CN207140084U - The agitating device that a kind of agitating shaft can move axially in reciprocal fashion - Google Patents

Abstract

The utility model discloses the agitating device that a kind of agitating shaft can move axially in reciprocal fashion, its drip irrigation device is：The motor rotated including agitating shaft and driving agitating shaft, agitating shaft lower end is provided with transmission mechanism and guiding mechanism, wherein, transmission mechanism drives agitating shaft to rotate, guiding mechanism links with transmission mechanism, so that the guiding mechanism of periodic reverse motion vertically while agitating shaft rotates；Transmission mechanism includes the first driving member, the second driving member and STATEMENT OF FEDERALLY SPONSORED, wherein, first driving member is fixed in agitating shaft lower end to drive agitating shaft to rotate, and the second driving member is fixed on motor output shaft, and STATEMENT OF FEDERALLY SPONSORED is fixed on the second driving member so that the second driving member drives the first driving member to rotate；Guiding mechanism includes being fixedly connected on support and around the guide of agitating shaft circumference array distribution；First driving member is disc, and the first guide groove of periodic reverse bending vertically is offered on the first driving member cylinder, and the first guide groove is slidably connected with guide.

Description

The agitating device that a kind of agitating shaft can move axially in reciprocal fashion

Technical field

A kind of agitating device is the utility model is related to, the stirring dress that more particularly to a kind of agitating shaft can move axially in reciprocal fashion Put.

Background technology

Concrete mixing tank is widely used in civil engineering industry, and the agitating shaft of general agitator can only rotate, therefore stir Mixing oar can only be stirred relative to the level altitude of agitator to concrete, and stirring efficiency is not high.The agitating shaft of agitator Rotate simultaneously and it is flexible can improve stirring efficiency, therefore agitating shaft when stirring can synchronization telescope there is certain importance.

Chinese invention patent application such as Publication No. CN106182429A discloses a kind of concrete mixing tank, including with It is connected in the charging basket for containing concrete, the telescoping jointed arms being suspended among charging basket, with linking arm to stir concrete The agitating paddle mixed and the linking arm other end is connected to drive the motor that agitating paddle rotates.Stirred by flexible linking arm with adjusting The distance between oar and agitator bottom surface, after regulating, linking arm stops flexible.Start motor, agitating paddle is rotated with to the position The concrete put is stirred.

In the agitating paddle rotation process, linking arm not flexible, therefore in the program, the flexible and agitating paddle of linking arm Rotation can not be carried out simultaneously, can only be stirred in same position, therefore, program stirring efficiency is than relatively low.

Utility model content

The purpose of this utility model is to provide the agitating device that a kind of agitating shaft can move axially in reciprocal fashion, and its advantage is to stir Mixing axle can rotate and move axially in reciprocal fashion simultaneously.

Above-mentioned technical purpose of the present utility model technical scheme is that：A kind of agitating shaft can be along axle To reciprocating agitating device, including agitating shaft and the motor for driving the agitating shaft rotation, it is characterized in that：The agitating shaft Lower end is provided with transmission mechanism and guiding mechanism, wherein, the transmission mechanism drives the agitating shaft to rotate, the guiding mechanism with The transmission mechanism linkage, so that periodic reverse motion vertically while agitating shaft rotates.

Pass through above-mentioned technical proposal, when starting motor, motor driven transmission mechanism motion, transmission mechanism drives agitating shaft to turn It is dynamic.When transmission mechanism moves, guiding mechanism makes agitating shaft periodic reverse motion vertically with transmission mechanism linkage.Reach stirring The effect that axle is rotated and moved axially in reciprocal fashion simultaneously.Agitating shaft rotation axially simultaneously moves back and forth can be to diverse location Concrete is stirred, and can improve stirring efficiency.

