CN211915353U - Tyre bead ring head binding machine - Google Patents

Abstract

The utility model discloses a tire bead ring head pricking machine, the lifting device of which comprises a lifting frame arranged on a left upright post and a right upright post; the binding head device comprises a plurality of binding heads which are arranged on the lifting frame through a binding head frame and are arranged side by side on the left and right, the lower part of a binding head rotating sleeve of each binding head is provided with a steel wire ring inlet groove I, and the front end surface of the binding head rotating sleeve is hinged with a shifting piece through a torsional spring; the cord fabric adhesive tape guiding device comprises a plurality of guiding roller sets which are arranged on the binding head frame through a guiding frame and are positioned above the binding head; the cord fabric adhesive tape clamping device comprises a left clamping plate and a right clamping plate which are arranged on a clamping frame and are arranged below the guide roller set in a left-right side-by-side mode, and a left air inlet pipe and a right air inlet pipe which are communicated with the inner air passages of the left clamping plate and the right clamping plate are respectively arranged on the left clamping plate and the right clamping plate; the cord fabric adhesive tape cutting device comprises a plurality of cutting mechanisms which are arranged on a cutting frame and are arranged between a binding head and a clamping mechanism in a left-right side-by-side mode, wherein the cutting frame is arranged on a suspension, and the suspension is arranged on a binding head frame. The utility model discloses the degree of integrating is high, and the operation precision is high.

Description

Tyre bead ring head binding machine

Technical Field

The utility model relates to a tire production facility specifically is a tire bead ring pricks first machine.

Background

The tyre bead ring is a rigid ring made of rubber-coated steel wires arranged according to a certain section shape, and the function of the tyre bead ring is to endow the tyre bead with necessary strength and rigidity so that the tyre is firmly fixed on a wheel rim.

The steel wire rings of the tire have square, round and hexagonal shapes according to the shapes of the sections, the steel wire rings with various shapes of the sections are processed and manufactured on a steel wire ring winding machine, and steel wires are wound and formed and then are bundled into the steel wire rings by a strap or are manually bundled by cord fabric adhesive tapes at the joints of the steel wires.

For the tire bead rings produced in batch, the operation of manually binding the steel wire joints and manually conveying the tire bead rings is adopted, so that the progress of a tire production line is greatly restricted.

In order to solve the defects of the prior art, the applicant company provides a patent application of 'tyre bead ring binding head storage and conveying system' for replacing manpower.

The patent application of the tire bead ring binding storage and conveying system comprises a bead ring binding machine, a bead ring conveying device and a robot ring loading device, wherein a rotary ring supporting device is arranged between the bead ring binding machine and the input front end of the bead ring conveying device, the robot ring loading device is arranged at the output rear end of the bead ring conveying device, a bead ring storage device and a TDA (time domain analysis) station are respectively arranged in front of and behind the left side and the right side of the robot ring loading device, and the rotary ring supporting device is arranged on the left side or the right side of a bead ring winding machine; the rotating support ring alternately transfers the winding steel wire ring to a steel wire ring head binding machine and transfers the head binding steel wire ring to a steel wire ring conveying device; and the robot ring loading device grabs the head-tied steel wire ring on the steel wire ring conveying device to a TDA station or a steel wire ring storage device.

The patent application of the tire bead ring binding head storage and conveying system adopts a bead ring binding head machine and is matched with a related device to establish the connection between the bead ring winding machine and a TDA production station, thereby realizing the high-efficiency automation of bead ring production operation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to protect the tire bead ring head binding machine in the patent application of tire bead ring head binding storage and conveying system.

The utility model discloses tire steel wire winding pricks first machine, its technical scheme is including pricking first device, curtain cloth adhesive tape cutting device, curtain cloth adhesive tape clamping device, curtain cloth adhesive tape guider and elevating gear, wherein:

1. the lifting device comprises a lifting frame, the lifting frame is arranged on a left stand column and a right stand column of the base through a left linear guide rail pair I and a right linear guide rail pair I, and the lifting frame is driven by a ball screw transmission pair I driven by a servo motor I to do up-and-down lifting motion.

