CN111330668A - Processing of lithopone is with barite anthracite processing apparatus - Google Patents

Processing of lithopone is with barite anthracite processing apparatus Download PDF

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Publication number
CN111330668A
CN111330668A CN202010143045.XA CN202010143045A CN111330668A CN 111330668 A CN111330668 A CN 111330668A CN 202010143045 A CN202010143045 A CN 202010143045A CN 111330668 A CN111330668 A CN 111330668A
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plate
bottom end
gear
transmission gear
frame
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CN111330668B (en
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廖雪梅
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Ankang Xiangze Oilfield Materials Co ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C1/00Crushing or disintegrating by reciprocating members
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C23/00Auxiliary methods or auxiliary devices or accessories specially adapted for crushing or disintegrating not provided for in preceding groups or not specially adapted to apparatus covered by a single preceding group
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28DWORKING STONE OR STONE-LIKE MATERIALS
    • B28D1/00Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor
    • B28D1/02Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor by sawing
    • B28D1/04Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor by sawing with circular or cylindrical saw-blades or saw-discs
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28DWORKING STONE OR STONE-LIKE MATERIALS
    • B28D7/00Accessories specially adapted for use with machines or devices of the preceding groups
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28DWORKING STONE OR STONE-LIKE MATERIALS
    • B28D7/00Accessories specially adapted for use with machines or devices of the preceding groups
    • B28D7/04Accessories specially adapted for use with machines or devices of the preceding groups for supporting or holding work or conveying or discharging work

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Food Science & Technology (AREA)
  • Mining & Mineral Resources (AREA)
  • Crushing And Pulverization Processes (AREA)
  • Gears, Cams (AREA)

Abstract

The invention relates to lithopone processing equipment, in particular to a barite anthracite treatment device for lithopone processing. The invention aims to solve the technical problem of providing a barite anthracite treatment device for lithopone processing. A barite anthracite treatment device for lithopone processing comprises a rectangular working plate, a columnar crystal cutting mechanism, an anthracite crushing mechanism, a platy crystal splitting mechanism and the like; the left side of the top end of the rectangular working plate is connected with the first side connecting frame. The method realizes the pre-crushing treatment before crushing the lithopone raw material, efficiently cuts the columnar barite to obtain the thin-sheet barite, and simultaneously efficiently splits the platy barite, thereby effectively crushing smokeless coal blocks, increasing the chemical reaction area, accelerating the reaction rate, obtaining the small barite blocks, reducing the equipment resistance strength in the crushing process, prolonging the service life of the equipment and improving the crushing efficiency.

Description

Processing of lithopone is with barite anthracite processing apparatus
Technical Field
The invention relates to lithopone processing equipment, in particular to a barite anthracite treatment device for lithopone processing.
Background
Lithopone is white crystalline powder. The more zinc sulfide, the stronger the hiding power and the higher the quality, which is a mixture of zinc sulfide and barium sulfate. The density is 4.136-4.34 g/cm3, and the water-insoluble glass is insoluble in water. It is easy to decompose to generate hydrogen sulfide gas when meeting acid, and does not work when meeting hydrogen sulfide and alkali solution. The color of the black pigment is changed into light gray after being irradiated by ultraviolet rays in sunlight for 6-7 hours, and the original color of the black pigment is recovered after the black pigment is placed in a dark place. Is easy to oxidize in the air and is agglomerated and deteriorated after being wetted.
In the process of producing lithopone, the natural barite containing more than 95 percent of barium sulfate and anthracite need to be mixed in a proportion of 3: 1 (quality) mixed feeding, through smashing to get into the reducing furnace below about 2cm of diameter, but because natural barite often is thick plate form or columnar crystal, mostly be fine and close cubic or platelike, granular aggregate, simultaneously anthracite exists the great aggregate of volume, platelike or columnar crystal can take place the high strength with the apparatus and confront in crushing process, and the average fragmentation rate is lower, and then it is long consuming time in having led to natural barite crushing process, crushing strength is big simultaneously, equipment and former stone confrontation intensity are too high, equipment wearing and tearing are serious, cracked inertia is big, anthracite is bulky, reaction area is less, former stone fragment flies out, can't guarantee staff's personal safety's problem.
Therefore, there is a need to develop a barite anthracite treatment device to overcome the above problems.
Disclosure of Invention
The invention aims to overcome the defects that natural barite is usually thick plate-shaped or columnar crystals which are mostly compact block-shaped or plate-shaped or granular aggregates, and anthracite has aggregates with larger volume, the plate-shaped or columnar crystals can resist instruments with high strength in the crushing process, the average crushing rate is lower, so that the time consumption is long in the crushing process of the natural barite, the crushing strength is high, the strength of equipment and the strength of the stone in opposition are too high, the equipment is seriously worn, the crushing inertia is large, the anthracite has larger volume and smaller reaction area, and broken stone flies out, so that the personal safety of workers cannot be ensured.
The invention is achieved by the following specific technical means:
a barite anthracite treatment device for processing lithopone comprises a rectangular working plate, a right-angle trapezoidal working plate, a first side connecting frame, a second side connecting frame, a real-time control screen, a columnar crystal cutting mechanism, an anthracite smashing mechanism and a platy crystal splitting mechanism, wherein the rectangular working plate is a rectangular plate; the left side of the front end of the rectangular working plate is welded with the right trapezoid working plate; the left side of the top end of the rectangular working plate is connected with the first side connecting frame; the right side of the top end of the rectangular working plate is welded with the second side connecting frame; the front middle part of the top end of the rectangular working plate is connected with the columnar crystal cutting mechanism, and the front side of the bottom end of the columnar crystal cutting mechanism is connected with the right-angled trapezoid working plate; the left side of the top end of the rectangular working plate is connected with the anthracite smashing mechanism, and the left end of the anthracite smashing mechanism is connected with the first side connecting frame; the right side of the top end of the rectangular working plate is connected with the plate-shaped crystal splitting mechanism, the front left side of the plate-shaped crystal splitting mechanism is connected with the columnar crystal cutting mechanism, and the left side of the plate-shaped crystal splitting mechanism is connected with the anthracite smashing mechanism; and a real-time control screen is arranged in the middle of the right end of the second side connecting frame.
Furthermore, the columnar crystal cutting mechanism comprises a power motor, a high-speed sawtooth wheel, a cutting table plate, a first driving wheel, a second driving wheel, a servo motor, a translation frame, a translation table, a first strip-shaped sliding rail, a translation fixing mechanism, a translation control gear, an elastic toothed bar, a first connecting block, a second connecting block, a first electric push rod, a second electric push rod, a first sliding connecting strip, a second strip-shaped sliding rail and a first push rod bottom plate; the middle part of the front end of the power motor is rotationally connected with the high-speed sawtooth wheel; the front side and the rear side of the top end of the outer surface of the high-speed serrated wheel are connected with the cutting table plate; the middle part of the front end of the high-speed sawtooth wheel is rotationally connected with the first driving wheel; the right upper part of the first driving wheel is in transmission connection with a second driving wheel; a servo motor is arranged at the front left lower part of the second transmission wheel; the left end of the servo motor is rotationally connected with the translation frame; the left middle part of the top end of the translation frame is in transmission connection with the translation table; the top end of the translation table is connected with the first strip-shaped slide rail through a bolt; the inner middle part of the first strip-shaped sliding rail is in sliding connection with the translation fixing mechanism; the middle part of the front end of the translation fixing mechanism is sleeved with the translation control gear; the middle part of the bottom end of the translation control gear is meshed with the elastic toothed bar; the left side of the front end of the elastic toothed bar is welded with the first connecting block; the right side of the front end of the elastic toothed bar is welded with the second connecting block; the middle part of the bottom end of the elastic toothed bar is welded with the first sliding connecting strip; the middle part of the bottom end of the first connecting block is connected with a first electric push rod; the middle part of the bottom end of the second connecting block is connected with a second electric push rod; the bottom end of the first electric push rod is connected with the first push rod bottom plate, and the right side of the top end of the first push rod bottom plate is connected with the second electric push rod; the bottom end of the first sliding connecting strip is in sliding connection with the second strip-shaped sliding rail; the middle part of the bottom end of the power motor is connected with the rectangular working plate; the middle part of the bottom end of the cutting bedplate is connected with the rectangular working plate; the middle part of the bottom end of the translation frame is connected with the rectangular working plate; the bottom end of the second strip-shaped sliding rail is connected with the rectangular working plate; the bottom end of the first push rod bottom plate is connected with the rectangular working plate; the middle part of the rear end of the second driving wheel is connected with the plate-shaped crystal splitting mechanism.
