CN113414002A - Thorough mica sheet deironing device of deironing - Google Patents
Thorough mica sheet deironing device of deironing Download PDFInfo
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- CN113414002A CN113414002A CN202110515109.9A CN202110515109A CN113414002A CN 113414002 A CN113414002 A CN 113414002A CN 202110515109 A CN202110515109 A CN 202110515109A CN 113414002 A CN113414002 A CN 113414002A
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- transmission rod
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- 239000010445 mica Substances 0.000 title claims abstract description 87
- 229910052618 mica group Inorganic materials 0.000 title claims abstract description 87
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 claims abstract description 63
- 238000000926 separation method Methods 0.000 claims abstract description 25
- 229910052742 iron Inorganic materials 0.000 claims abstract description 23
- 238000010521 absorption reaction Methods 0.000 claims abstract description 20
- 230000005389 magnetism Effects 0.000 claims abstract description 6
- 230000005540 biological transmission Effects 0.000 claims description 167
- 239000000463 material Substances 0.000 claims description 37
- 206010044048 Tooth missing Diseases 0.000 claims description 3
- 241001251094 Formica Species 0.000 claims 1
- 238000000034 method Methods 0.000 abstract description 5
- 239000002994 raw material Substances 0.000 description 10
- 230000000694 effects Effects 0.000 description 3
- 238000001354 calcination Methods 0.000 description 2
- 239000003292 glue Substances 0.000 description 2
- 238000010586 diagram Methods 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B03—SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03C—MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03C1/00—Magnetic separation
- B03C1/02—Magnetic separation acting directly on the substance being separated
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B03—SEPARATION OF SOLID MATERIALS USING LIQUIDS OR USING PNEUMATIC TABLES OR JIGS; MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03C—MAGNETIC OR ELECTROSTATIC SEPARATION OF SOLID MATERIALS FROM SOLID MATERIALS OR FLUIDS; SEPARATION BY HIGH-VOLTAGE ELECTRIC FIELDS
- B03C1/00—Magnetic separation
- B03C1/005—Pretreatment specially adapted for magnetic separation
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B32—LAYERED PRODUCTS
- B32B—LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
- B32B43/00—Operations specially adapted for layered products and not otherwise provided for, e.g. repairing; Apparatus therefor
- B32B43/006—Delaminating
Landscapes
- Transmission Devices (AREA)
- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
Abstract
The invention relates to the field of mica, in particular to a mica sheet iron removal device capable of removing iron thoroughly. The technical problems to be solved by the invention are as follows: provides a mica sheet deironing device capable of completely deironing. The technical scheme is as follows: a mica sheet deironing device capable of completely deironing comprises a bottom frame, a tiling unit, a separation unit, a magnetic absorption unit, a control screen, a first collecting box, a second collecting box, a support column, an anti-skid pad, a first support and a second support; the bottom frame is connected with the tiling unit; the underframe is connected with the separation unit; the underframe is connected with the magnetism suction unit; the chassis is connected with the control screen; the chassis is connected with the first collection tank. The invention realizes the removal of iron on the surface of the mica sheet, firstly separates the adhered mica sheets, and then uses the magnet to adsorb the iron powder, thereby ensuring that the mica and the iron removal are not damaged in the iron removal process, and removing the iron powder cleanly.
Description
Technical Field
The invention relates to the field of mica, in particular to a mica sheet iron removal device capable of removing iron thoroughly.
Background
In the processing process of the mica paper, natural mica sheet raw materials are adopted, and the raw materials are put into a calcining furnace for calcining and then are pulped; because the natural mica sheet raw material generally contains a large amount of iron, which may affect subsequent processing equipment and also affect the performance of the finished mica paper product, the natural mica sheet raw material needs to be subjected to iron removal treatment.
Present mica deironing device all designs for aiming at graininess mica, lets the raw materials pass through permanent magnet, and then adsorbs the iron that contains in the raw materials on permanent magnet through permanent magnet, reaches the effect of deironing, if adopt this kind of mode, causes the damage of mica sheet or magnet easily when the contact of mica sheet and magnet, and glues together easily between the mica sheet, and the deironing is thorough inadequately.
In summary, a mica sheet deironing device with complete deironing needs to be developed to overcome the above problems.
Disclosure of Invention
In order to overcome present mica deironing device all for designing to graininess mica, let the raw materials pass through permanent magnet, and then adsorb on permanent magnet through the iron that contains in the permanent magnet raw materials, reach the effect of deironing, if adopt this kind of mode, cause the damage of mica sheet or magnet easily when mica sheet and magnet contact, and glue together easily between the mica sheet, the not thorough shortcoming of deironing, the technical problem that will solve: provides a mica sheet deironing device capable of completely deironing.
The technical scheme is as follows: a mica sheet deironing device capable of completely deironing comprises a bottom frame, a tiling unit, a separation unit, a magnetic absorption unit, a control screen, a first collecting box, a second collecting box, a support column, an anti-skid pad, a first support and a second support; the bottom frame is connected with the tiling unit; the underframe is connected with the separation unit; the underframe is connected with the magnetism suction unit; the chassis is connected with the control screen; the chassis is connected with the first collecting box; the underframe is connected with the second collecting box; the underframe is connected with the support; the underframe is connected with the first support; the underframe is connected with the second bracket; the tiling unit is connected with the magnetic absorption unit; the tiling unit is connected with the first support; the flat laying unit is connected with the second support; the separation unit is connected with the magnetic absorption unit; the pillars are connected with the non-slip mat.
