CN112026211A - Intelligent tire gluing device - Google Patents

Abstract

The invention relates to intelligent tire glue, in particular to an intelligent tire glue pasting device. The technical problem of the invention is that: an intelligent tire rubberizing device is provided. The technical scheme is as follows: an intelligent tire gluing device comprises a rear-side collecting frame plate, a tire fixing mechanism, a cleaning mechanism, an outward expanding mechanism, a gluing mechanism and the like; the upper part of the first working table plate is sequentially connected with the tire fixing mechanism and the operation control screen. The automatic cleaning device realizes the automatic and efficient cleaning of the inner surface of the tire outer tube, automatically performs flaring operation on the inner side of the tire outer tube, enlarges a narrower opening on the inner side of the tire outer tube, drives the tire outer tube to perform accurate positioning, rotating and laminating, automatically tears, separates and collects the adhesive protective film on the surface of the intelligent adhesive, further realizes the effects of automatic feeding, pressing and laminating of the intelligent adhesive of the tire and automatic normal lamination of the intelligent adhesive of the tire to the inner surface of the tire outer tube.

Description

Intelligent tire gluing device

Technical Field

The invention relates to intelligent tire glue, in particular to an intelligent tire glue pasting device.

Background

Along with the gradual development of tire repair glue, the tire repair glue technology is more and more mature, and a tire intelligent glue is provided, which can provide good puncture-proof protection for a tire.

At present, the intelligent rubber of the tire is widely applied, in the prior art, when the intelligent rubber of the tire is rubberized on the tire, because the inner side opening of the tire casing is narrower, the inner side opening of the tire casing is far smaller than the thickness of the outer ring surface of the tire casing, the width of the required intelligent rubber of the tire is larger than the thickness of the outer ring surface of the tire casing, and meanwhile, the tire casing has larger volume and is difficult to fix, further, the inner side opening of the tire casing needs to be manually expanded and manually cleaned, then the intelligent rubber of the tire with wider width is manually pasted on the inner side of the tire casing, and the tire casing can be pasted by one circle only needing to be manually rolled and rotated, and the rubberizing treatment can be performed by matching several people, further, when the inner side opening of the tire casing with larger elasticity and hardness is manually enlarged, the manual labor consumption is larger when the inner side two sides of the tire, still need carry out manual cleaning to tire cover tire internal surface, when artifical rubberizing simultaneously, because the tire adopts the manual work to fix and rotate the rubberizing, manual operation can make tire and intelligent glue produce inevitable rocking, leads to the intelligent glue to paste the in-process and tire cover tire internal surface laminating dislocation, and it consumes the long problem of the big time spent of manpower to carry out rubberizing operation to single tire cover tire simultaneously.

To solve the problems, the intelligent tire gluing device is provided.

Disclosure of Invention

In order to overcome the defects that when the rubber is pasted on the tire, the inner side opening of the tire casing is narrow, the inner side opening of the tire casing is far smaller than the thickness of the outer ring surface of the tire casing, the width of the required tire intelligent rubber is larger than the thickness of the outer ring surface of the tire casing, and the tire casing is large in size and difficult to fix, further, the inner side opening of the tire casing needs to be manually outwards expanded and manually cleaned, then the tire intelligent rubber with wide width is manually pasted on the inner side of the tire casing, the tire casing can be pasted on one circumference by manually rolling and rotating the tire, the rubber pasting treatment can be performed by matching of several persons, further, when the inner side opening of the tire casing with large elasticity and hardness is manually expanded, the physical strength is large when the two sides of the inner side of the tire casing are manually pulled outwards, and the inner surface of the tire casing needs to be manually cleaned, meanwhile, when the rubber is pasted manually, because the tire is fixed and rotated manually, the tire and the intelligent rubber can generate inevitable shaking due to manual operation, so that the intelligent rubber is attached to the inner surface of the outer tire of the tire in a staggered manner in the pasting process, and meanwhile, the gluing operation of the single outer tire of the tire consumes a large amount of manpower and a long time, and the technical problem of the invention is that: an intelligent tire rubberizing device is provided.

The technical scheme is as follows: an intelligent tire gluing device comprises a first working table plate, an operation control screen, a rear side collective frame plate, a tire fixing mechanism, a cleaning mechanism, an outward expanding mechanism and a gluing mechanism; the upper part of the first working table plate is sequentially connected with the tire fixing mechanism and the operation control screen; welding the upper part of the first working bedplate with the rear side collective frame plate; the rear side collecting frame plate is sequentially connected with the cleaning mechanism, the outward expanding mechanism and the rubberizing mechanism; the cleaning mechanism is connected with the outward expanding mechanism; the outward expanding mechanism is connected with the rubberizing mechanism; the rubberizing mechanism is connected with the cleaning mechanism.

