CN116585937A - Rotating wheel type dispersing machine - Google Patents

Abstract

The invention relates to the technical field of dispersers, in particular to a rotating wheel type disperser which comprises a bearing lifting mechanism, a transmission dispersing mechanism and a material gathering mechanism, wherein the bearing lifting mechanism comprises a load-carrying upright post. The top of feed bin is installed and to fix a position the dirt removing pad seat of grafting to dispersing unit bottom impeller, combine to install the spacing bearing of ring buckle to spacing pad dish and bolster simultaneously on dirt removing pad seat, when dispersing unit high-speed rotatory, receive the movable centre gripping of sheath to dispersing unit, along with the shrink of second hydraulic stem, the main beam frame can drive sheath and dispersing unit decline this moment, the impeller of dispersing unit bottom just can get into the feed bin inner chamber this moment, after the material of filling the feed bin inner chamber is fully stirred and emulsified, the lifting of second hydraulic stem to main beam frame, alright impel dispersing unit drive its bottom impeller again peg graft in the dirt removing pad seat, the emulsified materials on adhesion and the impeller alright obtain the rapid scraping this moment, alright have ensured the invariable of feed bin inner chamber emulsified materials total amount.

Description

Rotating wheel type dispersing machine

Technical Field

The invention relates to the technical field of a disperser, in particular to a rotating wheel type disperser.

Background

A disperser is a type of stirrer in a broad sense, and a high-speed stirrer (such as a disc saw-tooth stirrer) is also called a disperser because of the fact that a strong turbulence can be formed locally, and a strong dispersing and emulsifying effect is usually achieved on materials.

At present, in the link of stirring treatment of materials, after the materials stored in a storage bin are dispersed and emulsified, more materials can be adhered to a stirring impeller of the dispersing machine, and along with lifting of a stirring mechanism, the materials adhered to the impeller are easy to sputter outwards, and meanwhile, the total amount of the materials is reduced.

The invention aims at autonomously scraping the dispersed emulsified material adhered to the stirring impeller, and simultaneously reduces the total amount of the material after surface stirring, which is the technical difficulty to be solved by the invention.

Disclosure of Invention

The present invention aims to solve one of the technical problems existing in the prior art or related technologies.

The technical scheme adopted by the invention is as follows:

the rotary wheel type dispersing machine comprises a bearing lifting mechanism, a transmission dispersing mechanism and a material gathering mechanism, wherein the bearing lifting mechanism comprises a load upright post, a first hydraulic rod arranged in an inner cavity of the load upright post, a beam plate arranged on the first hydraulic rod and positioned right above the load upright post, a positioning bracket connected on the beam plate, a servo motor arranged in the positioning bracket, two clamps movably arranged in concave holes at the outer end of the beam plate, a screw sleeve movably arranged on the clamps and in threaded connection with the beam plate, and a crawler belt in transmission connection with the servo motor, the transmission dispersing mechanism comprises a transmission ejector rod movably mounted in two adjacent clamps, a sleeve roller mounted on the transmission ejector rod, a dispersing assembly spliced in the transmission ejector rod, a limiting pad movably mounted on the dispersing assembly, a buffer piece connected to the bottom of the limiting pad, a sheath movably mounted in the middle of the dispersing assembly, a main beam frame movably mounted on the sheath, an auxiliary beam frame movably mounted on the bottom of the main beam frame and a second hydraulic rod movably mounted in the middle of the main beam frame, and the material collecting mechanism comprises a base connected to one side of a load stand by a supporting plate, a core rod mounted on the top of the base, a bin mounted on the top of the base, a drain pipe connected to the bottom of the bin, a discharge pipe mounted on the outer wall of the bin, an anti-seepage gasket mounted on the bottom of the inner cavity of the bin, a dirt removing pad mounted on the top of the bin and a ring buckle connected to the dirt removing pad.

The present invention may be further configured in a preferred example to: the beam plate consists of a transverse plate and a cylindrical end, a slotted hole constrained to the crawler belt is formed between the cylindrical end and the transverse plate, the positioning support consists of an L-shaped vertical plate and two T-shaped annular sleeves, and the L-shaped vertical plate is connected to the bottom of the cylindrical end.

Through adopting above-mentioned technical scheme, when first hydraulic stem operation and lift beam slab, the locating support of installing on the beam slab this moment alright drive servo motor and rise or descend in step, and the track of transmission between servo motor and cover roller this moment alright maintain steady state and operate, and the beam slab of free lift also can make things convenient for the staff to drive the follow-up maintenance processing of dispersing mechanism simultaneously.

