CN116492864A - Large-area multi-position dispersing structure for stirring equipment - Google Patents

Abstract

The invention relates to a large-area multi-position dispersing structure for stirring equipment, which comprises a dispersing mechanism, a supporting component and a dispersing driving device, wherein the supporting component is rotatably arranged on a rack of the stirring equipment; when two dispersing shafts are arranged, the center point of a connecting line between the circle centers of the two dispersing shafts is staggered with the rotation center of the supporting component; when more than three dispersing shafts are arranged, the center point of a plane surrounded by the circle centers of the dispersing shafts is staggered with the rotation center of the supporting component; the outer diameters of the dispersing discs corresponding to the at least two dispersing shafts are one large and one small. When the dispersing shaft of the large-area multi-position dispersing structure for the stirring equipment is provided with more than two dispersing shafts, the dispersing shafts are distributed around the rotating center of the protective cover in a non-uniformly distributed mode, and the dispersing operation of materials in different areas can be realized.

Description

Large-area multi-position dispersing structure for stirring equipment

Division application, original application number: 201810015829.7, filing date: 2018, 01, 08; the invention name is as follows: the stirring device uses a large-area multi-position dispersing structure.

Technical Field

The invention relates to stirring equipment, in particular to a large-area multi-position dispersing structure for stirring equipment mainly used for mixing lithium battery materials.

Background

With the development of society, products driven by batteries are more and more popular, small electronic products, large transportation means (electric vehicles) and the like are adopted, driving batteries adopted by the products are basically lithium batteries, and the preparation of lithium battery slurry relates to stirring and mixing of various materials, however, the current stirring and mixing equipment generally has the defect of uneven stirring, so that the produced lithium battery slurry has large difference, and the lithium battery produced by the lithium battery slurry is large in quality difference finally, so that large-power electric equipment is difficult to apply the lithium batteries, and the development of the industry of large-power electric equipment (such as electric vehicles) is restricted.

Chinese patent No. CN200320122190.1 discloses a power mixer in 12 months 1 2004, in which a mixing spindle is driven by a mixing motor with a reduction gearbox through a chain transmission mechanism, two planetary shafts playing a role in mixing and stirring are driven by the mixing spindle through a planetary gear transmission mechanism to revolve and rotate, a dispersing spindle is driven by a dispersing motor through a belt transmission mechanism, the dispersing spindle passes through a tube cavity of a tubular mixing spindle, two dispersing shafts are driven by the lower end of the dispersing spindle through the belt transmission mechanism, and the two dispersing shafts are connected to two sides of a main box of the planetary gear transmission mechanism through bearings, revolve together with the main box, and are driven by the dispersing motor to rotate at high speed. The size of the dispersing discs on each dispersing shaft of the machine is consistent, and the dispersing shafts are uniformly distributed around the center of the charging basket, so that the dispersing area is limited; furthermore, the two dispersing shafts are arranged, so that the dispersing effect on the materials in the charging basket is extremely limited.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a large-area multi-position dispersing structure for stirring equipment, which has the advantages of simple and reasonable structure, wide range of dispersing materials and good dispersing effect, so as to overcome the defects of the prior art.

The purpose of the invention is realized in the following way:

the utility model provides a stirring is large tracts of land multiposition dispersed structure for equipment, includes dispersion mechanism, supporting component and dispersion drive arrangement, and the supporting component rotates the setting in the frame of stirring equipment, and dispersion mechanism includes dispersion axle and dispersion dish, and the dispersion dish sets up on dispersion axle, its characterized in that: the dispersing shafts are provided with more than two dispersing shafts and distributed around the rotation center of the supporting component, the dispersing shafts are in running fit with the supporting component and are in transmission connection with a dispersing driving device, and the dispersing driving device is arranged on the frame; when two dispersing shafts are arranged, the center point of a connecting line between the circle centers of the two dispersing shafts is staggered with the rotation center of the supporting component; when more than three dispersing shafts are arranged, the center point of a plane surrounded by the circle centers of the dispersing shafts is staggered with the rotation center of the supporting component; the outer diameters of the dispersing discs corresponding to the at least two dispersing shafts are one large and one small.

