Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
  • B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
  • B02C4/00—Crushing or disintegrating by roller mills
  • B02C4/28—Details
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
  • B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
  • B02C4/00—Crushing or disintegrating by roller mills
  • B02C4/02—Crushing or disintegrating by roller mills with two or more rollers

Definitions

• the invention relates to a roller machine for pressure treatment of granular material, in particular roller press for Gutbettzerklein ceremonies or compaction or briquetting, with rotatably mounted in bearing housings counter-driven and separated by a roller gap rollers, the bearing housing with its lower and upper sides on slideways of machine consoles are stored, with the use of hydraulic cylinders for pressing the one roller over the material located in the nip against the opposite roller.
• one of the two rollers is designed as a fixed roller, which is supported on their bearing housing against end pieces of the machine frame, while the other roller as a Loswalze on the bearing housing is supported on hydraulic cylinders with which the roller pressing force is applied.
• roller presses are not only because of the very large and heavy expectant rollers consuming in the production and they are only with great effort mountable.
• a roller mill may be superior to a bed crushing roller press.
• the invention has for its object to provide a roller press, which can significantly overcome previous limits in terms of throughput, but also in terms of specific energy requirements.
• two pairs of rollers are mounted side by side on the slides of the machine consoles, that is, four rollers are axially parallel to each other, and the two pairs of rollers correspondingly form two nips for pressure treatment of the feed.
• the upper sides of both nips are expediently supplied with feedstock from a common pre-bunker via a material flow divider and two oblique feed chutes.
• Below the nips of the two pairs of rolls the Gutaustragsschurren can be brought together to form a common Gutaustrag, and / or the Gutaustragsschurren the two pairs of rolls can also be performed separately to Guteintragsö Samuelen two classifying devices.
• tandem roller press or tandem cycle grinding system according to the invention also has the particular advantage that, for example, during required maintenance work, the machine unit can continue to operate at 50% power by only one half of the machine unit being shut down. while the other half of the machine continues to operate, and vice versa.
• both the investment costs and the spatial space requirements are reduced compared to the installation of two conventional roller presses, if only because only a single common machine frame, single common Vorbunker etc. are required.
• the two inner facing rollers of the two pairs of rollers may be formed as a fixed roller, while the two outer rollers of the two pairs of rollers are formed as transverse to the respective nip movable Loswalzen.
• the hydraulic raulikzylinder which are pressed against the bearing housing of the two Loswalzen, based on side parts of the machine frame.
• the hydraulic cylinders can also be arranged such that they engage each roller gap both on the bearing housings of one roller and on the respectively opposite bearing housings of the respective other roller, forming one per roller pair in FIG closed mill press system without closed machine frames loaded with the radial roller press forces.
• the hydraulic cylinders may each be transverse to the respective nip between the respective opposing bearing housings arranged pull cylinder, which contract the opposite bearing housing and thus the two grinding rollers per pair of rollers. If the hydraulic cylinders are each designed as double-acting cylinders, they can be used not only to apply the roller pressing force, but also to move apart the two rollers per pair of rollers when the pressure medium is applied in the opposite direction.
• rollers can be designed as loose rolls which are movable transversely to the nip, whereby all four rolls are loaded equally and uniform wear occurs on the roll surfaces.
• the rollers can be held by mounted on the machine consoles positioning cylinders that can center the nip respectively to the zero position.
• the tandem roller press according to the invention is in principle open to the side. Since heavy-weight end pieces of the machine frame omitted, the rollers z. B. replaced during a repair without lengthy disassembly of the machine frame, that is dismantled and mounted.
• the two classifying devices which can be installed underneath the two pairs of rollers are static cascade classifiers through which the squeeze material slips pass and sift, and if necessary, a dynamic rod sifter with rotating rod basket is optionally arranged after the two static cascade sockets can be.
• the separator grain fraction can be recirculated to feed the roll press.
• Fig. 2 on a reduced scale, the side view of the roller press of Fig. 1, and
• Fig. 3 in end view / side view of the tandem roller press with arranged below tandem sifter as part of tandem grinding circuits.
• the tandem roller press of FIG. 1 has no self-contained machine frame for receiving the roller press forces, but the frame consists essentially only of two spaced transverse to the nips brackets 10, the tops have flat slideways. There is a right pair of rollers with the rollers 1 1 and 12 and a left pair of rollers with the rollers 13 and 14 are present. All four axis-parallel rotatably mounted, counter-driven and per pair of rollers each by a Nip of separate rolls are formed as transversely movable to the nip rollers.
• rollers 11, 12 are mounted at their two ends in bearing housings 15 and 16, and analogously, the rollers 13, 14 are mounted at their two ends in bearing housings 17 and 18, and all the bearing housings are provided with their lower and upper sides the slideways of the lower brackets 10 and upper brackets 10 a stored.
• All four rollers 1 1 to 14 can thus translate with their bearing housings on the slides of the brackets transversely to the respective associated nip translationally back and forth, wherein the upper slide track guide of the bearing housing is indicated by the numeral 10 a.