2. The binding head device comprises a binding head mechanism which is arranged on the lifting frame through a binding head frame, the binding head mechanism comprises a plurality of binding heads which are arranged side by side on the left and right and synchronously rotate under the driving of a binding head transmission mechanism, each binding head comprises a binding head rotating sleeve which is installed through a bearing, a steel wire ring entering groove I communicated with a rotating sleeve hole is formed in the lower sleeve body of the binding head rotating sleeve, a shifting piece is hinged to the upper portion of the front end face of the binding head rotating sleeve through a torsional spring, the shifting piece is deflected to the return of one side of the steel wire ring entering groove under the action of torsional spring force, and an air nozzle which reversely blows the shifting piece to the other side of the steel wire ring entering groove is arranged at the return position of the.

3. The cord fabric adhesive tape guiding device comprises a plurality of guiding mechanisms which are arranged on the binding head frame through a guiding frame and are positioned above the binding heads, and each guiding mechanism comprises a guiding roller set which vertically conveys the correspondingly unreeled cord fabric adhesive tape downwards side by side from left to right.

4. The cord fabric adhesive tape clamping device comprises clamping mechanisms which are arranged on a clamping frame and are arranged below a plurality of guide roller sets in a left side and a right side by side, the clamping frame is arranged on a binding head frame through a left linear guide rail pair II and is driven by a ball screw transmission pair II driven by a servo motor to move up and down, each clamping mechanism comprises a left clamping plate and a right clamping plate which form a cord fabric adhesive tape channel, a left air inlet pipe and a right air inlet pipe are respectively arranged on the left clamping plate and the right clamping plate, the left air inlet pipe and the right air inlet pipe are respectively communicated with the inner air passages of the left clamping plate and the right clamping plate, and the air outlet of each air passage is arranged.

5. The curtain fabric adhesive tape cutting device comprises a plurality of cutting mechanisms which are arranged on a cutting frame and are arranged between a plurality of binding heads and a plurality of clamping mechanisms in a left-right side-by-side mode, the cutting frame is arranged on a suspension frame through a left linear guide rail pair III and a right linear guide rail pair III and is driven by a ball screw transmission pair III to move up and down, and the suspension frame is arranged on a binding head frame.

The structure of the binding head transmission mechanism comprises a binding head gear sleeve which is coaxially and fixedly connected with the rear side of each binding head rotating sleeve, a steel wire ring inlet groove II which is aligned with the steel wire ring inlet groove I and communicated with a gear sleeve trepanning is formed in the binding head gear sleeve, a left driving gear and a right driving gear which are meshed with the binding head gear sleeve are arranged on two sides of each binding head gear sleeve, each driving gear is arranged on a front rotating shaft of a corresponding speed reducer, the left rotating shaft and the right rotating shaft of the adjacent speed reducers are connected through a coupler, and the left rotating shaft of the left-most speed reducer or the right rotating shaft of the right-most speed reducer is connected with an output shaft of a servo motor IV through a coupler.

One structure of each cutting mechanism comprises a left shear blade and a right shear blade which are hinged, and the driving ends of the left and right shear blades are respectively connected with left and right cylinder rods of the double cylinders through left and right connecting rods.

In order to avoid adding lubricating oil, the bearing adopts plastic oilless bush, and each prick head rotating sleeve, prick head gear sleeve and drive gear all adopt wear-resisting plastic material to make.

In order to obtain larger operation space, one side of the lifting frame is arranged on the left and right upright posts through the left and right linear guide rail pairs I, the head binding frame is arranged on the other side of the lifting frame, and the lifting height can be adjusted according to different specifications of the steel wire ring binding head.

The utility model has the advantages that:

1. the utility model discloses tire steel wire winding pricks first machine and integrates the degree height, saves space, and the motion of several main devices in the machine is servo drive, and mechanism's stroke position is controllable, and the precision of taking one's place is high.

2. The utility model discloses an among the device structure of pricking, the bearing adopts plastics oilless bush, and each pricks the head and changes the cover, pricks head tooth cover and drive gear and all adopts wear-resisting plastic material preparation, need not the oiling and lubricate, has prolonged the life of part greatly, has solved lubricated problem and because of the lubricated pollution problem to the steel wire winding that leads to, has also solved the problem that blocks when rotating.

Drawings

Fig. 1 is an isometric view of an embodiment of the present invention.

Fig. 2 is an isometric view of the elevator assembly of the embodiment of fig. 1.

Fig. 3 is an isometric view of the heading device of the embodiment of fig. 1.

Fig. 4 is a front view of the tying mechanism of fig. 3.