In one embodiment, the tiling unit comprises a first driving wheel, a second driving wheel, a first driving rod, a third driving wheel, a fourth driving wheel, a second driving rod, a tooth-missing gear, a first straight gear, a first screw rod, a torsion spring, a first electric slider, a second electric slider, a first electric slide rail, a second electric slide rail, a tiling plate and a first polish rod; the first driving wheel is connected with the magnetic attraction unit; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the inner axle center of the second driving wheel is fixedly connected with the first driving rod; the outer surface of the first transmission rod is fixedly connected with the third transmission wheel; the outer surface of the first transmission rod is rotationally connected with the bottom frame; the outer ring surface of the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the inner axle center of the fourth driving wheel is fixedly connected with the second driving rod; the outer surface of the second transmission rod is fixedly connected with the gear with missing teeth; the outer surface of the second transmission rod is rotatably connected with the underframe; a first straight gear is arranged above the gear with missing teeth; the inner axis of the first straight gear is fixedly connected with the first screw rod; the first screw rod is fixedly connected with the torsion spring; the outer surface of the first screw rod is rotationally connected with the first electric slide block; the outer surface of the first screw rod is rotationally connected with the second electric slide block; the outer surface of the first screw rod is connected with the four groups of flat planks in a rotating mode; the torsion spring is fixedly connected with the first electric sliding block; the first electric sliding block is in sliding connection with the first electric sliding rail; the first electric slide rail is fixedly connected with the underframe; the first electric sliding rail is connected with the second bracket; the second electric sliding block is in sliding connection with the second electric sliding rail; the second electric slide rail is fixedly connected with the underframe; the second electric sliding rail is connected with the first bracket; the four groups of flat planks are in sliding connection with the first polish rod; the first polish rod is fixedly connected with the first electric sliding block; the first polish rod is fixedly connected with the second electric sliding block.
In one embodiment, the separating unit comprises a third electric slide block, a third electric slide rail, a separating plate, a bottom frame, a material frame, a fourth electric slide block, a straight slide rail, a groove plate, a first bevel gear, a second bevel gear, a third transmission rod, a worm wheel, a fourth transmission rod, a rotating disc, a convex rod, a third connecting plate, a third electric push rod and a third rod sleeve; the third electric sliding block is in sliding connection with the third electric sliding rail; the third electric slide block is fixedly connected with the five groups of separating plates; the third electric slide rail is fixedly connected with the underframe; a bottom frame is arranged on the side edge of the separation plate; a material frame is arranged above the bottom frame; the bottom frame is in sliding connection with the fourth electric sliding block; the bottom frame is fixedly connected with the straight sliding block; the straight sliding block is in sliding connection with the straight sliding rail; the straight slide rail is fixedly connected with the underframe; the straight sliding block is fixedly connected with the groove plate; the groove plate is connected with the convex rod; a second bevel gear is arranged above the side surface of the first bevel gear; the inner axis of the first bevel gear is fixedly connected with the third rod sleeve; the outer surface of the third rod sleeve is rotationally connected with the third connecting plate; the third rod sleeve is connected with the magnetic absorption unit; the third connecting plate is fixedly connected with a third electric push rod; the third electric push rod is fixedly connected with the underframe; the inner axis of the second bevel gear is fixedly connected with a third transmission rod; the outer surface of the third transmission rod is fixedly connected with the worm; the outer surface of the third transmission rod is rotatably connected with the underframe; the worm is meshed with the worm wheel; the inner axis of the worm wheel is fixedly connected with a fourth transmission rod; the outer surface of the fourth transmission rod is fixedly connected with the rotating disc; the outer surface of the fourth transmission rod is rotatably connected with the underframe; the outer edge of the end face of the rotating disc is fixedly connected with the convex rod.
In one embodiment, the magnetic absorption unit comprises a motor, a fifth transmission rod, a fifth transmission wheel, a first rod sleeve, a first connecting plate, a first electric push rod, a second straight gear, an internal gear, a sixth transmission rod, a third straight gear, a fourth straight gear, a seventh transmission rod, a fifth electric slide block, a connecting frame, a second screw rod, a second polish rod, a third bevel gear, a first electromagnet plate, a second electromagnet plate, an eighth transmission rod, a second rod sleeve, a second connecting plate, a second electric push rod, a fourth bevel gear, a fifth bevel gear, a sixth transmission wheel and a fourth electric slide rail; the output shaft of the motor is fixedly connected with a fifth transmission rod; the motor is fixedly connected with the underframe; the outer surface of the fifth transmission rod is fixedly connected with a fifth transmission wheel; the outer surface of the fifth transmission rod is in sliding connection with the first rod sleeve; the outer surface of the fifth transmission rod is rotatably connected with the underframe; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the outer surface of the first rod sleeve is rotatably connected with the first connecting plate; the first connecting plate is fixedly connected with the first electric push rod; the first electric push rod is fixedly connected with the underframe; the outer surface of the first rod sleeve is fixedly connected with the second straight gear; an inner gear is arranged on the side edge of the second straight gear; the inner axis of the internal gear is fixedly connected with the sixth transmission rod; the outer surface of the sixth transmission rod is meshed with the third straight gear; the outer surface of the sixth transmission rod is rotatably connected with the underframe; a fourth straight gear is arranged above the third straight gear; the inner axis of the fourth straight gear is fixedly connected with the seventh transmission rod; the outer surface of the seventh transmission rod is rotatably connected with the fifth electric slide block; the outer surface of the seventh transmission rod is fixedly connected with the connecting frame; the fifth electric sliding block is in sliding connection with the fourth electric sliding rail; the fourth electric sliding rail is fixedly connected with the underframe; the connecting frame is rotationally connected with the second screw rod; the connecting frame is fixedly connected with the second polished rod; the outer surface of the second screw rod is fixedly connected with a third bevel gear; the outer surface of the second screw rod is in screwed connection with the first electromagnet plate; the outer surface of the second screw rod is in screwed connection with the second electromagnet plate; the first electromagnet plate is in sliding connection with the second polished rod; the second electromagnet plate is in sliding connection with the second polished rod; the inner axle center of the sixth driving wheel is fixedly connected with the eighth driving rod; the outer surface of the eighth transmission rod is in sliding connection with the second rod sleeve; the outer surface of the eighth transmission rod is rotatably connected with the underframe; the outer surface of the eighth transmission rod is fixedly connected with the first transmission wheel; the outer surface of the eighth transmission rod is in sliding connection with the third rod sleeve; the outer surface of the second rod sleeve is rotationally connected with the second connecting plate; the outer surface of the second rod sleeve is fixedly connected with a fifth bevel gear; the outer surface of the second rod sleeve is fixedly connected with a fourth bevel gear; the second connecting plate is fixedly connected with the second electric push rod; the second electric push rod is fixedly connected with the underframe.