The aim of the invention can be also solved by adopting the following technical measures:

as a more specific scheme, the support component is provided with a synchronous gear and a ring gear, the frame is provided with a fixed gear, the support component is rotatably arranged on the frame, the fixed gears are positioned in the ring gear and are mutually and concentrically arranged, the ring gear is provided with an inner ring tooth surface, and the synchronous gear is simultaneously meshed with the inner ring tooth surface and the fixed gear; the dispersing mechanism comprises a central shaft, a dispersing disc and a dispersing shaft; the dispersing driving device is arranged on the frame of the stirring equipment and is in transmission connection with a central shaft, the central shaft penetrates through the center of the fixed gear and is respectively in rotation connection with the frame and the supporting component, the dispersing shaft is rotatably arranged on the supporting component and is in transmission connection with the central shaft, and the dispersing disc is arranged on the dispersing shaft.

And an upper dispersing disc and a lower dispersing disc are arranged on the dispersing shaft.

The dispersion disk comprises a middle disk surface, upper dispersion teeth and lower dispersion teeth, wherein the upper dispersion teeth and the lower dispersion teeth are alternately distributed on the periphery of the middle disk surface.

The supporting component is a protective cover, and the protective cover comprises an upper cover plate, a protective sleeve, a lower cover plate, a bearing seat and the synchronous gear; the upper cover plate and the lower cover plate are respectively connected with the upper end and the lower end of the sheath, the sheath is cylindrical, the synchronous gear is rotatably arranged on the upper cover plate, and the bearing seat is arranged on the lower cover plate; the ring gear is arranged on the upper cover plate, and the central shaft extends into the sheath through the upper cover plate; the dispersing shaft is in running fit with the bearing seat, and the lower end of the dispersing shaft extends out to the lower part of the lower cover plate and is connected with the dispersing disc.

The dispersion driving device comprises a dispersion motor and a second motor frame, the second motor frame is arranged on the frame, the dispersion motor is arranged on the second motor frame, and the dispersion motor is in transmission connection with the central shaft.

The dispersing mechanism further comprises a dispersing driving gear, a transmission sleeve and a dispersing driven gear, wherein the dispersing driving gear is arranged outside the central shaft, the transmission sleeve is rotatably arranged on the bearing seat, and the dispersing driven gear is arranged outside the transmission sleeve and is in transmission connection with the dispersing driving sprocket through a synchronous belt; the dispersing shaft vertically passes through the transmission sleeve and is vertically matched with the transmission sleeve in a sliding way, and the upper end of the dispersing shaft is in transmission connection with the lifting driving mechanism.

The lifting driving mechanism is an air cylinder, a hydraulic cylinder or an electric cylinder.

And the frame is provided with a stirring driving device which is in transmission connection with the supporting component.

The stirring driving device comprises a stirring motor, a first motor frame, a reduction gearbox and a stirring driving gear, wherein the first motor frame is arranged on the frame, the stirring motor and the reduction gearbox are arranged on the first motor frame, and the stirring motor is in transmission connection with the stirring driving gear through the reduction gearbox; the ring gear is also provided with an outer ring tooth surface, and the stirring driving gear is meshed with the outer ring tooth surface.

The beneficial effects of the invention are as follows:

(1) When more than two dispersing shafts of the large-area multi-position dispersing structure for the stirring equipment are arranged, the dispersing shafts are distributed around the rotation center of the protective cover in a non-uniform manner, so that the materials in different areas can be dispersed;

(2) When the dispersing shaft of the large-area multi-position dispersing structure for the stirring equipment is provided with more than two dispersing shafts, the periphery of the dispersing disc on at least one dispersing shaft is larger than that of the dispersing disc on the other dispersing shaft, and the dispersing operation of materials in different areas can be realized.

Drawings

Fig. 1 is a schematic diagram of a front view structure according to an embodiment of the present invention.

Fig. 2 is a schematic top view of the present invention.

Fig. 3 is a left-hand (enlarged) schematic view of the structure of the present invention.

Fig. 4 is a schematic view of the cross-section A-A (reduced) of fig. 3.

Fig. 5 is an enlarged schematic view of the structure at B in fig. 4.

Fig. 6 is an enlarged schematic view of the structure at C in fig. 4.

Fig. 7 is a schematic top view of the gantry of the present invention with the cross beam removed.

Fig. 8 is a schematic top view of a paddle drive gear assembly of the present invention.

FIG. 9 is a diagram showing the positional relationship between a paddle and a dispersion disk according to the present invention.