Fig. 5 is a schematic view of the internal structure of the head binding mechanism in fig. 4.

Fig. 6 is a bottom view of fig. 4.

Figure 7 is an isometric view of the curtain guide of the embodiment of figure 1.

FIG. 8 is an isometric view of the glue strip holding device of the embodiment of FIG. 1.

FIG. 9 is a schematic view showing the internal structure of the adhesive tape holding mechanism in FIG. 8.

Fig. 10 is an isometric view of the cutting device of embodiment 1.

Fig. 11 is a top view of fig. 10.

And (3) identifying the figure number: 1. a head bundling device; 2. a cutting device; 3. a cord fabric adhesive tape clamping device; 4. a cord fabric adhesive tape guide device; 5. a lifting device; 6. a lifting frame; 7. a base; 8. a column; 9. a servo motor I; 10. tying heads; 10-1, tying a head and rotating a sleeve; 10-2, enabling the steel wire ring to enter the groove I; 10-3, a plectrum; 10-4, an air nozzle; 11. a head tying frame; 12. a guide frame; 13. a cord fabric rubber strip; 14. a guide roller set; 15. a clamping frame; 16. a clamping mechanism; 16-1, left splint; 16-2, right splint; 16-3, a left air inlet pipe; 16-4, a right air inlet pipe; 16-5, cord fabric adhesive tape channels; 17. a cutting mechanism; 17-1, a left shear blade; 17-2, right shear blade; 18. a suspension; 19. a double cylinder; 20. a linear guide rail pair I; 21. a ball screw transmission pair I; 22. a head binding mechanism; 23. a linear guide rail pair II; 24. a servo motor II; 25. a linear guide rail pair III; 26. a connecting rod; 27. a binding head gear sleeve; 28. a right drive gear; 29. a left drive gear; 30. a speed reducer; 31. a coupling; 32. a servo motor III; 33. the steel wire ring enters the groove II; 34. a ball screw transmission pair II; 35. cutting frame; 36. a transmission case body; 37. and a ball screw transmission pair III.

Detailed Description

The technical solution of the present invention will be further explained with reference to the embodiments shown in the drawings.

The utility model discloses tire steel wire winding pricks first machine, including pricking first device 1, curtain cloth adhesive tape cutting device 2, curtain cloth adhesive tape clamping device 3, curtain cloth adhesive tape guider 4 and elevating gear 5, as shown in figure 1.

The lifting device 5 comprises a lifting frame 6, the lifting frame 6 is a vertical long-direction frame, the length direction of the long-direction frame is in the left and right directions, a left frame body of the lifting frame 6 is installed on a left upright post 8 and a right upright post 8 through a left linear guide rail pair I20 and a right linear guide rail pair I20, the left upright post 8 and the right upright post 8 are arranged on the rear side of the base 7, a right frame body of the lifting frame 6 is positioned above the right side of the base 7, and the lower area of the lifting frame is used as a steel wire ring binding operation area; the lifting frame 6 is driven by a ball screw transmission pair I21 driven by a servo motor I9 to move up and down along a left linear guide rail pair I20 and a right linear guide rail pair I20, as shown in figure 2.

The head binding device 1 comprises a head binding frame 11 and a head binding mechanism 22, the head binding frame 11 is a vertical square plate frame, the head binding mechanism 22 is arranged at the lower part of the head binding frame 11, and a plate body at the middle upper part of the head binding frame 11 is arranged on a right side frame of the lifting frame 6 through a bolt assembly; the binding head mechanism 22 comprises a binding head transmission mechanism arranged in a transmission box body 36 and three binding heads 10 arranged on the front end face of the transmission box body 36 in parallel at equal intervals from left to right, each binding head 10 comprises a binding head rotating sleeve 10-1 arranged on the transmission box body 36 through a plastic oilless bush, a radial steel wire ring inlet groove I10-2 is formed in the lower sleeve body of the binding head rotating sleeve 10-1 and communicated with a sleeve hole of the binding head rotating sleeve 10-1, a shifting piece 10-3 is arranged on the front end face of the binding head rotating sleeve 10-1, the upper end of the shifting piece 10-3 is hinged to the left side of the upper part of the front end face of the binding head rotating sleeve 10-1 through a torsion spring, the shifting piece 10-3 deflects towards the sleeve hole on the right side of the steel wire ring inlet groove I10-2 under the spring force of the torsion spring to close the steel wire ring inlet groove I10-2, and an air nozzle 10-4 (located in position) arranged on the transmission box body 36 is arranged on The air jet direction of the air jet nozzle 10-4 is vertical to the reset poking piece 10-3, the air jetted by the air jet nozzle 10-4 can blow the poking piece 10-3 reversely to the left side of the steel wire ring entering groove I10-2 so as to open the steel wire ring entering groove I10-2, as shown in figures 3, 4, 5 and 6.

