CN114405922A

CN114405922A - Rinsing device is used in processing of high-efficient mica powder

Info

Publication number: CN114405922A
Application number: CN202111567864.8A
Authority: CN
Inventors: 吴昌梓; 吴俊�; 吴万里
Original assignee: Ruicai Technology Co ltd
Current assignee: Ruicai Technology Co ltd
Priority date: 2021-12-21
Filing date: 2021-12-21
Publication date: 2022-04-29

Abstract

The invention discloses a rinsing device for efficient mica powder processing, which belongs to the technical field of mica powder production and processing. Including rinsing mechanism, rinsing mechanism is including carrying a section of thick bamboo and a net section of thick bamboo, reinforced mechanism is installed to rinsing mechanism one side, reinforced mechanism is including a storage section of thick bamboo, storage section of thick bamboo internally mounted has a plurality of puddler, a liquid section of thick bamboo and piston are installed to storage section of thick bamboo below, utilize the puddler to rotate and stir the mixture to the inside mica powder of storage section of thick bamboo and rinsing liquid, utilize the piston at the inside reciprocating motion of a liquid section of thick bamboo that goes out, will mix inside liquid intermittent type discharges the net section of thick bamboo, improve the rinsing efficiency of a net section of thick bamboo, utilize a net section of thick bamboo to carry out the rinsing to the mica powder, carry a section of thick bamboo and a net section of thick bamboo through rotating, prevent that the mesh of a net section of thick bamboo is blockked up to the small granule impurity.

Description

Rinsing device is used in processing of high-efficient mica powder

Technical Field

The invention relates to the technical field of mica powder production and processing, in particular to a rinsing device for efficient mica powder processing.

Background

The mica powder is a non-metallic mineral and contains a plurality of components, wherein the main component is SiO2, the content is generally about 49%, and the content of Al2O3 is about 30%. The mica powder has good elasticity and toughness. The additive has the characteristics of insulativity, high temperature resistance, acid and alkali resistance, corrosion resistance, strong adhesive force and the like, and is an excellent additive. It is widely used in the industries of electric appliances, welding electrodes, rubber, plastics, paper making, paint, coating, pigment, ceramics, cosmetics, novel building materials and the like, and has extremely wide application.

When rinsing is carried out on mica powder, the existing mica powder rinsing device needs to be provided with a stirring device for rinsing after stirring, so that the mica powder mixed liquid can not be intermittently fed into a rinsing cylinder for rinsing, and residues in the mica powder can be attached to the inside of the cylinder wall when being rinsed, and the cleaning is inconvenient.

Based on this, the invention designs a rinsing device for processing high-efficiency mica powder to solve the problems.

Disclosure of Invention

The invention aims to provide a high-efficiency rinsing device for processing mica powder, which aims to solve the problems that a stirring device is required to be arranged to stir and rinse the mixed liquid, the mixed liquid of the mica powder cannot intermittently enter a rinsing cylinder to rinse, and residues in the mica powder are often attached to the inner part of the cylinder wall during rinsing and are inconvenient to clean.

In order to achieve the purpose, the invention provides the following technical scheme: a rinsing device for processing high-efficiency mica powder comprises a rinsing mechanism, wherein the rinsing mechanism comprises a concave seat, a fixed cylinder is installed at the top end of the concave seat, symmetrical fixed rings are installed on the inner ring of the fixed cylinder, a plurality of fixed rods are symmetrically and annularly distributed between the fixed rings, a plurality of rotating wheels are rotatably arranged on the fixed rods, a conveying cylinder is installed at the center of the inner part of the fixed cylinder, outer toothed rings are installed at two ends of the outer ring of the conveying cylinder, a limiting seat is installed at the top end of the fixed cylinder, a first rotating shaft is arranged in the limiting seat in a rotating mode through a bearing, symmetrical first gears are installed on the first rotating shaft, symmetrical supporting seats are installed on the outer side of the conveying cylinder, a second rotating shaft is symmetrically arranged on the supporting seats in a rotating mode through the bearing, a plurality of groups of first connecting rods which are annularly distributed are installed on the second rotating shaft, the outer rings of a plurality of groups of first connecting rods which are distributed annularly are provided with net cylinders;

