CN113352489A

CN113352489A - Anti-aggregation preparation method of high-polymer waterproof coiled material raw material

Info

Publication number: CN113352489A
Application number: CN202110581913.7A
Authority: CN
Inventors: 严碧英
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-05-27
Filing date: 2021-05-27
Publication date: 2021-09-07

Abstract

The invention relates to the field of high polymer materials, in particular to a preparation method for preventing aggregation of a high polymer waterproof coiled material raw material. The technical problem to be solved is as follows: provides a preparation method for preventing the aggregation of the raw materials of the high-molecular waterproof coiled material. The technical scheme of the invention is as follows: a macromolecule waterproof coiled material raw material anti-aggregation preparation method adopts the following processing equipment, and the processing equipment comprises a working bottom plate, a carrying frame, an operation control screen and the like; the working bottom plate is fixedly connected with the bearing frame; the work bottom plate is connected with the particle separation system. The invention achieves the effects of separating out small particles in the liquid asphalt, reducing the coating thickness of the asphalt on the surface of the small particles, tearing the small particles to enable the talcum powder inside to be scattered, and then grinding and mixing the scattered talcum powder and the asphalt to prevent secondary aggregation.

Description

Anti-aggregation preparation method of high-polymer waterproof coiled material raw material

Technical Field

The invention relates to the field of high polymer materials, in particular to a preparation method for preventing aggregation of a high polymer waterproof coiled material raw material.

Background

The building envelope is to prevent the infiltration of rain, snow and groundwater, to prevent the erosion of moisture, steam and other harmful gases and liquids in the air, and to prevent the infiltration of water supplies and drains, and these materials for infiltration, leakage and erosion are collectively called waterproof materials.

In the prior art, talcum powder is added into asphalt to prepare pasty liquid asphalt, the pasty liquid asphalt is used as an inorganic filler to be matched with subsequent processing and preparation, and the talcum powder cannot be completely dispersed in the asphalt due to the property of powder when being added into the asphalt, so that the prepared pasty liquid asphalt contains granular objects which are caused by the aggregation of the talcum powder, and the surface of the pasty liquid asphalt is raised during subsequent coating to influence the preparation of products.

In combination with the above problems, a method for preparing a polymer waterproof roll material with aggregation prevention is urgently needed to solve the above problems.

Disclosure of Invention

In order to overcome the defects that talcum powder is added into asphalt to prepare a high-molecular waterproof coiled material to prepare pasty liquid asphalt in the prior art, the pasty liquid asphalt is used as an inorganic filler to be matched with subsequent processing and preparation, the talcum powder cannot be completely dispersed in the asphalt due to the property of powder when being added into the asphalt, granular objects are contained in the prepared pasty liquid asphalt and are caused by the aggregation of the talcum powder, and the surface of the pasty liquid asphalt is raised when being subsequently coated to influence the preparation of a product, the technical problem to be solved is as follows: provides a preparation method for preventing the aggregation of the raw materials of the high-molecular waterproof coiled material.

The technical scheme of the invention is as follows: a high-molecular waterproof coiled material raw material anti-gathering preparation method adopts the following processing equipment, and the processing equipment comprises a working bottom plate, a carrying frame, an operation control screen, a servo motor, a stirring and blanking system, a particle separation system, a particle scattering system, a collecting box, a first fixing column, a second fixing column, a third fixing column and a fourth fixing column; the working bottom plate is fixedly connected with the bearing frame; the working bottom plate is connected with the particle separation system; the working bottom plate is connected with the particle scattering system; the working bottom plate is connected with the collecting box; the lower part of the working bottom plate is fixedly connected with the first fixing column and the second fixing column in sequence; the lower part of the working bottom plate is fixedly connected with a third fixing column and a fourth fixing column in sequence; the carrying frame is connected with the operation control screen; the bearing frame is connected with the servo motor through bolts; the receiving frame is connected with a stirring and blanking system; the servo motor is connected with the stirring and discharging system; the stirring and blanking system is connected with the particle separation system; the particle separation system is connected with the particle scattering system;

the preparation method of the polymer waterproof roll material for preventing aggregation comprises the following steps:

the method comprises the following steps: feeding and stirring, namely adding a proper amount of talcum powder and asphalt into a stirring and blanking system, and stirring the talcum powder and the asphalt through the stirring and blanking system to obtain a liquid asphalt paste;

step two: transferring the mixture in the step one into a particle separation system;

step three: separating particles, namely separating small particles in the liquid asphalt through a particle separation system, and reducing the coating thickness of the asphalt on the surfaces of the small particles;

step four: after the small particles are separated out in the third step, collecting the liquid asphalt into a collecting box;

step five: transferring the materials, namely feeding the particulate matters separated in the third step into a particle scattering system;

step six: breaking up the particles, tearing the small particles through a particle breaking system to enable the internal talcum powder to be scattered, and then grinding and mixing the scattered talcum powder and the asphalt to prevent secondary aggregation;

step seven: and D, collecting the talcum powder and the asphalt scattered in the step five into a particle scattering system.

