CN113561314A - Advanced inorganic non-metallic material microcrystalline glass circular arc welt production processing apparatus - Google Patents
Advanced inorganic non-metallic material microcrystalline glass circular arc welt production processing apparatus Download PDFInfo
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- CN113561314A CN113561314A CN202110742644.8A CN202110742644A CN113561314A CN 113561314 A CN113561314 A CN 113561314A CN 202110742644 A CN202110742644 A CN 202110742644A CN 113561314 A CN113561314 A CN 113561314A
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- 239000011521 glass Substances 0.000 title claims abstract description 20
- 238000004519 manufacturing process Methods 0.000 title claims abstract description 19
- 239000007769 metal material Substances 0.000 title claims abstract description 18
- 239000004576 sand Substances 0.000 claims abstract description 119
- 239000002002 slurry Substances 0.000 claims abstract description 88
- 238000005488 sandblasting Methods 0.000 claims abstract description 31
- 238000007598 dipping method Methods 0.000 claims abstract description 15
- 239000002699 waste material Substances 0.000 claims abstract description 11
- 230000005540 biological transmission Effects 0.000 claims description 183
- 238000007664 blowing Methods 0.000 claims description 31
- 238000003860 storage Methods 0.000 claims description 25
- 230000000670 limiting effect Effects 0.000 claims description 13
- 238000002791 soaking Methods 0.000 claims description 11
- 238000003825 pressing Methods 0.000 claims description 7
- 239000007788 liquid Substances 0.000 claims description 5
- 238000002347 injection Methods 0.000 claims description 4
- 239000007924 injection Substances 0.000 claims description 4
- 239000006185 dispersion Substances 0.000 claims description 2
- 230000000694 effects Effects 0.000 abstract description 3
- 229910052845 zircon Inorganic materials 0.000 description 15
- GFQYVLUOOAAOGM-UHFFFAOYSA-N zirconium(iv) silicate Chemical compound [Zr+4].[O-][Si]([O-])([O-])[O-] GFQYVLUOOAAOGM-UHFFFAOYSA-N 0.000 description 15
- 239000000463 material Substances 0.000 description 7
- 230000036961 partial effect Effects 0.000 description 7
- 238000005507 spraying Methods 0.000 description 7
- 238000005299 abrasion Methods 0.000 description 6
- 239000011159 matrix material Substances 0.000 description 5
- 239000011248 coating agent Substances 0.000 description 4
- 238000000576 coating method Methods 0.000 description 4
- 239000000243 solution Substances 0.000 description 4
- OKTJSMMVPCPJKN-UHFFFAOYSA-N Carbon Chemical compound [C] OKTJSMMVPCPJKN-UHFFFAOYSA-N 0.000 description 3
- 208000027418 Wounds and injury Diseases 0.000 description 3
- 239000000440 bentonite Substances 0.000 description 3
- 229910000278 bentonite Inorganic materials 0.000 description 3
- SVPXDRXYRYOSEX-UHFFFAOYSA-N bentoquatam Chemical compound O.O=[Si]=O.O=[Al]O[Al]=O SVPXDRXYRYOSEX-UHFFFAOYSA-N 0.000 description 3
- 230000006378 damage Effects 0.000 description 3
- 238000000227 grinding Methods 0.000 description 3
- 239000010440 gypsum Substances 0.000 description 3
- 229910052602 gypsum Inorganic materials 0.000 description 3
- 208000014674 injury Diseases 0.000 description 3
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 3
- 229910001868 water Inorganic materials 0.000 description 3
- 230000002411 adverse Effects 0.000 description 2
- 230000007547 defect Effects 0.000 description 2
- 238000002156 mixing Methods 0.000 description 2
- 230000001681 protective effect Effects 0.000 description 2
- 238000003756 stirring Methods 0.000 description 2
- 239000004484 Briquette Substances 0.000 description 1
- 239000003795 chemical substances by application Substances 0.000 description 1
- 238000005253 cladding Methods 0.000 description 1
- 238000004140 cleaning Methods 0.000 description 1
- 239000002241 glass-ceramic Substances 0.000 description 1
- 229910052500 inorganic mineral Inorganic materials 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 239000011707 mineral Substances 0.000 description 1
- 238000005065 mining Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000000465 moulding Methods 0.000 description 1
- 238000002360 preparation method Methods 0.000 description 1
- 239000010453 quartz Substances 0.000 description 1
- 230000002829 reductive effect Effects 0.000 description 1
- 238000007670 refining Methods 0.000 description 1
- VYPSYNLAJGMNEJ-UHFFFAOYSA-N silicon dioxide Inorganic materials O=[Si]=O VYPSYNLAJGMNEJ-UHFFFAOYSA-N 0.000 description 1
- 238000004513 sizing Methods 0.000 description 1
- 238000003892 spreading Methods 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 239000012780 transparent material Substances 0.000 description 1
Images
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B19/00—Machines or methods for applying the material to surfaces to form a permanent layer thereon
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28B—SHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28B17/00—Details of, or accessories for, apparatus for shaping the material; Auxiliary measures taken in connection with such shaping
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- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Ceramic Engineering (AREA)
- Mechanical Engineering (AREA)
- Processing Of Stones Or Stones Resemblance Materials (AREA)
Abstract
The invention relates to the field of production of wear-resistant lining plates, in particular to a production processing device for an advanced inorganic non-metallic material microcrystalline glass arc lining plate. The technical problems of the invention are as follows: provides a production and treatment device for an advanced microcrystalline glass arc lining plate made of inorganic non-metallic materials. The technical implementation scheme of the invention is as follows: an advanced production treatment device for an inorganic non-metallic material microcrystalline glass arc lining plate comprises a slurry dipping component, a homogenizing component, a sand blasting component, a supporting table, a controller and a waste collecting box; the support table is connected with the controller. When the invention is used, the wax mould is immersed into the slurry and then transversely and repeatedly overturned to keep the slurry on the wax mould uniform, so that the prepared mould shell is prevented from being different in thickness, sand grains are uniformly sprayed on the wax mould through the grooves matched with the wax mould, the quality and the strength of the prepared mould shell are ensured, and the effect of avoiding unexpected events caused by the quality problem of the mould shell is avoided.
Description
Technical Field
The invention relates to the field of production of wear-resistant lining plates, in particular to a production processing device for an advanced inorganic non-metallic material microcrystalline glass arc lining plate.
Background
The lining plate is used for protecting the cylinder body, so that the cylinder body is prevented from being directly impacted and abraded by an abrasive body and materials, meanwhile, the lining plates in different forms can be used for adjusting the motion state of the abrasive body, so that the grinding effect of the abrasive body on the materials is enhanced, the grinding efficiency of a grinding machine is improved, the yield is increased, the metal consumption is reduced, the mechanical abrasion relates to a plurality of aspects, wherein the abrasive abrasion accounts for more than 50 percent of the total industrial abrasion, the annual loss caused by the abrasive abrasion in countries such as Germany, British and the like reaches billions of dollars, the annual loss caused by the abrasive abrasion in the mining industry in Australia accounts for 2 percent of the sales of mineral products, and the solution has two aspects: firstly, the wear resistance of the material is improved from the aspect of the material; and the environment for improving abrasion from the aspect of process.
