CN113428869A - Mica paper waste recycling soaks thick liquids flocculation thing and generates processing apparatus - Google Patents
Mica paper waste recycling soaks thick liquids flocculation thing and generates processing apparatus Download PDFInfo
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- CN113428869A CN113428869A CN202110515095.0A CN202110515095A CN113428869A CN 113428869 A CN113428869 A CN 113428869A CN 202110515095 A CN202110515095 A CN 202110515095A CN 113428869 A CN113428869 A CN 113428869A
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- 239000010445 mica Substances 0.000 title claims abstract description 37
- 229910052618 mica group Inorganic materials 0.000 title claims abstract description 37
- 239000010893 paper waste Substances 0.000 title claims abstract description 21
- 239000007788 liquid Substances 0.000 title claims abstract description 19
- 238000004064 recycling Methods 0.000 title claims abstract description 13
- 238000005189 flocculation Methods 0.000 title description 2
- 230000016615 flocculation Effects 0.000 title description 2
- 238000001035 drying Methods 0.000 claims abstract description 50
- 238000005406 washing Methods 0.000 claims abstract description 42
- 239000002002 slurry Substances 0.000 claims abstract description 41
- 238000002791 soaking Methods 0.000 claims abstract description 21
- 239000002699 waste material Substances 0.000 claims abstract description 17
- 238000005276 aerator Methods 0.000 claims abstract description 13
- 239000002351 wastewater Substances 0.000 claims abstract description 12
- 238000011084 recovery Methods 0.000 claims abstract description 5
- 230000005540 biological transmission Effects 0.000 claims description 220
- 238000000227 grinding Methods 0.000 claims description 34
- 238000001125 extrusion Methods 0.000 claims description 24
- 238000006243 chemical reaction Methods 0.000 claims description 19
- 238000001914 filtration Methods 0.000 claims description 17
- 230000002457 bidirectional effect Effects 0.000 claims description 15
- 230000003028 elevating effect Effects 0.000 claims 1
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 abstract description 10
- 210000004911 serous fluid Anatomy 0.000 abstract description 8
- 238000005054 agglomeration Methods 0.000 abstract description 3
- 230000002776 aggregation Effects 0.000 abstract description 3
- 230000000694 effects Effects 0.000 abstract description 2
- 239000000463 material Substances 0.000 description 18
- 238000005273 aeration Methods 0.000 description 10
- 238000007885 magnetic separation Methods 0.000 description 8
- 238000000354 decomposition reaction Methods 0.000 description 7
- AZDRQVAHHNSJOQ-UHFFFAOYSA-N alumane Chemical class [AlH3] AZDRQVAHHNSJOQ-UHFFFAOYSA-N 0.000 description 6
- 238000004537 pulping Methods 0.000 description 6
- 238000003825 pressing Methods 0.000 description 4
- 238000010586 diagram Methods 0.000 description 3
- 239000002270 dispersing agent Substances 0.000 description 3
- 239000012535 impurity Substances 0.000 description 3
- 238000002156 mixing Methods 0.000 description 2
- 239000002994 raw material Substances 0.000 description 2
- 159000000013 aluminium salts Chemical class 0.000 description 1
- 229910000329 aluminium sulfate Inorganic materials 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
- 230000003750 conditioning effect Effects 0.000 description 1
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
- 238000005520 cutting process Methods 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- YGANSGVIUGARFR-UHFFFAOYSA-N dipotassium dioxosilane oxo(oxoalumanyloxy)alumane oxygen(2-) Chemical compound [O--].[K+].[K+].O=[Si]=O.O=[Al]O[Al]=O YGANSGVIUGARFR-UHFFFAOYSA-N 0.000 description 1
- 238000007599 discharging Methods 0.000 description 1
- 238000003912 environmental pollution Methods 0.000 description 1
- 239000011810 insulating material Substances 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 229910052627 muscovite Inorganic materials 0.000 description 1
- 239000000126 substance Substances 0.000 description 1
- 238000009966 trimming Methods 0.000 description 1
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- C—CHEMISTRY; METALLURGY
- C01—INORGANIC CHEMISTRY
- C01B—NON-METALLIC ELEMENTS; COMPOUNDS THEREOF; METALLOIDS OR COMPOUNDS THEREOF NOT COVERED BY SUBCLASS C01C
- C01B33/00—Silicon; Compounds thereof
- C01B33/20—Silicates
- C01B33/36—Silicates having base-exchange properties but not having molecular sieve properties
- C01B33/38—Layered base-exchange silicates, e.g. clays, micas or alkali metal silicates of kenyaite or magadiite type
- C01B33/42—Micas ; Interstratified clay-mica products
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- Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Inorganic Chemistry (AREA)
- Separation Of Suspended Particles By Flocculating Agents (AREA)
Abstract
The invention relates to the technical field of mica paper waste recovery, in particular to a treatment device for generating flocculate of recovered and soaked slurry of mica paper waste. The technical problem of the invention is that: provides a treatment device for recovering mica paper waste and soaking pulp flocculate. The technical implementation scheme of the invention is as follows: a mica paper waste recycling and soaking slurry flocculate generating and treating device comprises an underframe, a flocculate generating component, a washing component, a drying component, a supporting table, a controller, a waste liquid collecting box and a waste water box; the support table is connected with the controller. When the invention is used, the aerator can reciprocate in the serous fluid to ensure that flocculate in the serous fluid is fully generated, then the flocculate taken out is extruded to extrude the residual serous fluid and then repeatedly wash the residual serous fluid, the washing water is reduced, and finally the washed flocculate is dried and ground at the same time, thereby avoiding the agglomeration from influencing the effect of subsequently recycling the mica.
Description
Technical Field
The invention relates to the technical field of mica paper waste recovery, in particular to a treatment device for generating flocculate of recovered and soaked slurry of mica paper waste.
Background
The mica paper is prepared by taking high-quality Sichuan muscovite as a raw material, thermally chemical or hydraulically stripping and crushing the raw material into pulp and papermaking, and then cutting the pulp and papermaking into continuous roll paper or single paper, wherein the market of the mica paper is as follows: the mechanical department has long determined that the mica insulating material for the motor mainly uses mica paper to replace mica flakes, the demand of the mica paper is continuously increased along with the development of the electrical industry, a certain amount of waste materials and damaged materials are usually inevitably generated during the production of the mica paper, the periphery of a qualified finished product needs to be trimmed, and the waste materials generated by trimming are directly discarded to waste a large amount of resources and cause environmental pollution.
