EP2808406A1 - Furnace top chute feeder for blast furnace - Google Patents
Furnace top chute feeder for blast furnace Download PDFInfo
- Publication number
- EP2808406A1 EP2808406A1 EP12738007.9A EP12738007A EP2808406A1 EP 2808406 A1 EP2808406 A1 EP 2808406A1 EP 12738007 A EP12738007 A EP 12738007A EP 2808406 A1 EP2808406 A1 EP 2808406A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- lug
- chute
- slewing bearing
- rims
- fixed
- Prior art date
- Legal status (The legal status 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 status listed.)
- Granted
Links
- 230000007704 transition Effects 0.000 claims description 23
- 239000004519 grease Substances 0.000 claims description 12
- 229910000831 Steel Inorganic materials 0.000 claims description 10
- 239000010959 steel Substances 0.000 claims description 10
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 10
- 239000000498 cooling water Substances 0.000 claims description 9
- 239000000314 lubricant Substances 0.000 claims description 6
- 230000008878 coupling Effects 0.000 claims description 3
- 238000010168 coupling process Methods 0.000 claims description 3
- 238000005859 coupling reaction Methods 0.000 claims description 3
- 239000000463 material Substances 0.000 claims description 2
- 230000008901 benefit Effects 0.000 abstract description 2
- 238000005461 lubrication Methods 0.000 description 13
- 238000001816 cooling Methods 0.000 description 7
- 230000005540 biological transmission Effects 0.000 description 5
- 238000009826 distribution Methods 0.000 description 3
- 238000003723 Smelting Methods 0.000 description 2
- 230000004075 alteration Effects 0.000 description 2
- 238000010438 heat treatment Methods 0.000 description 2
- 238000007689 inspection Methods 0.000 description 2
- 238000012423 maintenance Methods 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000008569 process Effects 0.000 description 2
- 238000007789 sealing Methods 0.000 description 2
- 230000009471 action Effects 0.000 description 1
- 238000005266 casting Methods 0.000 description 1
- 230000008859 change Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000006870 function Effects 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 230000002779 inactivation Effects 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 230000007246 mechanism Effects 0.000 description 1
- 230000008439 repair process Effects 0.000 description 1
- 238000005096 rolling process Methods 0.000 description 1
- 238000003466 welding Methods 0.000 description 1
Images
Classifications
-
- C—CHEMISTRY; METALLURGY
- C21—METALLURGY OF IRON
- C21B—MANUFACTURE OF IRON OR STEEL
- C21B7/00—Blast furnaces
- C21B7/18—Bell-and-hopper arrangements
- C21B7/20—Bell-and-hopper arrangements with appliances for distributing the burden
- C21B7/205—Details concerning the gear-box driving the charge distribution system
-
- C—CHEMISTRY; METALLURGY
- C21—METALLURGY OF IRON
- C21B—MANUFACTURE OF IRON OR STEEL
- C21B7/00—Blast furnaces
- C21B7/18—Bell-and-hopper arrangements
- C21B7/20—Bell-and-hopper arrangements with appliances for distributing the burden
-
- C—CHEMISTRY; METALLURGY
- C21—METALLURGY OF IRON
- C21B—MANUFACTURE OF IRON OR STEEL
- C21B5/00—Making pig-iron in the blast furnace
- C21B5/008—Composition or distribution of the charge
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F27—FURNACES; KILNS; OVENS; RETORTS
- F27B—FURNACES, KILNS, OVENS, OR RETORTS IN GENERAL; OPEN SINTERING OR LIKE APPARATUS
- F27B1/00—Shaft or like vertical or substantially vertical furnaces
- F27B1/10—Details, accessories, or equipment peculiar to furnaces of these types
- F27B1/20—Arrangements of devices for charging
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F27—FURNACES; KILNS; OVENS; RETORTS
- F27D—DETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
- F27D3/00—Charging; Discharging; Manipulation of charge
- F27D3/10—Charging directly from hoppers or shoots
Definitions
- the present invention relates to a furnace top charging device for a smelting blast furnace, more particularly to a furnace top chute distributor for a blast furnace.
- a furnace top charging device for a blast furnace is the significant device for blast furnace ironmaking. Whether the device can meet the processing requirements will directly limit the output of blast furnace. Since the blast furnace ironmaking presents, the furnace top charging device for a blast furnace comes through the three following generations: the first generation is a bell top charging device; the second generation is a bell top charging device with a movable throat armor; and the third generation is a top charging device without bell system.
- the driving means for a chute of the current top charging device without bell distributor includes the planet differential transmission, the combined transmission by single cylinder with steel cable, the combined transmission by servomotor with steel cable, and the lever actuating mechanism.
- problems exist in the distributor with the planet differential transmission such as complicated structure, high price of the device, high maintenance and repair cost, difficulty in manufacturing the device, and low performance of processing and resistance to high temperature at the furnace top.
- the distributor with the combined transmission by single cylinder with steel cable, or by servomotor with steel cable the steel cable system is complicated and the steel cable is liable to crack due to fatigue, and since the movement of the chute relies on the counterweight of a translational backing ring, the structure is limited to some extent so as to be hardly applied for those huge blast furnace.
- the distributor with lever actuating includes two-suspension-points form and four suspension-points form and both of them has the problems such as mechanical over-constraint and the desynchrony of processing and assembling, which causes shorter lifetime of the distributor, and therefore the requirement of furnace lifetime of one generation cannot be met.
- one aspect of the present invention is to provide a furnace top chute distributor for a blast furnace, which has reasonable structure, long lifetime, the shortest gearing chain, more stable operation, and no lateral force to a guide rail.
- the technical solution of the present invention is to provide a furnace top chute distributor for a blast furnace, comprising:
- a large flange on an outer edge of the top cover is fixed-connected with the airtight case while a small flange on an inner edge of the top cover is fixed-connected with the inner ring of the upper slewing bearing;
- a chute bracket is fixed-connected at the outer side of the chute, and the two upper ends of the chute bracket are connected with said other end of each lug by a spline respectively while said end of each lug is connected with the end of each crank by a spline;
- a translational backing ring, telescopic coupled outside the rotating sleeve having an upper portion telescopic coupled outside the choke has a lower portion of an inner edge fixed-connected with the outer ring of the lower slewing bearing, and a guide wheel is provided on an outer edge of the translational backing ring while a corresponding guide rail is provided on an interior wall of the airtight case to enable the guide wheel to roll up and down along the guide rail by the cylinder;
- three cylinders are provided, which are
- the cylinder includes a cylinder body fixed on the top cover by a cylinder block, and a cylinder rod having a lower end fixed-connected with the transition link by a holding sleeve.
- a lower end of the transition link is connected with an adjustable link, which is inside the airtight case and connected with the translational backing ring.
- the holding sleeve is formed in a cylindrical shape with a center through hole by coupling two semi-sleeve bodies to each other. Further, the two semi-sleeve bodies are fixed together by connection bolts.
- diameter of each end portion of the center through hole is smaller than diameter of a center portion thereof, while steps are formed at diameter transitions of the center through hole.
- opposite ends of the cylinder rod and the transition link are formed as thin portions positioned in the two ends of the center through hole, respectively.
- one end of each thin portion is connected with a joint positioned in the center portion of the center through hole and against the step. As such, the opposite ends of the cylinder rod and the transition link abut against both ends of the holding sleeve.
- a positioning slot with a notch facing the guide wheel is fixed-connected to the interior wall of the airtight case corresponding to the guide wheel of the translational backing ring in a lengthwise direction. Further, the guide rail of the airtight case is removably fixed into the positioning slot in a lengthwise direction.
- the guide rail is a square steel material, which is removably fixed into the positioning slot by a plurality of fixed bolts in a spaced arrangement, wherein the positioning slot is welded onto the interior wall of the airtight case.
- the universal frame includes two opposite and parallel first rims, two opposite and parallel second rims, and third rims.
- the first rims are perpendicular to the second rims, and opposite ends of the first rims and the adjacent second rims are connected to two ends of the third rims respectively to form a closed annular shape.
- center portions of the two second rims protrude outwardly to form bosses, and two slideways opposite to each other are opened in the two second rims on the same sides of the bosses respectively.
- the length of the slideways in a lengthwise direction of the second rims is larger than that in a width direction of the second rims.
- a center chamber is opened from the end of the lug facing the exterior of the rotating sleeve toward the interior of the lug, thereby the end of the lug is formed as an opened end provided with an end cover for covering an opening of the center chamber.
- a through hole is opened at a center portion of the end cover, through which a water inlet tube is provided for supplying cooling water to the center chamber.