In one embodiment, the distance between the five sets of separator plates corresponds to the thickness of one mica sheet.
In one embodiment, the surface of the material frame is provided with holes distributed in a rectangular array, and the two sides of the material frame are provided with handles.
In one embodiment, the second screw rod is opposite to the thread direction of the joint of the first electromagnet plate and the second electromagnet plate.
In one embodiment, the outer annular surface of the fifth transmission rod connected with the first rod sleeve and the outer annular surface of the eighth transmission rod connected with the second rod sleeve and the third rod sleeve are provided with straight tangent planes.
Has the advantages that: the mica deironing device aims at solving the problems that the existing mica deironing device is designed aiming at granular mica, the raw materials pass through the permanent magnet, and then iron contained in the raw materials is adsorbed on the permanent magnet through the permanent magnet, so that the deironing effect is achieved, if the mode is adopted, the damage of mica sheets or magnets is easily caused when the mica sheets are in contact with the magnets, and the mica sheets are easily adhered together, so that the deironing is not thorough enough.
The invention arranges a flat laying unit, a separating unit and a magnetic attracting unit; when the mica sheet deironing device is used, the mica sheet deironing device with thorough deironing is placed at a position to be used, the support is adjusted to enable the bottom frame to be horizontal, the lower part of the support is connected with the anti-slip pad to play an anti-slip role, then the device is externally connected with a power supply, and the device is controlled to be started through the control screen; the mica sheets are firstly placed in a material frame of a separation unit, a magnetic absorption unit is linked with a tiling unit which is connected with a first support and a second support to tile the mica sheets in the material frame, then the magnetic absorption unit is linked with the separation unit to separate the glued mica sheets, then the magnetic absorption unit is started to remove iron powder on the surfaces of the mica sheets, and the iron powder is collected by a first collection box and a second collection box.
The invention realizes the removal of iron on the surface of the mica sheet, firstly separates the adhered mica sheets, and then uses the magnet to adsorb the iron powder, thereby ensuring that the mica and the iron removal are not damaged in the iron removal process, and removing the iron powder cleanly.
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 tiling unit according to the present invention;
FIG. 4 is a schematic perspective view of a first embodiment of the separation unit of the present invention;
FIG. 5 is a schematic diagram of a second three-dimensional structure of the separation unit of the present invention;
FIG. 6 is an enlarged view of the invention at A;
FIG. 7 is a schematic perspective view of a first magnetic attraction unit according to the present invention;
fig. 8 is a schematic perspective view of a second magnetic attraction unit according to the present invention.
Labeled as: 1-a chassis, 2-a tiling unit, 3-a separation unit, 4-a magnetic attraction unit, 5-a control screen, 6-a first collection box, 7-a second collection box, 8-a pillar, 9-a non-slip mat, 10-a first support, 11-a second support, 201-a first drive wheel, 202-a second drive wheel, 203-a first drive rod, 204-a third drive wheel, 205-a fourth drive wheel, 206-a second drive rod, 207-a missing tooth gear, 208-a first straight gear, 209-a first lead screw, 2010-a torsion spring, 2011-a first electric slider, 2012-a second electric slider, 2013-a first electric slide rail, 2014-a second electric slide rail, 2015-a tiling plate, 2016-a first polish rod, 301-a third electric slider, 302-third electric slide rail, 303-separating plate, 304-bottom frame, 305-material frame, 306-fourth electric slide block, 307-straight slide block, 308-straight slide rail, 309-slotted plate, 3010-first bevel gear, 3011-second bevel gear, 3012-third transmission rod, 3013-worm, 3014-worm gear, 3015-fourth transmission rod, 3016-rotating disc, 3017-convex rod, 3018-third connecting plate, 3019-third electric push rod, 3020-third rod sleeve, 401-motor, 402-fifth transmission rod, 403-fifth transmission wheel, 404-first rod sleeve, 405-first connecting plate, 406-first electric push rod, 407-second straight gear, 408-internal gear, 409-sixth transmission rod, 4010-third straight gear, 4011-fourth straight gear, 4012-seventh transmission rod, 4013-fifth electric slide block, 4014-connecting frame, 4015-second screw rod, 4016-second polished rod, 4017-third bevel gear, 4018-first electromagnet plate, 4019-second electromagnet plate, 4020-eighth transmission rod, 4021-second rod sleeve, 4022-second connecting plate, 4023-second electric push rod, 4024-fourth bevel gear, 4025-fifth bevel gear, 4026-sixth transmission wheel and 4027-fourth electric slide rail.
Detailed Description
The invention will be further described with reference to examples of embodiments shown in the drawings to which the invention is attached.
Example 1
A mica sheet deironing device capable of completely deironing is shown in figures 1-8 and comprises a bottom frame 1, a tiling unit 2, a separating unit 3, a magnetic attraction unit 4, a control screen 5, a first collecting box 6, a second collecting box 7, a support column 8, an anti-skid pad 9, a first support 10 and a second support 11; the underframe 1 is connected with the tiling unit 2; the chassis 1 is connected with the separation unit 3; the underframe 1 is connected with the magnetism suction unit 4; the underframe 1 is connected with a control screen 5; the underframe 1 is connected with a first collecting box 6; the underframe 1 is connected with a second collecting box 7; the underframe 1 is connected with a pillar 8; the underframe 1 is connected with a first bracket 10; the underframe 1 is connected with a second bracket 11; the tiling unit 2 is connected with the magnetic absorption unit 4; the tiling unit 2 is connected with the first support 10; the tiling unit 2 is connected with the second bracket 11; the separation unit 3 is connected with the magnetic attraction unit 4; the post 8 is connected to a non-slip mat 9.
