CN117067433A - Open mill and application method thereof - Google Patents

Abstract

The invention belongs to the technical field of open mills, in particular to an open mill and a use method thereof, when the existing open mill is used, the space between two rollers can be adjusted according to different production requirements, but the dropped crushed aggregates can not be cleaned during adjustment, so that extra manpower is required for working, the working intensity and the burden of personnel are increased, and the open mill efficiency is reduced; the open mill comprises a plurality of struts, the struts are connected with the linkage square box together, and the linkage square box is connected with the drawing sliding block through an interval distance adjusting unit; the drawing sliding block is provided with a drawing square plate, one side of the drawing square plate is provided with a pull ring, and the other side of the drawing square plate is provided with a sticking transverse plate; through scraping clear mechanism to the past for the mill can clear up the crushed aggregates that drops on the traverse plate of pasting when adjusting the interval, avoids needing extra manpower to go work, has promoted the result of use of mill when reducing personnel working strength.

Description

Open mill and application method thereof

Technical Field

The invention belongs to the technical field of open mills, and particularly relates to an open mill and a use method thereof.

Background

The open mill has two rollers arranged horizontally, and a mill for rubber (plastic) is arranged between the two rollers. It mainly comprises a roller, a frame, a distance adjusting device, a transmission device and the like. The materials are pulled into the roller gap between two rollers which rotate in opposite directions at different linear speeds under the action of friction force, and the frame cylinder materials are subjected to strong shearing and extrusion through the roller gap, so that the temperature of the materials is increased and the plasticity is increased, thereby achieving the purpose of rubber mixing and being used for operations such as plasticating, mixing, tabletting, hot refining and the like.

When two rollers of gyration in opposite directions are carrying out the rubber mixing to the material, have the part not glueing the crushed aggregates on the roller and drop on the mesa, lead to current mill when using, although can be according to the difference of production needs go the interval between two rollers of adjustment, but can not clear up the crushed aggregates that drops when the adjustment, lead to needing extra manpower frequently to go work, when increasing personnel's working strength and burden, reduced the efficiency of mill.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides an open mill and a use method thereof, which effectively solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: an open mill comprises a plurality of struts, wherein the struts are connected with a linkage square box together, and the linkage square box is connected with a drawing sliding block through a spacing adjustment unit; the drawing sliding block is provided with a drawing square plate, one side of the drawing square plate is provided with a pull ring, the other side of the drawing square plate is provided with a pasting transverse plate, the pasting transverse plate is symmetrically provided with collecting square grooves, and the collecting square grooves are connected with the winding cover assembly; the drawing square plate is fixedly provided with a linkage bolt seat which is connected with the scraping mechanism.

Preferably, the up-to-down scraping mechanism comprises a rope arranged on a linkage bolt seat, the rope is connected with a reel, a linkage rotating shaft is arranged on the reel, one end of the linkage rotating shaft passes through a linkage base arranged on a linkage square box and then is connected with a first spring, the other end of the linkage rotating shaft is connected with a cam, the cam is matched and connected with a linkage transverse block, linkage rods are symmetrically arranged on the linkage transverse block, and the linkage rods pass through a cleaning base arranged on the linkage square box and then are connected with a linkage circular plate; the linkage rod is sleeved with a linkage spring, one end of the linkage spring is fixedly connected with the linkage transverse block, and the other end of the linkage spring is fixedly connected with the cleaning base.

Preferably, the two linked circular plates are connected with a linked splint together, one side of the linked splint is provided with a linked rack, and the linked rack is connected with the combined cleaning unit; the other side is symmetrically provided with a linkage different plate, a plurality of linkage different plates are connected with the scraper, and the scraper is connected with the pasting transverse plate in a matched manner.

Preferably, the rolling cover assembly comprises rolling rotating shafts symmetrically arranged in the collection square groove, one end of each rolling rotating shaft is connected with the corresponding cover square plate, the other end of each rolling rotating shaft is connected with the corresponding cover different block, the corresponding cover different block is connected with the corresponding cover different rod in a sliding manner, and two ends of the corresponding cover different rod are fixedly connected with the corresponding cover base arranged on the corresponding movable transverse plate; the cover closing different rod is sleeved with a cover closing spring, one end of the cover closing spring is fixedly connected with the cover closing base, and the other end of the cover closing spring is fixedly connected with the cover closing different block.

Preferably, the combined cleaning unit comprises a linkage gear which is in meshed connection with a linkage rack, a combined motion rotating shaft is arranged on the linkage gear, one end of the combined motion rotating shaft is in transmission connection with a combined motion base arranged on a cleaning base, the other end of the combined motion rotating shaft is connected with a combined motion disc, a combined motion ram is arranged on the combined motion disc, and the combined motion ram is connected with a rectangular groove arranged on a rectangular block; rectangular rods are symmetrically arranged on one side of the rectangular block and are in sliding connection with a rectangular base arranged on the double-acting base, rectangular springs are sleeved on the rectangular rods, one ends of the rectangular springs are connected with the rectangular base, and the other ends of the rectangular springs are connected with the rectangular plate; the other side is provided with a double-acting square plate, the double-acting square plate is provided with a lubricating pad, the lubricating pad is connected with a plurality of square L rods in a matched manner, the square L rods are connected with a circular scraping ring, and the circular scraping ring is connected with a directional open mill mechanism in a matched manner; guide rods are symmetrically arranged on the circular scraping ring, and penetrate through a guide base arranged on the refining base to be connected with a guide circular plate; the guide rod is sleeved with a guide spring, one end of the guide spring is connected with the guide circular plate, and the other end of the guide spring is connected with the guide base; the guide rod is provided with a limiting round block, the limiting round block and the guide base are provided with a contact piece, and the contact piece is connected with a driving force throwing assembly arranged on the control box.

