A kind of ultra-fine ball mill of producing for high viscosity nano color paste
Technical field
The utility model relates to chemical liquid stock production and processing technical field, specifically a kind of ultra-fine ball mill of producing for high viscosity nano color paste.
Background technology
Ball mill claims again sand mill, in stationary cylinder pulverizing chamber, the machine in order to grind of several rotary grinding discs and all kinds of abrasive bodies is housed, being widely used in the industrial circles such as paint, dyestuff, ink, is the high-efficient grinding dispersing apparatus that gas-liquid-solid material is carried out to wet type stirring, sand milling, dispersion.Existing ball mill, in the milled processed for high viscosity nano color paste, often damage machine itself greatly because grinding resistance, or grinding effect is not good on the market, meticulous not.
Utility model content
Technical purpose of the present utility model is to provide a kind of ultra-fine ball mill of producing for high viscosity nano color paste, solves mill base and grinds offending problem.
Concrete technical scheme of the present utility model is as follows: a kind of ultra-fine ball mill of producing for high viscosity nano color paste, comprise and there is the grinding chamber of charging aperture and discharging opening and be located at the lapping device in described grinding chamber, described lapping device comprises the stator that is fixedly connected in described grinding chamber and the rotor for spin finishing slurry, described rotor has cavity, described stator is positioned at described cavity and does not contact described rotor inner wall, described stator has the hollow road being communicated with described discharging opening, described stator is provided with the grinding sieve for levigate slurry, described rotor is provided with the abrasive brush for levigate slurry.
As preferably, described grinding sieve comprises and is fixedly connected on the stator on described stator outer wall and is fixedly connected on the screen cloth cover between described stator.
As preferably, in described screen cloth cover, be placed with multiple can be with pulp flow free-pouring grinding bead, the diameter of described grinding bead is greater than the mesh diameter that described screen cloth puts.
As preferably, in described screen cloth cover, be fixedly connected with many horizontal and/or longitudinal fixed bars, on described fixed bar, cross-under has multiple grinding bead.
As preferably, described abrasive brush comprises and is fixedly connected on the fixed block of described cavity inwall and/or outer wall and is fixedly connected on the brush silk on described fixed block.
As preferably, on described fixed block, have multiple through holes.
As preferably, described stator one end is also provided with the separator for separating of purification slurry, and described separator is inner to be communicated with described hollow road.
As preferably, medium import, the other end that described grinding chamber one end is also provided with for throwing in abrasive media are also provided with the media outlet for discharging abrasive media.
As preferably, between described rotor and described grinding chamber, leave a blank and form the first grinding chamber, between described rotor and described stator, leave a blank and form the second grinding chamber.
Technological merit of the present utility model is described ultra-fine ball mill compact conformation, easy to use, can make the multi-level grinding of slurry through multiple grinding chambers, effectively process high viscosity mill base, reduce and grind resistance, extend machine service life, greatly improve the fine degree of slurry, further promote grinding efficiency.
Accompanying drawing explanation
Fig. 1 is the structural representation of the utility model embodiment;
Fig. 2 is the partial structurtes schematic diagram of the utility model embodiment;
Fig. 3 is structural representation local in the utility model embodiment mono-;
Fig. 4 is structural representation local in the utility model embodiment bis-;
In figure, each toponym corresponding to numbering is respectively: 1-grinding chamber, 11-charging aperture, 12-discharging opening, the import of 13-medium, 14-media outlet, 15-the first grinding chamber, 16-the second grinding chamber, 2-stator, 21-hollow road, 22-grinds sieve, 221-stator, 222-screen cloth cover, 23-separator, 3-rotor, 31-cavity, 32-abrasive brush, 321-fixed block, 322-brushes silk, 4-grinding bead.
Specific embodiments
Below in conjunction with accompanying drawing, by specific embodiment, the utility model is described in further detail:
Embodiment mono-: see Fig. 1, a kind of embodiment of the ultra-fine ball mill of producing for high viscosity nano color paste, comprise and have the grinding chamber 1 of charging aperture 11 and discharging opening 12 and be located at the lapping device in grinding chamber 1, medium import 13, the other end that grinding chamber 1 one end is also provided with for throwing in the abrasive media that ground slurry uses are also provided with the media outlet 14 for discharging abrasive media.Lapping device comprises the stator 2 that is fixedly connected in grinding chamber 1 and the rotor 3 for spin finishing slurry, rotor 3 has cavity 31, stator 2 is positioned at cavity 31 and does not contact rotor 3 inwalls, between rotor 3 and grinding chamber 1, leave a blank and form the first grinding chamber 15, between rotor 3 and stator 2, leaving a blank and form the second grinding chamber 16.
Referring to Fig. 2, Fig. 3, stator 2 has the hollow road 21 being communicated with discharging opening 12 again, and stator 2 is provided with the grinding sieve 22 for levigate slurry, and stator 2 one end are also provided with the separator 23 for separating of purification slurry, and separator 23 is inner to be communicated with hollow road 21.Grind sieve 22 and comprise that the screen cloth that is fixedly connected on the stator 221 on stator 2 outer walls and be fixedly connected between stator 221 overlaps 222.In screen cloth cover 222, be placed with multiple grinding bead that can move freely with pulp flow 4 as bulky grain zirconium oxide bead etc., the diameter of grinding bead 4 is greater than screen cloth and overlaps the mesh diameter on 222.Rotor 3 is provided with the abrasive brush 32 for levigate slurry.Abrasive brush 32 comprises and is fixedly connected on the fixed block 321 of cavity 31 inwalls and/or outer wall and is fixedly connected on the brush silk 322 on fixed block 321.On fixed block 321, have multiple through holes.