Furthermore, the anthracite crushing mechanism comprises a third driving wheel, a fourth driving wheel, a first driving gear, a first gear bottom plate, a second driving gear, a third electric push rod, a second gear top plate, a first telescopic rotating shaft, a fifth driving wheel, a sixth driving wheel, a third driving gear, a fourth driving gear, a second telescopic rotating shaft, a fifth driving gear, a fourth electric push rod, a seventh driving wheel, a sixth driving gear, a first screw rod, an inner grain moving slide bar, a third strip-shaped slide rail, a fourth strip-shaped slide rail, a lower weight block and a lower pressure groove; the middle part of the bottom end of the third driving wheel is rotationally connected with the fourth driving wheel; the right rear side of the third driving wheel is in transmission connection with a fifth driving wheel; the middle part of the bottom end of the fourth driving wheel is rotationally connected with the first driving gear; a second transmission gear is arranged at the right upper part of the fourth transmission wheel; the middle part of the bottom end of the first transmission gear is rotationally connected with the first gear bottom plate; the middle part of the top end of the second transmission gear is connected with a third electric push rod; the middle part of the bottom end of the second transmission gear is rotationally connected with the first telescopic rotating shaft, and the middle part of the bottom end of the first telescopic rotating shaft is connected with the first gear bottom plate; the top end of the third electric push rod is connected with the second gear top plate; the middle part of the top end of the fifth driving wheel is rotationally connected with the sixth driving wheel; the middle part of the bottom end of the fifth driving wheel is rotationally connected with a third transmission gear, and the bottom end of the outer surface of the third transmission gear is connected with the first gear bottom plate; the right front side of the sixth driving wheel is in transmission connection with the seventh driving wheel; the middle part of the right end of the third transmission gear is meshed with a fourth transmission gear, and the middle part of the bottom end of the fourth transmission gear is connected with the first gear bottom plate; the middle part of the bottom end of the third transmission gear is rotationally connected with the first screw rod; a second telescopic rotating shaft is arranged on the right side of the fourth transmission gear, and the middle part of the bottom end of the second telescopic rotating shaft is connected with the first gear bottom plate; the middle part of the top end of the second telescopic rotating shaft is rotationally connected with a fifth transmission gear; the middle part of the top end of the fifth transmission gear is connected with a fourth electric push rod, and the top end of the fourth electric push rod is connected with the second gear top plate; the middle part of the bottom end of the seventh transmission wheel is rotationally connected with a sixth transmission gear, and the middle part of the bottom end of the sixth transmission gear is connected with the first gear bottom plate; the middle part of the outer surface of the first screw rod is rotationally connected with the inner thread moving slide bar; the left end of the inner-line moving slide bar is connected with a third strip-shaped slide rail in a sliding manner; the right end of the inner-line moving slide bar is connected with the fourth strip-shaped slide rail in a sliding manner; the bottom end of the inner-pattern moving slide bar is connected with the lower weight block; a lower pressure groove is arranged below the lower pressure weight block; the bottom end of the lower pressing groove is connected with the rectangular working plate; the bottom end of the fourth strip-shaped sliding rail is connected with the rectangular working plate; the bottom end of the third strip-shaped sliding rail is connected with the rectangular working plate; the left side of the fourth driving wheel is connected with the plate-shaped crystal splitting mechanism; the right side of the bottom end of the second gear top plate is connected with the first side connecting frame.
Furthermore, the plate crystal splitting mechanism comprises a first rotating wheel frame, a cam, a seventh transmission gear, an eighth transmission gear, a fifth electric push rod, a third telescopic rotating shaft, a first gear fixing seat, a second push rod bottom plate, a ninth transmission gear, a first bevel gear, a second bevel gear, a first rear frame plate, a linkage inertia block, an impact rod, a first portal frame, a first spring, a second spring, a collection connecting strip, a splitting pointed cone, a plate crystal clamping mechanism, a second high frame plate and an eighth transmission wheel; the right side of the bottom end of the first rotating wheel frame is rotationally connected with the cam; the middle part of the rear end of the cam is rotationally connected with a seventh transmission gear; the middle part of the bottom end of the cam is in transmission connection with the linkage inertia block; an eighth transmission gear is arranged on the right rear side of the seventh transmission gear; the middle part of the rear end of the eighth transmission gear is connected with a fifth electric push rod; the middle part of the front end of the eighth transmission gear is connected with a third telescopic rotating shaft; the rear side of the bottom end of the fifth electric push rod is connected with the second push rod bottom plate; the middle part of the front end of the third telescopic rotating shaft is connected with the first gear fixing seat; the right side of the rear end of the first gear fixing seat is connected with a ninth transmission gear; the front end of the second push rod bottom plate is connected with the first rear frame plate, and the right side of the top end of the first rear frame plate is connected with the first gear fixing seat; the middle part of the front end of the ninth transmission gear is rotationally connected with the first bevel gear, and the rear side of the outer surface of the first bevel gear is connected with the first gear fixing seat; the middle part of the bottom end of the first bevel gear is meshed with the second bevel gear, and the bottom end of the outer surface of the second bevel gear is connected with the first rear frame plate; the middle part of the bottom end of the second bevel gear is rotationally connected with an eighth transmission wheel; the bottom end of the linkage inertia block is welded with the impact rod; the middle part of the outer surface of the impact rod is connected with the first portal frame in a sliding way; the left side of the bottom end of the first portal frame is connected with a first spring; the right side of the bottom end of the first portal frame is connected with a second spring; the bottom end of the first spring is connected with the collection connecting strip, the right side of the top end of the collection connecting strip is connected with the second spring, and the middle of the top end of the collection connecting strip is welded with the impact rod; welding the left middle part of the bottom end of the integrated connecting strip with the split pointed cone; a plate crystal clamping mechanism is arranged below the split pointed cone; the bottom end of the plate crystal clamping mechanism is welded with the second high frame plate; the bottom end of the second high frame plate is connected with the rectangular working plate; the left side of the bottom end of the first wheel frame is connected with the second side connecting frame; the middle part of the rear end of the ninth transmission gear is connected with a second transmission wheel; the right side of the eighth driving wheel is connected with the fourth driving wheel.
Furthermore, the translation fixing mechanism comprises a second screw rod, an inner-grain hollow ring, a welding block, a first arc-shaped clamping plate, a first electric locking seat, a second electric locking seat and a second arc-shaped clamping plate; the middle part of the outer surface of the second screw rod is rotationally connected with the hollow ring with the inner threads; the outer surface of the inner-grain hollow circular ring is sleeved with the welding block; the top end of the welding block is welded with the first arc-shaped clamping plate; the left rear side of the top end of the first arc-shaped clamping plate is connected with the first electric locking seat; the right rear side of the top end of the first arc-shaped clamping plate is connected with the second electric locking seat; the top end of the first electric locking seat is connected with the second arc-shaped clamping plate, and the right rear side of the bottom end of the second arc-shaped clamping plate is connected with the second electric locking seat; the middle part of the front end of the second screw rod is connected with the translation control gear; the welding piece bottom is connected with first bar slide rail.