The present invention may be further configured in a preferred example to: the clamp consists of a guide rod and a semi-cylindrical end, the guide rod is provided with a ring groove, and the inside of the semi-cylindrical end in the clamp is provided with an inwards concave hole.

Through adopting above-mentioned technical scheme, utilize two swivel nuts to fix two anchor clamps on the beam slab, the transmission ejector pin by two anchor clamps location centre gripping alright by track driven in-process maintenance steady state this moment, alright make things convenient for the staff to the follow-up maintenance of device this moment.

The present invention may be further configured in a preferred example to: the transmission ejector rod is internally provided with a cylindrical cavity, the bottom end of the transmission ejector rod is provided with a cross notch, the top of the dispersion assembly is provided with a cross inserted link, the bottom of the dispersion assembly is provided with an impeller, and the bottom of the dispersion assembly is provided with a vertical pipe.

Through adopting above-mentioned technical scheme, utilize pegging graft dispersion subassembly top cross inserted bar in the inside cylindricality cavity of transmission ejector pin, after the operation of second hydraulic pressure pole and lift main roof beam frame, install the sheath at main roof beam frame top this moment and just drive dispersion subassembly and freely go up and down, the rotation of dispersion subassembly and scrape the material alright be in safe state and operate this moment.

The present invention may be further configured in a preferred example to: the buffer piece consists of a spring and a circular gasket, and the top end of the spring is connected to the inner wall of the annular groove at the bottom of the limit pad disc.

Through adopting above-mentioned technical scheme, utilize the installation latch closure on the scrubbing pad holder to at the outside movable mounting spacing pad dish of dispersion subassembly, the elastic support of cooperation bolster pair latch closure, along with the high-speed rotation of dispersion subassembly, the impeller of dispersion subassembly bottom alright extend to the inner chamber of feed bin according to the stipulation interval this moment, the impeller alright carry out abundant dispersion stirring to the material of feed bin inner chamber this moment.

The present invention may be further configured in a preferred example to: the feed chute is offered to the both sides of feed bin, the discharging pipe comprises horizontal pipe, drainage pipe and sealing plug, and horizontal pipe intercommunication is in the inner chamber of feed bin.

Through adopting above-mentioned technical scheme, utilize to offer the feed chute in the both sides of feed bin, after the material is carried to the feed bin inner chamber from two feed chutes, after dispersion subassembly bottom impeller stretched to the feed bin inner chamber, dispersion subassembly bottom standpipe was pegged graft after the core bar is outside, alright cooperation prevention of seepage packing ring is to the seal of standpipe outer wall, and the material that is located the feed bin inner chamber this moment can obtain sealed stirring and handle, and then has avoided the material of stirring to appear splashing the state.

The present invention may be further configured in a preferred example to: the inside of the dirt removing pad seat is provided with dense slots which are distributed circumferentially.

Through adopting above-mentioned technical scheme, utilize the grafting of the inside slot of scrubbing pad seat to disperse subassembly bottom impeller, after the scrubbing pad seat drives sheath and dispersion subassembly and carries out the free lift, dispersion subassembly bottom impeller just carries out the safety to the material of adhesion and docs in-process to the inside slot of scrubbing pad seat at this moment, has avoided the problem emergence that the material total amount reduces after the stirring.

By adopting the technical scheme, the beneficial effects obtained by the invention are as follows:

1. according to the invention, the reaction kettle in the traditional dispersing machine is arranged as the storage bin, the impermeable gasket capable of sealing and clamping the vertical pipe at the bottom of the dispersing component is arranged at the bottom of the storage bin, the dirt removing pad seat capable of positioning and inserting the impeller at the bottom of the dispersing component is arranged at the top of the storage bin, meanwhile, the limiting pad disc and the limiting bearing of the buffer piece are combined with the ring buckle arranged on the dirt removing pad seat, when the dispersing component rotates at a high speed, the dispersing component is movably clamped by the sheath, the sheath and the dispersing component are driven to descend by the main beam frame along with the shrinkage of the second hydraulic rod, the impeller at the bottom of the dispersing component enters the storage bin cavity at the moment, and after the material filled into the storage bin cavity is fully stirred and emulsified, the main beam frame is lifted by the second hydraulic rod, so that the dispersing component can be driven to be inserted into the dirt removing pad seat again, and the emulsified material adhered to the impeller can be rapidly scraped, and the total amount of the emulsified material in the storage bin cavity can be ensured at the moment.