As a preferred technical scheme of the invention, the stirring and blanking system comprises a first driving wheel, a second driving wheel, a first transmission shaft, a third driving wheel, a fourth driving wheel, a second transmission shaft, a first flat gear, a second flat gear, a stirring roller, a mixing barrel, a blanking pipe and an electric valve; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the first driving wheel is fixedly connected with an output shaft of the servo motor; the second driving wheel is fixedly connected with the first driving shaft; the outer ring surface of the second driving wheel is in transmission connection with a fourth driving wheel through a belt; the first transmission shaft is fixedly connected with the third transmission wheel; the first transmission shaft is rotatably connected with the bearing frame; the third driving wheel is connected with the particle separation system; the fourth driving wheel is fixedly connected with the second transmission shaft; the second transmission shaft is fixedly connected with the first flat gear; the second transmission shaft is rotatably connected with the bearing frame; the first flat gear and the second flat gear are meshed with each other; the second flat gear is fixedly connected with the stirring roller; the stirring roller is rotationally connected with the bearing frame; a mixing cylinder is arranged outside the stirring roller; the mixing cylinder is fixedly connected with the blanking pipe; the mixing cylinder is fixedly connected with the bearing frame; the blanking pipe is connected with an electric valve.

As a preferred technical scheme of the invention, the particle separation system comprises a first hexagonal rod, a fifth transmission wheel, a sixth transmission wheel, a transmission sleeve, a first bevel gear, a connecting plate, a first electric push rod, an F-shaped connecting frame, a second bevel gear, a lead screw, a first transmission block, a first connecting column, a filter plate, a second connecting column, a first toothed ring, a second transmission block, a polish rod, a first fixing plate, a second fixing plate, a toothed plate, a second electric push rod and a fixing seat; two sides of the outer surface of the first hexagonal rod are fixedly connected with the fifth driving wheel and the sixth driving wheel respectively; the first hexagonal rod is connected with the transmission sleeve in a sliding manner; the first hexagonal rod is rotatably connected with the F-shaped connecting frame; the outer ring surface of the fifth driving wheel is in transmission connection with the third driving wheel through a belt; the sixth driving wheel is connected with the particle scattering system; the transmission sleeve is fixedly connected with the first bevel gear; the transmission sleeve is rotationally connected with the connecting plate; the connecting plate is connected with the first electric push rod through a bolt; the first electric push rod is connected with the F-shaped connecting frame through a bolt; the F-shaped connecting frame is fixedly connected with the working bottom plate; a second bevel gear is arranged above the side surface of the first bevel gear; the second bevel gear is fixedly connected with the screw rod; the screw rod is in screwed connection with the first transmission block; two sides of the outer surface of the screw rod are respectively and rotatably connected with a group of second fixing plates; the first transmission block is rotatably connected with the first connecting column; the first connecting column is fixedly connected with the filter material plate; the filter plate is fixedly connected with the second connecting column; the second connecting column is fixedly connected with the first gear ring; the second connecting column is rotationally connected with the second transmission block; the second transmission block is in sliding connection with the polish rod; two sides of the outer surface of the polished rod are fixedly connected with a group of first fixing plates respectively; the two groups of first fixing plates are fixedly connected with the working bottom plate; the two groups of second fixing plates are fixedly connected with the working bottom plate; a pinion plate is arranged below the side surface of the first gear ring; the pinion plate is connected with the second electric push rod through a bolt; the second electric push rod is connected with the fixed seat through a bolt; the fixed seat is fixedly connected with the working bottom plate.

As a preferred technical scheme of the invention, the particle scattering system comprises a third transmission shaft, a seventh transmission wheel, a third horizontal gear, an L-shaped fixing plate, a second toothed ring, a first connecting circular tube, a lifting plate, a third electric push rod, a fourth electric push rod, a gathering ring, a first conical spine, a second connecting circular tube, a material receiving platform, a bulk material circular rail, a second conical spine, a third conical spine, a bearing seat and a collecting barrel; the outer surface of the third transmission shaft is fixedly connected with a seventh transmission wheel and a third flat gear in sequence; the third transmission shaft is rotatably connected with the L-shaped fixing plate; the outer ring surface of the seventh driving wheel is in transmission connection with the sixth driving wheel through a belt; the third spur gear is meshed with the second gear ring; the L-shaped fixing plate is fixedly connected with the working bottom plate; the second gear ring is fixedly connected with the first connecting circular pipe; the first connecting circular pipe is rotatably connected with the lifting plate; the lower part of the first connecting circular pipe is fixedly connected with the gathering ring; the two sides below the lifting plate are respectively connected with a third electric push rod and a fourth electric push rod through bolts; the third electric push rod and the fourth electric push rod are both connected with the working bottom plate through bolts; eight groups of first conical spines are equidistantly arranged on the periphery below the gathering ring; a second connecting circular pipe is arranged on the outer side of the first connecting circular pipe; the second connecting circular pipe is fixedly connected with the bulk material circular rail outer ring; the second connecting circular pipe is fixedly connected with the bearing seat; the material receiving platform is fixedly connected with the inner ring of the bulk material circular rail; the material receiving platform is fixedly connected with the collecting barrel through a bracket; eight groups of second conical pricks and third conical prick combinations are equidistantly arranged on the periphery inside the bulk material circular rail; the bearing seat is fixedly connected with the working bottom plate; a collecting cylinder is arranged below the bulk material circular rail; the collecting cylinder is connected with the working bottom plate through bolts.