Furthermore, the plate crystal clamping mechanism comprises a first side supporting plate, a first damping telescopic seat, a second damping telescopic seat, a first L-shaped welding frame, a first clamping sliding block, a fifth strip-shaped sliding rail, a second L-shaped welding frame and a second clamping sliding block; the top of the left end of the first side supporting plate is connected with a first damping telescopic seat; the top of the right end of the first side supporting plate is connected with a second damping telescopic seat; a fifth strip-shaped sliding rail is arranged at the top end of the first side supporting plate; the left side of the top end of the first damping telescopic seat is connected with the first L-shaped welding frame; the right side of the top end of the second damping telescopic seat is connected with a second L-shaped welding frame; the top of the right end of the first L-shaped welding frame is welded with the first clamping sliding block, and the bottom end of the outer surface of the first clamping sliding block is connected with the fifth strip-shaped sliding rail; the top of the left end of the second L-shaped welding frame is connected with a second clamping sliding block, and the bottom of the outer surface of the second clamping sliding block is connected with a fifth strip-shaped sliding rail; the bottom end of the first side supporting plate is connected with the second high frame plate.
Furthermore, the first electric locking seat and the second electric locking seat are provided with three groups which are respectively distributed on the left side of the top end of the first arc-shaped clamping plate and the right side of the top end of the first arc-shaped clamping plate at equal intervals.
Furthermore, the plate crystal clamping mechanisms are arranged in two groups and are respectively positioned on the front side of the middle part of the top end of the second high frame plate and the rear side of the middle part of the top end of the second high frame plate.
Compared with the prior art, the invention has the following beneficial effects:
the method aims to solve the problems that natural barite is usually thick plate-shaped or columnar crystal, most of the natural barite is compact block-shaped or plate-shaped or granular aggregate, meanwhile, anthracite has large-size aggregate, the plate-shaped or columnar crystal can generate high-strength confrontation with instruments in the crushing process, the average crushing rate is low, further, the consumed time is long in the natural barite crushing process, the crushing strength is high, the confrontation strength between equipment and crude stone is too high, the equipment is seriously worn, the crushing inertia is large, the anthracite has large size, the reaction area is small, the crude stone fragments fly out, and the personal safety of workers cannot be guaranteed;
the method is characterized in that a columnar crystal cutting mechanism, an anthracite coal smashing mechanism and a platy crystal splitting mechanism are designed, when the method is used, columnar barite is firstly cut through the columnar crystal cutting mechanism to obtain a barite sheet, then, anthracite blocks with large volume are smashed through the anthracite coal smashing mechanism, then, platy barite is split through the platy crystal splitting mechanism to obtain barite fragments and anthracite fragments, and crushing treatment is carried out efficiently;
realized the pre-crushing processing before lithopone raw materials are smashed, high efficiency cutting column barite obtains thin slice barite, and the slabby barite of high-efficient division simultaneously, effective broken smokeless coal piece obtains the garrulous anthracite granule, has increased the chemical reaction area for reaction rate obtains the less barite piece of mentioning, has reduced equipment counter strength at crushing in-process, extension equipment life, improves the effect of smashing efficiency.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic structural diagram of a columnar crystal cutting mechanism according to the present invention;
FIG. 3 is a schematic structural view of an anthracite coal pulverizing mechanism according to the present invention;
FIG. 4 is a schematic structural diagram of a plate crystal splitting mechanism according to the present invention;
FIG. 5 is a top view of a plate crystal cleaving mechanism of the present invention;
FIG. 6 is a front left side view of the translating fixture of the present invention;
fig. 7 is a schematic structural diagram of a plate crystal clamping mechanism of the present invention.
The labels in the figures are: 1-rectangular working plate, 2-right trapezoid working plate, 3-first side connecting frame, 4-second side connecting frame, 5-real-time control screen, 6-columnar crystal cutting mechanism, 7-anthracite smashing mechanism, 8-plate crystal splitting mechanism, 601-power motor, 602-high-speed saw-toothed wheel, 603-cutting table plate, 604-first driving wheel, 605-second driving wheel, 606-servo motor, 607-translation frame, 608-translation table, 609-first strip-shaped sliding rail, 6010-translation fixing mechanism, 6011-translation control gear, 6012-elastic toothed bar, 6013-first connecting block, 6014-second connecting block, 6015-first electric push rod, 6016-second electric push rod, 6017-first sliding connecting bar, 6018-second strip-shaped slide rail, 6019-first push rod bottom plate, 701-third drive wheel, 702-fourth drive wheel, 703-first drive gear, 704-first gear bottom plate, 705-second drive gear, 706-third electric push rod, 707-second gear top plate, 708-first telescopic rotating shaft, 709-fifth drive wheel, 7010-sixth drive wheel, 7011-third drive gear, 7012-fourth drive gear, 7013-second telescopic rotating shaft, 7014-fifth drive gear, 7015-fourth electric push rod, 7016-seventh drive wheel, 7017-sixth drive gear, 7018-first lead screw, 7019-inner thread moving slide bar, 7020-third strip-shaped slide rail, 7021-fourth strip-shaped slide rail, 7022-weight down block, 7023-weight down groove, 801-first rotating wheel frame, 802-cam, 803-seventh driving gear, 804-eighth driving gear, 805-fifth electric push rod, 806-third telescopic rotating shaft, 807-first gear fixing seat, 808-second push rod bottom plate, 809-ninth driving gear, 8010-first bevel gear, 8011-second bevel gear, 8012-first rear frame plate, 8013-linkage inertia block, 8014-impact rod, 8015-first portal frame, 8016-first spring, 8017-second spring, 8018-aggregate connecting strip, 8019-split tip cone, 8020-crystal clamping mechanism, 8021-second upper frame plate, 8022-eighth driving gear, 601001-second screw rod, 601002-inner thread hollow circular ring, 601003-welding block, 601004-first arc clamping plate, 601005-a first electric locking seat, 601006-a second electric locking seat, 601007-a second arc-shaped clamping plate, 802001-a first side supporting plate, 802002-a first damping telescopic seat, 802003-a second damping telescopic seat, 802004-a first L-shaped welding frame, 802005-a first clamping sliding block, 802006-a fifth strip-shaped sliding rail, 802007-a second L-shaped welding frame and 802008-a second clamping sliding block.
Detailed Description
The invention is further described below with reference to the figures and examples.
Examples
A barite anthracite treatment device for processing lithopone is shown in figures 1-7 and comprises a rectangular working plate 1, a right-angle trapezoidal working plate 2, a first side connecting frame 3, a second side connecting frame 4, a real-time control screen 5, a columnar crystal cutting mechanism 6, an anthracite coal smashing mechanism 7 and a platy crystal splitting mechanism 8; the left side of the front end of the rectangular working plate 1 is welded with the right trapezoid working plate 2; the left side of the top end of the rectangular working plate 1 is connected with a first side connecting frame 3; the right side of the top end of the rectangular working plate 1 is welded with a second side connecting frame 4; the front middle part of the top end of the rectangular working plate 1 is connected with a columnar crystal cutting mechanism 6, and the front side of the bottom end of the columnar crystal cutting mechanism 6 is connected with the right-angled trapezoid working plate 2; the left side of the top end of the rectangular working plate 1 is connected with the anthracite crushing mechanism 7, and the left end of the anthracite crushing mechanism 7 is connected with the first side connecting frame 3; the right side of the top end of the rectangular working plate 1 is connected with a plate-shaped crystal splitting mechanism 8, the front left side of the plate-shaped crystal splitting mechanism 8 is connected with a columnar crystal cutting mechanism 6, and the left side of the plate-shaped crystal splitting mechanism 8 is connected with an anthracite coal smashing mechanism 7; and a real-time control screen 5 is arranged in the middle of the right end of the second side connecting frame 4.
