SU1152638A1 - Disintegrator - Google Patents

Abstract

DISINTEGRATOR, mainly for activation of irrigation water, containing disks mounted on coaxially located, rotating in opposite directions shafts with protrusions and depressions on working surfaces, forming labyrinth channels placed in a casing with a charging funnel communicated with the central part of one of the disks, the fact that, in order to intensify the processing of the medium by creating an additional circular axial pulsation, the disks are mounted at an angle to each other, with one of them or both are inclined to the axis of rotation. /)

Description

1 1 The invention relates to agriculture, as well as to chemical industry and can be used to activate irrigation and drinking water and other materials, reagents and mixtures. Disintegrators are known that contain disks mounted on coaxially rotating in opposite directions shafts and depressions on working surfaces forming labyrinth channels spaced in the casing with a hopper communicating with the central part of one of the disks l, but in a known disintegrator not enough processing activity due to the parallel arrangement of the working surfaces of the disks. The purpose of the invention is to intensify the processing of the medium. This goal is achieved by the fact that in a disintegrator containing disks mounted on coaxially arranged, rotating in opposite sides of the shafts, with protrusions and depressions on the working surfaces forming labyrinth channels located in the casing with the feed funnel communicated with the central part of one of the disks The disks are mounted at an angle to each other, with one or both of them inclined to the axis of rotation. FIG. 1 shows a disintegrator, a longitudinal section; in figure 2 the same (in the version with synchronized gear drive); in fig. 3 is a section A-A in FIG. one; in fig. 4 is a view B in FIG. 3. The disintegrator contains left 1 and right 2 housings centered and bolted through flanges. In housings 1 and 2 on ball bearings 4 coaxial shafts 5 are mounted with disks 6 fixed on them, on the working surface of which there are projections 7 in the form of teeth located on concentric circles arranged so that opposite to the protrusions of one disk there are hollows of the other. One of the disks is made with openings 8 in the central part, to which an axial impeller 9 mounted on a shaft 5 with 2 vanes 10 adjoins. The bearing cavities of the bodies 1 and 2 are separated from the working chamber by seals 11. On the right housings in the area of the wheel 9 installed hoppers 12, in the lower part of the housing 2 in the zone of operation of the disc 6 discharge nozzles 13. On the shafts.5 pulleys 14 are installed drive. In the embodiment of a synchronized hard disk drive disintegrator, on the cases 1 and 2, there are additionally installed transfer boxes 15 and 16 with a pinion gear 17 mounted on the right shaft 5 and engaged with a parasitic gear 18 hooked to the driven gear 19 having diameters and number of teeth such the same as the gear 17. The gear 19 through the transmission shaft 20 with the couplings 21 is connected to two identical gears 22 and 23, the last of which is fixed on the left shaft 5. When the pulley 14 rotates, they rotate in the opposite direction In this case, the disks 6 and the paddle wheel 9 together with them. The processed material is fed into the funnel 12, from which, under the influence of the blades 10, through the holes 8 in the disk 7 enters under pressure into the interdisk space, where the axial impact 7 occurs. pulsations caused by the end oscillation around the entire circumference of one or both discs 6. The disintegrator's operation with a separate belt drive of the shafts 5 is matched with the inevitable slippage of the belts along the pulleys 14, as a result of which t float in time in the phase of the end ripple of the discs 6, which is not observed in the disintegrator with a rigid synchronized drive. The material entering the interdisc space moves under the action of centrifugal forces, moves in the direction from the center to the periphery of the discs 6, and exposes a double effect: breaking of particles with tangential forces and pulsating circular motion of the projections 7, which causes an increase in the intensification of material processing. L, /: Jt H-vv / iTLiF -T AA

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Claims (1)

DISINTEGRATOR, predominantly containing disks with protrusions and troughs mounted on coaxially arranged, rotating in opposite directions shafts on working surfaces. forming labyrinth channels placed in a casing with a loading funnel in communication with the central part of one of the disks, characterized in that, in order to intensify the processing of the medium by creating an additional circular axial pulsation, the disks are installed at an angle to each other, while one of them or both are located for activation of irrigation water, inclined to the axis of rotation.