the feeding mechanism is installed on one side of the rinsing mechanism and comprises a storage cylinder, a fixed disc is installed on the top end of the storage cylinder, symmetrical first supporting plates are installed at the center of the top end of the fixed disc, symmetrical connecting plates are installed between the symmetrical first supporting plates, a third rotating shaft is arranged on the symmetrical connecting plates through bearing rotation, a plurality of groups of second connecting rods distributed in a ring shape are installed at the lower end of the third rotating shaft, a plurality of groups of stirring rods distributed in a ring shape are installed on the outer rings of the second connecting rods distributed in a ring shape, a side gear is installed at the upper end of the third rotating shaft, a second supporting plate is installed on one side of the top end of the fixed disc, a driving shaft is arranged on the second supporting plate and the single first supporting plate through bearing rotation, a fourth gear and a fifth gear are installed on the driving shaft, and a turntable is installed at one end, far away from the first supporting plate, of the driving shaft, a cylinder is arranged at the edge of one end of the turntable, which is far away from the driving shaft, a supporting block is arranged below the material storage barrel, a device box is arranged on one side of the top end of the supporting block, a fixing plate is arranged on the top end of the device box, two groups of symmetrical limiting rings are arranged on one side of the fixing plate close to the material storage barrel, symmetrical sliding rods are arranged on the two groups of limiting rings in a sliding manner, the top ends of the symmetrical slide bars are provided with moving rings, the bottom ends of the symmetrical slide bars are provided with connecting columns, the bottom end of the connecting column is provided with symmetrical first moving columns, the device box is internally provided with a limiting cylinder, a second moving column is arranged in the limiting cylinder in a sliding manner, a piston is arranged at one end of the second moving column far away from the device box, the device incasement portion rotates through the bearing and is provided with the dwang, the dwang mid-mounting has the seventh gear, a liquid section of thick bamboo is installed to supporting shoe top opposite side.

As a further scheme of the invention, the inner ring of the fixed cylinder is provided with a plurality of first slide rails, the outer ring of the conveying cylinder is provided with a plurality of second slide rails, and a plurality of rotating wheels on the fixed rod are respectively and rotatably clamped between the plurality of first slide rails and the plurality of second slide rails.

As a further scheme of the invention, the net cylinder is positioned at the center of the interior of the conveying cylinder, two ends of the first rotating shaft are rotatably arranged on symmetrical supporting seats through bearings, the rinsing mechanisms are obliquely distributed, the lower end of the supporting seat at the high position is provided with a feeding pipe, one end of the feeding pipe close to the conveying cylinder extends into the net cylinder, and material receiving cylinders are respectively arranged below one ends of the net cylinder and the conveying cylinder at the low position.

As a further scheme of the invention, a first motor is fixedly installed at the upper end of the supporting seat at the high position, a third gear is installed at the output end of the first motor, a second gear is installed on the first rotating shaft, and the second gear is meshed with the third gear.

As a further scheme of the invention, the symmetrical first gears are respectively meshed with the symmetrical outer gear rings, the first rotating shaft is provided with a driving wheel, the second rotating shaft is provided with a driven wheel, and belts are sleeved on outer rings of the driving wheel and the driven wheel.

As a further scheme of the invention, a plurality of supporting columns are annularly distributed at the bottom end of the storage cylinder, the storage cylinder is positioned above one end of the rinsing mechanism at the high position, one end of the device box and one end of the feeding pipe, which is far away from the conveying cylinder, are respectively contacted with two ends of the liquid outlet cylinder and are internally communicated, the bottom end of the storage cylinder is funnel-shaped, and the bottom end of the storage cylinder is contacted with the top end of the liquid outlet cylinder and is internally communicated.

As a further scheme of the invention, the third rotating shaft penetrates through the fixed disc, the second connecting rod and the stirring rod connected to the lower end of the third rotating shaft are distributed in the material storage cylinder, and the outer side of the stirring rod is in contact with the inner ring of the material storage cylinder.