As a preferred technical scheme of the invention, the filter material plate is in a circular cap shape.

As a preferred technical scheme of the invention, the material receiving platform is semi-ellipsoidal and the upper surface of the material receiving platform is a curved surface.

As a preferable technical scheme of the invention, the first conical thorn is vertically oriented, and the second conical thorn and the third conical thorn are combined to be horizontally oriented.

As a preferred technical scheme of the invention, the bottom of the bulk material circular rail is provided with an annular through groove.

Has the advantages that: the invention achieves the effects of separating small particles in liquid asphalt, reducing the coating thickness of the asphalt on the surface of the small particles, tearing the small particles to break off the internal talcum powder, then grinding and mixing the scattered talcum powder and the asphalt to prevent secondary aggregation, the invention firstly adds a proper amount of talcum powder and asphalt into a stirring and blanking system, then starts a servo motor to drive the stirring and blanking system, and stirs the talcum powder and the asphalt through the stirring and blanking system to enable the talcum powder and the asphalt to become liquid asphalt paste, but because the talcum powder is powder, part of the talcum powder is aggregated in asphalt colloid to form small particles of the talcum powder coated by the asphalt, then sends the mixture into a particle separation system, separates the small particles in the liquid asphalt through the particle separation system, and reduces the coating thickness of the asphalt on the surface of the small particles, after separating out the tiny particle, liquid pitch is collected to the collecting box in, then through stirring unloading system transmission granule piece-rate system, makes granule piece-rate system send into the tiny particle of separating to the granule system of breaing up in, breaks up the system through the granule and tears the tiny particle open, makes inside talcum powder effluvium, and the talcum powder that will effluvium and pitch are ground afterwards and are mixed, prevent the secondary gathering, and the talcum powder that will scatter at last is collected with pitch.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a schematic view of a first three-dimensional structure of the stirring and blanking system of the present invention;

FIG. 4 is a schematic view of a second perspective structure of the stirring and blanking system of the present invention;

FIG. 5 is a schematic view of a first perspective of the particle separation system of the present invention;

FIG. 6 is a schematic view of a second perspective of the particle separation system of the present invention;

FIG. 7 is a schematic view of a first perspective of the particle scattering system of the present invention;

FIG. 8 is a schematic view of a second embodiment of the particle scattering system of the present invention;

FIG. 9 is a schematic view of a first partial perspective of the particle dispersal system of the present invention;

FIG. 10 is a schematic view of a second partial perspective view of the particle scattering system of the present invention;

FIG. 11 is a third partial perspective view of the particle dispersal system of the present invention;

FIG. 12 is a schematic perspective view of a fourth partial embodiment of the particle scattering system of the present invention.

Labeled as: 1-a working bottom plate, 2-a receiving frame, 3-an operation control screen, 4-a servo motor, 5-a stirring and blanking system, 6-a particle separation system, 7-a particle scattering system, 8-a collection box, 9-a first fixed column, 10-a second fixed column, 11-a third fixed column, 12-a fourth fixed column, 501-a first driving wheel, 502-a second driving wheel, 503-a first driving shaft, 504-a third driving wheel, 505-a fourth driving wheel, 506-a second driving shaft, 507-a first flat gear, 508-a second flat gear, 509-a stirring roller, 5010-a mixing barrel, 5011-a discharging pipe, 5012-an electric valve, 601-a first hexagonal rod, 602-a fifth driving wheel and 603-a sixth driving wheel, 604-a transmission sleeve, 605-a first bevel gear, 606-a connecting plate, 607-a first electric push rod, 608-a F-shaped connecting frame, 609-a second bevel gear, 6010-a screw rod, 6011-a first transmission block, 6012-a first connecting column, 6013-a filter plate, 6014-a second connecting column, 6015-a first toothed ring, 6016-a second transmission block, 6017-a polish rod, 6018-a first fixing plate, 6019-a second fixing plate, 6020-a toothed wheel plate, 6021-a second electric push rod, 6022-a fixing seat, 701-a third transmission shaft, 702-a seventh transmission wheel, 702-a third gear, 704-an L-shaped fixing plate, 703-a second toothed ring, 706-a first connecting circular tube, 707-a lifting plate, 708-a third electric push rod, 709-a fourth electric push rod, 7010-gathering ring, 7011-first prick, 7012-second connecting round pipe, 7013-receiving table, 7014-bulk material ring rail, 7015-second prick, 7016-third prick, 7017-bearing seat, 7018-collecting cylinder.

Detailed Description

The invention is described in detail below with reference to the drawings and specific examples, but the invention is not limited thereto.