In the prior art, when producing a wear-resistant microcrystalline glass lining plate, firstly, preparing slurry, mixing and stirring water, gypsum, bentonite and carbon powder in a set proportion to obtain slurry with preset viscosity, then preparing a mould shell, immersing a wax mould into the slurry to uniformly coat the slurry on the wax mould, taking out the wax mould, continuously rotating the wax mould to remove redundant slurry, and then spraying zircon sand on the wax mould to adhere sand grains on the slurry so as to carry out subsequent processing; the wax mould is taken out after being immersed into the slurry and is directly rotated continuously, so that the slurry of the upper half part of the wax mould continuously slides downwards, the slurry of the upper half part is thinner, the subsequent pouring in the mould shell is adversely affected, sand grains are adhered to the slurry in a sand spraying mode on the wax mould, the uniformity and the sand quantity of the sand grains are difficult to control, the integral thickness and the strength of the prepared mould shell are different, the mould shell is broken when the pouring is seriously possibly caused, and the poured high-temperature material flows out to cause personal injury.
In combination with the above problems, an advanced apparatus for producing and processing an arc liner of microcrystalline glass made of inorganic non-metallic materials is urgently needed to solve the above problems.
Disclosure of Invention
In order to overcome the defect that when a wear-resistant microcrystalline glass lining plate is produced, firstly, slurry is prepared, water, gypsum, bentonite and carbon powder are mixed and stirred according to a set proportion to obtain slurry with preset viscosity, then a mould shell is prepared, a wax mould is immersed into the slurry to enable the wax mould to be uniformly coated with the slurry, then the wax mould is taken out and continuously rotated to enable redundant slurry to be dripped off, zircon sand is scattered on the wax mould to enable sand grains to be adhered to the slurry, and then subsequent processing is carried out; the wax mould is taken out after being immersed into the slurry and is directly rotated continuously, so that the slurry of the upper half part of the wax mould slides downwards continuously, the slurry of the upper half part is thinner, the subsequent pouring in a mould shell is adversely affected, sand grains are adhered to the slurry in a sand spraying mode on the wax mould, the uniformity and the sand quantity of the sand grains are difficult to control, the integral thickness and the strength of the prepared mould shell are different, the mould shell is broken during pouring seriously, and the poured high-temperature material flows out, thereby causing the defect of personal injury, the technical problem of the invention is as follows: provides a production and treatment device for an advanced microcrystalline glass arc lining plate made of inorganic non-metallic materials.
The technical implementation scheme of the invention is as follows: an advanced production treatment device for an inorganic non-metallic material microcrystalline glass arc lining plate comprises a bottom frame, a support column, a base plate, a slurry soaking assembly, a homogenizing assembly, a sand blasting assembly, a support table, a controller, a bearing table, a slurry box and a waste collection box; the bottom surface of the underframe is connected with four groups of support columns; the chassis is connected with the slurry dipping component; the bottom frame is connected with the homogenizing assembly; the underframe is connected with the sand blasting assembly; the underframe is connected with the support table; the underframe is connected with the bearing platform; the chassis is connected with a slurry box; the underframe is connected with the waste collecting box; the four groups of support columns are respectively connected with the four groups of base plates; the pulp soaking component is connected with the homogenizing component; the homogenizing assembly is connected with the bearing table; the support table is connected with the controller.
Further, the slurry dipping component comprises a first bevel gear, a first transmission rod, a first transmission wheel, a second bevel gear, a third bevel gear, a telescopic rod, a first fixing frame, a first electric push rod, a first flat gear, a second transmission rod, a second fixing frame, a first fixing block, a first electromagnet, a second fixing block, a second electromagnet, an arc-shaped sleeve, an electric pressing block, a third transmission rod, a first shaft sleeve, a third fixing block, a third flat gear, a fourth transmission rod, a second transmission wheel, a third transmission wheel, a fourth transmission wheel, a fifth transmission rod, a fourth flat gear, a third electromagnet, a fourth electromagnet and a first rack; the first bevel gear is connected with the homogenizing assembly; the first bevel gear is fixedly connected with the first transmission rod; the first transmission rod is rotatably connected with the bottom frame; the first transmission rod is fixedly connected with the first transmission wheel and the second bevel gear in sequence; the first driving wheel is connected with the homogenizing assembly; the second bevel gear is meshed with the third bevel gear; the third bevel gear is fixedly connected with the telescopic rod; the telescopic rod is rotatably connected with the underframe; the telescopic rod is rotatably connected with the first fixing frame; the first fixing frame is fixedly connected with the first electric push rod; the first electric push rod is fixedly connected with the underframe; the first flat gear is fixedly connected with the telescopic rod; a second flat gear is arranged below the first flat gear; when the first flat gear is meshed with the second flat gear, the second flat gear rotates; when the first flat gear is not meshed with the second flat gear, the second flat gear does not rotate; the second flat gear is fixedly connected with a second transmission rod; two sides of the second transmission rod are respectively in rotating connection with the first fixed block and the second fixed block; the middle part of the second transmission rod is fixedly connected with the second fixing frame; the second fixing frame is fixedly connected with the first rack; the second fixing frame is fixedly connected with the arc-shaped sleeve; the first fixed block is contacted with the first electromagnet; the first electromagnet is fixedly connected with the underframe; the second fixed block is contacted with the second electromagnet; the second electromagnet is fixedly connected with the underframe; the arc-shaped sleeve is connected with the electric pressing block in a sliding manner; the third transmission rod is fixedly connected with the second fixing frame; the third transmission rod is connected with the two groups of first shaft sleeves; the two groups of first shaft sleeves are respectively and rotationally connected with the two groups of third fixed blocks; the two groups of third fixed blocks are in contact with the fourth electromagnet; the third flat gear is fixedly connected with a third transmission rod; four groups of fourth transmission rods are arranged below the first bevel gear; the fourth transmission rod is rotatably connected with the underframe; two sides of the fourth transmission rod are fixedly connected with the second transmission wheel and the third transmission wheel respectively; the second driving wheel is connected with the homogenizing component; the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the fourth driving wheel is fixedly connected with the fifth driving rod; the fifth transmission rod is rotatably connected with the underframe; the fifth transmission rod is fixedly connected with the fourth flat gear; a third electromagnet is fixedly connected above the second fixing frame; the third electromagnet is fixedly connected with the underframe; the fourth electromagnet is fixedly connected with the bottom frame.
Further, the homogenate component comprises a motor, a sixth transmission rod, a fifth transmission wheel, a second shaft sleeve, a fourth bevel gear, a fifth bevel gear, a third fixing frame, a second electric push rod, a sixth bevel gear, a seventh transmission rod, a sixth transmission wheel, a seventh transmission wheel, a screw rod, a fourth fixing block, a sand baffle, a fifth fixing block, a slide rod, a translation slide rail, a translation slide block, a second rack, a limiting plate, a lifting slide block, a transmission plate, a fixing shaft and an eighth transmission wheel; the motor is fixedly connected with the bearing platform; the output shaft of the motor is fixedly connected with the sixth transmission rod; the sixth transmission rod is rotatably connected with the underframe; the sixth transmission rod is fixedly connected with the fifth transmission wheel; the fifth driving wheel is in transmission connection with the second driving wheel through a belt; the second shaft sleeve is connected with the sixth transmission rod; two sides of the second shaft sleeve are fixedly connected with a fourth bevel gear and a fifth bevel gear respectively; the third fixing frame is rotationally connected with the second shaft sleeve; the third fixing frame is fixedly connected with the second electric push rod; the second electric push rod is fixedly connected with the underframe; a sixth bevel gear is arranged on the side surface of the fifth bevel gear; when the fifth bevel gear is meshed with the sixth bevel gear, the sixth bevel gear rotates; when the fifth bevel gear is not meshed with the sixth bevel gear, the sixth bevel gear does not rotate; the sixth bevel gear is fixedly connected with the seventh transmission rod; the seventh transmission rod is rotatably connected with the underframe; the seventh transmission rod is fixedly connected with the sixth transmission wheel; the sixth driving wheel is in transmission connection with the seventh driving wheel through a belt; the seventh driving wheel is fixedly connected with the screw rod; the screw rod is rotationally connected with the bottom frame; the screw rod is connected with the fourth fixed block in a rotating mode; the fourth fixed block is fixedly connected with the sand baffle plate; the sand baffle is fixedly connected with the fifth fixed block; the fifth fixed block is connected with the slide rod in a sliding manner; the sliding rod is fixedly connected with the bottom frame; a translation sliding rail is arranged on the side surface of the third fixing frame; the translation sliding rail is fixedly connected with the underframe; the translation sliding rail is in sliding connection with the translation sliding block; the translation sliding block is fixedly connected with the second rack; the second rack is fixedly connected with the limiting plate through a connecting block; the limiting plate is in transmission connection with the lifting slide block; the lifting slide block is in transmission connection with the transmission plate through a rotating shaft; the transmission plate is fixedly connected with the fixed shaft; the fixed shaft is rotationally connected with the underframe; the fixed shaft is fixedly connected with the eighth driving wheel; the eighth driving wheel is in driving connection with the first driving wheel through a belt.