More preferably, the tire fixing mechanism comprises a first linear slide rail, a first electric slide seat, a second linear slide rail, a second electric slide seat, a fixed frame plate, a fixed rotating disc and an electric telescopic clamp; the upper part of the first linear slide rail is in sliding connection with the first electric slide seat; the upper part of the first electric sliding seat is connected with the fixed frame plate through a bolt; the lower part of the fixed frame plate is connected with a second electric sliding seat through a bolt; the lower part of the second electric sliding seat is in sliding connection with a second linear sliding rail; the fixed frame plate is sleeved with the fixed rotating disc; the inner side of the fixed rotating disc is connected with an electric telescopic clamp; the lower part of the first linear slide rail is connected with the first working bedplate; the lower part of the second linear slide rail is connected with the first workbench plate.

More preferably, the cleaning mechanism comprises a power motor, a first driving wheel, a first driving gear, a second driving gear, a first electric push rod, a third driving gear, a first gathering plate, a first bevel gear, a second bevel gear, a first rotating shaft rod, a second driving wheel, a third driving wheel, a fourth driving gear, a first long gear, a first telescopic rotating shaft, a first propelling sleeve plate, a second electric push rod, a second rotating shaft rod and a cleaning brush; an output shaft of the power motor is rotationally connected with the first driving wheel; the outer ring surface of the first transmission wheel is in transmission connection with the first transmission gear through a belt; the first transmission gear is meshed with the second transmission gear; the second transmission gear is meshed with the third transmission gear; the second transmission gear and the first electric push rod; the first collecting plate is sequentially connected with the first transmission gear and the third transmission gear; the first collecting plate is connected with the first electric push rod; the rear side of the outer ring surface of the first transmission gear is in transmission connection with a first bevel gear through a belt; the first bevel gear is meshed with the second bevel gear; the first bevel gear is connected with the first gathering plate; the second bevel gear core is rotationally connected with the first rotating shaft rod; the outer surface of the first rotating shaft rod is connected with the first gathering plate; the first rotating shaft rod is rotationally connected with the second driving wheel; the outer ring surface of the second driving wheel is in transmission connection with a third driving wheel through a belt; the axle center of the third driving wheel is rotationally connected with the first long gear; the axle center of the first long gear is rotationally connected with the second rotating shaft rod; the second rotating shaft rod is connected with the first gathering plate; the first collecting plate is connected with the first telescopic rotating shaft; the outer surface of the first telescopic rotating shaft is sleeved with the fourth transmission gear; the outer surface of the first telescopic rotating shaft is in sliding connection with the first pushing sleeve plate; the first pushing sleeve plate is inserted with the second electric push rod; the second electric push rod is connected with the first gathering plate; the first telescopic rotating shaft is inserted with the cleaning brush; the power motor is connected with the rear side collecting frame plate; the first collecting plate is connected with the rear collecting frame plate; the first driving wheel is connected with the external expanding mechanism; the third transmission gear is connected with the adhesive sticking mechanism.

More preferably, the external expanding mechanism comprises an external expanding control mechanism, a fourth driving wheel and a third electric push rod; the upper part of the outward expansion control mechanism is in transmission connection with a fourth transmission wheel; the fourth transmission wheel is connected with the third electric push rod; the external expansion control mechanism is connected with the rear side collective frame plate; the third electric push rod is connected with the rear side collecting frame plate; the upper part of the fourth driving wheel is connected with the first driving wheel; the upper part of the external expansion control mechanism is connected with a first driving wheel.

More preferably, the rubberizing mechanism comprises a fixed disc, a motion control convex column, a rectangular linkage frame, a control slide rod, a downward pressing arc-shaped hammer, a limiting slide plate, a fourth electric push rod, a pressing roller, an electric clamp, a discharging roller and a collecting roller; the fixed disc is inserted with the motion control disc; the rear side of the outer ring surface of the motion control disc is in transmission connection with the discharging roller through a belt; the rear side of the outer ring surface of the discharging roller is in transmission connection with the collecting roller through a belt; the motion control circle is inserted with the motion control convex column; the outer surface of the motion control convex column is in transmission connection with the rectangular linkage frame; the rectangular linkage frame is welded with the control slide rod; the outer surface of the slide rod is controlled to be in sliding connection with the limiting slide plate; the sliding rod is controlled to be inserted into the downward pressing arc-shaped hammer; the limiting sliding plate is connected with the fixed disc; the limiting sliding plate is inserted with the fourth electric push rod; the fourth electric push rod is connected with the pressing roller; the downward pressing arc-shaped hammer is connected with the electric clamp; the axle center of the discharging roller is connected with the rear side collecting frame plate; the axis of the collecting roller is connected with the rear collecting frame plate; the fixed disc is connected with the rear side collective frame plate; the motion control disc is connected with the third transmission gear.

More preferably, the outward expansion control mechanism comprises a collection frame plate, a first screw rod, a second screw rod, a fifth driving wheel, a first outward expansion plate, a second outward expansion plate and a limiting sliding column; the collection frame plate is inserted with the first screw rod; the first screw rod is rotationally connected with the second screw rod; the second screw rod is rotationally connected with the fifth driving wheel; the axis of the fifth driving wheel is inserted with the collection frame plate; the collection frame plate is welded with the limiting sliding column; the inner side of the first outer expanding plate is sequentially in sliding connection with a second screw rod and a limiting sliding column; the inner side of the second outer expanding plate is sequentially in sliding connection with a second screw rod and a limiting sliding column; the collection frame plate is connected with the rear collection frame plate; the fifth driving wheel is connected with the fourth driving wheel; the fifth driving wheel is connected with the first driving wheel.

