CN205448707U - Dustless automatic slagging -off machine of skin river method magnesium production - Google Patents

Abstract

The utility model relates to a dustless automatic slagging -off machine of skin river method magnesium production. This slagging -off machine includes slagging -off machine host computer part, and slagging -off machine organism and track carry out the platform, sediment owner machine partial fixing is in the top of slagging -off machine organism, and the track carries out the below and slagging -off machine organism sliding fit of platform setting at the slagging -off machine organism, slagging -off machine host computer part is including slagging -off machine main shaft, the quick -witted case of main shaft action, translation gliding platform, motor, two, the one end of slagging -off machine main shaft is passed through slagging -off machine main shaft support bearing seat and is installed on the quick -witted case of main shaft action of removable lid the center of other end alignment reduction jar, the quick -witted incasement of main shaft action be provided with motor no. 1, two, the quick -witted case setting of main shaft action is on the rack of translation gliding platform. The utility model relates to a can the scarfing cinder complete, the on -the -spot no dust of operation flies upward, can collect the dustless automatic slagging -off machine of skin river method magnesium production of magnesium sediment, can enough improve production efficiency, is equipped with slag collection device moreover to reutilization in the slag.

Description

The dustless automatic slag scraping of production of magnesium by pidgeonprocess

Technical field

This utility model relates to magnesium metal smelting technical field, a kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess.

Background technology

Cinder Machine is the electronic all-hydraulic control system of a kind of employing and process units.It is applicable to construction machinery and the light section diversion tunnel of the engineerings such as tunnel excavation, mine engineering, hydraulic engineering, mine slag tap (ore deposit) machinery, this machine be mainly used in the non-explosion hazard mines such as some production operation narrow space, the little phosphorus ore of production scale, metal and nonmetal ore deposit rubble earth material gather and conveying entrucking construction.

Known domestic patent No. CN202465835 (publication date: 2012.10.03) discloses a kind of pneumatic all-in-one of skimming of magnesium metal reduction jar, relate to a kind of employing roots blower and make main conveying device, it is structurally characterized in that: the gravitation of roots blower is decided conveying power, enter in tank by the main drive gear on main frame, respectively reducing slag and pelletizing feed are introduced air feed feeding pipeline, and carry out dust dust removal process.In can thoroughly removing tank, reducing slag can load again pelletizing furnace charge.Solve stokehold operation bottleneck problem, make the stability of reducing process be significantly increased.The deficiency of this technology is owing to its equipment is the hugest, involves great expense.Most of small-sized refining magnesium field at home is the most inapplicable.

Known domestic patent No. CN201427986 (publication date 2010.03.24) discloses a kind of slag removing device of Mg-reduction jar for smelting magnesium, it is structurally characterized in that: at least telescopic mechanical arm, it is arranged at the pawl of skimming of every mechanical arm end, motor and actuating device.When avoiding labor cleaning, slag clears up sordid phenomenon, also reduces labor intensity and the work risk of workman simultaneously.

Known domestic patent No. CN2799581 (publication date 2006.07.26) discloses a kind of clears up the device of residue in magnesium smelting reduction pot, especially slag removing device of Mg-reduction jar for smelting magnesium, its feature is, described movable fixture is provided with at least one support means of the shovel bar of sustainable shovel of skimming, during use, can be by the mobile device in this utility model, the position of original slag bucket is equivalent to by reductive jar tank mouth as support or dolly are placed on, the shovel bar of shovel of skimming is placed in support means, using it as the fulcrum of a stress, become the most laborsaving compared to the manual type fulcrum force process of skimming that significantly moves forward, a people is only needed to complete.

The weak point of both the above patented technology is owing to it is without dust arrester, operation field dust from flying, bad environments；Owing to its shovel head (or screw) must keep certain space with reductive jar inwall, could enter and complete work of skimming inside reductive jar, therefore leave remaining magnesium slag inside reductive jar, scarfing cinder is the most thorough.

