CN117565444B - New energy automobile tire infantees installation device - Google Patents

Abstract

The invention discloses a new energy automobile tire wrapping cloth installation device, which relates to the technical field of tire processing and has the advantages of reducing the possibility of pleating when the new energy automobile tire is attached to U/L type wrapping cloth, thereby reducing the production cost and improving the qualification rate of tire finished products, and the technical scheme is as follows: including feeding frame and the conveyer of setting in feeding frame, the tiling of conveyer upper surface has the matrix part, is fixed with the big frame of laminating on the feeding frame, and the big frame of laminating is connected with axial support through adjusting the subassembly, is fixed with the storage frame that is used for holding rolling U/L type infantees on the axial support, and the head end of U/L type infantees extends the storage frame and laminates with the matrix part, is equipped with on the axial support and reduces to have the bubble between U/L type infantees and the matrix part and to fold the subassembly of laminating in advance of possibility.

Description

New energy automobile tire infantees installation device

Technical Field

The invention relates to the technical field of tire processing, in particular to a new energy automobile tire wrap mounting device.

Background

With the vigorous development of new energy automobile markets, the new energy automobile correspondingly drives the demand of new energy tires, and compared with the traditional fuel oil automobile, the new energy automobile has larger battery pack capacity, and the whole automobile has larger self weight compared with the fuel oil automobile, so the demand on the wear resistance of the tires is higher, and especially the tires of the new energy automobile have strong ground grabbing performance when starting, so that the automobile body is ensured to be stable, free from worry and quick to start.

The traditional tyre processing process is as follows: firstly, placing two bead ring assemblies of a child opening on two ends of a forming drum on a tire forming machine, manually winding the head end of an airtight layer on the forming drum, winding a carcass part on the outer side of the airtight layer, moving the bead ring assemblies from two ends to the middle under the pushing of a back pressure inflatable bag and sleeving the bead ring assemblies outside the carcass part, simultaneously forcing the two ends of the carcass part to roll up upwards to cover and reversely wrap the bead ring assemblies, adhering the two ends of the bead ring assemblies to sidewall parts again, compacting the joint parts of the bead ring, the carcass part, the airtight layer and the sidewall rubber part to form a semi-finished product embryo, then combining and compacting the tread part, the nylon cap ply and the steel band to form a tread assembly, adhering the tread assembly and the semi-finished product embryo to form a complete embryo, then placing the formed embryo into a corresponding mold, applying specific temperature and pressure to generate a series of chemical reactions to generate a tire finished product with a certain strength and complete pattern and sidewall mark.

The tire bead part of the new energy automobile developed at present adopts a conventional design method, the tire is deformed due to the weight of the automobile in the running process, particularly the tire is deformed greatly during starting and cannot be accelerated rapidly, meanwhile, the tire is deformed and worn greatly, so that the service life of the tire is shortened.

In order to attach the above-mentioned wrapping cloth to the carcass part, in the prior art, after the carcass part is wound around the outer side of the inner liner, a worker manually attaches the head end of the wrapping cloth to the carcass part, drives the forming drum to rotate, drives the wrapping cloth to be output outwards from the cloth roll and winds the wrapping cloth on the carcass part until the rim wrapping cloth is wound for one circle, at this time, the forming drum stops rotating, and the wrapping cloth is manually cut.

However, the mounting mode of the wrapping cloth has poor attaching precision, so that the wrapping cloth is gathered, semi-finished products embryo gathered by the wrapping cloth are unqualified products, the gathered wrapping cloth needs to be peeled, and the semi-finished products embryo peeled by the wrapping cloth are easy to be broken due to a notch, thereby improving the production cost and reducing the qualification rate of the finished products of the tyre.

Disclosure of Invention

Aiming at the technical defects, the invention aims to provide the new energy automobile tire wrapping cloth installation device which has the advantages of reducing the possibility of pleating when the new energy automobile tire is attached to the U/L wrapping cloth, reducing the production cost and improving the qualification rate of the tire finished products.

In order to solve the technical problems, the invention adopts the following technical scheme:

the invention provides a new energy automobile tire wrapping cloth installation device which comprises a feeding machine frame and a conveyor arranged in the feeding machine frame, wherein a carcass part is paved on the upper surface of the conveyor, a large lamination frame is fixed on the feeding machine frame and is connected with an axial support through an adjusting component, a material storage frame for accommodating and rolling U/L-shaped wrapping cloth is fixed on the axial support, the head end of the U/L-shaped wrapping cloth extends out of the material storage frame and is laminated with the carcass part, and a pre-lamination component for reducing the possibility of air bubbles existing between the U/L-shaped wrapping cloth and the carcass part to be pleated is arranged on the axial support.