More preferably, the cleaning brush is provided with a high pressure water jet.

More preferably, the thread directions of the outer surfaces of the first screw rod and the second screw rod are opposite.

More preferably, the outer circumferential surface of the collecting roller is provided with a small barb.

More preferably, a plurality of groups of fan plates with balls are arranged below the first outer expanding plate and the second outer expanding plate.

The invention has the beneficial effects that: firstly, when the rubberizing operation of intelligent tire rubber is carried out on a tire, because the inner side opening of the tire casing is narrower, the inner side opening of the tire casing is far smaller than the thickness of the outer ring surface of the tire casing, the width of the required intelligent tire rubber is larger than the thickness of the outer ring surface of the tire casing, meanwhile, the tire casing has larger volume and is not easy to fix, further, the inner side opening of the tire casing needs to be manually expanded and manually cleaned, then the intelligent tire rubber with wider width is manually pasted on the inner side of the tire casing, and the tire casing can be pasted for one circle only by manually rolling and rotating the tire, the rubberizing treatment can be carried out by matching of a plurality of people, further, when the inner side opening of the tire casing with larger elasticity and hardness is manually expanded, the physical strength is larger when the two sides of the inner side casing of the tire casing are manually pulled to the outer side, and the inner surface of the tire, meanwhile, when the rubber is pasted manually, because the tire is fixed and rotated manually, the tire and the intelligent rubber generate inevitable shaking due to manual operation, so that the intelligent rubber is attached to the inner surface of the outer tire of the tire in a staggered manner in the pasting process, and meanwhile, the problem that the labor power and the time consumption are large when the rubber is pasted on the single outer tire of the tire is solved;

when the tire outer tube is used, firstly, the tire outer tube is fixed to the tire fixing mechanism, then the tire fixing mechanism drives the tire outer tube to move to a position close to the cleaning mechanism, the outward expanding mechanism and the rubberizing mechanism, the outward expanding mechanism expands an opening on the inner side of the tire outer tube, then the cleaning mechanism cleans the inner surface of the tire outer tube, the manual drying is carried out, then the intelligent glue is fixed into the rubberizing mechanism, and then the rubberizing mechanism carries out rubberizing operation on the inner surface of the tire outer tube;

third, realized the automatic high-efficient cleanness to tire cover internal surface to automatic carry out the flaring operation to tire cover inboard, enlarge the more narrow opening of tire cover inboard, and drive tire cover and carry out accurate location and rotate the laminating, automatic tear the separation and collect the gluey surperficial protection film of pasting of intelligence, further realize that intelligence is glued automatic feeding and presses the laminating, glue automatic normal position laminating to the effect of tire cover internal surface with tire intelligence.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a tire securing mechanism of the present invention;

FIG. 3 is a schematic view of the cleaning mechanism of the present invention;

FIG. 4 is a schematic structural view of the flaring mechanism of the present invention;

FIG. 5 is a schematic structural view of a taping mechanism of the present invention;

FIG. 6 is a schematic structural diagram of the flaring control mechanism of the present invention.

The parts are labeled as follows: 1. a first working table board, 2, an operation control screen, 3, a rear collecting frame board, 4, a tire fixing mechanism, 5, a cleaning mechanism, 6, an outward expanding mechanism, 7, a rubberizing mechanism, 401, a first linear slide rail, 402, a first electric slide carriage, 403, a second linear slide rail, 404, a second electric slide carriage, 405, a fixed frame board, 406, a fixed rotating disk, 407, an electric telescopic clamp, 501, a power motor, 502, a first driving wheel, 503, a first transmission gear, 504, a second transmission gear, 505, a first electric push rod, 506, a third transmission gear, 507, a first collecting board, 508, a first bevel gear, 509, a second bevel gear, 5010, a first rotating shaft rod, 5011, a second transmission gear, 5012, a third transmission gear, 5013, a fourth transmission gear, 5014, a first long gear, 5015, a first telescopic rotating shaft, 5016, a first propelling sleeve board, 5017, a second electric push rod, 5018. a second rotating shaft rod, 5019, a cleaning brush, 601, an outward expansion control mechanism, 602, a fourth transmission wheel, 603, a third electric push rod, 701, a fixed disk, 702, a motion control disk, 703, a motion control convex column, 704, a rectangular linkage frame, 705, a control slide rod, 706, a downward pressing arc-shaped hammer, 707, a limiting sliding plate, 708, a fourth electric push rod, 709, a pressing roller, 7010, an electric clamp, 7011, a discharging roller, 7012, a collecting roller, 60101, a collecting frame plate, 60102, a first lead screw, 60103, a second lead screw, 60104, a fifth transmission wheel, 60105, a first outward expansion plate, 60106, a second outward expansion plate, 60107 and a limiting sliding column.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