Preferably, the interval adjusting unit comprises a blocking slide plate arranged in the linkage square box, the blocking slide plate is arranged in sliding connection with a blocking slide groove, a blocking rod is arranged in the blocking slide groove, and the blocking rod is arranged in sliding connection with the blocking slide plate; the drawing slide block is internally provided with a guide groove, guide rods are symmetrically arranged on the guide groove, the guide rods are in sliding connection with a guide plate, the guide plate is connected with the guide groove through guide springs, the guide plate is symmetrically provided with an extension fixture, a touch round wheel is arranged on the extension fixture in a transmission manner, and the touch round wheel is connected with a plurality of ladder movable chute arranged on the linkage square box in a matched manner; an extension rod is arranged on the extension fixture, an extension transverse block is slidably arranged on the extension rod, a locking different rod is arranged on the extension transverse block, and the locking different rod is connected with a locking different groove arranged on the ladder moving chute; an extension spring is sleeved on the extension rod, one end of the extension spring is connected with the extension square plate, the other end of the extension spring is connected with the extension transverse block, magnetic sheets are arranged on the extension transverse block and the extension fixture, the extension transverse block and the extension fixture are contacted with each other and are connected with the electric telescopic rod through a control box, and the electric telescopic rod is connected with a telescopic fixed plate arranged on the extension fixture; the output end of the electric telescopic rod is provided with an inserting different rod, and the inserting different rod penetrates through the extension fixture to be connected with the locking different rod in a matched mode.

Preferably, the forward-movement open mill mechanism comprises a mounting plate arranged on a mill movement base, the mounting plate is connected with a driving motor through a bolt, the output end of the driving motor is connected with a driving rotating shaft, the driving rotating shaft is connected with the mill movement base in a transmission way, a pair of mill movement bases are connected with a paste movement cross plate, and the other pair of mill movement bases are connected with a linkage square box; the driving force polishing assembly comprises a mounting seat arranged on the circular scraping ring, and the mounting seat and the mounting block are connected through a quick-release changing mechanism; the installation block is provided with a linkage motor, the output end of the linkage motor is provided with a differential square block, the differential square block is connected with a differential square groove arranged on a matched circular plate, the matched circular plate is provided with a polishing pad, and the polishing pad is connected with a roller arranged on a driving rotating shaft in a matched manner; the mounting seat is provided with a matched bolt seat which is connected with the stirring and crushing assembly.

Preferably, the quick-release changing mechanism comprises an installation slot arranged on the installation block, the installation slot is connected with the installation plugboard, the two installation plugboards are jointly connected with the insertion transverse plate, the insertion transverse plate is symmetrically provided with insertion rods, and the insertion rods are in sliding connection with the insertion base arranged on the installation seat; the inserting spring is sleeved on the inserting rod, one end of the inserting spring is connected with the inserting base, and the other end of the inserting spring is connected with the inserting transverse plate.

Preferably, the stirring and crushing assembly comprises a linkage cable arranged on a matched bolt seat, the linkage cable is connected with an imitation wire wheel through a fixed pulley on a matched base arranged on a matched transverse plate, an auxiliary rotating shaft is arranged on the imitation wire wheel, one end of the auxiliary rotating shaft is connected with a second spring through the matched base, the other end of the auxiliary rotating shaft is connected with an auxiliary bevel gear, the auxiliary bevel gear is meshed with a drive bevel gear, the drive bevel gear is provided with a drive rotating shaft, and the drive rotating shaft is connected with the matched transverse plate; the automatic stirring device is characterized in that a plurality of driven bevel gears are arranged on the driving rotating shaft, the driven bevel gears are connected with the auxiliary bevel gears in a meshed mode, the driven rotating shaft is arranged on the auxiliary bevel gears and is connected with the collection square groove in a transmission mode, and a plurality of stirring rods are arranged on the driven rotating shaft.

The invention also provides a using method of the open mill, which comprises the following steps:

step one, limiting movement of a drawing sliding block in a linkage square box through a pull ring, driving a linkage bolt seat through a drawing square plate by the drawing sliding block, and driving a reel to rotate by the linkage bolt seat through a rope so that a first strip spring is in a buffer state;

step two, the reel drives a cam on the linkage rotating shaft to rotate, and the linkage transverse block moves back and forth on the cleaning base through a linkage rod by means of contact cooperation of the cam and the linkage transverse block, so that the linkage spring is in a buffer and reset state continuously;

step three, the linkage rod drives the linkage clamping plate to reciprocate, and the linkage clamping plate drives the scraper to reciprocate through the linkage different plate, so that the scraper can reciprocally clean the surface of the movable transverse plate;

step four, when the crushed aggregates piled on the movable transverse plates are cleaned by the scraper and moved to two side edges, the two cover closing square plates are limited to rotate in the collecting square groove through the rolling rotating shaft, the rolling rotating shaft is limited to rotate in the cover closing different rod through the cover closing different block, and the cover closing springs are in a buffer state;

and fifthly, the collection square groove is in a non-shielding state, and crushed aggregates enter the collection square groove along with the opening of the two cover closing square plates, so that the crushed aggregates are collected.