Through adopting above-mentioned technical scheme, matrix part tiling is at the conveyer upper surface, the head end of U/L type infantees extends the storage rack and with matrix part bonding connection, provide power through the conveyer, can drive U/L type infantees steady ejection of compact when the conveyer drives matrix part and removes towards tire building machine direction, simultaneously provide power through laminating subassembly in advance, when U/L type infantees bond on matrix part, laminating subassembly compaction U/L type infantees in advance, reduce the possibility of pleating because of appearing the bubble between U/L type infantees and the matrix part, improve the finished product qualification rate of tire, reduce manufacturing cost.

Preferentially, the pre-attaching assembly comprises a pinch roller arm hinged with an axial support, one end of the pinch roller arm away from the axial support is movably connected with a pinch roller body matched with U/L type Bao Bushi, a swing frame positioned above the pinch roller arm is further fixed on the axial support, a pinch roller cylinder is hinged in the swing frame, and the extension end of the pinch roller cylinder is hinged with the pinch roller arm.

Preferentially, the large attaching frame is provided with a guide assembly which is matched with the pinch roller body to correct the deviation of the part of the U/L type wrapping cloth extending out of the storage frame.

Preferentially, the guide assembly comprises a transition rail fixed at the bottom of the axial support, the inner cavity of the transition rail is hollow, one side of the transition rail facing the pinch roller body and one side of the joint frame are opened, two lug plates which are oppositely arranged are fixed on one side of the transition rail facing the pinch roller body, a transition roller is rotationally connected between the two lug plates, a part of the U/L-shaped wrapping cloth extending out of the storage frame enters the inner cavity of the transition rail and is positioned between the transition rail and the transition roller, and a part of the U/L-shaped wrapping cloth entering between the transition rail and the transition roller penetrates out of the space between the transition rail and the transition roller.

Preferentially, the adjustment subassembly is including fixing two fixing bases in laminating big frame upper surface both sides, two rotate between the fixing base and be connected with horizontal lead screw, the screw thread groove on the horizontal lead screw uses the intermediate position of horizontal lead screw to be central symmetry and arranges, the horizontal lead screw is equipped with two sliding blocks that are located horizontal lead screw both sides respectively through the thread bush outward, sliding block and adjacent axial support and storage rack fixed connection, adjacent fixing base is worn out to the one end of horizontal lead screw and is connected with the fixing base rotation, the part that the fixing base was worn out to the horizontal lead screw is fixed with the hand wheel, laminating big frame is fixed with the support slide rail towards one side of axial support, slide on the support slide rail and be connected with two sliders, the part that the slider deviates from the support slide rail and axial support fixed connection.

Preferentially, one end of the feeding machine frame, which is close to the tire building machine, is fixedly provided with two upright posts which are oppositely arranged, a cross rod which is connected with the two upright posts is fixedly arranged between the two upright posts, the cross rod is connected with a supporting plate through a horizontal moving component, and one side, which is away from the cross rod, of the supporting plate is connected with a blade for cutting U/L wrapping cloth through a vertical moving component.

Preferentially, the horizontal movement assembly is including seting up the spout at the horizontal pole upper surface, the spout internal rotation is connected with the cutting lead screw, the central line direction of cutting lead screw is parallel with the long limit direction of horizontal pole, the cutting lead screw is equipped with the movable block through the thread bush outward, the movable block slides with the spout and is connected, the movable block extends the spout, the part that the movable block extends the spout is fixed with the bearing plate, horizontal pole end fixing has the pivoted cutting motor of drive cutting lead screw, vertical movement assembly is including fixing the mounting panel at the bearing plate up end, be fixed with the cutting cylinder on the mounting panel, the mounting panel is worn to establish by the extension end of cutting cylinder and slide with the mounting panel and be connected, the extension end of cutting cylinder wears out the part of mounting panel and is fixed with square board, the bearing plate is fixed with two slides that set up relatively and axially arranged towards square board one side, slide is connected with the slider on the slide, one side that the slider deviates from the slide is fixed with square board, square board is fixed with the inner chamber cavity, bottom open-ended protection box, the blade sets up in the protection box and rotates with the protection box.

Preferentially, still be connected with the clamp plate that is located the blade below and cooperates with the blade in order to reduce the U/L infantees and appear draging the sword phenomenon and pleating the possibility when cutting on the stand, clamp plate inner chamber cavity and bottom opening, the bar groove that supplies the blade to pass the clamp plate and contradict with matrix part and U/L infantees is seted up to clamp plate intermediate position.