2. According to the invention, the transmission ejector rod and the dispersing component with the splicing structure are arranged, the vertical pipe is arranged at the bottom end of the dispersing component, after the dispersing component descends, the vertical pipe at the bottom end of the dispersing component penetrates into the anti-seepage gasket and is inserted into the outside of the core rod, at the moment, a relatively sealed state can be formed among the vertical pipe, the anti-seepage gasket and the core rod, meanwhile, the device can form the relatively sealed state by matching with the guide grooves arranged at two sides of the storage bin for guiding materials, so that the dispersing component with the dispersing materials is prevented from being withdrawn from the inner cavity of the reaction kettle in a reciprocating manner and frequently contacting with external air to be interfered by external factors, and further, the interference of the external factors on the emulsification of the materials is effectively reduced, and the splashing of the emulsified materials is avoided.

Drawings

FIG. 1 is a schematic illustration of the present invention in use;

FIG. 2 is a schematic top view of FIG. 1 of the present invention;

FIG. 3 is a schematic view of a load-bearing lift mechanism according to the present invention;

FIG. 4 is an enlarged schematic view of the invention at A of FIG. 3;

FIG. 5 is a schematic diagram of a drive dispersion mechanism and a gathering mechanism of the present invention;

FIG. 6 is a schematic diagram of a transmission dispersion mechanism according to the present invention;

FIG. 7 is an internal schematic view of FIG. 6 in accordance with the present invention;

FIG. 8 is a schematic view of a gathering mechanism according to the present invention;

fig. 9 is an internal schematic view of fig. 8 in accordance with the present invention.

Reference numerals:

100. a bearing lifting mechanism; 110. a load-carrying upright; 120. a first hydraulic lever; 130. a beam plate; 140. a positioning bracket; 150. a servo motor; 160. a clamp; 170. a screw sleeve; 180. a track;

200. a transmission dispersion mechanism; 210. driving the ejector rod; 220. sleeving rollers; 230. a dispersion assembly; 240. a limiting pad disc; 250. a buffer member; 260. a sheath; 270. a main beam frame; 280. an auxiliary beam frame; 290. a second hydraulic lever;

300. a material gathering mechanism; 310. a base; 320. a core bar; 330. a blow-down pipe; 340. a storage bin; 350. a discharge pipe; 360. an impermeable gasket; 370. a decontamination pad seat; 380. and (5) a ring buckle.

Detailed Description

The objects, technical solutions and advantages of the present invention will become more apparent by the following detailed description of the present invention with reference to the accompanying drawings. It should be noted that, without conflict, the embodiments of the present invention and features in the embodiments may be combined with each other.

It is to be understood that this description is merely exemplary in nature and is not intended to limit the scope of the present invention.

A wheel disperser according to some embodiments of the invention is described below with reference to the accompanying drawings.

Embodiment one:

referring to fig. 1 to 9, the rotating wheel type dispersing machine provided by the invention comprises a bearing lifting mechanism 100, a transmission dispersing mechanism 200 and a material collecting mechanism 300, wherein the transmission dispersing mechanism 200 is arranged on the bearing lifting mechanism 100, and the material collecting mechanism 300 is arranged between the bearing lifting mechanism 100 and the transmission dispersing mechanism 200.

The bearing lifting mechanism 100 comprises a load-bearing upright post 110, a first hydraulic rod 120, a beam plate 130, a positioning bracket 140, a servo motor 150, a clamp 160, a screw sleeve 170 and a crawler 180, the transmission dispersion mechanism 200 comprises a transmission ejector rod 210, a sleeve roller 220, a dispersion assembly 230, a limit pad 240, a buffer piece 250, a sheath 260, a main beam frame 270, a secondary beam frame 280 and a second hydraulic rod 290, and the material gathering mechanism 300 comprises a base 310, a core rod 320, a blow-off pipe 330, a storage bin 340, a discharge pipe 350, an anti-seepage gasket 360, a dirt-removing pad seat 370 and a ring buckle 380.