Compared with the prior art, the invention has the beneficial effects that: the invention can adjust the interval of the open mill through the interval adjusting unit, meanwhile, the drawing sliding block can move in the linkage square box in a limiting way and drive the drawing square plate to move, the drawing square plate drives the scraping mechanism to reciprocally clean the surface of the open mill through the linkage bolt seat, so that the crushed aggregates can be reciprocally cleaned to the upper part of the collection square groove, the collection square groove can be opened or closed through the winding cover assembly, the crushed aggregates accumulated in the collection square groove can be prevented from being polluted by dust and other matters when the collection square groove is opened, the recovery treatment of the crushed aggregates is facilitated, the waste of resources is avoided, the extra labor is avoided to work, the working strength of personnel is reduced, and the use effect of the open mill is improved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of a double-acting square plate structure;

FIG. 3 is a schematic view of the structure of the traverse plate;

FIG. 4 is a schematic diagram of a configuration of an actuated circular plate;

FIG. 5 is a schematic diagram of a ladder chute;

FIG. 6 is a schematic view of the structure of an auxiliary bevel gear;

FIG. 7 is a schematic view of a roll configuration;

FIG. 8 is a schematic view of a partial enlarged structure at A in FIG. 5;

FIG. 9 is a schematic view of a circular scraping ring structure;

FIG. 10 is a schematic illustration of a linked isopipe structure;

FIG. 11 is a schematic view of a covered square plate structure;

in the figure: 1. a support post; 2. a linkage square box; 3. drawing the sliding block; 4. drawing the square plate; 5. a pull ring; 6. attaching a transverse plate; 7. a square groove is collected; 8. a linkage bolt seat; 9. a rope; 10. a reel; 11. a linkage rotating shaft; 12. a linkage base; 13. a first spring; 14. a cam; 15. a linkage transverse block; 16. a linkage rod; 17. cleaning the base; 18. a linkage circular plate; 19. a linkage spring; 20. a linkage clamping plate; 21. a linkage rack; 22. linkage different plates; 23. a scraper; 24. scrolling the rotating shaft; 25. closing the square plate; 26. closing the cover different block; 27. closing the cover special rod; 28. a cover closing base; 29. a closing spring; 30. a linkage gear; 31. a double-acting rotating shaft; 32. a double-acting base; 33. a double-acting disc; 34. the ram is moved repeatedly; 35. rectangular blocks; 36. rectangular grooves; 37. a rectangular bar; 38. a rectangular base; 39. a rectangular spring; 40. a rectangular plate; 41. double-acting square plates; 42. a lubricating pad; 43. square L-shaped rod; 44. a circular scraping ring; 45. a guide rod; 46. refining a base; 47. a guide base; 48. a guide circular plate; 49. a guide spring; 50. limiting round blocks; 51. a contact; 52. a blocking slide plate; 53. a blocking chute; 54. a blocking lever; 55. a guide groove; 56. a guide rod; 57. a guide plate; 58. a guide spring; 59. extending the clamp; 60. touching the round wheel; 61. a ladder movable chute; 62. an extension rod; 63. extending the transverse block; 64. locking the different rod; 65. locking the different grooves; 66. an extension spring; 67. an extension plate; 68. a magnetic sheet; 69. an electric telescopic rod; 70. a telescopic fixed plate; 71. inserting a different rod; 72. a mounting plate; 73. a driving motor; 74. driving the rotating shaft; 75. a mounting base; 76. a mounting block; 77. a linkage motor; 78. a transaction square; 79. a circular plate is matched; 80. a transaction square groove; 81. a polishing pad; 82. a roller; 83. a bolt seat is matched; 84. installing a slot; 85. installing a plugboard; 86. inserting a transverse plate; 87. inserting a movable rod; 88. inserting a base; 89. inserting a spring; 90. a linkage cable; 91. a motion base; 92. a fixed pulley; 93. a simulated wire wheel; 94. an auxiliary rotating shaft; 95. a second spring; 96. an auxiliary bevel gear; 97. a drive bevel gear; 98. a driving rotating shaft; 99. a driven bevel gear; 100. auxiliary bevel gears; 101. a driven rotating shaft; 102. the rod is crushed.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: as shown in fig. 1 to 11, the open mill of the invention comprises a plurality of support posts 1, wherein the support posts 1 are connected with a linkage square box 2 together, and the linkage square box 2 and a drawing sliding block 3 are connected and arranged through an interval distance adjusting unit; the drawing sliding block 3 is provided with a drawing square plate 4, one side of the drawing square plate 4 is provided with a pull ring 5, the other side of the drawing square plate 4 is provided with a pasting transverse plate 6, the pasting transverse plate 6 is symmetrically provided with a collecting square groove 7, and the collecting square groove 7 is connected with a winding cover assembly; the drawing square plate 4 is fixedly provided with a linkage bolt seat 8, and the linkage bolt seat 8 is connected with the scraping mechanism; the forward open mill mechanism comprises a mounting plate 72 arranged on a mill base 46, wherein the mounting plate 72 is connected with a driving motor 73 through bolts, the output end of the driving motor 73 is connected with a driving rotating shaft 74, the driving rotating shaft 74 is in transmission connection with the mill base 46, one pair of mill bases 46 is connected with a paste cross plate 6, and the other pair of mill bases 46 is connected with a linkage square box 2;

the operating personnel adjusts the unit through the distance between the operation to can adjust the interval of two rollers 82, after the adjustment is accomplished, through starting two driving motor 73, make the drive pivot 74 on its output smelt and move the spacing rotation in the base 46, make two rollers 82 on two drive pivots 74 turn around in opposite directions, thereby can glue the material, can clear up the material that drops through scraping clear mechanism in the time of adjusting the interval, avoid needing extra manpower to go frequently to operate, reduced personnel's working strength, promoted the effect of open mill simultaneously.

