前苏联专利SU1384208A3 Method and apparatus for packing metal particles with subsequent breaking of packed metal band

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优先权

专利摘要:
An apparatus for the passivating, multistage compaction of hot iron particles supplied in the form of a packed bed from a reduction unit and for the subsequent breaking apart of the compacted iron band is described. Prior to the final compacting, the iron particles pass through a homogenizing and precompressing stage. Thus, the compacted iron has a pore volume of max. 40% and a density of at least 5.5 g/cm3. The iron compacted to a band is subsequently guided between the rollers (7,8,11) of a separating stage exposing it to bending stresses such that it breaks apart at the predetermined desired breaking points. The breaking points have a smaller density than the band regions between them. They can be produced in that in the precompression stage the feed speed is briefly decelerated compared with the feed speed in the compaction stage or in the compaction stage there is less marked compression at these points than in the intermediate regions.
公开号:SU1384208A3
申请号:SU864027020
申请日:1986-02-26
公开日:1988-03-23
发明作者:Лангнер Клаус
申请人:Корф Инжинеринг Гмбх (Фирма)；
IPC主号:

专利说明:

ABOUT)
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break up into briquettes at predetermined points of acceleration in the breaking system of the rolls. These techniques are carried out with the help of a device which contains gland plates 2 installed in front of the press rolls 4, which are mounted so that they can be moved along and across the material feed direction. In this case, the plates 2 can be positioned between the restrictive cheeks 3 and move with a cam or eccentric drive, the pressing rolls can contain transverse or longitudinal ribs, and behind them a conveyor 5 with a magnet 6 is made. The system of breaking rolls, one of which is driven, contains a pair of end rolls surface forming in terms of the angle of fracture of at least 30 °. The invention allows to passivate sponge iron qualitatively and increase efficiency. 2 sec. and II zp f-ly, 11 ill.
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The invention relates to metallurgy and is used for passivation and the manufacture of sponge iron briquettes.
The purpose of the invention. The simplification and cheapening of the process.
Figure 1 shows a device for compacting metal particles and subsequent breaking of a compacted metal strip, the first option; Fig. 2 shows a compacted metal tape with fracture lines breaking upon breaking; in Fig. 3 - a briquette formed as a result of breaking the tape in perspective and in cross section; Fig. 4 shows the cutting profile of two mutually opposed rolls in the cutting stage, view in the feed direction; Fig. 5 shows the arrangement of the rolls at the cutting stage and deflection angles, of the belt; in Fig. & - a device for compacting metal particles and breaking a packed metal strip, the second option; Fig. 7 shows the arrangement of the rolls at the cutting stage in the device in accordance with Fig. 6 with the limiting deflection angles; on Fig - section aa in figure 6; Fig. 9 shows the profile around the roll circumference at the cutting stage; Fig. 10 shows a step seal in accordance with a second embodiment; Fig. 11 is a metal tape manufactured with sealing steps in accordance with Fig. 10.
The device in accordance with FIG. 1 has a boot of 1, in which
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the metallized particulate product is loaded with a temperature above 700 ° C in the direction of the arrow. The product, for example sponge iron, is then fed to the homogenization and pre-compaction stage, which has two opposing plates 2, which perform the opposite rotational movement. This movement is created, for example, by an eccentric drive. With the transverse direction relative to the plates 2 of the lateral limiting cheeks 3, the particulate-shaped product is held in such a way that the components of the movement of the plates 2 across the vertical feed direction create a force that is sufficient to reduce the volume of the voids of the product. By the time of the greatest impact of the force of the plates 2 on the load of the product, at the same time the plates move in the feed direction, which either corresponds to the peripheral speed intended for compaction of the next rolls 4 or below this speed. If the lowering speed of the plates 2 is lower than the circumferential speed of the rolls 4, then in the metal tape made by the rollers 4, certain transverse feeding directions are formed, given break points with a smaller packing. Then, the tape breaks in a horizontal direction at these predetermined break points. Passing in the feed direction
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The plates 2 may also have a higher speed than the circumferential speed of the rolls 4, resulting in a positive working pressure on the load.
In the pre-compaction stage, the loading should be compacted to at least 20 vol.%. The tape-shaped load thus sealed is then fed to the rollers 4 for final compaction. The rolls 4 can have a smooth surface or, in order to increase the pulling capacity and create predetermined fault points, they can be equipped with grooved recesses. They rotate in the opposite direction and continuously compact the metallized product to obtain a homogeneous tape with an average density of at least 5.5 g / cm. This density is sufficient in order to protect the product from a significant loss of metallization even during long-term storage in the open air.
Before cutting out the gap between the rolls 4, the endless belt must be cooled to a temperature below 400 ° C. The cooling of the belt is in the device according to Fig. 1 in the transfer chute 5 using water injection.