As a further scheme of the invention, a second motor is installed at the top end of the fixed disc, a sixth gear is installed at the output end of the second motor, the sixth gear is meshed with the fourth gear, and the side gear is meshed with the fifth gear.

As a further scheme of the invention, the cylinder is installed inside the moving ring and can slide inside the moving ring, the symmetrical first moving columns are provided with limiting strips on the sides close to each other, the supporting block and the device box are provided with limiting grooves on the symmetrical two sides, and the symmetrical limiting strips are arranged inside the symmetrical limiting grooves in a sliding manner.

As a further scheme of the invention, a second rack is mounted at the bottom end of the second moving column, the second rack is meshed with a seventh gear, the second rack and the second moving column can slide in a limiting cylinder, the piston can slide in a liquid outlet cylinder, symmetrical eighth gears are mounted on the rotating rod, a first rack is mounted on one side of the first moving column close to the storage cylinder, and the symmetrical first racks are respectively meshed with the symmetrical eighth gears.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the driving shaft is used for rotating to drive the third rotating shaft and the rotary table to rotate, the third rotating shaft is used for rotating to drive the second connecting rod and the stirring rod at the lower end of the third rotating shaft to rotate, so that mica powder and rinsing liquid in the storage cylinder are stirred and mixed, the stirring rod is used for contacting with the inner wall of the storage cylinder, the inner wall of the storage cylinder is continuously cleaned, the mica powder and impurities are prevented from being attached to the wall of the storage cylinder, the rotary table is used for rotating to drive the piston to reciprocate in the liquid outlet cylinder, the mixed liquid is intermittently discharged into the mesh cylinder, and the rinsing efficiency of the mesh cylinder is improved.

2. The first rotating shaft and the second rotating shaft rotate to carry out roller rinsing on the mica powder mixed liquid, so that impurities are left in the net barrel and fall into the receiving barrel at the tail end of the net barrel along with the rotation of the net barrel, the liquid containing the mica powder falls into the conveying barrel, and the liquid containing the mica powder is conveyed into the receiving barrel at the tail end of the conveying barrel to be collected under the rotation of the conveying barrel.

3. According to the invention, after rinsing is finished, impurities attached to the inner wall of the conveying cylinder and the net cylinder fall off from the conveying cylinder and the net cylinder along with rolling by continuously rotating the conveying cylinder and the net cylinder, so that small particle impurities can be effectively prevented from blocking meshes of the net cylinder.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of a rinsing mechanism according to the present invention;

FIG. 3 is a schematic sectional view of the charging mechanism of the present invention;

FIG. 4 is a schematic view of the internal structure of the apparatus case of the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 6 is an enlarged view of the structure at B in FIG. 2 according to the present invention;

FIG. 7 is an enlarged view of the structure at C of FIG. 3 according to the present invention;

FIG. 8 is an enlarged view of the structure shown at D in FIG. 3 according to the present invention;

FIG. 9 is an enlarged view of the structure at E in FIG. 3 according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a rinsing mechanism; 101. a concave seat; 102. a fixed cylinder; 103. a first slide rail; 104. a fixing ring; 105. fixing the rod; 106. a rotating wheel; 107. a second slide rail; 108. a delivery cartridge; 109. an outer ring gear; 110. a first gear; 111. a limiting seat; 112. a first rotating shaft; 113. a second gear; 114. a driving wheel; 115. a belt; 116. a supporting seat; 117. a second rotating shaft; 118. a driven wheel; 119. a first connecting rod; 120. a net drum; 121. a first motor; 122. a third gear; 123. a feed pipe; 124. a material receiving barrel; 2. a feeding mechanism; 201. a storage cylinder; 202. fixing the disc; 203. a first support plate; 204. a connecting plate; 205. a third rotating shaft; 206. a second connecting rod; 207. a stirring rod; 208. a side gear; 209. a second support plate; 210. a drive shaft; 211. a fourth gear; 212. a fifth gear; 213. a sixth gear; 214. a second motor; 215. a turntable; 216. a cylinder; 217. a support block; 218. a device case; 219. a liquid outlet cylinder; 220. a fixing plate; 221. a limiting ring; 222. a slide bar; 223. a moving ring; 224. connecting columns; 225. a first moving column; 226. a limiting strip; 227. a first rack; 228. a limiting cylinder; 229. a second moving column; 230. a piston; 231. a second rack; 232. a seventh gear; 233. rotating the rod; 234. and an eighth gear.