Summary of the invention

This utility model provide one can scarfing cinder complete, operation field non-dusting, and the dustless automatic slag scraping of a kind of production of magnesium by pidgeonprocess of magnesium slag can be collected, production efficiency can either be improved, but also it is provided with slag collection device, so that the secondary of slag utilizes, solve existing equipment without dust suppression, remove the gred the most thorough, operating time is long, framework is huge, and cost is high, uses and has circumscribed problem.

Technical solutions of the utility model accompanying drawings is as follows: a kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess, this Cinder Machine includes that 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, and described track carries out platform and is arranged on the lower section of Cinder Machine body and is slidably matched with Cinder Machine body；Wherein said Cinder Machine host machine part includes Cinder Machine main shaft 3, shaft motion cabinet 5, translation gliding platform 6, motor 1 and motor 2 27；One end of described Cinder Machine main shaft 3 is arranged on the shaft motion cabinet 5 of removable lid by Cinder Machine main shaft support bearing block 4, the center of other end alignment reductive jar 1；It is provided with the motor 1 that Cinder Machine main shaft 3 can be driven to rotate in described shaft motion cabinet 5 and moves horizontally, with driving, the motor 2 27 that gear shaft moves；Described shaft motion cabinet 5 is arranged on the tooth bar 28 of translation gliding platform 6.

Described Cinder Machine body includes smelting magnesium slag case 17, dust the first expansion chamber 12, dust the second expansion chamber 13, dust collection cloth bag 16 and automatic control box 7；The described translation gliding platform 6 containing tooth bar 28 is arranged on 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 divided into smelting magnesium slag case 17, dust the first expansion chamber 12, dust the second expansion chamber 13 successively；Described dust collection cloth bag 16 is arranged on the rear portion of dust the second expansion chamber 13 and coupled；Described automatic control box 7 is fixed on the rear portion of translation gliding platform 6.

Described track carries out platform and includes that chassis traction drive motor 25, Cinder Machine road wheel 15, fluid-pressure-operated scissor undercarriage 18, oil cylinder 20, slab track chassis and fluid-pressure-operated scissor undercarriage control motor 22；Described Cinder Machine road wheel 15 is arranged on the bottom of slab track chassis, a chassis traction drive motor 25 it is fixed with on slab track chassis top, each side arranging an oil cylinder 20 at chassis 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 that skims foremost, and the rear end of the half spherical blade 2-1 that skims is equidistant to be welded with three semicircles and skim blade 2；Being provided with air-cooled passage 23 in described Cinder Machine main shaft 3, air-cooled passage 23 is fixed on the inside of Cinder Machine main shaft 3 by fixed plate 24.

The outside of described tooth bar 28, is alongst evenly arranged with multiple roller 29

The bottom of described smelting magnesium slag case 17 is provided with latch hook 10 and the slag case side plate 11 controlling 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.

The beneficial effects of the utility model are: 1. the reciprocating motion of the Slag Tool that this utility model is controlled by automatic controller, it is possible to totally clear up slag up hill and dale, improve work efficiency.

2. this device is provided with smelting magnesium slag case, it is possible to the effective magnesium slag collecting refining magnesium generation, in order to improve the utilization of magnesium slag.

3. this device is provided with a dust collection cloth bag, utilizes the flowing of dust air-flow, it is possible to the effective dust collecting operation field, improves the adverse circumstances at the scene of skimming.

4. this device is only made up of three parts, is Cinder Machine host machine part respectively, and Cinder Machine body and track carry out platform.Framework is simple, cheap, operates the simplest.

Accompanying drawing explanation

Fig. 1 is this utility model overall structure front view；

Fig. 2 is this utility model main shaft schematic diagram；

Fig. 3 is this utility model main shaft schematic internal view；

Fig. 4 is the spherical blade-side view of skimming of this utility model half；

Fig. 5 is that this utility model semicircle is skimmed blade-side view；

Fig. 6 is this utility model Cinder Machine body and track carries out platform structure schematic diagram.