Specifically, the first hydraulic rod 120 is installed in the inner cavity of the load column 110, the beam plate 130 is installed on the first hydraulic rod 120 and is located right above the load column 110, the positioning bracket 140 is connected to the beam plate 130, the servo motor 150 is installed in the positioning bracket 140, the two clamps 160 are movably installed in concave holes at the outer end of the beam plate 130, the screw sleeve 170 is movably installed on the clamps 160 and is in threaded connection with the beam plate 130, the crawler belt 180 is driven on the servo motor 150, the driving ejector rod 210 is movably installed in two adjacent clamps 160, the sleeve roller 220 is installed on the driving ejector rod 210, the dispersing component 230 is inserted in the driving ejector rod 210, the limiting pad 240 is movably installed on the dispersing component 230, the bolster 250 is connected in the bottom of spacing pad 240, sheath 260 movable mounting is in the middle part of dispersion subassembly 230, girder frame 270 movable mounting is on sheath 260, auxiliary girder frame 280 movable mounting is in the bottom of main girder frame 270, second hydraulic stem 290 movable mounting is in the middle part of main girder frame 270, base 310 utilizes the layer board to connect in one side of load stand 110, core bar 320 installs at the top of base 310, the top at base 310 is installed to feed bin 340, blow off pipe 330 connects in the bottom of feed bin 340, discharging pipe 350 installs on the outer wall of feed bin 340, the prevention of seepage packing 360 is installed in the bottom of feed bin 340 inner chamber, decontamination pad seat 370 is installed at the top of feed bin 340, ring buckle 380 connects on decontamination pad seat 370.

The vertical pipes are arranged at the bottom ends of the dispersing components 230, when the dispersing components 230 descend, the vertical pipes at the bottom ends of the dispersing components 230 penetrate into the anti-seepage gaskets 360 and are inserted into the outer parts of the core rods 320, at the moment, the vertical pipes, the anti-seepage gaskets 360 and the core rods 320 form a relatively sealed state, meanwhile, the vertical pipes are matched with the guide grooves arranged at the two sides of the storage bin 340 to guide materials, at the moment, the device can form a relatively sealed state, the dispersing components 230 with dispersed materials are prevented from being interfered by external factors due to the fact that the dispersing components 230 are withdrawn from the inner cavity of the reaction kettle in a reciprocating manner and frequently contact with external air, a dirt removing pad 370 capable of being positioned and inserted into the impeller at the bottom of the dispersing components 230 is arranged at the top of the storage bin 340, meanwhile, the annular buckles 380 mounted on the dirt removing pad 370 bear the limit pads 240 and the limit bearing of the buffer members 250, when the dispersing components 230 rotate at high speed, the main beam frame 270 drives the guide grooves 260 to guide materials along with the shrinkage of the second hydraulic rod 290, at the moment, the impeller at the bottom ends of the dispersing components 230 can enter the inner cavity of the storage bin 340, the impeller can be prevented from being interfered by external factors, the dirt removing pad 370 can be completely scraped off the inner cavity of the impeller 340 after the material is stirred by the second hydraulic frame, and the main beam frame 340 is completely adhered to the inner cavity of the impeller, and the emulsified material can be completely adhered to the main frame can be completely and adhered to the bottom of the impeller frame.

Embodiment two:

referring to fig. 3 and 4, on the basis of the first embodiment, the beam plate 130 is composed of a transverse plate and a cylindrical end, a slot hole constrained to the crawler belt 180 is formed between the cylindrical end and the transverse plate, the positioning bracket 140 is composed of an L-shaped vertical plate and two T-shaped loops, the L-shaped vertical plate is connected to the bottom of the cylindrical end, the clamp 160 is composed of a guide rod and a semi-cylindrical end, a ring groove is formed in the guide rod, and an inwards concave hole is formed in the semi-cylindrical end in the clamp 160.

When the first hydraulic rod 120 operates and lifts the beam plate 130, the positioning bracket 140 installed on the beam plate 130 can drive the servo motor 150 to synchronously lift or descend, the crawler 180 driven between the servo motor 150 and the sleeve roller 220 can maintain a stable state to operate, meanwhile, the beam plate 130 capable of freely lifting and lowering can facilitate subsequent maintenance treatment of the transmission dispersion mechanism 200 by workers, two clamps 160 are fixed on the beam plate 130 by combining two screw sleeves 170, and the transmission ejector rod 210 positioned and clamped by the two clamps 160 can maintain a stable state in the transmission process of the crawler 180, so that subsequent maintenance of the device by workers can be facilitated.

Embodiment III:

referring to fig. 6 and 7, on the basis of the first embodiment, a cylindrical cavity is formed in the driving ejector rod 210, a cross-shaped slot is formed in the bottom end of the driving ejector rod 210, a cross-shaped inserted rod is mounted at the top of the dispersing component 230, an impeller is mounted at the bottom of the dispersing component 230, a vertical tube is formed in the bottom end of the dispersing component 230, a buffer member 250 is composed of a spring and a circular gasket, and the top end of the spring is connected to the inner wall of the annular groove at the bottom of the limiting pad 240.