When using vertical or inclined transfer chutes, it is necessary to take into account that the product tape is only broken, and the resulting pieces, due to their own acceleration, exceed the tape feed rate and are retracted. This process usually leads to blockages. In order to eliminate this drawback, a magnet 6 is provided, by which possible individual pieces are braked in the overflow chute 5 so that their falling speed does not exceed the feed speed of the tape, and they shift the subsequent section of the tape to the grinding stage.
After passing through the transfer chute, the product tape is caught by the cutting rollers 7 and 8. The rollers 7 and 8 have a surface profile visible in Figure 4. Thus, the tape is bent centrally in the longitudinal direction by an angle. If the angle o (o is more than 15, then with
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The corresponding bending forces usually lead to the formation of vertical fracture lines 9 (Fig. 2) in the longitudinal direction of the belt.
Then, the longitudinally divided tape deflects in the feed direction to the corresponding angle d (Fig. 5), as a result of which the tape is subjected in the transverse direction to a force that causes the fracture to at least crack if the angle o is equal to or exceeds 15 °. Then, using an IO stripper, the tape is fed between the cutting roller 8 and another roll 11 located opposite it, so that the tape, which has at least the specified fault points in the transverse direction of the crack, is deflected in the opposite direction by angle el. With this, the tape, if it has not yet broken, is finally destroyed along the horizontal fault lines I2 (Fig. 2) in the hollows shown in Fig. 3.
The advantage of the proposed device is that no impact energy should be used to separate the tape, so that an excessive proportion of small fragments are not formed. In addition, unconsolidated or semi-compacted metal particles that fall out during the start-up mode without any problems pass through constantly away from; covered, the gap between the rollers. If in some cases there is a congestion, it can be eliminated by quickly raising the roll 8 in the direction of the arrow. A particular advantage is that absolute synchronous rotation is not required for the knives 4 and the cutting rollers 7, 8 and II , because the enabling rolls do not create a geometrical closure relative to the tape, but only a relatively small power pattern, so that a certain slippage of the tape relative to the cutting rolls is possible. Therefore, the preferred circumferential speed of the cutting rolls is slightly higher than the circumferential speed of the rolls 4.
In the device in accordance with FIG. 6, in the lower zone of the loading shaft 1, a roller 13 is equipped with teeth, which grinds agglomerates and the like among the pellets turned out and, moreover, creates a positive pressure in the feed direction, if the circumferential speed of the toothed roller is greater speed down the product.
E drive plate 2 stages of homogenization and preliminary. the combination of the eccentric shaft 14 and the hinge lever 15 is selected. While the eccentric rolls 14 create the forces required for the seal, the hinged levers 15 hold together the lower ends of the plates 2 in such a way that during the reverse course of the plates the loaded product cannot punch down from the loading mine 1.
While in the device in accordance with FIG. 1, the cutting stage is located directly below the sealing stage, in the device in accordance with FIG. 6, a corresponding arrangement takes place with a shift to the side. Therefore, the transfer chute 5 has the shape of a circular arc section. The advantage of this design lies in the fact that the individual pieces cut after compaction from the tape do not fall freely, but follow a curved passage of the transfer chute 5 and, accordingly, are braked as a result of friction. However, it is necessary to give the associated product tape an appropriate curvature so that during normal operation the tape without large friction losses follows the bend of the transfer chute 5. This kind of curvature is created by the fact that rolls 4 get ahead, i.e. the number of revolutions of these rolls is set slightly higher than the number of revolutions of the opposite rolls. However, such a roll slip is possible only with the use of smooth rolls.
The tangent T formed at the exit of the transmitting drain chute 5 forms the tangent T j formed with the cutting rolls 7 and 8 with this groove of the tangent T j and the entrance angle c pre-bent according to the bend of the product transfer chute so that the tape deviates in the opposite direction at that angle in the feed direction. If at the same time
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the final break of the belt does not occur, then this happens later due to the deflection that occurs with the help of the cutting rolls 8 and 11. Further, the product strip breaks in the longitudinal direction, since the cutting roll 8 (Fig. 8) has a convex surface and at least the cutting roll 7 has a concave surface. In the device according to Fig. 6, in the transfer chute 5, the product belt is cooled by injecting water, so that the temperature of the belt when entering the gap between the two cutting rollers 7 and 8 is lowered below 400 ° C. In order to increase the possibilities of pulling or gripping the cutting rolls, the roller 8 having a convex shape can be equipped with a gear section in accordance with FIG. 9.
In the embodiment of the device in accordance with FIG. 10, the rollers 4 have axially extending ribs 16, respectively. The sealing tape 17 of the product 17 accordingly has elevations 18 in the form of bulges, which (since the material in these places are less compacted) form in the form of zones located between them the specified places of breaking the tape of the product 17. Therefore, the tape of the product breaks in certain places.