Detailed Description

Referring to fig. 1-9, the present invention provides a technical solution: the utility model provides a rinsing device is used in processing of high-efficient mica powder, includes rinsing mechanism 1, rinsing mechanism 1 is including concave seat 101, fixed cylinder 102 is installed on concave seat 101 top, the solid fixed ring 104 of symmetry is installed to fixed cylinder 102 inner circle, the symmetry the annular distribution has a plurality of dead lever 105 between the solid fixed ring 104, it is equipped with a plurality of runner 106 to rotate on the dead lever 105, the department installs conveying cylinder 108 at the inside center of fixed cylinder 102, outer ring gear 109 is all installed at conveying cylinder 108 outer lane both ends, spacing seat 111 is installed on fixed cylinder 102 top, spacing seat 111 is inside to be equipped with first rotation axis 112 through the bearing rotation, install symmetrical first gear 110 on the first rotation axis 112, conveying cylinder 108 installs the supporting seat 116 of symmetry in the outside, the symmetry be provided with second rotation axis 117 through the bearing rotation on supporting seat 116, a plurality of groups of first connecting rods 119 distributed annularly are mounted on the second rotating shaft 117, a mesh drum 120 is mounted on the outer ring of the plurality of groups of first connecting rods 119 distributed annularly, and the mica powder is rinsed by the mesh drum 120.

Further, the feeding mechanism 2 is installed on one side of the rinsing mechanism 1, the feeding mechanism 2 comprises a storage cylinder 201, a fixed plate 202 is installed on the top end of the storage cylinder 201, symmetrical first supporting plates 203 are installed at the center of the top end of the fixed plate 202, symmetrical connecting plates 204 are installed between the symmetrical first supporting plates 203, a third rotating shaft 205 is arranged on the symmetrical connecting plates 204 through bearing rotation, a plurality of groups of second connecting rods 206 distributed annularly are installed at the lower end of the third rotating shaft 205, a plurality of stirring rods 207 distributed annularly are installed on the outer rings of the plurality of groups of second connecting rods 206 distributed annularly, a side gear 208 is installed at the upper end of the third rotating shaft 205, a second supporting plate 209 is installed on one side of the top end of the fixed plate 202, and a driving shaft 210 is arranged on the second supporting plate 209 and the single first supporting plate 203 through bearing rotation, the driving shaft 210 is provided with a fourth gear 211 and a fifth gear 212, one end of the driving shaft 210, which is far away from the first supporting plate 203, is provided with a rotary table 215, the edge of one end of the rotary table 215, which is far away from the driving shaft 210, is provided with a cylinder 216, a supporting block 217 is arranged below the material storage barrel 201, one side of the top end of the supporting block 217 is provided with a device box 218, the top end of the device box 218 is provided with a fixed plate 220, one side of the fixed plate 220, which is close to the material storage barrel 201, is provided with two symmetrical sets of limiting rings 221, two sets of symmetrical sliding rods 222 are slidably arranged on the two sets of limiting rings 221, the top ends of the symmetrical sliding rods 222 are provided with moving rings 223, the bottom ends of the symmetrical sliding rods 222 are provided with connecting columns 224, the bottom ends of the connecting columns 224 are provided with symmetrical first moving columns 225, a limiting barrel 228 is arranged inside the device box 218, and a second moving column 229 is slidably arranged inside the limiting barrel 228, the piston 230 is installed to the one end that the second removes post 229 and keeps away from device case 218, device case 218 is inside to be provided with dwang 233 through the bearing rotation, dwang 233 mid-mounting has seventh gear 232, a liquid section of thick bamboo 219 is installed to supporting shoe 217 top opposite side, utilizes reinforced mechanism 2 to realize intermittent type and feeds in raw material, improves the rinsing efficiency of net section of thick bamboo 120.