The utility model is further arranged to：The transmission mechanism includes the first driving member, the second driving member and STATEMENT OF FEDERALLY SPONSORED, Wherein, first driving member is fixed in the agitating shaft lower end to drive agitating shaft to rotate, and second driving member is fixed in On the motor output shaft, the STATEMENT OF FEDERALLY SPONSORED is fixed on the second driving member so that the second driving member drives the first driving member to turn It is dynamic.

Pass through above-mentioned technical proposal, when the driving member of motor driven second rotates, STATEMENT OF FEDERALLY SPONSORED and the first driving member are inconsistent, connection Moving part drives the first driving member to rotate, so as to drive agitating shaft to rotate.Agitating shaft axially movable when, STATEMENT OF FEDERALLY SPONSORED with first transmission Part relative can be slided in the axial direction.

The utility model is further arranged to：The transmission mechanism includes the first driving member, the second driving member and STATEMENT OF FEDERALLY SPONSORED, Wherein, first driving member is fixed in the agitating shaft lower end to drive agitating shaft to rotate, and second driving member is fixed in On the motor output shaft, the STATEMENT OF FEDERALLY SPONSORED is fixed on the first driving member so that the second driving member drives the first driving member to turn It is dynamic.

Pass through above-mentioned technical proposal, when the second driving member rotates, the second driving member and STATEMENT OF FEDERALLY SPONSORED are inconsistent, the second driving member STATEMENT OF FEDERALLY SPONSORED is driven to rotate, STATEMENT OF FEDERALLY SPONSORED drives agitating shaft to rotate.Agitating shaft axially movable when, the second driving member can be with STATEMENT OF FEDERALLY SPONSORED It is relative in the axial direction to slide.

The utility model is further arranged to：The guiding mechanism includes being fixedly connected on support and around the agitating shaft The guide of circumference array distribution；

First driving member is disc, is offered on the first driving member cylinder and slides company for the guide The first guide groove connect, periodic reverse is bent first guide groove vertically, so that when the first driving member rotates vertically Move back and forth.

Pass through above-mentioned technical proposal, when the first driving member rotates, guide is relative to the first driving member along the first guide groove Slide, because guide is fixed, so the first driving member moves axially in reciprocal fashion, so as to drive agitating shaft reciprocal vertically Motion.

The utility model is further arranged to：The guiding mechanism includes being fixed on support and coaxial with the agitating shaft Retainer ring, the guide that is fixedly connected with first driving member and be opened in the retainer ring inner cylinder and supply the guiding The second guide groove that part is slidably connected, periodic reverse is bent second guide groove vertically, so that the first driving member rotates When moved axially in reciprocal fashion relative to retainer ring.

Pass through above-mentioned technical proposal, the first driving member rotate, and guide slides along the first guide groove, because retainer ring is fixed Motionless, so guide is axially moved relative to retainer ring, the first driving member moves axially in reciprocal fashion, so as to drive agitating shaft edge Axially reciprocating.

The utility model is further arranged to：The guide includes guide rod and roller, and the roller is rotationally connected with Described guide rod one end, and roll and connect with first guide groove.

Pass through above-mentioned technical proposal, when the first driving member rotates, guide rod is relative to the first driving member along the first guide groove Motion, roller and the first guide groove upper and lower surfaces are inconsistent, and roller is directed to the sliding friction between bar and the first guide groove Rolling friction is converted into, so as to reduce guide rod along the frictional resistance in the first guide groove motion process.Due to guide rod and Frictional resistance between one guide groove reduces, so the first driving member is more steady when being axially moved relative to guide rod, produces Noise it is smaller, vibration it is also smaller.

The utility model is further arranged to：Also include the vertical side opened up on support with the guide correspondence position To, the chute that is slided for the guide, the cushion buffered when making guide along slide is provided with a pair in chute, Cushion is flexible, and cushion one side is inconsistent with guide, and cushion another side and chute end face are inconsistent.