In the prior art, when mica paper waste is recycled, firstly, the waste is prevented from being subjected to impurity removal, then the waste is cut into pieces and soaked and decomposed by strong base, then the materials subjected to pre-decomposition are taken out for pulping treatment, after pulping is finished, slurry is placed into a clean container, water is added for pulp mixing, meanwhile, strong base and dispersing agent are added for secondary soaking and decomposition, after secondary soaking and decomposition is finished, aluminum salt is added, aeration equipment is used for aerating at the bottom of the slurry, floc is continuously generated in the container, when the floc is not generated, the floc is taken out and repeatedly washed and then dried, and finally, the dried material is subjected to magnetic separation; when aeration equipment is used for aerating at the bottom of the slurry, the aeration equipment is still in the slurry, so that the slurry is difficult to fully generate flocculate, recoverable mica resources in the slurry are wasted, a large amount of slurry is remained after the flocculate is taken out, a large amount of water is consumed for directly washing the flocculate, the washed flocculate is dried to be easy to agglomerate, materials needing to be separated are difficult to collect when magnetic separation is carried out, and the subsequent recovery of mica is influenced.
In conclusion, a treatment device for recovering mica paper waste and soaking pulp flocculate generation is provided.
Disclosure of Invention
In order to overcome the defects that when mica paper waste is recycled, the waste is firstly prevented from being subjected to impurity removal, then is cut into pieces and soaked by strong base for disintegration, then the materials subjected to pre-disintegration are taken out for pulping treatment, after pulping is finished, pulp is put into a clean container, water is added for pulp mixing, meanwhile, strong base and dispersing agent are added for secondary soaking disintegration, after secondary soaking disintegration is finished, aluminum salt is added, aeration equipment is used for aerating at the bottom of the pulp to enable flocculate to be continuously generated in the container, and when the flocculate is not generated any more, the flocculate is taken out for repeated washing and then is dried, and finally the dried materials are subjected to magnetic separation; when aeration equipment is used for aeration at the bottom of slurry, the aeration equipment is still in the slurry, so that the slurry is difficult to fully generate flocculate, and further recyclable mica resources in the slurry are wasted, a large amount of slurry is remained after the flocculate is taken out, a large amount of water is consumed for directly washing the flocculate, the washed flocculate is dried to be easy to agglomerate, the materials needing to be separated are difficult to collect during magnetic separation, and the subsequent recycling of mica is influenced, the technical problem of the invention is as follows: provides a treatment device for recovering mica paper waste and soaking pulp flocculate.
The technical implementation scheme of the invention is as follows: a mica paper waste recycling and soaking slurry flocculate generating and treating device comprises an underframe, support columns, a base plate, a flocculate generating component, a washing component, a drying component, a support table, a controller, a fixed plate, a waste liquid collecting box and a waste water box; the bottom surface of the underframe is connected with four groups of support columns; the chassis is connected with the flocculate generating component; the chassis is connected with the washing component; the underframe is connected with the drying component; the underframe is connected with the support table; the chassis is connected with the waste liquid collecting box; the underframe is connected with a waste water tank; the four groups of support columns are respectively connected with the four groups of base plates; the washing component is connected with the drying component; the washing component is connected with the fixed plate; the support table is connected with the controller.
More preferably, the flocculate generating assembly comprises a first bevel gear, a first telescopic rod, a first fixing frame, a first electric push rod, a transmission disc, an arc toothed plate, a rack, a lifting slide block, a lifting slide rail, a fixing frame, a first transmission rod, a column gear, a first flat gear, a second transmission rod, a small motor, a connecting plate, a second flat gear, a third transmission rod, a fourth flat gear, a toothed ring, a reaction barrel, a valve and an aerator; the first bevel gear is fixedly connected with the first telescopic rod; the first telescopic rod is rotatably connected with the first fixing frame; the first telescopic rod is rotatably connected with the underframe; the first fixing frame is fixedly connected with the first electric push rod; the first electric push rod is fixedly connected with the underframe; the transmission disc is fixedly connected with the first telescopic rod; the transmission disc is in transmission connection with the arc toothed plate; the arc toothed plate is in transmission connection with the rack; the arc toothed plate is rotatably connected with the bottom frame; the rack is fixedly connected with the lifting slide block through a connecting block; the lifting slide block is connected with the lifting slide rail in a sliding manner; the lifting slide rail is fixedly connected with the underframe; the fixed frame is fixedly connected with the lifting slide block; the fixed frame is rotationally connected with the first transmission rod; the first transmission rod is fixedly connected with the column gear; the column gear is meshed with the first flat gear; the first flat gear is fixedly connected with the second transmission rod; the second transmission rod is rotatably connected with the underframe; the second transmission rod is fixedly connected with an output shaft of the small motor; the small motor is fixedly connected with the underframe; the connecting plate is fixedly connected with the first transmission rod; the connecting plate is rotationally connected with the third transmission rod; the second flat gear is fixedly connected with the first transmission rod; the second flat gear is meshed with the third flat gear; the third flat gear is fixedly connected with a third transmission rod; the third transmission rod is fixedly connected with the fourth flat gear; the fourth flat gear is meshed with the gear ring; the gear ring is fixedly connected with the fixed frame; a reaction barrel is arranged below the gear ring; the reaction barrel is fixedly connected with the bottom frame; the reaction barrel is fixedly connected with the valve; the aerator is fixedly connected with the third transmission rod; the two sides of the fixing frame are symmetrically provided with a combination of a lifting slide block and a lifting slide rail.
