前苏联专利SU1762742A3 Device for hulling maize grains to remove embryos therefrom

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专利摘要:
The device has a stator (1) and a rotor (3) which is rotatably mounted in the stator housing (2). The facing sides of the stator and rotor are covered with bosses in the region of the processing chamber (9). Viewed in cross-section, the working elements (8, 13, 21) are arranged in roughly circular fashion on both the stator housing (2) and the rotor (3). The inner surface of the stator housing is subdivided alternately around the periphery into bosses and screening segments (21, 22) provided with sieve apertures. The stator housing (2) is provided with two detachable housing wall sections (14, 15) to permit easy access to the processing chamber (9) in the event of breakdown.
公开号:SU1762742A3
申请号:SU894613804
申请日:1989-03-21
公开日:1992-09-15
发明作者:Мюллер Роман
申请人:Гебрюдер Бюлер Аг (Фирма)；
IPC主号:

专利说明:

The invention relates to the processing of grain.
Currently, corn is processed in large quantities to produce various end products. In addition to separating the sprouts from the corn kernels by washing to obtain starch, the sprouts are separated, followed by mill processing to obtain other products as well.
The end-product of the mill processing is added mainly to the feed manufacturing, churning and brewing enterprises, as well as to the production of cereals for polenta, snacks and corn flakes. Depending on the purpose of the application, there are different requirements for the processing by the mill method, and investment expenditures are increasing in all the fields of application and the mill costs of processing are increased.
The device according to the invention is intended to produce coarse grains, which are the starting material for making corn flakes.
Here the requirements for the milling industry are the highest.
Over the course of tens of years, the plant has been cleared with the separation of sprouts from maize kernels using a BeaI germinator. It consists of a stator in whose case the rotor is rotatably disposed. The stator housing and the rotor form, at least approximately in an annular cross-section, a working chamber and have thickening (ribs) on their facing sides. The perimeter inner wall of the stator is subdivided into alternating sublattice segments (sifting segments) provided with thickenings or perforations. This known device comprises a two-part stator housing.
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both halves of which are separated by a horizontal surface and are installed with the possibility of rotation relative to one another around a hinge axis and are connected to one another by means of a screw in the closed position. If the upper half of the stator housing is folded up, then the lower half forms a semi-circular cross-sectional tray in which the rotor is placed. Due to the tilting up of the upper half of the stator housing, access to the lower half of the working chamber is difficult. For this, the rotor must be additionally removed. The Beall spreader has a conical working chamber, which increases in diameter from the inlet end to the outgoing end, and accordingly, the stator and rotor bodies are made conical. If it is necessary to change the working chamber in the direction of the rotor radius, taking into account the properties of the processed corn, the rotor moves axially into the stator housing. This requires a relatively expensive support. If such machines are to be designed with longer working chambers, then the diameter of the rotor and the stator housing should also be increased accordingly with respect to the output end.
Another disadvantage of this device is that the proportion of corn dust in the coarse grains, processed into flakes, is large, which reduces the overall yield of the product.
It is also known device (1), which has the same disadvantages.
The purpose of the invention is to improve the convenience of servicing the device and the quality of grain processing, i.e., improving the device so that the working chamber would be easily accessible in case of technical malfunctions, and the process of cleaning and separating the embryos would be carried out optimally.
The purpose of the invention is achieved by the fact that in a device for cleaning corn kernels and removing germs from them, including a stator, in whose case the rotor is mounted in bearings for rotation, the perforated sifting segments on the inner side of the stator housing forming the working chamber with the rotor consists of four parts, at least two of which are detachable, while the rotor is provided with thickenings and has, in a rough approximation, the same diameter, two detachable parts of the housing wall are located enes symmetrically relative to a plane extending symmetrically relative to a plane
fittings for adjusting the volume of the working chamber are installed on the rotor's axis of rotation, and on the stator housing.
FIG. 1 shows a side view of the device; in fig. 2 is a section along A-A in FIG. one; in fig. 3, 4, 5 - cutout according to FIG. 2; in fig. 6 is a side view of a second embodiment of the device; in fig. 7 is a schematic of a plant for processing maize, and FIG. 8-12 - FIG. 3 other examples of implementation.
The device comprises a stator 1, in the housing 2 of which the rotor 3 is mounted for rotation in bearings.