Preferentially, be fixed with the hollow drive box in inner chamber between stand bottom and the feeding frame, the guide way has been seted up to one side of stand orientation clamp plate, control assembly is including setting up the connection lead screw in the guide way, the both ends of connection lead screw all rotate with guide way groove top and tank bottom and be connected, the connection lead screw is equipped with the connecting block through the thread bush, the connecting block slides with the guide way and is connected, the connecting block extends the stand, two be fixed with the connecting plate between the connecting block, the lateral wall fixed connection of connecting plate and clamp plate, the stand is worn to establish in the bottom of connection lead screw and get into the drive box, the connection lead screw rotates with the drive box to be connected, the part coaxial fixed with A synchronizing wheel that the connection lead screw got into the drive box inner chamber, be fixed with driving motor on the drive box, driving motor's output axle head gets into the drive box and rotates with the drive box to be connected, the part coaxial fixed with B synchronizing wheel that driving motor output axle head got into the drive box inner chamber, A synchronizing wheel and B synchronizing wheel overcoat are equipped with the hold-in phase with A synchronizing wheel and B synchronizing wheel adaptation.

Preferentially, the feeding machine frame is fixed with the support frame near tire building machine one end, be equipped with the roll extrusion subassembly that further improves U/L type infantees and matrix part laminating fastness on the support frame, the roll extrusion subassembly is including fixing the control cylinder on the support frame, the extension end of control cylinder articulates and is connected with the connecting rod, the one end that control cylinder was kept away from to the connecting rod articulates and is connected with the traction frame, be fixed with the branch that the level set up on the support frame, traction frame passes through the minor axis rotation with branch and is connected, traction frame rotates towards one side of tire building machine and is connected with the last compression roller of contradicting with U/L type infantees and matrix part on the shaping drum.

The invention has the beneficial effects that:

this new energy automobile tire infantees installation device, matrix part tiling is at the conveyer upper surface, the head end of U/L type infantees extends the storage rack and is connected with matrix part bonding, provide power through the conveyer, the conveyer drives the matrix part and can drive U/L type infantees steady ejection of compact when moving towards tire make-up machine direction, simultaneously provide power through laminating subassembly in advance, when U/L type infantees bonds on matrix part, laminating subassembly compaction U/L type infantees in advance, reduce the possibility of pleating because of appearing the bubble between U/L type infantees and the matrix part, improve the finished product qualification rate of tire, reduce manufacturing cost.

According to the new energy automobile tire wrapping cloth installation device, the part of the U/L-shaped wrapping cloth extending out of the storage rack enters between the transition rail and the transition roller and penetrates out of the space between the transition rail and the transition roller, the U/L-shaped wrapping cloth is guided and corrected through the transition rail and the transition roller, and the possibility that the U/L-shaped wrapping cloth is folded at the bonding position of the U/L-shaped wrapping cloth and the carcass part due to deviation in the bonding process of the part of the U/L-shaped wrapping cloth extending out of the storage rack and the carcass part is further reduced.

This new energy automobile tire infantees installation device, the clamp plate moves down and contradicts with matrix part and U/L type infantees when needs cutting matrix part and U/L type infantees, compresses tightly matrix part and U/L type infantees, reduces U/L type infantees and appears dragging the sword phenomenon and lead to the possibility of pleating because of self viscidity when cutting, and blade roll cutting matrix part and U/L type infantees, further reduces U/L type infantees and appears dragging the sword phenomenon and lead to the possibility of pleating because of self viscidity when cutting.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a carcass part embodying the present embodiment;

FIG. 2 is a schematic diagram of a U/L type wrapping cloth according to the present embodiment;

FIG. 3 is a schematic diagram of the overall structure of the present embodiment;

FIG. 4 is a schematic top view of the embodiment;

fig. 5 is a schematic structural view of the hand wheel according to the present embodiment;

FIG. 6 is an enlarged view of the structure of FIG. 5A according to the present embodiment;

fig. 7 is a schematic structural view of the traction frame according to the present embodiment;

FIG. 8 is an enlarged view of the structure of FIG. 7B according to the present embodiment;

fig. 9 is an enlarged schematic view of the structure of fig. 7C in this embodiment;

fig. 10 is a schematic structural view of a platen according to the present embodiment.