When ball mill work, pass into mill base to be processed from charging aperture 11, add abrasive media as zirconium pearl from medium import 13, ceramic bead etc., mixed slurry is full of the first grinding chamber 15 between rotor 3 outer walls and grinding chamber 1 gradually, external motor rotor driven 3 rotates simultaneously, it is loose that abrasive brush 32 on rotor 3 outer walls starts that the slurry in the first grinding chamber 15 is tentatively blended to mill, the brush silk 322 of abrasive brush 32 can be wire, plastic wire, hair etc., through hole on the fixed block 321 of abrasive brush 32 makes abrasive brush 32 be convenient to slurry in the time of Stirring to pass through, reduce the stirring resistance producing because of the high viscosity of slurry, slurry also bumps with through hole in the time that high velocity stream is crossed through hole simultaneously, shear, pulverize, strengthen the grinding effect of slurry, slurry is full of the second grinding chamber 16 between rotor 3 inwalls and stator 2 outer walls gradually afterwards, abrasive brush 32 on rotor 3 inwalls is rotated further and carries out regrind, and constantly turn slurry, and grinding on stator 2 outer walls sieve 22 just in time impacts with the slurry that turns rotation, screen cloth cover 222 can carry out an effect of breaking up filtering to slurry because of self densely covered mesh, inner grinding bead 4 is freely stirred with pulp flow simultaneously, be that slurry is further polished, pulverize, above-mentioned all designs with holes because non-solid structure to tackle full-bodied slurry very practical, efficiently, can not produce too large resistance and damage equipment, and that the particle of slurry will be polished is meticulousr.Last slurry sees through separator 23 again and separates with abrasive media, and meticulous with particle, to mix well loose mill base and enter from separator 23 inside stator 2 hollow road 21, finally flows out from discharging opening 12.Can add cleaning fluid by charging aperture 11 in addition, then from media outlet 14 effluent discharges and abrasive media.
Embodiment bis-: see Fig. 1, a kind of embodiment of the ultra-fine ball mill of producing for high viscosity nano color paste, comprise and have the grinding chamber 1 of charging aperture 11 and discharging opening 12 and be located at the lapping device in grinding chamber 1, medium import 13, the other end that grinding chamber 1 one end is also provided with for throwing in the abrasive media that ground slurry uses are also provided with the media outlet 14 for discharging abrasive media.Lapping device comprises the stator 2 that is fixedly connected in grinding chamber 1 and the rotor 3 for spin finishing slurry, rotor 3 has cavity 31, stator 2 is positioned at cavity 31 and does not contact rotor 3 inwalls, between rotor 3 and grinding chamber 1, leave a blank and form the first grinding chamber 15, between rotor 3 and stator 2, leaving a blank and form the second grinding chamber 16.
Referring to Fig. 2, Fig. 4, stator 2 has the hollow road 21 being communicated with discharging opening 12 again, and stator 2 is provided with the grinding sieve 22 for levigate slurry, and stator 2 one end are also provided with the separator 23 for separating of purification slurry, and separator 23 is inner to be communicated with hollow road 21.Grind sieve 22 and comprise that the screen cloth that is fixedly connected on the stator 221 on stator 2 outer walls and be fixedly connected between stator 221 overlaps 222.In screen cloth cover 222, be fixedly connected with many horizontal and/or longitudinal fixed bars 41, on fixed bar 41, cross-under has multiple grinding bead 4 as bulky grain zirconium oxide bead etc.Rotor 3 is provided with the abrasive brush 32 for levigate slurry.Abrasive brush 32 comprises and is fixedly connected on the fixed block 321 of cavity 31 inwalls and/or outer wall and is fixedly connected on the brush silk 322 on fixed block 321.On fixed block 321, have multiple through holes.
When ball mill work, pass into mill base to be processed from charging aperture 11, add abrasive media as zirconium pearl from medium import 13, ceramic bead etc., mixed slurry is full of the first grinding chamber 15 between rotor 3 outer walls and grinding chamber 1 gradually, external motor rotor driven 3 rotates simultaneously, it is loose that abrasive brush 32 on rotor 3 outer walls starts that the slurry in the first grinding chamber 15 is tentatively blended to mill, the brush silk 322 of abrasive brush 32 can be wire, plastic wire, hair etc., through hole on the fixed block 321 of abrasive brush 32 makes abrasive brush 32 be convenient to slurry in the time of Stirring to pass through, reduce the stirring resistance producing because of the high viscosity of slurry, slurry also bumps with through hole in the time that high velocity stream is crossed through hole simultaneously, shear, pulverize, strengthen the grinding effect of slurry, slurry is full of the second grinding chamber 16 between rotor 3 inwalls and stator 2 outer walls gradually afterwards, abrasive brush 32 on rotor 3 inwalls is rotated further and carries out regrind, and constantly turn slurry, and grinding on stator 2 outer walls sieve 22 just in time impacts with the slurry that turns rotation, screen cloth cover 222 can carry out an effect of breaking up filtering to slurry because of self densely covered mesh, inner grinding bead 4 is freely stirred with pulp flow simultaneously, be that slurry is further polished, pulverize, above-mentioned all designs with holes because non-solid structure to tackle full-bodied slurry very practical, efficiently, can not produce too large resistance and damage equipment, and that the particle of slurry will be polished is meticulousr.Last slurry sees through separator 23 again and separates with abrasive media, and meticulous with particle, to mix well loose mill base and enter from separator 23 inside stator 2 hollow road 21, finally flows out from discharging opening 12.Can add cleaning fluid by charging aperture 11 in addition, then from media outlet 14 effluent discharges and abrasive media.