5 2 is mounted on frame 4 along a horizontal support frame 5 and opened downward into the hopper 6. Sifting is led through it. A longitudinal strut 7, on which a segment 8 is fixed with 9 thicknesses directed towards the working chamber, overlaps the frame 5 in the longitudinal direction.
The stator housing at the ends is closed with end plates 10 and 11, which are two parts of the housing wall, which
5 in the upper part are connected by a longitudinal strut 12 and rigidly fastened. The spacer carries another segment 13, the thickenings of which are directed into the working chamber 9 are diametrically opposed
0 thickening of the segment 8. In addition, they are equipped with two adjustable aspiration slots so that the sifting chamber is sufficiently ventilated. Screw connection between longitudinal strut
5 12 and the thickening segment 13 may be carried out using set screws, which regulate the distance between the segment 13 and the rotor 3.
Between both end plates
0 10 and 11 opposite sides of the longitudinal struts 7 and 12 there are two detachable parts 14 and 15 of the wall of the stator housing 2, located symmetrically relative to the plane passing
5 through the axis of rotation of the rotor. At their ends are corner profiles 16, which are connected with screws to the end plates 10 or 11. Parts 14 and 15 of the walls adjoin both end plates 10 and 11.
0 housing with end plates 17, which are rigidly connected to each other by two strips 18 and 19 of the corner profile and spacer 20 of the U-shaped profile. Another spacer 21 with ribs is screwed into spacer 20.
5 Between the spacer 20, on the one hand, and the strap 19, on the other, one perforated sieving segment 22 is fixed, located on the inner side of the stator housing and forming a working chamber with the rotor surface. Segments 21
installed between the segments 22 on the split parts of the housing wall.
Planks 18, 19, spacer 20 with segment 21, as well as end plates 17 are a building block. This unit, together with the corner profiles 16, forms parts 14 or 15 with which they are connected at the ends with means for adjusting the volume of the working chamber, made in the form of set screws 23 mounted on the stator housing. When the adjusting screw 23 is rotated, which requires little effort from the hand, the entire unit shifts to or from the axis of rotation of the rotor. If the screw connection between the bars 17 of the corner profile and the adjacent end plates 10, 11 is weakened, both parts 14, 15, i.e. the building block (pos. 17 to 21), including the bars 16 with the corner profile, are retracted to the side, and a working chamber 9 with a rotor is widely freely opened.
The core 24 of the rotor is formed by a hollow profile having an octagon in cross section, with an axial end 25. The rotor has roughly the same diameter. In the area of the working chamber, at least partially, along the entire length of the core 24, in equal segments, are fastened on screws with thickenings with a connector. The thickenings are made in the form of spikes, and the thickenings in the entrance zone (Fig. 1, left) are arranged in the form of a spiral or are designed.
The casing of the rotor 3 has a cylindrical surface. The working chamber 9, respectively, has a cylindrical shape with an annular cross section. The relative speed of the thickening of the rotor with respect to the thickening of the stator is the same along the entire length of the working chamber. The stator surface may also be slightly conical. As shown in FIG. 3, by rotating the adjusting screws 23 located in opposite sides of the working chamber, in the radial direction, the width of the working chamber 9 can be changed, in which opposite segments 21 with edges of both parts (14, 15) of the housing wall with adjacent segments 22 sift to the rotor 3 or from him. By adjusting the adjusting screws 23, it is possible to set the width of the working chamber 9 in the entrance zone to be larger or smaller than in the discharge zone. The shape of the working chamber 9 can thus be chosen optimally, taking into account the properties of the cultivated varieties of corn.
The device works as follows.
The intended corn is poured through the inlet 27 in the housing 2 of the combustion chamber from the working chamber. Due to the spiral structured
the surfaces of the rotor in the entrance zone of the corn grain are extracted into the working chamber, pounded between the thickenings and pressed to the far end where the parts of the powdery core of the powdery grain fall
0 into the chamber 28 between the rotor 3 and the end plate 11. Through the entire end plate 11 an outlet opening 29 passes, through which the convergence falls into the discharge bin 30, and which can be closed by turning
5 by a lid 31. The force required to close the lid is established by means of an adjustable weight 32, which can be moved on the lever 33 of the scale, rigidly connected to the lid 31. From the position
0 of the adjusting screw 32 depends on the time of passage of the powdery core through the working chamber 9.
During the grinding of corn grain in the working chamber 9 skin, sprout and parts
5 powdery grains are separated, and the separated particles, sprouts and a small fraction of the particles of the powdery seeds fall through the sifting segment into the bunker 6. Large particles of the powdery kernels move along working gauge 9 and enter as a vent through the outlet 29 into the discharge bin 30.