The working principle is as follows: when the barite anthracite treatment device for processing the lithopone is used, barite and anthracite blocks to be processed are prepared firstly, then the device is fixed on a working plane, then a power supply is connected externally, a real-time control screen 5 is manually opened, then a power system in the device is switched on through the real-time control screen 5, then columnar barite blocks are added into a columnar crystal cutting mechanism 6 at first and are cut into flaky barite, then the anthracite blocks are added into a anthracite crushing mechanism 7 to be crushed under pressure to obtain anthracite fragments, then the tabular barite blocks are added into a tabular crystal splitting mechanism 8 to be split, so that the tabular barite blocks are cracked into small barite blocks, the pre-crushing treatment before crushing the lithopone raw material is realized, the columnar barite blocks are efficiently cut to obtain the flaky barite, meanwhile, the tabular barite blocks are efficiently split, and the anthracite blocks are effectively crushed, the method has the advantages of obtaining crushed anthracite particles, increasing the chemical reaction area, accelerating the reaction rate, obtaining smaller barite blocks, reducing the equipment resistance strength in the crushing process, prolonging the service life of the equipment and accelerating the crushing efficiency.
The columnar crystal cutting mechanism 6 comprises a power motor 601, a high-speed sawtooth wheel 602, a cutting table plate 603, a first driving wheel 604, a second driving wheel 605, a servo motor 606, a translation frame 607, a translation table 608, a first strip-shaped slide rail 609, a translation fixing mechanism 6010, a translation control gear 6011, an elastic toothed bar 6012, a first connecting block 6013, a second connecting block 6014, a first electric push rod 6015, a second electric push rod 6016, a first sliding connecting bar 6017, a second strip-shaped slide rail 6018 and a first push rod bottom plate 6019; the middle part of the front end of the power motor 601 is rotationally connected with the high-speed sawtooth wheel 602; the front side and the rear side of the top end of the outer surface of the high-speed serrated wheel 602 are connected with a cutting platen 603; the middle part of the front end of the high-speed sawtooth wheel 602 is rotationally connected with a first driving wheel 604; the upper right of the first driving wheel 604 is in transmission connection with a second driving wheel 605; a servo motor 606 is arranged at the front left lower part of the second transmission wheel 605; the left end of the servo motor 606 is rotatably connected with the translation rack 607; the left middle part of the top end of the translation frame 607 is in transmission connection with the translation table 608; the top end of the translation table 608 is connected with a first strip-shaped slide rail 609 through a bolt; the inner middle part of the first strip-shaped slide rail 609 is in sliding connection with the translation fixing mechanism 6010; the middle part of the front end of the translation fixing mechanism 6010 is sleeved with a translation control gear 6011; the middle of the bottom end of the translation control gear 6011 is engaged with the elastic toothed bar 6012; the left side of the front end of the elastic toothed bar 6012 is welded with a first connecting block 6013; the right side of the front end of the elastic toothed bar 6012 is welded with a second connecting block 6014; the middle of the bottom end of the elastic toothed bar 6012 is welded with a first sliding connecting bar 6017; the middle of the bottom end of the first connecting block 6013 is connected with a first electric push rod 6015; the middle of the bottom end of the second connecting block 6014 is connected with a second electric push rod 6016; the bottom end of the first electric push rod 6015 is connected with a first push rod bottom plate 6019, and the right side of the top end of the first push rod bottom plate 6019 is connected with a second electric push rod 6016; the bottom end of the first sliding connecting bar 6017 is slidably connected with a second bar-shaped slide rail 6018; the middle part of the bottom end of the power motor 601 is connected with the rectangular working plate 1; the middle part of the bottom end of the cutting bedplate 603 is connected with the rectangular working plate 1; the middle part of the bottom end of the translation frame 607 is connected with the rectangular working plate 1; the bottom end of the second strip-shaped slide rail 6018 is connected with the rectangular working plate 1; the bottom end of the first push rod bottom plate 6019 is connected with the rectangular working plate 1; the middle part of the rear end of the second transmission wheel 605 is connected with the plate-shaped crystal splitting mechanism 8.
Firstly, fixing the prepared columnar barite to a translation fixing mechanism 6010, then switching on a power supply of a power motor 601 through a real-time control panel 5, then driving a high-speed serrated wheel 602 to rotate by the power motor 601, simultaneously switching on a power supply of a servo motor 606, then driving a translation frame 607 to move by the servo motor 606, namely driving a translation table 608 to realize left-right translation by the translation frame 607, namely driving the translation fixing mechanism 6010 to realize left-right movement by the translation table 608, then driving the columnar barite to move rightwards by the translation fixing mechanism 6010 to pass through the high-speed serrated wheel 602, cutting the columnar barite into slices, then driving the translation fixing mechanism 6010 to return to the left side of the translation frame 607 by the translation table 608, when the translation frame 607 moves rightwards again, driving an elastic toothed bar 6012 to move upwards by a first electric push rod 6015 and a second electric push rod 6016, namely driving the elastic toothed bar 6012 to move to a position where the translation control, then translation control gear 6011 drives translation fixed establishment 6010 and realizes sliding around first bar slide rail 609, then translation fixed establishment 6010 drives column baryte and moves right, and the baryte rear side moves to can cut the position promptly, cuts for the second time, and translation control gear 6011 bottom slides in second bar slide rail 6018 is inside simultaneously, keeps the front and back position unchangeable, so carry out reciprocating motion, cut into the thin slice with column crystal, accomplished the cutting of column baryte.