Furthermore, the sand blasting component comprises a first electric slide rail, a first electric slide block, a first support frame, a connecting sleeve, a sand blowing pipe, a fan, a fifth flat gear, a hollow ball, a guide pipe, a third shaft sleeve, a sand storage tank, a sprue plug, a dispersing cylinder, a sand covering cylinder, a second electric slide rail, a second electric slide block, a second support frame, an electric rotating shaft, a sixth flat gear, a sand blasting pipe and an electric fan; the first electric slide rail is fixedly connected with the underframe; the first electric slide rail is in sliding connection with the first electric slide block; the first electric sliding block is fixedly connected with the first support frame; the first support frame is fixedly connected with the connecting sleeve; the connecting sleeve is rotationally connected with the sand blowing pipe; the fan is fixedly connected with the first support frame and the connecting sleeve respectively; the first support frame is symmetrically provided with a combination of a first electric slide rail and a first electric slide block at two sides; the fifth flat gear is fixedly connected with the sand blowing pipe; the hollow ball is rotatably connected with the sand blowing pipe; five groups of conduits are fixedly connected with the hollow spheres at equal intervals; the third shaft sleeve is rotatably connected with the sand blowing pipe; the third shaft sleeve is fixedly connected with the sand storage tank; the sand storage tank is fixedly connected with the five groups of guide pipes; the sand storage tank is fixedly connected with the first support frame; the sand storage tank is connected with the injection port plug in a sliding manner; the dispersing cylinder is fixedly connected with the sand storage tank; the dispersing cylinder is fixedly connected with the sand blowing pipe; the sand covering cylinder is fixedly connected with the dispersing cylinder; a second electric slide rail is arranged below the side surface of the hollow ball; the second electric slide rail is fixedly connected with the underframe; the second electric slide rail is in sliding connection with the second electric slide block; the second electric sliding block is fixedly connected with the second support frame; the second support frame is connected with the electric rotating shaft; the electric rotating shaft is fixedly connected with the sixth flat gear; a plurality of groups of sand blasting pipes are arranged on the side surface of the dispersion cylinder; the multiple groups of sand blasting pipes are fixedly connected with the dispersing cylinder; the dispersing cylinder is fixedly connected with the electric fan.
Furthermore, a rectangular groove is formed in the position, located inside the hollow ball, of the sand blowing pipe.
Furthermore, the sand lining cylinder is provided with a groove matched with the shape of the lining plate, and the inner wall of the groove is in a fine mesh shape.
Furthermore, a corresponding rectangular groove is formed at the joint of the third shaft sleeve and the sand blowing pipe.
Furthermore, a plurality of groups of round holes are arranged on the plurality of groups of sand blasting pipes.
The invention has the following advantages:
firstly, when producing a wear-resistant glass ceramic lining plate in the prior art, preparing slurry, mixing and stirring water, gypsum, bentonite and carbon powder in a set proportion to obtain slurry with preset viscosity, then preparing a mould shell, immersing a wax mould into the slurry to uniformly coat the slurry on the wax mould, taking out the wax mould, continuously rotating the wax mould to remove redundant slurry, and then spreading zircon sand on the wax mould to adhere sand grains on the slurry so as to carry out subsequent processing; the wax mould is taken out after being immersed into the slurry and is directly rotated continuously, so that the slurry of the upper half part of the wax mould slides downwards continuously, the slurry of the upper half part is thinner, the subsequent pouring in the mould shell is influenced badly, sand grains are adhered to the slurry in a sand spraying mode on the wax mould, the uniformity and the sand quantity of the sand grains are difficult to control, the integral thickness and the strength of the prepared mould shell are different, the mould shell is broken during pouring seriously, and the poured high-temperature material flows out, thereby causing the problem of personal injury;
secondly, designing a slurry dipping component, a homogenizing component and a sand blasting component, placing the device on a horizontal plane when preparing to work, switching on a power supply, putting an arc-shaped wax mould into the slurry dipping component on a bottom frame supported by a first support column and a base plate, driving the slurry dipping component to operate by the homogenizing component connected with a bearing platform by controlling a controller on a support platform, so that the wax mould is dipped into a slurry box to uniformly coat slurry on the wax mould, then taking out the wax mould, repeatedly rotating the wax mould by the homogenizing component, so that redundant slurry is dripped out and the slurry on the wax mould is uniformly kept, then protecting the slurry dipping component by the homogenizing component, then spraying zircon sand on the wax mould by the sand blasting component, manually cleaning the homogenizing component after the work is finished, and collecting the generated waste in a waste collecting box;
when the wax mould protective device is used, the wax mould is transversely and repeatedly turned over after being immersed in the slurry, the slurry on the wax mould is uniformly maintained while the excess slurry is dripped, the thickness of the prepared mould shell is prevented from being different, then the wax mould clamp is protected, sand grains are uniformly sprayed on the wax mould through the groove matched with the wax mould and are uniformly adhered with the slurry, the quality and the strength of the prepared mould shell are ensured, and the effect of an unexpected event caused by the quality problem of the mould shell is avoided.
Drawings
FIG. 1 is a schematic perspective view of a first embodiment of the present invention;
FIG. 2 is a schematic perspective view of a second embodiment of the present invention;
FIG. 3 is a schematic perspective view of a first embodiment of the slurry dipping assembly of the present invention;
FIG. 4 is a schematic perspective view of a second embodiment of the slurry assembly of the present invention;
FIG. 5 is a schematic perspective view of a homogenizing assembly according to the present invention;
FIG. 6 is a schematic partial perspective view of a refining assembly according to the present invention;
FIG. 7 is a schematic perspective view of a first embodiment of the sandblasting assembly of the present invention;
FIG. 8 is a schematic view of a second perspective view of the sandblasting assembly of the present invention;
FIG. 9 is a schematic view of a first partial perspective view of the sanding assembly of the present invention;
FIG. 10 is a second partial perspective view of the sandblasting assembly of the present invention;
fig. 11 is a third partial perspective view of the sandblasting assembly of the present invention.