In figure: 1, reductive jar；2, semicircle is skimmed blade；2-1, half spherical blade of skimming；3, Cinder Machine main shaft；4, Cinder Machine main shaft support bearing block；5, shaft motion cabinet；6, translation gliding platform；7, 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, mute key；8, dustless slag case slag plate；9, slag case dust-leading board；10, latch hook；11, slag case side plate；12, dust the first expansion chamber；13, dust the second expansion chamber；14, scissors undercarriage roller；15, chassis road wheel；16, dust collection cloth bag；17, smelting magnesium slag case；18, fluid-pressure-operated scissor undercarriage；19, slag machine track；20, oil cylinder, 21, oil pump；22, fluid-pressure-operated scissor undercarriage controls motor, and 23, air-cooled passage；24, fixed plate；25, chassis traction drive motor；26, motor one；27, motor two；28, tooth bar；29, roller.

Detailed description of the invention

Refering to Fig. 1, Fig. 6, a kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess, this Cinder Machine includes that 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, and described track carries out platform and is arranged on the lower section of Cinder Machine body and is slidably matched with Cinder Machine body；Wherein said Cinder Machine host machine part includes Cinder Machine main shaft 3, shaft motion cabinet 5, translation gliding platform 6, motor 1 and motor 2 27；One end of described Cinder Machine main shaft 3 is arranged on the shaft motion cabinet 5 of removable lid by bearing, the center of other end alignment reductive jar 1；It is provided with the motor 1 that Cinder Machine main shaft 3 can be driven to rotate in described shaft motion cabinet 5 and moves horizontally, with driving, the motor 2 27 that gear shaft moves, move horizontally gear shaft and be arranged on the two ends of shaft motion cabinet 5 bottom outer；Described shaft motion cabinet 5 is arranged on the tooth bar 28 of translation gliding platform 6.Described shaft motion cabinet 5 can drive Cinder Machine main shaft 3 movable on translation gliding platform 6, and described Cinder Machine main shaft 3 can also rotary motion.

Refering to Fig. 1, described Cinder Machine body includes smelting magnesium slag case 17, dust the first expansion chamber 12, dust the second expansion chamber 13, dust collection cloth bag 16 and automatic control box 7；The described translation gliding platform 6 containing tooth bar 28 is arranged on the left and right sides of Cinder Machine body, and tooth bar 28 is in order to ensure that shaft motion cabinet 5 can move on translation gliding platform 6 the most flexibly；Described Cinder Machine body is the frame structure of a cuboid, frame mid portion is followed successively by smelting magnesium slag case 17, dust the first expansion chamber 12, dust the second expansion chamber 13, wherein smelting magnesium slag case 17 is used for collecting cinder, dust the first expansion chamber 12 and dust the second expansion chamber 13 for being collected in operation of skimming the dust produced；Described dust collection cloth bag 16 is arranged on the rear portion of dust the second expansion chamber 13 and coupled；Owing to dusty gas increases suddenly through smelting magnesium slag case 17 entrance suitable for reading dust the first expansion chamber 12 flow section, flowing velocity declines, the buoyancy of dust is reduced by gas, heavier dust starts sedimentation, and dust air-flow is remaining thinner dust entrance dust collection cloth bag 16 after entering dust the second expansion chamber 13 depositing dust again.The bottom of described smelting magnesium slag case 17 is provided with latch hook 10 and slag case side plate 11, and slag-drip opening can pass through opening of smelting magnesium slag case 17 base plate latch hook 10, the magnesium slag discharge that will collect, and by the heat recovery of magnesium slag.Described automatic control box 7 is fixed on the rear portion of translation gliding platform 6, can lock and can be taken off, and is placed among the little framework of opposing seal.Wherein automatic control box 7 comprises 7 buttons, is start button 7-1 respectively, automatic button 7-2, hand push button 7-3, forwarding button 7-4, back 7-5, rotary knob 7-6, mute key 7-7, utilizes above-mentioned button to control the carrying out of whole action of skimming.