Example 1

A high-molecular waterproof coiled material raw material anti-gathering preparation method is shown in figures 1-12, and adopts processing equipment which comprises a working bottom plate 1, a bearing frame 2, an operation control screen 3, a servo motor 4, a stirring and blanking system 5, a particle separation system 6, a particle scattering system 7, a collection box 8, a first fixing column 9, a second fixing column 10, a third fixing column 11 and a fourth fixing column 12; the working bottom plate 1 is fixedly connected with the bearing frame 2; the working bottom plate 1 is connected with a particle separation system 6; the working bottom plate 1 is connected with a particle scattering system 7; the working bottom plate 1 is connected with the collecting box 8; the lower part of the working bottom plate 1 is fixedly connected with a first fixing column 9 and a second fixing column 10 in sequence; the lower part of the working bottom plate 1 is fixedly connected with a third fixing column 11 and a fourth fixing column 12 in sequence; the adapting frame 2 is connected with the operation control screen 3; the bearing frame 2 is connected with the servo motor 4 through bolts; the receiving frame 2 is connected with a stirring and blanking system 5; the servo motor 4 is connected with the stirring and blanking system 5; the stirring and blanking system 5 is connected with the particle separation system 6; the particle separation system 6 is connected with the particle scattering system 7;

the method comprises the following steps: feeding and stirring, namely adding a proper amount of talcum powder and asphalt into a stirring and blanking system 5, and stirring the talcum powder and the asphalt through the stirring and blanking system 5 to obtain a liquid asphalt paste;

step two: transferring the mixture in the step one into a particle separation system 6;

step three: particle separation, namely separating small particles in the liquid asphalt through a particle separation system 6 and reducing the coating thickness of the asphalt on the surfaces of the small particles;

step four: after the small particles are separated in the third step, the liquid asphalt is collected into a collecting box 8;

step five: transferring the materials, namely feeding the particulate matters separated in the third step into a particle scattering system 7;

step six: breaking up the particles, tearing the small particles through a particle breaking system 7 to break off the internal talcum powder, and grinding and mixing the broken-off talcum powder and the asphalt to prevent secondary aggregation;

step seven: and (4) collecting the talc powder and the asphalt scattered in the step five into a particle scattering system 7.

When the equipment is used, the equipment is horizontally placed at a position required to be used, the equipment is externally connected with a power supply, an operator carries out integral allocation on the equipment through an operation control screen 3, firstly, the equipment is operated and debugged, the equipment starts to work after the debugging is finished, firstly, a proper amount of talcum powder and asphalt are added into a stirring and blanking system 5, at the moment, a servo motor 4 is started to drive the stirring and blanking system 5, the talcum powder and the asphalt are stirred through the stirring and blanking system 5 to be changed into liquid asphalt paste, but because the talcum powder is powder, part of the talcum powder is gathered in an asphalt colloid to form small particles of asphalt-coated part of the talcum powder, then, the mixture is sent into a particle separation system 6, the small particles in the liquid asphalt are separated through the particle separation system 6, the coating thickness of the asphalt on the surface of the small particles is reduced, and after the small particles are separated, liquid asphalt is collected in collecting box 8, then through stirring 5 transmission granule piece-rate system 6 of unloading system, make granule piece-rate system 6 send into the granule system 7 of breaing up with the tiny particle of separating, break up the system 7 through the granule and tear the tiny particle open, make inside talcum powder effluvium, the talcum powder that will effluvium and pitch grind the mixture after that, prevent the secondary gathering, the talcum powder and the pitch that will scatter are collected at last, this equipment has reached and has separated the tiny particle in the liquid asphalt, and reduce the cladding thickness of tiny particle surface pitch, tear the tiny particle open, make inside talcum powder effluvium, the talcum powder that will effluvium and pitch grind the mixture after that, prevent the effect of secondary gathering.

The stirring and blanking system 5 comprises a first driving wheel 501, a second driving wheel 502, a first driving shaft 503, a third driving wheel 504, a fourth driving wheel 505, a second driving shaft 506, a first flat gear 507, a second flat gear 508, a stirring roller 509, a mixing barrel 5010, a blanking pipe 5011 and an electric valve 5012; the outer ring surface of the first driving wheel 501 is in transmission connection with a second driving wheel 502 through a belt; the first driving wheel 501 is fixedly connected with an output shaft of the servo motor 4; the second driving wheel 502 is fixedly connected with the first driving shaft 503; the outer annular surface of the second driving wheel 502 is in transmission connection with a fourth driving wheel 505 through a belt; the first transmission shaft 503 is fixedly connected with the third transmission wheel 504; the first transmission shaft 503 is rotatably connected with the receiving frame 2; the third driving wheel 504 is connected with the particle separation system 6; the fourth driving wheel 505 is fixedly connected with the second transmission shaft 506; the second transmission shaft 506 is fixedly connected with the first flat gear 507; the second transmission shaft 506 is rotatably connected with the bearing frame 2; the first and

second pinions

507 and 508 are engaged with each other; the second flat gear 508 is fixedly connected with the stirring roller 509; the stirring roller 509 is rotatably connected to the receiving frame 2; a mixing barrel 5010 is arranged outside the stirring roller 509; the mixing barrel 5010 is fixedly connected with the blanking pipe 5011; the mixing barrel 5010 is fixedly connected with the bearing frame 2; the blanking tube 5011 is connected to an electrically operated valve 5012.