The meaning of the reference symbols in the figures: 1: chassis, 2: support column, 3: backing plate, 4: slurry dipping assembly, 5: homogenizing assembly, 6: sandblast assembly, 7: support table, 8: controller, 9: bearing platform, 10: slurry tank, 11: waste collection box, 401: first bevel gear, 402: first drive lever, 403: first drive wheel, 404: second bevel gear, 405: third bevel gear, 406: telescopic rod, 407: first mount, 408: first electric putter, 409: first spur gear, 410: second spur gear, 411: second transmission lever, 412: second mount, 413: first fixed block, 414: first electromagnet, 415: second fixed block, 416: second electromagnet, 417: arc sleeve, 418: electric briquette, 419: third driving lever, 420: first bushing, 421: third fixed block, 422: third spur gear, 423: fourth driving lever, 424: second transmission wheel, 425: third transmission wheel, 426: fourth transmission wheel, 427: fifth drive link, 428: fourth flat gear, 429: third electromagnet, 430: fourth electromagnet, 431: first rack, 501: motor, 502: sixth driving lever, 503: fifth transmission wheel, 504: second shaft sleeve, 505: fourth bevel gear, 506: fifth bevel gear, 507: third mount, 508: second electric putter, 509: sixth bevel gear, 510: seventh driving lever, 511: sixth transmission wheel, 512: seventh transmission wheel, 513: screw rod, 514: fourth fixed block, 515: sand guard, 516: fifth fixed block, 517: slide bar, 518: translation slide, 519: translation slider, 520: second rack, 521: a limiting plate, 522: lifting slide block, 523: drive plate, 524: fixed axis, 525: eighth transmission wheel, 601: first electric slide rail, 602: first electric slider, 603: first support frame, 604: connecting sleeve, 605: sand blowing pipe, 606: a fan, 607: fifth spur gear, 608: hollow sphere, 609: catheter, 610: third bushing, 611: sand storage tank, 612: nozzle plug, 613: dispersing cylinder, 614: sand-coated cylinder, 615: second electric slide rail, 616: second electric slider, 617: second support, 618: electric rotating shaft, 619: sixth flat gear, 620: blast pipe, 621: an electric fan.
Detailed Description
Reference herein to an embodiment means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.
Example 1
An advanced production and treatment device for an inorganic non-metallic material microcrystalline glass arc lining plate is shown in figures 1-11 and comprises an underframe 1, a support column 2, a backing plate 3, a slurry soaking component 4, a homogenizing component 5, a sand blasting component 6, a support table 7, a controller 8, a bearing table 9, a slurry box 10 and a waste collecting box 11; the bottom surface of the underframe 1 is connected with four groups of support columns 2; the chassis 1 is connected with the slurry dipping component 4; the underframe 1 is connected with a homogenizing assembly 5; the underframe 1 is connected with the sand blasting assembly 6; the underframe 1 is connected with a support table 7; the underframe 1 is connected with a bearing platform 9; the chassis 1 is connected with a slurry box 10; the underframe 1 is connected with a waste collection box 11; the four groups of support columns 2 are respectively connected with the four groups of backing plates 3; the pulp soaking component 4 is connected with the homogenizing component 5; the homogenizing assembly 5 is connected with a bearing table 9; the support table 7 is connected to a controller 8.
During preparation, the device is placed on a horizontal plane, a power supply is switched on, an arc-shaped wax mould is placed into a slurry soaking component 4 on a bottom frame 1 supported by a first support column 2 and a base plate 3, the slurry soaking component 4 is driven to operate by a homogenizing component 5 connected with a bearing table 9 through a controller 8 on a control support table 7, the wax mould is soaked into a slurry box 10 to be uniformly coated with slurry, then the wax mould is taken out, the wax mould is rotated in a reciprocating mode by the homogenizing component 5, redundant slurry is dripped out, the slurry on the wax mould is kept uniform, then the homogenizing component 5 protects the slurry soaking component 4, then zircon sand is sprayed on the wax mould by a sand blasting component 6, the homogenizing component 5 is manually cleaned after the operation is finished, and generated waste materials are collected in a waste material collecting box 11; when the wax mould protective device is used, the wax mould is immersed in the slurry and then transversely and repeatedly overturned, the excess slurry is dripped and the slurry on the wax mould is kept uniform, so that the thickness of the prepared mould shell is prevented from being different, then the wax mould clamp is protected, sand grains are uniformly sprayed on the wax mould through the groove matched with the wax mould and are uniformly adhered with the slurry, the quality and the strength of the prepared mould shell are ensured, and the unexpected event caused by the quality problem of the mould shell is avoided.
The slurry soaking assembly 4 comprises a first bevel gear 401, a first transmission rod 402, a first transmission wheel 403, a second bevel gear 404, a third bevel gear 405, an expansion link 406, a first fixing frame 407, a first electric push rod 408, a first flat gear 409, a second flat gear 410, a second transmission rod 411, a second fixing frame 412, a first fixing block 413, a first electromagnet 414, a second fixing block 415, a second electromagnet 416, an arc-shaped sleeve 417, an electric pressing block 418, a third transmission rod 419, a first shaft sleeve 420, a third fixing block 421, a third flat gear 422, a fourth transmission rod 423, a second transmission wheel 424, a third transmission wheel 425, a fourth transmission wheel 426, a fifth transmission rod 427, a fourth flat gear 428, a third electromagnet 429, a fourth electromagnet 430 and a first rack 431; the first bevel gear 401 is connected with the homogenizing assembly 5; the first bevel gear 401 is fixedly connected with the first transmission rod 402; the first transmission rod 402 is rotatably connected with the underframe 1; the first transmission rod 402 is fixedly connected with the first transmission wheel 403 and the second bevel gear 404 in sequence; the first driving wheel 403 is connected to the homogenizing assembly 5; the second bevel gear 404 is meshed with a third bevel gear 405; the third bevel gear 405 is fixedly connected with the telescopic rod 406; the telescopic rod 406 is rotatably connected with the underframe 1; the telescopic rod 406 is rotatably connected with the first fixing frame 407; the first fixing frame 407 is fixedly connected with the first electric push rod 408; the first electric push rod 408 is fixedly connected with the underframe 1; the first flat gear 409 is fixedly connected with the telescopic rod 406; a second flat gear 410 is arranged below the first flat gear 409; when the first flat gear 409 is engaged with the second flat gear 410, the second flat gear 410 rotates; when the first flat gear 409 is not engaged with the second flat gear 410, the second flat gear 410 does not rotate; the second flat gear 410 is fixedly connected with a second transmission rod 411; two sides of the second transmission rod 411 are respectively connected with the first fixed block 413 and the second fixed block 415 in a rotating manner; the middle part of the second transmission rod 411 is fixedly connected with the second fixing frame 412; the second fixing frame 412 is fixedly connected with the first rack 431; the second fixing frame 412 is fixedly connected with the arc-shaped sleeve 417; the first fixed block 413 is in contact with the first electromagnet 414; the first electromagnet 414 is fixedly connected with the underframe 1; the second fixed block 415 is in contact with the second electromagnet 416; the second electromagnet 416 is fixedly connected with the underframe 1; the arc-shaped sleeve 417 is in sliding connection with the electric pressing block 418; the third transmission rod 419 is fixedly connected with the second fixing frame 412; the third transmission rod 419 is connected with the two groups of first shaft sleeves 420; the two first shaft sleeves 420 are respectively and rotatably connected with the two third fixed blocks 421; the two groups of third fixed blocks 421 are both contacted with the fourth electromagnet 430; the third flat gear 422 is fixedly connected with a third transmission rod 419; four groups of fourth transmission rods 423 are arranged below the first bevel gear 401; the fourth transmission rod 423 is rotatably connected with the underframe 1; two sides of the fourth transmission rod 423 are fixedly connected with the second transmission wheel 424 and the third transmission wheel 425 respectively; the second driving wheel 424 is connected with the homogenizing assembly 5; the third driving wheel 425 is in driving connection with the fourth driving wheel 426 through a belt; the fourth driving wheel 426 is fixedly connected with a fifth driving rod 427; the fifth transmission rod 427 is rotatably connected with the chassis 1; the fifth transmission rod 427 is fixedly connected with the fourth flat gear 428; a third electromagnet 429 is fixedly connected above the second fixing frame 412; the third electromagnet 429 is fixedly connected with the underframe 1; the fourth electromagnet 430 is fixedly connected with the chassis 1.
