SU1715193A3 - Device for continuous extraction of vegetable raw material - Google Patents

Abstract

The invention relates to equipment for processing agricultural products, mainly continuous extraction of juice, using liquid from beet chips. The goal is to increase productivity. The device provides good movement of the liquid and solid phases in countercurrent, which counteracts the formation of zones of reduced permeability and at the same time affects the reduction of sugar losses in shredded plant materials. Productivity is increased due to uniform operation of the left and right helical shafts. The device consists of an inclined chute and two screw-shaped shafts (B) having ribbons (L), L of each B form breaks with a number of ledges, with the initial and final sections L displaced one relative to the other by a certain angle, 2 h, n, f - ly, 8 il.k

Description

The invention relates to equipment for processing agricultural products, preferably continuous extraction of juice, using liquid from beet chips.

The purpose of the invention is to increase productivity.

The device provides good movement of the liquid and solid phases in countercurrent, which counteracts the formation of zones of reduced permeability and at the same time affects the reduction of sugar losses in shredded plant materials. Productivity is increased due to uniform operation of the left and right helical shafts.

FIG. 1 shows a device with a longitudinal section: FIG. 2 is a section A-A in FIG. one; FIG. 3 is a section BB in FIG. one; on

FIG. 4 shows a section B-B in FIG. one; in FIG. 5, section G-D in FIG. one; in fig. 6 is a section DD in FIG. 1; Fig. 7 shows a fragment of a tapered helical surface at the point of connection with the bracket; node I in Fig. 2; in fig. 8 is a view of E in FIG. 1.

A device for the continuous extraction of vegetable raw materials, mainly beet chips, consists of a chute 1 inclined at an angle to the horizon, in which two parallel shafts are arranged next to each other: left 2 and right 3, which are rotatably mounted around their own axes for countercurrent transport of vegetable raw materials the lower end of the gutter 2 to its upper end.

The left shaft 2 consists of five sections 4-8 (right-handed), connected to one another by means of couplings 9.

The right-hand helical shaft 3 also consists of five sections 10-14 (left-handed), connected to one another by means of sleeves 9. Shafts 2 and 3 have screw tapes 15, their screw surfaces constituting them. Tapes 15 have gaps with the formation of ledges 16.

The ribbons 15 of the shafts 2 and 3 are fixed on them by means of the brackets 17. The screw tape 5 of the first section of the left shaft 2, while moving the vegetable raw material of the section 4 of the left shaft 2, is fixed so that its initial section is fixed on the bracket 17 located vertically above the axis of the shaft 2. At the same time, the initial the sections of the screw tapes 15 of each subsequent section 5-8 are offset from the corresponding sections of the previous section 4-7 by an angle of 60 ° in a clockwise direction. The ends of the strips 15 of each section 4-8 of the left shaft 2 are offset relative to the initial section of the strips 15 of these sections 4-8 at an angle of 40 ° in a clockwise direction.

The initial section of the screw tape 15 of the first section 10 of the right, shaft 3 is offset from the initial section of the screw tape 15 of the first section 4 of the left shaft 2 at an angle of 120 ° counterclockwise.

The initial section of the screw tape of the second section 11 of the right shaft 3 is offset from the initial section of the screw tape of the first section 10 of the right shaft 3 by an angle of 60 ° counterclockwise.

The initial section of the helical tape 15 of the third section 12 relative to the second section 11 and the fourth section 13 relative to the third section 12 of the right shaft 3 is offset 90 ° counterclockwise.

The initial portion of the screw tape 15 of the fifth section 14 of the right shaft 3 is offset from the initial section of the screw tape 15 of the fourth section 13 of the right shaft 3 by an angle of 60 ° counterclockwise. The end sections of the screw tapes 15 of each section 10-14 of the right shaft 3 are offset relative to the initial sections of the screw tapes 15 of each section 10-14 of the right shaft 3 at an angle of 40 ° counterclockwise.

As a rule, each turn of the screw tape 15 of each of the shafts 2 and 3 has at least four ledges 16, and the height of each step 16 mainly corresponds to the height of the bracket 17 to which the tape 15 is attached.

The device operates as follows.

Beet chips are fed into chute 1 in its lower part and transported by ribbons 15 of shafts 2 and 3 upward of chute 1. From the upper part of chute 1, they flow down fresh.

water and return water, which has the appropriate temperature, and when in contact with beet chips it causes the washing out of the juice taken in the lower part

gutters 1. Extracted chips in the form of pulp is taken in the upper part of the gutter 2. Tape 15 shafts 2 and 3, having gaps with ledges 16, cause the chips to move, which is both linear and

0 and rotational with local radial-axial displacements in the areas of the ledges 16.

In addition, ledges 16 cause local additional forced

5 a change in the direction of movement of the crushed raw material relative to the current flowing in the countercurrent fluid.

Changing the direction of the impact of the segments of the strips 15 on the transferred mass, and

0 also ledges between them, contributes to the effective movement and loosening, reduce the density and increase permeability.

Angle beginnings and endings

5 screw ribbons 15 increased the axial clearance between the 15th joints 15 of the right3 and left2 shafts by 1/12 of the pitch of the helical tape 15, due to which the fragmentation of vegetable raw materials was reduced and the same dilution was obtained within the fresh and reverse fluid supply to the device.

Claims (3)

Claims 1. A device for continuous extraction of vegetable raw materials, mainly but beet chips, including an inclined chute and two rows located. left and right shafts in it, with five sections of screw tapes fixed on each of them, mounted for rotation around parallel axes for countercurrent transportation of plant material from the lower end of the groove to the top, with the initial section of the helical tape first along 5 moving the plant raw material of the left shaft section is mounted on a bracket located vertically above the shaft axis, the initial sections of the screw tapes of each subsequent section are offset relative to the corresponding sections of the previous section by an angle of 60 ° clockwise, and the end sections of the screw tapes of each section of the left shaft are offset from the initial section of the same section on the corner 5 to 40 ° clockwise, characterized in that, in order to increase productivity, the helical belts of the shafts have gaps to form ledges, with the initial portion of the helical tape of the first section of the right shaft being offset from the initial section of the screw tape of the first section of the left shaft at an angle of 120 ° counterclockwise; the initial section of the screw tape of the second section of the right shaft is offset relative to the initial section of the screw tape of the first section of the right shaft at an angle of 60 ° counterclockwise; the initial section of the screw tape of the third section relative to the initial section the section of the screw tape of the second section and the initial section of the fourth section relative to the starting section of the screw third section of the right shaft are shifted 90 ° counterclockwise, starting ny portion helical ribbon fifth right shaft section is displaced relative to the initial section of the screw tapes of the fourth section of the right shaft at an angle of 60 ° counterclockwise, the ends of the screw tapes of each section of the right shaft are offset from the initial sections of the screw tapes of each section of the right shaft at an angle of 40 ° counterclockwise, 2. Device pop. 1, characterized in that each turn of the helical tape of each of the shafts has at least four ledges. 3. The device according to claim 1 or 2, of which the height of the step corresponds to the height of the bracket to which the tape is attached. .f BB  f-r Fy View 15 eleven FIG. eight