Pass through above-mentioned technical proposal, the first driving member axially movable when, the first guide groove upper and lower surfaces with guiding Part is inconsistent, and the first guide groove has the pressure of upper and lower periodically-varied to guide, and guide is along chute cycle movement.Lead To part along chute move in one direction when, guide extruding cushion, cushion is pressurized and deforms upon shortening, and guide is along chute court The direction is slided, and when cushion is compressed into compression limit state, cushion stops deformation, and guide stops moving towards the direction. When the first guide groove band lower moving guide is moved in the opposite direction, guide compresses another cushion, and cushion before is gradual Recover deformation.When the first guide moves back and forth along chute, cushion plays cushioning effect to guide, and the first driving member is relative It is more steady during the direction of motion is changed in guide axially reciprocating.

The utility model is further arranged to：The guide includes the first drive link and is rotationally connected with first biography Lever one end and the roller that connection is rolled with second guide groove.

Pass through above-mentioned technical proposal, when the first driving member rotates, the first drive link is relative to retainer ring along the second guide groove Motion, roller and the second guide groove upper and lower surfaces are inconsistent, and roller is by the slip between the first drive link and the second guide groove Friction is converted into rolling friction, so as to reduce the first drive link along the frictional resistance in the second guide groove motion process.Due to Frictional resistance between one drive link and the second guide groove reduces, so when the first driving member is axially moved relative to retainer ring more Add steadily, caused noise is smaller, and vibration is also smaller.

The utility model is further arranged to：First driving member is the first drive plate, and first drive plate is affixed In the agitating shaft lower end；Second driving member is the second drive plate, and the second drive plate is fixed in the output shaft of the motor On；The transmission mechanism also includes vertically being fixed in gangbar on second drive plate, first drive plate with it is described Second drive plate is parallel, the gangbar and the first drive plate grafting.

Pass through above-mentioned technical proposal, when the second drive plate rotates, gangbar drives the first drive plate to rotate, the first drive plate Agitating shaft is driven to rotate.When agitating shaft is axially moved, the first drive plate relative can slide in the axial direction with gangbar.Second passes Moving plate and the first drive plate torsional strength are higher, drive in agitating shaft rotation process and are less likely to occur to deform, therefore agitating shaft It is more steady in rotation process.

The utility model is further arranged to：The transmission mechanism includes being fixed in the agitating shaft lower end to drive stirring The 4th drive link that axle rotates, be fixed in driven on the motor output shaft the 3rd drive link of the 4th drive rod rotation with And vertically it is fixed on the 4th drive link to drive the gangbar of the 4th drive rod rotation.

Pass through above-mentioned technical proposal, during three drive rod rotations, the 3rd drive link and gangbar are inconsistent, the 3rd drive link The 4th drive rod rotation is driven, the 4th drive link drives agitating shaft to rotate.When agitating shaft is axially moved, gangbar can be relative to 3rd drive link is axially movable.3rd drive link and the 4th drive link can reduce the weight of transmission mechanism, be stirred so as to reduce The weight of device is mixed, makes agitating device more lightweight, reduces cost.Contact area when the 3rd drive link and inconsistent gangbar It is smaller, during the axially opposed motion of the 3rd drive link and gangbar, the frictional resistance ratio between the 3rd drive link and gangbar It is smaller, so that agitating shaft is easier axially movable.

In summary, the utility model has the advantages that：

1st, transmission mechanism can drive agitating shaft to rotate, and guiding mechanism is reciprocal vertically while can rotating agitating shaft Motion so that agitating shaft can drive diverse location of the agitating paddle in agitator to be stirred, and improve stirring efficiency；

2nd, the torsional strength of the first drive plate and the second drive plate is higher, drives in agitating shaft rotation process and is not easy to send out Change shape, can lift the stability in agitating shaft rotation process；

3rd, the 3rd drive link and the 4th drive link can reduce the weight of transmission mechanism, reduce cost, the 3rd drive link with Frictional resistance is smaller during gangbar axially opposed motion, agitating shaft is easier axially movable；

4th, can be to the agitating shaft side of change axially movable by setting the cushion being used cooperatively with guide rod on support To when enter row buffering, move axially in reciprocal fashion agitating shaft more steady during commutation.