An intelligent tire gluing device is shown in figures 1-6 and comprises a first working table plate 1, an operation control screen 2, a rear side collective frame plate 3, a tire fixing mechanism 4, a cleaning mechanism 5, an outward expanding mechanism 6 and a gluing mechanism 7; the upper part of the first working table plate 1 is sequentially connected with a tire fixing mechanism 4 and an operation control screen 2; the upper part of the first working bedplate 1 is welded with the rear side collective frame plate 3; the rear side collecting frame plate 3 is sequentially connected with a cleaning mechanism 5, an outward expanding mechanism 6 and a rubberizing mechanism 7; the cleaning mechanism 5 is connected with the outward expanding mechanism 6; the outward expanding mechanism 6 is connected with the rubberizing mechanism 7; the rubberizing mechanism 7 is connected with the cleaning mechanism 5.

When the intelligent tire rubberizing and gluing device is used, the device is fixed, then an external power supply is connected, the operation control screen 2 is opened, the tire outer casing is fixed to the tire fixing mechanism 4 at first, the tire fixing mechanism 4 drives the tire outer casing to move to the positions close to the cleaning mechanism 5, the outward expanding mechanism 6 and the rubberizing mechanism 7, the inward opening of the tire outer casing is expanded by the outward expanding mechanism 6, then the inward surface of the tire outer casing is cleaned by the cleaning mechanism 5 and is dried manually, then the intelligent rubber is fixed into the rubberizing mechanism 7, then the rubberizing operation is carried out on the inward surface of the tire outer casing by the rubberizing mechanism 7, the automatic efficient cleaning of the inward surface of the tire outer casing is realized, the flaring operation is automatically carried out on the inward side of the tire outer casing, the narrower opening of the inward side of the tire outer casing is expanded, the tire outer casing is driven to carry out the accurate positioning rotation and gluing operation, and the, further realize that intelligence is glued automatic feeding and is pressed the laminating, glue automatic normal position laminating to the effect of tire cover tyre internal surface with tire intelligence.

The tire fixing mechanism 4 comprises a first linear slide rail 401, a first electric slide base 402, a second linear slide rail 403, a second electric slide base 404, a fixed frame plate 405, a fixed rotating disc 406 and an electric telescopic clamp 407; the upper part of the first linear slide rail 401 is in sliding connection with a first electric slide carriage 402; the upper part of the first electric sliding seat 402 is connected with a fixed frame plate 405 through a bolt; the lower part of the fixed frame plate 405 is connected with a second electric sliding seat 404 through a bolt; the lower part of the second electric slide carriage 404 is connected with the second linear slide rail 403 in a sliding manner; the fixed frame plate 405 is sleeved with the fixed rotating disc 406; the inner side of the fixed rotating disc 406 is connected with an electric telescopic clamp 407; the lower part of the first linear slide rail 401 is connected with the first workbench plate 1; the lower part of the second linear slide rail 403 is connected with the first workbench plate 1.

Firstly, the tyre outer cover is lifted to the position at the front side of the fixed rotating disc 406, then four groups of electric telescopic clamps 407 are controlled by the operation control screen 2 to be pushed towards the round shape of the fixed rotating disc 406, further clamping and fixing the tire casing, and simultaneously fixing the rotating disc 406 to rotate and drive the tire casing to rotate and match with other subsequent operations on the casing, then the power of the first linear sliding rail 401 and the second linear sliding rail 403 is controlled to be switched on through the operation control screen 2, then the first linear slide rail 401 and the second linear slide rail 403 respectively drive the first electric slide carriage 402 and the second electric slide carriage 404 to move backwards, namely, the first electric slide 402 and the second electric slide 404 drive the fixed frame plate 405, the fixed rotating disc 406 and the electric telescopic clamp 407 to move backward together with the tire casing to the positions close to the cleaning mechanism 5, the expanding mechanism 6 and the rubberizing mechanism 7, thereby completing the fixed moving positioning of the tire casing.

