WO2011111735A1 - 焼結機における原料装入装置 - Google Patents

焼結機における原料装入装置 Download PDF

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Publication number
WO2011111735A1
WO2011111735A1 PCT/JP2011/055494 JP2011055494W WO2011111735A1 WO 2011111735 A1 WO2011111735 A1 WO 2011111735A1 JP 2011055494 W JP2011055494 W JP 2011055494W WO 2011111735 A1 WO2011111735 A1 WO 2011111735A1
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WO
WIPO (PCT)
Prior art keywords
chute
scraper
raw material
charging
ceramic tile
Prior art date
Application number
PCT/JP2011/055494
Other languages
English (en)
French (fr)
Japanese (ja)
Inventor
祐二 深倉
洋平 坪根
貴司 篠原
導宣 齋藤
Original Assignee
新日本製鐵株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 新日本製鐵株式会社 filed Critical 新日本製鐵株式会社
Priority to JP2011536666A priority Critical patent/JP4943562B2/ja
Priority to BR112012022663-0A priority patent/BR112012022663B1/pt
Priority to CN201180012969.5A priority patent/CN102792113B/zh
Priority to KR1020127023446A priority patent/KR101460870B1/ko
Publication of WO2011111735A1 publication Critical patent/WO2011111735A1/ja

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27BFURNACES, KILNS, OVENS, OR RETORTS IN GENERAL; OPEN SINTERING OR LIKE APPARATUS
    • F27B21/00Open or uncovered sintering apparatus; Other heat-treatment apparatus of like construction
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22BPRODUCTION AND REFINING OF METALS; PRETREATMENT OF RAW MATERIALS
    • C22B1/00Preliminary treatment of ores or scrap
    • C22B1/14Agglomerating; Briquetting; Binding; Granulating
    • C22B1/16Sintering; Agglomerating
    • C22B1/20Sintering; Agglomerating in sintering machines with movable grates
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27BFURNACES, KILNS, OVENS, OR RETORTS IN GENERAL; OPEN SINTERING OR LIKE APPARATUS
    • F27B19/00Combinations of furnaces of kinds not covered by a single preceding main group
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27DDETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
    • F27D3/00Charging; Discharging; Manipulation of charge
    • F27D3/0033Charging; Discharging; Manipulation of charge charging of particulate material