When the mica sheet deironing device is used, the mica sheet deironing device with thorough deironing is placed at a position to be used, the support column 8 is adjusted to enable the bottom frame 1 to be horizontal, the lower part of the support column 8 is connected with the anti-skid pad 9 to play a role in skid resistance, then the device is externally connected with a power supply, and the device is controlled to be started through the control screen 5; firstly, mica sheets are placed in a material frame 305 of a separation unit 3, a magnetic absorption unit 4 is linked with a tiling unit 2 connected with a first support 10 and a second support 11 to tile the mica sheets in the material frame 305, then the magnetic absorption unit 4 is linked with the separation unit 3 to separate the mica sheets which are bonded together, then the magnetic absorption unit 4 is started to remove iron powder on the surfaces of the mica sheets, and the iron powder is collected by a first collection box 6 and a second collection box 7; the invention realizes the removal of iron on the surface of the mica sheet, firstly separates the adhered mica sheets, and then uses the magnet to adsorb the iron powder, thereby ensuring that the mica and the iron removal are not damaged in the iron removal process, and removing the iron powder cleanly.
According to the invention, the tiling unit 2 comprises a first driving wheel 201, a second driving wheel 202, a first driving rod 203, a third driving wheel 204, a fourth driving wheel 205, a second driving rod 206, a tooth-missing gear 207, a first straight gear 208, a first lead screw 209, a torsion spring 2010, a first electric slider 2011, a second electric slider 2012, a first electric slide rail 2013, a second electric slide rail 2014, a tiling plate 2015 and a first polished rod 2016; the first driving wheel 201 is connected with the magnetic attraction unit 4; the outer ring surface of the first transmission wheel 201 is in transmission connection with a second transmission wheel 202 through a belt; the inner axis of the second driving wheel 202 is fixedly connected with the first driving rod 203; the outer surface of the first transmission rod 203 is fixedly connected with a third transmission wheel 204; the outer surface of the first transmission rod 203 is rotationally connected with the underframe 1; the outer annular surface of the third driving wheel 204 is in driving connection with a fourth driving wheel 205 through a belt; the inner axis of the fourth transmission wheel 205 is fixedly connected with the second transmission rod 206; the outer surface of the second transmission rod 206 is fixedly connected with the gear with missing teeth 207; the outer surface of the second transmission rod 206 is rotationally connected with the underframe 1; a first straight gear 208 is arranged above the gear with missing teeth 207; the inner axis of the first straight gear 208 is fixedly connected with a first screw rod 209; the first lead screw 209 is fixedly connected with the torsion spring 2010; the outer surface of the first lead screw 209 is rotationally connected with a first electric slider 2011; the outer surface of the first screw rod 209 is rotationally connected with a second electric slider 2012; the outer surface of the first screw rod 209 is connected with four groups of tiled plates 2015 in a rotating manner; the torsion spring 2010 is fixedly connected with the first electric slider 2011; the first electric slider 2011 is connected with the first electric slide rail 2013 in a sliding manner; the first electric slide rail 2013 is fixedly connected with the underframe 1; the first electric slide rail 2013 is connected with the second bracket 11; the second electric slider 2012 is connected with the second electric slide rail 2014 in a sliding manner; the second electric slide rail 2014 is fixedly connected with the underframe 1; the second electric slide rail 2014 is connected with the first bracket 10; the four sets of tiled plates 2015 are slidably connected with the first polish rod 2016; the first polish rod 2016 is fixedly connected with the first electric slider 2011; the first polish rod 2016 is fixedly connected to the second power slider 2012.
Firstly, mica sheets are placed in a material frame 305 of a separation unit 3, then a first electric slide block 2011 and a second electric slide block 2012 are started to respectively slide downwards in a first electric slide rail 2013 and a second electric slide rail 2014 and drive connected parts to move downwards, the parts are moved downwards until a toothed part of a tooth-lacking gear 207 can be meshed with a first straight gear 208, meanwhile, four groups of flat plates 2015 extend into the material frame 305, the distance between the four groups of flat plates and the bottom surface of the material frame 305 is consistent with the thickness of one mica sheet, meanwhile, a magnetic absorption unit 4 is linked with a first transmission wheel 201 to drive a second transmission wheel 202 to rotate, the second transmission wheel 202 drives a first transmission rod 203 to drive a third transmission wheel 204 to rotate, the third transmission wheel 204 drives a fourth transmission wheel 205 to drive a second transmission rod 206 to rotate, the second transmission rod 206 drives the tooth-lacking gear 207 to rotate, the tooth-lacking gear 207 rotates until a toothed part is meshed with the first straight gear 208 to drive the first straight gear 208 to rotate, the first straight gear 208 drives a first screw rod 209 to rotate, the first lead screw 209 drives the flat slab 2015 to slide on the first polish rod 2016, the first lead screw 209 further drives the torsion spring 2010 to rotate, when the tooth-lacking gear 207 rotates until the tooth part is separated from the first straight gear 208, the tooth-lacking gear 207 does not drive the first straight gear 208 to rotate any more, the first lead screw 209 reversely rotates due to the elastic force of the torsion spring 2010, and then the flat slab 2015 reversely slides, so that the flat slab 2015 repeatedly slides back and forth, mica sheets in the material frame 305 are pushed back and forth during the reciprocating sliding, so that the mica sheets are flatly laid on the material frame 305, if iron powder falls off in the pushing process, the iron powder can be collected by the first collecting box 6 below, and after the laying, the first electric slider 2011 and the second electric slider 2012 are started to move upwards again for resetting; the unit realizes the tiling of the mica sheets on the material frame 305, and is convenient for subsequent treatment of the mica sheets.