Reference numerals illustrate:

in the figure: 1. a feeding machine frame; 2. a conveyor; 3. a carcass component; 4. attaching a large frame; 5. an adjustment assembly; 501. a fixing seat; 502. a horizontal screw rod; 503. a sliding block; 504. a hand wheel; 505. a support slide rail; 506. a slide block; 6. an axial support; 7. U/L type wrapping cloth; 8. a storage rack; 9. a pre-lamination assembly; 901. a pressure wheel arm; 902. a pinch roller body; 903. a swing frame; 904. a pinch roller cylinder; 10. a guide assembly; 1001. a transition rail; 1002. ear plates; 1003. a transition roller; 11. a column; 12. a cross bar; 13. a horizontal movement assembly; 1301. a chute; 1302. a moving block; 1303. a cutting motor; 14. a support plate; 15. a blade; 16. a vertical movement assembly; 1601. a mounting plate; 1602. a cutting cylinder; 1603. a square plate; 1604. a slideway; 1605. a sliding block; 1606. a protection box; 17. a pressing plate; 1701. a bar-shaped groove; 18. a control assembly; 1801. connecting a screw rod; 1802. a connecting block; 1803. a connecting plate; 1804. a driving motor; 19. a drive box; 20. a guide groove; 21. a support frame; 22. a roll-on assembly; 2201. a control cylinder; 2202. a connecting rod; 2203. a traction frame; 2204. a short shaft; 2205. an upper press roll; 23. a support rod; 24. a tread component; 25. nylon crown band; 26. a steel belt layer; 27. a sidewall member; 28. a bead ring assembly; 30. bead, 31, inner liner; 32. a tire building machine; 3201. a laminating drum; 3202. and (5) back-pressing the inflatable bag.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.

1-10, including feeding frame 1, conveyor 2 and tire make-up machine 32 of setting in feeding frame 1, tire make-up machine 32 is the equipment that can purchase on the market now, so do not make too much in here, the heavy tire deformation that causes in the course of driving especially, the tire warp greatly when starting, can not accelerate fast, simultaneously the tire is because warp, wearing and tearing are also great, cause the life of tire to shorten, in order to solve this kind of phenomenon, laminate U/L type package 7 in the rim of a child position of matrix part 3 both sides, U/L type package 7 adopts 3 x 0.175 cc's steel wire rubberizing output, the steel wire is 90 perpendicular to bead 30 arrangement, compared with conventional package, its intensity geometric multiple promotes, it is favorable to improving the moment torsion when the new energy automobile starts fast, it is fast to add strong tire rim position powerful, it is little to guarantee that the tire warp when starting, easy to control, can fast, and the tire warp is little, and reduce, and tire warp, reduce, the life-span is also can improve.

As shown in fig. 1 and 2, the tire is composed of a tread component 24, a nylon crown band 25, a steel belt layer 26, a sidewall component 27, a carcass component 3, a bead 30 and an air-tight layer 31 from outside to inside, a U/L-shaped turnup 7 is attached to the carcass component 3, in fig. 1, the U/L-shaped turnup 7 is specifically a U-shaped turnup, in fig. 2, the U/L-shaped turnup 7 is specifically an L-shaped turnup, a common new energy automobile tire can use the L-shaped turnup, a new energy automobile tire with extremely severe requirements can use the U-shaped turnup, the U/L-shaped turnup 7 is located at the bead part and is wrapped outside the bead, and the U/L-shaped turnup 7 has the defects of being harder, and the attaching process difficulty is slightly higher.

As shown in fig. 3, in order to install the U/L-shaped wrapping cloth 7, so the feeding machine frame 1 inclines towards one side of the tire forming machine 32, the tire forming machine 32 is located below the inclined end of the feeding machine frame 1, the inner cavity of the feeding machine frame 1 is hollow and the upper side is open, the conveyor 2 comprises a plurality of rotating rollers rotatably connected with the inner cavity of the feeding machine frame 1, the chain wheels are coaxially fixed at the end parts of the rotating rollers, chains meshed with the chain wheels are sleeved outside the plurality of chain wheels, a transmission belt fixed with the chains is sleeved outside the plurality of rotating rollers, a transmission motor for driving one of the rotating rollers to rotate is fixed on the feeding machine frame 1, power is provided through the transmission motor so as to drive the rotating roller coaxially fixed with the output shaft end of the transmission motor to rotate, the rotating roller rotates to drive the chain wheel coaxially fixed with the rotating roller, the chain wheel rotates to drive the transmission belt fixed with the chain to rotate, and then the carcass part 3 placed on the transmission belt and the U/L-shaped wrapping cloth 7 move towards one side of the tire forming machine 32, and the rotating rollers, the chain wheels, the transmission motor and the conveyor 2 are all of the existing structure are not excessively repeated.