- a plurality of overflow holes communicated with the center chamber is opened at the end cover.
- an oil hole is opened from the end of the lug facing the exterior of the rotating sleeve toward the interior of the lug, and at least one grease outlet communicated with the oil hole is opened at an exterior wall of the lug surrounded by a lug sheath.
- the oil hole is connected with an oil supply tube for supplying lubricant thereto.
- three grease outlets are provided, which are disposed evenly in a linear-arrangement on the exterior wall of the lug surrounded by the lug sheath.
- the lug at a location where the grease outlets are provided and the lug sheath are configured as a large clearance fit.
- an oiler connected with the oil supply tube for supplying oil thereto is secured on the crank.
- a bumping piece is provided on the exterior wall of the rotating sleeve, the bumping piece being in contact with or separated from the oiler to start or stop fueling when the crank rotates.
- the furnace top chute distributor for a blast furnace has the following advantages leastwise:
- Fig.1 is a schematic view of the overall structure of the furnace top chute distributor for a blast furnace according to the present invention
- Fig.2 is a schematic view of the overall structure of the furnace top chute distributor for a blast furnace in another direction according to the present invention
- Fig.3 is a top view of Fig.2
- Fig.4 is a schematic view of the connecting configuration of the universal frame, the inner ring of the lower slewing bearing and the chute bracket of the furnace top chute distributor for a blast furnace according to the present invention.
- a furnace top chute distributor for a blast furnace includes an airtight case 1, a top cover 2, a choke 3, a rotating sleeve 4, an upper slewing bearing 5, a lower slewing bearing 6, a chute 7, a universal frame 8, a translational backing ring 9, a horizontal chute driving apparatus 10 and three cylinders 11.
- a through hole (not shown in the drawings) is provided in a middle portion of the top cover 2 to allow the choke 3 to pass therethrough.
- An upper end of the airtight case 1 is capped with the top cover 2 by fixed-connecting a large flange on an outer edge of the top cover 2 to the airtight case 1.
- the upper and lower slewing bearings 5, 6 have conventional structure(s), that is, they have an inner ring and an outer ring being rotatable but not movable up and down relatively to each other, respectively. Also, a small flange on an inner edge of the top cover 2 is fixed-connected with the inner ring of the upper slewing bearing 5. Further, the choke 3 is provided inside the airtight case 1 through the through hole in the top cover 2.
- the rotating sleeve 4 having an upper portion telescopic coupled outside the choke 3 is located inside the airtight case 1. Since an upper end of the rotating sleeve 4 is fixed-connected with the outer ring of the upper slewing bearing 5 while the inner ring of the upper slewing bearing 5 is fixed-connected with the top cover 2, the rotating sleeve 4 and the top cover 2 are in a rest condition relative to each other in a vertical direction.
- the rotation of the outer ring of the upper slewing bearing 5 is driven by the horizontal chute driving apparatus 10 provided on the top cover 2, and causes the rotating sleeve 4 to rotate about a center line of the top cover 2 by 360 degrees.
- the chute 7 capable of rotating along with the rotating sleeve 4 is provided in the rotating sleeve.
- the configuration of the connection between the rotating sleeve 4 and the chute 7 is described as the following.
- Two lug holes (not shown in the drawings) diametrically opposite to each other are opened in the wall of the rotating sleeve 4, and each lug hole is provided with a lug sheath 13 in which a lug 12 capable of rotating within the lug sheath 13 is installed.
- a chute bracket 71 is fixed-connected at the outer side of the chute 7.
- the chute bracket 71 has two upper ends respectively connected with one end of each lug 12 via a spline, such that the chute 7 is hung onto the two lugs 12 passing through the lug sheaths 13. That is, the chute 7 is hung onto the rotating sleeve 4 via the lugs.
- the chute bracket 71 and the chute 7 are always in a rest condition relative to each other and rotate along with the rotating sleeve 4.
- the three cylinders 11 axially disposed on the top cover 2 evenly with respect to a horizontal rotation center line of the chute 7 are connected with the translational backing ring 9 via a transition link 15 respectively so as to cause the translational backing ring 9 to move up and down.
- the translational backing ring 9 is telescopic coupled outside the rotating sleeve 4, and a lower portion of an inner edge of the translational backing ring 9 is fixed-connected with an outer ring of the lower slewing bearing 6 into one piece by means of bolts, thereby the translational backing ring 9 may cause both the inner and outer rings of the lower slewing bearing 6 to move up and down.
- An outer edge of the translational backing ring 9 is provided with a guide wheel 91, and a corresponding guide rail 16 is provided on an interior wall of the airtight case 1.
- the guide wheel 91 is provided on the guide rail 16 and caused to roll up and down along the guide rail 16 by the cylinder 11 so as to ensure an accurate moving direction of the translational backing ring 9 and the inner and outer rings of the lower slewing bearing 6.
- the universal frame 8 is telescopic coupled outside the rotating sleeve 4 and is fixed-connected with the inner ring of the lower slewing bearing 6. As such, the up-down movement of the translational backing ring 9 causes the inner ring of the lower slewing bearing 6 to move up and down and thus causes the universal frame 8 to move up and down.
- the other end of the lug 12 passing through the lug sheath 13 is connected with a crank 14 via a spline, while a crank tail wheel 34 on the other end of the crank 14 is positioned within a slideway 81 of the universal frame 8. Since the rotating sleeve 4 cannot move up and down, when the universal frame 8 moves up and down, the slideway 81 causes the crank tail wheel 34 to move up and down and along the slideway 81, such that the crank 14 causes the lug 12 to rotate within the lug sheath 13. In turn, the rotation of the lug 12 causes the swing of the chute 7 and the chute bracket 71.
- the inner ring of the lower slewing bearing 6 is fixed-connected with a dial wheel assembly 37 having a dial wheel positioned within a runner (not shown in the drawings) opened on the rotating sleeve 4 in an up-down direction.
- a dial wheel assembly 37 having a dial wheel positioned within a runner (not shown in the drawings) opened on the rotating sleeve 4 in an up-down direction.
- the three cylinders 11 include a cylinder body 94 and a cylinder rod 36 respectively, as shown in Fig.1 .
- the cylinder body 94 is fixed on the top cover 2 via a cylinder block 93.
- a holding sleeve 92 a lower end of the cylinder rod 36 is fixed-connected to the transition link 15.
- a lower end of the transition link 15 extends through the cylinder block 93 and the top cover 2 and into the airtight case 1 so as to connect to an adjustable link 35 which is within the airtight case 1 and connected with the translational backing ring 9.
- the up-down movement of the cylinder rod 36 causes the translational backing ring 9 to move up and down.
- Each of the cylinders 11 of the embodiment is arranged as an external cylinder configuration, i.e. the cylinder rod 36 is located outside the airtight case 1 or outside the furnace top chute distributor for a blast furnace of the present invention, which changes the conventional internal cylinder configuration where the cylinder rod of the cylinder has to extend into the airtight case.
- the process can be done by only releasing the holding sleeve 92 to separate the cylinder rod 36 from the transition link 15 after dismounting the cylinder 11 from the cylinder block 93, without opening the distributor body. Under this configuration, it is not as complicated as the internal cylinder configuration where the distributor has to be opened when disassembly of the cylinder is needed, therefore, convenient and rapid disassembly can be achieved while production efficiency is increased.
- the holding sleeve 92 is formed in a cylindrical shape with a center through hole 96 by coupling two semi-sleeve bodies 95 to each other. Further, the two semi-sleeve bodies 95 are fixed together by connection bolts 97. In this configuration, diameter of each end portion of the center through hole 96 is smaller than diameter of a center portion thereof, while steps 100 are formed at diameter transitions of the center through hole 96. Further, opposite ends of the cylinder rod 36 and the transition link 15 are formed as thin portions 101 positioned in the two ends of the center through hole 96, respectively.
- each of the thin portions 101 is connected with a joint 98 positioned in the center portion of the center through hole 96 and against the step 100.
- the opposite ends of the cylinder rod 36 and the transition link 15 abut against both ends of the holding sleeve 92.
- the cylinder rod 36 and the transition link 15 are fixed-connected together via the holding sleeve 92.
- the removable guide rail 16 is used in the present invention. That is, a positioning slot 17 with a notch toward the guide wheel 91 is fixed-connected in a lengthwise direction to the interior wall of the airtight case 1 corresponding to the guide wheel 91 of the translational backing ring 9.
- the positioning slot 71 may be fixed onto the interior wall of the airtight case 1 by means of welding.