According to the invention, the separation unit 3 comprises a third electric slider 301, a third electric slide rail 302, a separation plate 303, a bottom frame 304, a material frame 305, a fourth electric slider 306, a straight slider 307, a straight slide rail 308, a slotted plate 309, a first bevel gear 3010, a second bevel gear 3011, a third transmission rod 3012, a worm 3013, a worm gear 3014, a fourth transmission rod 3015, a rotating disc 3016, a convex rod 3017, a third connecting plate 3018, a third electric push rod 3019 and a third rod sleeve 3020; the third electric sliding block 301 is connected with the third electric sliding rail 302 in a sliding manner; the third electric slide block 301 is fixedly connected with the five groups of separating plates 303; the third electric slide rail 302 is fixedly connected with the underframe 1; a bottom frame 304 is arranged on the side edge of the separating plate 303; a material frame 305 is arranged above the bottom frame 304; the bottom frame 304 is in sliding connection with the fourth electric sliding block 306; the bottom frame 304 is fixedly connected with a straight sliding block 307; the straight sliding block 307 is connected with the straight sliding rail 308 in a sliding way; the straight slide rail 308 is fixedly connected with the underframe 1; the straight sliding block 307 is fixedly connected with a groove plate 309; the slot plate 309 is connected with the protruding rod 3017; a second bevel gear 3011 is arranged above the side surface of the first bevel gear 3010; the inner axis of the first bevel gear 3010 is fixedly connected with the third rod sleeve 3020; the outer surface of the third rod sleeve 3020 is rotatably connected with the third connecting plate 3018; the third rod sleeve 3020 is connected to the magnetism suction unit 4; the third connecting plate 3018 is fixedly connected to the third electric push rod 3019; the third electric push rod 3019 is fixedly connected with the underframe 1; the inner axis of the second bevel gear 3011 is fixedly connected with a third transmission rod 3012; the outer surface of the third transmission rod 3012 is fixedly connected with the worm 3013; the outer surface of the third transmission rod 3012 is rotatably connected with the underframe 1; the worm 3013 is engaged with the worm gear 3014; the axis inside the worm gear 3014 is fixedly connected with the fourth transmission rod 3015; the outer surface of the fourth transmission rod 3015 is fixedly connected with the rotating disc 3016; the outer surface of the fourth transmission rod 3015 is rotatably connected with the underframe 1; the outer edge of the end face of the rotary disc 3016 is fixedly connected with the convex rod 3017.
When the tiling unit 2 tiles mica sheets on the material frame 305, the fourth electric slider 306 starts to slide down on the bottom frame 304, so as to block five slots on the material frame 305, thereby preventing the mica sheets from leaking, after the tiling is finished, the fourth electric slider 306 moves up, the third electric slider 301 starts to slide on the third electric slide rail 302 in the direction of the material frame 305 to drive the separating plate 303 to move until the separating plate 303 is inserted into the material frame 305 through five slots on the material frame 305, then the third electric push rod 3019 starts to drive the third connecting plate 3018 to move, the third connecting plate 3018 drives the third rod sleeve 3020 to slide on the eighth transmission rod 4020, the first bevel gear 3010 follows the third rod sleeve 3020 to move until the first bevel gear 3010 meshes with the second bevel gear 3011, the magnetic absorption unit 4 drives the third rod sleeve 3020 to drive the first bevel gear 3010 to rotate, the second bevel gear 3011 drives the third transmission rod sleeve 3012 to rotate, the worm 3013 drives the worm gear 3014 to drive the fourth transmission rod 3015 to rotate, the fourth transmission rod 3015 drives the rotary disk 3016 to rotate, the rotary disk 3016 makes a circular track motion through the convex rod 3017, meanwhile, the convex rod 3017 slides in the slot plate 309, and further drives the slot plate 309 to reciprocate through the circular track motion of the convex rod 3017, the slot plate 309 drives the straight slider 307 to reciprocate on the straight sliding rail 308, the bottom frame 304, the material frame 305 and the fourth electric slider 306 move along the straight slider 307, the material frame 305 drives the mica sheets inside to reciprocate when moving, the distance between the five groups of separating plates 303 is consistent with the thickness of one mica sheet, when the mica sheets stuck together pass through the separating plates 303 in a reciprocating manner, the separating plates 303 are inserted between the mica sheets, so that the mica sheets stuck together are separated into independent mica sheets, if the iron powder falls down independently, the first collecting box 6 can be collected by the second cone, after separation, the third electric push rod 3019 is started again to separate the first bevel gear 3010 from the gear 3011, the third electric slide block 301 is started again to withdraw the separating plate 303 from the material frame 305, and the tiling unit 2 is started again to tile the separated mica sheets in the material frame 305; the unit realizes the separation of mica sheets which are adhered together, and is convenient for removing surface iron.
In the invention, the magnetic absorption unit 4 comprises a motor 401, a fifth transmission rod 402, a fifth transmission wheel 403, a first rod sleeve 404, a first connecting plate 405, a first electric push rod 406, a second straight gear 407, an internal gear 408, a sixth transmission rod 409, a third straight gear 4010, a fourth straight gear 4011, a seventh transmission rod 4012, a fifth electric slide block 4013, a connecting frame 4014, a second screw 4015, a second polish rod 4016, a third conical gear 4017, a first electromagnet plate 4018, a second electromagnet plate 4019, an eighth transmission rod 4020, a second rod sleeve 4021, a second connecting plate 4022, a second electric push rod 4023, a fourth conical gear 4024, a fifth conical gear 4025, a sixth transmission wheel 4026 and a fourth electric slide rail 4027; an output shaft of the motor 401 is fixedly connected with the fifth transmission rod 402; the motor 401 is fixedly connected with the underframe 1; the outer surface of the fifth transmission rod 402 is fixedly connected with a fifth transmission wheel 403; the outer surface of the fifth transmission rod 402 is slidably connected with the first rod sleeve 404; the outer surface of the fifth transmission rod 402 is rotatably connected with the underframe 1; the outer annular surface of the fifth driving wheel 403 is in transmission connection with a sixth driving wheel 4026 through a belt; the outer surface of the first rod sleeve 404 is rotatably connected with the first connecting plate 405; the first connecting plate 405 is fixedly connected with the first electric push rod 406; the first electric push rod 406 is fixedly connected with the underframe 1; the outer surface of the first rod sleeve 404 is fixedly connected with a second straight gear 407; an inner gear 408 is arranged on the side of the second spur gear 407; the inner axis of the inner