Fig. 10 is a simplified schematic diagram of fig. 9.

FIG. 11 is a schematic view of the driving mechanism of stirring paddle and dispersing plate in the present invention.

Fig. 12 is an enlarged schematic view of the structure of fig. 11 at D.

Fig. 13 is a schematic diagram of the front view structure of fig. 11.

Fig. 14 is a schematic view of the H-H cross-section (enlarged) structure of fig. 13.

Fig. 15 is a schematic view showing a structure of the dispersion disk of fig. 13 after being lifted.

Fig. 16 is a schematic view of the bucket of fig. 1 after being lifted.

FIG. 17 is a diagram showing the positional relationship between a stirring blade and a dispersion disk according to another embodiment of the present invention.

Fig. 18 is a simplified schematic diagram of fig. 17.

Fig. 19 is a view showing a positional relationship between a paddle and a dispersion disk according to still another embodiment of the present invention.

In the figure:

1 is a portal frame, 11 is a cross beam, 12 is a stand column, 13 is a base, 14 is a guide groove, and 15 is a fixed gear;

2 is a stirring motor, 21 is a first motor frame, 22 is a reduction gearbox, 23 is a stirring driving sprocket, 24 is a stirring transmission chain, 25 is a stirring driven sprocket, 26 is a stirring transmission shaft, 27 is a stirring driving gear, and 28 is a ring gear;

3 is a dispersion motor, 31 is a second motor frame, 32 is a dispersion driving sprocket, 33 is a dispersion transmission chain, 34 is a dispersion driven sprocket, 35 is a hollow shaft, 36 is a dispersion driving gear, and 37 is a synchronous belt;

4 is a fixed sleeve and 41 is a bottom ring;

5 is a stirring paddle, 51 is a stirring shaft, 52 is a stirring driven gear, 53 is a first spiral stirring arm, 54 is a lower connecting rod, 55 is a second spiral stirring arm, and 56 is a connector;

6 is a dispersing disc, 61 is a dispersing shaft, 611 is a linear guide rib, 62 is a transmission sleeve, 63 is a dispersing driven gear, 64 is a middle disc surface, 65 is an upper dispersing tooth, 66 is a lower dispersing tooth, 67 is an air cylinder, and 68 is a linkage plate;

7 is a charging basket, 71 is a supporting caster, 72 is a guiding caster, 73 is an outer convex edge, 74 is a limiting bolt, and 75 is a heat exchange interlayer;

8 is a servo electric cylinder, 81 is a vertical guide rail, 82 is a sliding block, 83 is a bracket, 831 is a limiting jack, 84 is a buffer piece and 85 is a limiting frame;

9 is a protective cover, 91 is an upper cover plate, 92 is a protective sleeve, 93 is a lower cover plate, 94 is a synchronous gear, and 95 is a bearing seat.

Detailed Description

The invention is further described below with reference to the drawings and examples.

In a first embodiment, referring to fig. 1-8 and 11-14, a large-area multi-position dispersing structure for a stirring apparatus includes a frame, which is a gantry 1, and a large-area multi-position dispersing structure, which includes a dispersing mechanism, a supporting component (the supporting component is a shield 9), and a dispersing driving device. The portal frame 1 comprises a base 13, upright posts 12 and a cross beam 11, wherein the upright posts 12 are arranged on the left side and the right side of the top of the base 13, the two ends of the cross beam 11 are connected to the top ends of the upright posts 12, and the cross beam 11 is provided with a stirring mechanism, a fixing sleeve 4 and a protective cover 9.