More preferably, the washing component comprises a main motor, a fourth transmission rod, a first transmission wheel, a second bevel gear, a third bevel gear, a fifth transmission rod, a second transmission wheel, a third transmission wheel, a second telescopic rod, a fourth bevel gear, a fifth bevel gear, a second fixed frame, a second electric push rod, a sixth bevel gear, a first translation sliding rail, a first extrusion roller, a first translation sliding block, a seventh bevel gear, a second translation sliding block, a second translation sliding rail, a bidirectional screw rod, a fifth flat gear, a first missing gear, a sixth transmission rod, a sixth flat gear, a secondary motor, a second missing gear, a seventh transmission rod, a seventh flat gear, a first electric sliding block, a first electric sliding rail, a filter bag, a second electric sliding block, a second electric sliding rail and a second extrusion roller; the main motor is fixedly connected with the fixing plate; the output shaft of the main motor is fixedly connected with a fourth transmission rod; the fourth transmission rod is rotatably connected with the underframe; the fourth transmission rod is fixedly connected with the first transmission wheel and the second bevel gear in sequence; the first driving wheel is connected with the drying component; the second bevel gear is meshed with the third bevel gear; the third bevel gear is fixedly connected with a fifth transmission rod; the fifth transmission rod is rotatably connected with the underframe; the fifth transmission rod is fixedly connected with the second transmission wheel; the second transmission wheel is in transmission connection with the third transmission wheel through a belt; the third driving wheel is fixedly connected with the second telescopic rod; the second telescopic rod is rotatably connected with the underframe; the second telescopic rod is fixedly connected with the fourth bevel gear and the fifth bevel gear in sequence; the second fixed frame is rotationally connected with the second telescopic rod; the second fixing frame is fixedly connected with the second electric push rod; the second electric push rod is fixedly connected with the underframe; the sixth bevel gear is fixedly connected with the second telescopic rod; a first translation sliding rail is arranged on the side surface of the second telescopic rod; the first translation sliding rail is fixedly connected with the underframe; the first translation sliding rail is in sliding connection with the first translation sliding block; two sides of the first extrusion roller are respectively in rotating connection with the first translation sliding block and the second translation sliding block; the seventh bevel gear is fixedly connected with the first extrusion roller; the second translation sliding block is in sliding connection with the second translation sliding rail; the second translation sliding rail is fixedly connected with the underframe; two groups of first translation sliding blocks, two groups of seventh bevel gears and two groups of second translation sliding blocks are symmetrically arranged; the other group of first translation sliding blocks and the second translation sliding blocks are respectively in rotating connection with two sides of the second extrusion roller; the other group of seventh bevel gears is fixedly connected with the second extrusion roller; the bidirectional screw rod is in rotary connection with the two groups of second translation sliding blocks through the connecting blocks; the bidirectional screw rod is rotationally connected with the underframe; the bidirectional screw rod is fixedly connected with the fifth flat gear; the fifth flat gear is in transmission connection with the first gear lacking; the first gear lacking part is fixedly connected with a sixth transmission rod; the sixth transmission rod is rotatably connected with the underframe; the sixth transmission rod is fixedly connected with the sixth flat gear; the sixth transmission rod is fixedly connected with an output shaft of the auxiliary motor; the auxiliary motor is fixedly connected with the underframe; a second gear lacking part is arranged on the side surface of the fifth flat gear; the second gear lack is fixedly connected with a seventh transmission rod; the seventh transmission rod is rotatably connected with the first electric sliding block; the seventh flat gear is fixedly connected with a seventh transmission rod; the first electric sliding block is in sliding connection with the first electric sliding rail; the first electric slide rail is fixedly connected with the underframe; a filtering pocket is arranged on the side surface of the first extrusion roller; a group of second electric slide blocks is fixedly connected to both sides of the filtering bag; the two groups of second electric sliding blocks are respectively connected with the two groups of second electric sliding rails in a sliding manner; two sets of second electric slide rails are fixedly connected with the underframe.
More preferably, the drying assembly comprises an eighth bevel gear, an eighth transmission rod, a first grinding disc, a drying barrel, an electric fan, a cylinder, a second grinding disc, a ninth transmission rod, a third fixing frame, an eighth flat gear, a third electric push rod, a fourth transmission wheel, a tenth transmission rod and a ninth flat gear; the eighth bevel gear is fixedly connected with an eighth transmission rod; the two groups of eighth transmission rods are fixedly connected with two sides of the first grinding disc respectively; the two groups of eighth transmission rods are rotatably connected with the drying barrel; the drying barrel is fixedly connected with the underframe; the electric fan is fixedly connected with the drying barrel; the cylinder is fixedly connected with the drying barrel; a second grinding disc is arranged above the first grinding disc; the second grinding disc is fixedly connected with the ninth transmission rod; the ninth transmission rod is rotationally connected with the third fixed frame; the third fixing frame is fixedly connected with a third electric push rod; the eighth flat gear is fixedly connected with the ninth transmission rod; the third electric push rod is fixedly connected with the underframe; a fourth driving wheel is arranged on the side surface of the ninth transmission rod; the fourth transmission wheel is in transmission connection with the first transmission wheel through a belt; the fourth driving wheel is fixedly connected with the tenth driving rod; the tenth transmission rod is rotatably connected with the underframe; and the tenth transmission rod is fixedly connected with the ninth flat gear.
More preferably, the side surface of the lifting slide rail is provided with a rectangular groove.
More preferably, a plurality of groups of semi-spheres are arranged on half of the outer ring surfaces of the first extrusion roll and the second extrusion roll, and the semi-spheres on the first extrusion roll and the semi-spheres on the second extrusion roll are staggered with each other.
More preferably, the semi-circular balls on the first grinding disc and the second grinding disc are arranged in a staggered mode.
More preferably, bristles are provided at both sides of the drying tub.
Compared with the prior art, the invention has the following advantages:
1. in order to solve the problems in the prior art, when mica paper waste is recycled, the waste is firstly subjected to impurity removal, then is cut into pieces and is soaked and decomposed by strong base, then materials subjected to pre-decomposition are taken out for pulping treatment, after pulping is finished, slurry is placed into a clean container, water is added for pulp conditioning, strong base and a dispersing agent are added for secondary soaking and decomposition, after secondary soaking and decomposition, aluminum salt is added, aeration equipment is used for aerating at the bottom of the slurry, floc is continuously generated in the container, and when the floc is not generated any more, the floc is taken out and repeatedly washed and then dried, and finally the floc is subjected to magnetic separation on the dried materials; when aeration equipment is used for aerating at the bottom of the slurry, the aeration equipment is still in the slurry, so that the slurry is difficult to fully generate flocculate, recoverable mica resources in the slurry are wasted, a large amount of slurry is remained after the flocculate is taken out, a large amount of water is consumed for directly washing the flocculate, the washed flocculate is dried to be easy to agglomerate, materials needing to be separated are difficult to collect when magnetic separation is carried out, and the subsequent problem of recovering the mica is influenced.
2. Designed flocculate and generated the subassembly, washing subassembly and stoving subassembly, prepare the during operation, place the device on the horizontal plane, switch on, material thick liquid and aluminium salt that will twice soak and open are added to the flocculate generation subassembly on the chassis that is supported by first support column and backing plate, controller control flocculate through the brace table generates the subassembly, drive flocculate generation subassembly operation by the washing subassembly that is connected with the fixed plate and continue to generate flocculate in the thick liquid, after the formation finishes, put flocculate generation subassembly into the washing subassembly and filter, make liquid collect in the waste liquid collecting box, the flocculate is stayed and is washed in the washing subassembly, the waste water that the washing produced is collected in the waste water tank, artifical take out flocculate after the washing is accomplished and put into stoving subassembly and dry.