Brief description of the drawings

Fig. 1 is the structural representation of embodiment 1；

Fig. 2 is the schematic diagram that the first transmission dish structure is embodied in embodiment 1；

Fig. 3 is the schematic diagram that guide rod structure is embodied in embodiment 2；

Fig. 4 is the schematic diagram that roller structure is embodied in embodiment 2；

Fig. 5 is the schematic diagram that multiple guide rod installation relations are embodied in embodiment 3；

Fig. 6 is that the schematic diagram of the first guide groove expansion in the plane is embodied in embodiment 3；

Fig. 7 is the schematic diagram that sliding block assembly relation is embodied in embodiment 4；

Fig. 8 is the schematic diagram that soft cushion structure is embodied in embodiment 4；

Fig. 9 is the schematic diagram that fixed ring structure is embodied in embodiment 5；

Figure 10 is the schematic diagram that the second drive link structure is embodied in embodiment 6；

Figure 11 is the schematic diagram that the 3rd drive link structure is embodied in embodiment 7；

Figure 12 is the schematic diagram that the 4th drive link structure is embodied in embodiment 8.

In figure, 1, agitator；2nd, support；21st, chute；22nd, gib block；3rd, agitating shaft；4th, agitating paddle；5th, the first transmission Disk；51st, linkage hole；52nd, the first guide groove；6th, the second drive plate；7th, motor；8th, gangbar；9th, guide rod；91st, sliding block；92、 Guide pad；101st, roller；102nd, cushion；103rd, retainer ring；104th, the first drive link；105th, the second guide groove；106th, second pass Lever；107th, the 3rd drive link；108th, the 4th drive link.

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing.

Embodiment 1：

The agitating device that a kind of agitating shaft can be rotated and moved axially in reciprocal fashion simultaneously, as shown in figure 1, including agitator 1, Agitator 1 is fixed below to be supported by support 2, and the axis of agitator 1 is provided with the agitating shaft 3 with the rotation connection of the bottom surface of agitator 1, stirred Mix one end that axle 3 is located inside agitator 1 and be connected with agitating paddle 4 for ready-mixed concrete.

As depicted in figs. 1 and 2, the other end of agitating shaft 3 is vertically connected with the first drive plate 5 being coaxial therewith, the first transmission The linkage hole 51 of some circumference array distributions is offered on disk 5, the lower section of the first drive plate 5 is provided with parallel and coaxial second Drive plate 6, support 2 are provided with the motor 7 that the second drive plate 6 of driving rotates, and the second drive plate 6 is vertically connected with some circles above The gangbar 8 of all array distributions, gangbar 8 are slidably connected with corresponding linkage hole 51 respectively.Second drive plate 6 drives when rotating Gangbar 8 rotates, and gangbar 8 is inconsistent with linkage hole 51 and drives the first rotating disk to rotate, the first 3 turns of driven by rotary disc agitating shaft It is dynamic.

As shown in Fig. 2 the cylindrical guide bars 9 of the cylinder of the first drive plate of face 5 are connected with support 2, the first drive plate 5 The first guide groove 52 of circle periodic reverse bending vertically is offered on cylinder, guide rod 9 slides with the first guide groove 52 Connecting, in the rotation process of the first drive plate 5, the upper and lower surfaces of the first guide groove 52 are inconsistent with the cylinder of guide rod 9, and first Drive plate 5, so as to drive agitating shaft 3 to move axially in reciprocal fashion, can reach agitating shaft 3 while rotate along its axially reciprocating With the effect moved axially in reciprocal fashion.