Each part of the portal frame 1 is cast and molded, a charging basket 7 lifting mechanism is arranged on the base 13, the charging basket 7 lifting mechanism comprises a bracket 83 which moves up and down, and a transverse limiting structure is arranged between the bracket 83 and the charging basket 7. The lifting mechanism of the charging basket 7 further comprises a servo electric cylinder 8, a vertical guide rail 81 and a sliding block 82, wherein a limiting frame 85 is arranged on the portal frame 1 corresponding to the servo electric cylinder 8, the servo electric cylinder 8 is arranged in the limiting frame 85, a telescopic rod pointing up and down is arranged on the servo electric cylinder 8, a buffer piece 84 is arranged between the telescopic rod and the top of the limiting frame 85, the buffer piece 84 is an elastic piece such as a spring and a sponge, meanwhile, the telescopic rod is in transmission connection with the sliding block 82, the sliding block 82 is arranged on the vertical guide rail 81 in a vertical sliding manner, the vertical guide rail 81 is connected with the upright post 12, and a bracket 83 is connected with the sliding block 82. The horizontal limit structure is including setting up the spacing jack 831 at bracket 83 top surface and setting up the spacing bolt 74 on storage bucket 7, and storage bucket 7 periphery is equipped with outer chimb 73, and spacing bolt 74 sets up in outer flange 73 bottom and directional spacing jack 831, when bracket 83 lifts up storage bucket 7, spacing jack 831 embolias outside spacing bolt 74, can play the effect that prevents storage bucket 7 lateral shifting, avoids taking place to empty the accident. The base 13 of the portal frame 1 is generally embedded into the ground, the top surface of the base 13 is leveled with the ground, and the ground needs to be excavated to serve as a foundation and is connected with the base 13.

The protective cover 9 is rotatably arranged below the cross beam 11, the protective cover 9 comprises an upper cover plate 91, a protective sleeve 92, a lower cover plate 93, a synchronous gear 94 and a bearing seat 95, the upper cover plate 91 and the lower cover plate 93 are respectively connected to the upper end and the lower end of the protective sleeve 92, the protective sleeve 92 is cylindrical, the synchronous gear 94 is rotatably arranged on the upper cover plate 91, and the bearing seat 95 is arranged on the lower cover plate 93; the bottom of the cross beam 11 is fixedly provided with a fixed gear 15, and a synchronous gear 94 is meshed with the fixed gear 15.

The fixed sleeve 4 is cylindrical, the upper end of the fixed sleeve 4 is fixedly connected with the bottom of the cross beam 11, the protective cover 9 is positioned on the inner side of the fixed sleeve 4, and the lower end of the fixed sleeve 4 is used for being connected with the top opening of the charging basket 7; the lower end of the fixed sleeve 4 is provided with a bottom ring 41 which is matched with the top opening of the charging basket 7 in a concave-convex way, and a sealing ring can be arranged on the matching surface between the bottom ring 41 and the charging basket 7. The periphery of the fixed sleeve 4 is provided with a plurality of windows, and the windows can be provided with transparent observation windows, illuminating lamps, charging ports, vacuumizing tubes and the like, which are specific to practical application.

The dispersing mechanism includes a dispersing motor 3, a second motor frame 31, a dispersing driving sprocket 32, a dispersing transmission chain 33, a dispersing driven sprocket 34, a central shaft (the central shaft is a hollow shaft 35), a dispersing driving gear 36, a dispersing disc 6, and a dispersing shaft 61; the second motor frame 31 is arranged at one end of the beam 11 opposite to the first motor frame 21, the dispersion motor 3 is arranged on the second motor frame 31, the dispersion motor 3 is in transmission connection with the hollow shaft 35 sequentially through the dispersion driving sprocket 32, the dispersion transmission chain 33 and the dispersion driven sprocket 34, and the hollow shaft 35 extends into the protective cover 9 from the outside of the beam 11 through the fixed gear 15 and the upper cover plate 91; the dispersion driving gear 36 is positioned in the protective cover 9 and is arranged outside the hollow shaft 35; the dispersing shaft 61 is rotatably arranged on a bearing seat 95 of the lower cover plate 93, the upper end of the dispersing shaft 61 extends into the protective cover 9 and is in transmission connection with the dispersing driving gear 36, and the lower end of the dispersing shaft 61 extends to the lower side of the lower cover plate 93 and is connected with the dispersing disc 6.

The dispersing shaft 61 is arranged on the lower cover plate 93 in a lifting manner, and a lifting driving mechanism for controlling the dispersing shaft 61 to move in a lifting manner is arranged in the protective cover 9.

The lifting driving mechanism is an air cylinder 67, and a control air path of the air cylinder 67 is led out of the portal frame 1 through the hollow shaft 35. The upper ends of the dispersing shafts 61 are connected by a linkage plate 68, the cylinder body of the cylinder 67 is provided in the protective cover 9, and the piston rod of the cylinder 67 is connected to the linkage plate 68 (of course, each dispersing shaft 61 may be driven by a corresponding cylinder 67).