The cleaning mechanism 5 comprises a power motor 501, a first transmission wheel 502, a first transmission gear 503, a second transmission gear 504, a first electric push rod 505, a third transmission gear 506, a first gathering plate 507, a first bevel gear 508, a second bevel gear 509, a first rotating shaft rod 5010, a second transmission wheel 5011, a third transmission wheel 5012, a fourth transmission gear 5013, a first long gear 5014, a first telescopic rotating shaft 5015, a first propelling sleeve 5016, a second electric push rod 5017, a second rotating shaft rod 5018 and a cleaning brush 5019; an output shaft of the power motor 501 is rotatably connected with the first driving wheel 502; the outer ring surface of the first driving wheel 502 is in transmission connection with a first transmission gear 503 through a belt; the first transmission gear 503 is meshed with the second transmission gear 504; the second transfer gear 504 meshes with a third transfer gear 506; a second transmission gear 504 and a first electric push rod 505; the first collecting plate 507 is connected with the first transmission gear 503 and the third transmission gear 506 in sequence; the first collecting plate 507 is connected with a first electric push rod 505; the rear side of the outer ring surface of the first transmission gear 503 is in transmission connection with a first bevel gear 508 through a belt; the first bevel gear 508 meshes with the second bevel gear 509; the first bevel gear 508 is connected with the first collecting plate 507; the axis of the second bevel gear 509 is rotationally connected with the first rotating shaft 5010; the outer surface of the first rotating shaft 5010 is connected to the first collecting plate 507; the first rotating shaft rod 5010 is in rotating connection with the second transmission wheel 5011; the outer ring surface of the second transmission wheel 5011 is in transmission connection with a third transmission wheel 5012 through a belt; the axle center of the third transmission wheel 5012 is rotationally connected with the first long gear 5014; the axle center of the first long gear 5014 is rotationally connected with the second rotating shaft 5018; the second hinge lever 5018 is connected to the first collecting plate 507; the first collecting plate 507 is connected with the first telescopic rotating shaft 5015; the outer surface of the first telescopic rotating shaft 5015 is sleeved with a fourth transmission gear 5013; the outer surface of the first telescopic rotating shaft 5015 is in sliding connection with the first propelling sleeve plate 5016; the first push sleeve plate 5016 is inserted with a second electric push rod 5017; the second electric push rod 5017 is connected with the first collecting plate 507; the first telescopic rotating shaft 5015 is inserted into the cleaning brush 5019; the power motor 501 is connected with the rear-side collecting frame plate 3; the first collecting plate 507 is connected with the rear collecting frame plate 3; the first driving wheel 502 is connected with the external expanding mechanism 6; the third transmission gear 506 is connected with the rubberizing mechanism 7.

After the tire is fixedly moved and positioned, firstly, the power supply of a power motor 501 is controlled to be switched on through an operation control screen 2, then the power motor 501 drives a first transmission wheel 502 to rotate, then the first transmission wheel 502 drives a first transmission gear 503 to rotate, then a first electric push rod 505 is controlled to push out through the operation control screen 2 to drive a second transmission gear 504 to move to a position which is simultaneously meshed with the first transmission gear 503 and a third transmission gear 506, then the first transmission gear 503 moves through the second transmission gear 504, further the second transmission gear 504 drives the third transmission gear 506 to rotate, then the third transmission gear 506 drives a rubberizing mechanism 7 to rotate, the first transmission gear 503 can directly drive a first bevel gear 508 to rotate, then the first bevel gear 508 drives a second bevel gear 509 to rotate, and then the second bevel gear 509 drives a first rotating shaft 5010 and a second transmission wheel 5011 to rotate, then the second driving wheel 5011 drives the third driving wheel 5012 to rotate, then the third driving wheel 5012 drives the first long gear 5014 to rotate, then the operation control screen 2 controls the second electric push rod 5017 to push out, further the second electric push rod 5017 drives the first telescopic rotating shaft 5015 to extend through the first push sleeve 5016 to drive the fourth driving gear 5013 to move to a position where the fourth driving gear 5013 is meshed with the first long gear 5014, meanwhile, the first telescopic rotating shaft 5015 extends to drive the cleaning brush 5019 to move to the inner surface of the outer side of the tire, then the first long gear 5014 drives the fourth driving gear 5013 to rotate, then the fourth driving gear 5013 drives the first telescopic rotating shaft 5015 and the cleaning brush 5019 to rotate, further, the fixed rotating disc 406 drives the outer tire to rotate, and further the cleaning treatment on the inner surface of the tire is completed.

The external expanding mechanism 6 comprises an external expanding control mechanism 601, a fourth driving wheel 602 and a third electric push rod 603; the upper part of the external expansion control mechanism 601 is in transmission connection with a fourth transmission wheel 602; the fourth driving wheel 602 is connected with a third electric push rod 603; the external expansion control mechanism 601 is connected with the rear side collective frame plate 3; the third electric push rod 603 is connected with the rear side collecting frame plate 3; the upper part of the fourth transmission wheel 602 is connected with the first transmission wheel 502; the upper part of the outward expansion control mechanism 601 is connected with the first transmission wheel 502.

Firstly, the tire fixing mechanism 4 drives the tire casing to move to the outer side of the outward expanding mechanism 6, then the operation control screen 2 controls the third electric push rod 603 to push out to drive the fourth transmission wheel 602 to tighten the belt on the left side of the fourth transmission wheel 602, and then the first transmission wheel 502 drives the outward expanding control mechanism 601 to rotate through the belt, so that the operation of expanding the inner side opening of the tire casing is completed.