gear 408 is fixedly connected with the sixth transmission rod 409; the outer surface of the sixth transmission rod 409 is meshed with the third spur gear 4010; the outer surface of the sixth transmission rod 409 is rotatably connected with the underframe 1; a fourth straight gear 4011 is arranged above the third straight gear 4010; the inner axis of the fourth straight gear 4011 is fixedly connected with a seventh transmission rod 4012; the outer surface of the seventh transmission rod 4012 is rotatably connected with the fifth electric slide block 4013; the outer surface of the seventh transmission rod 4012 is fixedly connected with a connecting frame 4014; the fifth electric sliding block 4013 is in sliding connection with the fourth electric sliding rail 4027; the fourth electric sliding rail 4027 is fixedly connected with the underframe 1; the connecting frame 4014 is rotatably connected with a second screw 4015; the connecting frame 4014 is fixedly connected with the second polish rod 4016; the outer surface of the second screw rod 4015 is fixedly connected with a third bevel gear 4017; the outer surface of the second screw rod 4015 is screwed with the first electromagnet plate 4018; the outer surface of the second screw rod 4015 is screwed with a second electromagnet plate 4019; the first electromagnet plate 4018 is in sliding connection with the second polish rod 4016; the second electromagnet plate 4019 is in sliding connection with the second polish rod 4016; the inner axis of the sixth transmission wheel 4026 is fixedly connected with the eighth transmission rod 4020; the outer surface of the eighth transmission rod 4020 is in sliding connection with the second rod sleeve 4021; the outer surface of the eighth transmission rod 4020 is rotatably connected with the underframe 1; the outer surface of the eighth transmission rod 4020 is fixedly connected with the first transmission wheel 201; the outer surface of the eighth transmission rod 4020 is in sliding connection with the third rod sleeve 3020; the outer surface of the second rod sleeve 4021 is rotatably connected with the second connecting plate 4022; the outer surface of the second rod sleeve 4021 is fixedly connected with a fifth bevel gear 4025; the outer surface of the second rod sleeve 4021 is fixedly connected with a fourth bevel gear 4024; the second connecting plate 4022 is fixedly connected with a second electric push rod 4023; the second electric push rod 4023 is fixedly connected with the underframe 1.
After the mica sheets stuck together are separately tiled on the material frame 305, the fifth electric slide block 4013 starts to slide on the fourth electric slide rail 4027 to drive the connected parts to move, and moves to a position where the third bevel gear 4017 is located between the fourth bevel gear 4024 and the fifth bevel gear 4025, at this time, the second electromagnet plate 4019 and the first electromagnet plate 4018 are located on the upper side and the lower side of the material frame 305, then the second electric push rod 4023 starts to drive the second connecting plate 4022 to move, the second connecting plate 4022 drives the second rod sleeve 4021 to slide on the eighth transmission rod 4020, the fourth bevel gear 4024 and the fifth bevel gear 4025 follow the second rod sleeve 4021 to move to a position where the fourth bevel gear 4024 is engaged with the third bevel gear 4017, the motor 401 starts to drive the fifth transmission rod 402 to drive the fifth transmission wheel 403 to rotate the first rod sleeve 404, the fifth transmission wheel 403 drives the sixth transmission wheel 4026 to drive the eighth transmission rod 4020 to rotate, and the eighth transmission rod 4020 drives the second rod sleeve 4021 to drive the fourth bevel gear 4024 and the fifth bevel gear to rotate, the eighth transmission rod 4020 further drives the first transmission wheel 201 and the third rod sleeve 3020 to rotate, the fourth bevel gear 4024 drives the third bevel gear 4017 to drive the second lead screw 4015 to rotate, the second lead screw 4015 drives the first electromagnet plate 4018 and the second electromagnet plate 4019 to slide in opposite directions on the second polished rod 4016, the first electromagnet plate 4018 and the second electromagnet plate 4019 are electrified before sliding to make the two magnetic, the first electromagnet plate 4018 and the second electromagnet plate 4019 slide in opposite directions until the second electromagnet plate 4019 contacts with the upper surface of the mica sheet to adsorb iron on the upper surface of the mica sheet, the first electromagnet plate 4018 contacts with the lower surface of the material frame 305, a hole slot is arranged on the material frame 305, the iron on the lower surface of the mica sheet can be adsorbed through the hole slot, then the second electric push rod 4023 is started again to make the fifth bevel gear 4025 mesh with the third bevel gear 4017, the third bevel gear 4017 becomes driven by the fifth bevel gear 4025 to rotate, the electromagnet, the rotation is opposite to the previous electromagnet, and further the first plate 4018 and the second plate 4019 move in opposite directions to reset, then the fifth electric slide block 4013 is started again to drive the connected parts to move back, the parts move until the third straight gear 4010 is meshed with the fourth straight gear 4011, then the first electric push rod 406 is started to drive the first connecting plate 405 to move, the first connecting plate 405 moves to drive the first rod sleeve 404 to slide on the fifth transmission rod 402, the second straight gear 407 moves along with the first rod sleeve 404, the parts move until the second straight gear 407 is meshed with the internal gear 408, the first rod sleeve 404 drives the second straight gear 407 to drive the internal gear 408 to rotate, the internal gear 408 drives the sixth transmission rod 409 to drive the third straight gear 4010 to rotate, the third straight gear 4010 drives the fourth straight gear 4011 to drive the seventh transmission rod 4012 to rotate, the seventh transmission rod 4012 drives the connecting frame 4014 to rotate, the internal gear 408 stops after the internal gear rotates ninety degrees, so that the first electromagnet plate 4018 and the second plate 4019 are perpendicular to the second electromagnet collection box 7, and then the electricity of the first electromagnet plate 4018 and the second electromagnet plate 4019 is cut off to make the magnetism lost, the iron powder slides down from the first electromagnet plate 4018 and the second electromagnet plate 4019 and falls into the second collection box 7 for collection, and after the iron powder is removed, the material frame 305 is lifted out from the bottom frame 304 by workers to collect mica sheets; this unit has realized getting rid of to the iron powder.
In the invention, the distance between the five groups of separating plates 303 is consistent with the thickness of one mica sheet.
The separation of the mica sheets stuck together can be facilitated.
In the invention, the surface of the material frame 305 is provided with holes distributed in a rectangular array, and both sides of the material frame are provided with grips.
The iron powder on the lower surface of the mica sheet can be conveniently removed, and the material frame 305 can be conveniently lifted by workers.