Further, a plurality of first slide rails 103 are installed on the inner ring of the fixed cylinder 102, a plurality of second slide rails 107 are installed on the outer ring of the conveying cylinder 108, a plurality of rotating wheels 106 on the fixed rod 105 are respectively rotated and clamped between the plurality of first slide rails 103 and the plurality of second slide rails 107 to support the conveying cylinder 108, the net cylinder 120 is located at the center inside the conveying cylinder 108, two ends of the first rotating wheel 112 are rotatably arranged on the symmetrical supporting seats 116 through bearings, the rinsing mechanism 1 is obliquely distributed, the feeding pipe 123 is installed at the lower end of the supporting seat 116 at a high position, one end of the feeding pipe 123 close to the conveying cylinder 108 extends into the net cylinder 120, the material receiving cylinder 124 is installed below one end of the net cylinder 120 and the one end of the conveying cylinder 108 at a low position, so that liquid containing mica powder and impurities can respectively fall into the material receiving cylinder 124 for collection, and the first motor 121 is fixedly installed at the upper end of the supporting seat 116 at a high position, third gear 122 is installed to first motor 121 output, install second gear 113 on the first axis of rotation 112, second gear 113 and third gear 122 meshing utilize first motor 121 to drive first axis of rotation 112 and rotate, the symmetry first gear 110 meshes with the outer ring gear 109 of symmetry respectively, makes a transport section of thick bamboo 108 can rotate, install action wheel 114 on the first axis of rotation 112, install from driving wheel 118 on the second axis of rotation 117, action wheel 114 and follow driving wheel 118 outer lane cover are equipped with belt 115, make first axis of rotation 112 can drive second axis of rotation 117 and rotate.

Further, a plurality of pillars are annularly distributed at the bottom end of the storage barrel 201, the storage barrel 201 is located above one end of the rinsing mechanism 1 at a high position, one end of the device box 218 and one end of the feeding pipe 123 far away from the conveying barrel 108 are respectively contacted with two ends of the liquid outlet barrel 219 and are internally communicated, the bottom end of the storage barrel 201 is funnel-shaped, the bottom end of the storage barrel 201 is contacted with the top end of the liquid outlet barrel 219 and is internally communicated, so that mixed liquid in the storage barrel 201 can fall into the liquid outlet barrel 219, the third rotating shaft 205 penetrates through the fixed disk 202, the second connecting rod 206 and the stirring rod 207 connected to the lower end of the third rotating shaft 205 are uniformly distributed in the storage barrel 201, the outer side of the stirring rod 207 is contacted with the inner ring of the storage barrel 201, the stirring rod 207 is contacted with the inner wall of the storage barrel 201 to continuously clean the inner wall of the storage barrel 201, so as to prevent mica powder and impurities from being attached to the wall of the storage barrel 201, the top end of the fixed disc 202 is provided with a second motor 214, the output end of the second motor 214 is provided with a sixth gear 213, the sixth gear 213 is engaged with a fourth gear 211, the side gear 208 is engaged with a fifth gear 212, the second motor 214 is utilized to drive the driving shaft 210 to rotate, the cylinder 216 is installed inside the moving ring 223, the cylinder 216 can slide inside the moving ring 223, the symmetrical sides of the first moving columns 225 close to each other are provided with limit bars 226, the symmetrical two sides of the supporting block 217 and the device box 218 are provided with limit grooves, the symmetrical limit bars 226 are arranged inside the symmetrical limit grooves in a sliding manner, the limit bars 226 slide inside the limit grooves to limit the moving process of the first moving columns 225, the bottom end of the second moving columns 229 is provided with a second rack 231, the second rack 231 is engaged with a seventh gear 232, and the second rack 231 and the second moving columns 229 can slide inside the limit grooves 228, the piston 230 can be in the inside slip of play liquid cylinder 219, install the eighth gear 234 of symmetry on the dwang 233, first rack 227 is installed to one side that first removal post 225 is close to storage cylinder 201, and the symmetry first rack 227 meshes with the eighth gear 234 of symmetry respectively, makes dwang 233 reciprocating motion can drive first rack 227 reciprocating motion.