By inserting the cross-shaped inserted rod at the top of the dispersing assembly 230 into the cylindrical cavity inside the transmission ejector rod 210, after the second hydraulic rod 290 operates and lifts the main beam frame 270, the sheath 260 installed at the top of the main beam frame 270 can drive the dispersing assembly 230 to freely lift, the dispersing assembly 230 can rotate and scrape materials to be in a safe state to operate, the limiting pad 240 is movably installed outside the dispersing assembly 230, the elastic support of the ring buckle 380 is matched with the buffer piece 250, along with the high-speed rotation of the dispersing assembly 230, at the moment, the impeller at the bottom of the dispersing assembly 230 can extend into the inner cavity of the storage bin 340 according to a specified distance, and at the moment, the impeller can fully disperse and stir the materials in the inner cavity of the storage bin 340.

Embodiment four:

as shown in fig. 8 and 9, on the basis of the first embodiment, the two sides of the bin 340 are provided with feed grooves, the discharge pipe 350 is composed of a transverse pipe, a drainage pipe and a sealing plug, the transverse pipe is communicated with the inner cavity of the bin 340, and the interior of the decontamination pad seat 370 is provided with dense slots distributed circumferentially.

The feed chute is arranged on two sides of the feed bin 340, after materials are conveyed to the inner cavity of the feed bin 340 from the two feed chutes, the impeller at the bottom of the dispersing component 230 can extend to the inner cavity of the feed bin 340, the vertical pipe at the bottom end of the dispersing component 230 is inserted into the outer portion of the core rod 320, the sealing gasket 360 can be matched to seal the outer wall of the vertical pipe, the materials in the inner cavity of the feed bin 340 can be subjected to sealing stirring treatment, the stirred materials are prevented from splashing, and when the decontamination pad 370 drives the sheath 260 and the dispersing component 230 to freely lift, the impeller at the bottom of the dispersing component 230 safely scrapes the adhered materials in the process of rising to the slot in the decontamination pad 370, so that the problem of reduction of the total amount of the materials after stirring is avoided.

The working principle and the using flow of the invention are as follows: the anti-seepage gasket 360 is arranged at the bottom of the inner cavity of the storage bin 340 in advance, the core rod 320 is arranged at the top of the base 310, the storage bin 340 is arranged right above the base 310, the top end of the core rod 320 penetrates into the anti-seepage gasket 360, the decontamination pad seat 370 is arranged at the top of the storage bin 340, the ring buckle 380 is arranged on the ring groove opening at the top end of the decontamination pad seat 370, the discharging pipe 350 and the drain pipe 330 are respectively connected at the outer wall of the storage bin 340 and the bottom of the storage bin 340, the base 310 is connected with the load column 110 by utilizing the supporting plate, the first hydraulic rod 120 arranged at the inner cavity of the load column 110 can lift and descend the beam plate 130 freely, the positioning bracket 140 arranged at the cylindrical end at the bottom of the beam plate 130 can fix the servo motor 150, the top end of the transmission top rod 210 is limited and clamped by utilizing the two screw sleeves 170 and the two clamps 160, the transmission shaft at the top of the servo motor 150 and the sleeve roller 220 can be jointly transmitted by the caterpillar band 180, after the second hydraulic rod 290 movably mounted on one clamp at the outer wall of the base 310 is extended, the auxiliary beam frame 280 and the main beam frame 270 which are matched with the combination can be lowered to the dispersing component 230, at the moment, the impeller at the bottom of the dispersing component 230 can be transferred into the inner cavity of the storage bin 340 from the slot in the dirt-removing pad seat 370, the vertical pipe at the bottom of the dispersing component 230 can be penetrated downwards from the inner side of the anti-seepage washer 360, at the moment, the core bar 320 can be penetrated into the vertical pipe, then the discharging pipe 350 is blocked, then a user can convey materials from the feeding grooves at two sides of the storage bin 340 to the inner cavity of the storage bin 340, then the servo motor 150 is started and operated, at the moment, the caterpillar band 180 can drive the sleeve roller 220 to rotate, and the dispersing component 230 inserted in the driving ejector rod 210 can rotate under the limit constraint of the sheath 260, at this time, the limiting pad 240 and the buffer 250 support the ring buckle 380, the impeller of the dispersing assembly 230 in the high-speed rotating state can disperse and stir the material in the inner cavity of the storage bin 340, when the stirred material is in a sufficient state, the second hydraulic rod 290 lifts the main beam frame 270, the sheath 260 and the dispersing assembly 230 can be lifted upwards, after passing through the dirt removing pad seat 370, the residue material on the impeller at the bottom of the dispersing assembly 230 can be scraped, and the dispersed and stirred material can be safely and uniformly discharged outwards.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (10)

