RO104872B1 - Plant for continous extraction of sugar from sugar-beet - Google Patents

Description

The present invention relates to an installation for the continuous extraction of sugar from sugar beet by means of a liquid, comprising a sloping gutter and at least two helical segmented shafts, with strips rotating around the parallel axes and placed in this trough to transport the fragmented raw vegetable matter from the bottom of the trough ^; beam to its upper extremity, 10 countercurrent with respect to the extraction fluid whose propeller of the strips of the first segment of the left helical shaft, seen from the bottom of the gutter starts from a support placed vertically in the part 15 above the shaft of the shaft and the beginnings of the propeller of each strip. segment, respectively following the left helical shaft, are offset by 60 ° with respect to the beginning of the helices of the bands of the preceding segment, after the direction of movement of the clock needles, on the contrary the end of the helices of the bands of each respective segment of the left shaft is offset by an angle of 40 °, in relation to the beginning of the propeller strip, 25 to each of the same segment of the left shaft, following the meaning, according to the clockwise movement.

It is known, according to the content of the patent PL no. 82391, a continuous extraction device 30, with the aid of a liquid of the juice of a raw vegetable matter, namely of fresh beets, the said device being composed of a gutter 35 on the slope and with the help of at least two helical shafts with multi-band tape having a regular helix / helical line rotating about parallel axes placed in this gutter and trans- porting the raw, crushed vegetable matter, from the bottom of the gutter to the upper one in counter current with respect to the extraction fluid. . This device comprises in its part 45 high discharge elements from the trough of raw plant material which have undergone the extraction process, as well as fresh or recycled extraction liquid feed pipes and in the lower part 50 of the trough a juice drain pipe sugar and a flow trough for raw vegetable matter.

The helix of the bands of the first helical shaft on the left, seen from the bottom of the gutter, starts from a support that is upright in the upper part of the axis of the shaft, the beginning of the propeller of each segment, starting from the helical shaft on the left, is angularly offset by 60 ° from the starting point of the propeller of the preceding segment, clockwise. The ends of the propeller strips of each segment of the left shaft are offset angularly by 40 ° with respect to the beginning of the propeller tapes of each segment of the left shaft, clockwise. These final ends of the propellers of each preceding segment of the left shaft present, with the beginning of the propellers of the next segment band, a propeller in continuous appearance.

The helix of the bands of the first segment of the right helical shaft, also seen from the bottom of the gutter, also departs from a support after a horizontal axis and is angularly offset by 90 ° with respect to the position of the first segment of the left helical shaft in the counter-clockwise direction. Starting from the second segment, the beginning of the band propeller of each segment following the right helical shaft is angular offset by 90 °, compared with the beginning of the propeller band of the previous segment of the right shaft, in the opposite direction of the clockwise movement.

The ends of the helix of the bands of each segment of the right helical shaft are offset by 40 °, relative to the beginning of the helix of the bands of each segment of the right shaft, in the opposite direction to the clockwise ones. The ends of the propeller of the first segment of the right helical shaft present with the beginning of the helical shaft] as a propeller in continuous appearance; on the contrary between the ends of the propellers of the second segment and the segments following

4 up to 5 ° of the right helical shaft with respect to the beginning of the helices of the following segments of the straight helical shaft the helix has a discontinuous appearance. . 5

- The slab axial games between turns of these two, first segments of helical shafts with strips, seen from the bottom of the gutter are caused by the excessive crushing of the raw material. Turbulent currents in the opposite direction are amplified during transport and of the continuous concentration of the already exaggerated crude vegetable matter, which makes it difficult for the extraction fluid to flow countercurrently. This phenomenon involves the formation of areas with reduced filtration of the extraction liquid and as a result, downstream of these areas, the level of the extraction liquid in the device rises. The difference in the levels of the extraction liquid upstream and downstream of the reduced filtration zone disturbs the equilibrium of the circulation speed of the raw plant matter and implies its ascent. This high level 25 of the liquid phase when supplying liquid downstream of the impermeable zone, implies a condensation of the raw vegetal matter1 which damages the extraction process, which implies a new increase 30 of the loss in sugar. ,

In this, type of device and in the area of supply of fresh or recycled extraction liquid, the dissolving price of raw plant material is different on the left or right side of the gutter. The dissolution is higher on the right side of the gutter at its top. This is due to the fact that in the last two segments of the right helical shaft 40 at the point of assembly of the segments, there is a discontinuity between the final and initial bands. This phenomenon involves the creation in the transverse transits of the upper part of the trough in the area of fresh or recycled water supply, a difference in the concentration of the mixture of raw vegetable matter and of extraction liquid, which leads to the increase of 50 sugar losses during the process. for extraction of raw plant matter, involves an overgrowth of <the level of raw material treated and implies a non-uniform mechanical loading of the left and right helical shafts.

in the device described, according to the patent PL no. 82391, in order to eliminate the adverse effects of the change of composition and of the property of the crushed vegetable matter crushed during the process of its liquid extraction, one or two auxiliary conveyors placed parallel to the mentioned shafts were provided above the axes of the main helical shafts.