3. When the invention is used, the aerator can reciprocate in the serous fluid to ensure that flocculate in the serous fluid is fully generated, then the flocculate taken out is extruded to extrude the residual serous fluid and then repeatedly wash the residual serous fluid, the washing water is reduced, and finally the washed flocculate is dried and ground at the same time, thereby avoiding the agglomeration from influencing the effect of subsequently recycling the mica.
Drawings
FIG. 1 is a schematic perspective view of a first embodiment of the present invention;
FIG. 2 is a schematic perspective view of a second embodiment of the present invention;
FIG. 3 is a schematic diagram of a first embodiment of the floc generation assembly of the present invention;
FIG. 4 is a schematic diagram of a second embodiment of the floc generation assembly of the present invention;
FIG. 5 is a perspective view of the washing assembly of the present invention;
FIG. 6 is a schematic perspective view of the drying assembly of the present invention;
FIG. 7 is a schematic view of a first partial perspective structure of the drying assembly of the present invention;
fig. 8 is a schematic diagram of a second partial three-dimensional structure of the drying assembly of the present invention.
Wherein the figures include the following reference numerals: 1. a bottom frame, 2, a support column, 3, a backing plate, 4, a flocculate generating component, 5, a washing component, 6, a drying component, 7, a support table, 8, a controller, 9, a fixing plate, 10, a waste liquid collecting box, 11, a waste water box, 401, a first bevel gear, 402, a first telescopic rod, 403, a first fixing frame, 404, a first electric push rod, 405, a transmission disc, 406, an arc toothed plate, 407, a rack, 408, a lifting slide block, 409, a lifting slide rail, 410, a fixing frame, 411, a first transmission rod, 412, a column gear, 413, a first flat gear, 414, a second transmission rod, 415, a small motor, 416, a connecting plate, 417, a second flat gear, 418, a third flat gear, 419, a third transmission rod, 420, a fourth flat gear, 421, a toothed ring, 422, a reaction barrel, 423, a valve, 424, an aerator, a main motor, 502, a fourth transmission rod, 503, a drying component, 7, a support table, 8, a controller, 9, a fixing plate, a lifting slide block, a rack, a lifting slide block, a lifting blocks, a lifting block, a lifting blocks, a lifting block, a lifting, A first driving wheel 504, a second bevel gear 505, a third bevel gear 506, a fifth driving rod 507, a second driving wheel 508, a third driving wheel 509, a second telescopic rod 510, a fourth bevel gear 511, a fifth bevel gear 512, a second fixing frame 513, a second electric push rod 514, a sixth bevel gear 515, a first translation slide rail 516, a first squeezing roller 517, a first translation slide block 518, a seventh bevel gear 519, a second translation slide block 520, a second translation slide rail 521, a bidirectional screw rod 522, a fifth flat gear 523, a first missing gear 524, a sixth driving rod 525, a sixth flat gear 526, a secondary motor 527, a second missing gear 528, a seventh driving rod 529, a seventh flat gear 530, a first electric slide block 531, a pocket, a first electric slide rail 532, a filter slide rail 533, a second electric slide block 534, a second electric slide rail 534, 535. a second squeeze roller 601, an eighth bevel gear 602, an eighth transmission rod 603, a first grinding disc 604, a drying barrel 605, an electric fan 606, a cylinder 607, a second grinding disc 608, a ninth transmission rod 609, a third fixing frame 610, an eighth flat gear 611, a third electric push rod 612, a fourth transmission wheel 613, a tenth transmission rod 614 and a ninth flat gear.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Example 1
A mica paper waste recycling and soaking slurry flocculate generating and treating device is shown in figures 1-8 and comprises an underframe 1, a support column 2, a backing plate 3, a flocculate generating component 4, a washing component 5, a drying component 6, a support table 7, a controller 8, a fixing plate 9, a waste liquid collecting box 10 and a waste water box 11; the bottom surface of the underframe 1 is connected with four groups of support columns 2; the chassis 1 is connected with a flocculate generating component 4; the chassis 1 is connected with the washing component 5; the underframe 1 is connected with the drying component 6; the underframe 1 is connected with a support table 7; the chassis 1 is connected with a waste liquid collecting box 10; the underframe 1 is connected with a waste water tank 11; the four groups of support columns 2 are respectively connected with the four groups of backing plates 3; the washing component 5 is connected with the drying component 6; the washing component 5 is connected with the fixed plate 9; the support table 7 is connected to a controller 8.
The working steps are as follows: when the device is prepared for work, the device is placed on a horizontal plane, a power supply is switched on, the material slurry which is decomposed by secondary soaking and aluminum salt are added into a flocculate generating component 4 on an underframe 1 supported by a first support column 2 and a backing plate 3, the flocculate generating component 4 is controlled by a controller 8 on a support table 7, the flocculate generating component 4 is driven by a washing component 5 connected with a fixed plate 9 to operate so as to continuously generate flocculates in the slurry, after the generation is finished, the flocculate generating component 4 is placed into the washing component 5 for filtration, the liquid is collected into a waste liquid collecting box 10, the flocculates are left in the washing component 5 for washing, the waste water generated by washing is collected into a waste water tank 11, and after the washing is finished, the flocculates are manually taken out and placed into a drying component 6 for drying; when the invention is used, the aerator 424 can reciprocate in the slurry to fully generate flocculates in the slurry, then the flocculates are extruded to extrude the residual slurry and then are repeatedly washed, the washing water is reduced, and finally the washed flocculates are dried and ground simultaneously, thereby avoiding the influence of agglomeration on the subsequent recovery of mica.