The anthracite crushing mechanism 7 comprises a third transmission wheel 701, a fourth transmission wheel 702, a first transmission gear 703, a first gear bottom plate 704, a second transmission gear 705, a third electric push rod 706, a second gear top plate 707, a first telescopic rotating shaft 708, a fifth transmission wheel 709, a sixth transmission wheel 7010, a third transmission gear 7011, a fourth transmission gear 7012, a second telescopic rotating shaft 7013, a fifth transmission gear 7014, a fourth electric push rod 7015, a seventh transmission wheel 7016, a sixth transmission gear 7017, a first screw 7018, an internal thread moving slide bar 7019, a third strip-shaped slide rail 7020, a fourth strip-shaped slide rail 7021, a lower weight 7022 and a lower pressure groove 7023; the middle part of the bottom end of the third driving wheel 701 is rotatably connected with a fourth driving wheel 702; the right rear side of the third driving wheel 701 is in transmission connection with a fifth driving wheel 709; the middle part of the bottom end of the fourth transmission wheel 702 is rotationally connected with the first transmission gear 703; a second transmission gear 705 is arranged at the upper right of the fourth transmission wheel 702; the middle part of the bottom end of the first transmission gear 703 is rotationally connected with a first gear bottom plate 704; the middle part of the top end of the second transmission gear 705 is connected with a third electric push rod 706; the middle part of the bottom end of the second transmission gear 705 is rotatably connected with the first telescopic rotating shaft 708, and the middle part of the bottom end of the first telescopic rotating shaft 708 is connected with the first gear bottom plate 704; the top end of the third electric push rod 706 is connected with the second gear top plate 707; the middle part of the top end of the fifth driving wheel 709 is rotationally connected with a sixth driving wheel 7010; the middle part of the bottom end of the fifth driving wheel 709 is rotatably connected with a third transmission gear 7011, and the bottom end of the outer surface of the third transmission gear 7011 is connected with a first gear bottom plate 704; the right front side of the sixth driving wheel 7010 is in driving connection with a seventh driving wheel 7016; the middle part of the right end of the third transmission gear 7011 is engaged with the fourth transmission gear 7012, and the middle part of the bottom end of the fourth transmission gear 7012 is connected with the first gear bottom plate 704; the middle part of the bottom end of the third transmission gear 7011 is rotationally connected with the first screw rod 7018; a second telescopic rotating shaft 7013 is arranged on the right side of the fourth transmission gear 7012, and the middle of the bottom end of the second telescopic rotating shaft 7013 is connected with the first gear bottom plate 704; the middle part of the top end of the second telescopic rotating shaft 7013 is rotationally connected with a fifth transmission gear 7014; the middle of the top end of the fifth transmission gear 7014 is connected with a fourth electric push rod 7015, and the top end of the fourth electric push rod 7015 is connected with a second gear top plate 707; the middle part of the bottom end of the seventh driving wheel 7016 is rotatably connected with a sixth transmission gear 7017, and the middle part of the bottom end of the sixth transmission gear 7017 is connected with a first gear bottom plate 704; the middle part of the outer surface of the first lead screw 7018 is rotationally connected with an internal thread moving slide 7019; the left end of the internal thread moving sliding strip 7019 is in sliding connection with a third strip-shaped sliding rail 7020; the right end of the internal thread moving slide bar 7019 is connected with a fourth strip-shaped slide rail 7021 in a sliding manner; the bottom end of the internal thread moving slide bar 7019 is connected with the lower weight 7022; a lower pressing groove 7023 is arranged below the lower pressing weight 7022; the bottom end of the lower pressing groove 7023 is connected with the rectangular working plate 1; the bottom end of the fourth strip-shaped sliding rail 7021 is connected with the rectangular working plate 1; the bottom end of the third strip-shaped sliding rail 7020 is connected with the rectangular working plate 1; the left side of the fourth driving wheel 702 is connected with the plate-shaped crystal splitting mechanism 8; the second gear top plate 707 is connected to the first side link 3 at the bottom right side.
Firstly, the smokeless coal is added into the lower pressing groove 7023, then the eighth driving wheel 8022 drives the fourth driving wheel 702 to rotate, then the top end of the fourth driving wheel 702 drives the third driving wheel 701 to rotate, then the right rear side of the third driving wheel 701 drives the fifth driving wheel 709 to rotate through a belt, the top end of the fifth driving wheel 709 drives the sixth driving wheel 7010 to rotate, the sixth driving wheel 7010 drives the seventh driving wheel 7016 to rotate, the bottom end of the seventh driving wheel 7016 drives the sixth driving gear 7017 to rotate, meanwhile, the bottom end of the fourth driving wheel 702 drives the first driving gear 703 to rotate, then the real-time control screen 5 controls the third electric push rod 706 to drive the second driving gear 705 to move downwards to the position where the left end and the right end of the second electric push rod are respectively meshed with the first driving gear 703 and the third driving gear 7011, then the first driving gear 703 drives the third driving gear 7011 to rotate through the second driving gear 705, then the bottom end of the third transmission gear 7011 drives the first lead screw 7018 to rotate, then under the rotation action of the first lead screw 7018, the internal thread moving slide 7019 slides in engagement with the first lead screw 7018, that is, the internal thread moving slide 7019 drives the lower weight 7022 to move downwards, simultaneously the left end and the right end of the internal thread moving slide 7019 slide in the third strip-shaped slide rail 7020 and the fourth strip-shaped slide rail 7021 respectively to keep stable, then the lower weight 7022 moves downwards to the inside of the lower pressure groove 7023, anthracite blocks in the lower pressure groove 7023 are pressurized and then crushed, then the real-time control screen 5 controls the third electric push rod 706 to contract, and simultaneously controls the fourth electric push rod 7015 to move downwards, that is, the fifth transmission gear 7014 is driven to move until the left end and the right end of the fifth transmission gear 7014 are respectively engaged with the fourth transmission gear 7012 and the sixth transmission gear 7017, then the sixth transmission gear 7017 drives the fourth transmission gear 7012 to rotate through the fifth transmission gear 7014, and the fourth transmission gear 7012 drives the third transmission gear 7011 to rotate reversely, and similarly, the third transmission gear 7011 rotates reversely to drive the first lead screw 7018 to rotate reversely, so that the internal thread moving slide 7019 drives the lower weight block 7022 to move upwards to the original position for the next operation, and the pressurization and pulverization of the smokeless coal blocks are completed.
The plate-shaped crystal splitting mechanism 8 comprises a first rotating wheel frame 801, a cam 802, a seventh transmission gear 803, an eighth transmission gear 804, a fifth electric push rod 805, a third telescopic rotating shaft 806, a first gear fixing seat 807, a second push rod bottom plate 808, a ninth transmission gear 809, a first bevel gear 8010, a second bevel gear 8011, a first rear frame plate 8012, a linkage inertia block 8013, an impact rod 8014, a first portal frame 8015, a first spring 8016, a second spring 8017, a gathering connecting bar 8018, a splitting pointed cone 8019, a plate-shaped crystal clamping mechanism 8020, a second high frame plate 8021 and an eighth transmission wheel 8022; the right side of the bottom end of the first wheel frame 801 is rotationally connected with the cam 802; the middle part of the rear end of the cam 802 is rotationally connected with a seventh transmission gear 803; the middle of the bottom end of the cam 802 is in transmission connection with the linkage inertia block 8013; an eighth transmission gear 804 is arranged on the right rear side of the seventh transmission gear 803; the middle part of the rear end of the eighth transmission gear 804 is connected with a fifth electric push rod 805; the middle part of the front end of the eighth transmission gear 804 and a third telescopic rotating shaft 806; the rear side of the bottom end of the fifth electric push rod 805 is connected with a second push rod bottom plate 808; the middle part of the front end of the third telescopic rotating shaft 806 is connected with the first gear fixing seat 807; the right side of the rear end of the first gear fixing seat 807 is connected with a ninth transmission gear 809; the front end of second push rod bottom plate 808 is connected with first rear frame plate 8012, and the right side of the top end of first rear frame plate 8012 is connected with first gear fixing seat 807; the middle part of the front end of the ninth transmission gear 809 is rotatably connected with the first bevel gear 8010, and the rear side of the outer surface of the first bevel gear 8010 is connected with the first gear fixing seat 807; the middle part of the bottom end of the first bevel gear 8010 is engaged with the second bevel gear 8011, and the bottom end of the outer surface of the second bevel gear 8011 is connected with the first rear frame plate 8012; the middle part of the bottom end of the second bevel gear 8011 is rotatably connected with an eighth driving wheel 8022; the bottom end of the linkage inertia block 8013 is welded with the impact rod 8014; the middle part of the outer surface of the impact rod 8014 is in sliding connection with the first portal frame 8015; the left side of the bottom end of the first portal frame 8015 is connected with the first spring 8016; the right side of the bottom end of the first portal frame 8015 is connected with a second spring 8017; the bottom end of the first spring 8016 is connected with the gathering connecting bar 8018, the right side of the top end of the gathering connecting bar 8018 is connected with the second spring 8017, and the middle part of the top end of the gathering connecting bar 8018 is welded with the striking rod 8014; the left middle part of the bottom end of the integrated connecting bar 8018 is welded with the split pointed cone 8019; a plate crystal clamping mechanism 8020 is arranged below the splitting pointed cone 8019; the bottom end of the plate crystal clamping mechanism 8020 is welded with a second high frame plate 8021; the bottom end of the second high frame plate 8021 is connected with the rectangular working plate 1; the left side of the bottom end of the first wheel frame 801 is connected with the second side connecting frame 4; the middle part of the rear end of the ninth transmission gear 809 is connected with a second transmission wheel 605; the right side of the eighth transmission wheel 8022 is connected with the fourth transmission wheel 702.