Putting an arc-shaped wax mould needing slurry dipping into an arc-shaped sleeve 417, starting two groups of electric pressing blocks 418 to press and fix the wax mould in the arc-shaped sleeve 417, starting a motor 501 to drive a first bevel gear 401 to drive a first transmission rod 402 to rotate by the power transmitted by a homogenizing component 5, simultaneously driving a first transmission wheel 403 and a second bevel gear 404 to rotate by the first transmission rod 402, driving the first transmission wheel 403 to rotate to transmit partial power for the operation of the homogenizing component 5, driving a third bevel gear 405 to drive an expansion rod 406 to rotate by the second bevel gear 404, driving a first flat gear 409 to rotate by the expansion rod 406, extending a first electric push rod 408 to push a first fixing frame 407 to stretch the expansion rod 406 so that the first flat gear 409 is meshed with the second flat gear 410, driving a second transmission rod 411 in the first fixing block 413 and a second fixing block 415 to rotate by the rotation of the second flat gear 410, respectively attaching the first fixing block 413 and the second fixing block 415 to a first electromagnet 414 and a second electromagnet 416, the first electromagnet 414 and the second electromagnet 416 are sucked and fixed, the second transmission rod 411 drives the parts connected with the second transmission rod to rotate, simultaneously, the fourth electromagnet 430 is closed, after the second fixed frame 412, the arc-shaped sleeve 417 and the third transmission rod 419 are overturned by ninety degrees, the first electric push rod 408 is contracted to interrupt the power of the second flat gear 410, the first rack 431 is overturned by ninety degrees and is meshed with the fourth flat gear 428, after the two groups of third fixed blocks 421 are overturned by ninety degrees, the two groups of third fixed blocks are attached to the third electromagnet 429, simultaneously, the third electromagnet 429 is started to suck and fix the two groups of third fixed blocks 421, simultaneously, the homogenizing assembly 5 transmits power to drive the second transmission wheel 424 to drive the fourth transmission rod 423 to rotate, the fourth transmission rod 423 drives the third transmission wheel 425 to drive the fourth transmission wheel 426 to rotate, the fourth transmission wheel 426 drives the fifth transmission rod 427 to drive the fourth flat gear 428 to rotate, the fourth flat gear 428 drives the first rack 431 to move downwards, the third driving rod 419 slides in the two sets of first shaft sleeves 420, so that the arc-shaped sleeve 417 drives the wax pattern to move downwards, the wax pattern is immersed in the slurry tank 10, after the wax pattern is coated with the slurry, the motor 501 rotates reversely to rotate the second driving wheel 424 reversely, and in turn, the fourth flat gear 428 is rotated in the opposite direction, resetting the arc 417 and the third drive link 419, meanwhile, the first electric push rod 408 extends to recover the power of the second flat gear 410, the second flat gear 410 rotates reversely to drive the second transmission rod 411 to rotate reversely, at the same time, the third electromagnet 429 is closed, so that the third transmission rod 419 and the arc-shaped sleeve 417 are turned over to the initial state, the two groups of third fixed blocks 421 are attached to the fourth electromagnet 430, and simultaneously the fourth electromagnet 430 is started, the first electric ram 408 is then retracted to interrupt the power to the second spur gear 410, at which time the third spur gear 422 meshes with the second rack 520, and is then processed by the homogenizing assembly 5; the assembly is clamped to immerse the wax pattern in the slurry and then removed to engage the homogenizing assembly 5 for processing.
The homogenizing assembly 5 comprises a motor 501, a sixth transmission rod 502, a fifth transmission wheel 503, a second shaft sleeve 504, a fourth bevel gear 505, a fifth bevel gear 506, a third fixed frame 507, a second electric push rod 508, a sixth bevel gear 509, a seventh transmission rod 510, a sixth transmission wheel 511, a seventh transmission wheel 512, a screw 513, a fourth fixed block 514, a sand baffle 515, a fifth fixed block 516, a sliding rod 517, a translation sliding rail 518, a translation sliding block 519, a second rack 520, a limit plate 521, a lifting sliding block 522, a transmission plate 523, a fixed shaft 524 and an eighth transmission wheel 525; the motor 501 is fixedly connected with the bearing platform 9; an output shaft of the motor 501 is fixedly connected with a sixth transmission rod 502; the sixth transmission rod 502 is rotatably connected with the underframe 1; the sixth driving rod 502 is fixedly connected with the fifth driving wheel 503; the fifth driving wheel 503 is in driving connection with the second driving wheel 424 through a belt; the second bushing 504 is connected to the sixth transmission rod 502; two sides of the second shaft sleeve 504 are fixedly connected with a fourth bevel gear 505 and a fifth bevel gear 506 respectively; the third fixing frame 507 is rotatably connected with the second shaft sleeve 504; the third fixing frame 507 is fixedly connected with the second electric push rod 508; the second electric push rod 508 is fixedly connected with the underframe 1; a sixth bevel gear 509 is arranged on the side surface of the fifth bevel gear 506; when the fifth bevel gear 506 is engaged with the sixth bevel gear 509, the sixth bevel gear 509 rotates; when the fifth bevel gear 506 is not engaged with the sixth bevel gear 509, the sixth bevel gear 509 does not rotate; a sixth bevel gear 509 is fixedly connected with a seventh transmission rod 510; the seventh transmission rod 510 is rotatably connected with the underframe 1; the seventh transmission rod 510 is fixedly connected with the sixth transmission wheel 511; the sixth driving wheel 511 is in driving connection with the seventh driving wheel 512 through a belt; the seventh transmission wheel 512 is fixedly connected with the screw 513; the screw 513 is rotatably connected with the underframe 1; the screw 513 is screwed with the fourth fixing block 514; the fourth fixed block 514 is fixedly connected with the sand baffle 515; the sand baffle 515 is fixedly connected with a fifth fixed block 516; the fifth fixed block 516 is connected with the sliding rod 517 in a sliding manner; the sliding rod 517 is fixedly connected with the underframe 1; a translation sliding rail 518 is arranged on the side surface of the third fixing frame 507; the translation sliding rail 518 is fixedly connected with the underframe 1; the translation slide rail 518 is connected with a translation slide block 519 in a sliding manner; the translation slide block 519 is fixedly connected with the second rack 520; the second rack 520 is fixedly connected with the limiting plate 521 through a connecting block; the limiting plate 521 is in transmission connection with the lifting slide block 522; the lifting slide block 522 is in transmission connection with the transmission plate 523 through a rotating shaft; the transmission plate 523 is fixedly connected with the fixed shaft 524; the fixed shaft 524 is rotatably connected with the chassis 1; the fixed shaft 524 is fixedly connected with an eighth driving wheel 525; the eighth transmission wheel 525 is in transmission connection with the first transmission wheel 403 via a belt.