Definitions

  • the present invention relates to an apparatus for charging a sintered material used when a sintered material is charged onto a pallet in a Dwightroid-type sintering machine, and more particularly to remove the sintered material adhering to the material charging chute.
  • the present invention relates to a charging device having a scraper.
  • a sintered raw material is cut out from a raw material hopper by a drum feeder, and the sintered raw material is charged onto a pallet through a chute (also called a sloping chute).
  • a chute also called a sloping chute.
  • the upper layer part of the raw material layer is charged with a larger amount of fuel (carbon source) than the lower layer part, and the lower layer part is charged so that the raw material particle size is coarser than that of the upper layer part.
  • a classification device is used in which a sieve bar is provided in a stepped manner toward the pallet direction at the tip of the chute (see Patent Document 1).
  • the sintered raw material contains moisture added during granulation and has a property of being easily adhered. Therefore, with the operation of the sintering machine, the raw material gradually adheres and accumulates on the sliding surface (upper surface) of the chute, and the smooth flow of the sintered raw material is hindered. In particular, at the raw material falling point above the chute, the raw material falling position is constantly changing, and the attached raw material is less likely to be washed away by the next raw material falling from above, and it is particularly easy to deposit. ing. Thereby, it is necessary to periodically remove the attached raw material.
  • each grain of the sintering raw material slides down so as to flow on the chute, It is necessary to pour onto the top.
  • the flow of the sintering raw material becomes irregular, the charging state of the raw material under the adhered portion may change.
  • Patent Documents 2 and 3 a scraper that slides on the sliding surface of the chute is provided, and it is periodically operated to scrape off the material adhering and depositing on the sliding surface. To be removed.
  • Ceramic tiles have distortions due to firing, and a deviation of about 0.2 mm is allowed as a dimensional tolerance, and the shape of each tile is often slightly different. Therefore, in a chute where the sliding surface is lined with ceramic tiles, a step is easily formed at the joint between the tiles.
  • the scraper cannot be slid directly on the sliding surface like a chute using a wear-resistant steel plate. Therefore, a roller is attached to the bottom surface of the scraper so that the scraper can smoothly get over the step portion of the tile joint, and the lower surface of the scraper is supported by being floated from the tile surface. With this configuration, the lower surface of the scraper is prevented from contacting the step portion of the tile joint.
  • Patent Document 1 a groove is provided on the bottom surface of the scraper to solve the problem of the scraper floating due to the raw material left behind.
  • the sintered raw material is scraped off by the corners of the groove, and the scraped raw material is discharged out of the machine through the groove.
  • this apparatus has a configuration in which the scraper with the bottom face closed slides directly on the chute surface. As described above, this technique cannot be applied to a scraper configured to slide in a state where the bottom portion is floated from the chute surface.
  • the object of the present invention is to provide a charging apparatus for a sintered raw material that ensures the strength of the scraper, prevents the lower surface of the scraper from floating from the chute surface, and can be operated in a stable state.
  • a charging apparatus for a sintering raw material includes a chute for charging a sintering raw material onto a pallet; the reciprocating movement on the chute, and the deposit on the chute A scraper that removes the sintering raw material from the chute, the scraper being inclined with respect to the upper surface of the chute, and a scraper tool attached to the front end of the lower surface side of the inclined plate And a support frame that supports the inclined plate, and a roller device that is attached to the support frame and causes the inclined plate and the support frame to travel on the upper surface of the chute;
  • the width dimension of the chute is at least substantially the same as the width dimension of the inclined plate.
  • the sintering raw material charging device described in (1) above has a space that is continuous in the width direction of the chute and communicates with the outside of the scraper behind the scraper tool. It is preferable.
  • the support frame has a vertical reinforcing plate that extends to the front side of the inclined plate, and a horizontal reinforcing plate that extends in the width direction of the inclined plate. It is preferable that the space is formed by forming a diagonal notch at the tip of the longitudinal reinforcing plate.
  • the parallel reinforcing plate extends in a direction parallel to the chute.
  • the scraper tool and the support frame are supported by the roller device at a distance from the upper surface of the chute; It is preferable that the space
  • the sintered raw material charging apparatus according to (1) is configured such that when the scraper tool reaches the front end of the chute, the inclined plate covers a position where the sintered raw material falls. Preferably there is.
  • the chute preferably includes a substrate and a plurality of ceramic tiles arranged on the surface of the substrate.
  • the support frame for supporting the inclined plate since the support frame for supporting the inclined plate is provided, the strength of the scraper is reduced when removing the raw material of sintering attached to the chute. It can be improved sufficiently. As a result, it is possible to prevent the lower surface of the scraper from floating from the surface of the chute and to operate in a stable state.
  • the charging apparatus for the sintering raw material described in (2) above since the space connected to the outside of the scraper is formed behind the scraper tool, the burning accumulated in the rear of the scraper tool through this space.
  • the raw material can be discharged outside the scraper. Therefore, the sintering raw material is accumulated behind the scraper tool, and the scraper can be prevented from floating. As a result, the charging of the sintered raw material can be carried out stably.