The dispersing mechanism further comprises a transmission sleeve 62 and a dispersing driven gear 63, wherein the transmission sleeve 62 is rotatably arranged on the bearing seat 95, and the dispersing driven gear 63 is arranged outside the transmission sleeve 62 and is in transmission connection with the dispersing driving sprocket 32 on the hollow shaft 35 through the synchronous belt 37; the dispersing shaft 61 vertically passes through the transmission sleeve 62 and is vertically matched with the transmission sleeve 62 in a sliding way, and the upper end of the dispersing shaft 61 is in transmission connection with the air cylinder 67. The method specifically comprises the following steps: the surface of the dispersing shaft 61 is provided with a linear guide rib 611 along the axial direction, the inner wall of the transmission sleeve 62 is provided with a linear guide groove along the axial direction of the transmission sleeve 62, and the linear guide rib 611 is in linear sliding fit with the linear guide groove.

The number of the dispersing shafts 61 is three (the number of the dispersing shafts 61 is equal to that of the stirring shafts 51), wherein two dispersing discs 6 with small diameters (shown at F, G in fig. 11) are arranged on two dispersing shafts 61, and two dispersing discs 6 with large diameters (shown at E in fig. 11) are arranged on the other dispersing shaft 61. The three dispersion shafts 61 are unevenly distributed outside the rotation center of the shield 9. The dispersion disk 6 includes a middle disk surface 64, upper dispersion teeth 65, and lower dispersion teeth 66, and the upper dispersion teeth 65 and the lower dispersion teeth 66 are alternately arranged on the outer periphery of the middle disk surface 64.

The beam 11 is also provided with a stirring mechanism, and the stirring mechanism comprises a stirring motor 2, a first motor frame 21, a reduction gearbox 22, a stirring driving sprocket 23, a stirring transmission chain 24, a stirring driven sprocket 25, a stirring transmission shaft 26, a stirring driving gear 27, a ring gear 28, a stirring paddle 5, a stirring shaft 51 and a stirring driven gear 52; the first motor frame 21 is arranged at one end of the cross beam 11, the stirring motor 2 and the reduction gearbox 22 are arranged on the first motor frame 21, and the stirring motor 2 is in transmission connection with the stirring driving gear 27 through the reduction gearbox 22, the stirring driving sprocket 23, the stirring driving chain 24, the stirring driven sprocket 25 and the stirring driving shaft 26 in sequence; the ring gear 28 is arranged on the upper cover plate 91 of the protective cover 9 and surrounds the fixed gear 15, the ring gear 28 comprises an outer ring tooth surface and an inner ring tooth surface, the outer ring tooth surface is meshed with the stirring driving gear 27, and the inner ring tooth surface is meshed with the synchronous gear 94; the stirring shaft 51 is vertically arranged on the protective cover 9 and is in running fit with the upper cover plate 91 and the lower cover plate 93, the upper end of the stirring shaft 51 extends between the ring gear 28 and the fixed gear 15 and is connected with the stirring driven gear 52, the stirring driven gear 52 is meshed with the synchronous gear 94, and the lower end of the stirring shaft 51 extends below the lower cover plate 93 and is connected with the stirring paddle 5.

The stirring paddles 5 are provided with three stirring shafts 51, and the stirring shafts 51 are distributed outside the rotation center of the protective cover 9 in a non-uniform manner. The stirring paddle 5 comprises a connector 56, a first spiral stirring arm 53, a second spiral stirring arm 55 and a lower connecting rod 54, wherein the upper ends of the first spiral stirring arm 53 and the second spiral stirring arm 55 are respectively connected with the two ends of the connector 56, and the two ends of the lower connecting rod 54 are respectively connected with the lower ends of the first spiral stirring arm 53 and the second spiral stirring arm 55.

Referring to fig. 9 and 10, L1 is the outer peripheral rotation path of the three stirring paddles 5 when rotating, L2 is the inner wall of the barrel 7 (the center of the inner cavity of the barrel 7 can be theoretically understood as the rotation center of the protective cover 9, and the centers of the two are overlapped or basically overlapped), and L3, L4 and L5 are the outer peripheral rotation paths of the corresponding dispersing discs 6 when the three dispersing shafts 61 rotate; wherein, the centers of the three stirring paddles 5 autorotation paths are respectively O1, O2 and O3 which are sequentially connected to form a center point O 'of a virtual surface, and the center point O' deviates from the center point O of the inner cavity of the charging basket 7.