Firstly, manually adding a proper amount of talcum powder and asphalt into a mixing barrel 5010, then starting a servo motor 4 to drive a first transmission wheel 501, further driving a second transmission wheel 502 to rotate through the first transmission wheel 501, wherein the second transmission wheel 502 is double-track, then driving a fourth transmission wheel 505 to drive a second transmission shaft 506 through the second transmission wheel 502, then driving a second transmission shaft 506 to drive a first flat gear 507 through the fourth transmission wheel 505, driving a second flat gear 508 to drive a stirring roller 509 through the first flat gear 507, stirring and mixing the talcum powder and the asphalt through the stirring roller 509, simultaneously driving a first transmission shaft 503 to drive a third transmission wheel 504 through the second transmission wheel 502, driving a particle separation system 6 through the third transmission wheel 504, fully mixing the talcum powder and the asphalt through the stirring of the stirring roller 509, after the mixing is finished, then controlling an electric valve 5012 to open, the mixture of talc powder and asphalt can fall through the blanking pipe 5011 into the particle separation system 6, which achieves thorough mixing of the talc powder and asphalt.

The particle separation system 6 comprises a first hexagonal prism 601, a fifth driving wheel 602, a sixth driving wheel 603, a driving sleeve 604, a first bevel gear 605, a connecting plate 606, a first electric push rod 607, an F-shaped connecting frame 608, a second bevel gear 609, a screw 6010, a first driving block 6011, a first connecting column 6012, a filter material plate 6013, a second connecting column 6014, a first gear ring 6015, a second driving block 6016, a polish rod 6017, a first fixing plate 6018, a second fixing plate 6019, a gear tooth plate 6020, a second electric push rod 6021 and a fixing seat 6022; two sides of the outer surface of the first hexagonal rod 601 are fixedly connected with a fifth driving wheel 602 and a sixth driving wheel 603 respectively; the first hexagonal rod 601 is connected with the transmission sleeve 604 in a sliding manner; the first hexagonal rod 601 is rotatably connected with the F-shaped connecting frame 608; the outer annular surface of the fifth driving wheel 602 is in driving connection with the third driving wheel 504 through a belt; the sixth driving wheel 603 is connected with the particle scattering system 7; the driving sleeve 604 is fixedly connected with a first bevel gear 605; the transmission sleeve 604 is rotatably connected with the connecting plate 606; the connection plate 606 is bolted to a first electric push rod 607; the first electric push rod 607 is connected with the F-shaped connecting frame 608 through a bolt; the F-shaped connecting frame 608 is fixedly connected with the working bottom plate 1; a second bevel gear 609 is arranged above the side surface of the first bevel gear 605; the second bevel gear 609 is fixedly connected with the screw 6010; the screw 6010 is screwed with the first transmission block 6011; two sides of the outer surface of the screw 6010 are rotatably connected with a group of second fixing plates 6019 respectively; the first transmission block 6011 is rotatably connected to the first connecting column 6012; the first connecting column 6012 is fixedly connected with the filter material plate 6013; the filter material plate 6013 is fixedly connected with a second connecting column 6014; the second connecting column 6014 is fixedly connected with the first toothed ring 6015; the second connecting column 6014 is rotatably connected with a second transmission block 6016; the second transmission block 6016 is slidably connected with the polish rod 6017; two sides of the outer surface of the polish rod 6017 are fixedly connected with a group of first fixing plates 6018 respectively; the two groups of first fixing plates 6018 are fixedly connected with the working base plate 1; the two groups of second fixing plates 6019 are fixedly connected with the working base plate 1; a pinion plate 6020 is arranged below the side surface of the first gear ring 6015; the gear tooth plate 6020 is in bolt connection with the second electric push rod 6021; the second electric push rod 6021 is in bolt connection with the fixed seat 6022; the fixed seat 6022 is fixedly connected with the working bottom plate 1.