After the wax mould is reset, the output shaft of the motor 501 drives the sixth transmission rod 502 to rotate, the sixth transmission rod 502 drives the fifth transmission wheel 503 and the second shaft sleeve 504 to rotate, the fifth transmission wheel 503 transmits partial power to the operation of the slurry soaking component 4, and the second shaft sleeve 504 drives the fourth bevel gear 505 and the fifth bevel gear 506 to rotate; the second electric push rod 508 extends to push the third fixing frame 507, so that the second shaft sleeve 504 slides on the sixth transmission rod 502, the fourth bevel gear 505 is engaged with the first bevel gear 401, so as to transmit partial power to the operation of the slurry dipping component 4, meanwhile, the slurry dipping component 4 drives the eighth transmission wheel 525 to transmit the fixed shaft 524 to rotate, the fixed shaft 524 drives the transmission plate 523 to do circular motion, the transmission plate 523 drives the lifting slider 522 to reciprocate in the limiting plate 521 and do circular motion, the lifting slider 522 drives the limiting plate 521 to reciprocate, the limiting plate 521 drives the second rack 520 to reciprocate, so that the translation slider 519 slides in the translation sliding rail 518 in a reciprocating manner, the second rack 520 drives the third flat gear 422 to reciprocate when reciprocating, the first electromagnet 414 and the second electromagnet 416 are closed, and further, the arc-shaped sleeve 417 drives the wax mold to reciprocate, so that excessive slurry drops are removed and the slurry on the surface of the wax mold is uniform, after the slurry is uniform, when the arc-shaped sleeve 417 is in an initial state, the second electric push rod 508 contracts to enable the fourth bevel gear 505 to be disengaged from the first bevel gear 401, the fifth bevel gear 506 to be engaged with the sixth bevel gear 509, the sixth bevel gear 509 rotates to drive the seventh transmission rod 510 to drive the sixth transmission wheel 511 to rotate, the sixth transmission wheel 511 drives the seventh transmission wheel 512 to drive the screw 513 to rotate, the screw 513 drives the fourth fixed block 514 screwed with the screw to move towards the direction of the translational slide rail 518, the sand baffle 515 moves towards the direction of the translational slide rail 518, the fifth fixed block 516 slides on the slide bar 517, the sand baffle 515 is further sleeved on the wax mold to move, the excessive thick slurry is scraped until the thick slurry moves to be in contact with the arc-shaped sleeve 417, so that the arc-shaped sleeve 417 is protected during sand blasting, then the power of the sixth bevel gear is interrupted, and then the sand blasting component 6 is used for processing; this subassembly makes the wax matrix that soaks behind the thick liquid and lasts reciprocating rotation, makes unnecessary thick liquids drip and removes and make the wax matrix sizing agent even simultaneously, then strikes off the wax matrix thick liquids, and the adhesion is on sandblast subassembly 6 when avoiding the sandblast to cover 417 to the arc and protect so that sandblast subassembly 6 handles.
The sand blasting assembly 6 comprises a first electric slide rail 601, a first electric slide block 602, a first support frame 603, a connecting sleeve 604, a sand blasting pipe 605, a fan 606, a fifth flat gear 607, a hollow ball 608, a guide pipe 609, a third shaft sleeve 610, a sand storage tank 611, a sprue plug 612, a dispersing cylinder 613, a sand covering cylinder 614, a second electric slide rail 615, a second electric slide block 616, a second support frame 617, an electric rotating shaft 618, a sixth flat gear 619, a sand blasting pipe 620 and an electric fan 621; the first electric slide rail 601 is fixedly connected with the underframe 1; the first electric slide rail 601 is connected with the first electric slide block 602 in a sliding manner; the first electric slider 602 is fixedly connected with the first support 603; the first supporting frame 603 is fixedly connected with the connecting sleeve 604; the connecting sleeve 604 is rotatably connected with the sand blowing pipe 605; the fan 606 is fixedly connected with the first support frame 603 and the connecting sleeve 604 respectively; the first support frame 603 is symmetrically provided with a combination of a first electric slide rail 601 and a first electric slide block 602 at two sides; the fifth flat gear 607 is fixedly connected with the sand blowing pipe 605; the hollow ball 608 is rotatably connected with the sand blowing pipe 605; five groups of guide pipes 609 are fixedly connected with the hollow ball 608 in an annular and equidistant manner; the third shaft sleeve 610 is rotatably connected with the sand blowing pipe 605; the third shaft sleeve 610 is fixedly connected with the sand storage tank 611; the sand storage tank 611 is fixedly connected with the five groups of guide pipes 609; the sand storage tank 611 is fixedly connected with the first support frame 603; the sand storage tank 611 is connected with the injection port plug 612 in a sliding manner; the dispersing cylinder 613 is fixedly connected with the sand storage tank 611; the dispersing cylinder 613 is fixedly connected with the sand blowing pipe 605; the sand-coated cylinder 614 is fixedly connected with the dispersing cylinder 613; a second electric slide rail 615 is arranged below the side surface of the hollow ball 608; the second electric slide rail 615 is fixedly connected with the underframe 1; the second electric slide rail 615 is connected with the second electric slide block 616 in a sliding manner; the second electric sliding block 616 is fixedly connected with the second supporting frame 617; the second supporting frame 617 is connected to the electric rotating shaft 618; the electric rotating shaft 618 is fixedly connected with a sixth flat gear 619; a plurality of groups of sand blasting pipes 620 are arranged on the side surface of the dispersing cylinder 613; the multiple groups of sand blasting pipes 620 are all fixedly connected with the dispersing cylinder 613; the dispersing cylinder 613 is fixed to an electric fan 621.
After the treatment of the homogenizing assembly 5 is completed, two groups of first electric sliding blocks 602 simultaneously slide in two groups of first electric sliding rails 601 respectively, so that a sand covering cylinder 614 is sleeved on a wax mould, a fifth flat gear 607 corresponds to a sixth flat gear 619 in position, then a second electric sliding block 616 slides in a second electric sliding rail 615 towards a hollow ball 608, so that the sixth flat gear 619 is meshed with the fifth flat gear 607, then an electric rotating shaft 618 on a second supporting frame 617 is started to drive the sixth flat gear 619 to rotate, the sixth flat gear 619 drives the fifth flat gear 607 to drive the sand blowing pipe 605 to rotate in a connecting sleeve 604, meanwhile, a fan 606 is started to blow air from the sand blowing pipe 605 to the hollow ball 608 and a sand storage tank 611 and simultaneously enter the sand storage tank 611 through five groups of guide pipes 609, further, so that zircon sand in the sand storage tank 611 is turned over, when the sand blowing pipe 605 rotates in a third shaft sleeve 610, a three-shaft groove of the rectangular sand blowing pipe 605 intermittently coincides with a rectangular quartz groove on the third shaft sleeve 610, the zircon sand in the sand storage tank 611 is turned over and intermittently enters the sand blowing pipe 605 and is blown into the dispersing cylinder 613, meanwhile, the electric fan 621 rotates to disperse the zircon sand blown into the dispersing cylinder 613, then the zircon sand is sprayed into the sand coating cylinder 614 through the sieve holes on the side surface of the dispersing cylinder 613 and the plurality of groups of sand spraying pipes 620, the zircon sand is sprayed on the wax mold through the sieve holes in the groove of the sand coating cylinder 614 and is adhered to the slurry, the sand coating cylinder 614 is made of transparent material so as to observe the condition of sand coating on the wax mold, the electric rotating shaft 618 stops rotating after the sand spraying is finished, and when the zircon sand needs to be supplemented to the sand storage tank 611, the injection port plug 612 is opened to add the zircon sand into the sand storage tank; this subassembly makes zircon sand spout the cladding on the wax matrix through the recess with wax matrix molding assorted and evenly adhere with the thick liquids.
Wherein, the sand blowing pipe 605 is provided with a rectangular groove at the position inside the hollow ball 608.
So that air blown into the sand blowing pipe 605 enters the hollow sphere 608 from the rectangular channel.
The sand lining cylinder 614 is provided with a groove matched with the shape of the lining plate, and the inner wall of the groove is in a fine mesh shape.