  • the support frame since the support frame has the vertical reinforcing plate, the horizontal reinforcing plate, and the parallel reinforcing plate, the strength of the scraper can be further improved. it can.
  • the apparatus for charging a sintered raw material described in (4) above even when the scraper is operated with the lower surface of the scraper floating above the upper surface of the chute, the sintering material accumulated inside the scraper tool as the scraper operates.
  • the binding material can be discharged out of the machine through the space between the upper surface of the chute and the lower end of the support frame. Thereby, it is possible to stably carry in the charging of the sintered raw material without causing the problem of the scraper floating.
  • the scraper can be operated even during operation of the charging apparatus. It becomes possible to remove the sintering raw material adhering to the chute.
  • the raw material particles do not jump up and the sintered raw material can be efficiently supplied to the chute.
  • FIG. 3 is a detailed view of the scraper of FIG. 2. It is detail drawing of the front part of the scraper. It is a front view of the chute lined with ceramic tiles. It is a figure explaining the detail of the tile joint part of the chute lined with the ceramic tile. It is a top view which shows the whole scraper.
  • FIG. 8 is a view taken along the line AA in FIG. 7 and shows an example of the structure of the support frame of the scraper.
  • FIG. 8 is a view taken along line BB in FIG. 7. It is a figure which shows the side guide apparatus provided in the scraper.
  • the sintered raw material charging device A includes a chute 4 and a scraper 15.
  • the chute 4 is provided between the drum feeder 3 and the pallet 7 of the sintering machine, and supplies (charges) the sintered raw material cut out by the drum feeder 3 onto the pallet 7.
  • the chute 4 is attached on a support carriage 11 that travels on a pair of rails 10 laid along the conveying direction of the pallet 7.
  • a tilting base 12 for supporting the chute 4 so as to be tiltable is attached to the support carriage 11.
  • One end side of the tilting gantry 12 is supported so as to be rotatable by a shaft body 13 attached to the frame body of the support carriage 11.
  • the other end of the tilting frame 12 is connected to a rod of a drive cylinder device 14 that is attached to the frame of the support carriage 11 so as to be rotatable.
  • the chute 4 and the scraper 15 can be adjusted to a desired inclination angle.
  • FIG. 2 shows an example in which a classifier 5 having a sieve bar 6 as shown in Patent Document 1 is attached to the tip of the chute 4.
  • the distance between the chute 4 and the drum feeder 3 and the inclination angle of the chute 4 can be adjusted by the inclination angle of the tilting gantry 12 with respect to the position of the support carriage 11.
  • FIG. 2 shows an example in which a drive device 32 for rotationally driving the sieve rod 6 is provided between the tilting frame 12 and the chute 4.
  • the chute 4 is tilted. It can also be installed directly on.
  • a scraper 15 is disposed on the chute 4. As shown in FIGS. 2 and 3, the scraper 15 includes an inclined plate 18, a scraper tool 16, a support frame 17, and a roller device 19.
  • the inclined plate 18 is provided to be inclined with respect to the upper surface of the chute 4 and is attached via a support frame body 17.
  • the scraper tool 16 is attached to the front end of the inclined plate 18 on the lower surface 18a side.
  • the support frame 17 supports the inclined plate 18.
  • the roller device 19 is attached to the support frame body 17 and causes the inclined plate 18 and the support frame body 17 to travel on the upper surface 4 a of the chute 4.
  • the scraper 15 reciprocates on the chute 4 and removes the sintered raw material deposited on the chute 4 from the chute 4. Specifically, the scraper 4 moves on the chute 4, and the scraping material attached to the sliding surface (upper surface) of the chute 4 is scraped off and removed from the chute 4 by the scraper tool 16.
  • the roller device 19 supports the lower end 17 a of the support frame 17 and the lower end 16 a of the scraper tool 16 with a space from the upper surface 4 a of the chute 4. Accordingly, even when the chute 4 with the ceramic tile 9 attached is used, the support frame 17 and the scraper tool 16 do not collide with the corners of the ceramic tile 9 as shown in FIG. The scraper 15 can smoothly get over the step portion d2 formed at the joint of the tile 9.
  • the scraper 15 is connected to a drive mechanism so that the scraper tool 16 attached to the inclined plate 18 can be moved from the rear end portion to the front end portion of the chute 4.
  • a cylinder device 20 is used as a drive device and is connected to a support frame body 17 via a flexible joint which is a rod of the cylinder device 20.
  • the scraper 15 reaches the fall range L of the sintered raw material during the operation of removing the attached raw material. Thereafter, the sintering raw material slides down on the inclined plate 18 of the scraper 15 and is supplied to the pallet 7.
  • the inclined plate 18 needs to have the function of the chute 4. For this reason, the inclined plate 18 is disposed so as to be inclined with respect to the chute 4, and the surface thereof is lined with a wear-resistant steel plate or ceramic tile.
  • the chute 4 includes a chute body 114 and a plurality of ceramic tiles 9 arranged on the surface of the chute body 114.
  • the sliding surface of the chute 4 is also provided in the charging apparatus for the sintered raw material 1 in which the sieve rod 6 is provided in a stepped manner toward the pallet at the tip of the chute 4 as shown in FIG. Lining with the ceramic tile 9 can prevent the chute 4 from being worn.
  • the chute 4 whose slip surface is lined with the ceramic tile 9 has a non-uniform surface compared to a chute having a steel plate as a slip surface.
  • a step is easily formed at the joint of the tile, and it is very difficult to eliminate the step and smooth the whole like a steel plate. If the corner of the downstream tile is higher than the corner of the upstream tile when viewed from the flow direction of the sintering raw material, the step d1 is formed there. It is considered that the raw material particles that collided with the step jump up there, and the flow of the raw material particles becomes irregular.
  • the first ceramic tile 9a which is one of the plurality of ceramic tiles 9, and the downstream of the first ceramic tile 9a.