The working principle is as follows: when the invention is used, mica powder and rinsing liquid are added into the storage cylinder 201 in proportion, the second motor 214 is used for driving the sixth gear 213 to rotate, the sixth gear 213 rotates for driving the fourth gear 211 to rotate, the driving shaft 210 at the center of the fourth gear 211 rotates along with the fourth gear, the driving shaft 210 rotates for driving the fifth gear 212 and the turntable 215 thereon to rotate, the fifth gear 212 is meshed with the side gear 208, the fifth gear 212 rotates for driving the side gear 208 to rotate, the third rotating shaft 205 at the center of the side gear 208 rotates along with the symmetrical connecting plates 204, the third rotating shaft 205 rotates for driving the second connecting rod 206 and the stirring rod 207 at the lower end thereof to rotate, the mica powder and the rinsing liquid in the storage cylinder 201 are stirred and mixed, the stirring rod 207 is used for contacting with the inner wall of the storage cylinder 201 to continuously clean the inner wall of the storage cylinder 201, and the mica powder and impurities are prevented from being attached to the storage cylinder 201, the rotating disc 215 rotates to drive the cylinder 216 to make a circular rotation, the sliding rod 222 which is symmetrical at the bottom end of the moving ring 223 slides on the limiting ring 221 on the side surface of the fixed plate 220, so that the cylinder 216 rotates to drive the moving ring 223 and the sliding rod 222 to make a reciprocating lifting motion, the sliding rod 222 lifts to drive the connecting column 224 at the bottom end and the first moving column 225 to reciprocate, the limiting strip 226 slides in the limiting groove on the side surface of the supporting block 217 and the device box 218 to limit the moving process of the first moving column 225, the first moving column 225 lifts to and fro to drive the first rack 227 to reciprocate, the first rack 227 is meshed with the eighth gear 234 on the rotating rod 233, so that the rotating rod 233 rotates to reciprocate, the rotating rod 233 rotates to drive the seventh gear 232 at the middle part to reciprocate, the seventh gear 232 is meshed with the second rack 231, so that the second rack 231 and the second moving column 229 reciprocate in the limiting cylinder 228, the piston 230 at one end of the second moving column 229 moves back and forth in the liquid outlet barrel 219, when the piston 230 contracts, the mixed liquid can fall into the liquid outlet barrel 219 from the bottom end of the storage barrel 201, when the piston 230 extends out, the piston 230 extrudes the mixed liquid, the mixed liquid flows out of the liquid outlet barrel 219 and flows into the mesh drum 120 through the feeding pipe 123, and when the piston 230 moves to the connection position of the liquid outlet barrel 219 and the storage barrel 201, the connection position is sealed, so that intermittent discharging is realized;

the first motor 121 is used for driving the third gear 122 to rotate, the third gear 122 rotates to drive the second gear 113 to rotate, the first rotating shaft 112 at the center of the second gear 113 rotates along with the second gear, the first rotating shaft 112 rotates to drive the driving wheel 114 and the first gear 110 thereon to rotate, the driving wheel 114 drives the driven wheel 118 to rotate by using the belt 115, the driven wheel 118 rotates to drive the second rotating shaft 117 to rotate, the second rotating shaft 117 rotates to drive the first connecting rod 119 and the mesh drum 120 to rotate, the roller rinsing is carried out on the mica powder mixed liquid, so that impurities are left in the mesh drum 120 and fall into the receiving drum 124 at the tail end of the mesh drum 120 along with the rotation of the mesh drum 120, the liquid containing the mica powder falls into the conveying drum 108, the first gear 110 rotates to drive the outer toothed ring 109 to rotate, the conveying drum 108 rotates in the fixed drum 102, the conveying drum 108 rotates and conveys the liquid containing the mica powder to the receiving drum 124 at the tail end to be collected, after the rinsing is finished, the conveying cylinder 108 and the mesh cylinder 120 are continuously rotated, so that impurities attached to the inner wall of the conveying cylinder 108 and the mesh cylinder 120 fall off from the inner parts of the mesh cylinder 120 along with the tumbling.