The rubberizing mechanism 7 comprises a fixed disc 701, a motion control disc 702, a motion control convex column 703, a rectangular linkage frame 704, a control slide bar 705, a downward pressing arc-shaped hammer 706, a limiting sliding plate 707, a fourth electric push rod 708, a pressing roller 709, an electric clamp 7010, a discharging roller 7011 and a collecting roller 7012; the fixed disc 701 is inserted into the motion control disc 702; the rear side of the outer ring surface of the motion control disc 702 is in transmission connection with a discharging roller 7011 through a belt; the rear side of the outer ring surface of the discharging roller 7011 is in transmission connection with a collecting roller 7012 through a belt; the motion control circle is inserted into the motion control convex column 703; the outer surface of the motion control convex column 703 is in transmission connection with a rectangular linkage frame 704; the rectangular linkage frame 704 is welded with the control slide bar 705; the outer surface of the control slide rod 705 is in sliding connection with a limit slide plate 707; the sliding rod 705 is controlled to be inserted into the downward pressing arc-shaped hammer 706; the limiting sliding plate 707 is connected with the fixed disc 701; the limiting sliding plate 707 is inserted into the fourth electric push rod 708; the fourth electric push rod 708 is connected with the pinch roller 709; the downward-pressing arc-shaped hammer 706 is connected with the electric clamp 7010; the axis of the discharging roller 7011 is connected with the rear collecting frame plate 3; the axis of the collecting roller 7012 is connected with the rear collecting frame plate 3; the fixed disc 701 is connected with the rear side collective frame plate 3; the motion control disk 702 is coupled to the third drive gear 506.

After the opening on the inner side of the tire is expanded by the external expanding mechanism 6, the intelligent glue is manually wound on the surface of a discharging roller 7011 and the opening on the right side of the intelligent glue is torn, one end on the right side of the intelligent glue is fixed to an electric clamp 7010, a pasting protective film of the intelligent glue is wound and fixed on the outer surface of a collecting roller 7012, then a third transmission gear 506 drives a motion control disc 702 to rotate, meanwhile, the motion control disc 702 drives the discharging roller 7011 to rotate, then, the discharging roller 7011 drives the intelligent glue to rotate clockwise for discharging operation, meanwhile, the collecting roller 7012 is driven to wind and collect the pasting protective film, and a fixed rotating disc 406 drives a tire cover tire to rotate anticlockwise for continuous pasting, meanwhile, the motion control disc 702 drives a motion control convex column 703 to rotate, then, the motion control convex column 703 drives a rectangular linkage frame to reciprocate, and then the rectangular linkage frame 704 drives the control slide bar 705 to reciprocate, and then the control slide bar 705 slides on the inner side of the limit sliding plate 707 to drive the arc pressing hammer 706 to press the inner side of the tire casing, and simultaneously the electric clamp 7010 is controlled to loosen the clamping of the intelligent glue, then the intelligent glue is pasted on the inner surface of the tire, and simultaneously the fourth electric push rod 708 is controlled to push out to drive the pressing roller 709 to press the intelligent glue pasted on the inner side of the tire casing, so that the phenomenon that the intelligent glue is stressed and separated again after being pasted is avoided, and the gluing operation on the inner surface of the tire is completed.

The outward expansion control mechanism 601 comprises a collecting frame plate 60101, a first screw rod 60102, a second screw rod 60103, a fifth driving wheel 60104, a first outward expansion plate 60105, a second outward expansion plate 60106 and a limiting sliding column 60107; the collection frame plate 60101 is inserted into the first lead screw 60102; the first screw 60102 is rotatably connected with the second screw 60103; the second screw 60103 is rotatably connected with a fifth driving wheel 60104; the axle center of the fifth driving wheel 60104 is inserted into the collecting frame plate 60101; the integrated frame plate 60101 and the limiting sliding column 60107 are welded; the inner side of the first outer expanding plate 60105 is sequentially in sliding connection with a second screw 60103 and a limiting sliding column 60107; the inner side of the second outer expanding plate 60106 is sequentially in sliding connection with a second screw rod 60103 and a limiting sliding column 60107; the collecting frame plate 60101 is connected with the rear collecting frame plate 3; the fifth driving wheel 60104 is connected with the fourth driving wheel 602; the fifth driving wheel 60104 is connected with the first driving wheel 502; .

Firstly, the tire fixing mechanism 4 drives the tire casing to move to the outer side of the outer expanding mechanism 6, at the moment, the first outer expanding plate 60105 and the second outer expanding plate 60106 are both positioned at the inner side of the tire casing, the first driving wheel 502 then drives the fifth driving wheel 60104 to rotate by the belt passing around the fourth driving wheel 602, then the fifth driving wheel 60104 rotates to drive the second screw 60103 and the first screw 60102 to rotate, then the second screw 60103 and the first screw 60102 rotate to respectively drive the first outer expanding plate 60105 and the second outer expanding plate 60106 to move, namely, the limiting sliding column 60107 is subjected to limiting sliding, the second screw 60103 and the first screw 60102 rotate and simultaneously drive the first outer expanding plate 60105 and the second outer expanding plate 60106 to move respectively, and then the first outer expanding plate 60105 and the second outer expanding plate 60106 move away from each other, namely, the first outer expanding plate 60105 and the second outer expanding plate 60106 push the inner opening of the tire casing outward, and then expand the inner opening of the tire casing to perform the rubberizing operation.

The cleaning brush 5019 is provided with a high pressure water jet.