The flocculate generating component 4 comprises a first bevel gear 401, a first telescopic rod 402, a first fixing frame 403, a first electric push rod 404, a transmission disc 405, an arc toothed plate 406, a rack 407, a lifting slide block 408, a lifting slide rail 409, a fixing frame 410, a first transmission rod 411, a column gear 412, a first flat gear 413, a second transmission rod 414, a small motor 415, a connecting plate 416, a second flat gear 417, a third flat gear 418, a third transmission rod 419, a fourth flat gear 420, a toothed ring 421, a reaction barrel 422, a valve 423 and an aerator 424; the first bevel gear 401 is fixedly connected with the first telescopic rod 402; the first telescopic rod 402 is rotatably connected with the first fixing frame 403; the first telescopic rod 402 is rotatably connected with the underframe 1; the first fixing frame 403 is fixedly connected with the first electric push rod 404; the first electric push rod 404 is fixedly connected with the underframe 1; the transmission disc 405 is fixedly connected with the first telescopic rod 402; the transmission disc 405 is in transmission connection with the arc toothed plate 406; the arc toothed plate 406 is in transmission connection with the rack 407; the arc toothed plate 406 is rotatably connected with the underframe 1; the rack 407 is fixedly connected with the lifting slide block 408 through a connecting block; the lifting slide block 408 is in sliding connection with a lifting slide rail 409; the lifting slide rail 409 is fixedly connected with the underframe 1; the fixed frame 410 is fixedly connected with the lifting slide block 408; the fixed frame 410 is rotatably connected with the first driving rod 411; the first transmission rod 411 is fixedly connected with the column gear 412; the column gear 412 meshes with the first flat gear 413; the first flat gear 413 is fixedly connected with the second transmission rod 414; the second transmission rod 414 is rotatably connected with the underframe 1; the second transmission rod 414 is fixedly connected with an output shaft of the small-sized motor 415; the small motor 415 is fixedly connected with the chassis 1; the connecting plate 416 is fixedly connected with the first transmission rod 411; the connecting plate 416 is rotationally connected with a third driving rod 419; the second spur gear 417 is fixedly connected to the first transmission rod 411; the second pinion 417 meshes with the third pinion 418; the third flat gear 418 is fixedly connected with a third transmission rod 419; the third transmission rod 419 is fixedly connected with the fourth flat gear 420; the fourth flat gear 420 is meshed with the gear ring 421; the gear ring 421 is fixedly connected with the fixed frame 410; a reaction barrel 422 is arranged below the toothed ring 421; the reaction barrel 422 is fixedly connected with the bottom frame 1; the reaction barrel 422 is fixedly connected with the valve 423; the aerator 424 is fixedly connected with a third transmission rod 419; the fixed frame 410 is symmetrically provided with a combination of a lifting slider 408 and a lifting slide rail 409 at both sides.
Adding the material slurry and aluminum salt which are subjected to secondary soaking and decomposition into a reaction barrel 422, then extending a first electric push rod 404 to push a first fixing frame 403 to stretch a first telescopic rod 402, so that a first bevel gear 401 is meshed with a second bevel gear 504, the second bevel gear 504 rotates to drive the first bevel gear 401 to drive the first telescopic rod 402 to rotate, the first telescopic rod 402 drives a transmission disc 405 to rotate, because a convex block is arranged on the side surface of the transmission disc 405, the convex block synchronously slides in a sliding groove in an arc-shaped toothed plate 406 when doing circular track motion, further, the convex block on the side surface of the transmission disc 405 drives the arc-shaped toothed plate 406 to do reciprocating swing motion by taking a joint with a bottom frame 1 as a shaft, further, the arc-shaped toothed plate 406 drives a rack 407 to do reciprocating motion, the rack 407 drives a lifting slide block 408 to reciprocate in a lifting slide rail 409, and the lifting slide block 408 drives the fixing frame 410 and parts connected with the fixing frame 410 to do reciprocating lifting, at the same time, the small-sized motor 415 is started, the output shaft of the small-sized motor 415 drives the second transmission rod 414 to drive the first flat gear 413 to rotate, the first flat gear 413 drives the column gear 412 to drive the first transmission rod 411 to rotate, the first transmission rod 411 drives the second flat gear 417 to drive the third flat gear 418 to rotate, the third flat gear 418 drives the third transmission rod 419 to rotate in the connection plate 416, at the same time, the first transmission rod 411 drives the connection plate 416 to do circular motion, and further, the fourth flat gear 420 does circular motion and rotates in the toothed ring 421, so that the third transmission rod 419 does circular motion and rotates at the same time, and when the aerator is started, the third transmission rod 419 drives the aerator 424 to do circular motion and rotates at the same time, and the aerator is lifted and lowered in the slurry, so that the slurry in the reaction barrel 422 is fully generated until flocs are not generated in the reaction barrel 422 any more, and then the valve 423 is opened, discharging the slurry in the reaction tub 422 to the washing assembly 5; the assembly enables the material slurry decomposed by the secondary soaking and the aluminum salt to fully generate flocculate in the reaction barrel 422, and then the slurry is put into the washing assembly 5 for treatment.
The washing assembly 5 comprises a main motor 501, a fourth transmission rod 502, a first transmission wheel 503, a second bevel gear 504, a third bevel gear 505, a fifth transmission rod 506, a second transmission wheel 507, a third transmission wheel 508, a second telescopic rod 509, a fourth bevel gear 510, a fifth bevel gear 511, a second fixed frame 512, a second electric push rod 513, a sixth bevel gear 514, a first translation sliding rail 515, a first extrusion roller 516, a first translation sliding block 517, a seventh bevel gear 518, a second translation sliding block 519, a second translation sliding rail 520, a bidirectional screw 521, a fifth flat gear 522, a first missing gear 523, a sixth transmission rod 524, a sixth flat gear 525, a secondary motor 526, a second missing gear 527, a seventh transmission rod 528, a seventh flat gear 529, a first electric sliding block 530, a first electric sliding rail 531, a filtering pocket 532, a second electric sliding block 533, a second electric sliding rail 534 and a second extrusion roller 535; the main motor 501 is fixedly connected with the fixing plate 9; an output shaft of the main motor 501 is fixedly connected with a fourth transmission rod 502; the fourth transmission rod 502 is rotatably connected with the underframe 1; the fourth transmission rod 502 is fixedly connected with the first transmission wheel 503 and the second bevel gear 504 in sequence; the first driving wheel 503 is connected with the drying component 6; the second bevel gear 504 is meshed with a third bevel gear 505; the third bevel gear 505 is fixedly connected with a fifth transmission rod 506; the fifth transmission rod 506 is rotatably connected with the underframe 1; the fifth transmission rod 506 is fixedly connected with the second transmission wheel 507; the second transmission wheel 507 is in transmission connection with a third transmission wheel 508 through a belt; the third driving wheel 508 is fixedly connected with a second telescopic rod 509; the second telescopic rod 509 is rotatably connected with the underframe 1; the second telescopic rod 509 is fixedly connected with the fourth bevel gear 510 and the fifth bevel gear 511 in sequence; the second fixed frame 512 is rotatably connected with the second telescopic rod 509; the second fixing frame 512 is fixedly connected with a second electric push rod 513; the second electric push rod 513 is fixedly connected with the underframe 1; the sixth bevel gear 514 is fixedly connected with the second telescopic rod 509; a first translation slide rail 515 is arranged on the side surface of the second telescopic rod 509; the first translation slide rail 515 is fixedly connected with the chassis 1; the first translation slide rail 515 is in sliding connection with the first translation slider 517; two sides of the first extrusion roller 516 are respectively connected with a first translation sliding block 517 and a second translation sliding block 519 in a rotating way; a seventh bevel gear 518 is fixedly connected with the first extrusion roller 516; the second translation slider 519 is slidably connected to the second translation slide 520; the second translation sliding rail 520 is fixedly connected with the underframe 1; two groups of first translation sliding blocks 517, a seventh bevel gear 518 and a second translation sliding block 519 are symmetrically arranged; another set of the first translation slider 517 and the second translation slider 519 are respectively connected with the two sides of the second squeezing roller 535 in a rotating way; another group of seventh bevel gears 518 is fixedly connected with the second extrusion rollers 535; the bidirectional screw rod 521 is rotatably connected with two groups of second translation sliding blocks 519 through connecting blocks; the bidirectional screw rod 521 is rotatably connected with the underframe 1; the bidirectional screw rod 521 is fixedly connected with the fifth flat gear 522; the fifth flat gear 522 is in transmission connection with the first missing gear 523; the first third gear 523 is fixedly connected with the sixth transmission rod 524; the sixth transmission rod 524 is rotatably connected with the underframe 1; the sixth transmission rod 524 is fixedly connected with a sixth flat gear 525; the sixth transmission rod 524 is fixedly connected with the output shaft of the auxiliary motor 526; the auxiliary motor 526 is fixedly connected with the underframe 1; a second third flat gear 527 is arranged on the side surface of the fifth flat gear 522; the second third transmission gear 527 is fixedly connected with the seventh transmission rod 528; the seventh transmission rod 528 is rotatably connected with the first electric slider 530; the seventh flat gear 529 is fixedly connected with the seventh transmission rod 528; the first electric slider 530 is connected with the first electric slide rail 531 in a sliding manner; the first electric slide rail 531 is fixedly connected with the underframe 1; the side of the first extrusion roller 516 is provided with a filter pocket 532; a group of second electric sliding blocks 533 are fixedly connected to both sides of the filtering bag 532; the two sets of second electric sliding blocks 533 are respectively connected with the two sets of second electric sliding rails 534 in a sliding manner; two sets of second electronic slide rail 534 all carry out the rigid coupling with chassis 1.