权利要求:
Claims (13)
[1]
1. A method of compacting metal particles and subsequent breaking of a compacted metal strip, including the treatment of hot iron particles between the sealing rollers with rollers
The first stage and the supply of compacted material in the form of a tape At the stage of separation into briquettes, characterized in that, in order to simplify and reduce the cost of the process, part of iron cuts are subjected to homogenization and pre-compaction into the tape before the compaction, and the compacted tape is broken between the rollers at the specified fracture points bending stress.
[2]
2. A method according to claim 1, characterized in that at the stage of homogenization and pre-compaction, the load is compacted to 20% by volume.
[3]
3. The method according to claims 1 or 2, about the fact that iron compaction is carried out to a porosity of 40%.
[4]
4. The method according to claims 1 to 3, about tl and the fact that the specified fracture points are created at the stage of homogenization and pre-compaction by slowing down the material supply or by reducing the compaction at these places.
[5]
5. The method according to claims 1-4, from l and the fact that the breaking of the tape is carried out by deflecting the tape at an angle of at least 15 °.
[6]
6. The method according to claims 1-5, about tl and is due to the fact that breaking the tape into at least two strips is carried out at an angle of bend of at least 30 °.
[7]
7. A device for compacting metal particles, comprising sealing rollers and a separation unit of a compacted metal tape, characterized in that two pressure plates are installed in front of the sealing rollers with simultaneous movement along the length and across the material feed direction.
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[8]
8. The device according to claim 7, characterized in that a cam mechanism or an eccentric drive is used to move the plates.
[9]
9. The device according to PP.7 and 8, o t, which is characterized by the fact that it is provided with distance from one another, equal to or less than the width of the sealing rolls, two limiting cheeks, between which the clamping plates are placed.
[10]
10. A device according to claims 7-9, characterized in that the sealing rolls are provided with transverse and / or longitudinal ribs.
[11]
11. Device on PP. 7-10, about t - l and the fact that between the sealing and breaking rollers a conveyor with a magnet is installed.
[12]
12. Device on PP. 7-11, about t - is that one
from breaking rollers made drive.
[13]
13. A device according to claim 12, characterized in that the end surfaces of the rollers for breaking
in plan form a bending angle of at least 30.
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类似技术:

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同族专利:

公开号 | 公开日

GB2171354B|1989-01-05|

GB2171354A|1986-08-28|

ZA86873B|1986-09-24|

GB8602963D0|1986-03-12|

IT8619529D0|1986-02-25|

KR860006551A|1986-09-13|

US4769211A|1988-09-06|

DE3509616C2|1987-04-30|

IT1189989B|1988-02-10|

IN165222B|1989-09-02|

DE3509616A1|1986-09-04|

DD247026A5|1987-06-24|

US4804319A|1989-02-14|

JPS61200862A|1986-09-05|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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US2287663A|1940-12-07|1942-06-23|Minerals And Metals Corp|Metal production|