  • the positional relationship with the second ceramic tile 9b adjacent to the side is desirably flush.
  • step difference d2 is formed so that the 1st ceramic tile 9a may protrude with respect to the 2nd ceramic tile 9b.
  • there is no step between the adjacent ceramic tiles 9 from upstream to downstream, or the downstream side is necessarily lowered even if a step is formed. That is, when the downward step d2 (see FIG. 6) is formed and the upward step d1 is not formed, the raw material particles are prevented from jumping up, and the raw material for sintering to the sieve rod 6 is prevented. Was reduced to the same level as when steel plates were used.
  • the ceramic tile 9 has a distortion caused by firing, and the shape of each tile is often slightly different. Further, a deviation of about 0.2 mm is allowed as a dimensional tolerance. For this reason, if the tiles are simply arranged, a step is easily formed at the joint between the tiles. Therefore, before the ceramic tile 9 is bonded to the tile substrate 112 with the adhesive 113, it is necessary to check the degree of occurrence of the step by arranging the tiles in advance.
  • an upward step d1 protruding downstream is formed, it is replaced with another tile so that the step is eliminated, or a downward step d2 protruding upstream is always formed even if a step is formed. To do.
  • the protruding portion is removed by polishing so that the step is eliminated. In that case, if the surface roughness of the surface of the ceramic tile 9 increases with polishing, the sintered raw material 1 tends to adhere to the ceramic tile 9, so it is necessary to finish it to the same smoothness as the surface of the original ceramic tile 9. There is.
  • the ceramic tiles have a shape in which a corner is dropped and an R is formed at a corner portion 9c on one surface.
  • the surface on which R is formed is arranged as the sliding surface side of the raw material, a recess is formed in the joint portion. Even if the portion is filled with an adhesive, the adhesive will soon wear and a depression will be formed. Such a depression becomes a factor that hinders the uniform flow of the raw material because the raw material easily flows along the depression. Therefore, as shown in FIG. 6, it is preferable that the surface of the ceramic tile 9 on which R is formed be bonded to the tile substrate (substrate) 112 with the bonding surface as the bonding surface.
  • the joints become continuous, and the raw material particles easily flow along the joints.
  • the particle size distribution of the raw material at the pallet position corresponding to the joint portion is disturbed, and the quality of the sintered ore is not constant. Therefore, it is preferable to arrange the tiles in a staggered pattern so that the joints (joints) of the tiles do not continue as shown in FIG.
  • the chute 4 does not have to be lined with ceramic tiles 9 on the entire sliding surface. That is, it is preferable that the ceramic tile 9 is partially provided around the dropping point of the sintered raw material 1 on the tile substrate 112. Specifically, only the region where the sintered raw material 1 dropped from the drum feeder 3 collides with the chute 4 and its vicinity may be lined. Even in this case, the effect of using the ceramic tile 9 can be sufficiently obtained.
  • FIG. 5 shows such an example.
  • a bolt 115 is inserted from the front side (see FIG. 5) to chute the tile substrate 112. It can be fixed to the main body 114.
  • the lower end side of the ceramic tile 9 is fixed from the back side of the chute body 114 with a bolt 115 or the like.
  • the raw material falling part of the chute having a width of 3.5 m was lined with ceramic tile over a width of 60 cm in the raw material flow direction.
  • a 100 ⁇ 100 ⁇ 10 t (mm) alumina ceramic tile was used. Tiles were arranged in a staggered pattern without gaps as shown in FIG.
  • the chute 4 is used in which the ceramic tiles 9 are rearranged in various ways so that the upward step d1 is not formed.
  • a chute was used in which tiles were simply arranged without considering the direction of the step and 12 upward steps d1 were formed.
  • the sintering raw material was charged into the pallet of the Dwytroid-type sintering machine by the charging device having the classification device shown in FIG.
  • the chute of the comparative example when used, the raw material adhered to the sieve rod of the chute after 14 days, and the 3 mm diameter sieve rod became 10 mm in diameter. Therefore, it was necessary to drop the raw material.
  • the chute of this embodiment it was 70 days after the work of dropping the attached raw material was required.
  • the inclined plate 18 As shown in FIG. 2, the inclined plate 18 is arranged to be inclined with respect to the chute 4 so that the distance from the chute 4 increases as it goes upstream.
  • the inclined plate 18 preferably has a length that covers the falling range (falling position) of the sintered raw material 1 when the scraper tool 16 of the scraper 15 reaches the front end position of the chute 4.
  • the vertical width along the traveling direction of the inclined plate 18 (the direction in which the sintering raw material flows) is formed to a width that satisfies the condition.
  • FIG. 7 shows a plan view of the entire scraper 15.
  • the width L1 of the chute 4 is preferably at least substantially the same as the 18 width L2 of the inclined plate.
  • the width L1 of the chute 4 and the 18 width L2 of the inclined plate are equal.
  • the scraper 15 has a shape extending in the lateral direction, and the lateral width of the inclined plate 18 is a width that can cover the width of the chute 4.
  • the cylinder devices 20 are disposed at two locations on both sides, and guide rods 21 are disposed at two locations on the inside of the cylinder devices 20, and the respective tips are connected to the support frame body 17. Further, two sets of roller devices 19 are attached to the support frame 17 at five locations. With this configuration, the scraper 15 can smoothly reciprocate on the chute 4. As shown in FIG. 9, a guide roller 34 is attached to the side of the support frame 17 of the scraper 15 downward and laterally via a bracket 33. The guide rail 35 fixed on the side of the chute 4 on the tilting pedestal 12 is brought into contact with each other to guide the left and right guides of the scraper 15 and prevent the lift.
  • a scraper tool 16 for scraping off the adhering sintered material is fixed to the tip of the inclined plate 18.