If during operation of the machine in the working chamber 9 there is a blockage, it can be eliminated by the fact that on one side
5, segment 21, together with adjoining sifting segments 22, is radially outward by rotating the adjusting screw until the blockage is eliminated. Then the segment with the edges again appears in
0 your working position.
As a result of the rubbing process that occurs in the working chamber, both the thickening plates 26 and the segments 8, 13 and 21 are subject to considerable wear. For
5 replacing the rotor 3 with the plate 26, it is sufficient to completely remove one of the two parts 14 or 15 of the housing wall after loosening the screw connection 34. After that, you can release one after the other plate 26
0 on the rotor 3 and replace them. If it is necessary to replace the four segments with thickenings 8. 13 and 21, then both parts of the walls 14 and 15 are removed in the described manner after loosening the screw connection 34. and the
5 segments are replaced.
A twofold increase in productivity with little constructive costs and needs in the production area is achieved in the embodiment according to fig. 5. Here both the stator and
the rotor is made symmetrically with respect to the vertical plane of symmetry located at a right angle to the rotor axis, in which the inlet nozzle is located 27. The product is introduced due to the opposite direction of the structure of the bulges on the rotor 3 in the inlet zone, and large particles of powdery The core at both ends of the rotor housing into the corresponding discharge bins 30. The grain, which is supplied through the inlet 27, is divided in the working chamber and goes in two opposite directions. Both directions of grain are subjected to the same treatment, and sifting is delayed, respectively, in two separate bins of b, which is brought together for further processing.
Unloaded and two bunker 30 gathering, i.e., large pieces of powdery kernels are connected for further processing.
FIG. 6 shows a plant for making corn flakes, with which a device 35 for cleaning corn kernels is connected with sprout separation according to the invention. After special units 36 for preparing corn kernels with water and / or steam, the grains fall into the device 35 according to the invention.
Grain and flour skimming can be supplied directly through centrifugal dust separator 37 to a flat-screen sorting 38. Combining the gathering with a sifter, as is required when using known devices (due to the proportion of flour and skins in the junk and up to 7%), is not necessary.
Sifting goes through other centrifugal dust separators 39 and 40 into the turbo-blower 41, which separates the powdery core particles contained in the sifting and through the weighing device 42 goes to the second flat screen sorting 43. A cost-effective method of cleaning the sifter with turbineer 41 (t. E. It is no longer loaded, as in the known devices, by the way it is used), it can provide smaller dimensions, and therefore lower cost.
In the embodiments corresponding to FIG. 7-11, the same figures denote the same parts as in the variants corresponding to FIG. 1-5. The variant corresponding to FIG. 7, differs from the others in that the distance along the radius between the seed segments 22 and the rotor 3 is also adjustable. To this end, seedlings
the segments 22 are rigidly fixed to the body with the help of flange plates. Each flange plate 44 has a slit slot 45 and is located opposite the plate 17. Further, the part of the sowing segment 22 bordering the profile bar 18 is bent to the outer side, so that the segment opposite the plank forms the bearing surface 46. the bolt 47 inserted into the slotted hole 45 is rigidly fixed to the tail plate and, moreover, covers the other part of the end of the sowing segment 22 bent to the outer side by a recess 48. The dredging, like the sowing segment 22, has a splined opening s 49 through which extends rigidly mounted knee U-shaped spacer screw. By tightening the screw 51 on the screw 51, the flanged plate 44 is rigidly connected to the U-shaped strut 20. To adjust the radial distance of the sowing segment 22 from the rotor 3, it is thus sufficient to loosen the bolts 47 and move the sowing segment.
In the embodiment of FIG. 8 the housing is made similar to the embodiment of FIG. 7. The difference lies in the design of the rotor core 3. Plates 26 are not placed on every flat portion of the octagonal diameter of the core 24, but only on every second. Blank plates 52 are installed between the plates 26. A variant in accordance with FIG. 9 differs from the embodiment shown in FIG. 7, in that the sowing segments 22 are not bent parallel to the rotor case, but are made exactly.
In the example of FIG. 10 are absent (in contrast to the previous examples) segments with thickenings on the side of the stator. Segments 8 and 13 with thickening are replaced with blind plates 53, and segments with thickening 21 are replaced with seeding segments 54. Here, the working chamber 9 has an octagonal annular cross section.
In the embodiment according to FIG. 11, the device has segments 8 and 13 with thickenings on the stator housing, while the segments 21 with thickening are replaced by sifting segments.

