CN105571330B - The dustless automatic slag scraping of production of magnesium by pidgeonprocess - Google Patents
The dustless automatic slag scraping of production of magnesium by pidgeonprocess Download PDFInfo
- Publication number
- CN105571330B CN105571330B CN201610156696.6A CN201610156696A CN105571330B CN 105571330 B CN105571330 B CN 105571330B CN 201610156696 A CN201610156696 A CN 201610156696A CN 105571330 B CN105571330 B CN 105571330B
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- China
- Prior art keywords
- cinder machine
- slag
- magnesium
- cinder
- dust
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- Expired - Fee Related
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Classifications
-
- 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
- F27D3/15—Tapping equipment; Equipment for removing or retaining slag
- F27D3/1545—Equipment for removing or retaining slag
-
- C—CHEMISTRY; METALLURGY
- C22—METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
- C22B—PRODUCTION AND REFINING OF METALS; PRETREATMENT OF RAW MATERIALS
- C22B26/00—Obtaining alkali, alkaline earth metals or magnesium
- C22B26/20—Obtaining alkaline earth metals or magnesium
- C22B26/22—Obtaining magnesium
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P10/00—Technologies related to metal processing
- Y02P10/20—Recycling
Abstract
The present invention relates to magnesium metal smelting technical field, specifically a kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess.The Cinder Machine includes Cinder Machine host machine part, and Cinder Machine body and track carry out platform;Slag machine host part is fixed on the top of Cinder Machine body, and track progress platform is arranged on the lower section of Cinder Machine body and Cinder Machine body is slidably matched;Cinder Machine host machine part includes Cinder Machine main shaft, shaft motion cabinet, translation gliding platform, motor one, two;One end of Cinder Machine main shaft is arranged on by Cinder Machine main shaft support bearing block on the shaft motion cabinet of removable lid, and the other end is directed at the center of reductive jar;Motor one, two is provided with shaft motion cabinet;Shaft motion cabinet is arranged on the rack of translation gliding platform.The present invention be one kind can scarfing cinder completely, operation field non-dusting can collect the dustless automatic slag scraping of production of magnesium by pidgeonprocess of magnesium slag, can either improve production efficiency, and provided with slag collection device, in order to the secondary utilization of clinker.
Description
Technical field
The present invention relates to magnesium metal smelting technical field, specifically a kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess.
Background technology
Cinder Machine is a kind of using electronic all-hydraulic control system and process units.Suitable for tunnel excavation, mine engineering,
The construction machinery and light section diversion tunnel of the engineerings such as hydraulic engineering, mine is slagged tap, and (ore deposit) is mechanical, and the machine is mainly used in some productions
The rubble earth material in the non-explosion hazard mines such as working space is narrow, the small phosphorus ore of production scale, metal and nonmetal ore deposit is gathered and defeated
Entrucking is sent to construct.
Known domestic patent No. CN202465835 (publication dates:2012.10.03) disclose a kind of magnesium metal reduction jar
Pneumatic all-in-one of skimming, is related to one kind and makees main conveying device using roots blower, it is structurally characterized in that:The gravitation of roots blower is done
Main conveying power, is entered in tank by the main drive gear on main frame, and reducing slag and pelletizing feed are introduced into air feed feeder sleeve respectively
Road, and carry out dust dust removal process.Reducing slag in tank can thoroughly be removed can load pelletizing furnace charge again.Solve stokehold process bottle
Neck problem, is significantly increased the stability of reducing process.The deficiency of the technology is due to that its equipment is excessively huge, is involved great expense.
Most of small-sized refining magnesium at home are not applied to simultaneously.
Known domestic patent No. CN201427986 (publication date 2010.03.24) discloses a kind of magnesium smelting reduction pot and skimmed
Device, it is structurally characterized in that:At least one telescopic mechanical arm, is arranged at the pawl of skimming of every mechanical arm end, motor
And transmission device.Clinker clears up sordid phenomenon when avoiding manual cleaning, while also reducing the labor intensity of workman
And work risk.
Known domestic patent No. CN2799581 (publication date 2006.07.26) is disclosed in a kind of cleaning magnesium smelting reduction pot
The device of residue, especially slag removing device of Mg-reduction jar for smelting magnesium, its feature are, are provided with the movable fixture sustainable
Skim shovel shovel bar at least one support means, in use, can be by the mobile device in the utility model, such as support or dolly
Be placed on the position equivalent to original slag bucket by reductive jar tank mouth, the shovel bar for shovel of skimming be placed in support meanss, using its as
The fulcrum of one stress, becomes more laborsaving compared to the manual type fulcrum force process of skimming that moves forward significantly, only needs a people
It can complete.