- the guide rail 16 (made of square steel) is removably fixed within the positioning slot 17 in a lengthwise direction by a plurality of fixed bolts 18 in a spaced arrangement. When the guide rail 16 wears out heavily, the guide rail 16 may be dismounted from the positioning slot 17 and replaced by a new one, thereby the lifetime of the guide rail is enhanced.
- the universal frame 8 is a shaped frame by casting.
- the universal frame 8 includes two opposite and parallel first rims 82 and two opposite and parallel second rims 83.
- the first rims 82 are perpendicular to the second rims 83, and opposite ends of the first rims 82 and the adjacent second rims 83 are connected to two ends of the third rims 84 respectively, i.e. the first rims 82, second rims 83 and third rims 84 are connected in an end-around manner to form a closed annular shape.
- center portions of the two second rims 83 protrude outwardly to form bosses 85 in order to prevent the lower slewing bearing 6 from extending out of the universal frame 8 in a horizontal direction.
- the configuration of the bosses 85 provides the installation space for an end cover 20 connected to the lug 12, a lower end of an external water tube 24, and an oil supply tube 30, which will be described later on.
- Two slideways 81 opposite to each other are opened in the two second rims 83 on the same sides of the bosses 85, respectively.
- length of the slideways 81 in a lengthwise direction of the second rims 83 is larger than that in a width direction of the second rims 83.
- the slideway 81 is a long hole, within which the crank tail wheels 34 are provided and move in a lengthwise direction of the first rims 82.
- the universal frame 8 is connected with the inner ring of the lower slewing bearing 6.
- a center chamber 19 is opened from an end of the lug 12 facing the exterior of the rotating sleeve 4 toward the interior of the lug 12 (not straight forward to the other end of the lug 12).
- the end of the lug 12 is formed as an opened end provided with the end cover 20 for covering an opening of the center chamber 19.
- the end cover 20 is removably connected with the lug 12 by connection bolts 26, and a sealing ring 27 is provided between the end cover 20 and the lug 12.
- a through hole (not shown in the drawings) is opened at a center portion of the end cover 20, through which a water inlet tube is provided for supplying cooling water to the center chamber 19. Also, a plurality of overflow holes 22 communicated with the center chamber 19 is opened at the end cover 20.
- the water inlet tube includes an internal water tube 23 located inside the center chamber 19, and the external water tube 24 located outside the center chamber 19 and communicated with the cooling water source. An end of the internal water tube 23 extends straight to be adjacent to the end of the center chamber 19 so as to fill the whole center chamber 19 with the cooling water. After cooling for the lugs 12, the cooling water within the center chamber 19 flows out through the overflow holes 22 provided on the end cover 20.
- lubricant is applied to friction surfaces between the lug 12 and the lug sheath 13 to reduce friction coefficient effectively so as to extend the lifetime of the lug 12.
- an oil hole 28 is opened from the end of the lug 12 facing the exterior of the rotating sleeve 4 toward the interior of the lug 12, and at least one grease outlet 29 communicated with the oil hole 28 is opened at an exterior wall of the lug 12 surrounded by the lug sheath 13.
- the oil hole 28 is connected with an oil supply tube 30 for supplying lubricant thereto.
- three grease outlets 29 are provided and disposed evenly in a linear-arrangement on the exterior wall of the lug 12 surrounded by the lug sheath 13.
- the oil hole 28 is opened preferably close to the exterior wall of the lug 12 rather than the center portion thereof, and the grease outlets 29 are also opened at the side close to the exterior wall of the lug 12 so as to reduce the difficulty of processing and the distance of the grease flowing.
- the lug at a location where the grease outlets are provided and the lug sheath are configured as a large clearance fit. As such, contact relation between the lug 12 and the lug sheath 13 is initially line-contact and turns to narrow surface-contact after operating for a certain time. The friction coefficient may be reduced effectively when performing the lubrication treatment thereon, and then the lifetime is increased.
- an oiler 31 is secured on the crank 14, and a bumping piece 32 is provided on the exterior wall of the rotating sleeve 4.
- the crank 14 rotates to make the oiler 31 move up and down, so as to allow the bumping piece 32 to be in contact with and separated from the oiler.
- the lubrication is performed in a fixed cycle during the operation of the distributor.
- an operating angle of the chute 81 is controlled in a range between 7 to 45 degrees, and a non-contact condition is maintained between the oiler 31 and the bumping piece 32.
- the control range of the operating angle of the chute 81 is changed.
- the lubrication of the lugs 12 is performed in a fixed cycle during the operation of the distributor, i.e. the lubrication is performed once every ten batches of distributing by the distributor, and a non-contact condition is maintained between the oiler 31 and the bumping piece 32 during the non-lubrication period.
- the oiler 31 and the bumping piece 32 are hitting each other to start fueling as the operating angle of the chute 81 is 4 degrees during the rotation of the crank 14, as shown in Fig. 13 .
- the fueling operation by the oiler 31 is completed as the chute 81 turns to 1 degree.
- the bumping piece 32 and the oiler 31 are separated from each other to allow the oiler 31 to stop fueling, i.e. the condition shown in Fig.4 .
- the chute 81 enters next cycle of fueling.
- the height of the universal frame 8 may be controlled by adjusting the length of the adjustable link 35, so as to change the swinging angle of the chute 81.
- Each of the three cylinders 11 is connected to the translational backing ring 9 via the transition link 15 and the adjustable link 35.
- the outer ring of the lower slewing bearing 6 is connected with the translational backing ring 9 by bolts, and its inner ring is connected with the universal frame 8. While the cylinder rods 36 of the three cylinders 11 move up and down, the translational backing ring 9, the lower slewing bearing 6 and the universal frame 8 move up and down.
- rolling friction is presented due to the co-operation between the guide wheel 91 and the guide rail 16 of the airtight case 1 which functions to restrict the position of the guide wheel 91 when moving.
- the crank tail wheel 34 mounted within the slideway 81 of the universal frame 8 moves with the universal frame 8, and the crank 14 installed on the outer side of the lug 12 causes the lug 12 to rotate within the lug sheath 13 of the rotating sleeve 4 in a corresponding range. Further, the other end of the lug 12 co-operates with the chute bracket 71 by a spline, hereto, the chute 7 and the chute bracket 71 swing along with the crank 14 synchronously under dynamic action transmitted via the spline of the lug 12.
- the rotating operation of the chute 7 is now described as following.
- the large flange of the top cover 2 is fixed-connected with the airtight case 1, while the small flange in the lower portion of the top cover 2 is connected with the inner ring of the upper slewing bearing 5 with the outer ring fixed-connected with the rotating sleeve 4.
- the two lugs 12 are respectively installed within the lug sheaths 13 located in the respective lug holes opened on the rotating sleeve 4.
- the spline at the end of the lug 12 is connected with the crank 14, while the spline at the other end of the lug 12 is connected with the chute bracket 71. That is, the chute bracket 71 is hung onto the rotating sleeve 4 via the lugs 12.
- a geared motor 99 may supply the power for the horizontal chute driving apparatus 10 installed on the top cover 2.
- the horizontal chute driving apparatus 10 drives the outer ring of the upper slewing bearing 5 to rotate through a pinion
- the rotating sleeve 4 rotates as the outer ring of the upper slewing bearing 5 rotates
- the chute bracket 71 rotates as the rotating sleeve 4 rotates.
- the chute 7 installed at the chute bracket 71 rotates thereupon.
- the dial wheel assembly 37 installed on the inner ring of the lower slewing bearing 6 may move up and down along with the translational backing ring 9, and then the dial wheel of the dial wheel assembly 37 may roll up and down within the runner of the rotating sleeve 4. Also, when the rotating sleeve 4 rotates, the dial wheel assembly 37 rotates along with the rotating sleeve 4 so as to drive the universal frame 8 to move. At the same time, the inner ring of the lower slewing bearing 6 rotates in a circumferential direction correspondingly.
- the translational backing ring 9 is pulled by the cylinder 11 via the adjustable link 35 to move up and down, the outer ring of the lower slewing bearing 6 is fixed-connected with the translational backing ring 9 and maintained in a stationary condition relative to each other, and the outer and inner rings of the lower slewing bearing 6 are in a motionless condition relatively in a vertical direction, so the universal frame 8 is able to move up and down and the crank tail wheel 34 moves up and down with the universal frame 8 within the slideway 81 thereof. Since the rotating sleeve 4 cannot move up and down such that the lug 12 is rotated within the lug sheath 13 by the crank 14, the rotation of the lug 12 causes the chute 7 and the chute bracket 71 to swing in a fixed range. To this extent, the effective combination of the rotation and swing of the chute 7 with the chute bracket 71 is achieved.