The center department transversely is provided with the direction truckle 72 in storage bucket 7 bottom center department, and base 13 top surface corresponds direction truckle 72 and is equipped with the directional guide way 14 in front and back, and guide way 14 top and at least one end are opened, and the direction truckle 72 inserts from the open end of guide way 14, and the direction truckle 72 is equipped with more than three to the equipartition is at the direction truckle 72 periphery, and the direction truckle 72 leaves ground. The outer wall of the charging basket 7 is provided with a heat exchange interlayer 75, a spiral channel is arranged in the heat exchange interlayer 75, and the spiral channel can be used for leading heat exchange media such as cooling liquid.

Referring to fig. 8, the arrow R1 is the rotation direction of the stirring driving gear 27, the stirring driving gear 27 drives the ring gear 28 and the protecting cover 9 connected with the ring gear 28 to rotate along the arrow R2 (that is, the stirring shaft 51 and the dispersing shaft 61 on the protecting cover 9 can revolve) and the ring gear 28 drives the synchronous gear 94 to rotate around the fixed gear 15, and the synchronous gear 94 simultaneously drives the stirring driven gear 52 and the stirring shaft 51 connected with the stirring driven gear 52 to rotate. Since the hollow shaft 35 is located at the center of the shield 9, it is not necessary to rotate along with the shield 9, that is, the hollow shaft 35 can be independently started, and the rotation of the dispersing shaft 61 driven by the hollow shaft 35 can be controlled when necessary.

The principle of stirring materials is as follows: when the charging basket 7 filled with materials enters a preset position above the base 13, the servo electric cylinder 8 is started to lift the charging basket 7 until the top opening of the charging basket 7 is in sealing fit with the bottom ring 41 of the fixed sleeve 4 (shown in fig. 16), then, the interior of the charging basket 7 is vacuumized (the step is shown as the materials), the stirring motor 2 is started to start stirring so that the materials are uniformly distributed, and at the moment, the dispersing shaft 61 is in the state shown in fig. 15; after a certain time, the dispersing motor 3 is started at the same time, and the dispersing shaft 61 and the stirring shaft 51 work together, so that the materials are more uniformly distributed, and the particles are finer. Finally, the decompression is carried out, and the telescopic rod of the servo electric cylinder 8 starts to descend, so that the charging basket 7 descends (shown in fig. 1).

The second embodiment differs from the first embodiment in that: referring to fig. 17 and 18, four stirring paddles 5 are provided, four dispersing shafts 61 are provided, L1 is the outer peripheral rotating path of the four stirring paddles 5 when the stirring paddles rotate, L2 is the inner wall of the barrel 7 (the center of the inner cavity of the barrel 7 can be theoretically understood as the rotating center of the protective cover 9, and the centers of the two are overlapped or basically overlapped), and four small circles L3, L4 and the like are the outer peripheral rotating paths of the corresponding dispersing discs 6 when the four dispersing shafts 61 rotate; the centers of the rotation paths of the four stirring paddles 5 are respectively O1, O2, O3 and O4 which are sequentially connected to form a virtual plane, and the center point O' of the virtual plane deviates from the center point O of the inner cavity of the charging basket 7.

Embodiment three differs from embodiment one in that: referring to fig. 19, two stirring paddles 5 are provided, two dispersing shafts 61 are provided, L1 is the outer peripheral rotating path of the two stirring paddles 5 when rotating, L2 is the inner wall of the barrel 7 (the center of the inner cavity of the barrel 7 can be theoretically understood as the rotating center of the protective cover 9, and the centers of the two centers overlap or basically overlap), and L3 and L4 are the outer peripheral rotating paths of the two dispersing shafts 61 corresponding to the dispersing discs 6 when rotating; wherein, the center point O' of the connecting line of the centers O1 and O2 of the rotation paths of the two stirring paddles 5 is deviated from the center point O of the inner cavity of the charging basket 7.