So as to sand the lining board after the slurry is soaked.
Wherein, the connection part of the third shaft sleeve 610 and the sand blowing pipe 605 is provided with a corresponding rectangular groove.
So that the zircon sand enters the sand blowing pipe 605.
Wherein, all be provided with the multiunit round hole on the multiunit blast pipe 620.
So that the zircon sand is blown out of the circular hole.
Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.
Claims (8)
1. The utility model provides an advanced inorganic non-metallic material microcrystalline glass circular arc welt production processing apparatus, including chassis, support column, backing plate, brace table, controller, bearing platform, thick liquids case and garbage collection box, characterized by: the device also comprises a slurry soaking component, a homogenizing component and a sand blasting component; the bottom surface of the underframe is connected with four groups of support columns; the chassis is connected with the slurry dipping component; the bottom frame is connected with the homogenizing assembly; the underframe is connected with the sand blasting assembly; the underframe is connected with the support table; the underframe is connected with the bearing platform; the chassis is connected with a slurry box; the underframe is connected with the waste collecting box; the four groups of support columns are respectively connected with the four groups of base plates; the pulp soaking component is connected with the homogenizing component; the homogenizing assembly is connected with the bearing table; the support table is connected with the controller.
2. The advanced production processing device for the microcrystalline glass arc lining plate made of the inorganic non-metallic material as claimed in claim 1, which is characterized in that: the slurry dipping component comprises a first bevel gear, a first transmission rod, a first transmission wheel, a second bevel gear, a third bevel gear, a telescopic rod, a first fixing frame, a first electric push rod, a first flat gear, a second transmission rod, a second fixing frame, a first fixing block, a first electromagnet, a second fixing block, a second electromagnet, an arc-shaped sleeve, an electric pressing block, a third transmission rod, a first shaft sleeve, a third fixing block, a third flat gear, a fourth transmission rod, a second transmission wheel, a third transmission wheel, a fourth transmission wheel, a fifth transmission rod, a fourth flat gear, a third electromagnet, a fourth electromagnet and a first rack; the first bevel gear is connected with the homogenizing assembly; the first bevel gear is fixedly connected with the first transmission rod; the first transmission rod is rotatably connected with the bottom frame; the first transmission rod is fixedly connected with the first transmission wheel and the second bevel gear in sequence; the first driving wheel is connected with the homogenizing assembly; the second bevel gear is meshed with the third bevel gear; the third bevel gear is fixedly connected with the telescopic rod; the telescopic rod is rotatably connected with the underframe; the telescopic rod is rotatably connected with the first fixing frame; the first fixing frame is fixedly connected with the first electric push rod; the first electric push rod is fixedly connected with the underframe; the first flat gear is fixedly connected with the telescopic rod; a second flat gear is arranged below the first flat gear; when the first flat gear is meshed with the second flat gear, the second flat gear rotates; when the first flat gear is not meshed with the second flat gear, the second flat gear does not rotate; the second flat gear is fixedly connected with a second transmission rod; two sides of the second transmission rod are respectively in rotating connection with the first fixed block and the second fixed block; the middle part of the second transmission rod is fixedly connected with the second fixing frame; the second fixing frame is fixedly connected with the first rack; the second fixing frame is fixedly connected with the arc-shaped sleeve; the first fixed block is contacted with the first electromagnet; the first electromagnet is fixedly connected with the underframe; the second fixed block is contacted with the second electromagnet; the second electromagnet is fixedly connected with the underframe; the arc-shaped sleeve is connected with the electric pressing block in a sliding manner; the third transmission rod is fixedly connected with the second fixing frame; the third transmission rod is connected with the two groups of first shaft sleeves; the two groups of first shaft sleeves are respectively and rotationally connected with the two groups of third fixed blocks; the two groups of third fixed blocks are in contact with the fourth electromagnet; the third flat gear is fixedly connected with a third transmission rod; four groups of fourth transmission rods are arranged below the first bevel gear; the fourth transmission rod is rotatably connected with the underframe; two sides of the fourth transmission rod are fixedly connected with the second transmission wheel and the third transmission wheel respectively; the second driving wheel is connected with the homogenizing component; the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the fourth driving wheel is fixedly connected with the fifth driving rod; the fifth transmission rod is rotatably connected with the underframe; the fifth transmission rod is fixedly connected with the fourth flat gear; a third electromagnet is fixedly connected above the second fixing frame; the third electromagnet is fixedly connected with the underframe; the fourth electromagnet is fixedly connected with the bottom frame.
3. The advanced production processing device for the microcrystalline glass arc lining plate made of the inorganic non-metallic material as claimed in claim 2, which is characterized in that: the homogenate component comprises a motor, a sixth transmission rod, a fifth transmission wheel, a second shaft sleeve, a fourth bevel gear, a fifth bevel gear, a third fixing frame, a second electric push rod, a sixth bevel gear, a seventh transmission rod, a sixth transmission wheel, a seventh transmission wheel, a lead screw, a fourth fixing block, a sand baffle, a fifth fixing block, a slide rod, a translation slide rail, a translation slide block, a second rack, a limiting plate, a lifting slide block, a transmission plate, a fixing shaft and an eighth transmission wheel; the motor is fixedly connected with the bearing platform; the output shaft of the motor is fixedly connected with the sixth transmission rod; the sixth transmission rod is rotatably connected with the underframe; the sixth transmission rod is fixedly connected with the fifth transmission wheel; the fifth driving wheel is in transmission connection with the second driving wheel through a belt; the second shaft sleeve is connected with the sixth transmission rod; two sides of the second shaft sleeve are fixedly connected with a fourth bevel gear and a fifth bevel gear respectively; the third fixing frame is rotationally connected with the second shaft sleeve; the third fixing frame is fixedly connected with the second electric push rod; the second electric push rod is fixedly connected with the underframe; a sixth bevel gear is arranged on the side surface of the fifth bevel gear; when the fifth bevel gear is meshed with the sixth bevel gear, the sixth bevel gear rotates; when the fifth bevel gear is not meshed with the sixth bevel gear, the sixth bevel gear does not rotate; the sixth bevel gear is fixedly connected with the seventh transmission rod; the seventh transmission rod is rotatably connected with the underframe; the seventh transmission rod is fixedly connected with the sixth transmission wheel; the sixth driving wheel is in transmission connection with the seventh driving wheel through a belt; the seventh driving wheel is fixedly connected with the screw rod; the screw rod is rotationally connected with the bottom frame; the screw rod is connected with the fourth fixed block in a rotating mode; the fourth fixed block is fixedly connected with the sand baffle plate; the sand baffle is fixedly connected with the fifth fixed block; the fifth fixed block is connected with the slide rod in a sliding manner; the sliding rod is fixedly connected with the bottom frame; a translation sliding rail is arranged on the side surface of the third fixing frame; the translation sliding rail is fixedly connected with the underframe; the translation sliding rail is in sliding connection with the translation sliding block; the translation sliding block is fixedly connected with the second rack; the second rack is fixedly connected with the limiting plate through a connecting block; the limiting plate is in transmission connection with the lifting slide block; the lifting slide block is in transmission connection with the transmission plate through a rotating shaft; the transmission plate is fixedly connected with the fixed shaft; the fixed shaft is rotationally connected with the underframe; the fixed shaft is fixedly connected with the eighth driving wheel; the eighth driving wheel is in driving connection with the first driving wheel through a belt.