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Manufacturing & Machinery (AREA)
- Materials Engineering (AREA)
- Metallurgy (AREA)
- Organic Chemistry (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Blast Furnaces (AREA)
- Transmission Devices (AREA)
Abstract
Description
- The present invention relates to a furnace top charging device for a smelting blast furnace, more particularly to a furnace top chute distributor for a blast furnace.
- A furnace top charging device for a blast furnace is the significant device for blast furnace ironmaking. Whether the device can meet the processing requirements will directly limit the output of blast furnace. Since the blast furnace ironmaking presents, the furnace top charging device for a blast furnace comes through the three following generations: the first generation is a bell top charging device; the second generation is a bell top charging device with a movable throat armor; and the third generation is a top charging device without bell system. Over the past twenty years, especially the past decade, with the development and improvement of the steel industry, for the furnace top charging device for a blast furnace, the bell top is gradually replaced by the top charging device without bell, which has changed the conditions, such as inflexible charging, low processing performance and operation controlling performance, and inconvenient maintenance and inspection, achieved the precise distribution, and improved the technology level and efficiency of blast furnace smelting.
- The driving means for a chute of the current top charging device without bell distributor includes the planet differential transmission, the combined transmission by single cylinder with steel cable, the combined transmission by servomotor with steel cable, and the lever actuating mechanism. However, problems exist in the distributor with the planet differential transmission, such as complicated structure, high price of the device, high maintenance and repair cost, difficulty in manufacturing the device, and low performance of processing and resistance to high temperature at the furnace top. For the distributor with the combined transmission by single cylinder with steel cable, or by servomotor with steel cable, the steel cable system is complicated and the steel cable is liable to crack due to fatigue, and since the movement of the chute relies on the counterweight of a translational backing ring, the structure is limited to some extent so as to be hardly applied for those huge blast furnace. The distributor with lever actuating includes two-suspension-points form and four suspension-points form and both of them has the problems such as mechanical over-constraint and the desynchrony of processing and assembling, which causes shorter lifetime of the distributor, and therefore the requirement of furnace lifetime of one generation cannot be met.
- In view of the above-mentioned problems in the prior art, one aspect of the present invention is to provide a furnace top chute distributor for a blast furnace, which has reasonable structure, long lifetime, the shortest gearing chain, more stable operation, and no lateral force to a guide rail.
- To solve the said technical problems, the technical solution of the present invention is to provide a furnace top chute distributor for a blast furnace, comprising:
- an airtight case having a top cover provided on a top portion thereof;
- a choke configured to communicate with exterior through the top cover and extend into the airtight case;
- an upper slewing bearing having an inner ring connected with the top cover in a fixed manner;
- a rotating sleeve located inside the airtight case and having an upper end fixed-connected with an outer ring of the upper slewing bearing; two lug holes provided facing each other along a diameter of the rotating sleeve and each lug hole having a lug therein, and each lug having an end extending out of the rotating sleeve to connect with an end of a crank;
- a chute having two upper ends connected with the other end of each lug respectively to enable the chute to be hung within the rotating sleeve;
- a universal frame telescopic coupled outside the rotating sleeve, on which two symmetrical slideways are opened, and each crank tail wheel on the other end of each crank provided within the slideway;
- a lower slewing bearing having an inner ring fixed-connected with the universal frame;
- a dial wheel assembly having one end fixed-connected with the inner ring of the lower slewing bearing, and a dial wheel on the other end that is positioned and rolled within a runner opened on the rotating sleeve;
- a cylinder for drawing an outer ring of the lower slewing bearing to move up and down; and
- a horizontal driving apparatus for driving the outer ring of the upper slewing bearing to rotate.
- As preferred, a large flange on an outer edge of the top cover is fixed-connected with the airtight case while a small flange on an inner edge of the top cover is fixed-connected with the inner ring of the upper slewing bearing;
a chute bracket is fixed-connected at the outer side of the chute, and the two upper ends of the chute bracket are connected with said other end of each lug by a spline respectively while said end of each lug is connected with the end of each crank by a spline;
a translational backing ring, telescopic coupled outside the rotating sleeve having an upper portion telescopic coupled outside the choke, has a lower portion of an inner edge fixed-connected with the outer ring of the lower slewing bearing, and a guide wheel is provided on an outer edge of the translational backing ring while a corresponding guide rail is provided on an interior wall of the airtight case to enable the guide wheel to roll up and down along the guide rail by the cylinder;
three cylinders are provided, which are disposed evenly on the top cover with respect to a horizontal rotation center line of the chute in an axial direction, and the three cylinders are connected with the translational backing ring via a transition link respectively to cause the translational backing ring to move up and down and thus cause the universal frame to move up and down. - As preferred, the cylinder includes a cylinder body fixed on the top cover by a cylinder block, and a cylinder rod having a lower end fixed-connected with the transition link by a holding sleeve. By passing through the cylinder block and the top cover, a lower end of the transition link is connected with an adjustable link, which is inside the airtight case and connected with the translational backing ring.
- As preferred, the holding sleeve is formed in a cylindrical shape with a center through hole by coupling two semi-sleeve bodies to each other. Further, the two semi-sleeve bodies are fixed together by connection bolts. In this configuration, diameter of each end portion of the center through hole is smaller than diameter of a center portion thereof, while steps are formed at diameter transitions of the center through hole. Further, opposite ends of the cylinder rod and the transition link are formed as thin portions positioned in the two ends of the center through hole, respectively. Moreover, one end of each thin portion is connected with a joint positioned in the center portion of the center through hole and against the step. As such, the opposite ends of the cylinder rod and the transition link abut against both ends of the holding sleeve.
- As preferred, a positioning slot with a notch facing the guide wheel is fixed-connected to the interior wall of the airtight case corresponding to the guide wheel of the translational backing ring in a lengthwise direction. Further, the guide rail of the airtight case is removably fixed into the positioning slot in a lengthwise direction.
- As preferred, the guide rail is a square steel material, which is removably fixed into the positioning slot by a plurality of fixed bolts in a spaced arrangement, wherein the positioning slot is welded onto the interior wall of the airtight case.
- As preferred, the universal frame includes two opposite and parallel first rims, two opposite and parallel second rims, and third rims. The first rims are perpendicular to the second rims, and opposite ends of the first rims and the adjacent second rims are connected to two ends of the third rims respectively to form a closed annular shape. Further, center portions of the two second rims protrude outwardly to form bosses, and two slideways opposite to each other are opened in the two second rims on the same sides of the bosses respectively. The length of the slideways in a lengthwise direction of the second rims is larger than that in a width direction of the second rims. At the same time, by two symmetrical connection brackets provided on center portions of the first rims respectively, the universal frame is fixed-connected with the inner ring of the lower slewing bearing.
- As preferred, a center chamber is opened from the end of the lug facing the exterior of the rotating sleeve toward the interior of the lug, thereby the end of the lug is formed as an opened end provided with an end cover for covering an opening of the center chamber. Further, a through hole is opened at a center portion of the end cover, through which a water inlet tube is provided for supplying cooling water to the center chamber. Also, a plurality of overflow holes communicated with the center chamber is opened at the end cover.
- As preferred, an oil hole is opened from the end of the lug facing the exterior of the rotating sleeve toward the interior of the lug, and at least one grease outlet communicated with the oil hole is opened at an exterior wall of the lug surrounded by a lug sheath. The oil hole is connected with an oil supply tube for supplying lubricant thereto.
- As preferred, three grease outlets are provided, which are disposed evenly in a linear-arrangement on the exterior wall of the lug surrounded by the lug sheath.
- As preferred, the lug at a location where the grease outlets are provided and the lug sheath are configured as a large clearance fit.
- As preferred, an oiler connected with the oil supply tube for supplying oil thereto is secured on the crank. Further, a bumping piece is provided on the exterior wall of the rotating sleeve, the bumping piece being in contact with or separated from the oiler to start or stop fueling when the crank rotates.
- Comparing to the prior art, the furnace top chute distributor for a blast furnace according to the present invention has the following advantages leastwise:
- 1. The furnace top chute distributor for a blast furnace according to the present invention has reasonable structure, the shortest gearing chain, more stable operation, no lateral force to the guide rail, and evenly distributing, such that various requirements of the processing operation of the top charging device without bell can be fully satisfied.
- 2. Since an external cylinder configuration, in which a cylinder is installed on the top cover by the cylinder block, is utilized for each of the three cylinders of the furnace top chute distributor for a blast furnace of the present invention, the requirement for replacing the cylinder rapidly during the operation of the distributor can be satisfied.