The up-to-down scraping mechanism of the embodiment comprises a rope 9 arranged on a linkage bolt seat 8, the rope 9 is connected with a reel 10, a linkage rotating shaft 11 is arranged on the reel 10, one end of the linkage rotating shaft 11 passes through a linkage base 12 arranged on a linkage square box 2 and is connected with a first spring 13, the other end of the linkage rotating shaft is connected with a cam 14, the cam 14 is connected with a linkage transverse block 15 in a matched manner, linkage rods 16 are symmetrically arranged on the linkage transverse block 15, and the linkage rods 16 pass through a cleaning base 17 arranged on the linkage square box 2 and are connected with a linkage circular plate 18; a linkage spring 19 is sleeved on the linkage rod 16, one end of the linkage spring 19 is fixedly connected with the linkage transverse block 15, and the other end of the linkage spring 19 is fixedly connected with the cleaning base 17; the two linkage circular plates 18 are jointly connected with a linkage clamping plate 20, one side of the linkage clamping plate 20 is provided with a linkage rack 21, and the linkage rack 21 is connected with the combined cleaning unit; the other side is symmetrically provided with a linkage different plate 22, a plurality of linkage different plates 22 are connected with a scraper 23, and the scraper 23 is connected with the pasting transverse plate 6 in a matched manner;

when adjusting the interval through the interval distance unit to two rollers 82 can make to draw slider 3 in spacing removal in linkage square box 2, make it pass through linkage bolt seat 8 and rope 9's cooperation, drive reel 10 and rotate, first strip spring 13 is in the state of buffering, and the diameter of reel 10 is less, even if make to draw slider 3 displacement even if small amplitude, the above-mentioned quick rotation of messenger's reel 10 that also makes that describes, make cam 14 on the linkage pivot 11 rotate, thereby make its reciprocating contact to linkage transverse block 15, make linkage transverse block 15 pass through gangbar 16 in the clearance base 17 reciprocating motion, thereby make linkage spring 19 constantly be in the state of buffering, reset, make linkage splint 20 reciprocating motion, and drive scraper 23 reciprocating motion through linkage isoplate 22, and can have part not glued on roller 82 fall on pasting transverse plate 6 at every turn, through the above-mentioned description, make scraper 23 can be reciprocal carry out the clearance to pasting transverse plate 6's surface, thereby make these can be cleared up and can be carried out the clearance to these and can be carried out the clearance to the clearance cover on the clearance and can be used to the clearance of clearance plate, the clearance plate can be avoided to the clearance plate, the clearance is realized to the clearance plate through the clearance plate, the clearance is realized simultaneously, the clearance is broken and can be used to the clearance plate is broken and is broken down to the clearance plate is broken down to the clearance.

The rolling cover assembly of the embodiment comprises a rolling rotating shaft 24 symmetrically arranged in a collection square groove 7, one end of the rolling rotating shaft 24 is connected with a cover closing square plate 25, the other end of the rolling rotating shaft is connected with a cover closing different block 26, the cover closing different block 26 is connected with a cover closing different rod 27 in a sliding manner, and two ends of the cover closing different rod 27 are fixedly connected with a cover closing base 28 arranged on a movable transverse plate 6; a closing spring 29 is sleeved on the closing different rod 27, one end of the closing spring 29 is fixedly connected with a closing base 28, and the other end of the closing spring 29 is fixedly connected with a closing different block 26;

when the crushed aggregates stacked on the traverse plate 6 are moved to the two side edges in a reciprocating manner by the scraping mechanism, the positions are the joints of the two cover closing square plates 25, under the influence of weight, the two cover closing square plates 25 are limited to rotate in the collecting square groove 7 through the rolling rotating shaft 24, the rolling rotating shaft 24 is limited to rotate in the cover closing different rod 27 through the cover closing different block 26, the cover closing springs 29 are in a buffering state, the collecting square groove 7 is in a non-shielding state, the crushed aggregates can enter the collecting square groove 7 along with the opening of the two cover closing square plates 25, and accordingly the crushed aggregates are collected, the collecting square groove 7 is in an unopened state when the open mill is not used, and the crushed aggregates stacked in the collecting square groove 7 are prevented from being polluted by dust and other matters.

The combined and combined cleaning unit of the embodiment comprises a linkage gear 30 which is in meshed connection with a linkage rack 21, wherein a combined action rotating shaft 31 is arranged on the linkage gear 30, one end of the combined action rotating shaft 31 is in transmission connection with a combined action base 32 arranged on a cleaning base 17, the other end of the combined action rotating shaft is connected with a combined action disc 33, a combined action ram 34 is arranged on the combined action disc 33, and the combined action ram 34 is connected with a rectangular groove 36 arranged on a rectangular block 35; rectangular rods 37 are symmetrically arranged on one side of the rectangular block 35, the rectangular rods 37 are connected with a rectangular base 38 arranged on the double-acting base 32 in a sliding manner, rectangular springs 39 are sleeved on the rectangular rods 37, one ends of the rectangular springs 39 are connected with the rectangular base 38, and the other ends of the rectangular springs 39 are connected with a rectangular plate 40; the other side is provided with a double-acting square plate 41, the double-acting square plate 41 is provided with a lubricating pad 42, the lubricating pad 42 is connected with a plurality of square L rods 43 in a matched manner, the square L rods 43 are connected with a circular scraping ring 44, and the circular scraping ring 44 is connected with a forward open mill mechanism in a matched manner; guide rods 45 are symmetrically arranged on the circular scraping ring 44, and the guide rods 45 penetrate through a guide base 47 arranged on the refining base 46 to be connected with a guide circular plate 48; a guide spring 49 is sleeved on the guide rod 45, one end of the guide spring 49 is connected with a guide circular plate 48, and the other end of the guide spring 49 is connected with a guide base 47; the guide rod 45 is provided with a limiting round block 50, the limiting round block 50 and the guide base 47 are provided with a contact piece 51, and the contact piece 51 is connected with a driving force throwing assembly arranged on the control box;