The weak point of both the above patented technology is due to it without dust arrester, operation field dust from flying, environment evil
It is bad;Because its shovel head (or screw) must keep certain space with reduction top tank structure, completion inside reductive jar could be entered
Skim and leave remaining magnesium slag inside work, therefore reductive jar, scarfing cinder is not thorough.
The content of the invention
The invention provides one kind can scarfing cinder completely, operation field non-dusting, and a kind of skin of magnesium slag can be collected
The river method refining dustless automatic slag scraping of magnesium, can either improve production efficiency, but also provided with slag collection device, in order to clinker
It is secondary to utilize, existing equipment is solved without dust suppression, is removed the gred not thorough, the operating time is long, and framework is huge, and cost is high, uses
The problem of with limitation.
Technical solution of the present invention is described with reference to the drawings as follows:A kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess, the Cinder Machine
Including Cinder Machine host machine part, Cinder Machine body and track carry out platform;Described Cinder Machine host machine part is fixed on Cinder Machine
The top of body, described track progress platform is arranged on the lower section of Cinder Machine body and Cinder Machine body is slidably matched;Wherein
Described Cinder Machine host machine part includes Cinder Machine main shaft 3, shaft motion cabinet 5, translation gliding platform 6, motor 1 and electricity
Machine 2 27;One end of described Cinder Machine main shaft 3 is arranged on the shaft motion of removable lid by Cinder Machine main shaft support bearing block 4
On cabinet 5, the other end is directed at the center of reductive jar 1;Cinder Machine main shaft 3 can be driven by being provided with described shaft motion cabinet 5
The motor 1 of rotation moves horizontally the motor 2 27 of gear shaft movement with that can drive;Described shaft motion cabinet 5 is arranged on
On the rack 28 of translation gliding platform 6;Described Cinder Machine body includes smelting magnesium slag case 17, the first expansion chamber of dust 12, dust
Second expansion chamber 13, dust collection cloth bag 16 and automatic control box 7;The described translation gliding platform 6 containing rack 28 is set
In the left and right sides of Cinder Machine body;Described Cinder Machine body is the frame structure of a cuboid, and Cinder Machine body is successively
It is divided into smelting magnesium slag case 17, the first expansion chamber of dust 12, the second expansion chamber of dust 13;Described dust collection cloth bag 16 is set
At the rear portion of the second expansion chamber of dust 13 and coupled;Described automatic control box 7 is fixed on translation gliding platform 6
Rear portion.
Described track, which carries out platform, includes chassis traction drive motor 25, Cinder Machine road wheel 15, fluid-pressure-operated scissor
Fall frame 18, oil cylinder 20, slab track chassis and fluid-pressure-operated scissor undercarriage controlled motor 22;Described Cinder Machine road wheel 15 is installed
In the bottom of slab track chassis, a chassis traction drive motor 25 is fixed with slab track chassis top, in chassis
One oil cylinder 20 of each side setting of traction drive motor 25, the lower end of described fluid-pressure-operated scissor undercarriage 18 is provided with
Fluid-pressure-operated scissor undercarriage castor 14.
Described Cinder Machine main shaft 3 is welded with the half spherical blade 2-1 of skimming foremost, and half spherical skims blade 2-1's
Rear end is equidistant to be welded with three semicircles and skims blade 2;Air-cooled passage 23 is provided with described Cinder Machine main shaft 3, it is air-cooled logical
Road 23 is fixed on the inside of Cinder Machine main shaft 3 by fixed plate 24.
The outside of described rack 28, is alongst evenly arranged with multiple rollers 29
The bottom of described smelting magnesium slag case 17 is provided with the latch hook 10 and slag case side plate 11 of control slag-drip opening switch.
Described automatic control box 7 is provided with start button 7-1, automatic button 7-2, hand push button 7-3, forwarding button 7-
4, back 7-5, rotary knob 7-6, mute key 7-7.
Beneficial effects of the present invention are:1. the reciprocating motion for the Slag Tool that the present invention is controlled by automatic controller, energy
It is enough totally thoroughly to clear up clinker, improve operating efficiency.