These auxiliary conveyors are adapted to the continuous movement of the raw plant matter, raised above and along the main shafts at the lower end of the trough of the extraction device.

The efficiency of these proposed means proves to be unsatisfactory in practice.

In order to avoid this phenomenon of formation of areas with lower permeability at higher levels of liquid and overheating, it is imperative to establish a permanent control of the operation of this device and to make periodic corrections of the speed of movement of the helical shafts, transporting raw vegetable matter and record the flow of this matter and the extraction fluid. Finally, it results in a lower efficiency of the device and an increase in sugar losses, as well as a disturbance of the mass and thermal balance.

The purpose of the invention ·! is the reduction of sugar losses in the extraction process.

The problem was to change the angular offset of the beginning and end of the propellers.

The installation, according to the invention, removes the disadvantages of the known installations by the fact that, in order to reduce the sugar losses in the extraction process, the helical shaft strips have an irregular propeller with several discontinuities, and the beginning of the propeller shaft of the first segment of the right shaft is offset. 120 ° angle with respect to the beginning of the propeller shaft of the first segment of the left shaft, counterclockwise and the beginning of the propeller shaft of the second segment of the right shaft is offset by an angle of 60 ° with respect to the beginning of the propeller shaft. of the first segment of the right shaft, counterclockwise - and the beginning of the propeller of the third segment with respect to the second segment, the fourth segment with respect to the third segment of the right shaft, is offset by an angle 90 °, counterclockwise, and the beginning of the propeller of the bands of the fifth segment of the right shaft is angular offset by 60 ° with respect to the beginning of the propeller of the fourth segment of the right shaft, in the opposite direction to the clockwise ones, while the end of the propeller of the bands of each segment of the right shaft is offset by an angle. 40 ° relative to the beginning of the propeller of the bands of each segment of the right shaft, in the opposite direction to the clockwise ones; also, for a helical step of the strips of the shafts, at least four discontinuities have been provided on the contour of each strip, and the height of a discontinuity corresponds to the height of the support on which the strips are fixed.

In the following, an example of the installation in connection with FIG. 1 ... 8, which represents:

- fig.l, schematic view of the device in longitudinal section;

• - fig.2, the position of the ends of the helical shaft segments, the passive part of the initial spins in cross-section A-A of fig. 1;'

- fig. 3, the position of the ends of the helical shaft segments, the passive part of the initial turns in the cross-section

B-B to fig.l;

- fig. 4, the position of the ends of the helical shaft segments, the passive part of the initial spins in cross-section C-Cafig.l;

- fig. 5, the position of the ends of the helical shaft segments, the passive part of the initial spins in cross-section D-D of fig.

- fig.6, the position of the ends of the helical shaft segments, the passive part of the initial spins in cross-section E-Eafig.l;

- fig.7, a view of a surface detail of a helical strip in orthogonal projection to the shaft axis at the point of connection of the strips to the support;

FIG. 8 is a detail view of a ribbon band at the point of connection to the support seen from above.

The device for continuous extraction comprises a trough 1 inclined to the horizontal where two helical shafts with strips are placed in parallel one left 2 and one right 3. The left shaft 2 is composed of five segments with right turns 4, 5, 6, 7 and 8 assembled together by means of a coupling 9. The right helical shaft is composed of five segments with turns, rotating to the left 13, 14, 15, 16 and 17 assembled together, also by couplings 4. The segments of shaft 2 and 3 shows strips 10 forming the helical surface of shafts 2 and 3. As shown in Figs. 7, 8 and 8, the strips 10 form an irregular propeller of shafts 2 and 3, showing more discontinuities 11. It is advantageous when for a step. helical of the strips 10 of the shafts 2 and 3 the contour of each strip 10 will have at least four discontinuities 11. the height of discontinuities 11 corresponds to the height of supports 12 to which are fixed ben days 10 of shafts 2 and 3. As can be seen in fig. from 1 to 6, the propeller of the bands of the first segment 4 of the shaft 2 from the left seen from the bottom of the trough 1 starts from the support 12 of the bands 10 which is upright '

in the upper part of the shaft 2 of the left.

the beginnings of the propeller of the bands 10 of each successive segment 5, 6.7 and 8 of the shaft 2 on the left are offset by 60 ° with respect to those of the bands 10 of the preceding segment 4, 5, 6 and 7 of the shaft 2 on the right, according to the sense of those clock. The end of the propeller shaft'10 of segments 4, 5, 6, and 8 of the left shaft is offset by an angle of 40 ° relative to the beginning of the propeller of segments 4, 5, 6, 7 and of the shaft 2 on the left, according to the direction of the needles. clock.