the linkage clamping plate 20 drives the linkage rack 21 to reciprocate while reciprocating so as to enable the linkage rack 21 to reciprocate and engage with the linkage gear 30 to rotate, so that the reciprocating disc 33 on the reciprocating rotary shaft 31 starts to rotate, the rectangular block 35 can reciprocate through the cooperation of the reciprocating ram 34 and the rectangular groove 36 no matter what direction the reciprocating disc 33 rotates, one side of the rectangular block is enabled to reciprocate in the rectangular base 38 through the rectangular rod 37, the rectangular spring 39 is enabled to be in a buffering and resetting state, the reciprocating square plate 41 on the other side is enabled to reciprocate, the circular scraping ring 44 is enabled to contact with the two square L rods 43, the circular scraping ring 44 is enabled to move in a buffering state in the guide base 47 through the guide rod 45, the circular scraping ring 44 moves on the surface of the roller 82 while the gap between the two rollers 82 is adjusted, the circular scraping ring 44 is enabled to reset and move in a reset state when the reciprocating square plate 41 is reset, the circular scraping ring 44 is enabled to be enabled to not to contact with the square L rods 43, and meanwhile, the crushed aggregates adhered on the surface of the roller 82 can be cleaned, and the crushed aggregates can be cleaned by the transverse scraping plate 6; the phenomenon that the residual crushed aggregates in the last time enter the rubber body of the time due to different materials in the next rubber mixing process of the open mill is avoided, so that the quality of a finished product is affected, and the open mill effect is improved; at the same time, the friction force when one of the moving L-bars 43 contacts with it is reduced by the lubricating pad 42.

The interval adjusting unit of the embodiment comprises a blocking slide plate 52 arranged in the linkage square box 2, wherein the blocking slide plate 52 is arranged in sliding connection with a blocking slide groove 53, a blocking rod 54 is arranged in the blocking slide groove 53, and the blocking rod 54 is arranged in sliding connection with the blocking slide plate 52; the drawing slide block 3 is internally provided with a guide groove 55, the guide groove 55 is symmetrically provided with guide rods 56, the guide rods 56 are in sliding connection with a guide plate 57, the guide plate 57 is connected with the guide groove 55 through a guide spring 58, the guide plate 57 is symmetrically provided with an extension fixture 59, the extension fixture 59 is in transmission mounting with a touch round wheel 60, and the touch round wheel 60 is in matched connection with a plurality of ladder-shaped chute 61 arranged on the linkage square box 2; an extension rod 62 is arranged on the extension clamp 59, an extension transverse block 63 is slidably arranged on the extension rod 62, a locking different rod 64 is arranged on the extension transverse block 63, and the locking different rod 64 is connected with a locking different groove 65 arranged on the ladder moving chute 61; an extension spring 66 is sleeved on the extension rod 62, one end of the extension spring 66 is connected with an extension square plate 67, the other end of the extension spring 66 is connected with an extension transverse block 63, magnetic sheets 68 are arranged on the extension transverse block 63 and the extension clamp 59, the extension transverse block 63 and the extension clamp 59 are contacted with each other and are connected with an electric telescopic rod 69 through a control box, and the electric telescopic rod 69 is connected with a telescopic fixed plate 70 arranged on the extension clamp 59; an inserting different rod 71 is arranged at the output end of the electric telescopic rod 69, and the inserting different rod 71 passes through the extension fixture 59 to be connected with the locking different rod 64 in a matched manner;

when the gap between the two rollers 82 needs to be adjusted, the two locking different rods 64 are moved towards each other by pulling the extending transverse blocks 63 towards each other to make the extending transverse blocks move in the extending rods 62 in a limiting manner, so that the extending springs 66 are in a buffer state, the two locking different rods 64 are moved towards each other to be not connected with the locking different grooves 65, the limiting arrangement of the guide plates 57 is released, when the extending transverse blocks 63 move to the maximum position, the extending transverse blocks 63 are in contact with the magnetic sheets 68 on the extending clamp 59, the electric telescopic rods 69 start to work through the control box, the inserting different rods 71 on the output ends of the electric telescopic rods are moved downwards and are connected with grooves (not shown in the figure) arranged on the locking different rods 64, so that the locking different rods 64 are limited at the current position, and an operator does not need to operate the electric telescopic rods independently, and only needs to operate the gap between the two rollers 82; meanwhile, after the guide plate 57 is not limited, the drawer slide 3 is pushed outwards or inwards, the touch round wheel 60 is contacted with the ladder chute 61 through the matching of the touch round wheel 60 and the extension clamp 59, so that the guide plate 57 is limited and moved in the guide groove 55, the guide spring 58 is in a buffer state, the drawer slide 3 is not limited and can normally move in the linkage square box 2, the interval of each ladder chute 61 is equal, an operator only needs to adjust according to the required interval, the operation is convenient and quick, the self-locking function is provided to a certain extent, the non-artificial factor movement is avoided, when the interval of the two rollers 82 is adjusted, the reset of the electric telescopic rod 69 is operated, the inserting different rod 71 is reset, the locking different rod 64 is not limited and set, the locking different rod 64 enters the locking different groove 65 through the reset of the extension spring 66, the drawer slide 3 is limited at the current position, the stability during rubber mixing is improved, and meanwhile, the open mill stability is improved.