Claims (8)

1. The utility model provides a stirring is large tracts of land multiposition dispersed structure for equipment, includes dispersion mechanism, supporting component and dispersion drive arrangement, and the supporting component rotates and sets up in the frame of stirring equipment, and dispersion mechanism includes dispersion axle (61) and dispersion dish (6), and dispersion dish (6) set up on dispersion axle (61), its characterized in that: the dispersing shafts (61) are provided with more than two and distributed around the rotation center of the supporting component, the dispersing shafts (61) are in running fit with the supporting component and are in transmission connection with the dispersing driving device, and the dispersing driving device is arranged on the frame;

when two dispersing shafts (61) are arranged, the center point of a connecting line between the circle centers of the two dispersing shafts (61) is staggered with the rotation center of the supporting component; when more than three dispersing shafts (61) are arranged, the center point of a plane surrounded by the circle centers of the dispersing shafts (61) is staggered with the rotation center of the supporting component;

the outer diameters of the dispersing discs (6) corresponding to the at least two dispersing shafts (61) are one large and one small.

2. The large-area multi-bit dispersing structure for stirring equipment according to claim 1, wherein: the support assembly is provided with a synchronous gear (94) and a ring gear (28), the frame is provided with a fixed gear (15), the support assembly is rotatably arranged on the frame, the fixed gear (15) is positioned in the ring gear (28) and is mutually and concentrically arranged, the ring gear (28) is provided with an inner ring tooth surface, and the synchronous gear (94) is simultaneously meshed with the inner ring tooth surface and the fixed gear (15); the dispersing mechanism comprises a central shaft, a dispersing disc (6) and a dispersing shaft (61); the dispersion driving device is arranged on a frame of the stirring equipment and is in transmission connection with a central shaft, the central shaft passes through the center of the fixed gear (15) and is respectively in rotation connection with the frame and the supporting component, the dispersion shaft (61) is rotatably arranged on the supporting component and is in transmission connection with the central shaft, and the dispersion disc (6) is arranged on the dispersion shaft (61).

3. The large-area multi-bit dispersing structure for stirring equipment according to claim 1, wherein: the dispersing shaft (61) is provided with an upper dispersing disc (6) and a lower dispersing disc (6).

4. The large-area multi-bit dispersing structure for stirring equipment according to claim 1, wherein: the dispersing disc (6) comprises a middle disc surface (64), upper dispersing teeth (65) and lower dispersing teeth (66), and the upper dispersing teeth (65) and the lower dispersing teeth (66) are alternately distributed on the periphery of the middle disc surface (64).

5. The large-area multi-bit dispersing structure for stirring equipment according to claim 1, wherein: the supporting component is a protective cover (9), and the protective cover (9) comprises an upper cover plate (91), a protective sleeve (92), a lower cover plate (93), a bearing seat (95) and the synchronous gear (94); the upper cover plate (91) and the lower cover plate (93) are respectively connected to the upper end and the lower end of the sheath (92), the sheath (92) is cylindrical, the synchronous gear (94) is rotatably arranged on the upper cover plate (91), and the bearing seat (95) is arranged on the lower cover plate (93); the ring gear (28) is arranged on the upper cover plate (91), and the central shaft extends into the sheath (92) through the upper cover plate (91); the dispersing shaft (61) is in running fit with the bearing seat (95), and the lower end of the dispersing shaft (61) extends out to the lower part of the lower cover plate (93) and is connected with the dispersing disc (6).

6. The large-area multi-bit dispersing structure for stirring equipment according to claim 1, wherein: the dispersion driving device comprises a dispersion motor (3) and a second motor frame (31), the second motor frame (31) is arranged on the frame, the dispersion motor (3) is arranged on the second motor frame (31), and the dispersion motor (3) is in transmission connection with the central shaft.

7. The large-area multi-bit dispersing structure for stirring equipment according to claim 5, wherein: the dispersing mechanism further comprises a dispersing driving gear (36), a transmission sleeve (62) and a dispersing driven gear (63), wherein the dispersing driving gear (36) is arranged outside the central shaft, the transmission sleeve (62) is rotatably arranged on the bearing seat (95), and the dispersing driven gear (63) is arranged outside the transmission sleeve (62) and is in transmission connection with the dispersing driving sprocket (32) through the synchronous belt (37).

8. The large-area multi-bit dispersing structure for stirring equipment according to claim 7, wherein: the dispersing shaft (61) vertically penetrates through the transmission sleeve (62) and is vertically matched with the transmission sleeve (62) in a sliding manner, and the upper end of the dispersing shaft (61) is in transmission connection with the lifting driving mechanism; the lifting driving mechanism is an air cylinder (67), a hydraulic cylinder or an electric cylinder.