权利要求:
Claims (3)
[1]
1. Device for cleaning corn kernels and removing germs from them, including a stator, in the case of which the rotor is mounted in bearings rotatably, the inner side of the stator case has perforated sieving segments forming a working chamber with the rotor surface at least partially provided with bulges, the stator housing wall consists of four parts, at least two of which are detachable, while the rotor has, in a rough approximation, the same diameter, and two e of the housing wall are arranged symmetrically relative to a plane passing through the rotor axis of rotation, characterized in that, in order to increase ease of maintenance and handling qualities, it is provided with a housing mounted on sta0
tori with devices for adjusting the volume of the working chamber.
[2]
2. The device according to claim 1, characterized in that the devices for adjusting the volume of the working chamber are located on opposite sides of the working chamber.
[3]
3. The device according to paragraphs. 1 and 2, characterized in that the stator housing is provided with segments with ribs mounted between the plating segments on detachable parts of the housing wall with the possibility of movement to the axis of rotation of the rotor.
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类似技术:

公开号 | 公开日 | 专利标题

SU1762742A3|1992-09-15|Device for hulling maize grains to remove embryos therefrom

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同族专利:

公开号 | 公开日

HUT63350A|1993-08-30|

US5036757A|1991-08-06|

DD272417A5|1989-10-11|

ZA885373B|1989-03-29|

WO1989000454A1|1989-01-26|

CH673596A5|1990-03-30|

EP0327610A1|1989-08-16|

AT67690T|1991-10-15|

HU210050B|1995-01-30|

DE3809026A1|1989-02-02|

EP0327610B1|1991-09-25|

DE3865193D1|1991-10-31|

引用文献:

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US2108655A|1936-06-29|1938-02-15|Beall Improvements Company Inc|Degerminator|

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GB701169A|1950-06-15|1953-12-16|Arthur Collins & Son Pty Ltd|Improvements in or relating to maize and the like shellers|

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GB791077A|1953-06-12|1958-02-26|Ind Agricolas Levantinas S A|Improvements relating to the treatment of carob beans|

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US3734752A|1970-09-14|1973-05-22|Cpc International Inc|Processing cereal grains and seeds by a semi-dry milling method|

DE2423659A1|1974-05-15|1975-11-27|Leslie Palyi|De-husking and cleaning device for cereals - comprises perforated cylinder with annular lip-seal on front-surface|

CH624020A5|1977-09-30|1981-07-15|Buehler Ag Geb|

MX147108A|1979-01-24|1982-10-06|Felipe Salete Garces|IMPROVEMENTS TO GRAIN POLISHING AND BLEACHING MACHINE|

JPH039776B2|1983-07-15|1991-02-12|Satake Eng Co Ltd|

US4581798A|1983-08-13|1986-04-15|Soichi Yamamoto|Rice-cleaning roller of a grinding type|

MX159213A|1984-05-14|1989-04-20|Felipe Salete Garces|SCREEN AND ROTOR ASSEMBLY FOR GRINDING, CRIMPING, GRINDING AND BLEACHING MACHINES|

JPS61222544A|1985-03-28|1986-10-03|Soichi Yamamoto|Rice refining apparatus|US5048407A|1989-11-07|1991-09-17|Salete Garces Felipe|Grain husking and polishing machine|

JP3266167B2|1993-08-06|2002-03-18|株式会社サタケ|Resistor adjustment device for vertical grinding type grain mill|

DE4326836C2|1993-08-10|2002-06-20|Buehler Ag|Process and device for preparing grain for grinding|

US5938131A|1997-05-16|1999-08-17|Consolidated Process Machinery, Inc.|Hammermill with polygonal screen, regrind deflectors and hinged door mounting screen sections|

US6953165B1|2000-09-13|2005-10-11|The Quaker Oats Company|Corn milling process|

US6936294B2|2001-12-04|2005-08-30|Satake Usa, Inc.|Corn degermination process|

DE10251490A1|2002-11-04|2004-05-13|Bühler AG|Procedure for husking and degerminating of especially corn entails degerminating grains directly or after surface dampening, and carrying out of procedure in treatment zone between beater bars of drum which has protrusions|

US7246762B2|2003-04-21|2007-07-24|Cargill, Incorporated|Process of forming corn flaking grits of improved quality with minimization of production of corn doubles|

CN1301797C|2004-04-27|2007-02-28|任光利|Milling roller of flour mill, method for machining milling teeth on milling roller surface and use of milling roller|

EP1721672A1|2005-05-10|2006-11-15|Costimex S.A.|Process for treatment of corn and device for carrying out this process|

JP4849520B2|2006-02-11|2012-01-11|独立行政法人農業・食品産業技術総合研究機構|Apparatus and method for producing surface-treated granular material and surface-treated granular material|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

CH2783/87A|CH673596A5|1987-07-22|1987-07-22|

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