The course of work：Concrete is poured into mixing drum 1, starts motor 7, motor 7 drives the second drive plate 6 to rotate, the Two drive plates 6 drive the first drive plate 5 to rotate by gangbar 8, and guide rod 9 is relative to the first drive plate 5 along the first guide groove 52 motions, the first drive plate 5 is along its axially reciprocating, so as to drive agitating shaft 3 to move axially in reciprocal fashion.Gangbar 8 rotates When with linkage hole 51 it is inconsistent, so as to drive agitating shaft 3 to rotate.

Embodiment 2：

As shown in Figure 3 and Figure 4, the present embodiment difference from Example 1 is, guide rod 9 is located at the first guide groove 52 Interior one end is rotatably connected to roller 101, and roller 101 is rolled with the upper and lower surfaces of the first guide groove 52 and is connected.First transmission When disk 5 rotates, roller 101 rolls relative to the first drive plate 5 along the first guide groove 52, and roller 101 is directed to bar 9 and led with first Rolling friction is converted into the sliding friction between groove 52, so as to reduce the frictional force between the guide groove 52 of guide rod 9 and first.

Embodiment 3：

As shown in figure 5, the present embodiment difference from Example 2 is, more than two guide rods are connected with support 2 9, guide rod 9 is distributed relative to the circumference array of the first drive plate 5.

As shown in fig. 6, after the first guide groove 52 deploys in the plane, the amount of cycles of the waveform of the first guide groove 52 is with leading Meet relational expression to the relation of the quantity of bar 9：N（Periodicity）=M（Nonzero integer）*n（The quantity of guide rod 9）, guide rod 9 is according to several What relation deploy in the plane after between spacing meet relational expression：d（After guide rod 9 deploys in the plane according to geometrical relationship Between spacing）=m（Nonzero integer）*s（First guide groove 52 deploy in the plane according to geometrical relationship after wavelength）.

As shown in figure 5, when the first drive plate 5 rotates, the first guide groove（52）Rolled with the cylinder of roller 101 upper and lower surfaces Dynamic connection, therefore the first guide groove 52 and the slope all same at the inconsistent position of roller 101.Because guide rod 9 is fixed not It is dynamic, so the first drive plate 5 can move axially in reciprocal fashion, so as to drive agitating shaft 3 to move axially in reciprocal fashion.Multiple guide rods 9 axial forces being circumferentially subject to when can move axially in reciprocal fashion the first drive plate 5 more balance, therefore the first drive plate 5 is more steady when moving axially in reciprocal fashion.

Embodiment 4：

As shown in Figure 7 and Figure 8, the present embodiment difference from Example 3 is, on support 2 with 9 corresponding position of guide rod The chute 21 for offering vertical direction is put, guide rod 9 is connected with what is be slidably connected with chute 21 close to one end of chute 21 Sliding block 91, a pair of flexible cushions 102 are equipped with chute 21, and cushion 102 is located at the both ends of sliding block 91, the one side of cushion 102 Inconsistent with sliding block 91, another side and the end face of chute 21 are inconsistent.

As shown in figure 8, the rotational band action-oriented bar 9 of the first drive plate 5 slides along chute 21, sliding block 91 along chute 21 slide when Cushion 102 is compressed, cushion 102 deforms upon shortening.When cushion 102 is compressed into the compression limit for reaching cushion 102, cushion 102 stop deformation, and guide rod 9 stops moving along chute 21, now the first drive plate 5 relative to guide rod 9 along the first drive plate 5 Axial movement.When the direction that the first drive plate 5 drives the groove of guide rod 9 opposite is moved along chute 21, sliding block 91 compresses another Individual cushion 102, the cushion 102 compressed before gradually recover deformation elongation.Cushion 102 can change the Impact direction of guide rod 9 Transition is steady during change, and the first drive plate 5 changes more steady during the direction of motion vertically.