Firstly, the plate-shaped barite is fixed to the plate-shaped barite clamping mechanism 8020, then the second transmission wheel 605 drives the ninth transmission gear 809 to rotate, the real-time control screen 5 controls the fifth electric push rod 805 to push out forwards, namely, the fifth electric push rod 805 drives the eighth transmission gear 804 to move to a position where the left end and the right end of the eighth transmission gear are respectively meshed with the seventh transmission gear 803 and the ninth transmission gear 809, then the ninth transmission gear 809 drives the seventh transmission gear 803 to rotate through the eighth transmission gear 804, then the seventh transmission gear 803 drives the cam 802 to rotate, then the protruding part of the cam 802 drives the linkage inertia block 8013 to move downwards, namely, the linkage inertia block 8013 drives the impact rod 8014 to move downwards, further the impact rod 8014 drives the collection connecting strip 8018 and the split pointed cone 8019 to move downwards, then the split pointed cone 8019 repeatedly impacts the plate-shaped barite, when the plate-shaped barite cracks, then the barite plate, then the impact is carried out until the platy barite is broken, and the splitting operation of the platy barite is completed.
The translation fixing mechanism 6010 comprises a second screw 601001, an inner-grain hollow circular ring 601002, a welding block 601003, a first arc-shaped clamping plate 601004, a first electric locking seat 601005, a second electric locking seat 601006 and a second arc-shaped clamping plate 601007; the middle part of the outer surface of the second lead screw 601001 is rotationally connected with the hollow ring 601002 with internal threads; the outer surface of the inner-line hollow circular ring 601002 is sleeved with a welding block 601003; the top end of the welding block 601003 is welded with the first arc-shaped clamping plate 601004; the left rear side of the top end of the first arc-shaped clamping plate 601004 is connected with a first electric locking seat 601005; the right rear side of the top end of the first arc-shaped clamping plate 601004 is connected with a second electric locking seat 601006; the top end of the first electric locking seat 601005 is connected with the second arc-shaped clamping plate 601007, and the rear right side of the bottom end of the second arc-shaped clamping plate 601007 is connected with the second electric locking seat 601006; the middle part of the front end of the second screw 601001 is connected with a translation control gear 6011; the bottom end of the welding block 601003 is connected with the first bar-shaped sliding rail 609.
First, insert the column barite to the space that first arc grip block 601004 and second arc grip block 601007 enclose in, then control first electronic locking seat 601005 and second electronic locking seat 601006 tighten up second arc grip block 601007, with fixed column barite, then translation control gear 6011 drives second lead screw 601001 and rotates, then second lead screw 601001 drives interior line hollow ring 601002 and realizes stable front and back slip on second lead screw 601001 surface, it slides around the inside realization of first bar slide 609 to weld piece 601003 bottom, then first arc grip block 601004 and second arc grip block 601007 seesaw are with the cutting length of control column barite.
The lath clamping mechanism 8020 comprises a first side supporting plate 802001, a first damping telescopic seat 802002, a second damping telescopic seat 802003, a first L-shaped welding frame 802004, a first clamping sliding block 802005, a fifth strip-shaped sliding rail 802006, a second L-shaped welding frame 802007 and a second clamping sliding block 802008; the top of the left end of the first side plate 802001 is connected with a first damping telescopic seat 802002; the top of the right end of the first side supporting plate 802001 is connected with a second damping telescopic seat 802003; the top end of the first side supporting plate 802001 is provided with a fifth strip-shaped sliding rail 802006; the left side of the top end of the first damping telescopic seat 802002 is connected with a first L-shaped welding frame 802004; the right side of the top end of the second damping telescopic seat 802003 is connected with a second L-shaped welding frame 802007; the top of the right end of the first L-shaped welding frame 802004 is welded to the first clamping slide block 802005, and the bottom end of the outer surface of the first clamping slide block 802005 is connected to the fifth strip-shaped slide rail 802006; the top of the left end of the second L-shaped welding frame 802007 is connected with a second clamping sliding block 802008, and the bottom end of the outer surface of the second clamping sliding block 802008 is connected with a fifth strip-shaped sliding rail 802006; the bottom end of the first side plate 802001 is connected to a second elevated frame plate 8021.
First remove first centre gripping slider 802005 and second centre gripping slider 802008 respectively to fifth bar slide rail 802006 left end and right-hand member, then rise to fifth bar slide rail 802006 top with slabby barite both ends frame, then the flexible seat of first damping 802002 and second damping 802003 drive first centre gripping slider 802005 and second centre gripping slider 802008 through first L welded frame 802004 and second L welded frame 802007 respectively and press from both sides slabby barite tightly, the fixed of slabby barite has been accomplished.
Wherein, first electric locking seat 601005 and second electric locking seat 601006 all are provided with three groups, and the equidistance distributes respectively in first arc grip block 601004 top left side and first arc grip block 601004 top right side to in first arc grip block 601004 and second arc grip block 601007 junction atress even, make its clamping structure more stable.
Wherein, brilliant fixture 8020 of board is provided with two sets ofly altogether, is located second high frame plate 8021 top middle part front side and second high frame plate 8021 top middle part rear side respectively to the brilliant fixture 8020 top of two sets of boards can be put up respectively at slabby barite both ends, makes it more stable.
Although the present disclosure has been described in detail with reference to the exemplary embodiments, the present disclosure is not limited thereto, and it will be apparent to those skilled in the art that various modifications and changes can be made thereto without departing from the scope of the present disclosure.

Claims (8)

1. A barite anthracite treatment device for processing lithopone comprises a rectangular working plate (1), a right-angle trapezoidal working plate (2) and a first side connecting frame (3), and is characterized by further comprising a second side connecting frame (4), a real-time control screen (5), a columnar crystal cutting mechanism (6), an anthracite smashing mechanism (7) and a platy crystal splitting mechanism (8); the left side of the front end of the rectangular working plate (1) is welded with the right trapezoid working plate (2); the left side of the top end of the rectangular working plate (1) is connected with the first side connecting frame (3); the right side of the top end of the rectangular working plate (1) is welded with the second side connecting frame (4); the front middle part of the top end of the rectangular working plate (1) is connected with the columnar crystal cutting mechanism (6), and the front side of the bottom end of the columnar crystal cutting mechanism (6) is connected with the right-angled trapezoid working plate (2); the left side of the top end of the rectangular working plate (1) is connected with the anthracite smashing mechanism (7), and the left end of the anthracite smashing mechanism (7) is connected with the first side connecting frame (3); the right side of the top end of the rectangular working plate (1) is connected with a plate-shaped crystal splitting mechanism (8), the front left side of the plate-shaped crystal splitting mechanism (8) is connected with a columnar crystal cutting mechanism (6), and the left side of the plate-shaped crystal splitting mechanism (8) is connected with an anthracite smashing mechanism (7); the middle part of the right end of the second side connecting frame (4) is provided with a real-time control screen (5).