the beginning of the propeller 10 of the first segment 13 of the shaft 3 from the right seen from the bottom of the trough 1 starts near the support 12 and is offset by an angle of 120 °, relative to the beginning of the propeller 10 of the first segment 4 of the shaft 2 from right, counterclockwise. the beginning of the band propeller 10 of the second segment of the right shaft 3 is offset by an angle of 60 °, relative to the beginning of the propeller of the first segment 13 of the right shaft 3, according to the clockwise rotation. the beginning of the propeller 10 of the third segment 15, with respect to the third segment 14, of the fourth segment 16, with respect to the third segment 15 of the shaft 3 in the line is offset by an angle of 90 °, counterclockwise. the beginning of the propeller of the bands 10 of the fifth segment 17 of the right shaft 3 is angularly offset by 60 °, compared with the beginning of the propeller of the fourth segment 16 of the right shaft 3, counterclockwise. The end of the propeller 10 of each segment 13,14,15,16 and 17 of the right shaft 3 is angularly offset by 40 ° with respect to the beginning of the propeller 10 of each segment 13, 14, 15, 16 and 17 of the shaft 3 from right counterclockwise.

The beet pieces are cut at the trough 1 in its lower part and are carried by the strips 10 of the helical shafts 2 and 3 in the upper part of the trough 1. In contrast, from the top to the bottom of the trough 1 the fresh or recycled water flows to suitable temperature, which at the contact of the beet pieces involves the rinsing of the sugary juice cut at the bottom of the trough 1. during this time the pieces consumed in the form of pulp are evacuated at the top of the trough 1. The strips 10 of the shafts 2 and 3 with irregularly printed propeller to the beet pieces a movement that is as well a linear motion, as rotary, with a local radial-axial mixed displacement to the discontinuity zones 11 illustrated in fig.8. These discontinuities 11 shown on the strips 10 creating the helical surface of the shafts 2 and 3 imply an additional local change recorded by the direction of movement of the crushed raw material relative to the fluid flowing in the counter current.

Claims (2)

1. Installation for the continuous extraction of sugar from sugar beet by means of a liquid having a sloping gutter and at least two helical segmented shafts, with strips rotated around the parallel axes and placed in this gutter to transport the fragmented raw vegetable matter from the lower part of the gutter towards its upper extremity, counter current with the extraction fluid whose propeller of the strips of the first segment of the left helical shaft seen from the bottom of the gutter starts from a support placed vertically in the part above the shaft of the shaft and the beginnings of the propeller shaft segment, respectively following the left helical shaft, are offset by 60 ° with respect to the beginning of the helices of the preceding segment, after the clockwise direction, from 9 10 against the end of the propeller of the bands of each respective segment of the left shaft is offset by an angle of 40 ° with respect to the beginning of the propeller of the bands of each of the same segment of the left shaft 5, following the direction of the clockwise movement, characterized in that, in order to reduce of sugar losses in the extraction process, the bands (10) of the helical shafts (2 and 3) 10 have an irregular propeller with several discontinuities (11) on the contour of the propeller and in that the beginning of the propeller of the bands (10) of the first segment (13 ) of the right shaft (3) is offset by a 120 ° angle of 120 °, relative to the beginning of the propeller strips (10) of the first segment (4) of the left shaft (2), counterclockwise and the beginning of the propeller of the bands (10) of the second segment (14) of the right shaft (3) is offset by an angle of 60 ° with respect to the beginning of the propeller of the bands (10) of the first segment (13) of the of the borel (3) on the right, in the opposite direction 25 of the clockwise and the beginnings of the propeller of the bands (10) of the third segment (15) in relation to the second segment (14) the fourth segment (16) in relation to the third segment (15) of the right shaft (3) are offset by an angle of 90 °, counterclockwise and in that the beginning of the propeller (10) of the fifth segment (17) of the right shaft (3) is angular offset by 60 ° from the beginning of the propeller of the fourth segment (16) of the right shaft (3) counterclockwise, while the end of the propeller of the bands (10) of each respective segment (13, 14, 15; 16 and 17) of the right shaft (3) is offset by an angle of 40 ° relative to the beginning of the propeller (10) of each respective segment (13.14, 15.16 and 17) of the right shaft (3) , counterclockwise. 2. An installation according to claim 1, characterized in that for a helical step of the strips (10) of the shafts (2 and 3), at least four discontinuities (11) have been provided on the contour of each strip (10) and the height of a discontinuities (11) correspond to the height of the support (12) on which the strips (10) are fixed. (56) Bibliographic references RO patent no. 67255 U.S. Patent no. 3953224 Patent PL no. 82 391