Refering to Fig. 1, described track carries out platform and includes that chassis traction drive motor 25, Cinder Machine road wheel 15, fluid-pressure-operated scissor undercarriage 18, slab track chassis, oil cylinder 20 and fluid-pressure-operated scissor undercarriage control motor 22；Described Cinder Machine road wheel 15 is arranged on the bottom of slab track chassis, it is fixed with a chassis traction drive motor 25 and fluid-pressure-operated scissor undercarriage 18 on slab track chassis top, controls slab track chassis by chassis traction drive motor 25 and advance and retreat；Controlling motor 22 by oil cylinder 20, oil pump 21 and fluid-pressure-operated scissor undercarriage and control the height of fluid-pressure-operated scissor undercarriage 18, the lower end of described fluid-pressure-operated scissor undercarriage 18 is provided with fluid-pressure-operated scissor undercarriage castor 14.Wherein said chassis traction drive motor 25 controls the slab track chassis advanced, and the fixing slag machine track 19 before the magnesium refining furnace of workshop utilizes Cinder Machine road wheel 15 to move, and installed above have can the fluid-pressure-operated scissor undercarriage 18 of integral demounting.Chassis traction drive motor 25 an oil cylinder 20 is each side set, by petroleum pipeline of oil transfer pump 21 fuel feeding respectively.The roller design of the movable end of fluid-pressure-operated scissor undercarriage 18 moves horizontally in channel-section steel, it is ensured that fluid-pressure-operated scissor undercarriage 18 translation lifting.Cinder Machine main shaft 3 is made to be directed at the center of reductive jar 1.Its upper surface platform, can be placed in Cinder Machine body.

Refering to Fig. 1, described Cinder Machine main shaft 3 is welded with the half spherical blade 2-1 that skims foremost, and the rear end of the half spherical blade 2-1 that skims is equidistant to be welded with three semicircles and skim blade 2.Owing in operation of skimming, magnesium slag temperature is too high, Cinder Machine main shaft 3 uses air-cooled cooling, and high temperature both can have been avoided to make Cinder Machine spindle deformation, it is also possible to do not allow magnesium slag lose too many heat, so being provided with air-cooled passage 23 in Cinder Machine main shaft 3, fixed plate 24 is utilized to be fixed on inside main shaft.

Refering to Fig. 6, in order to ensure that shaft motion cabinet 5 can move on translation gliding platform 6 the most flexibly, outside the tooth bar 28 of translation gliding platform 6, alongst, the roller 29 of anti-shaft motion cabinet 5 side-sway is placed at a certain distance.

The these three ingredient combination of production of magnesium by pidgeonprocess automatic dust-free Cinder Machine is simple, easily operates, easy to maintenance.Having in terms of control and manually and automatically operate two ways, use under normal circumstances and be automatically brought into operation, slagging-off speed is fast, once goes wrong optional manual.