The tying head transmission mechanism comprises four speed reducers 30 which are equidistantly arranged from left to right, a left rotating shaft of the first speed reducer 30 is connected with an output shaft of a servo motor III 32 through a coupler 31, a right rotating shaft of the first speed reducer 30 is connected with a left rotating shaft of the second speed reducer 30 through the coupler 31, a right rotating shaft of the second speed reducer 30 is connected with a left rotating shaft of a third speed reducer 30 through the coupler 31, a right rotating shaft of the third speed reducer 30 is connected with a left rotating shaft of the fourth speed reducer 30 through the coupler 31, a right rotating shaft of the fourth speed reducer 30 is vacant, a front rotating shaft of each speed reducer 30 is coaxially provided with a driving gear, a tying head gear sleeve 27 (the diameter is larger than a tying head gear sleeve 10-1) is meshed between a left driving gear 29 and a right driving gear 28 on the left front rotating shaft of the adjacent speed reducers 30, the three tying head gear sleeves 27 are respectively and are respectively opposite to the three tying head gear sleeves 10-1 and coaxially arranged, the sleeve body of each binding head gear sleeve 27 is provided with a steel wire ring entering groove II 33 which is aligned with the steel wire ring entering groove I10-2 and communicated with the gear sleeve trepanning, and the trepanning diameter of the binding head gear sleeve 27 is consistent with the trepanning diameter of the binding head rotating sleeve 10-1; the servo motor iii 32 synchronously drives the driving gears of the four speed reducers 30, and the three groups of left driving gears 29 and right driving gears 28 synchronously drive the three binder gear sleeves 27 to rotate (the rotation direction is shown in the figure), so that the synchronous rotation of the three binder gear sleeves 10-1 is realized, as shown in fig. 3, 4, 5 and 6.

The curtain cloth adhesive tape guiding device 4 comprises a guiding frame 12 and three guiding mechanisms arranged on the guiding frame 12, the guiding frame 12 is a vertical special-shaped plate frame, the guiding frame 12 is installed in the front of the upper part of the binding frame 11 through a bolt assembly, the three guiding mechanisms are three sets of guiding roller sets 14 (a plurality of waist drum rollers are orderly combined to ensure that curtain cloth adhesive tapes 13 always run in the middle of a roller), the three sets of guiding roller sets 14 correspondingly transport the curtain cloth adhesive tapes 13 unreeled from left to right side by side vertically downwards, and the vertical transport positions of the three curtain cloth adhesive tapes 13 are respectively just opposite to the three binding heads 10 below, as shown in fig. 7.

The cord fabric adhesive tape clamping device 3 comprises a clamping frame 15 and three clamping mechanisms 16 which are arranged in front of the clamping frame 15 in a left-right direction at equal intervals through a support, wherein the clamping frame 15 is arranged on the middle part of the binding head frame 11 through a left linear guide rail pair II 23 and a right linear guide rail pair II 23, and is driven by a ball screw transmission pair II 34 driven by a servo motor II 24 to move up and down along the left linear guide rail pair II 23 and the right linear guide rail pair II 23, and the three clamping mechanisms 16 are positioned at the vertical conveying positions of three cord fabric adhesive tapes 13 and are aligned one by one (also aligned with the displacement of the three binding heads 10); each clamping mechanism 16 comprises a left clamping plate 16-1 and a right clamping plate 16-2 (the inner surfaces of the clamping plates are treated by Teflon) which form a cord fabric adhesive tape channel 16-5, a left air inlet pipe 16-3 and a right air inlet pipe 16-4 are respectively arranged on the left clamping plate 16-1 and the right clamping plate 16-2, the left air inlet pipe 16-3 and the right air inlet pipe 16-4 are respectively communicated with the inner air passages of the left clamping plate 16-1 and the right clamping plate 16-2, the air outlet of each air passage is arranged at the lower end of the corresponding clamping plate, compressed air is blown out from the lower ends of the left clamping plate 16-1 and the right clamping plate 16-2 to blow up a stub bar of a cord fabric adhesive tape 13 so as to feed the cord fabric adhesive tape downwards smoothly, and the lifting movement of a clamping frame 15.