The driving force polishing assembly of the embodiment comprises a mounting seat 75 arranged on the circular scraping ring 44, wherein the mounting seat 75 and a mounting block 76 are connected through a quick release changing mechanism; the installation block 76 is provided with a linkage motor 77, the output end of the linkage motor 77 is provided with a differential square block 78, the differential square block 78 is connected with a differential square groove 80 arranged on a matched circular plate 79, the matched circular plate 79 is provided with a polishing pad 81, and the polishing pad 81 is connected with a roller 82 arranged on a driving rotating shaft 74 in a matched manner; the mounting seat 75 is provided with a matched bolt seat 83, and the matched bolt seat 83 is connected with the stirring and crushing component;

when the combined and combined cleaning unit moves, the linkage motor 77 is driven to move, and when the circular scraping ring 44 moves, the limiting round block 50 is not contacted with the contact piece 51 arranged on the guide base 47, so that the linkage motor 77 starts to work through the control box, the abnormal square block 78 on the output end of the linkage motor drives the matched round plate 79 to rotate, the polishing pad 81 is enabled to rotate rapidly, the polishing pad 81 is contacted with the roller 82, polishing operation can be carried out on the surface of the roller 82, the influence of scratches on the roller 82 on the next rubber mixing quality is avoided, and the rubber mixing efficiency and quality are improved.

The quick-release changing mechanism of the embodiment comprises a mounting slot 84 arranged on a mounting block 76, wherein the mounting slot 84 is connected with a mounting plugboard 85, the two mounting plugboards 85 are jointly connected with a transverse inserting plate 86, the transverse inserting plate 86 is symmetrically provided with inserting rods 87, and the inserting rods 87 are in sliding connection with an inserting base 88 arranged on a mounting seat 75; the inserting spring 89 is sleeved on the inserting rod 87, one end of the inserting spring 89 is connected with the inserting base 88, and the other end of the inserting spring 89 is connected with the inserting transverse plate 86;

through outwards pulling the transverse plate 86 of inserting, the transverse plate 86 of inserting is through inserting the pole 87 in inserting the spacing removal of base 88, insert the state that spring 89 is in the buffering, make two installation picture peg 85 no longer be connected with installation slot 84, thereby remove the spacing setting to installation piece 76, thereby accomplish the dismantlement operation to linkage motor 77, when the linkage motor 77 is installed to needs, through in aiming at installation seat 75 with installation piece 76 and remove, through loosening and inserting the transverse plate 86, make insert spring 89 reset, and drive installation picture peg 85 enter into in the installation slot 84, thereby to installation piece 76 is spacing, accomplish the installation operation to linkage motor 77, install or the operation of dismantlement is convenient and fast, be convenient for change different power, the motor of equidimension, can change the motor of different models according to the polishing demand of difference, the limitation of mill when using has been reduced.

The stirring and crushing assembly of the embodiment comprises a linkage cable 90 arranged on a distributing bolt seat 83, wherein the linkage cable 90 is connected with an imitation wire wheel 93 through a fixed pulley 92 on a distributing base 91 arranged on a movable transverse plate 6, an auxiliary rotating shaft 94 is arranged on the imitation wire wheel 93, one end of the auxiliary rotating shaft 94 is connected with a second spring 95 through the distributing base 91, the other end of the auxiliary rotating shaft 94 is connected with an auxiliary bevel gear 96, the auxiliary bevel gear 96 is meshed with a driving bevel gear 97, a driving rotating shaft 98 is arranged on the driving bevel gear 97, and the driving rotating shaft 98 is connected with the movable transverse plate 6; the driving rotating shaft 98 is provided with a plurality of driven bevel gears 99, the driven bevel gears 99 are connected with auxiliary bevel gears 100 in a meshed manner, the auxiliary bevel gears 100 are provided with driven rotating shafts 101, the driven rotating shafts 101 are connected with the collection square grooves 7 in a transmission manner, and the driven rotating shafts 101 are provided with a plurality of crushing rods 102;

when the mounting seat 75 moves reciprocally, the driving bolt seat 83, the moving cable 90 and the fixed moving pulley 92 are matched to enable the moving wire wheel 93 to rotate reciprocally, so that the second spring 95 is in a buffering and resetting state continuously, the driving rotating shaft 98 on the driving bevel gear 97 starts to rotate, the driving bevel gear 100 is meshed by the two driven bevel gears 99 to rotate, a plurality of stirring rods 102 on the driven rotating shaft 101 rotate reciprocally in the square collecting groove 7, and the broken materials in the stirring rods are smashed, so that later recycling is facilitated, and the strength of workers is reduced.

The invention also provides a using method of the open mill, which comprises the following steps:

step one, limiting movement of a drawing sliding block 3 in a linkage square box 2 through a pull ring 5, driving a linkage bolt seat 8 by the drawing sliding block 3 through a drawing square plate 4, and driving a reel 10 to rotate by the linkage bolt seat 8 through a rope 9, so that a first strip spring 13 is in a buffer state;

step two, the reel 10 drives the cam 14 on the linkage rotating shaft 11 to rotate, and the linkage transverse block 15 moves back and forth on the clearing base 17 through the linkage rod 16 by means of contact cooperation of the cam 14 and the linkage transverse block 15, so that the linkage spring 19 is in a buffer and reset state continuously;

step three, the linkage rod 16 drives the linkage clamping plate 20 to reciprocate, and the linkage clamping plate 20 drives the scraper 23 to reciprocate through the linkage different plate 22, so that the scraper 23 reciprocally cleans the surface of the movable transverse plate 6;

step four, when the crushed aggregates piled on the pasting transverse plate 6 are cleaned by the scraper 23 and moved to two side edges, the two cover closing square plates 25 are limited to rotate in the collecting square groove 7 through the rolling rotating shaft 24, the rolling rotating shaft 24 is limited to rotate in the cover closing different rod 27 through the cover closing different block 26, and the plurality of cover closing springs 29 are in a buffer state;