1. The rotary wheel type dispersing machine is characterized by comprising a bearing lifting mechanism (100), a transmission dispersing mechanism (200) and a material gathering mechanism (300);

the bearing lifting mechanism (100) comprises a load-carrying upright post (110), a first hydraulic rod (120) arranged in an inner cavity of the load-carrying upright post (110), a beam plate (130) arranged on the first hydraulic rod (120) and positioned right above the load-carrying upright post (110), a positioning bracket (140) connected to the beam plate (130), a servo motor (150) arranged in the positioning bracket (140), two clamps (160) movably arranged in concave holes at the outer end of the beam plate (130), a screw sleeve (170) movably arranged on the clamps (160) and in threaded connection with the beam plate (130) and a crawler belt (180) in transmission connection with the servo motor (150);

the transmission dispersion mechanism (200) is installed on the bearing lifting mechanism (100), and comprises a transmission ejector rod (210) movably installed in two adjacent clamps (160), a sleeve roller (220) installed on the transmission ejector rod (210), a dispersion assembly (230) inserted in the transmission ejector rod (210), a limit pad (240) movably installed on the dispersion assembly (230), a buffer piece (250) connected to the bottom of the limit pad (240), a sheath (260) movably installed in the middle of the dispersion assembly (230), a main beam frame (270) movably installed on the sheath (260), an auxiliary beam frame (280) movably installed at the bottom of the main beam frame (270) and a second hydraulic rod (290) movably installed in the middle of the main beam frame (270).

2. The wheel-type dispersing machine according to claim 1, wherein the beam plate (130) is composed of a cross plate and a cylindrical end, and a slot hole constrained to the crawler belt (180) is formed between the cylindrical end and the cross plate.

3. The wheel type dispenser according to claim 1, wherein the positioning bracket (140) is composed of an L-shaped vertical plate and two T-shaped loops, and the L-shaped vertical plate is connected to the bottom of the cylindrical end.

4. The wheel type dispersing machine according to claim 1, wherein the clamp (160) is composed of a guide rod and a semi-cylindrical end, the guide rod is provided with a ring groove, and an inward concave hole is formed in the semi-cylindrical end in the clamp (160).

5. The rotating wheel type dispersing machine according to claim 1, wherein a cylindrical cavity is formed in the transmission ejector rod (210), and a cross-shaped notch is formed in the bottom end of the transmission ejector rod (210).

6. The rotating wheel type dispersing machine according to claim 1, wherein a cross-shaped inserted bar is installed at the top of the dispersing component (230), an impeller is installed at the bottom of the dispersing component (230), and a vertical tube is arranged at the bottom end of the dispersing component (230).

7. The wheel type dispenser according to claim 1, wherein the buffer member (250) is composed of a spring and a circular washer, and the top end of the spring is connected to the inner wall of the bottom ring groove of the limit pad (240).

8. The rotating wheel type dispersing machine according to claim 1, wherein the material collecting mechanism (300) is installed between the bearing lifting mechanism (100) and the transmission dispersing mechanism (200) and comprises a base (310), a core rod (320) installed at the top of the base (310), a bin (340) installed at the top of the base (310), a drain pipe (330) connected to the bottom end of the bin (340), a discharge pipe (350) installed on the outer wall of the bin (340), an anti-seepage gasket (360) installed at the bottom of the inner cavity of the bin (340), a dirt removing pad seat (370) installed at the top of the bin (340) and a ring buckle (380) connected to the dirt removing pad seat (370).

9. The rotating wheel type dispersing machine according to claim 8, wherein feed grooves are formed in two sides of the storage bin (340), the discharge pipe (350) is composed of a transverse pipe, a drainage pipe and a sealing plug, and the transverse pipe is communicated with an inner cavity of the storage bin (340).

10. The rotating wheel type dispersing machine according to claim 8, wherein dense slots distributed circumferentially are formed in the dirt removing pad seat (370).