  • the scraper tool 16 is formed of a wear-resistant steel material, has a rectangular cross-sectional shape, and can be replaced with a base member 22 fixed to the lower surface of the inclined plate 18 using bolts or the like. It is attached. Further, it is desirable that the inclination angle of the inclined plate 18 with respect to the surface of the chute 4 is formed as small as possible. However, since the scraper 15 has a shape extending laterally, if the inclination angle is too small, the width of the reinforcing plate cannot be sufficiently obtained.
  • the inclination angle of the inclined plate 18 and the configuration of the reinforcing plate is preferably about 5 ° to 35 °.
  • FIG. 8A and 8B show an example of the structure of the support frame 17.
  • FIG. 8A is a view taken along the line AA in FIG. 7 and shows the structure of the both ends of the support frame 17 and the four internal parts.
  • the support frame body 17 has a plurality of reinforcing plates arranged vertically and horizontally and horizontally.
  • the plurality of reinforcing plates include a front vertical plate (vertical reinforcing plate) 23, a central horizontal plate (lateral reinforcing plate) 25, and a horizontal plate (parallel reinforcing plate) 26.
  • the front vertical plate 23 extends to the front side of the inclined plate 18 along the flow direction of the sintering raw material 1.
  • the central horizontal plate 25 extends in the width direction of the chute 4 and the inclined plate 18.
  • the horizontal plate 26 extends in a direction parallel to the chute 4.
  • a rear vertical plate 24 is disposed on the rear side of the central horizontal plate 25 with the central horizontal plate 25 interposed therebetween.
  • the inclined plate 18 is appropriately configured to be supported by such a plurality of reinforcing plates, and the lower surfaces of the plurality of reinforcing plates are open.
  • the front vertical plate 23, the rear vertical plate 24, and the central horizontal plate 25 may be arranged perpendicular to the chute 4.
  • a rod of the cylinder device 20 and a tip end portion of the guide rod 21 are attached to the central horizontal plate 25.
  • FIG. 8B is a view taken along the line BB in FIG. 7 and shows the structure of the position where the roller device 19 is attached.
  • the roller device 19 is attached to a horizontal plate 26 fixed between the front vertical plates 23.
  • a space 28 is formed on the inner side (rear side) of the scraper tool 16 with the upper side defined by the inclined plate 18 and the lateral direction defined by the front vertical plate 26.
  • an oblique cutout 27 is formed at the front end of the front vertical plate 23 in order to secure a horizontal connection between the spaces 28.
  • the notch 27 forms a gap 29 between both ends and the front end of the front vertical plate 23 disposed inside and the back surface of the scraper tool 16. By this gap 29, a space is formed behind the scraper tool 16 in the width direction of the chute 4 and communicated with the outside of the scraper 15.
  • the front vertical plate 23 of the support frame 17 is supported by the roller device 19 so that a gap 31 having a height b is formed between the sliding surface of the chute 4 and the lower end of the support frame 17.
  • the height b is set to be larger than the height a of the interval 30 formed between the lower end of the scraper tool 16 and the sliding surface of the chute 4 as shown in FIG.
  • the interval 30 is formed between the lower end portion of the scraper tool 16 and the sliding surface of the chute 4, and a space 28 is also formed on the back side of the scraper tool 16.
  • the inside of the support frame 17 is filled with the sintered raw material 1. If the sintered raw material 1 is not discharged from the support frame 17, the scraper 15 comes to float after being completely filled with the sintered raw material 1. In this case, since the scraper 15 is restrained by the guide rail 35, it becomes difficult to move the scraper 15 and the scraping operation cannot be performed sufficiently.
  • a space 28 is formed inside the scraper tool 16 in the width direction of the chute 4 and continues to the outside of the scraper 15, and the sliding surface of the chute 4 and the vertical plate are formed.
  • the distance b between the lower end portion and the lower end portion of the scraper tool 16 was formed larger than the distance a.
  • the sintering raw material 1 is sequentially accumulated in the internal space 28 by the operation of the scraper 15.
  • the sintered raw material 1 accumulates to some extent and its weight increases, the sintered raw material 1 that newly enters the inside of the scraper tool 16 moves along the inside of the scraper tool 16. And it is discharged
  • the end of the notch 27 is inclined and connected to the gap below the front vertical plate 23, the sintering raw material 1 can flow smoothly. For this reason, the inside of the support frame 17 is not filled with the sintering raw material 1, and the scraper 15 moves smoothly.
  • Raw materials were scraped off.
  • a gap of 2 mm is provided between the lower end of the scraper tool and the upper surface of the chute, and a gap of 6 mm is provided between the lower end of the vertical plates (front vertical plate and rear vertical plate) and the upper surface of the chute.
  • a continuous space was formed on the inside of the scraper tool by diagonally notching the front end portions of the vertical plate arranged inside the support frame and the side plates arranged on both sides.
  • the sintering raw material accumulated to some extent inside the scraper (backward) with the operation, but the inside was not filled with the raw material, and the operation could be continued without any problems.
  • the distance between the lower end of the scraper tool and the upper surface of the chute and the distance between the lower end of the front vertical plate 23 and the upper surface of the chute are both 2 mm, and at the front end of the front vertical plate.
  • a scraper that does not form a notch and does not form a continuous space in the width direction of the chute on the back side of the scraper tool was used. In this case, the scraper was filled with the raw material 60 days after the operation, and clogging occurred, making it difficult to move the scraper.
  • the present invention since there is no problem of lifting of the scraper due to the sintered raw material left behind, sintering can be performed in a stable state. Therefore, the present invention is expected to have a large industrial effect. it can.