• the connecting element between the upper and lower console 10, 10a is indicated in Fig.2 with the numeral 10b.
• the roller pressing force for compressing the material to be comminuted in the two nips is applied with a total of eight hydraulic cylinders, of which the two hydraulic cylinders 19 and 20 of the right-hand pair of rollers and in the front view of FIG the two hydraulic cylinders 21 and 22 of the left pair of rollers can be seen, which connect the respective opposite front bearing housing directly together.
• Both ends 23 and 24 of the upper hydraulic cylinder 19 are articulated as well as in all other hydraulic cylinders on or in the respective opposite bearing housings 15 and 16, etc.
• the hydraulic cylinders 19, 20 and 21, 22 are arranged so that they act on each pair of rollers on both the bearing housings of one roller and the respective opposite bearing housings of the other roller to form a respective closed Mahlpress mechanisms, so that one with the roller Presskraft burdened heavy-weight machine frame is unnecessary.
• the cylinders can also be used to move apart the rollers of the two pairs of rollers.
• Fig. 1 also makes it clear that in the tandem roller press according to the invention at least the respective outer rollers of the two pairs of rollers including bearing housings to the outside, that is to the right and left side without interference by a machine frame on the brackets 10th pull out.
• Fig. 3 you can see the roller 1 1, including bearing housings in the pulled-out position.
• both pairs of rollers are held by positioning cylinders 25 and 26, which are fixed to the machine consoles 10 and the cylinder tubes of the Hydraulic cylinder 20 or 22 or attack on another suitable component of the system to be able to center by actuation of the positioning cylinders 25 and 26, the two pairs of rollers with respect to the zero position, even during machine operation.
• the positioning cylinders 25 and 26 adopting a control function can at the same time be hydropneumatic damping components for damping the vibrations and shocks arising during machine operation.
• two feed chutes 27 and 28 are arranged, which are connected via an adjustable crop divider 29 to a common crop inlet 30, via which the two nips are separated from one another. seed bunker with material to be shredded.
• the respective crop flow on the crop divider 29 can even be completely interrupted, while the other pair of rollers continue to work.
• the tandem roller press according to the invention is compact despite the existing four parallel axes.
• the axial distance between the inner rollers 12 and 13 is only the size of the roller diameter plus an addition of z. B. 0.5 meters.
• this center distance would be side by side of a roll diameter plus at least 4 meters.
• a vertical central partition 38 To protect the working space can be arranged between the two roller presses 1 1/12 and 13/14 a vertical central partition 38.
• the Gutaustragsschurren 31 and 32 are guided to a common Gutaustrag 33 for discharging the pressing slugs below the nips of the two pairs of rolls.
• the two classifier devices each consist of a static cascade sifter, with two visual zone boundary walls which form a classifying zone 40 and of classifying air 41 or hot gas as drying gas, for example, flowing obliquely downwards for discharge for the selected coarse grain fraction 42 inclined cascade-like or louver-like arranged baffles 40a and 40b, said two baffle walls and thus the intermediate visual zone 40 are arranged obliquely with a deviating from the vertical angle.
• the sighting air flowing in via a common merge povertyzuströmungsgeratiuse is divided into the right-hand reformluftteilstrom 41 and in the same way to a left reformluftteilstrom and fed to the respective classifier.
• the cascade classifiers, through which the classifying air flows, act as deagglomerators for the product slugs discharged by the tandem roller press, which, if necessary, together with still fresh ground material, are fed to the two cascade classifiers at the top.
• the classifying air 41 from the material to be screened out the fine material fraction, and the classifying air laden with fine material 43 is withdrawn from the grinding circuit via a pipe led out through one or both side walls, while the coarse grain fraction 42 separated from the material to be classified by the cascade classifier each pair of rollers of the tandem roller press recirculated and subjected to a further Gutbettbe retailung.
• each of the static cascade classifier may still be a dynamic Stabkorbsichter be arranged with rotating rod basket 44, with at least one Austragskrümmer to deduct the loaded with the fines 43 sifting air.
• the fine material 43 is then separated from the prepare Kunststoff outside the Kreislaufmahlstrom.
• a middle grain fraction 45 can be withdrawn, which together with the coarse grain fraction 42 can also be recirculated to the crop feed of the roller presses.
• the dynamic rod basket separators with their rod baskets 44 used as defaulters for the static cascade classifiers can also be arranged above the tandem roller press, as is known in principle from DE 102 21 739 A1.

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• Engineering & Computer Science (AREA)
• Food Science & Technology (AREA)
• Crushing And Grinding (AREA)
• Press Drives And Press Lines (AREA)

Applications Claiming Priority (2)

Publications (1)

Family

ID=37983619

Family Applications (1)

Country Status (8)

Families Citing this family (13)

Family Cites Families (11)

• 2006
  • 2006-01-31 DE DE102006004282A patent/DE102006004282A1/de not_active Withdrawn
• 2007
  • 2007-01-31 WO PCT/EP2007/000799 patent/WO2007088029A1/de active Application Filing
  • 2007-01-31 AU AU2007211608A patent/AU2007211608A1/en not_active Abandoned
  • 2007-01-31 EP EP07703153A patent/EP1981638A1/de not_active Withdrawn
  • 2007-01-31 RU RU2008130971/03A patent/RU2008130971A/ru unknown
  • 2007-01-31 US US12/162,861 patent/US7896272B2/en not_active Expired - Fee Related
  • 2007-01-31 CN CNA2007800086513A patent/CN101400446A/zh active Pending
• 2008
  • 2008-07-23 ZA ZA200806414A patent/ZA200806414B/xx unknown

Non-Patent Citations (1)

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