So that when the cleaning brush 5019 brushes the inner surface of the tire, a small amount of water can be sprayed by the high-pressure water spray head to assist in cleaning.

The first screw 60102 and the second screw 60103 have opposite outer surface threads.

So that when the first screw 60102 and the second screw 60103 rotate in the same direction, the first screw 60102 and the second screw 60103 may respectively drive the second outer expanding plate 60106 and the first outer expanding plate 60105 to move away from each other in opposite directions.

The outer circumferential surface of the collecting roller 7012 is provided with a small barb.

So that the collecting roller 7012 can fix one end of the adhesive protective film on the surface of the intelligent adhesive to the surface of the collecting roller 7012 through the small barb, and the subsequent winding and collection are convenient.

A plurality of groups of fan plates with balls are arranged below the first outer expanding plate 60105 and the second outer expanding plate 60106.

When the first outer expanding plate 60105 and the second outer expanding plate 60106 expand the inner side of the tire outwards, and meanwhile, the tire fixing mechanism 4 drives the tire casing to rotate and cooperate to glue, the fan plate with the balls can roll on the inner surface of the tire through the balls, namely, the expansion operation of the first outer expanding plate 60105 and the second outer expanding plate 60106 on the inner side opening of the tire is guaranteed when the tire casing rotates.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a rubberizing device is glued to tire intelligence, including first work platen (1), operation control screen (2) and rear side manifold plate (3), characterized by: the device also comprises a tire fixing mechanism (4), a cleaning mechanism (5), an outward expanding mechanism (6) and a rubberizing mechanism (7); the upper part of the first working table plate (1) is sequentially connected with a tire fixing mechanism (4) and an operation control screen (2); the upper part of the first working bedplate (1) is welded with the rear side collective frame plate (3); the rear side collecting frame plate (3) is sequentially connected with a cleaning mechanism (5), an outward expanding mechanism (6) and a rubberizing mechanism (7); the cleaning mechanism (5) is connected with the external expanding mechanism (6); the external expanding mechanism (6) is connected with the adhesive sticking mechanism (7); the adhesive sticking mechanism (7) is connected with the cleaning mechanism (5).

2. The intelligent tire rubberizing device according to claim 1, wherein the tire fixing mechanism (4) comprises a first linear slide rail (401), a first electric slide carriage (402), a second linear slide rail (403), a second electric slide carriage (404), a fixed frame plate (405), a fixed rotating disc (406) and an electric telescopic clamp (407); the upper part of the first linear slide rail (401) is in sliding connection with a first electric slide seat (402); the upper part of the first electric sliding seat (402) is connected with a fixed frame plate (405) through a bolt; the lower part of the fixed frame plate (405) is connected with a second electric sliding seat (404) through a bolt; the lower part of the second electric sliding seat (404) is in sliding connection with a second linear sliding rail (403); the fixed frame plate (405) is sleeved with the fixed rotating disc (406); the inner side of the fixed rotating disc (406) is connected with an electric telescopic clamp (407); the lower part of the first linear slide rail (401) is connected with the first workbench plate (1); the lower part of the second linear slide rail (403) is connected with the first workbench plate (1).

3. The intelligent tire rubberizing device according to claim 2, wherein the cleaning mechanism (5) comprises a power motor (501), a first transmission wheel (502), a first transmission gear (503), a second transmission gear (504), a first electric push rod (505), a third transmission gear (506), a first gathering plate (507), a first bevel gear (508), a second bevel gear (509), a first rotating shaft rod (5010), a second transmission wheel (5011), a third transmission wheel (5012), a fourth transmission gear (5013), a first long gear (5014), a first telescopic rotating shaft (5015), a first propelling sleeve plate (5016), a second electric push rod (5017), a second rotating shaft rod (5018) and a cleaning brush (5019); an output shaft of the power motor (501) is rotationally connected with the first transmission wheel (502); the outer ring surface of the first transmission wheel (502) is in transmission connection with a first transmission gear (503) through a belt; the first transmission gear (503) is meshed with the second transmission gear (504); the second transmission gear (504) is meshed with the third transmission gear (506); a second transmission gear (504) and a first electric push rod (505); the first gathering plate (507) is sequentially connected with the first transmission gear (503) and the third transmission gear (506); the first gathering plate (507) is connected with a first electric push rod (505); the rear side of the outer ring surface of the first transmission gear (503) is in transmission connection with a first bevel gear (508) through a belt; the first bevel gear (508) is meshed with the second bevel gear (509); the first bevel gear (508) is connected with the first gathering plate (507); the axis of the second bevel gear (509) is rotationally connected with the first rotating shaft rod (5010); the outer surface of the first rotating shaft rod (5010) is connected with a first gathering plate (507); the first rotating shaft rod (5010) is in rotating connection with the second transmission wheel (5011); the outer ring surface of the second transmission wheel (5011) is in transmission connection with the third transmission wheel (5012) through a belt; the axle center of the third transmission wheel (5012) is rotationally connected with the first long gear (5014); the axle center of the first long gear (5014) is rotationally connected with the second rotating shaft rod (5018); the second rotating shaft rod (5018) is connected with the first gathering plate (507); the first gathering plate (507) is connected with a first telescopic rotating shaft (5015); the outer surface of the first telescopic rotating shaft (5015) is sleeved with a fourth transmission gear (5013); the outer surface of the first telescopic rotating shaft (5015) is in sliding connection with the first propelling sleeve plate (5016); the first push sleeve plate (5016) is inserted with the second electric push rod (5017); the second electric push rod (5017) is connected with the first gathering plate (507); the first telescopic rotating shaft (5015) is inserted into the cleaning brush (5019); the power motor (501) is connected with the rear-side collective frame plate (3); the first collecting plate (507) is connected with the rear collecting frame plate (3); the first driving wheel (502) is connected with the external expanding mechanism (6); the third transmission gear (506) is connected with the rubberizing mechanism (7).