When the mixture of the talcum powder and the asphalt falls into the filter material plate 6013, the particles inside the liquid asphalt are intercepted by the filter material plate 6013, and because the filter material plate 6013 is in a round cap shape, the particles can gather at the inner bottom of the filter material plate 6013, so that the particles are continuously washed by the falling of the subsequent liquid asphalt, the thickness of the asphalt coated on the outer surface of the talcum powder is reduced, the filtered liquid asphalt flows down to the collection box 8 for collection, after the filtering is completed, the first electric push rod 607 is started to push the connecting plate 606 upwards, the connecting plate 606 drives the transmission sleeve 604 and the first bevel gear 605 to move upwards integrally, the transmission sleeve 604 slides on the surface of the first hexagonal prism rod 601, the first bevel gear 605 moves upwards to a position where the first bevel gear 605 is meshed with the second bevel gear 609, at this time, the fifth driving wheel 602 is driven by the third driving wheel 504, and the first prism 601 is driven by the fifth driving wheel 602 to drive the transmission sleeve 604, then, a first bevel gear 605 is driven by a transmission sleeve 604 to transmit a second bevel gear 609, meanwhile, a sixth driving wheel 603 is driven by a first hexagonal rod 601 to rotate, the particle scattering system 7 is driven by the sixth driving wheel 603, at the moment, a lead screw 6010 is driven by the second bevel gear 609 to rotate, and then a first driving block 6011 screwed with the lead screw 6010 is driven by the lead screw 6010 to move, so that the first driving block 6011, a first connecting column 6012, a filter material plate 6013, a second connecting column 6014, a first toothed ring 6015 and a second driving block 6016 integrally move, meanwhile, the second driving block 6016 slides on the surface of the polish rod 6017, a second electric push rod 6021 is started to adjust the height of the toothed plate 6020, so that the first toothed ring 6015 can be meshed with the toothed plate 6020 in the moving process, so that the first toothed ring 6015 rotates while moving, and then the second connecting column 6014 is driven by the first toothed ring 6015 to rotate, and then drive filter material board 6013 and first spliced pole 6012 through second spliced pole 6014 and rotate in step, when filter material board 6013 rotates to the specified angle, through the height of second electric putter 6021 adjustment wheel pinion rack 6020, make teeth of a cogwheel board 6020 no longer contact with first ring gear 6015, filter material board 6013 stall, then filter material board 6013 rotates to can pour the particulate matter into to the granule system 7 of breaing up this moment, this system has realized separating out the tiny particle in the liquid pitch, and reduce the cladding thickness of tiny particle surface pitch.

The particle scattering system 7 comprises a third transmission shaft 701, a seventh transmission wheel 702, a third pinion 703, an L-shaped fixing plate 704, a second gear ring 705, a first connecting circular tube 706, a lifting plate 707, a third electric push rod 708, a fourth electric push rod 709, a gathering ring 7010, a first cone barb 7011, a second connecting circular tube 7012, a material receiving platform 7013, a bulk material circular rail 7014, a second cone barb 7015, a third cone barb 7016, a bearing seat 7017 and a collecting cylinder 7018; the outer surface of the third transmission shaft 701 is fixedly connected with a seventh transmission wheel 702 and a third flat gear 703 in sequence; the third transmission shaft 701 is rotatably connected with the L-shaped fixing plate 704; the outer annular surface of the seventh driving wheel 702 is in transmission connection with the sixth driving wheel 603 through a belt; the third spur gear 703 is intermeshed with a second ring gear 705; the L-shaped fixing plate 704 is fixedly connected with the working bottom plate 1; the second gear ring 705 is fixedly connected with the first connecting circular tube 706; the first connecting circular pipe 706 is rotatably connected with the lifting plate 707; the lower part of the first connecting circular pipe 706 is fixedly connected with the gathering ring 7010; two sides below the lifting plate 707 are respectively connected with a third electric push rod 708 and a fourth electric push rod 709 through bolts; the third electric push rod 708 and the fourth electric push rod 709 are both in bolt connection with the working base plate 1; eight groups of first stabs 7011 are equidistantly arranged on the periphery below the gathering ring 7010; a second connecting circular tube 7012 is arranged outside the first connecting circular tube 706; the second connecting circular tube 7012 is fixedly connected with the outer ring of the bulk material circular rail 7014; the second round connecting pipe 7012 is fixedly connected with the bearing seat 7017; the material receiving table 7013 is fixedly connected with the inner ring of the bulk material circular rail 7014; the material receiving table 7013 is fixedly connected with the collecting cylinder 7018 through a support; eight groups of second cones 7015 and third cones 7016 are equidistantly arranged in one circle inside the bulk material circular rail 7014; the bearing seat 7017 is fixedly connected with the working bottom plate 1; a collecting cylinder 7018 is arranged below the bulk material circular rail 7014; the collecting cylinder 7018 is bolted to the work base 1.