A pair of gib blocks 22 are connected with chute 21, the guide pad being slidably connected with gib block 22 is connected with sliding block 91 92, guide pad 92 and gib block 22 are inconsistent, and gib block 22 is directed to block 92 and is stuck in chute 21, can anti-limited slip block 91 slide During depart from chute 21.And can prevent guide rod 9 from being tilted towards vertical direction, so that the first drive plate 5 is axially movable During it is more steady.

Embodiment 5：

As shown in figure 9, the present embodiment difference from Example 1 is, it is connected with support 2 same with the first drive plate 5 The retainer ring 103 of axle, the first drive link of cylinder 104 radially is connected with the cylinder of the first drive plate 5, retainer ring 103 The second guide groove 105 of circle periodic reverse bending vertically, the cylinder of the first drive link 104 and second are offered in inner cylinder The upper and lower surfaces of guide groove 105 are slidably connected.When first drive plate 5 rotates, the first drive link 104 is driven along the second guide groove 105 slide, because retainer ring 103 is fixed, so can be relative to the second guide groove in the rotation process of the first drive plate 5 105 move axially in reciprocal fashion, so as to drive the axially reciprocating of agitating shaft 3.

Embodiment 6：

As shown in Figure 10, the present embodiment difference from Example 5 is, the lower end of agitating shaft 3 is vertically connected with Circle-Array Second drive link 106 of column distribution, when the second drive plate 6 drives the rotation of gangbar 8, gangbar 8 offsets with the second drive link 106 Touch, gangbar 8 drives the second drive link 106 to rotate, so as to drive agitating shaft 3 to rotate.First drive link 104 is vertically fixed in the On the end face of two drive link 106, when the second drive link 106 rotates, the first drive link 104 slides along the second guide groove 105, so that Agitating shaft 3 moves axially in reciprocal fashion.

Embodiment 7：

As shown in figure 11, the present embodiment difference from Example 1 is, circumference is vertically connected with the output shaft of motor 7 3rd drive link 107 of array distribution, gangbar 8 are vertically fixed in the 3rd one end of drive link 107 away from motor 7, the band of motor 7 When dynamic 3rd drive link 107 rotates, gangbar 8 can pass through hole 51 of linking（See Fig. 2）The first drive plate 5 is driven to rotate.

Embodiment 8：

As shown in figure 12, the present embodiment difference from Example 5 is, the lower end of agitating shaft 3 is vertically connected with Circle-Array 4th drive link 108 of column distribution, gangbar 8 are vertically fixed in the 4th one end of drive link 108 away from agitating shaft 3, the band of motor 7 When dynamic 3rd drive link 107 rotates, the 3rd drive link 107 and gangbar 8 are inconsistent, and the 3rd drive link 107 drives 8 turns of gangbar It is dynamic, so as to drive agitating shaft 3 to rotate.First drive link 104 is vertically fixed on the end face of the 4th drive link 108, the 4th drive link 108 drive the first drive link 104 to be slided along the second guide groove 105 when rotating, so that agitating shaft 3 moves axially in reciprocal fashion.

This specific embodiment is only that it is not to limitation of the present utility model, ability to explanation of the present utility model Field technique personnel can make the modification of no creative contribution to the present embodiment as needed after this specification is read, but As long as all protected in right of the present utility model by Patent Law.

Claims (10)

1. the agitating device that a kind of agitating shaft can move axially in reciprocal fashion, including agitating shaft（3）With the driving agitating shaft（3）Turn Dynamic motor（7）, it is characterized in that：The agitating shaft（3）Lower end is provided with transmission mechanism and guiding mechanism, wherein, the driver Structure drives the agitating shaft（3）Rotate, the guiding mechanism links with the transmission mechanism, so that agitating shaft（3）What is rotated is same When periodic reverse motion vertically.

2. the agitating device that a kind of agitating shaft according to claim 1 can move axially in reciprocal fashion, it is characterized in that：The biography Motivation structure includes the first driving member, the second driving member and STATEMENT OF FEDERALLY SPONSORED, wherein, first driving member is fixed in the agitating shaft （3）Lower end is to drive agitating shaft（3）Rotate, second driving member is fixed in the motor（7）On output shaft, the STATEMENT OF FEDERALLY SPONSORED It is fixed on the second driving member so that the second driving member drives the first driving member to rotate.