2. the present apparatus is provided with smelting magnesium slag case, the magnesium slag that refining magnesium is produced can be effectively collected, to improve the profit of magnesium slag
With.
3. the present apparatus is provided with a dust collection cloth bag, using the flowing of dust air-flow, it can effectively collect operation and show
The dust of field, improves the adverse circumstances at the scene of skimming.
It is Cinder Machine host machine part respectively 4. the present apparatus is only made up of three parts, Cinder Machine body and track carry out platform.
Framework is simple, cheap, operates very simple.
Brief description of the drawings
Fig. 1 is overall structure front view of the present invention;
Fig. 2 is main shaft schematic diagram of the present invention;
Fig. 3 is main shaft schematic internal view of the present invention;
Fig. 4 is half spherical blade side view of skimming of the invention;
Fig. 5 is that semicircle of the present invention is skimmed blade side view;
Fig. 6 is that Cinder Machine body of the present invention and track carry out platform structure schematic diagram.
In figure:1st, reductive jar;2nd, semicircle is skimmed blade;2-1, half spherical blade of skimming;3rd, Cinder Machine main shaft;4th, take off
Slag owner's axle supporting bearing base;5th, shaft motion cabinet;6th, translation gliding platform;7th, automatic control box,;7-1, start button;
7-2, automatic button;7-3, hand push button;7-4, forwarding button;7-5, back;7-6, rotary knob;7-7, termination are pressed
Button;8th, dustless slag case slag plate;9th, slag case dust-leading board;10th, latch hook;11st, slag case side plate;12nd, the expansion chamber of dust first;13rd, powder
The expansion chamber of dirt second;14th, scissors undercarriage roller;15th, chassis road wheel;16th, dust collection cloth bag;17th, smelting magnesium slag case;18、
Fluid-pressure-operated scissor undercarriage;19th, slag machine track;20th, oil cylinder, 21, oil pump;22nd, fluid-pressure-operated scissor undercarriage controlled motor, 23, air-cooled
Passage;24th, fixed plate;25th, chassis traction drive motor;26th, motor one;27th, motor two;28th, rack;29th, roller.
Embodiment
Refering to Fig. 1, Fig. 6, a kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess, the Cinder Machine includes Cinder Machine host machine part,
Cinder Machine body and track carry out platform;Described Cinder Machine host machine part is fixed on the top of Cinder Machine body, described rail
Road progress platform is arranged on the lower section of Cinder Machine body and Cinder Machine body is slidably matched;Wherein described Cinder Machine host machine part
Including Cinder Machine main shaft 3, shaft motion cabinet 5, translation gliding platform 6, motor 1 and motor 2 27;The described owner that skims
One end of axle 3 is arranged on by bearing on the shaft motion cabinet 5 of removable lid, and the other end is directed at the center of reductive jar 1;Described
The motor 1 that Cinder Machine main shaft 3 can be driven to rotate is provided with shaft motion cabinet 5 and can be driven and moves horizontally gear shifting shaft
Dynamic motor 2 27, moves horizontally the two ends that gear shaft is arranged on the bottom outer of shaft motion cabinet 5;Described shaft motion machine
Case 5 is arranged on the rack 28 of translation gliding platform 6.Described shaft motion cabinet 5 can drive Cinder Machine main shaft 3 to be slided in translation
Moved forward and backward on moving platform 6, described Cinder Machine main shaft 3 can also rotary motion.