US2708770A|1952-11-20|1955-05-24|Allegheny Ludlum Steel|Apparatus for making continuous electrode sticks|

US2994917A|1953-07-31|1961-08-08|Chemetals Corp|Apparatus for rolling metal powder|

US3095262A|1957-10-15|1963-06-25|Bethlehem Steel Corp|Compacting metallic powders|

US3122434A|1960-06-03|1964-02-25|Republic Steel Corp|Continuous process of producing strips and sheets of ferrous metal directly from metal powder|

US3075243A|1960-09-07|1963-01-29|United States Steel Corp|Briquetting method and apparatus|

US3300815A|1964-12-17|1967-01-31|United States Steel Corp|Briquette-parting apparatus|

US3986869A|1974-03-01|1976-10-19|Showa Denko Kabushiki Kaisha|Process for making electrolytic capacitor anodes forming a continuum of anodes and cutting the continuum into individual bodies|

ZA762594B|1975-06-05|1977-04-27|Midrex Corp|Method and apparatus for continuous passivation of sponge iron material|

US4067096A|1975-11-12|1978-01-10|Whalen Jr Mark E|Method for making a reconstituted metal strand|

US4165978A|1978-07-14|1979-08-28|Midrex Corporation|Briquet sheet breaking by cooling and bending|

US4196891A|1978-07-14|1980-04-08|Midrex Corporation|Briquet strip breaker|

SU984676A1|1981-04-09|1982-12-30|Белорусский Ордена Трудового Красного Знамени Политехнический Институт|Method and apparatus for cyclic pressing of elongated powder articles|

US4462526A|1982-06-14|1984-07-31|Midrex Corporation|Continuous briquet sheet separator|

GB2134428B|1983-02-03|1987-06-17|Metal Box Plc|Continuous extrusion of metals|

US4605599A|1985-12-06|1986-08-12|Teledyne Industries, Incorporated|High density tungsten alloy sheet|JP3080297B2|1996-04-19|2000-08-21|片山特殊工業株式会社|Method for producing metal sheet and metal sheet produced by the method|

US7156274B2|1999-08-17|2007-01-02|Pufahl Joseph A|Media separating apparatus and method|

US6702170B1|1999-08-17|2004-03-09|Joseph A. Pufahl|Media separating apparatus and method|

DE10156735C2|2001-11-19|2003-10-30|Koeppern & Co Kg Maschf|Process for the hot granulation of metal-containing material particles, such as sponge iron, metallurgical dust, metallurgical residues etc.|

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DE102007045373A1|2007-09-22|2009-04-02|Cemag Anlagenbau Gmbh|Method and device for pre- and final grinding of mineral and non-mineral materials|

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US7648358B1|2008-10-08|2010-01-19|Holon Seiko Co., Ltd.|Plastic pellet forming apparatus|

DE102010009086A1|2010-02-24|2011-08-25|ZEMAG Maschinenbau GmbH, 06729|Method for splitting scab into individual briquettes, involves supplying scab to sphere of action of strip-like profiled driven firm roller of double roll crusher in inclined angle|

DE202010002719U1|2010-02-24|2010-06-02|Zemag Maschinenbau Gmbh|Device for dividing a scab in individual briquettes|

US9028241B2|2012-07-31|2015-05-12|Michelin Recherche Et Technique S.A.|Stripper roll for use with calendering drives processing elastomeric mixes|

AU2014304564A1|2013-08-09|2015-12-10|Xtrutech Ltd.|A method of compaction of a powder and a roller compaction device|

CN109648910B|2019-01-29|2021-01-05|王力|A material collecting groove device for improving powder ball pressing forming strength|

CN111013713B|2019-12-24|2022-01-21|广东电网有限责任公司|Single-transmission roller press for mountain stone in-situ crushing for construction of power station in mining area|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

DE3509616A|DE3509616C2|1985-02-27|1985-02-27|

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