3. the agitating device that a kind of agitating shaft according to claim 1 can move axially in reciprocal fashion, it is characterized in that：The biography Motivation structure includes the first driving member, the second driving member and STATEMENT OF FEDERALLY SPONSORED, wherein, first driving member is fixed in the agitating shaft （3）Lower end is to drive agitating shaft（3）Rotate, second driving member is fixed in the motor（7）On output shaft, the STATEMENT OF FEDERALLY SPONSORED It is fixed on the first driving member so that the second driving member drives the first driving member to rotate.

4. the agitating device that a kind of agitating shaft according to claim 2 can move axially in reciprocal fashion, it is characterized in that：

The guiding mechanism includes being fixedly connected on support（2）Above and around the agitating shaft（3）The guide of circumference array distribution；

First driving member is disc, offers what is be slidably connected for the guide on the first driving member cylinder First guide groove（52）, first guide groove（52）Along the axial cyclic cyclic bending of the first driving member, so that first passes Moving part moves axially in reciprocal fashion when rotating.

5. the agitating device that a kind of agitating shaft according to claim 3 can move axially in reciprocal fashion, it is characterized in that：It is described to lead Include being fixed on support to mechanism（2）It is upper and with the agitating shaft（3）Coaxial retainer ring（103）And first driving member The guide that is fixedly connected and it is opened in the retainer ring（103）It is oriented in inner cylinder for the guide is slidably connected second Groove（105）, second guide groove（105）Periodic reverse is bent vertically, so that relative to solid when the first driving member rotates Determine ring（103）Move axially in reciprocal fashion.

6. the agitating device that a kind of agitating shaft according to claim 4 can move axially in reciprocal fashion, it is characterized in that：It is described to lead Include guide rod to part（9）And roller（101）, the roller（101）It is rotationally connected with the guide rod（9）One end, and with institute State the first guide groove（52）Roll connection.

7. the agitating device that a kind of agitating shaft according to claim 4 can move axially in reciprocal fashion, it is characterized in that：In support （2）Chute that upper position corresponding with the guide opens up vertical direction, being slided for the guide（21）, chute（21） Inside being provided with a pair makes guide along chute（21）The cushion buffered during slip（102）, cushion（102）It is flexible, cushion （102）It is simultaneously inconsistent with guide, cushion（102）Another side and chute（21）End face is inconsistent.

8. the agitating device that a kind of agitating shaft according to claim 5 can move axially in reciprocal fashion, it is characterized in that：It is described to lead Include the first drive link to part（104）Be rotationally connected with first drive link（104）One end and with second guide groove （105）Roll the roller of connection（101）.

9. the agitating device that a kind of agitating shaft according to claim 2 can move axially in reciprocal fashion, it is characterized in that：Described One driving member is the first drive plate（5）, first drive plate（5）It is fixed in the agitating shaft（3）Lower end；Second transmission Part is the second drive plate（6）, the second drive plate（6）It is fixed in the motor（7）Output shaft on；The transmission mechanism also includes Vertically it is fixed in second drive plate（6）On gangbar（8）, first drive plate（5）With second drive plate（6） It is parallel, the gangbar（8）With first drive plate（5）Grafting.

10. the agitating device that a kind of agitating shaft according to claim 3 can move axially in reciprocal fashion, it is characterized in that：It is described Transmission mechanism includes being fixed in the agitating shaft（3）Lower end is to drive agitating shaft（3）The 4th drive link rotated（108）With it is affixed In the motor（7）On output shaft and pass through gangbar（8）Drive the 4th drive link（108）The 3rd drive link rotated （107）, wherein gangbar（8）Vertically it is fixed in the 4th drive link（108）On.