Utility model content
The purpose of this utility model is to overcome above deficiency, provides a kind of nanofiber efficiently to oil equipment.
The purpose of this utility model realizes like this:
A kind of nanofiber efficiently of the utility model oils equipment, wherein, comprise bearing support, described bearing support is provided with guide roller from top to bottom, oiling roller group and press bonding roller group, described guide roller is positioned at bearing support tip position, described oiling roller group is positioned at position immediately below guide roller, comprise two oiling rollers, the cylindrical structure of described oiling roller, described oiling roller inside is provided with oil canal, described oil canal comprises a main oil canal and many points of oil canals, described main oil canal is positioned at described oiling roller axial centerline and runs through whole oiling roller inside, described point of oil canal linearly connects main oil canal in structure one end, the other end connects oiling roller surface, oil through is formed at oiling roller outer surface, described oil through is uniformly distributed in the shape of a spiral on described oiling roller outer surface, described oil through outer setting is by the immersion oil brush be made up of many nano short fibers, described immersion oil brush is evenly distributed on described oiling roller outer surface, multiple immersion oil brush equal and opposite in directions on described oiling roller outer surface, length is equal, described press bonding roller group is positioned at immediately below described oiling roller group, and described press bonding roller group comprises the first press bonding roller and the second press bonding roller, described first press bonding roller outer surface is provided with pressing district, described pressing district is evenly provided with annular knurl line, described second press bonding roller outside is coated with the elastic layer that rubber elastomer is formed, described guide roller, oiling roller group and press bonding roller group are all connected with motor, and described bearing support rear end is also provided with oil drum, and described oil drum is connected with described oiling roller by oil pipe.
Compared with prior art, the beneficial effects of the utility model are:
1, the novel oiling roller of unique design, in oiling roller, multiple oil duct arranges and fluid can be made fully to cover oiling roller surface, accomplishes effectively to oil; And oil outlet designs twist at oiling roller outer surface, equally distributed structure can make nanofiber oil evenly, avoids the situation generation oiling uneven, improves result of use; Oil outlet outside is provided with immersion oil brush, immersion oil brush realizes fully infiltrating by the oil in oil duct, and while oiling roller rolling oils, immersion oil brush can be brushed nanofiber, and the gap between nanofiber also can fully be oiled, accomplish abundant infiltration, improve the effect that oils.
2, press bonding roller group adopts asymmetric first press bonding roller and the second press bonding roller to design, the mutual pressing of elastic layer of annular knurl line during use on the first press bonding roller and the second press bonding roller outside, effectively oil unnecessary between nanofiber can be discharged, while making fiber obtain lubrication, avoid fluid too much to cause and use inconvenience.
Detailed description of the invention
Below in conjunction with accompanying drawing, the utility model is described in further detail.
As shown in the figure, a kind of nanofiber efficiently of the utility model oils equipment, wherein, comprise bearing support 1, described bearing support 1 is provided with guide roller 2 from top to bottom, oiling roller group 3 and press bonding roller group 6, described guide roller 2 is positioned at bearing support 1 tip position, described oiling roller group 3 is positioned at position immediately below guide roller 2, comprise two oiling rollers 31, the cylindrical structure of described oiling roller 31, described oiling roller 31 inside is provided with oil canal 4, described oil canal 4 comprises a main oil canal 41 and many points of oil canals 42, described main oil canal 41 is positioned at described oiling roller 31 axial centerline and runs through whole oiling roller 31 inside, described point of oil canal 42 linearly connects main oil canal 41 in structure one end, the other end connects oiling roller 31 surface, oil through 43 is formed at oiling roller 31 outer surface, described oil through 43 is uniformly distributed in the shape of a spiral on described oiling roller 31 outer surface, described oil through 43 outer setting is by the immersion oil brush 5 be made up of many nano short fibers, described immersion oil brush 5 is evenly distributed on described oiling roller 31 outer surface, multiple immersion oil brush 5 equal and opposite in directions on described oiling roller 31 outer surface, length is equal, described press bonding roller group 6 is positioned at immediately below described oiling roller group 3, and described press bonding roller group 6 comprises the first press bonding roller 61 and the second press bonding roller 62, described first press bonding roller 61 outer surface is provided with pressing district 7, described pressing district 7 is evenly provided with annular knurl line 71, described second press bonding roller 62 outside is coated with the elastic layer 8 that rubber elastomer is formed, described guide roller 2, oiling roller group 3 and press bonding roller group 6 are all connected with motor 9, and described bearing support 1 rear end is also provided with oil drum 10, and described oil drum 10 is connected with described oiling roller 31 by oil pipe 11.
During use, nanofiber 12 leads through guide roller 2, enters between oiling roller 31 and oils, and is discharged by unnecessary fluid after oiling by bottom press bonding roller 61,62.
Compared with prior art, the beneficial effects of the utility model are:
1, the novel oiling roller of unique design, in oiling roller, multiple oil duct arranges and fluid can be made fully to cover oiling roller surface, accomplishes effectively to oil; And oil outlet designs twist at oiling roller outer surface, equally distributed structure can make nanofiber oil evenly, avoids the situation generation oiling uneven, improves result of use; Oil outlet outside is provided with immersion oil brush, immersion oil brush realizes fully infiltrating by the oil in oil duct, and while oiling roller rolling oils, immersion oil brush can be brushed nanofiber, and the gap between nanofiber also can fully be oiled, accomplish abundant infiltration, improve the effect that oils.
2, press bonding roller group adopts asymmetric first press bonding roller and the second press bonding roller to design, the mutual pressing of elastic layer of annular knurl line during use on the first press bonding roller and the second press bonding roller outside, effectively oil unnecessary between nanofiber can be discharged, while making fiber obtain lubrication, avoid fluid too much to cause and use inconvenience.
Through multi-air intake ring dry different wind speed cooling after, can prevent the too low freezing point that makes of wind speed from moving down, also can prevent that wind speed is too high remaining kinetic energy, avoid occurring in the turbulence mixing of tow center, improve the quality of precursor.
The wind speed of each air inlet can regulate separately, does not affect the wind speed in other air channels.
Air-conditioning air feed after air-conditioner set 1 processes enters the first blast pipe 4 respectively after total valve 2, sub valve 3, second blast pipe 5, the 3rd blast pipe 6, the 4th blast pipe 7 and the 5th blast pipe 8, after each blast pipe enters quench device 9, after quench device 9 current-sharing, blow to the tow extruded from spinnerets uniformly, thus complete the process of cooling.
Blast pipe wind speed goes out from spinnerets and slowly slows down downwards, first blast pipe 4 wind speed is 0 ~ 4 m/min, second blast pipe 5 wind speed is 0 ~ 3.5 m/min, 3rd blast pipe 6 wind speed is 0 ~ 3 m/min, 4th blast pipe 7 wind speed is 0 ~ 2.8 m/min, 5th blast pipe 8 wind speed is 0 ~ 2.5 m/min, and each blast pipe airduct wind speed is regulated by sub valve 3.
Each air inlet gives different wind speed, greatly improves the end product quality of precursor, improves the quality of finished silk.
Above embodiment is only for being further described the utility model; can not be interpreted as the restriction to the utility model protection domain, some nonessential improvement that those skilled in the art makes according to foregoing of the present utility model and adjustment all belong to protection domain of the present utility model.