The cord fabric adhesive tape cutting device 2 comprises a cutting frame 35 and a left equidistant cutting mechanism 17 and a right equidistant cutting mechanism 17 which are arranged on the cutting frame 35 in the left direction and the right direction, the cutting frame 35 is arranged on a suspension 18 through a left linear guide rail pair III 25 and a right linear guide rail pair III 25, a left frame foot and a right frame foot at the rear end of the suspension 18 are arranged at the lower part of a binding head frame 11 through bolt assemblies, and the cutting mechanism 17 on the cutting frame 35 is driven by a hand-operated ball screw transmission pair III 37 to move up and down between a clamping mechanism 16 and a binding head 10; each cutting mechanism 17 comprises a hinged left shear blade 17-1 and a hinged right shear blade 17-2, backward driven ends of the left and right shear blades 17-1, 17-2, namely sharp edges (located between the upper and lower clamping mechanisms 16 and the binding head 10), forward driving ends of the left and right shear blades 17-1, 17-2 are respectively connected to backward left and right cylinder rods of the double cylinder 19 through a left and right connecting rod 26, the left and right cylinder rods synchronously extend out and drive the driven ends of the left and right shear blades 17-1, 17-2 to do shearing action to shear the cord fabric adhesive tape 13 through the left and right connecting rods 26, as shown in fig. 10 and 11.

The utility model discloses an operation mode does:

1. the lifting device 5 adjusts the pricking device 1 to a proper height position.

2. The three unreeled cord fabric rubber strips 13 are adjusted to be vertically downward and arranged side by side at equal intervals from left to right through the cord fabric rubber strip guiding device 4.

3. The three vertical cord fabric rubber strips 13 respectively enter the corresponding cord fabric rubber strip channels 16-5.

4. The cord fabric rubber strip 13 blown up at the outlet of the cord fabric rubber strip channel 16-5 is attached to the poking sheet 10-3 of the lower binding head 10, and the poking sheet 10-3 is blown away by the air nozzle 10-4.

5. The bead ring rotating and supporting device rotates three bead rings which are arranged side by side in the left and right directions at equal intervals to the position, the lifting device 5 descends the binding head device 1 to enable the top of each bead ring to enter the groove through the bead ring and to be arranged in the trepanning of the binding head rotating sleeve 10-1 and the binding head gear sleeve 27, the air nozzle 10-4 stops air injection and swings out of the air injection position, the poking piece 10-3 returns to enable the cord fabric rubber strip 13 to be lapped on the binding head part of the bead ring.

6. The binding head transmission mechanism drives the three groups of binding head rotating sleeves 10-1 and the binding head gear sleeves 27 to synchronously rotate, and the plectrum 10-3 rotates around the steel wire ring to wind the cord fabric rubber strip 13 on the binding head in a multi-layer mode.

7. After winding, the cord fabric adhesive tape cutting device 2 cuts off the corresponding cord fabric adhesive tape 13, the air nozzle 10-4 returns to blow the poking piece 10-3, the lifting device 5 lifts the tying device 1 to enable the three steel wire rings to leave the tying device 1, and the steel wire ring rotating and supporting device rotates by an angle to transfer the three steel wire rings to the next station.

Claims (5)

1. Tire steel wire winding pricks first machine, including pricking first device (1), curtain cloth adhesive tape cutting device (2), curtain cloth adhesive tape clamping device (3), curtain cloth adhesive tape guider (4) and elevating gear (5), wherein:

the lifting device (5) comprises a lifting frame (6), the lifting frame (6) is arranged on a left upright post (8) and a right upright post (8) of the base (7) through a left linear guide rail pair I (20) and a right linear guide rail pair I (20), and the lifting frame (6) is driven by a ball screw transmission pair I (21) driven by a servo motor I (9) to move up and down;