2. The device for treating the barite anthracite for lithopone processing according to claim 1, wherein the columnar crystal cutting mechanism (6) comprises a power motor (601), a high-speed serrated wheel (602), a cutting table plate (603), a first transmission wheel (604), a second transmission wheel (605), a servo motor (606), a translation frame (607), a translation table (608), a first strip-shaped sliding rail (609), a translation fixing mechanism (6010), a translation control gear (6011), an elastic toothed bar (6012), a first connecting block (6013), a second connecting block (6014), a first electric push rod (6015), a second electric push rod (6016), a first sliding connecting strip (6017), a second strip-shaped sliding rail (6018) and a first push rod bottom plate (6019); the middle part of the front end of the power motor (601) is rotationally connected with the high-speed sawtooth wheel (602); the front side and the rear side of the top end of the outer surface of the high-speed serrated wheel (602) are connected with a cutting bedplate (603); the middle part of the front end of the high-speed sawtooth wheel (602) is rotationally connected with a first driving wheel (604); the upper right part of the first driving wheel (604) is in driving connection with a second driving wheel (605); a servo motor (606) is arranged at the front left lower part of the second transmission wheel (605); the left end of the servo motor (606) is rotationally connected with the translation frame (607); the left middle part of the top end of the translation frame (607) is in transmission connection with the translation table (608); the top end of the translation table (608) is connected with a first strip-shaped slide rail (609) through a bolt; the inner middle part of the first strip-shaped sliding rail (609) is in sliding connection with the translation fixing mechanism (6010); the middle part of the front end of the translation fixing mechanism (6010) is sleeved with a translation control gear (6011); the middle part of the bottom end of the translation control gear (6011) is meshed with an elastic toothed bar (6012); the left side of the front end of the elastic toothed bar (6012) is welded with a first connecting block (6013); the right side of the front end of the elastic toothed bar (6012) is welded with a second connecting block (6014); the middle part of the bottom end of the elastic toothed bar (6012) is welded with a first sliding connecting strip (6017); the middle part of the bottom end of the first connecting block (6013) is connected with a first electric push rod (6015); the middle part of the bottom end of the second connecting block (6014) is connected with a second electric push rod (6016); the bottom end of the first electric push rod (6015) is connected with a first push rod bottom plate (6019), and the right side of the top end of the first push rod bottom plate (6019) is connected with a second electric push rod (6016); the bottom end of the first sliding connecting bar (6017) is in sliding connection with a second bar-shaped sliding rail (6018); the middle part of the bottom end of the power motor (601) is connected with the rectangular working plate (1); the middle part of the bottom end of the cutting bedplate (603) is connected with the rectangular working plate (1); the middle part of the bottom end of the translation frame (607) is connected with the rectangular working plate (1); the bottom end of the second strip-shaped slide rail (6018) is connected with the rectangular working plate (1); the bottom end of the first push rod bottom plate (6019) is connected with the rectangular working plate (1); the middle part of the rear end of the second transmission wheel (605) is connected with a plate-shaped crystal splitting mechanism (8).
3. The apparatus of claim 2, wherein the apparatus is used for processing anthracite from barite for lithopone processing, the anthracite crushing mechanism (7) is characterized by comprising a third transmission wheel (701), a fourth transmission wheel (702), a first transmission gear (703), a first gear bottom plate (704), a second transmission gear (705), a third electric push rod (706), a second gear top plate (707), a first telescopic rotating shaft (708), a fifth transmission wheel (709), a sixth transmission wheel (7010), a third transmission gear (7011), a fourth transmission gear (7012), a second telescopic rotating shaft (7013), a fifth transmission gear (7014), a fourth electric push rod (7015), a seventh transmission wheel (7016), a sixth transmission gear (7017), a first screw rod (7018), an internal thread moving sliding strip (7019), a third strip-shaped sliding rail (7020), a fourth strip-shaped sliding rail (7021), a downward weight (7022) and a downward pressing groove (7023); the middle part of the bottom end of the third driving wheel (701) is rotationally connected with the fourth driving wheel (702); the right rear side of the third driving wheel (701) is in transmission connection with a fifth driving wheel (709); the middle part of the bottom end of the fourth transmission wheel (702) is rotationally connected with the first transmission gear (703); a second transmission gear (705) is arranged at the upper right part of the fourth transmission wheel (702); the middle part of the bottom end of the first transmission gear (703) is rotationally connected with a first gear bottom plate (704); the middle part of the top end of the second transmission gear (705) is connected with a third electric push rod (706); the middle part of the bottom end of the second transmission gear (705) is rotatably connected with the first telescopic rotating shaft (708), and the middle part of the bottom end of the first telescopic rotating shaft (708) is connected with the first gear bottom plate (704); the top end of the third electric push rod (706) is connected with the second gear top plate (707); the middle part of the top end of the fifth driving wheel (709) is rotationally connected with a sixth driving wheel (7010); the middle part of the bottom end of the fifth driving wheel (709) is rotationally connected with a third transmission gear (7011), and the bottom end of the outer surface of the third transmission gear (7011) is connected with a first gear bottom plate (704); the right front side of the sixth driving wheel (7010) is in transmission connection with a seventh driving wheel (7016); the middle part of the right end of the third transmission gear (7011) is meshed with the fourth transmission gear (7012), and the middle part of the bottom end of the fourth transmission gear (7012) is connected with the first gear bottom plate (704); the middle part of the bottom end of the third transmission gear (7011) is rotationally connected with a first screw rod (7018); a second telescopic rotating shaft (7013) is arranged on the right side of the fourth transmission gear (7012), and the middle of the bottom end of the second telescopic rotating shaft (7013) is connected with the first gear bottom plate (704); the middle part of the top end of the second telescopic rotating shaft (7013) is rotationally connected with a fifth transmission gear (7014); the middle part of the top end of the fifth transmission gear (7014) is connected with a fourth electric push rod (7015), and the top end of the fourth electric push rod (7015) is connected with a second gear top plate (707); the middle part of the bottom end of the seventh transmission wheel (7016) is rotationally connected with a sixth transmission gear (7017), and the middle part of the bottom end of the sixth transmission gear (7017) is connected with the first gear bottom plate (704); the middle part of the outer surface of the first screw rod (7018) is rotationally connected with an internal thread moving slide bar (7019); the left end of the inner-grain movable sliding strip (7019) is in sliding connection with a third strip-shaped sliding rail (7020); the right end of the internal thread moving slide bar (7019) is connected with a fourth strip-shaped slide rail (7021) in a sliding manner; the bottom end of the internal thread moving slide bar (7019) is connected with a lower weight block (7022); a lower pressing groove (7023) is arranged below the lower pressing weight (7022); the bottom end of the lower pressing groove (7023) is connected with the rectangular working plate (1); the bottom end of the fourth strip-shaped sliding rail (7021) is connected with the rectangular working plate (1); the bottom end of the third strip-shaped sliding rail (7020) is connected with the rectangular working plate (1); the left side of the fourth transmission wheel (702) is connected with a plate-shaped crystal splitting mechanism (8); the right side of the bottom end of the second gear top plate (707) is connected with the first side connecting frame (3).