Claims

1. The utility model provides a rinsing device is used in processing of high-efficient mica powder, includes rinsing mechanism (1), its characterized in that: the rinsing mechanism (1) comprises a concave seat (101), a fixed cylinder (102) is installed at the top end of the concave seat (101), symmetrical fixed rings (104) are installed on the inner ring of the fixed cylinder (102), a plurality of fixed rods (105) are distributed between the symmetrical fixed rings (104) in an annular mode, a plurality of rotating wheels (106) are arranged on the fixed rods (105) in a rotating mode, a conveying cylinder (108) is installed at the center of the inner portion of the fixed cylinder (102), outer toothed rings (109) are installed at the two ends of the outer ring of the conveying cylinder (108), a limiting seat (111) is installed at the top end of the fixed cylinder (102), a first rotating shaft (112) is arranged inside the limiting seat (111) in a rotating mode through a bearing, symmetrical first gears (110) are installed on the first rotating shaft (112), symmetrical supporting seats (116) are installed on the outer side of the conveying cylinder (108), and a second rotating shaft (117) is arranged on the supporting seats (116) in a rotating mode through a bearing in a symmetrical mode, a plurality of groups of first connecting rods (119) which are distributed annularly are arranged on the second rotating shaft (117), and net barrels (120) are arranged on the outer rings of the plurality of groups of first connecting rods (119) which are distributed annularly;

a feeding mechanism (2) is arranged on one side of the rinsing mechanism (1); the feeding mechanism (2) comprises a storage barrel (201), a fixed disc (202) is installed at the top end of the storage barrel (201), symmetrical first supporting plates (203) are installed at the center of the top end of the fixed disc (202), symmetrical connecting plates (204) are installed between the symmetrical first supporting plates (203), a third rotating shaft (205) is rotatably arranged on the symmetrical connecting plates (204) through bearings, a plurality of groups of annularly distributed second connecting rods (206) are installed at the lower end of the third rotating shaft (205), and a plurality of annularly distributed stirring rods (207) are installed on the outer rings of the plurality of groups of annularly distributed second connecting rods (206);

a side gear (208) is installed at the upper end of the third rotating shaft (205), a second supporting plate (209) is installed on one side of the top end of the fixed plate (202), a driving shaft (210) is rotatably arranged on the second supporting plate (209) and the single first supporting plate (203) through a bearing, a fourth gear (211) and a fifth gear (212) are installed on the driving shaft (210), a turntable (215) is installed at one end, far away from the first supporting plate (203), of the driving shaft (210), a cylinder (216) is installed at the edge of one end, far away from the driving shaft (210), of the turntable (215), a supporting block (217) is installed below the storage barrel (201), a device box (218) is installed on one side of the top end of the supporting block (217), a fixing plate (220) is installed at the top end of the device box (218), two symmetrical limiting rings (221) are installed on one side, close to the storage barrel (201), of the fixing plate (220), symmetrical sliding rods (222) are arranged on the two groups of limiting rings (221) in a sliding mode, moving rings (223) are installed at the top ends of the symmetrical sliding rods (222), connecting columns (224) are installed at the bottom ends of the symmetrical sliding rods (222), and symmetrical first moving columns (225) are installed at the bottom ends of the connecting columns (224);

the device case (218) internally mounted has a spacing section of thick bamboo (228), the inside slip of spacing section of thick bamboo (228) is equipped with second removal post (229), the second removes the one end that device case (218) was kept away from in post (229) and installs piston (230), device case (218) is inside to be provided with dwang (233) through the bearing rotation, dwang (233) mid-mounting has seventh gear (232), a liquid section of thick bamboo (219) is installed out to supporting shoe (217) top opposite side.