4. The advanced production processing device for the microcrystalline glass arc lining plate made of the inorganic non-metallic material as claimed in claim 3, which is characterized in that: the sand blasting component comprises a first electric sliding rail, a first electric sliding block, a first support frame, a connecting sleeve, a sand blowing pipe, a fan, a fifth flat gear, a hollow ball, a guide pipe, a third shaft sleeve, a sand storage tank, a sprue plug, a dispersing cylinder, a sand covering cylinder, a second electric sliding rail, a second electric sliding block, a second support frame, an electric rotating shaft, a sixth flat gear, a sand blasting pipe and an electric fan; the first electric slide rail is fixedly connected with the underframe; the first electric slide rail is in sliding connection with the first electric slide block; the first electric sliding block is fixedly connected with the first support frame; the first support frame is fixedly connected with the connecting sleeve; the connecting sleeve is rotationally connected with the sand blowing pipe; the fan is fixedly connected with the first support frame and the connecting sleeve respectively; the first support frame is symmetrically provided with a combination of a first electric slide rail and a first electric slide block at two sides; the fifth flat gear is fixedly connected with the sand blowing pipe; the hollow ball is rotatably connected with the sand blowing pipe; five groups of conduits are fixedly connected with the hollow spheres at equal intervals; the third shaft sleeve is rotatably connected with the sand blowing pipe; the third shaft sleeve is fixedly connected with the sand storage tank; the sand storage tank is fixedly connected with the five groups of guide pipes; the sand storage tank is fixedly connected with the first support frame; the sand storage tank is connected with the injection port plug in a sliding manner; the dispersing cylinder is fixedly connected with the sand storage tank; the dispersing cylinder is fixedly connected with the sand blowing pipe; the sand covering cylinder is fixedly connected with the dispersing cylinder; a second electric slide rail is arranged below the side surface of the hollow ball; the second electric slide rail is fixedly connected with the underframe; the second electric slide rail is in sliding connection with the second electric slide block; the second electric sliding block is fixedly connected with the second support frame; the second support frame is connected with the electric rotating shaft; the electric rotating shaft is fixedly connected with the sixth flat gear; a plurality of groups of sand blasting pipes are arranged on the side surface of the dispersion cylinder; the multiple groups of sand blasting pipes are fixedly connected with the dispersing cylinder; the dispersing cylinder is fixedly connected with the electric fan.
5. The advanced production processing device for the microcrystalline glass arc lining plate made of the inorganic non-metallic material as claimed in claim 4, which is characterized in that: the sand blowing pipe is provided with a rectangular groove at the position inside the hollow ball.
6. The advanced production processing device for the microcrystalline glass arc lining plate made of the inorganic non-metallic material as claimed in claim 4, which is characterized in that: the sand covering cylinder is provided with a groove matched with the shape of the lining plate, and the inner wall of the groove is in a fine mesh shape.
7. The advanced production processing device for the microcrystalline glass arc lining plate made of the inorganic non-metallic material as claimed in claim 4, which is characterized in that: the third shaft sleeve is provided with a corresponding rectangular groove at the joint of the sand blowing pipe.
8. The advanced production processing device for the microcrystalline glass arc lining plate made of the inorganic non-metallic material as claimed in claim 4, which is characterized in that: and a plurality of groups of round holes are arranged on the plurality of groups of sand blasting pipes.
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| CN210098883U (en) * | 2019-01-21 | 2020-02-21 | 江苏新中洲特种合金材料有限公司 | Sand spraying device for surface of precision casting wax blank |
| CN210498249U (en) * | 2019-07-30 | 2020-05-12 | 海兴厚德不锈钢制品有限公司 | Coating and sanding device for investment casting |
| CN111390114A (en) * | 2020-04-27 | 2020-07-10 | 李昌跃 | Valve casting silica sol wax mold surface treatment process |
| CN211867515U (en) * | 2020-03-18 | 2020-11-06 | 宝鸡市天罡钛业有限责任公司 | Automatic sand blasting device |
| CN112123535A (en) * | 2020-09-25 | 2020-12-25 | 崔跃芳 | Autoclaved brick reprocessing device |
| CN112154924A (en) * | 2020-09-30 | 2021-01-01 | 张兴雷 | Leak dropping board apparatus for producing based on template is figurative |
| CN112171525A (en) * | 2020-10-14 | 2021-01-05 | 李丹丹 | Metal surface sand blasting equipment |
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| CN112339088A (en) * | 2020-11-02 | 2021-02-09 | 孙玉浩 | Preparation process of fully glazed ceramic |
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| CN112931148A (en) * | 2021-03-12 | 2021-06-11 | 马万海 | Positive and negative formula pyrophyllite nutrition soil batching processing apparatus |
| CN112959480A (en) * | 2021-02-04 | 2021-06-15 | 袁新磊 | Integrative device of rectangle graphite crucible fettling, deburring |
| CN113001713A (en) * | 2021-02-03 | 2021-06-22 | 谢竟海 | Wooden tray making devices based on glass mosaic |
| CN113021573A (en) * | 2021-03-12 | 2021-06-25 | 陈敬 | Silicon carbide sealing washer apparatus for producing of clout can fully be collected |
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| KR101551877B1 (en) * | 2014-08-26 | 2015-09-09 | (주)원종기계 | Turn table type core molding machine with vertical flip device for sand drain |
| CN109365771A (en) * | 2018-12-06 | 2019-02-22 | 扬州峰明光电新材料有限公司 | Casting method with duct aluminium alloy tubular shell |
| CN210098883U (en) * | 2019-01-21 | 2020-02-21 | 江苏新中洲特种合金材料有限公司 | Sand spraying device for surface of precision casting wax blank |
| CN210498249U (en) * | 2019-07-30 | 2020-05-12 | 海兴厚德不锈钢制品有限公司 | Coating and sanding device for investment casting |
| CN211867515U (en) * | 2020-03-18 | 2020-11-06 | 宝鸡市天罡钛业有限责任公司 | Automatic sand blasting device |
| CN111390114A (en) * | 2020-04-27 | 2020-07-10 | 李昌跃 | Valve casting silica sol wax mold surface treatment process |
| CN112123535A (en) * | 2020-09-25 | 2020-12-25 | 崔跃芳 | Autoclaved brick reprocessing device |
| CN112154924A (en) * | 2020-09-30 | 2021-01-01 | 张兴雷 | Leak dropping board apparatus for producing based on template is figurative |
| CN112171525A (en) * | 2020-10-14 | 2021-01-05 | 李丹丹 | Metal surface sand blasting equipment |
| CN112388994A (en) * | 2020-10-23 | 2021-02-23 | 江西省储建工程技术有限公司 | PVC coiled material floor repair equipment capable of achieving positioning and cutting |
| CN112276006A (en) * | 2020-10-30 | 2021-01-29 | 绍兴文理学院 | Fired mold equipment |
| CN112339088A (en) * | 2020-11-02 | 2021-02-09 | 孙玉浩 | Preparation process of fully glazed ceramic |
| CN112622219A (en) * | 2020-12-08 | 2021-04-09 | 王远 | Expansion separation type EVA (ethylene-vinyl acetate) plate blanking device |
| CN113001713A (en) * | 2021-02-03 | 2021-06-22 | 谢竟海 | Wooden tray making devices based on glass mosaic |
| CN112959480A (en) * | 2021-02-04 | 2021-06-15 | 袁新磊 | Integrative device of rectangle graphite crucible fettling, deburring |
| CN112931148A (en) * | 2021-03-12 | 2021-06-11 | 马万海 | Positive and negative formula pyrophyllite nutrition soil batching processing apparatus |
| CN113021573A (en) * | 2021-03-12 | 2021-06-25 | 陈敬 | Silicon carbide sealing washer apparatus for producing of clout can fully be collected |
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Application publication date: 20211029 |