4. The device for processing the barite anthracite coal for processing the lithopone as claimed in claim 3, wherein the plate crystal splitting mechanism (8) comprises a first rotating wheel frame (801), a cam (802), a seventh transmission gear (803), an eighth transmission gear (804), a fifth electric push rod (805), a third telescopic rotating shaft (806), a first gear fixing seat (807), a second push rod bottom plate (808), a ninth transmission gear (809), a first bevel gear (8010), a second bevel gear (8011), a first rear frame plate (8012), a linkage inertia block (8013), an impact rod (8014), a first portal frame (8015), a first spring (8016), a second spring (8017), a collection connecting strip (8018), a splitting pointed cone (8019), a plate crystal clamping mechanism (8020), a second high frame plate (8021) and an eighth transmission wheel (8022); the right side of the bottom end of the first rotating wheel frame (801) is rotationally connected with the cam (802); the middle part of the rear end of the cam (802) is rotationally connected with a seventh transmission gear (803); the middle part of the bottom end of the cam (802) is in transmission connection with the linkage inertia block (8013); an eighth transmission gear (804) is arranged on the right rear side of the seventh transmission gear (803); the middle part of the rear end of the eighth transmission gear (804) is connected with a fifth electric push rod (805); the middle part of the front end of the eighth transmission gear (804) is connected with a third telescopic rotating shaft (806); the rear side of the bottom end of the fifth electric push rod (805) is connected with a second push rod bottom plate (808); the middle part of the front end of the third telescopic rotating shaft (806) is connected with the first gear fixing seat (807); the right side of the rear end of the first gear fixing seat (807) is connected with a ninth transmission gear (809); the front end of the second push rod bottom plate (808) is connected with the first rear frame plate (8012), and the right side of the top end of the first rear frame plate (8012) is connected with the first gear fixing seat (807); the middle part of the front end of the ninth transmission gear (809) is rotatably connected with the first bevel gear (8010), and the rear side of the outer surface of the first bevel gear (8010) is connected with the first gear fixing seat (807); the middle part of the bottom end of the first bevel gear (8010) is meshed with the second bevel gear (8011), and the bottom end of the outer surface of the second bevel gear (8011) is connected with the first rear frame plate (8012); the middle part of the bottom end of the second bevel gear (8011) is rotationally connected with an eighth driving wheel (8022); the bottom end of the linkage inertia block (8013) is welded with the impact rod (8014); the middle part of the outer surface of the impact rod (8014) is in sliding connection with the first portal frame (8015); the left side of the bottom end of the first portal frame (8015) is connected with a first spring (8016); the right side of the bottom end of the first portal frame (8015) is connected with the second spring (8017); the bottom end of the first spring (8016) is connected with the gathering connecting strip (8018), the right side of the top end of the gathering connecting strip (8018) is connected with the second spring (8017), and the middle part of the top end of the gathering connecting strip (8018) is welded with the impact rod (8014); the left middle part of the bottom end of the integrated connecting strip (8018) is welded with the split pointed cone (8019); a plate crystal clamping mechanism (8020) is arranged below the splitting pointed cone (8019); the bottom end of the plate crystal clamping mechanism (8020) is welded with a second high frame plate (8021); the bottom end of the second high frame plate (8021) is connected with the rectangular working plate (1); the left side of the bottom end of the first rotary wheel frame (801) is connected with the second side connecting frame (4); the middle part of the rear end of the ninth transmission gear (809) is connected with a second transmission wheel (605); the right side of the eighth driving wheel (8022) is connected with a fourth driving wheel (702).
5. The anthracite coal processing unit as set forth in claim 4 in which the translational fixing mechanism (6010) comprises a second lead screw (601001), an internally threaded hollow ring (601002), a welding block (601003), a first arc clamping plate (601004), a first electrically locking seat (601005), a second electrically locking seat (601006) and a second arc clamping plate (601007); the middle part of the outer surface of the second screw rod (601001) is rotationally connected with the hollow ring (601002) with internal threads; the outer surface of the inner-line hollow circular ring (601002) is sleeved with a welding block (601003); the top end of the welding block (601003) is welded with the first arc-shaped clamping plate (601004); the left rear side of the top end of the first arc-shaped clamping plate (601004) is connected with a first electric locking seat (601005); the right rear side of the top end of the first arc-shaped clamping plate (601004) is connected with a second electric locking seat (601006); the top end of the first electric locking seat (601005) is connected with the second arc-shaped clamping plate (601007), and the right rear side of the bottom end of the second arc-shaped clamping plate (601007) is connected with the second electric locking seat (601006); the middle part of the front end of the second screw rod (601001) is connected with a translation control gear (6011); the bottom end of the welding block (601003) is connected with the first strip-shaped sliding rail (609).
6. The apparatus for processing barite anthracite as set forth in claim 5, wherein said lath clamping mechanism (8020) comprises a first side supporting plate (802001), a first damping telescopic seat (802002), a second damping telescopic seat (802003), a first L-shaped welding frame (802004), a first clamping slide block (802005), a fifth strip-shaped sliding rail (802006), a second L-shaped welding frame (802007) and a second clamping slide block (802008); the top of the left end of the first side plate (802001) is connected with a first damping telescopic seat (802002); the top of the right end of the first side supporting plate (802001) is connected with a second damping telescopic seat (802003); a fifth strip-shaped sliding rail (802006) is arranged at the top end of the first side plate (802001); the left side of the top end of the first damping telescopic seat (802002) is connected with a first L-shaped welding frame (802004); the right side of the top end of the second damping telescopic seat (802003) is connected with a second L-shaped welding frame (802007); the top of the right end of the first L-shaped welding frame (802004) is welded with the first clamping sliding block (802005), and the bottom end of the outer surface of the first clamping sliding block (802005) is connected with the fifth strip-shaped sliding rail (802006); the top of the left end of the second L-shaped welding frame (802007) is connected with a second clamping sliding block (802008), and the bottom end of the outer surface of the second clamping sliding block (802008) is connected with a fifth strip-shaped sliding rail (802006); the bottom end of the first side supporting plate (802001) is connected with a second high frame plate (8021).
7. The apparatus for processing barite anthracite as set forth in claim 6, wherein said first electrically operated locking seat (601005) and said second electrically operated locking seat (601006) are disposed in three groups, and are respectively disposed at the left side of the top end of said first arc-shaped holding plate (601004) and at the right side of the top end of said first arc-shaped holding plate (601004) at equal intervals.
8. The apparatus according to claim 7, wherein two sets of lath fixture (8020) are provided, respectively located on the front side of the middle portion of the top end of the second high frame plate (8021) and on the rear side of the middle portion of the top end of the second high frame plate (8021).
CN202010143045.XA 2020-03-04 2020-03-04 Processing of lithopone is with barite anthracite processing apparatus Active CN111330668B (en)

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Publication number Priority date Publication date Assignee Title
US3807095A (en) * 1972-03-13 1974-04-30 A Harding Rock saw
CN203792537U (en) * 2014-04-11 2014-08-27 陈庆源 Cutting machine
CN105618177A (en) * 2016-04-06 2016-06-01 叶侃 Ceramic clay raw material crushing device with automatic feeding and unloading functions
CN205731432U (en) * 2016-05-31 2016-11-30 南昌鼎锋矿山设备有限公司 A kind of rewinding is dug up mine easily with dual chamber building stones disintegrating apparatus
CN206082640U (en) * 2016-08-31 2017-04-12 李晓敏 Useless quick breaker of honeycomb briquette
CN106824356A (en) * 2017-02-07 2017-06-13 杨田文 A kind of building waste is efficiently classified processing unit
CN207576500U (en) * 2017-11-16 2018-07-06 三峡大学 Toughened glass crushing retracting device
CN209718274U (en) * 2018-10-29 2019-12-03 盘锦中录油气技术服务有限公司 It is a kind of to split core machine automatically

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3807095A (en) * 1972-03-13 1974-04-30 A Harding Rock saw
CN203792537U (en) * 2014-04-11 2014-08-27 陈庆源 Cutting machine
CN105618177A (en) * 2016-04-06 2016-06-01 叶侃 Ceramic clay raw material crushing device with automatic feeding and unloading functions
CN205731432U (en) * 2016-05-31 2016-11-30 南昌鼎锋矿山设备有限公司 A kind of rewinding is dug up mine easily with dual chamber building stones disintegrating apparatus
CN206082640U (en) * 2016-08-31 2017-04-12 李晓敏 Useless quick breaker of honeycomb briquette
CN106824356A (en) * 2017-02-07 2017-06-13 杨田文 A kind of building waste is efficiently classified processing unit
CN207576500U (en) * 2017-11-16 2018-07-06 三峡大学 Toughened glass crushing retracting device
CN209718274U (en) * 2018-10-29 2019-12-03 盘锦中录油气技术服务有限公司 It is a kind of to split core machine automatically

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