Embodiment 1: single reductive jar is skimmed operation

The dustless automatic slag scraping of single shaft production of magnesium by pidgeonprocess, the program realizing dustless operation is: dustless automatic slag scraping utilizes Cinder Machine road wheel 15 on the fixing slag machine track 19 before the magnesium refining furnace of workshop, motor 22 is controlled by fluid-pressure-operated scissor undercarriage 18, oil pump 21, oil cylinder 20 makes fluid-pressure-operated scissor undercarriage castor move, adjusting the height of fluid-pressure-operated scissor undercarriage 18, make Cinder Machine main shaft 3 be directed at the center of reductive jar 1, the most dustless slag case slag slide plate 8 is in the lower section of reductive jar 1 mouthful.If activate switch 7-1 pressed on control chamber 7 and automatically switch 7-2.Cinder Machine main shaft 3 advances in magnesium smelting reduction pot 1 along translation gliding platform 6 under the promotion of shaft motion cabinet 5, the steady of Cinder Machine main shaft 3, now semicircle skim blade 2 and the half spherical blade 2-1 surface at Cinder Machine main shaft 3 of skimming is ensured by Cinder Machine shaft motion cabinet 5.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, sensing elements in automatic control box 7 sends signal, Cinder Machine main shaft 3 is made to halt, and allow 180 ° rotationally clockwise of Cinder Machine main shaft 3, make semicircle blade 2 and the half spherical blade 2-1 that skims of skimming be in the underface of Cinder Machine main shaft 3, i.e. stop forwarding to.The dragging motor reversion of Cinder Machine main shaft 3 simultaneously, make Cinder Machine main shaft 3 back to last semicircle blade 2 of skimming to stop at fire door, Cinder Machine main shaft 3 is turning clockwise 180 °, semicircle blade 2 and the half spherical blade 2-1 that skims of skimming is made to be in the surface stall of Cinder Machine main shaft 3, Cinder Machine main shaft 3 advances again in magnesium smelting reduction pot 1, after all stretching into, main shaft rotates 180 °, make semicircle skim and stop after blade 2 and the half spherical blade 2-1 that skims is in the lower section of Cinder Machine main shaft 3, Cinder Machine main shaft 3 retreats immediately, smelting magnesium slag is all pulled out magnesium smelting reduction pot 1.Entering smelting magnesium slag case 17 through dustless slag case slag slide plate 8, wherein slag slide plate 8 is in order to magnesium slag preferably enters smelting magnesium slag case 17.The dust now produced enters dust the first expansion chamber 12 through slag case dust-leading board 9.Owing to dusty gas increases suddenly through slag case entrance suitable for reading dust the first expansion chamber 12 flow section, flowing velocity declines, the buoyancy of dust is reduced by gas, heavier dust starts sedimentation, and dust air-flow is remaining thinner dust entrance dust collection cloth bag 16 after entering dust the second expansion chamber 13 depositing dust again.The wherein magnesium slag in smelting magnesium slag case 17, by opening of slag box plate latch hook 10 and slag case side plate 11, discharges the magnesium slag collected.Then move again with Cinder Machine road wheel 15, work that next reductive jar is skimmed.

Embodiment 2: the reductive jar of difference arrangement height is skimmed operation

Owing to the width of Cinder Machine is little, it is suitable for two to use side by side, the cleaning work of skimming to two one high and one low reductive jar can be realized: Cinder Machine road wheel 15 will be utilized to move on two dustless automatic slag scrapings the fixing slag machine track 19 before coming workshop magnesium refining furnace, motor 22 is controlled by fluid-pressure-operated scissor undercarriage 18, oil pump 21, oil cylinder 20 makes fluid-pressure-operated scissor undercarriage castor move, adjust the height of fluid-pressure-operated scissor undercarriage 18, making Cinder Machine main shaft 3 be directed at the center of reductive jar 1, the most dustless slag case slag slide plate 8 is in the lower section of reductive jar 1 mouthful.If activate switch 7-1 pressed on control chamber 7 and automatically switch 7-2.Cinder Machine main shaft 3 advances in magnesium smelting reduction pot 1 along translation gliding platform 6 under the promotion of shaft motion cabinet 5, the steady of Cinder Machine main shaft 3, now semicircle skim blade 2 and the half spherical blade 2-1 surface at Cinder Machine main shaft 3 of skimming is ensured by Cinder Machine shaft motion cabinet 5.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, sensing elements in automatic control box 7 sends signal, main shaft is made to halt, and allow 180 ° rotationally clockwise of Cinder Machine main shaft 3, make semicircle Cinder Machine blade 2 and the spherical blade 2-1 that skims be in the underface of Cinder Machine main shaft 3, i.e. stop forwarding to.The dragging motor reversion of Cinder Machine main shaft 3 simultaneously, make Cinder Machine main shaft 3 back to last semicircle blade 2 of skimming to stop at fire door, Cinder Machine main shaft 3 is turning clockwise 180 °, semicircle blade 2 and the half spherical blade 2-1 that skims of skimming is made to be in the surface stall of Cinder Machine main shaft 3, Cinder Machine main shaft 3 advances again in magnesium smelting reduction pot 1, after all stretching into, main shaft rotates 180 °, make semicircle skim and stop after blade 2 and the half spherical blade 2-1 that skims is in the lower section of Cinder Machine main shaft 3, Cinder Machine main shaft 3 retreats immediately, smelting magnesium slag is all pulled out smelting magnesium reduction jar 1.Smelting magnesium slag case 17 is entered through dustless slag case slag slide plate 8.The dust now produced enters dust the first expansion chamber 12 through slag case dust-leading board 9.Owing to dusty gas increases suddenly through slag case entrance suitable for reading dust the first expansion chamber 12 flow section, flowing velocity declines, the buoyancy of dust is reduced by gas, heavier dust starts sedimentation, and dust air-flow is remaining thinner dust entrance dust collection cloth bag 16 after entering dust the second expansion chamber 13 depositing dust again.The wherein magnesium slag in smelting magnesium slag case 17, by opening of slag box plate latch hook 10 and slag case side plate 11, discharges the magnesium slag collected.Then move again with Cinder Machine road wheel 15, work that lower two reductive jar 1 are skimmed.