Refering to Fig. 1, described Cinder Machine body includes smelting magnesium slag case 17, the first expansion chamber of dust 12, dust second and settled
Room 13, dust collection cloth bag 16 and automatic control box 7;The described translation gliding platform 6 containing rack 28 is arranged on Cinder Machine
The left and right sides of body, rack 28 is in order to ensure that shaft motion cabinet 5 steadily can be moved flexibly on translation gliding platform 6;
Described Cinder Machine body is the frame structure of a cuboid, and frame mid portion is followed successively by smelting magnesium slag case 17, dust first and settled
Room 12, wherein the second expansion chamber of dust 13, smelting magnesium slag case 17 are used to collect cinder, and the first expansion chamber of dust 12 and dust second are heavy
Drop room 13 is used to collect the dust produced in operation of skimming;Described dust collection cloth bag 16 is arranged on the expansion chamber of dust second
13 rear portion and coupled;Because dusty gas is cut through the flowing of the first expansion chamber of entrance dust 12 suitable for reading of smelting magnesium slag case 17
Face increases suddenly, and flowing velocity declines, and gas reduces to the buoyancy of dust, and heavier dust starts sedimentation, and dust air-flow enters
Remaining thinner dust enters dust collection cloth bag 16 to the second expansion chamber of dust 13 after depositing dust again.Described smelting magnesium slag case 17
Bottom be provided with latch hook 10 and slag case side plate 11, slag-drip opening be able to will be collected by the opening of the bottom plate latch hook 10 of smelting magnesium slag case 17
The discharge of magnesium slag, and by the heat recovery of magnesium slag.Described automatic control box 7 is fixed on the rear portion of translation gliding platform 6,
It can lock and can be taken off, be placed among the little framework of opposing seal.Wherein automatic control box 7 includes 7 buttons, is to start respectively
Button 7-1, automatic button 7-2, hand push button 7-3, forwarding button 7-4, back 7-5, rotary knob 7-6, mute key
7-7, the progress of whole action of skimming is controlled using above-mentioned button.
Refering to Fig. 1, described track, which carries out platform, includes chassis traction drive motor 25, Cinder Machine road wheel 15, liquid
Compression shear formula undercarriage 18, slab track chassis, oil cylinder 20 and fluid-pressure-operated scissor undercarriage controlled motor 22;Described Cinder Machine walking
Wheel 15 is arranged on the bottom of slab track chassis, and a chassis traction drive motor 25 is fixed with slab track chassis top
With fluid-pressure-operated scissor undercarriage 18, slab track chassis is controlled to advance with retreating by chassis traction drive motor 25;Pass through oil
Cylinder 20, oil pump 21 and fluid-pressure-operated scissor undercarriage controlled motor 22 control the height of fluid-pressure-operated scissor undercarriage 18, described liquid
The lower end of compression shear formula undercarriage 18 is provided with fluid-pressure-operated scissor undercarriage castor 14.Wherein described chassis traction drive motor
Moved on the slab track chassis that 25 controls are advanced, the fixation slag machine track 19 before the magnesium refining furnace of workshop using Cinder Machine road wheel 15
It is dynamic, it is installed above have can integral demounting fluid-pressure-operated scissor undercarriage 18.Chassis traction drive motor 25 is each side set
An oil cylinder 20 is put, fuel feeding is distinguished by a petroleum pipeline of oil transfer pump 21.The roller of the movable end of fluid-pressure-operated scissor undercarriage 18 is set
Meter is moved horizontally in channel-section steel, it is ensured that the translation lifting of fluid-pressure-operated scissor undercarriage 18.Cinder Machine main shaft 3 is set to be directed at reductive jar 1
Center.Surface platform, can be placed in Cinder Machine body thereon.
Refering to Fig. 1, described Cinder Machine main shaft 3 is welded with the half spherical blade 2-1, half spherical leaf of skimming of skimming foremost
Piece 2-1 rear end is equidistant to be welded with three semicircles and skims blade 2.Because magnesium slag temperature is too high in operation of skimming, Cinder Machine
Main shaft 3 uses air-cooled cooling, both high temperature can be avoided to make Cinder Machine spindle deformation, and magnesium slag can not also be allowed to lose too many heat
Amount, so being provided with air-cooled passage 23 in Cinder Machine main shaft 3, is fixed on inside main shaft using fixed plate 24.
Refering to Fig. 6, in order to ensure that shaft motion cabinet 5 steadily can be moved flexibly on translation gliding platform 6, in translation
The outside of rack 28 of sliding platform 6, alongst, places anti-side-sway of shaft motion cabinet 5 at a certain distance
Roller 29.
These three parts combination of production of magnesium by pidgeonprocess automatic dust-free Cinder Machine is simple, easy to operate, easy to maintenance.In control
Have in terms of system and manually and automatically operate two ways, under normal circumstances using being automatically brought into operation, slagging-off speed is fast, once occur
Problem may be selected manual.