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PCT/JP2011/055494 2010-03-12 2011-03-09 焼結機における原料装入装置 WO2011111735A1 (ja)

Priority Applications (4)

Application Number Priority Date Filing Date Title
JP2011536666A JP4943562B2 (ja) 2010-03-12 2011-03-09 焼結機における原料装入装置
BR112012022663-0A BR112012022663B1 (pt) 2010-03-12 2011-03-09 Aparelho para carregamento de matéria-prima em máquina de sinterização
CN201180012969.5A CN102792113B (zh) 2010-03-12 2011-03-09 烧结机的原料装入装置
KR1020127023446A KR101460870B1 (ko) 2010-03-12 2011-03-09 소결기에 있어서의 원료 장입 장치

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Application Number Priority Date Filing Date Title
JP2010056279 2010-03-12
JP2010-056279 2010-03-12
JP2010056348 2010-03-12
JP2010-056348 2010-03-12

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KR (1) KR101460870B1 (ko)
CN (1) CN102792113B (ko)
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WO (1) WO2011111735A1 (ko)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP3489371A1 (en) * 2017-11-24 2019-05-29 Tata Steel IJmuiden B.V. Scraper device

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR101964289B1 (ko) * 2017-09-12 2019-04-01 주식회사 포스코 소결광 제조용 배합원료 장입 장치 및 그 방법

Citations (4)

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JP4943562B2 (ja) 2012-05-30
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