FIELD: process engineering.
SUBSTANCE: invention relates to concrete mixers and may be used in other fields of construction. Said mixer comprises mixing chamber with material loading and discharge openings, vaned rotor and vaned rotor drive. Top and bottom vibrators are rigidly secured at the centre of mixing chamber top and bottom parts. bottom and top vibrators to excite two equal-amplitude different-frequency vibration fields by top and bottom crank gears. Vibrator casing is composed of metal shell representing a corrugated thin-wall solid of revolution making a complex truncated geometrical figure in vertical plane cross-section formed by central intersection of three circles with centres making the regular triangle vertices and radii equal to height of said triangles. It allows generating opposite direction oscillations. Disc is secured at the said figure centre in horizontal plane to create rod translation from translation pair composed of mixing chamber bottom post guide and crank mechanism rod and cylindrical ledge to be fitted and secured at spring ID, said spring being set to be contracted/released in the barrel, while said rod is rigidly secured at inner part top centre. Pusher is attached to outer parts centres, opposite ends of said pushers being rigidly secured to inner parts forming smallest crimps of corrugated shells Disks with cylindrical ledge is secured inside shell, at the centre of horizontal plane, to be fitted and secured over spring ID, spring being arranged inside the barrel to contract/release therein. Con-rods driven by top crank gear is rigidly secured to disk inner top part centre. Pusher is attached to outer parts centres, opposite ends of said pushers being rigidly secured to inner parts forming smallest crimps of corrugated shells to be excited by said pusher. Four ledges are secured in symmetry to barrels outer cylindrical surfaces. The spring is arranged between top and bottom vibrator cases.
EFFECT: ruled out dead zones in mixing chamber, intensified mixing of components.
4 dwg
Title | Year | Author | Number |
---|---|---|---|
VIBRATION MIXER | 2012 |
|
RU2494801C1 |
VIBRATION MIXER | 2013 |
|
RU2533791C2 |
VIBRATION MIXER | 2013 |
|
RU2534113C2 |
VIBRATION MIXER | 2012 |
|
RU2500530C1 |
VIBRATION MIXER | 2013 |
|
RU2524726C1 |
VIBRATION MIXER | 2013 |
|
RU2525077C1 |
VIBRATION MIXER | 2012 |
|
RU2515838C1 |
VIBRATION MIXER | 2012 |
|
RU2519430C1 |
VIBRATION MIXER | 2013 |
|
RU2524783C1 |
VIBRATION MIXER | 2013 |
|
RU2534117C2 |
Authors
Dates
2013-12-10—Published
2012-05-15—Filed