In the invention, the direction of the screw thread at the joint of the second screw 4015 and the first electromagnet plate 4018 and the second electromagnet plate 4019 is opposite.
The first electromagnet plate 4018 and the second electromagnet plate 4019 can be driven to move toward or away from each other.
In the invention, the outer ring surface of the connecting part of the fifth transmission rod 402 and the first rod sleeve 404, and the outer ring surface of the connecting part of the eighth transmission rod 4020 and the second rod sleeve 4021 and the third rod sleeve 3020 are all provided with straight tangent planes.
The first rod cover 404 can slide on and be driven to rotate by the fifth transmission rod 402, the second rod cover 4021 can slide on and be driven to rotate by the eighth transmission rod 4020, and the third rod cover 3020 can slide on and be driven to rotate by the eighth transmission rod 4020.
The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.
Claims (8)
1. A mica sheet deironing device capable of completely deironing comprises a bottom frame (1), a control screen (5), a first collecting box (6), a second collecting box (7), a support column (8), an anti-skid pad (9), a first support (10) and a second support (11), and is characterized by further comprising a tiling unit (2), a separating unit (3) and a magnetism absorbing unit (4); the bottom frame (1) is connected with the tiling unit (2); the underframe (1) is connected with the separation unit (3); the underframe (1) is connected with the magnetic unit (4); the underframe (1) is connected with the control screen (5); the underframe (1) is connected with the first collecting box (6); the underframe (1) is connected with the second collecting box (7); the underframe (1) is connected with the support column (8); the underframe (1) is connected with a first bracket (10); the underframe (1) is connected with a second bracket (11); the tiling unit (2) is connected with the magnetic absorption unit (4); the flat laying unit (2) is connected with the first support (10); the flat laying unit (2) is connected with the second support (11); the separation unit (3) is connected with the magnetic absorption unit (4); the support (8) is connected with the non-slip mat (9).
2. The mica sheet iron removal device capable of removing iron completely according to claim 1, wherein the tiling unit (2) comprises a first driving wheel (201), a second driving wheel (202), a first driving rod (203), a third driving wheel (204), a fourth driving wheel (205), a second driving rod (206), a tooth-missing gear (207), a first straight gear (208), a first lead screw (209), a torsion spring (2010), a first electric slider (2011), a second electric slider (2012), a first electric slide rail (2013), a second electric slide rail (2014), a tiling plate (2015) and a first polish rod (2016); the first driving wheel (201) is connected with the magnetic attraction unit (4); the outer ring surface of the first transmission wheel (201) is in transmission connection with a second transmission wheel (202) through a belt; the inner axis of the second transmission wheel (202) is fixedly connected with the first transmission rod (203); the outer surface of the first transmission rod (203) is fixedly connected with a third transmission wheel (204); the outer surface of the first transmission rod (203) is rotationally connected with the underframe (1); the outer ring surface of the third driving wheel (204) is in transmission connection with a fourth driving wheel (205) through a belt; the inner axle center of the fourth driving wheel (205) is fixedly connected with a second driving rod (206); the outer surface of the second transmission rod (206) is fixedly connected with the gear with missing teeth (207); the outer surface of the second transmission rod (206) is rotationally connected with the underframe (1); a first straight gear (208) is arranged above the gear (207) with missing teeth; the inner axis of the first straight gear (208) is fixedly connected with a first screw rod (209); the first screw rod (209) is fixedly connected with the torsion spring (2010); the outer surface of the first screw rod (209) is rotationally connected with a first electric slider (2011); the outer surface of the first screw rod (209) is rotationally connected with a second electric slider (2012); the outer surface of the first screw rod (209) is connected with four groups of flat plates (2015) in a rotating mode; the torsion spring (2010) is fixedly connected with the first electric slide block (2011); the first electric slider (2011) is in sliding connection with the first electric slide rail (2013); the first electric sliding rail (2013) is fixedly connected with the underframe (1); the first electric slide rail (2013) is connected with the second bracket (11); the second electric sliding block (2012) is connected with the second electric sliding rail (2014) in a sliding manner; the second electric slide rail (2014) is fixedly connected with the underframe (1); the second electric slide rail (2014) is connected with the first bracket (10); the four groups of flat plates (2015) are in sliding connection with the first polish rod (2016); the first polish rod (2016) is fixedly connected with the first electric slider (2011); the first polish rod (2016) is fixedly connected with the second electric slider (2012).
3. The mica sheet deironing device capable of completely deironing as claimed in claim 2, wherein the separation unit (3) comprises a third electric slide block (301), a third electric slide rail (302), a separation plate (303), a bottom frame (304), a material frame (305), a fourth electric slide block (306), a straight slide block (307), a straight slide rail (308), a slot plate (309), a first bevel gear (3010), a second bevel gear (3011), a third transmission rod (3012), a worm (3013), a worm gear (3014), a fourth transmission rod (3015), a rotating disc (3016), a convex rod (3017), a third connecting plate (3018), a third electric push rod (3019) and a third rod sleeve (3020); the third electric sliding block (301) is in sliding connection with the third electric sliding rail (302); the third electric slide block (301) is fixedly connected with the five groups of separating plates (303); the third electric slide rail (302) is fixedly connected with the chassis (1); a bottom frame (304) is arranged on the side edge of the separating plate (303); a material frame (305) is arranged above the bottom frame (304); the bottom frame (304) is in sliding connection with the fourth electric slide block (306); the bottom frame (304) is fixedly connected with a straight sliding block (307); the straight sliding block (307) is in sliding connection with the straight sliding rail (308); the straight slide rail (308) is fixedly connected with the bottom frame (1); the straight sliding block (307) is fixedly connected with the groove plate (309); the groove plate (309) is connected with the convex rod (3017); a second bevel gear (3011) is arranged above the side surface of the first bevel gear (3010); the inner axis of the first bevel gear (3010) is fixedly connected with a third rod sleeve (3020); the outer surface of the third rod sleeve (3020) is rotatably connected with the third connecting plate (3018); the third rod sleeve (3020) is connected with the magnetic absorption unit (4); the third connecting plate (3018) is fixedly connected with a third electric push rod (3019); the third electric push rod (3019) is fixedly connected with the underframe (1); the inner axis of the second bevel gear (3011) is fixedly connected with a third transmission rod (3012); the outer surface of the third transmission rod (3012) is fixedly connected with the worm (3013); the outer surface of the third transmission rod (3012) is rotatably connected with the underframe (1); the worm (3013) is meshed with the worm wheel (3014); the inner axis of the worm wheel (3014) is fixedly connected with a fourth transmission rod (3015); the outer surface of the fourth transmission rod (3015) is fixedly connected with the rotating disc (3016); the outer surface of the fourth transmission rod (3015) is rotatably connected with the underframe (1); the outer edge of the end face of the rotary disc (3016) is fixedly connected with the convex rod (3017).