Embodiment 1:Single reductive jar is skimmed operation
The dustless automatic slag scraping of single shaft production of magnesium by pidgeonprocess, realizing the program of dustless operation is:Dustless automatic slag scraping is in car
Between utilize Cinder Machine road wheel 15 on fixation slag machine track 19 before magnesium refining furnace, pass through the controlled motor of fluid-pressure-operated scissor undercarriage 18
22, oil pump 21, oil cylinder 20 moves fluid-pressure-operated scissor undercarriage castor, the height of adjustment fluid-pressure-operated scissor undercarriage 18, makes to skim
Owner's axle 3 is directed at the center of reductive jar 1, and now dustless slag case slag slide plate 8 is in the lower section of 1 mouthful of reductive jar.If pressed
Starting switch 7-1 and automatic switch 7-2 on control cabinet 7.Cinder Machine main shaft 3 is translated in the promotion lower edge of shaft motion cabinet 5
Sliding platform 6 is promoted into magnesium smelting reduction pot 1, and the steady of Cinder Machine main shaft 3 is ensured by Cinder Machine shaft motion cabinet 5,
Now semicircle skims the spherical blade 2-1 that skims of blade 2 and half in the surface of Cinder Machine main shaft 3.When Cinder Machine main shaft 3 by
When can not advance to the stop of front smelting magnesium slag, dragging motor electric current is undergone mutation, and the sensing elements in automatic control box 7 are sent
Signal, makes Cinder Machine main shaft 3 halt, and allows 180 ° rotationally clockwise of Cinder Machine main shaft 3, semicircle is skimmed blade
2 and half it is spherical skim blade 2-1 be in Cinder Machine main shaft 3 underface, that is, stop go to.Cinder Machine main shaft 3 is dragged simultaneously
Dynamic motor reversal, makes Cinder Machine main shaft 3 back to last semicircle blade 2 of skimming and stops at fire door, Cinder Machine main shaft 3
Turning clockwise 180 °, make the spherical blade 2-1 that skims of semicircle blade 2 and half of skimming be in Cinder Machine main shaft 3 just on
Side's stalling, Cinder Machine main shaft 3 advances into magnesium smelting reduction pot 1 again, and after all stretching into, main shaft rotates 180 °, makes semicircle
Blade 2 and half of skimming is spherical, and the blade 2-1 that skims is in behind the lower section of Cinder Machine main shaft 3 and stopped, Cinder Machine main shaft 3 immediately after
Move back, smelting magnesium slag is all pulled out magnesium smelting reduction pot 1.Enter smelting magnesium slag case 17, wherein slag slide plate through dustless slag case slag slide plate 8
8 be in order to which magnesium slag preferably enters smelting magnesium slag case 17.The dust now produced enters the expansion chamber of dust first through slag case dust-leading board 9
12.Because dusty gas increases suddenly through the slag case flow section of the first expansion chamber of entrance dust 12 suitable for reading, flowing velocity declines, gas
Body reduces to the buoyancy of dust, and heavier dust starts sedimentation, and dust air-flow enters the second expansion chamber of dust 13 again after depositing dust
Remaining thinner dust enters dust collection cloth bag 16.Magnesium slag wherein in smelting magnesium slag case 17, passes through slag bottom plate latch hook 10
With the opening of slag case side plate 11, the magnesium slag of collection is discharged.Then reuse Cinder Machine road wheel 15 to move, to next
Individual reductive jar carries out work of skimming.
Embodiment 2:Operation of skimming is carried out to the reductive jar of different arrangement height
Because the width of Cinder Machine is small, it is adapted to two and uses side by side, you can realizes to two one high and one low reductive jars
Skim cleaning work:By two dustless automatic slag scrapings and come on the fixation slag machine track 19 before the magnesium refining furnace of workshop using skimming
Machine road wheel 15 is moved, and by the controlled motor 22 of fluid-pressure-operated scissor undercarriage 18, oil pump 21, oil cylinder 20 makes fluid-pressure-operated scissor undercarriage live
Driving wheel is moved, the height of adjustment fluid-pressure-operated scissor undercarriage 18, Cinder Machine main shaft 3 is directed at the center of reductive jar 1, now dustless slag
Case slag slide plate 8 is in the lower section of 1 mouthful of reductive jar.If pressing the starting switch 7-1 and automatic switch 7-2 on control cabinet 7.