the head binding device (1) comprises a head binding mechanism (22) which is arranged on the lifting frame (6) through a head binding frame (11), the binding head mechanism (22) comprises a plurality of binding heads (10) which are arranged side by side at the left and right and synchronously rotate under the driving of the binding head transmission mechanism, each binding head (10) comprises a binding head rotating sleeve (10-1) arranged through a bearing, a steel wire ring entering groove I (10-2) communicated with a sleeve hole of the rotary sleeve is arranged on the lower sleeve body of the binding head rotary sleeve (10-1), a shifting piece (10-3) is hinged on the upper part of the front end surface of the binding head rotary sleeve (10-1) through a torsional spring, the plectrum (10-3) returns and deflects towards one side of the steel wire ring entering groove I (10-2) under the action of torsional spring force, and an air nozzle (10-4) which blows the plectrum (10-3) to the other side of the steel wire ring entering groove I (10-2) in the reverse direction is arranged at the return position of the plectrum (10-3);

the cord fabric adhesive tape guiding device (4) comprises a plurality of guiding mechanisms which are arranged on the binding head frame (11) through a guiding frame (12) and are positioned above the plurality of binding heads (10), and each guiding mechanism comprises a guiding roller set (14) which vertically conveys the correspondingly unreeled cord fabric adhesive tape (13) downwards side by side from left to right;

the curtain cloth adhesive tape clamping device (3) comprises clamping mechanisms (16) which are arranged on a clamping frame (15) and are arranged below a plurality of guide roller sets (14) in a left-right side-by-side mode, the clamping frame (15) is arranged on a binding head frame (11) through a left linear guide rail pair II and a right linear guide rail pair II (23) and is driven by a ball screw transmission pair II (34) driven by a servo motor II (24) to move up and down, each clamping mechanism (16) comprises a left clamping plate (16-1) and a right clamping plate (16-2) which form a curtain cloth adhesive tape channel (16-5), a left air inlet pipe (16-3) and a right air inlet pipe (16-4) are respectively arranged on the left clamping plate (16-1) and the right clamping plate (16-2), the left inlet pipe (16-3) and the right inlet pipe (16-4) are respectively communicated with internal air passages of the left clamping plate (16-1), the air outlet of each air passage is arranged at the lower end of the corresponding clamping plate;

the curtain fabric adhesive tape cutting device (2) comprises a plurality of cutting mechanisms (17) which are arranged on a cutting frame (35) and are arranged between a plurality of binding heads (10) and a plurality of clamping mechanisms (16) in a left-right side-by-side mode, the cutting frame (35) is arranged on a suspension frame (18) through a left linear guide rail pair III (25) and a right linear guide rail pair III (25) and is driven by a ball screw transmission pair III (37) to move up and down, and the suspension frame (18) is arranged on a binding head frame (11).

2. The tire traveler heading machine according to claim 1, wherein: the binding head transmission mechanism comprises binding head gear sleeves (27) which are coaxially and fixedly connected with the rear sides of the binding head rotating sleeves (10-1), steel wire ring inlet grooves II (33) which are aligned with the steel wire ring inlet grooves I (10-2) and communicated with gear sleeve holes are formed in the binding head gear sleeves (27), a left driving gear (28) and a right driving gear (29) which are meshed with the steel wire ring inlet grooves are arranged on the two sides of each binding head gear sleeve (27), each driving gear is installed on a front rotating shaft of a corresponding speed reducer (30), left rotating shafts and right rotating shafts of adjacent speed reducers (30) are connected through a coupler (31), and a left rotating shaft of the leftmost speed reducer (30) or a right rotating shaft of the rightmost speed reducer (30) is connected with an output shaft of a servo motor III (32) through the coupler (31).

3. The tire traveler heading machine according to claim 1, wherein: each cutting mechanism (17) comprises a hinged left shear blade (17-1) and a hinged right shear blade (17-2), and the driving ends of the left and right shear blades (17-1, 17-2) are respectively connected with a left cylinder rod and a right cylinder rod of a double cylinder (19) through a left connecting rod and a right connecting rod (26).

4. The tire traveler heading machine according to claim 1, wherein: the bearing is a plastic oilless bushing, and each prick head rotating sleeve (10-1), the prick head gear sleeve (27) and the driving gear are all made of wear-resistant plastic materials.

5. The tire bead ring heading machine according to any one of claims 1 to 4, wherein: one side of the lifting frame (6) is arranged on a left upright post (8) and a right upright post (8) of the base (7) through a left linear guide rail pair I (20) and a right linear guide rail pair I (20), and the binding head frame (11) is arranged on the other side of the lifting frame (6).

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