The slurry in the reaction barrel 422 is discharged into the filtering pocket 532 for filtering, so that the liquid flows out and flocculates in the liquid are left in the filtering pocket 532, then two groups of second electric sliding blocks 533 slide in two groups of second electric sliding rails 534 at the same time respectively to drive the filtering pocket 532 to move to the middle of the first squeezing roller 516 and the second squeezing roller 535, then the auxiliary motor 526 is started, the auxiliary motor 526 drives the sixth transmission rod 524 to rotate by the output shaft of the auxiliary motor 526, the sixth transmission rod 524 drives the first missing gear 523 and the sixth flat gear 525 to rotate at the same time, the first missing gear 523 drives the fifth flat gear 522 to drive the two-way screw rod 521 to rotate intermittently, the two-way screw rod 521 drives the two groups of second translation sliding blocks 519 which are connected with the two-way screw rod through the connecting block to slide to the middle of the second translation sliding rail 520 at the same time, so that the first squeezing roller 516 and the second squeezing roller 535 approach each other to make the filtering pocket 532 shrivel, and make the two groups of first translation sliding blocks 517 slide to the middle of the first translation sliding rail 515 at the same time, further, two sets of seventh bevel gears 518 are respectively meshed with a fourth bevel gear 510 and a fifth bevel gear 511, then the secondary motor 526 is turned off, the main motor 501 is turned on, the output shaft of the main motor 501 drives a fourth transmission rod 502 to rotate, the fourth transmission rod 502 drives a first transmission wheel 503 and a second transmission wheel 504 to rotate simultaneously, the first transmission wheel 503 rotates to supply power for the operation and conveying part of the drying component 6, the second transmission wheel 504 rotates to supply power for the operation and conveying part of the floc generating component 4, the second transmission wheel 504 drives a third bevel gear 505 to drive a fifth transmission rod 506 to rotate, the fifth transmission rod 506 drives a second transmission wheel 507 to drive a third transmission wheel 508 to rotate, the third transmission wheel 508 drives a second telescopic rod 509 to rotate, the second telescopic rod 509 drives the fourth bevel gear 510, the fifth bevel gear 511 and the sixth bevel gear 514 to rotate simultaneously, the fourth bevel gear 510 and the fifth bevel gear 511 drive two sets of seventh bevel gears 518 to rotate, and further make the first squeeze roll 516 and the second squeeze roll 535 rotate reversely at the same time, when the first squeeze roll 516 and the second squeeze roll 535 rotate to a half without the semi-circular rotating protrusion to squeeze the flocculate in the filtering bag 532, squeeze out the residual liquid, then the secondary motor 526 rotates reversely to make the first missing gear 523 rotate reversely, and further make the bidirectional screw 521 rotate reversely, so as to make the two sets of seventh bevel gears 518 disconnect with the fourth bevel gear 510 and the fifth bevel gear 511, then the first electric slider 530 slides in the first electric slide rail 531 towards the first missing gear 523 to drive the seventh transmission rod 528 to move towards the first missing gear 523, so as to make the seventh flat gear 529 mesh with the sixth flat gear 525, then the secondary motor 526 rotates forwardly, then the sixth flat gear 525 drives the seventh flat gear 529 to drive the seventh flat gear 528 to rotate, the seventh transmission rod 528 drives the second missing gear 527 to rotate, the first lacking gear 523 and the second lacking gear 527 rotate to drive the fifth flat gear 522 to rotate in a reciprocating manner, so that the bidirectional screw rod 521 rotates in a reciprocating manner, two groups of first squeezing rollers 516 and second squeezing rollers 535 reciprocate, two groups of seventh bevel gears 518 are repeatedly meshed and disconnected with the fourth bevel gear 510 and the fifth bevel gear 511, the first squeezing rollers 516 and the second squeezing rollers 535 intermittently rotate, water is continuously sprayed into the filtering pocket 532 from the upper part of the filtering pocket 532 by the outside, flocs in the filtering pocket 532 are repeatedly squeezed and washed by matching with the first squeezing rollers 516 and the second squeezing rollers 535, and the flocs in the filtering pocket 532 are manually taken out and put into the drying component 6 for drying after washing is finished; the assembly extrudes the filtered flocs to extrude the residual slurry, and then repeatedly washes the flocs.