step five, the collection square groove 7 is in a non-shielding state, and the crushed aggregates enter the collection square groove 7 along with the opening of the two cover-closing square plates 25, so that the crushed aggregates are collected.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An open mill, characterized in that: the device comprises a plurality of struts (1), wherein the struts (1) are connected with a linkage square box (2) together, and the linkage square box (2) and a drawing sliding block (3) are connected and arranged through an interval distance adjusting unit; the drawing sliding block (3) is provided with a drawing square plate (4), one side of the drawing square plate (4) is provided with a pull ring (5), the other side of the drawing square plate is provided with a pasting transverse plate (6), the pasting transverse plate (6) is symmetrically provided with a collection square groove (7), and the collection square groove (7) is connected with a winding cover assembly; the drawing square plate (4) is fixedly provided with a linkage bolt seat (8), and the linkage bolt seat (8) is connected with the scraping mechanism.

2. An open mill according to claim 1, characterized in that: the up-to-down scraping mechanism comprises a rope (9) arranged on a linkage bolt seat (8), the rope (9) is connected with a reel (10), a linkage rotating shaft (11) is arranged on the reel (10), one end of the linkage rotating shaft (11) passes through a linkage base (12) arranged on a linkage square box (2) and then is connected with a first spring (13), the other end of the linkage rotating shaft is connected with a cam (14), the cam (14) is connected with a linkage transverse block (15) in a matched manner, linkage rods (16) are symmetrically arranged on the linkage transverse block (15), and the linkage rods (16) pass through a clearing base (17) arranged on the linkage square box (2) and then are connected with a linkage circular plate (18); the linkage rod (16) is sleeved with a linkage spring (19), one end of the linkage spring (19) is fixedly connected with the linkage transverse block (15), and the other end of the linkage spring is fixedly connected with the cleaning base (17).

3. An open mill according to claim 2, characterized in that: the two linkage circular plates (18) are jointly connected with a linkage clamping plate (20), one side of the linkage clamping plate (20) is provided with a linkage rack (21), and the linkage rack (21) is connected with the combined cleaning unit; the other side is symmetrically provided with a linkage different plate (22), a plurality of linkage different plates (22) are connected with a scraper (23), and the scraper (23) is connected with a pasting transverse plate (6) in a matched mode.

4. A mill according to claim 3, characterized in that: the upward rolling cover assembly comprises rolling rotating shafts (24) symmetrically arranged in the collection square groove (7), one end of each rolling rotating shaft (24) is connected with a cover closing square plate (25), the other end of each rolling rotating shaft is connected with a cover closing different block (26), the cover closing different blocks (26) are connected with a cover closing different rod (27) in a sliding manner, and two ends of each cover closing different rod (27) are fixedly connected with a cover closing base (28) arranged on the corresponding movable transverse plate (6); the cover closing different rod (27) is sleeved with a cover closing spring (29), one end of the cover closing spring (29) is fixedly connected with the cover closing base (28), and the other end of the cover closing spring is fixedly connected with the cover closing different block (26).

5. A mill according to claim 3, characterized in that: the combined cleaning unit comprises a linkage gear (30) which is in meshed connection with a linkage rack (21), wherein a combined moving rotating shaft (31) is arranged on the linkage gear (30), one end of the combined moving rotating shaft (31) is in transmission connection with a combined moving base (32) arranged on a combined cleaning base (17), the other end of the combined moving rotating shaft is connected with a combined moving disc (33), a combined moving ram (34) is arranged on the combined moving disc (33), and the combined moving ram (34) is connected with a rectangular groove (36) arranged on a rectangular block (35); rectangular rods (37) are symmetrically arranged on one side of the rectangular block (35), the rectangular rods (37) are connected with a rectangular base (38) arranged on the double-acting base (32) in a sliding mode, rectangular springs (39) are sleeved on the rectangular rods (37), one ends of the rectangular springs (39) are connected with the rectangular base (38), and the other ends of the rectangular springs are connected with a rectangular plate (40); the other side is provided with a double-acting square plate (41), the double-acting square plate (41) is provided with a lubricating pad (42), the lubricating pad (42) is connected with a plurality of square L rods (43) in a matched manner, the square L rods (43) are connected with a circular scraping ring (44), and the circular scraping ring (44) is connected with a forward open mill mechanism in a matched manner; guide rods (45) are symmetrically arranged on the circular scraping ring (44), and the guide rods (45) penetrate through guide bases (47) arranged on the refining base (46) to be connected with a guide circular plate (48); a guide spring (49) is sleeved on the guide rod (45), one end of the guide spring (49) is connected with a guide circular plate (48), and the other end of the guide spring is connected with a guide base (47); the guide rod (45) is provided with a limiting round block (50), the limiting round block (50) and the guide base (47) are provided with a contact piece (51), and the contact piece (51) is connected with a driving force polishing assembly arranged on the control box.