4. The intelligent tire rubberizing device according to claim 3, wherein the outward expansion mechanism (6) comprises an outward expansion control mechanism (601), a fourth transmission wheel (602) and a third electric push rod (603); the upper part of the external expansion control mechanism (601) is in transmission connection with a fourth transmission wheel (602); the fourth transmission wheel (602) is connected with a third electric push rod (603); the external expansion control mechanism (601) is connected with the rear side collective frame plate (3); the third electric push rod (603) is connected with the rear side collecting frame plate (3); the upper part of the fourth transmission wheel (602) is connected with the first transmission wheel (502); the upper part of the external expansion control mechanism (601) is connected with a first transmission wheel (502).

5. The intelligent tire gluing device of claim 4, wherein the gluing mechanism (7) comprises a fixed disc (701), a motion control disc (702), a motion control convex column (703), a rectangular linkage frame (704), a control slide bar (705), a downward pressing arc-shaped hammer (706), a limiting sliding plate (707), a fourth electric push rod (708), a pressing roller (709), an electric clamp (7010), a discharging roller (7011) and a collecting roller (7012); the fixed disc (701) is inserted with the motion control disc (702); the rear side of the outer ring surface of the motion control disc (702) is in transmission connection with a discharging roller (7011) through a belt; the rear side of the outer ring surface of the discharging roller (7011) is in transmission connection with the collecting roller (7012) through a belt; the motion control circle is inserted with the motion control convex column (703); the outer surface of the motion control convex column (703) is in transmission connection with the rectangular linkage frame (704); the rectangular linkage frame (704) is welded with the control slide bar (705); the outer surface of the control slide bar (705) is in sliding connection with a limit slide plate (707); the sliding rod (705) is controlled to be inserted into the downward pressing arc-shaped hammer (706); the limiting sliding plate (707) is connected with the fixed disc (701); the limiting sliding plate (707) is inserted with a fourth electric push rod (708); the fourth electric push rod (708) is connected with the pressing roller (709); the downward pressing arc-shaped hammer (706) is connected with the electric clamp (7010); the axis of the discharging roller (7011) is connected with the rear side collecting frame plate (3); the axis of the collecting roller (7012) is connected with the rear collecting frame plate (3); the fixed disc (701) is connected with the rear side collective frame plate (3); the motion control disc (702) is connected with the third transmission gear (506).

6. The intelligent tire rubberizing device according to claim 5, wherein the outward expansion control mechanism (601) comprises a collection frame plate (60101), a first lead screw (60102), a second lead screw (60103), a fifth transmission wheel (60104), a first outward expansion plate (60105), a second outward expansion plate (60106) and a limiting sliding column (60107); the collection frame plate (60101) is spliced with a first screw rod (60102); the first screw rod (60102) is rotatably connected with the second screw rod (60103); the second screw rod (60103) is rotationally connected with a fifth driving wheel (60104); the axle center of a fifth driving wheel (60104) is spliced with the collection frame plate (60101); the collection frame plate (60101) is welded with a limiting sliding column (60107); the inner side of the first outer expanding plate (60105) is sequentially in sliding connection with a second screw rod (60103) and a limiting sliding column (60107); the inner side of the second outer expanding plate (60106) is sequentially in sliding connection with a second screw rod (60103) and a limiting sliding column (60107); the collecting frame plate (60101) is connected with the rear collecting frame plate (3); the fifth driving wheel (60104) is connected with the fourth driving wheel (602); the fifth transmission wheel (60104) is connected with the first transmission wheel (502).

7. An intelligent tire gluing device as claimed in claim 6, wherein the cleaning brush (5019) is provided with a high pressure water jet.

8. An intelligent tire gluing device as claimed in claim 7, wherein the thread directions of the outer surfaces of the first screw rod (60102) and the second screw rod (60103) are opposite.

9. An intelligent tire applicator as claimed in claim 8 wherein said collection roller (7012) is provided with a small barb on its outer circumferential surface.

10. The intelligent tire glue applying device as claimed in claim 9, wherein a plurality of groups of fan plates with balls are arranged below the first outward expansion plate (60105) and the second outward expansion plate (60106).

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