4. The mica sheet deironing device capable of completely deironing as claimed in claim 3, wherein the magnetic absorption unit (4) comprises a motor (401), a fifth transmission rod (402), a fifth transmission wheel (403), a first rod sleeve (404), a first connecting plate (405), a first electric push rod (406), a second straight gear (407), an internal gear (408), a sixth transmission rod (409), a third straight gear (4010), a fourth straight gear (4011), a seventh transmission rod (4012), a fifth electric slider (4013), a connecting frame (4014), a second screw rod (4015), a second polish rod (4016), a third bevel gear (4017), a first electromagnetic plate (4018), a second electromagnetic plate (4019), an eighth transmission rod (4020), a second rod sleeve (4021), a second connecting plate (4022), a second electric push rod (4023), a fourth bevel gear (4024), a fifth bevel gear (4025), A sixth driving wheel (4026) and a fourth electric sliding rail (4027); an output shaft of the motor (401) is fixedly connected with a fifth transmission rod (402); the motor (401) is fixedly connected with the chassis (1); the outer surface of the fifth transmission rod (402) is fixedly connected with a fifth transmission wheel (403); the outer surface of the fifth transmission rod (402) is in sliding connection with the first rod sleeve (404); the outer surface of the fifth transmission rod (402) is rotatably connected with the underframe (1); the outer ring surface of the fifth driving wheel (403) is in transmission connection with a sixth driving wheel (4026) through a belt; the outer surface of the first rod sleeve (404) is rotatably connected with the first connecting plate (405); the first connecting plate (405) is fixedly connected with the first electric push rod (406); the first electric push rod (406) is fixedly connected with the chassis (1); the outer surface of the first rod sleeve (404) is fixedly connected with a second straight gear (407); an internal gear (408) is arranged on the side edge of the second straight gear (407); the inner axis of the internal gear (408) is fixedly connected with a sixth transmission rod (409); the outer surface of the sixth transmission rod (409) is meshed with the third straight gear (4010); the outer surface of the sixth transmission rod (409) is rotatably connected with the underframe (1); a fourth straight gear (4011) is arranged above the third straight gear (4010); the inner axis of the fourth straight gear (4011) is fixedly connected with a seventh transmission rod (4012); the outer surface of the seventh transmission rod (4012) is rotatably connected with the fifth electric slide block (4013); the outer surface of the seventh transmission rod (4012) is fixedly connected with the connecting frame (4014); the fifth electric sliding block (4013) is in sliding connection with the fourth electric sliding rail (4027); the fourth electric sliding rail (4027) is fixedly connected with the bottom frame (1); the connecting frame (4014) is rotationally connected with the second screw rod (4015); the connecting frame (4014) is fixedly connected with the second polish rod (4016); the outer surface of the second screw rod (4015) is fixedly connected with a third bevel gear (4017); the outer surface of the second screw rod (4015) is connected with the first electromagnet plate (4018) in a screwing way; the outer surface of the second screw rod (4015) is connected with a second electromagnet plate (4019) in a screwing way; the first electromagnet plate (4018) is in sliding connection with the second polished rod (4016); the second electromagnet plate (4019) is in sliding connection with the second polish rod (4016); the inner axle center of the sixth transmission wheel (4026) is fixedly connected with the eighth transmission rod (4020); the outer surface of the eighth transmission rod (4020) is in sliding connection with the second rod sleeve (4021); the outer surface of the eighth transmission rod (4020) is rotationally connected with the underframe (1); the outer surface of the eighth transmission rod (4020) is fixedly connected with the first transmission wheel (201); the outer surface of the eighth transmission rod (4020) is in sliding connection with the third rod sleeve (3020); the outer surface of the second rod sleeve (4021) is rotationally connected with the second connecting plate (4022); the outer surface of the second rod sleeve (4021) is fixedly connected with a fifth bevel gear (4025); the outer surface of the second rod sleeve (4021) is fixedly connected with a fourth bevel gear (4024); the second connecting plate (4022) is fixedly connected with the second electric push rod (4023); the second electric push rod (4023) is fixedly connected with the bottom frame (1).
5. The deironing device for the mica sheets with complete deironing is characterized in that the distance between the five groups of separating plates (303) is consistent with the thickness of one mica sheet.
6. The deironing device for the mica sheets with complete deironing as claimed in claim 5, characterized in that the surface of the material frame (305) is provided with holes and grooves distributed in a rectangular array and the two sides are provided with handles.
7. The deironing device for the mica sheets with complete deironing of claim 6, wherein the direction of the screw thread at the joint of the second screw rod (4015) and the first electromagnet plate (4018) and the second electromagnet plate (4019) is opposite.
8. The deironing device for mica sheets with complete deironing as claimed in claim 7, characterized in that the outer ring surface of the fifth transmission rod (402) connected with the first rod sleeve (404) and the outer ring surface of the eighth transmission rod (4020) connected with the second rod sleeve (4021) and the third rod sleeve (3020) are all provided with straight tangent planes.
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| CN202110515109.9A CN113414002B (en) | 2021-05-12 | 2021-05-12 | Mica sheet deironing device with thorough deironing |
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| CN202110515109.9A CN113414002B (en) | 2021-05-12 | 2021-05-12 | Mica sheet deironing device with thorough deironing |
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