- 3. A removable structure is utilized for the guide rail on the airtight case of the furnace top chute distributor for a blast furnace of the present invention to enable replacement after wearing out to be very convenient to extend lifetime to match with that of the distributor, so that the disadvantages in the prior art such as the difficulty of processing and the heat treatment for the guide rail, and impossibility of the replacement after attrition can be overcome.
- 4. Water-cooling and lubrication treatment are performed on the lugs according to the furnace top chute distributor for a blast furnace of the present invention so as to meet the requirement for operating the lugs under the high temperature condition and to reduce the wear, thereby lifetime of the lugs can be extended.
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Fig.1 is a schematic view of the overall structure of the furnace top chute distributor for a blast furnace according to the present invention; -
Fig.2 is a schematic view of the overall structure of the furnace top chute distributor for a blast furnace in another direction according to the present invention; -
Fig.3 is a top view ofFig.2 ; -
Fig.4 is a schematic view of the connecting configuration of the universal frame, the inner ring of the lower slewing bearing and the chute bracket of the furnace top chute distributor for a blast furnace according to the present invention; -
Fig.5 is a top view of the universal frame of the furnace top chute distributor for a blast furnace according to the present invention; -
Fig.6 is a front view of the universal frame of the furnace top chute distributor for a blast furnace according to the present invention; -
Fig.7 is a side view of the universal frame of the furnace top chute distributor for a blast furnace according to the present invention; -
Fig.8 is a schematic view of the connecting configuration of one cylinder and the transition link of the furnace top chute distributor for a blast furnace according to the present invention; -
Fig.9 is a sectional view of the holding sleeve of the furnace top chute distributor for a blast furnace according to the present invention; -
Fig.10 is a schematic view of the connecting configuration of the guide wheel and the guide rail on the interior wall of the airtight case of the furnace top chute distributor for a blast furnace according to the present invention; -
Fig.11 is a structurally schematic view of the water-cooling system of the lugs according to the furnace top chute distributor for a blast furnace of the present invention; -
Fig.12 is a structurally schematic view of the lubrication system of the lugs according to the furnace top chute distributor for a blast furnace of the present invention; -
Fig.13 is a schematic view of the lugs in an initial fueling condition according to the furnace top chute distributor for a blast furnace of the present invention; -
Fig.14 is a schematic view of the lugs in a non-fueling condition according to the furnace top chute distributor for a blast furnace of the present invention; -
Fig.15 is a schematic view of the lugs in a fueling finishing condition according to the furnace top chute distributor for a blast furnace of the present invention. - I - airtight case 2 - top cover 3 - choke 4 - rotating sleeve 5 - upper slewing bearing 6 - lower slewing bearing 7 - chute 8 - universal frame 9 - translational backing ring 10 - horizontal chute driving apparatus 11 - cylinder 12 - lug 13 - lug sheath 14 - crank 15 - transition link 16 - guide rail 17 - positioning slot 18 - fixed bolt 19 - center chamber 20 - end cover 22 - overflow hole 23 - internal water tube 24 - external water tube 25- water-cooling base plate 26 - connection bolt 27 - sealing ring 28 - oil hole 29 - grease outlet 30 - oil supply tube 31 - oiler 32 - bumping piece 34 - crank tail wheel 35 - adjustable link 36-cylinder rod 37 - dial wheel assembly 71 - chute bracket 81 - slideway 82 - first rim 83 - second rim 84 - third rim 85 - boss 86 - connection bracket 91 - guide wheel 92 - holding sleeve 93 - cylinder block 94 -cylinder body 95 - semi-sleeve body 96 - center through hole 97 - connection bolt 98 - joint 99 - geared motor 100 - step 101 - thin portion
- The detail description of the present invention will be made as following with reference to the accompanying drawings and embodiments which are not to be construed as limiting the present invention.
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Fig.1 is a schematic view of the overall structure of the furnace top chute distributor for a blast furnace according to the present invention;Fig.2 is a schematic view of the overall structure of the furnace top chute distributor for a blast furnace in another direction according to the present invention;Fig.3 is a top view ofFig.2 ; andFig.4 is a schematic view of the connecting configuration of the universal frame, the inner ring of the lower slewing bearing and the chute bracket of the furnace top chute distributor for a blast furnace according to the present invention. As shown inFigs.1 to 4 , a furnace top chute distributor for a blast furnace according to the present invention includes anairtight case 1, atop cover 2, achoke 3, arotating sleeve 4, an upper slewing bearing 5, alower slewing bearing 6, achute 7, auniversal frame 8, atranslational backing ring 9, a horizontalchute driving apparatus 10 and threecylinders 11. A through hole (not shown in the drawings) is provided in a middle portion of thetop cover 2 to allow thechoke 3 to pass therethrough. An upper end of theairtight case 1 is capped with thetop cover 2 by fixed-connecting a large flange on an outer edge of thetop cover 2 to theairtight case 1. In the present invention, the upper andlower slewing bearings top cover 2 is fixed-connected with the inner ring of theupper slewing bearing 5. Further, thechoke 3 is provided inside theairtight case 1 through the through hole in thetop cover 2. - As shown in
Figs.1 ,2 and4 , therotating sleeve 4 having an upper portion telescopic coupled outside thechoke 3 is located inside theairtight case 1. Since an upper end of therotating sleeve 4 is fixed-connected with the outer ring of the upper slewing bearing 5 while the inner ring of the upper slewing bearing 5 is fixed-connected with thetop cover 2, therotating sleeve 4 and thetop cover 2 are in a rest condition relative to each other in a vertical direction. The rotation of the outer ring of the upper slewing bearing 5 is driven by the horizontalchute driving apparatus 10 provided on thetop cover 2, and causes therotating sleeve 4 to rotate about a center line of thetop cover 2 by 360 degrees. Thechute 7 capable of rotating along with therotating sleeve 4 is provided in the rotating sleeve. In particularly, the configuration of the connection between therotating sleeve 4 and thechute 7 is described as the following. Two lug holes (not shown in the drawings) diametrically opposite to each other are opened in the wall of therotating sleeve 4, and each lug hole is provided with alug sheath 13 in which alug 12 capable of rotating within thelug sheath 13 is installed. Achute bracket 71 is fixed-connected at the outer side of thechute 7. Thechute bracket 71 has two upper ends respectively connected with one end of eachlug 12 via a spline, such that thechute 7 is hung onto the twolugs 12 passing through thelug sheaths 13. That is, thechute 7 is hung onto therotating sleeve 4 via the lugs. Thechute bracket 71 and thechute 7 are always in a rest condition relative to each other and rotate along with therotating sleeve 4. - Continuing with reference to
Figs.1 to 3 , the threecylinders 11 axially disposed on thetop cover 2 evenly with respect to a horizontal rotation center line of thechute 7 are connected with thetranslational backing ring 9 via atransition link 15 respectively so as to cause thetranslational backing ring 9 to move up and down. Thetranslational backing ring 9 is telescopic coupled outside therotating sleeve 4, and a lower portion of an inner edge of thetranslational backing ring 9 is fixed-connected with an outer ring of thelower slewing bearing 6 into one piece by means of bolts, thereby thetranslational backing ring 9 may cause both the inner and outer rings of thelower slewing bearing 6 to move up and down. An outer edge of thetranslational backing ring 9 is provided with aguide wheel 91, and acorresponding guide rail 16 is provided on an interior wall of theairtight case 1. Theguide wheel 91 is provided on theguide rail 16 and caused to roll up and down along theguide rail 16 by thecylinder 11 so as to ensure an accurate moving direction of thetranslational backing ring 9 and the inner and outer rings of thelower slewing bearing 6. Theuniversal frame 8 is telescopic coupled outside therotating sleeve 4 and is fixed-connected with the inner ring of thelower slewing bearing 6. As such, the up-down movement of thetranslational backing ring 9 causes the inner ring of thelower slewing bearing 6 to move up and down and thus causes theuniversal frame 8 to move up and down. The other end of thelug 12 passing through thelug sheath 13 is connected with a crank 14 via a spline, while acrank tail wheel 34 on the other end of thecrank 14 is positioned within aslideway 81 of theuniversal frame 8. Since therotating sleeve 4 cannot move up and down, when theuniversal frame 8 moves up and down, theslideway 81 causes thecrank tail wheel 34 to move up and down and along theslideway 81, such that thecrank 14 causes thelug 12 to rotate within thelug sheath 13. In turn, the rotation of thelug 12 causes the swing of thechute 7 and thechute bracket 71. - The inner ring of the