6. An open mill according to claim 1, characterized in that: the interval adjusting unit comprises a blocking slide plate (52) arranged in the linkage square box (2), the blocking slide plate (52) is arranged in sliding connection with the blocking slide groove (53), a blocking rod (54) is arranged in the blocking slide groove (53), and the blocking rod (54) is arranged in sliding connection with the blocking slide plate (52); the drawing slide block (3) is internally provided with a guide groove (55), the guide groove (55) is symmetrically provided with guide rods (56), the guide rods (56) are slidably connected with a guide plate (57), the guide plate (57) is connected with the guide groove (55) through guide springs (58), the guide plate (57) is symmetrically provided with an extension fixture (59), the extension fixture (59) is provided with a touch round wheel (60) in a transmission manner, and the touch round wheel (60) is connected with a plurality of ladder-shaped movable chute (61) arranged on the linkage square box (2) in a matching manner; an extension rod (62) is arranged on the extension clamp (59), an extension transverse block (63) is slidably arranged on the extension rod (62), a locking different rod (64) is arranged on the extension transverse block (63), and the locking different rod (64) is connected with a locking different groove (65) arranged on the ladder moving chute (61); an extension spring (66) is sleeved on the extension rod (62), one end of the extension spring (66) is connected with an extension square plate (67), the other end of the extension spring is connected with an extension transverse block (63), magnetic sheets (68) are arranged on the extension transverse block (63) and an extension clamp (59), the extension transverse block (63) and the extension clamp are contacted with each other and are connected with an electric telescopic rod (69) through a control box, and the electric telescopic rod (69) is connected with a telescopic fixed plate (70) arranged on the extension clamp (59); an inserting different rod (71) is arranged at the output end of the electric telescopic rod (69), and the inserting different rod (71) penetrates through the extension fixture (59) to be connected with the locking different rod (64) in a matched mode.

7. An open mill according to claim 5, wherein: the forward open mill mechanism comprises a mounting plate (72) arranged on a mill base (46), the mounting plate (72) is connected with a driving motor (73) through bolts, the output end of the driving motor (73) is connected with a driving rotating shaft (74), the driving rotating shaft (74) is connected with the mill base (46) in a transmission manner, one pair of mill bases (46) is connected with a paste cross plate (6), and the other pair of mill bases (46) is connected with a linkage square box (2); the driving force polishing assembly comprises an installation seat (75) arranged on the circular scraping ring (44), and the installation seat (75) and the installation block (76) are connected through a quick-release changing mechanism; the installation block (76) is provided with a linkage motor (77), the output end of the linkage motor (77) is provided with a abnormal square block (78), the abnormal square block (78) is connected with an abnormal square groove (80) arranged on a matched circular plate (79), the matched circular plate (79) is provided with a polishing pad (81), and the polishing pad (81) is connected with a roller (82) arranged on a driving rotating shaft (74) in a matched manner; the mounting seat (75) is provided with a matching bolt seat (83), and the matching bolt seat (83) is connected with the stirring and crushing component.

8. An open mill according to claim 7, wherein: the quick-release changing mechanism comprises mounting slots (84) arranged on the mounting blocks (76), the mounting slots (84) are connected with mounting plugboards (85), two mounting plugboards (85) are jointly connected with a transverse inserting plate (86), inserting rods (87) are symmetrically arranged on the transverse inserting plate (86), and the inserting rods (87) are in sliding connection with inserting bases (88) arranged on the mounting seats (75); the inserting rod (87) is sleeved with an inserting spring (89), one end of the inserting spring (89) is connected with the inserting base (88), and the other end of the inserting spring is connected with the inserting transverse plate (86).

9. An open mill according to claim 7, wherein: the stirring and crushing stirring and collecting assembly comprises a linkage cable (90) arranged on a stirring bolt seat (83), the linkage cable (90) is connected with a stirring wheel (93) through a fixed pulley (92) arranged on a stirring base (91) arranged on a stirring transverse plate (6), an auxiliary rotating shaft (94) is arranged on the stirring wheel (93), one end of the auxiliary rotating shaft (94) is connected with a second spring (95) through the stirring base (91), the other end of the auxiliary rotating shaft is connected with an auxiliary bevel gear (96), the auxiliary bevel gear (96) is meshed with a driving bevel gear (97), a driving rotating shaft (98) is arranged on the driving bevel gear (97), and the driving rotating shaft (98) is connected with the stirring transverse plate (6); be equipped with a plurality of driven bevel gears (99) on initiative pivot (98), driven bevel gears (99) meshing is connected and is assisted and move bevel gear (100), is equipped with driven pivot (101) on assisting moving bevel gear (100), driven pivot (101) are connected with collection square groove (7) transmission and are set up, be equipped with a plurality of garrulous pole (102) on driven pivot (101).

10. A method of using an open mill as claimed in claim 4, comprising the steps of:

step one, limiting movement of a drawing sliding block (3) in a linkage square box (2) is achieved through a pull ring (5), the drawing sliding block (3) drives a linkage bolt seat (8) through a drawing square plate (4), and the linkage bolt seat (8) drives a reel (10) to rotate through a rope (9), so that a first strip spring (13) is in a buffer state;

step two, a reel (10) drives a cam (14) on a linkage rotating shaft (11) to rotate, and the linkage transverse block (15) moves back and forth on a clearing base (17) through a linkage rod (16) by means of contact cooperation of the cam (14) and the linkage transverse block (15), so that a linkage spring (19) is in a buffer and reset state continuously;

step three, the linkage rod (16) drives the linkage clamping plate (20) to reciprocate, and the linkage clamping plate (20) drives the scraper (23) to reciprocate through the linkage different plate (22), so that the scraper (23) reciprocally cleans the surface of the movable transverse plate (6);

step four, when the crushed aggregates piled on the pasting transverse plate (6) are cleaned by the scraper (23) and moved to two side edges, the two cover closing square plates (25) are limited to rotate in the collecting square groove (7) through the rolling rotating shaft (24), the rolling rotating shaft (24) is limited to rotate in the cover closing different rod (27) through the cover closing different block (26), and the plurality of cover closing springs (29) are in a buffer state;

and fifthly, the collection square groove (7) is in a non-shielding state, and crushed aggregates enter the collection square groove (7) along with the opening of the two cover-closing square plates (25), so that the crushed aggregates are collected.