2. The rinsing device for processing high-efficiency mica powder as recited in claim 1, characterized in that: a plurality of first slide rails (103) are installed on the inner ring of the fixed barrel (102), a plurality of second slide rails (107) are installed on the outer ring of the conveying barrel (108), and a plurality of rotating wheels (106) on the fixing rod (105) are respectively rotatably clamped between the plurality of first slide rails (103) and the plurality of second slide rails (107).

3. The rinsing device for processing high-efficiency mica powder as recited in claim 1, characterized in that: the net section of thick bamboo (120) are located the inside center department of a transport section of thick bamboo (108), first axis of rotation (112) both ends are passed through the bearing and are rotated the setting on supporting seat (116) of symmetry, rinsing mechanism (1) is the slope and distribute, the eminence inlet pipe (123) are installed to supporting seat (116) lower extreme, inlet pipe (123) are close to the one end of a transport section of thick bamboo (108) and stretch into inside net section of thick bamboo (120), net section of thick bamboo (120) and transport section of thick bamboo (108) are located the one end below of low department and all install and connect feed cylinder (124).

4. The rinsing device for processing high-efficiency mica powder as recited in claim 3, characterized in that: the eminence supporting seat (116) upper end fixed mounting have first motor (121), third gear (122) are installed to first motor (121) output, install second gear (113) on first axis of rotation (112), second gear (113) and third gear (122) meshing.

5. The rinsing device for processing high-efficiency mica powder as recited in claim 1, characterized in that: symmetry first gear (110) mesh with outer ring gear (109) of symmetry respectively, install action wheel (114) on first axis of rotation (112), install on second axis of rotation (117) from driving wheel (118), action wheel (114) and follow driving wheel (118) outer lane cover are equipped with belt (115).

6. The rinsing device for processing high-efficiency mica powder as recited in claim 3, characterized in that: storage cylinder (201) bottom ring distributes and has a plurality of pillar, storage cylinder (201) are located the one end top of rinsing mechanism (1) eminence, the one end that transport cylinder (108) was kept away from to device case (218) one end and inlet pipe (123) respectively with go out liquid barrel (219) both ends contact, and inside intercommunication, storage cylinder (201) bottom is funnel type, storage cylinder (201) bottom and a liquid barrel (219) top contact, and inside intercommunication.

7. The rinsing device for processing high-efficiency mica powder as recited in claim 1, characterized in that: third axis of rotation (205) run through fixed disk (202), second connecting rod (206) and puddler (207) that third axis of rotation (205) lower extreme is connected all distribute inside storage cylinder (201), puddler (207) outside and storage cylinder (201) inner circle contact.

8. The rinsing device for processing high-efficiency mica powder as recited in claim 1, characterized in that: a second motor (214) is installed at the top end of the fixed disc (202), a sixth gear (213) is installed at the output end of the second motor (214), the sixth gear (213) is meshed with the fourth gear (211), and the side gear (208) is meshed with the fifth gear (212).

9. The rinsing device for processing high-efficiency mica powder as recited in claim 1, characterized in that: the cylinder (216) is installed inside the moving ring (223), the cylinder (216) can slide inside the moving ring (223), the first moving column (225) is symmetrical, a limiting strip (226) is installed on one side close to each other, limiting grooves are formed in two symmetrical sides of the supporting block (217) and the device box (218), and the limiting strip (226) is symmetrical and arranged inside the symmetrical limiting grooves in a sliding mode.

10. The rinsing device for processing high-efficiency mica powder as recited in claim 1, characterized in that: second rack (231) are installed to second removal post (229) bottom, second rack (231) and seventh gear (232) meshing, second rack (231) and second removal post (229) can be at the inside slip of spacing section of thick bamboo (228), piston (230) can be at the inside slip of play liquid section of thick bamboo (219), install eighth gear (234) of symmetry on dwang (233), first rack (227) are installed to one side that first removal post (225) is close to storage barrel (201), the symmetry first rack (227) mesh with eighth gear (234) of symmetry respectively.