RU2103370C1 - Rotatory sludge trap for cleaning diffusion juice - Google Patents

Abstract

FIELD: sugar production. SUBSTANCE: sludge trap includes through-shaped casing with connecting pipes to supply non-filtered juice, gauze cylindrical drum set up on the shaft inside casing, shaft drive including electromotor and chain transmission with gear wheels fastened to shaft, filtered juice receiver with juice drain pipe, and fiber bin. Sludge trap is equipped with frame, the surface of which faces gauze cylindrical drum and has needle-shaped flexible cleaning pins with diameter less than that of holes in the drum gauze. Frame is set up on shaft by means of star gears rigidly attached to shaft and by rollers movably joined with star gears and attached to frame. EFFECT: improved design. 3 dwg

Description

 The invention relates to the sugar industry, to the purification of diffusion juice from pulp (pulp).

 Known rotary pulp trap for cleaning diffusion juice [1], containing a trough-like body with nozzles for supplying and discharging diffusion juice, a horizontally mounted cylindrical drum consisting of hollow perforated rings with rings, devices for blowing pulp and draining purified juice in the form of a pipe with nozzles.

 The disadvantage of this invention is the complexity of the design, high metal consumption.

 A known PR-type mezzo head [2] comprising a trough-shaped housing with nozzles for supplying unfiltered juice, a filtered juice receiver with its discharge nozzle, a pulp hopper, an electric motor rotated through a chain gear by means of gears, a shaft on which a mesh perforated drum is mounted.

 The disadvantage of this invention is the reduction in productivity due to the ineffective operation of the brush, the pile of which after a certain period of time becomes clogged and as a result, the brush does not clean the pulp from the perforated cylindrical drum, but lubricates it along its surface, which creates the need to inject a stream of juice under pressure inside the perforated cylindrical drum.

 The basis of the invention is the task to maximize the performance of the mesh perforated cylindrical drum, solved by using a frame that periodically moves perpendicular to the axis of the shaft and having needle-shaped flexible pins on the surface from the side of the mesh perforated cylindrical drum.

 The technical result is that the permeability of the juice through the surface of the mesh perforated cylindrical drum is increased and the productivity of the rotary pulp trap is increased. This is achieved by the fact that the rotary pulp trap for purifying diffusion juice includes a trough-shaped housing with a nozzle for supplying unfiltered juice, a cylindrical mesh drum placed on it on the shaft, a shaft drive containing an electric motor and a chain gear with gears mounted on the shaft, and a filtered juice receiver with its outlet pipe into the pulp hopper, the frame, the surface of which is facing the mesh cylindrical drum, has needle flexible pins, the diameter of which is less than the diameter of the holes with drum chains used to clean it, while the frame is mounted on the shaft with the help of sprockets rigidly fixed thereon and movably connected with them by means of rollers attached to the frame.

 Figure 1 presents a schematic diagram of a rotary pulp trap for cleaning diffusion juice. Figure 2 shows the contact of the surface of the frame studded with needle-shaped flexible pins with a mesh of a perforated cylindrical drum. In FIG. 3 shows the position of the frame above the surface of the drum, at the moment of contact of the roller with the highest point of the tooth profile of the sprocket.

 The rotary pulp trap for diffusion juice consists of a trough-shaped housing 1 with a supply pipe 2 of unfiltered juice, a receiver 3 of filtered juice and a discharge pipe 4, a hopper 5 for removing the pulp, an electric motor 6 rotating through a chain gear 7 by means of gears 8 and 9, shaft 10 on which a mesh perforated cylindrical drum 11 is mounted, with a frame 12 mounted above it, connected to rollers 13, which are movably connected to sprockets 14, rigidly mounted on the ends of the shaft 10, while the surface of the frame 12 sec on the side of the mesh perforated cylindrical drum 11, studded with needle-shaped flexible pins 15.

 Rotary pulp trap works as follows. Unfiltered juice through the nozzle 2 (Fig. 10 enters the trough-shaped housing 1, is filtered through the mesh of the drum 11 and discharged into the receiver 3, and if it is surplus, it is discharged into the nozzle 4 and further taken into production. The pulp retained on the mesh is cleaned and dumped as in the hopper 5, and inside the drum 11 using a moving frame 12 studded with needle-shaped flexible pins 15.

 During operation, the electric motor through a chain transmission 4 from the gear 8 through the gear 9 transmits the rotation to the shaft 10, at the ends of which the sprockets 14 are rigidly fixed. As a result, the mesh perforated cylindrical drum 11 and the sprockets 14 rotate synchronously (Figs. 2 and 3). At the moment of the position of the rollers 13 (Fig. 2) at the lower point of the tooth profile of the sprocket 14, the frame 12 is in its lowest position and its needle-shaped flexible pins are located in the cells of the mesh perforated cylindrical drum 11, squeezing into its internal cavity a pulp on a sector 6 with an area of, for example, 1 / 8 of the surface of the drum 11. As the sprocket rotates (in the direction of the arrow, FIGS. 2 and 3), the rollers 13 (synchronously on both sides of the shaft 10) move along the profile of the sprockets 14 and the needle-shaped flexible pins 15 exit the mesh perforated mesh cylindrical drum 11. The flexibility of the needle-shaped pins 15 and the synchronization of rotation of the sprockets 14 with the drum 11 virtually eliminates the possibility of the braking process of the drum 11.

 When the rollers 13 move from the lower point of the tooth profile of the sprocket 14 to its upper point, the frame 12 is moved perpendicular to the axis of the shaft 10. A part of the pulp located on the needle-shaped pins 15 is brushed off into the hopper 5, from which it is sent to a diffusion apparatus (not shown).

 Having reached the upper point of the tooth profiles of the sprockets 14, the rollers 13 sharply move to the lower point of the tooth profile due to the tooth profile having a special shape (Figs. 2 and 3) and thus the impact penetration of the needle-shaped flexible pins 15 and the mesh of the perforated cylindrical drum 11 is achieved. Reducing the diameter of the needle-shaped flexible pins 15 with respect to the diameter of the perforation cells of the drum 11 eliminates the likelihood of mismatch in the contact process.

 The working surface of the frame 12 is a surface studded with needle-shaped flexible pins, which at the moment of vertical oscillation of the moving frame 12 passes through the surface of the perforated cylindrical drum 11 and returns back thereby completely cleaning the holes of the perforated cylindrical drum 11 giving free access to a new portion of diffusion juice.

The originality of the constructive solution of the present invention is confirmed by a high degree of cleaning the surface of the perforated cylindrical drum, guaranteeing high performance pulp trap, ease of use, except for the use of compressed air to purge the surface contamination of the perforated cylindrical drum and, as a result, the uselessness of pneumatic equipment, high pressure air ducts operating in aggressive environments (t ≈ 50 ^o C, the presence of oxalic, apple , succinic, acetic, citric acids), control systems over them.

Claims (1)

 A rotary pulp trap for cleaning diffusion juice, including a trough-shaped housing with nozzles for supplying unfiltered juice, a cylindrical mesh drum placed in it on the shaft, a shaft drive containing an electric motor and a chain gear with gears mounted on the shaft, a filtered juice receiver with its branch pipe and pulp hopper, characterized in that it is provided with a frame, the surface of which, facing the mesh cylindrical drum, has needle-shaped flexible pins, the diameter of which is smaller more than the diameter of the holes of the drum mesh, which are used to clean them, while the frame is mounted on the shaft with the help of sprockets rigidly fixed thereon and movably connected rollers attached to the frame.

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