Cinder Machine main shaft 3 is promoted under the promotion of shaft motion cabinet 5 along translation gliding platform 6 into magnesium smelting reduction pot 1, by skimming
Machine shaft motion cabinet 5 ensures the steady of Cinder Machine main shaft 3, and now semicircle is skimmed blade 2 and half spherical blade of skimming
2-1 is in the surface of Cinder Machine main shaft 3.When Cinder Machine main shaft 3 can not be advanced by the stop of front smelting magnesium slag, dragging motor
Electric current is undergone mutation, and the sensing elements in automatic control box 7 send signal, main shaft is halted, and makes Cinder Machine main shaft 3 suitable
Clockwise rotate 180 °, make semicircle Cinder Machine blade 2 and it is spherical skim blade 2-1 be in Cinder Machine main shaft 3 just under
Side, that is, stop going to.The dragging motor reversion of Cinder Machine main shaft 3, makes Cinder Machine main shaft 3 back to last semicircle simultaneously
Blade 2 of skimming stops at fire door, and Cinder Machine main shaft 3 is turning clockwise 180 °, makes semicircle blade 2 and half of skimming spherical
The surface that the blade 2-1 that skims is in Cinder Machine main shaft 3 is stalled, and Cinder Machine main shaft 3 advances into magnesium smelting reduction pot 1 again, when
After all stretching into, main shaft rotates 180 °, semicircle is skimmed the spherical blade 2-1 that skims of blade 2 and half in Cinder Machine main shaft 3
Lower section after stop, Cinder Machine main shaft 3 retreated immediately, and smelting magnesium slag is all pulled out smelting magnesium reduction jars 1.Slided through dustless slag case slag
Plate 8 enters smelting magnesium slag case 17.The dust now produced enters the first expansion chamber of dust 12 through slag case dust-leading board 9.Due to dust gas
Body increases suddenly through the slag case flow section of the first expansion chamber of entrance dust 12 suitable for reading, and flowing velocity declines, and gas is floated to dust
Power reduces, and heavier dust starts sedimentation, and it is remaining thinner after depositing dust again that dust air-flow enters the second expansion chamber of dust 13
Dust enters dust collection cloth bag 16.Magnesium slag wherein in smelting magnesium slag case 17, passes through slag bottom plate latch hook 10 and slag case side plate 11
Opening, the magnesium slag of collection is discharged.Then reuse Cinder Machine road wheel 15 to move, lower two reductive jars 1 are entered
Capable work of skimming.
Claims (6)
1. a kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess, it is characterised in that the Cinder Machine includes Cinder Machine host machine part, skims
Machine body and track carry out platform;Described Cinder Machine host machine part is fixed on the top of Cinder Machine body, and described track enters
Row platform is arranged on the lower section of Cinder Machine body and Cinder Machine body is slidably matched;Wherein described Cinder Machine host machine part includes
Cinder Machine main shaft (3), shaft motion cabinet (5), translation gliding platform (6), motor one (26) and motor two (27);Described takes off
One end of slag owner axle (3) is arranged on by Cinder Machine main shaft support bearing block (4) on the shaft motion cabinet (5) of removable lid,
The center of other end alignment reductive jar (1);Being provided with described shaft motion cabinet (5) can drive Cinder Machine main shaft (3) to revolve
The motor one (26) and can driving turned moves horizontally the motor two (27) that gear shaft is moved;Described shaft motion cabinet (5) is set
Put on the rack (28) of translation gliding platform (6);Described Cinder Machine body includes smelting magnesium slag case (17), dust first and settled
Room (12), the expansion chamber of dust second (13), dust collection cloth bag (16) and automatic control box (7);Described smelting magnesium slag case (17)
Opening at be provided with dustless slag case slag plate (8);Slag case dust-leading board (9) is provided with described smelting magnesium slag case (17);Described takes off
The slag machine block upper surface left and right sides is each provided with a translation gliding platform (6) for containing rack (28);Described Cinder Machine
Body is the frame structure of a cuboid, and Cinder Machine body is divided into smelting magnesium slag case (17), the expansion chamber of dust first successively
(12), the expansion chamber of dust second (13);Described dust collection cloth bag (16) is arranged on the rear portion of the expansion chamber of dust second (13)
And it is coupled;Described automatic control box (7) is fixed on the rear portion of translation gliding platform (6).