lower slewing bearing 6 is fixed-connected with adial wheel assembly 37 having a dial wheel positioned within a runner (not shown in the drawings) opened on therotating sleeve 4 in an up-down direction. When thecylinder 11 causes thelower slewing bearing 6 to move up and down via thetranslational backing ring 9 and thus thechute 7 is swung, the dial wheel slides up and down with respect to therotating sleeve 4 within the runner thereof. And when therotating sleeve 4 rotates, the dial wheel rotates along with it while sliding up and down within the runner thereof so as to cause theuniversal frame 8 and the inner ring of thelower slewing bearing 6 to rotate as well. Thus, the operation of the rotating and swinging of thechute 7 during the distribution is performed. - As a preferred aspect of the embodiments, the three
cylinders 11 include acylinder body 94 and acylinder rod 36 respectively, as shown inFig.1 . Thecylinder body 94 is fixed on thetop cover 2 via acylinder block 93. Through a holdingsleeve 92, a lower end of thecylinder rod 36 is fixed-connected to thetransition link 15. A lower end of thetransition link 15 extends through thecylinder block 93 and thetop cover 2 and into theairtight case 1 so as to connect to anadjustable link 35 which is within theairtight case 1 and connected with thetranslational backing ring 9. Thus, the up-down movement of thecylinder rod 36 causes thetranslational backing ring 9 to move up and down. Each of thecylinders 11 of the embodiment is arranged as an external cylinder configuration, i.e. thecylinder rod 36 is located outside theairtight case 1 or outside the furnace top chute distributor for a blast furnace of the present invention, which changes the conventional internal cylinder configuration where the cylinder rod of the cylinder has to extend into the airtight case. When failure in thecylinder 11 occurs and disassembly is needed to perform inspection and replacement, the process can be done by only releasing the holdingsleeve 92 to separate thecylinder rod 36 from thetransition link 15 after dismounting thecylinder 11 from thecylinder block 93, without opening the distributor body. Under this configuration, it is not as complicated as the internal cylinder configuration where the distributor has to be opened when disassembly of the cylinder is needed, therefore, convenient and rapid disassembly can be achieved while production efficiency is increased. - As a further preferred aspect, shown in
Figs.8 and9 , the holdingsleeve 92 is formed in a cylindrical shape with a center throughhole 96 by coupling twosemi-sleeve bodies 95 to each other. Further, the twosemi-sleeve bodies 95 are fixed together byconnection bolts 97. In this configuration, diameter of each end portion of the center throughhole 96 is smaller than diameter of a center portion thereof, whilesteps 100 are formed at diameter transitions of the center throughhole 96. Further, opposite ends of thecylinder rod 36 and thetransition link 15 are formed asthin portions 101 positioned in the two ends of the center throughhole 96, respectively. Moreover, one end of each of thethin portions 101 is connected with a joint 98 positioned in the center portion of the center throughhole 96 and against thestep 100. Thus, the opposite ends of thecylinder rod 36 and thetransition link 15 abut against both ends of the holdingsleeve 92. As such, thecylinder rod 36 and thetransition link 15 are fixed-connected together via the holdingsleeve 92. - To overcome the disadvantages in the prior art where the guide rail is welded directly onto the interior wall of the
airtight case 1, such as the difficulty of processing and the heat treatment for the guide rail, the heavy attrition of the guide rail, the short lifetime, and impossibility of the replacement after inactivation of the guide rail, as another preferred aspect of the embodiments shown inFig.10 , theremovable guide rail 16 is used in the present invention. That is, apositioning slot 17 with a notch toward theguide wheel 91 is fixed-connected in a lengthwise direction to the interior wall of theairtight case 1 corresponding to theguide wheel 91 of thetranslational backing ring 9. Thepositioning slot 71 may be fixed onto the interior wall of theairtight case 1 by means of welding. The guide rail 16 (made of square steel) is removably fixed within thepositioning slot 17 in a lengthwise direction by a plurality of fixedbolts 18 in a spaced arrangement. When theguide rail 16 wears out heavily, theguide rail 16 may be dismounted from thepositioning slot 17 and replaced by a new one, thereby the lifetime of the guide rail is enhanced. - As a yet preferred aspect of the embodiments, shown in
Figs.4 to 7 , theuniversal frame 8 is a shaped frame by casting. Theuniversal frame 8 includes two opposite and parallelfirst rims 82 and two opposite and parallelsecond rims 83. Also, thefirst rims 82 are perpendicular to thesecond rims 83, and opposite ends of thefirst rims 82 and the adjacentsecond rims 83 are connected to two ends of thethird rims 84 respectively, i.e. thefirst rims 82,second rims 83 andthird rims 84 are connected in an end-around manner to form a closed annular shape. Further, center portions of the twosecond rims 83 protrude outwardly to formbosses 85 in order to prevent the lower slewing bearing 6 from extending out of theuniversal frame 8 in a horizontal direction. At the same time, the configuration of thebosses 85 provides the installation space for anend cover 20 connected to thelug 12, a lower end of anexternal water tube 24, and anoil supply tube 30, which will be described later on. Twoslideways 81 opposite to each other are opened in the twosecond rims 83 on the same sides of thebosses 85, respectively. In particularly, length of theslideways 81 in a lengthwise direction of thesecond rims 83 is larger than that in a width direction of thesecond rims 83. That is, theslideway 81 is a long hole, within which thecrank tail wheels 34 are provided and move in a lengthwise direction of thefirst rims 82. By twosymmetrical connection brackets 86 provided on center portions of the twofirst rims 82 respectively, theuniversal frame 8 is connected with the inner ring of thelower slewing bearing 6. - Since the
lug 12 operates under the high temperature condition at all time, as a further preferred aspect of the embodiments in order to ensure the operation and lifetime of thelug 12, forced cooling is performed to thelug 12 itself to meet the functional requirement for thelug 12 operating under the high temperature condition. As shown inFig. 11 , acenter chamber 19 is opened from an end of thelug 12 facing the exterior of therotating sleeve 4 toward the interior of the lug 12 (not straight forward to the other end of the lug 12). The end of thelug 12 is formed as an opened end provided with theend cover 20 for covering an opening of thecenter chamber 19. Theend cover 20 is removably connected with thelug 12 byconnection bolts 26, and a sealingring 27 is provided between theend cover 20 and thelug 12. A through hole (not shown in the drawings) is opened at a center portion of theend cover 20, through which a water inlet tube is provided for supplying cooling water to thecenter chamber 19. Also, a plurality ofoverflow holes 22 communicated with thecenter chamber 19 is opened at theend cover 20. The water inlet tube includes aninternal water tube 23 located inside thecenter chamber 19, and theexternal water tube 24 located outside thecenter chamber 19 and communicated with the cooling water source. An end of theinternal water tube 23 extends straight to be adjacent to the end of thecenter chamber 19 so as to fill thewhole center chamber 19 with the cooling water. After cooling for thelugs 12, the cooling water within thecenter chamber 19 flows out through the overflow holes 22 provided on theend cover 20. Eventually, the cooling water flows into the water-coolingbase plate 25 as shown inFig.1 , and then converges to the cooling water system of the distributor from the water-coolingbase plate 25. Arrows inFig. 11 indicate the flowing configuration of the cooling water within thecenter chamber 19 in detail. - Aiming at the case in the prior art in which dry friction exists between the
lug 12 and thelug sheath 13 without any lubrication treatment, in a further preferred aspect of the embodiments, lubricant is applied to friction surfaces between thelug 12 and thelug sheath 13 to reduce friction coefficient effectively so as to extend the lifetime of thelug 12. As a detailed structure shown inFig.12 , anoil hole 28 is opened from the end of thelug 12 facing the exterior of therotating sleeve 4 toward the interior of thelug 12, and at least onegrease outlet 29 communicated with theoil hole 28 is opened at an exterior wall of thelug 12 surrounded by thelug sheath 13. Theoil hole 28 is connected with anoil supply tube 30 for supplying lubricant thereto. - As also further preferred, shown in
Fig.12 , in consideration of evenness of lubricant feeding, threegrease outlets 29 are provided and disposed evenly in a linear-arrangement on the exterior wall of thelug 12 surrounded by thelug sheath 13. Also, theoil hole 28 is opened preferably close to the exterior wall of thelug 12 rather than the center portion thereof, and thegrease outlets 29 are also opened at the side close to the exterior wall of thelug 12 so as to reduce the difficulty of processing and the distance of the grease flowing. Additionally, the lug at a location where the grease outlets are provided and the lug sheath are configured as a large clearance fit. As such, contact relation between thelug 12 and thelug sheath 13 is initially line-contact and turns to narrow surface-contact after operating for a certain time. The friction coefficient may be reduced effectively when performing the lubrication treatment thereon, and then the lifetime is increased. - As further preferred, shown in