The drying assembly 6 comprises an eighth bevel gear 601, an eighth transmission rod 602, a first grinding disc 603, a drying tub 604, an electric fan 605, a cylinder 606, a second grinding disc 607, a ninth transmission rod 608, a third fixing frame 609, an eighth flat gear 610, a third electric push rod 611, a fourth transmission wheel 612, a tenth transmission rod 613 and a ninth flat gear 614; the eighth bevel gear 601 is fixedly connected with an eighth transmission rod 602; two groups of eighth transmission rods 602 are respectively fixedly connected with two sides of the first grinding disc 603; the two groups of eighth transmission rods 602 are rotatably connected with the drying barrel 604; the drying barrel 604 is fixedly connected with the chassis 1; the electric fan 605 is fixedly connected with the drying barrel 604; the cylinder 606 is fixedly connected with the drying barrel 604; a second grinding disc 607 is arranged above the first grinding disc 603; the second grinding disc 607 is fixedly connected with a ninth transmission rod 608; the ninth transmission rod 608 is rotatably connected with the third fixing frame 609; the third fixing frame 609 is fixedly connected with a third electric push rod 611; the eighth spur gear 610 is fixedly connected with the ninth transmission rod 608; the third electric push rod 611 is fixedly connected with the underframe 1; a fourth driving wheel 612 is arranged on the side surface of the ninth driving rod 608; the fourth transmission wheel 612 is in transmission connection with the first transmission wheel 503 through a belt; the fourth driving wheel 612 is fixedly connected with a tenth transmission rod 613; the tenth driving rod 613 is rotatably connected to the undercarriage 1; the tenth driving rod 613 is fixedly connected to the ninth spur gear 614.
The flocculate after being taken out is placed on a first grinding disc 603 in a drying barrel 604 for drying, then a third electric push rod 611 extends to push a third fixing frame 609 and parts connected with the third fixing frame 609 to move downwards, so that a second grinding disc 607 is matched with the first grinding disc 603, meanwhile, an eighth flat gear 610 is meshed with a ninth flat gear 614, then the washing component 5 transmits power to drive a fourth transmission wheel 612 to drive a tenth transmission rod 613 to rotate, the tenth transmission rod 613 drives the ninth flat gear 614 to drive an eighth flat gear 610 to rotate, the eighth flat gear 610 drives a ninth transmission rod 608 to drive the second grinding disc 607 to rotate, further, the flocculate on the first grinding disc 603 is ground, the situation that the flocculate is caked due to drying is avoided, after the drying is finished, the third electric push rod 611 is reset, then the second electric push rod 513 extends to push the second fixing frame 512 to enable a second telescopic rod 509 to be stretched, and further, the sixth bevel gear 514 is meshed with the eighth bevel gear 601, the eighth bevel gear 601 rotates to drive the eighth transmission rod 602 to drive the first grinding disc 603 to overturn, the first grinding disc 603 repeatedly contacts and rubs with bristles in the drying barrel 604 when overturning, so that the dried material on the first grinding disc 603 falls down, and meanwhile, the electric fan 605 is started to blow the fallen material out through the cylinder 606 so as to perform magnetic separation; the assembly dries and grinds the flocculated materials after washing, and then conveys the flocculated materials out for magnetic separation.
The side of the lifting slide rail 409 is provided with a rectangular groove.
So that the rack 407 drives the lifting slide block 408 to slide on the side surface of the lifting slide rail 409.
Half of the outer circumferential surfaces of the first pressing roll 516 and the second pressing roll 535 are each provided with a plurality of groups of semi-spherical balls, and the semi-spherical balls on the first pressing roll 516 and the second pressing roll 535 are staggered with each other.
So as to squeeze the flocs and wash the flocs.
The semi-spheres on the first grinding disc 603 and the second grinding disc 607 are staggered.
In order to grind the flocs.
Bristles are arranged on two sides of the drying barrel 604.
So as to brush down the flocs remaining on the first abrasive disk 603.
The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.
Claims (8)
1. A mica paper waste recycling and soaking slurry flocculate generating and treating device comprises an underframe, support columns, a base plate, a support table, a controller, a fixed plate, a waste liquid collecting box and a waste water box, and is characterized by also comprising a flocculate generating assembly, a washing assembly and a drying assembly; the bottom surface of the underframe is connected with four groups of support columns; the chassis is connected with the flocculate generating component; the chassis is connected with the washing component; the underframe is connected with the drying component; the underframe is connected with the support table; the chassis is connected with the waste liquid collecting box; the underframe is connected with a waste water tank; the four groups of support columns are respectively connected with the four groups of base plates; the washing component is connected with the drying component; the washing component is connected with the fixed plate; the support table is connected with the controller.
2. The mica paper waste recycling and soaking slurry floc generating and treating device as claimed in claim 1, wherein the floc generating assembly comprises a first bevel gear, a first telescopic rod, a first fixed frame, a first electric push rod, a transmission disc, an arc toothed plate, a rack, a lifting slide block, a lifting slide rail, a fixed frame, a first transmission rod, a column gear, a first flat gear, a second transmission rod, a small motor, a connecting plate, a second flat gear, a third transmission rod, a fourth flat gear, a toothed ring, a reaction barrel, a valve and an aerator; the first bevel gear is fixedly connected with the first telescopic rod; the first telescopic rod is rotatably connected with the first fixing frame; the first telescopic rod is rotatably connected with the underframe; the first fixing frame is fixedly connected with the first electric push rod; the first electric push rod is fixedly connected with the underframe; the transmission disc is fixedly connected with the first telescopic rod; the transmission disc is in transmission connection with the arc toothed plate; the arc toothed plate is in transmission connection with the rack; the arc toothed plate is rotatably connected with the bottom frame; the rack is fixedly connected with the lifting slide block through a connecting block; the lifting slide block is connected with the lifting slide rail in a sliding manner; the lifting slide rail is fixedly connected with the underframe; the fixed frame is fixedly connected with the lifting slide block; the fixed frame is rotationally connected with the first transmission rod; the first transmission rod is fixedly connected with the column gear; the column gear is meshed with the first flat gear; the first flat gear is fixedly connected with the second transmission rod; the second transmission rod is rotatably connected with the underframe; the second transmission rod is fixedly connected with an output shaft of the small motor; the small motor is fixedly connected with the underframe; the connecting plate is fixedly connected with the first transmission rod; the connecting plate is rotationally connected with the third transmission rod; the second flat gear is fixedly connected with the first transmission rod; the second flat gear is meshed with the third flat gear; the third flat gear is fixedly connected with a third transmission rod; the third transmission rod is fixedly connected with the fourth flat gear; the fourth flat gear is meshed with the gear ring; the gear ring is fixedly connected with the fixed frame; a reaction barrel is arranged below the gear ring; the reaction barrel is fixedly connected with the bottom frame; the reaction barrel is fixedly connected with the valve; the aerator is fixedly connected with the third transmission rod; the two sides of the fixing frame are symmetrically provided with a combination of a lifting slide block and a lifting slide rail.