When the filter material board 6013 moves and rotates to be aligned with the first connecting circular tube 706 just below, the filtered particulate matters are poured into the first connecting circular tube 706, because the material receiving table 7013 is semi-ellipsoidal and the upper surface is curved, when the particulate matters fall onto the material receiving table 7013, the particulate matters scatter around and further fall into the bulk material circular rail 7014, at this time, the seventh driving wheel 702 is driven by the sixth driving wheel 603 to rotate, the third driving shaft 701 is driven by the seventh driving wheel 702 to drive the third flat gear 703, the second gear ring 705 engaged with the third flat gear 703 is driven by the third flat gear 703 to rotate, the first connecting circular tube 706 is driven by the second gear ring 705 to rotate, the aggregation ring 7010 and the first taper spine 7011 are driven to integrally rotate by the first connecting circular tube 706, the particulate matters can be stirred by the first taper spine 7011, and the particulate matters are intercepted by the second taper spines 7015 and the third taper spines 7016 in the bulk material circular rail 7014, when the first spur 7011 pushes the particles to the second spur 7015 and the third spur 7016, the first spur 7011, the second spur 7015 and the third spur 7016 are combined to extrude the particles in two perpendicular directions, so that the first spur 7011, the second spur 7015 and the third spur 7016 cut the particles to scatter the talc powder inside the particles, then the third electric push rod 708 and the fourth electric push rod 709 are started to pull the lifting plate 707 downward, so that the first connecting circular tube 706, the gathering ring 7010 and the first spur 7011 are moved downward integrally, the bottom of the bulk material circular rail 7014 is provided with an annular through groove, the first spur 7011 passes through the annular through groove and then the bottom of the gathering ring 7010 is in contact with the bulk material circular rail 7014, and the third spur 703 and the second spur 705 are always in a meshed state, that is, the bottom of the gathering ring 7010 is in contact with the bulk material circular rail 7014 and then keeps rotating, the bottom of the gathering ring 7010 is a curved surface and is matched with the bulk material circular rail 7014, then can grind the particulate matter after breaking open through set ring 7010 and bulk cargo circular rail 7014 cooperation, scatter the talcum powder, prevent the secondary gathering to the mixture of talcum powder and pitch after grinding open can flow out through the groove that runs through of bulk cargo circular rail 7014, collect to the collecting vessel 7018 in, this system has realized tearing open the tiny particle, makes inside talcum powder spill, grinds the mixture with the talcum powder and the pitch of spilling out after that, prevents the secondary gathering.

The filter material plate 6013 is in the shape of a circular cap.

The particles can be gathered at the inner bottom of the filter material plate 6013, so that the particles are continuously washed by the falling of the subsequent liquid asphalt, and the thickness of the asphalt coated on the outer surface of the talcum powder is reduced.

The material receiving table 7013 is semi-ellipsoidal and has a curved upper surface.

When the particles fall onto the material receiving table 7013, the particles are scattered all around and further fall into the bulk material circular rail 7014.

The first spur 7011 is oriented vertically and the second spur 7015 and the third spur 7016 are combined in a horizontal orientation.

The first spur 7011 in combination with the second spur 7015 and the third spur 7016 squeeze the particulate matter against each other in two perpendicular directions such that the first spur 7011 and the second spur 7015 and the third spur 7016 scrape the particulate matter apart.

The bottom of the bulk material circular rail 7014 is provided with an annular through groove.

The first barbs 7011 can be inserted through the bottom surface of the rear gathering ring 7010 of the annular through-groove to contact the bulk material annular rail 7014.

It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.

Claims

1. A preparation method for preventing the gathering of a high-molecular waterproof coiled material raw material adopts the following processing equipment, and the processing equipment comprises a working bottom plate, a carrying frame, an operation control screen, a servo motor, a collecting box, a first fixing column, a second fixing column, a third fixing column and a fourth fixing column; the method is characterized in that: the device also comprises a stirring and blanking system, a particle separation system and a particle scattering system; the working bottom plate is fixedly connected with the bearing frame; the working bottom plate is connected with the particle separation system; the working bottom plate is connected with the particle scattering system; the working bottom plate is connected with the collecting box; the lower part of the working bottom plate is fixedly connected with the first fixing column and the second fixing column in sequence; the lower part of the working bottom plate is fixedly connected with a third fixing column and a fourth fixing column in sequence; the carrying frame is connected with the operation control screen; the bearing frame is connected with the servo motor through bolts; the receiving frame is connected with a stirring and blanking system; the servo motor is connected with the stirring and discharging system; the stirring and blanking system is connected with the particle separation system; the particle separation system is connected with the particle scattering system;

2. The method for preparing the polymer waterproof roll material according to claim 1, wherein the method comprises the following steps: the stirring and blanking system comprises a first driving wheel, a second driving wheel, a first transmission shaft, a third driving wheel, a fourth driving wheel, a second transmission shaft, a first flat gear, a second flat gear, a stirring roller, a mixing barrel, a blanking pipe and an electric valve; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the first driving wheel is fixedly connected with an output shaft of the servo motor; the second driving wheel is fixedly connected with the first driving shaft; the outer ring surface of the second driving wheel is in transmission connection with a fourth driving wheel through a belt; the first transmission shaft is fixedly connected with the third transmission wheel; the first transmission shaft is rotatably connected with the bearing frame; the third driving wheel is connected with the particle separation system; the fourth driving wheel is fixedly connected with the second transmission shaft; the second transmission shaft is fixedly connected with the first flat gear; the second transmission shaft is rotatably connected with the bearing frame; the first flat gear and the second flat gear are meshed with each other; the second flat gear is fixedly connected with the stirring roller; the stirring roller is rotationally connected with the bearing frame; a mixing cylinder is arranged outside the stirring roller; the mixing cylinder is fixedly connected with the blanking pipe; the mixing cylinder is fixedly connected with the bearing frame; the blanking pipe is connected with an electric valve.