Fig.12 , since lubricant may not be supplied for said lubrication of thelugs 12 via an external lubrication apparatus, anoiler 31 is secured on thecrank 14, and abumping piece 32 is provided on the exterior wall of therotating sleeve 4. Thecrank 14 rotates to make theoiler 31 move up and down, so as to allow thebumping piece 32 to be in contact with and separated from the oiler. To control the amount of fueling, the lubrication is performed in a fixed cycle during the operation of the distributor. During non-lubrication period, an operating angle of thechute 81 is controlled in a range between 7 to 45 degrees, and a non-contact condition is maintained between theoiler 31 and thebumping piece 32. When lubrication period starts, the control range of the operating angle of thechute 81 is changed. The lubrication of thelugs 12 is performed in a fixed cycle during the operation of the distributor, i.e. the lubrication is performed once every ten batches of distributing by the distributor, and a non-contact condition is maintained between theoiler 31 and thebumping piece 32 during the non-lubrication period. When lubrication period starts for thelug 12, theoiler 31 and thebumping piece 32 are hitting each other to start fueling as the operating angle of thechute 81 is 4 degrees during the rotation of thecrank 14, as shown inFig. 13 . As shown inFig.15 , the fueling operation by theoiler 31 is completed as thechute 81 turns to 1 degree. Then, the bumpingpiece 32 and theoiler 31 are separated from each other to allow theoiler 31 to stop fueling, i.e. the condition shown inFig.4 . In turn, thechute 81 enters next cycle of fueling. The height of theuniversal frame 8 may be controlled by adjusting the length of theadjustable link 35, so as to change the swinging angle of thechute 81. - Next, principle of operation and working process of the furnace top chute distributor for a blast furnace of the present invention will be introduced with reference to
Figs.1 to 4 : - To complete the distributing of the distributor, it is needed that the
chute 7 swings while rotating to achieve the even distribution. - The swinging operation of the chute is now described as following. Each of the three
cylinders 11 is connected to thetranslational backing ring 9 via thetransition link 15 and theadjustable link 35. The outer ring of thelower slewing bearing 6 is connected with thetranslational backing ring 9 by bolts, and its inner ring is connected with theuniversal frame 8. While thecylinder rods 36 of the threecylinders 11 move up and down, thetranslational backing ring 9, thelower slewing bearing 6 and theuniversal frame 8 move up and down. During the up-down movement of thetranslational backing ring 9, rolling friction is presented due to the co-operation between theguide wheel 91 and theguide rail 16 of theairtight case 1 which functions to restrict the position of theguide wheel 91 when moving. Thecrank tail wheel 34 mounted within theslideway 81 of theuniversal frame 8 moves with theuniversal frame 8, and thecrank 14 installed on the outer side of thelug 12 causes thelug 12 to rotate within thelug sheath 13 of therotating sleeve 4 in a corresponding range. Further, the other end of thelug 12 co-operates with thechute bracket 71 by a spline, hereto, thechute 7 and thechute bracket 71 swing along with thecrank 14 synchronously under dynamic action transmitted via the spline of thelug 12. - The rotating operation of the
chute 7 is now described as following. The large flange of thetop cover 2 is fixed-connected with theairtight case 1, while the small flange in the lower portion of thetop cover 2 is connected with the inner ring of the upper slewing bearing 5 with the outer ring fixed-connected with therotating sleeve 4. The two lugs 12 are respectively installed within the lug sheaths 13 located in the respective lug holes opened on therotating sleeve 4. The spline at the end of thelug 12 is connected with thecrank 14, while the spline at the other end of thelug 12 is connected with thechute bracket 71. That is, thechute bracket 71 is hung onto therotating sleeve 4 via thelugs 12. A gearedmotor 99 may supply the power for the horizontalchute driving apparatus 10 installed on thetop cover 2. When the horizontalchute driving apparatus 10 drives the outer ring of the upper slewing bearing 5 to rotate through a pinion, therotating sleeve 4 rotates as the outer ring of the upper slewing bearing 5 rotates, and then thechute bracket 71 rotates as therotating sleeve 4 rotates. Eventually, thechute 7 installed at thechute bracket 71 rotates thereupon. - The rotating-swinging operation of the
chute 7 is now described as following. As shown inFig.1 , thedial wheel assembly 37 installed on the inner ring of thelower slewing bearing 6 may move up and down along with thetranslational backing ring 9, and then the dial wheel of thedial wheel assembly 37 may roll up and down within the runner of therotating sleeve 4. Also, when therotating sleeve 4 rotates, thedial wheel assembly 37 rotates along with therotating sleeve 4 so as to drive theuniversal frame 8 to move. At the same time, the inner ring of thelower slewing bearing 6 rotates in a circumferential direction correspondingly. Thetranslational backing ring 9 is pulled by thecylinder 11 via theadjustable link 35 to move up and down, the outer ring of thelower slewing bearing 6 is fixed-connected with thetranslational backing ring 9 and maintained in a stationary condition relative to each other, and the outer and inner rings of thelower slewing bearing 6 are in a motionless condition relatively in a vertical direction, so theuniversal frame 8 is able to move up and down and thecrank tail wheel 34 moves up and down with theuniversal frame 8 within theslideway 81 thereof. Since therotating sleeve 4 cannot move up and down such that thelug 12 is rotated within thelug sheath 13 by thecrank 14, the rotation of thelug 12 causes thechute 7 and thechute bracket 71 to swing in a fixed range. To this extent, the effective combination of the rotation and swing of thechute 7 with thechute bracket 71 is achieved. - The above just provides an explanation to the exemplary embodiments of this invention rather than limit the present invention, and the protecting scope of the invention is defined by the appended claims. It should be noted that a person skilled in the art may make various alterations and equivalences without departing from the spirit of this invention. These alterations and equivalences should be considered falling within the protection scope of the present invention.
Claims (12)
- A furnace top chute distributor for a blast furnace, characterized in that the chute distributor comprises:an airtight case having a top cover provided on a top portion thereof;a choke configured to communicate with exterior through the top cover and extend into the airtight case;an upper slewing bearing having an inner ring fixed-connected with the top cover;a rotating sleeve located inside the airtight case and having an upper end fixed-connected with an outer ring of the upper slewing bearing; two lug holes provided facing each other along a diameter of the rotating sleeve and each lug hole having a lug therein, and each lug having an end extending out of the rotating sleeve to connect with an end of a crank;a chute having two upper ends connected with the other end of each lug respectively to enable the chute to be hung within the rotating sleeve;a universal frame telescopic coupled outside the rotating sleeve, on which two symmetrical slideways are opened, and each crank tail wheel on the other end of each crank provided within the slideway;a lower slewing bearing having an inner ring fixed-connected with the universal frame;a dial wheel assembly having one end fixed-connected with the inner ring of the lower slewing bearing, and a dial wheel on the other end that is positioned and rolled within a runner opened on the rotating sleeve;a cylinder for drawing an outer ring of the lower slewing bearing to move up and down; anda horizontal driving apparatus for driving the outer ring of the upper slewing bearing to rotate.
- The furnace top chute distributor for a blast furnace according to claim 1, characterized in that a large flange on an outer edge of the top cover is fixed-connected with the airtight case while a small flange on an inner edge of the top cover is fixed-connected with the inner ring of the upper slewing bearing;
a chute bracket is fixed-connected at the outer side of the chute, and the two upper ends of the chute bracket are connected with said other end of each lug by a spline respectively while said end of each lug is connected with the end of each crank by a spline;
a translational backing ring, telescopic coupled outside the rotating sleeve having an upper portion telescopic coupled outside the choke, has a lower portion of an inner edge fixed-connected with the outer ring of the lower slewing bearing, and a guide wheel is provided on an outer edge of the translational backing ring while a corresponding guide rail is provided on an interior wall of the airtight case to enable the guide wheel to roll up and down along the guide rail by the cylinder;
three cylinders are provided, which are disposed evenly on the top cover with respect to a horizontal rotation center line of the chute in an axial direction, and the three cylinders are connected with the translational backing ring via a transition link respectively to cause the translational backing ring to move up and down and thus cause the universal frame to move up and down. - The furnace top chute distributor for a blast furnace according to claim 2, characterized in that the cylinder includes a cylinder body fixed on the top cover by a cylinder block, and a cylinder rod having a lower end fixed-connected with the transition link by a holding sleeve, and that by passing through the cylinder block and the top cover, a lower end of the transition link is connected with an adjustable link, which is inside the airtight case and connected with the translational backing ring.