3. The mica paper waste recovery soaking pulp floe generating and treating device according to claim 2, the washing component is characterized by comprising a main motor, a fourth transmission rod, a first transmission wheel, a second bevel gear, a third bevel gear, a fifth transmission rod, a second transmission wheel, a third transmission wheel, a second telescopic rod, a fourth bevel gear, a fifth bevel gear, a second fixed frame, a second electric push rod, a sixth bevel gear, a first translation sliding rail, a first extrusion roller, a first translation sliding block, a seventh bevel gear, a second translation sliding block, a second translation sliding rail, a bidirectional screw rod, a fifth flat gear, a first missing gear, a sixth transmission rod, a sixth flat gear, a secondary motor, a second missing gear, a seventh transmission rod, a seventh flat gear, a first electric sliding block, a first electric sliding rail, a filter bag, a second electric sliding block, a second electric sliding rail and a second extrusion roller; the main motor is fixedly connected with the fixing plate; the output shaft of the main motor is fixedly connected with a fourth transmission rod; the fourth transmission rod is rotatably connected with the underframe; the fourth transmission rod is fixedly connected with the first transmission wheel and the second bevel gear in sequence; the first driving wheel is connected with the drying component; the second bevel gear is meshed with the third bevel gear; the third bevel gear is fixedly connected with a fifth transmission rod; the fifth transmission rod is rotatably connected with the underframe; the fifth transmission rod is fixedly connected with the second transmission wheel; the second transmission wheel is in transmission connection with the third transmission wheel through a belt; the third driving wheel is fixedly connected with the second telescopic rod; the second telescopic rod is rotatably connected with the underframe; the second telescopic rod is fixedly connected with the fourth bevel gear and the fifth bevel gear in sequence; the second fixed frame is rotationally connected with the second telescopic rod; the second fixing frame is fixedly connected with the second electric push rod; the second electric push rod is fixedly connected with the underframe; the sixth bevel gear is fixedly connected with the second telescopic rod; a first translation sliding rail is arranged on the side surface of the second telescopic rod; the first translation sliding rail is fixedly connected with the underframe; the first translation sliding rail is in sliding connection with the first translation sliding block; two sides of the first extrusion roller are respectively in rotating connection with the first translation sliding block and the second translation sliding block; the seventh bevel gear is fixedly connected with the first extrusion roller; the second translation sliding block is in sliding connection with the second translation sliding rail; the second translation sliding rail is fixedly connected with the underframe; two groups of first translation sliding blocks, two groups of seventh bevel gears and two groups of second translation sliding blocks are symmetrically arranged; the other group of first translation sliding blocks and the second translation sliding blocks are respectively in rotating connection with two sides of the second extrusion roller; the other group of seventh bevel gears is fixedly connected with the second extrusion roller; the bidirectional screw rod is in rotary connection with the two groups of second translation sliding blocks through the connecting blocks; the bidirectional screw rod is rotationally connected with the underframe; the bidirectional screw rod is fixedly connected with the fifth flat gear; the fifth flat gear is in transmission connection with the first gear lacking; the first gear lacking part is fixedly connected with a sixth transmission rod; the sixth transmission rod is rotatably connected with the underframe; the sixth transmission rod is fixedly connected with the sixth flat gear; the sixth transmission rod is fixedly connected with an output shaft of the auxiliary motor; the auxiliary motor is fixedly connected with the underframe; a second gear lacking part is arranged on the side surface of the fifth flat gear; the second gear lack is fixedly connected with a seventh transmission rod; the seventh transmission rod is rotatably connected with the first electric sliding block; the seventh flat gear is fixedly connected with a seventh transmission rod; the first electric sliding block is in sliding connection with the first electric sliding rail; the first electric slide rail is fixedly connected with the underframe; a filtering pocket is arranged on the side surface of the first extrusion roller; a group of second electric slide blocks is fixedly connected to both sides of the filtering bag; the two groups of second electric sliding blocks are respectively connected with the two groups of second electric sliding rails in a sliding manner; two sets of second electric slide rails are fixedly connected with the underframe.
4. The mica paper waste recycling and soaking slurry floc generating and treating device as claimed in claim 3, wherein the drying component comprises an eighth bevel gear, an eighth transmission rod, a first grinding disc, a drying barrel, an electric fan, a cylinder, a second grinding disc, a ninth transmission rod, a third fixing frame, an eighth flat gear, a third electric push rod, a fourth transmission wheel, a tenth transmission rod and a ninth flat gear; the eighth bevel gear is fixedly connected with an eighth transmission rod; the two groups of eighth transmission rods are fixedly connected with two sides of the first grinding disc respectively; the two groups of eighth transmission rods are rotatably connected with the drying barrel; the drying barrel is fixedly connected with the underframe; the electric fan is fixedly connected with the drying barrel; the cylinder is fixedly connected with the drying barrel; a second grinding disc is arranged above the first grinding disc; the second grinding disc is fixedly connected with the ninth transmission rod; the ninth transmission rod is rotationally connected with the third fixed frame; the third fixing frame is fixedly connected with a third electric push rod; the eighth flat gear is fixedly connected with the ninth transmission rod; the third electric push rod is fixedly connected with the underframe; a fourth driving wheel is arranged on the side surface of the ninth transmission rod; the fourth transmission wheel is in transmission connection with the first transmission wheel through a belt; the fourth driving wheel is fixedly connected with the tenth driving rod; the tenth transmission rod is rotatably connected with the underframe; and the tenth transmission rod is fixedly connected with the ninth flat gear.
5. The apparatus as claimed in claim 4, wherein the elevating slide rail has a rectangular groove on its side surface.
6. The mica paper waste recycling and soaking pulp floc generating and treating device as claimed in claim 5, wherein a plurality of groups of semi-spheres are arranged on one half of the outer ring surface of the first squeeze roll and one half of the outer ring surface of the second squeeze roll, and the semi-spheres on the first squeeze roll and the semi-spheres on the second squeeze roll are staggered.
7. The mica paper waste recycling and soaking slurry floc generating and treating device as claimed in claim 6, wherein the semi-circular balls on the first grinding disk and the second grinding disk are arranged in a staggered manner.
8. The apparatus of claim 7 wherein bristles are disposed on both sides of the drying barrel.
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|---|---|---|---|---|
| CN114272839A (en) * | 2021-12-29 | 2022-04-05 | 江苏晶河电子科技有限公司 | Preparation method and preparation system of inorganic conductive glue |
| CN114272839B (en) * | 2021-12-29 | 2024-05-31 | 江苏晶河电子科技有限公司 | Preparation method and preparation system of inorganic conductive glue |
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| CN113428869B (en) | 2024-05-31 |
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