2. the dustless automatic slag scraping of a kind of production of magnesium by pidgeonprocess according to claim 1, it is characterised in that described track enters
Row platform includes chassis traction drive motor (25), Cinder Machine road wheel (15), fluid-pressure-operated scissor undercarriage (18) and oil cylinder
(20);Described Cinder Machine road wheel (15) is arranged on the bottom of fluid-pressure-operated scissor undercarriage (18), in fluid-pressure-operated scissor undercarriage
(18) top is fixed with a chassis traction drive motor (25), in chassis traction drive motor (25) each side
One oil cylinder (20) is set, and the lower end of described fluid-pressure-operated scissor undercarriage (18) is provided with fluid-pressure-operated scissor undercarriage castor
(14)。
3. a kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess according to claim 1, it is characterised in that described Cinder Machine
Main shaft (3) is welded with half spherical blade of skimming (2-1), the equidistant weldering in rear end of half spherical blade of skimming (2-1) foremost
There are three semicircles to skim blade (2);Air-cooled passage (23) is provided with described Cinder Machine main shaft (3), air-cooled passage (23) is led to
Cross the inside that fixed plate (24) is fixed on Cinder Machine main shaft (3).
4. a kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess according to claim 1, it is characterised in that described rack
(28) outside, is alongst evenly arranged with multiple rollers (29).
5. a kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess according to claim 1, it is characterised in that described smelting magnesium slag
The bottom of case (17) is provided with the latch hook (10) and slag case side plate (11) of control slag-drip opening switch.
6. a kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess according to claim 1, it is characterised in that described automatic control
Case (7) processed is provided with start button (7-1), automatic button (7-2), hand push button (7-3), forwarding button (7-4), back
(7-5), rotary knob (7-6), mute key (7-7).
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CN201610156696.6A CN105571330B (en) | 2016-03-18 | 2016-03-18 | The dustless automatic slag scraping of production of magnesium by pidgeonprocess |
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CN201610156696.6A CN105571330B (en) | 2016-03-18 | 2016-03-18 | The dustless automatic slag scraping of production of magnesium by pidgeonprocess |
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CN107867536B (en) * | 2017-10-10 | 2019-07-30 | 乐清市赛而乐电器科技有限公司 | Trolley device with the miscellaneous dirt cleaning structure of guide-track groove |
CN107702553A (en) * | 2017-10-20 | 2018-02-16 | 包头市银洁利重型机械制造有限责任公司 | A kind of rare-earth nodularizer smelting furnace automatic slag removal machine |
CN108917390A (en) * | 2018-08-29 | 2018-11-30 | 宁波金田铜业(集团)股份有限公司 | One kind is for the liftable movable heat-preservation furnace of cast bronze |
CN110081714B (en) * | 2019-04-24 | 2023-12-05 | 无锡市同维机电制造有限公司 | Charging and ash raking integrated machine in front of smelting furnace and working method thereof |
WO2024000703A1 (en) * | 2022-06-29 | 2024-01-04 | 李勇 | Electromagnetic induction internal heating magnesium vacuum reduction furnace capable of realizing drawer-type deslagging |
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US2931060A (en) * | 1957-01-30 | 1960-04-05 | Salvatore Compagnone | Ladle sculling machine |
CN2712944Y (en) * | 2004-07-14 | 2005-07-27 | 山西闻喜银光镁业(集团)有限责任公司 | High temperature slag removal machine for reduction of metal magnesium |
NO322239B1 (en) * | 2005-02-07 | 2006-09-04 | Storvik As | Cleaning device for the removal of slag and metal residues for crucibles |
CN202465835U (en) * | 2011-09-29 | 2012-10-03 | 宁夏鹏程致远自动化技术有限公司 | Integral pneumatic deslagging and charging machine of magnesium metal reduction tank |
CN202744610U (en) * | 2012-06-07 | 2013-02-20 | 宁夏鹏程致远自动化技术有限公司 | Pneumatic type mechanical automatic slag pulling and filling integral machine of metal magnesium reducing tank |
CN103047866B (en) * | 2012-12-15 | 2015-03-04 | 大连华锐重工集团股份有限公司 | Slag removing machine for ore-smelting furnace |
CN103966461A (en) * | 2013-01-25 | 2014-08-06 | 宁夏鹏程致远自动化技术有限公司 | Integrated furnace charge pellet pneumatic packing and reducing slag pneumatic raking machine for magnesium metal reduction tank |
CN103836974B (en) * | 2014-02-20 | 2015-11-25 | 新乡市格林实业发展有限公司 | Cinder Machine dust arrester and dust collecting process |
CN205448707U (en) * | 2016-03-18 | 2016-08-10 | 吉林大学 | Dustless automatic slagging -off machine of skin river method magnesium production |
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2016
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