- The furnace top chute distributor for a blast furnace according to claim 3, characterized in that the holding sleeve is formed in a cylindrical shape with a center through hole by coupling two semi-sleeve bodies to each other, and the two semi-sleeve bodies are fixed together by connection bolts;
diameter of each end portion of the center through hole is smaller than diameter of a center portion thereof while steps are formed at diameter transitions of the center through hole;
opposite ends of the cylinder rod and the transition link are formed as thin portions positioned in the two ends of the center through hole, respectively, one end of each thin portion is connected with a joint positioned in the center portion of the center through hole and against the step, and then the opposite ends of the cylinder rod and the transition link abut against both ends of the holding sleeve. - The furnace top chute distributor for a blast furnace according to claim 2, characterized in that a positioning slot with a notch facing the guide wheel is fixed-connected to the interior wall of the airtight case corresponding to the guide wheel of the translational backing ring in a lengthwise direction, and the guide rail of the airtight case is removably fixed into the positioning slot in a lengthwise direction.
- The furnace top chute distributor for a blast furnace according to claim 5, characterized in that the guide rail is a square steel material, which is removably fixed into the positioning slot by a plurality of fixed bolts in a spaced arrangement, wherein the positioning slot is welded onto the interior wall of the airtight case.
- The furnace top chute distributor for a blast furnace according to claim 1 or 2, characterized in that the universal frame includes two opposite and parallel first rims, two opposite and parallel second rims, and third rims;
the first rims are perpendicular to the second rims, and opposite ends of the first rims and the adjacent second rims are connected to two ends of the third rims respectively to form a closed annular shape;
center portions of the two second rims protrude outwardly to form bosses, and two slideways opposite to each other are opened in the two second rims on the same sides of the bosses respectively, wherein length of the slideways in a lengthwise direction of the second rims is larger than that in a width direction of the second rims, and then by two symmetrical connection brackets provided on center portions of the two first rims respectively, the universal frame is fixed-connected with the inner ring of the lower slewing bearing. - The furnace top chute distributor for a blast furnace according to claim 1 or 2, characterized in that a center chamber is opened from the end of the lug facing the exterior of the rotating sleeve toward the interior of the lug, thereby the end of the lug is formed as an opened end provided with an end cover for covering an opening of the center chamber, and that a through hole is opened at a center portion of the end cover, through which a water inlet tube is provided for supplying cooling water to the center chamber, and that a plurality of overflow holes communicated with the center chamber is opened at the end cover.
- The furnace top chute distributor for a blast furnace according to claim 1 or 2, characterized in that an oil hole is opened from the end of the lug facing the exterior of the rotating sleeve toward the interior of the lug, and at least one grease outlet communicated with the oil hole is opened at an exterior wall of the lug surrounded by a lug sheath, wherein the oil hole is connected with an oil supply tube for supplying lubricant thereto.
- The furnace top chute distributor for a blast furnace according to claim 9, characterized in that three grease outlets are provided, which are disposed evenly in a linear-arrangement on the exterior wall of the lug surrounded by the lug sheath.
- The furnace top chute distributor for a blast furnace according to claim 10, characterized in that the lug at a location where the grease outlets are provided and the lug sheath are configured as a large clearance fit.
- The furnace top chute distributor for a blast furnace according to claim 10, characterized in that an oiler connected with the oil supply tube for supplying oil thereto is secured on the crank, and a bumping piece is provided on the exterior wall of the rotating sleeve, the bumping piece being in contact with or separated from the oiler to start or stop fueling when the crank rotates.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201210017740.7A CN103215395B (en) | 2012-01-19 | 2012-01-19 | Blast furnace top chute distributing device |
PCT/CN2012/071989 WO2013107078A1 (en) | 2012-01-19 | 2012-03-06 | Furnace top chute feeder for blast furnace |
Publications (3)
Publication Number | Publication Date |
---|---|
EP2808406A1 true EP2808406A1 (en) | 2014-12-03 |
EP2808406A4 EP2808406A4 (en) | 2015-12-09 |
EP2808406B1 EP2808406B1 (en) | 2017-09-20 |
Family
ID=48798547
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP12738007.9A Active EP2808406B1 (en) | 2012-01-19 | 2012-03-06 | Furnace top chute feeder for blast furnace |
Country Status (5)
Country | Link |
---|---|
EP (1) | EP2808406B1 (en) |
KR (1) | KR101342988B1 (en) |
CN (1) | CN103215395B (en) |
RU (1) | RU2544318C1 (en) |
WO (1) | WO2013107078A1 (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20170307293A1 (en) * | 2014-10-22 | 2017-10-26 | Paul Wurth S.A. | Device for cooling a shaft furnace distribution chute support journals |
EP3329020B1 (en) | 2015-07-30 | 2019-06-26 | Danieli & C. Officine Meccaniche S.p.A. | Device for delivering filler material into a blast furnace |
CN112359158A (en) * | 2020-12-08 | 2021-02-12 | 中冶赛迪技术研究中心有限公司 | Circulating water cooling device, blast furnace distributor and water supply method thereof |
Families Citing this family (8)
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LU92494B1 (en) * | 2014-07-07 | 2016-01-08 | Wurth Paul Sa | DEVICE FOR LOCKING THE CHUTE ON THE ENDS OF THE TRUNKS, IN A TANK OVEN LOADING SYSTEM |
CN106702059A (en) * | 2015-07-27 | 2017-05-24 | 秦皇岛秦冶重工有限公司 | Blast furnace top chute distributer |
CN109028016B (en) * | 2018-07-31 | 2019-12-24 | 金溪百通宏达热力有限公司 | High-efficient H type fin economizer |
CN109336422B (en) * | 2018-11-26 | 2024-03-19 | 中冶焦耐(大连)工程技术有限公司 | Combined distributing device for shaft kiln capable of calcining small-granularity limestone |
CN110608613B (en) * | 2019-09-04 | 2024-09-20 | 内蒙古鄂尔多斯电力冶金集团股份有限公司 | Novel rotary driving mechanism of submerged arc furnace charging system |
CN112212683B (en) * | 2020-11-02 | 2024-09-10 | 广东乐图新材料有限公司 | Alumina blank calcining equipment |
CN114656991B (en) * | 2022-03-26 | 2024-08-09 | 太重(天津)滨海重型机械有限公司 | Lump coal pushing and blocking device for coal gasification equipment |
CN115896381A (en) * | 2022-09-16 | 2023-04-04 | 秦皇岛秦冶重工有限公司 | Material distribution device and material distribution control method |
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- 2012-03-06 WO PCT/CN2012/071989 patent/WO2013107078A1/en active Application Filing
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- 2012-03-06 RU RU2013140633/02A patent/RU2544318C1/en active
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Publication number | Priority date | Publication date | Assignee | Title |
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US20170307293A1 (en) * | 2014-10-22 | 2017-10-26 | Paul Wurth S.A. | Device for cooling a shaft furnace distribution chute support journals |
US10670339B2 (en) * | 2014-10-22 | 2020-06-02 | Paul Worth S.A. | Device for cooling a shaft furnace distribution chute support journals |
EP3329020B1 (en) | 2015-07-30 | 2019-06-26 | Danieli & C. Officine Meccaniche S.p.A. | Device for delivering filler material into a blast furnace |
EP3329020B2 (en) † | 2015-07-30 | 2022-12-21 | Danieli & C. Officine Meccaniche S.p.A. | Device for delivering filler material into a blast furnace |
CN112359158A (en) * | 2020-12-08 | 2021-02-12 | 中冶赛迪技术研究中心有限公司 | Circulating water cooling device, blast furnace distributor and water supply method thereof |
CN112359158B (en) * | 2020-12-08 | 2023-07-18 | 中冶赛迪技术研究中心有限公司 | Circulating water cooling device, blast furnace distributor and water supply method thereof |
Also Published As
Publication number | Publication date |
---|---|
EP2808406A4 (en) | 2015-12-09 |
RU2544318C1 (en) | 2015-03-20 |
CN103215395A (en) | 2013-07-24 |
RU2013140633A (en) | 2015-03-10 |
EP2808406B1 (en) | 2017-09-20 |
WO2013107078A1 (en) | 2013-07-25 |
KR20130108970A (en) | 2013-10-07 |
KR101342988B1 (en) | 2013-12-18 |
CN103215395B (en) | 2015-04-29 |
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