3. The method for preparing the polymer waterproof roll material with the aggregation prevention function as claimed in claim 2, wherein the method comprises the following steps: the particle separation system comprises a first hexagonal prism bar, a fifth driving wheel, a sixth driving wheel, a driving sleeve, a first bevel gear, a connecting plate, a first electric push rod, an F-shaped connecting frame, a second bevel gear, a screw rod, a first driving block, a first connecting column, a filter plate, a second connecting column, a first gear ring, a second driving block, a polish rod, a first fixing plate, a second fixing plate, a pinion plate, a second electric push rod and a fixing seat; two sides of the outer surface of the first hexagonal rod are fixedly connected with the fifth driving wheel and the sixth driving wheel respectively; the first hexagonal rod is connected with the transmission sleeve in a sliding manner; the first hexagonal rod is rotatably connected with the F-shaped connecting frame; the outer ring surface of the fifth driving wheel is in transmission connection with the third driving wheel through a belt; the sixth driving wheel is connected with the particle scattering system; the transmission sleeve is fixedly connected with the first bevel gear; the transmission sleeve is rotationally connected with the connecting plate; the connecting plate is connected with the first electric push rod through a bolt; the first electric push rod is connected with the F-shaped connecting frame through a bolt; the F-shaped connecting frame is fixedly connected with the working bottom plate; a second bevel gear is arranged above the side surface of the first bevel gear; the second bevel gear is fixedly connected with the screw rod; the screw rod is in screwed connection with the first transmission block; two sides of the outer surface of the screw rod are respectively and rotatably connected with a group of second fixing plates; the first transmission block is rotatably connected with the first connecting column; the first connecting column is fixedly connected with the filter material plate; the filter plate is fixedly connected with the second connecting column; the second connecting column is fixedly connected with the first gear ring; the second connecting column is rotationally connected with the second transmission block; the second transmission block is in sliding connection with the polish rod; two sides of the outer surface of the polished rod are fixedly connected with a group of first fixing plates respectively; the two groups of first fixing plates are fixedly connected with the working bottom plate; the two groups of second fixing plates are fixedly connected with the working bottom plate; a pinion plate is arranged below the side surface of the first gear ring; the pinion plate is connected with the second electric push rod through a bolt; the second electric push rod is connected with the fixed seat through a bolt; the fixed seat is fixedly connected with the working bottom plate.

4. The method for preparing the polymer waterproof roll material according to claim 3, wherein the method comprises the following steps: the particle scattering system comprises a third transmission shaft, a seventh transmission wheel, a third horizontal gear, an L-shaped fixing plate, a second gear ring, a first connecting circular tube, a lifting plate, a third electric push rod, a fourth electric push rod, a gathering ring, a first conical burr, a second connecting circular tube, a material receiving platform, a bulk material circular rail, a second conical burr, a third conical burr, a bearing seat and a collecting barrel; the outer surface of the third transmission shaft is fixedly connected with a seventh transmission wheel and a third flat gear in sequence; the third transmission shaft is rotatably connected with the L-shaped fixing plate; the outer ring surface of the seventh driving wheel is in transmission connection with the sixth driving wheel through a belt; the third spur gear is meshed with the second gear ring; the L-shaped fixing plate is fixedly connected with the working bottom plate; the second gear ring is fixedly connected with the first connecting circular pipe; the first connecting circular pipe is rotatably connected with the lifting plate; the lower part of the first connecting circular pipe is fixedly connected with the gathering ring; the two sides below the lifting plate are respectively connected with a third electric push rod and a fourth electric push rod through bolts; the third electric push rod and the fourth electric push rod are both connected with the working bottom plate through bolts; eight groups of first conical spines are equidistantly arranged on the periphery below the gathering ring; a second connecting circular pipe is arranged on the outer side of the first connecting circular pipe; the second connecting circular pipe is fixedly connected with the bulk material circular rail outer ring; the second connecting circular pipe is fixedly connected with the bearing seat; the material receiving platform is fixedly connected with the inner ring of the bulk material circular rail; the material receiving platform is fixedly connected with the collecting barrel through a bracket; eight groups of second conical pricks and third conical prick combinations are equidistantly arranged on the periphery inside the bulk material circular rail; the bearing seat is fixedly connected with the working bottom plate; a collecting cylinder is arranged below the bulk material circular rail; the collecting cylinder is connected with the working bottom plate through bolts.

5. The method for preparing the polymer waterproof roll material according to claim 3, wherein the method comprises the following steps: the filter plate is in a circular cap shape.

6. The method for preparing the polymer waterproof roll material according to claim 4, wherein the method comprises the following steps: the material receiving platform is semi-ellipsoidal and the upper surface is a curved surface.

7. The method for preparing the polymer waterproof roll material according to claim 4, wherein the method comprises the following steps: the first prick is vertically oriented, and the second prick and the third prick are combined to be horizontally oriented.

8. The method for preparing the polymer waterproof roll material according to claim 4, wherein the method comprises the following steps: the bottom of the bulk material circular rail is provided with a circular through groove.