Claims (7)

1. the dustless automatic slag scraping of production of magnesium by pidgeonprocess, it is characterised in that this Cinder Machine includes that 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, and described track carries out platform and is arranged on the lower section of Cinder Machine body and is slidably matched with Cinder Machine body；Wherein said 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)；One end of described Cinder Machine main shaft (3) is arranged on the shaft motion cabinet (5) of removable lid by Cinder Machine main shaft support bearing block (4), the center of other end alignment reductive jar (1)；It is provided with the motor one (26) that Cinder Machine main shaft (3) can be driven to rotate in described shaft motion cabinet (5) and can drive and move horizontally the motor two (27) that gear shaft moves；Described shaft motion cabinet (5) is arranged on the tooth bar (28) of translation gliding platform (6).

A kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess the most according to claim 1, it is characterized in that, described Cinder Machine body includes smelting magnesium slag case (17), dust the first expansion chamber (12), dust the second expansion chamber (13), dust collection cloth bag (16) and automatic control box (7)；The opening part of described smelting magnesium slag case (17) is provided with dustless slag case slag plate (8)；It is provided with slag case dust-leading board (9) in described smelting magnesium slag case (17)；The described Cinder Machine block upper surface left and right sides is each provided with a translation gliding platform (6) containing tooth bar (28)；Described Cinder Machine body is the frame structure of a cuboid, and Cinder Machine body is divided into magnesium slag case (17), dust the first expansion chamber (12), dust the second expansion chamber (13) successively；Described dust collection cloth bag (16) is arranged on the rear portion of dust the second expansion chamber (13) and coupled；Described automatic control box (7) is fixed on the rear portion of translation gliding platform (6).

A kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess the most according to claim 1, it is characterized in that, described track carries out platform and 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), chassis traction drive motor (25) it is fixed with on fluid-pressure-operated scissor undercarriage (18) top, each side arranging an oil cylinder (20) at chassis 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).

A kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess the most according to claim 1, it is characterized in that, described Cinder Machine main shaft (3) is welded with half spherical blade of skimming (2-1) foremost, and the rear end of half spherical blade of skimming (2-1) is equidistant to be welded with three semicircles and skim blade (2)；Being provided with air-cooled passage (23) in described Cinder Machine main shaft (3), air-cooled passage (23) is fixed on the inside of Cinder Machine main shaft (3) by fixed plate (24).

A kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess the most according to claim 1, it is characterised in that the outside of described tooth bar (28), is alongst evenly arranged with multiple roller (29).

A kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess the most according to claim 2, it is characterised in that the bottom of described magnesium slag case (17) is provided with latch hook (10) and slag case side plate (11) controlling slag-drip opening switch.

A kind of dustless automatic slag scraping of production of magnesium by pidgeonprocess the most according to claim 2, it is characterized in that, 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).