig. 8, R1 arrows are former 27 direction of rotation of moving gear of stirring, stir former moving gear 27 and drive ring gear 28 and the protective cover 9 that is connected with ring gear 28 rotated along R2 arrow directions（It realizes the agitating shaft 51 on protective cover 9 and divides Dissipating axis 61 can revolve round the sun）, ring gear 28 drive synchromesh gear 94 rotated around fixed gear 15, synchromesh gear 94 simultaneously drive stir Mix driven gear 52 and 51 rotation of agitating shaft being connected with stirring driven gear 52.Since hollow shaft 35 is located at 9 center of protective cover, So protective cover 9 can not be followed to rotate, i.e., hollow shaft 35 can be with independent startup, and realizes and just controlling whenever necessary in 61 rotation of scattered axis that empty axis 35 is driven.

It stirs the principle of material：When charging basket 7 equipped with material enters 13 top precalculated position of pedestal, start servo Charging basket 7 is raised up to electric cylinder 87 open top of charging basket and the base ring 41 of fixing sleeve 4 seals cooperation（As shown in Figure 16）, then, To being vacuumized inside charging basket 7（The step is shown depending on material）, start stirring motor 2, proceed by stirring work so that each material It is uniformly distributed, at this point, scattered axis 61 is in Figure 15 states；After spending the regular hour, while start scattered motor 3, disperse axis 61 It works with together with agitating shaft 51, each material is made more to be uniformly distributed, also make its particle more tiny.Finally, pressure release, servo electric jar 8 telescopic rod starts downlink, realizes that charging basket 7 declines（As shown in Figure 1）.

Claims (10)

1. a kind of mixing plant dispersion impeller transmission mechanism, including decentralized institution, bearing assembly and scattered driving device, feature It is：The bearing assembly is equipped with synchromesh gear（94）And ring gear（28）, rack is equipped with fixed gear（15）, supporting Component is rotatably arranged in rack, fixed gear（15）Positioned at ring gear（28）It is interior and be mutually arranged concentrically, ring gear （28）Equipped with the inner ring flank of tooth, synchromesh gear（94）Simultaneously with the inner ring flank of tooth and fixed gear（15）Engagement；During decentralized institution includes Mandrel, dispersion impeller（6）With scattered axis（61）；Scattered driving device is arranged in the rack of mixing plant and and central shaft driven Connection, central shaft pass through fixed gear（15）Center is simultaneously rotatablely connected with rack and bearing assembly respectively, disperses axis（61）It rotates It is arranged on bearing assembly and is connected with central shaft driven, dispersion impeller（6）It is arranged on scattered axis（61）On.

2. mixing plant dispersion impeller transmission mechanism according to claim 1, it is characterised in that：The scattered axis（61）It is equipped with Two or more and be centrally located axis periphery.

3. mixing plant dispersion impeller transmission mechanism according to claim 1, it is characterised in that：The scattered axis（61）It is equipped with Three, every scattered axis（61）It is equipped with upper and lower two dispersion impellers（6）.

4. mixing plant dispersion impeller transmission mechanism according to claim 1, it is characterised in that：The dispersion impeller（6）Including Intermediate panel（64）, upper scattered tooth（65）With lower scattered tooth（66）, upper scattered tooth（65）With lower scattered tooth（66）It is alternately distributed Intermediate panel（64）Periphery.

5. mixing plant dispersion impeller transmission mechanism according to claim 1, it is characterised in that：The bearing assembly is protection Cover（9）, protective cover（9）Including upper cover plate（91）, sheath（92）, lower cover（93）, bearing block（95）With the synchromesh gear （94）；Upper cover plate（91）And lower cover（93）It is connected to sheath（92）Upper and lower ends, sheath（92）It is cylindrical, synchronous gear Wheel（94）It is rotatably arranged on upper cover plate（91）On, bearing block（95）It is arranged on lower cover（93）On；The ring gear（28）If It puts in upper cover plate（91）On, central shaft is through upper cover plate（91）Stretch into sheath（92）It is interior；The scattered axis（61）With bearing block（95） It is rotatably assorted, disperses axis（61）Lower end extend out to lower cover（93）Lower section and and dispersion impeller（6）Connection.

6. mixing plant dispersion impeller transmission mechanism according to claim 1, it is characterised in that：The scattered driving device bag Include scattered motor（3）With the second motor rack（31）, the second motor rack（31）It is arranged in rack, disperses motor（3）It is arranged on Two motor racks（31）On, disperse motor（3）It is connected with central shaft driven.

7. mixing plant dispersion impeller transmission mechanism according to claim 5, it is characterised in that：The decentralized institution further includes Scattered original moving gear（36）, drive socket（62）With scattered driven gear（63）, disperse original moving gear（36）Centrally disposed axis Outside, drive socket（62）It is rotatably arranged on bearing block（95）On, disperse driven gear（63）It is arranged on drive socket（62）Outside, simultaneously Pass through synchronous belt（37）With scattered former movable sprocket（32）It is sequentially connected；Scattered axis（61）Pass perpendicularly through drive socket（62）And with Drive socket（62）Vertical sliding motion coordinates, and disperses axis（61）Upper end is sequentially connected with lift drive mechanism.

8. mixing plant dispersion impeller transmission mechanism according to claim 7, it is characterised in that：The lift drive mechanism is Cylinder（67）, hydraulic cylinder or electric cylinder.

9. mixing plant dispersion impeller transmission mechanism according to claim 1, it is characterised in that：The rack is equipped with stirring Driving device, mixer drive are sequentially connected with bearing assembly.

10. mixing plant dispersion impeller transmission mechanism according to claim 9, it is characterised in that：The mixer drive Including stirring motor（2）, the first motor rack（21）, reduction box（22）With the former moving gear of stirring（27）, the first motor rack（21）If It puts in rack, stirring motor（2）And reduction box（22）It is arranged on the first motor rack（21）On, stirring motor（2）Pass through deceleration Case（22）With the former moving gear of stirring（27）It is sequentially connected；The ring gear（28）The outer shroud flank of tooth is additionally provided with, stirs former moving gear （27）With outer shroud flank engagement.