As shown in fig. 3, 4, 5 and 6, the upper surface of the conveyor 2 is tiled with a carcass part 3, the U/L-shaped wrapping cloth 7 has adhesiveness, in order to attach the U/L-shaped wrapping cloth 7 to the carcass part 3 and reduce the possibility of pleating the U/L-shaped wrapping cloth 7 caused by poor attaching precision, the feeding frame 1 is fixed with an attaching frame 4, the attaching frame 4 is connected with an axial bracket 6 through an adjusting component 5, the axial bracket 6 is fixed with a material storage frame 8,U for accommodating the rolled U/L-shaped wrapping cloth 7, the head end of the material storage frame 8,U/L-shaped wrapping cloth 7 extends out of the material storage frame 8 and is attached to the carcass part 3, and the axial bracket 6 is provided with a pre-attaching component 9 for reducing the possibility of pleating due to air bubbles between the U/L-shaped wrapping cloth 7 and the carcass part 3.

As shown in fig. 3, fig. 4, fig. 5 and fig. 6, the carcass part 3 is flatly paved on the upper surface of the conveyor 2, the head end of the U/L-shaped wrapping cloth 7 extends out of the material storage rack 8 and is in adhesive connection with the carcass part 3, power is provided by the conveyor 2, the conveyor 2 drives the carcass part 3 to move towards the tire forming machine 32 and simultaneously drives the U/L-shaped wrapping cloth 7 to stably discharge, meanwhile, power is provided by the pre-attaching component 9, when the U/L-shaped wrapping cloth 7 is adhered to the carcass part 3, the pre-attaching component 9 compacts the U/L-shaped wrapping cloth 7, the possibility of pleating due to air bubbles between the U/L-shaped wrapping cloth 7 and the carcass part 3 is reduced, the qualification rate of a tire is improved, the production cost is reduced, the U/L-shaped wrapping cloth 7 is driven to move by the adjusting component 5, the position of the U/L-shaped wrapping cloth 7 is convenient for the carcass part 3 with different sizes, and the applicability of the device is improved.

As shown in fig. 3, fig. 4, fig. 5 and fig. 6, the pre-attaching assembly 9 comprises a pinch roller arm 901 hinged to the axial support 6, one end of the pinch roller arm 901 away from the axial support 6 is movably connected with a pinch roller body 902 matched with the U/L type wrapping cloth 7, a swing frame 903 positioned above the pinch roller arm 901 is further fixed on the axial support 6, a pinch roller cylinder 904 is hinged to the swing frame 903, the extending end of the pinch roller cylinder 904 is hinged to the pinch roller arm 901, power is provided through the pinch roller cylinder 904 so as to adjust the rotation angle of the pinch roller arm 901 and the pinch roller body 902, so that the pinch roller body 902 compacts the U/L type wrapping cloth 7 and the carcass part 3, and the pinch roller body 902 can be disconnected with the U/L type wrapping cloth 7.

In order to reduce the possibility of pleating at the joint between the U/L-shaped wrapping cloth 7 and the carcass part 3 caused by deviation in the process of attaching the U/L-shaped wrapping cloth 7 to the carcass part 3, as shown in fig. 3, 4, 5 and 6, a guide assembly 10 is arranged on the large attaching frame 4, which is matched with the pinch roller body 902 to correct the deviation of the part of the U/L-shaped wrapping cloth 7 extending out of the storage frame 8, and the guide assembly 10 is arranged between the storage frame 8 and the pinch roller body 902 to guide and correct the U/L-shaped wrapping cloth 7 to be contacted with the pinch roller body 902.

As shown in fig. 3, 4, 5 and 6, the guiding assembly 10 comprises a transition rail 1001 fixed at the bottom of the axial bracket 6, the inner cavity of the transition rail 1001 is hollow, one side facing the pinch roller body 902 and one side facing the large lamination frame 4 are opened, two ear plates 1002 which are oppositely arranged are fixed on one side of the transition rail 1001 facing the pinch roller body 902, a transition roller 1003 is rotatably connected between the two ear plates 1002, a part of the U/L-shaped wrapping 7 extending out of the storage frame 8 enters the inner cavity of the transition rail 1001 and is positioned between the transition rail 1001 and the transition roller 1003, and a part of the U/L-shaped wrapping 7 entering between the transition rail 1001 and the transition roller 1003 penetrates out between the transition rail 1001 and the transition roller 1003.

As shown in fig. 3, 4, 5 and 6, the part of the U/L-shaped wrapping cloth 7 extending out of the storage rack 8 enters between the transition rail 1001 and the transition roller 1003, and passes out of the space between the transition rail 1001 and the transition roller 1003, the U/L-shaped wrapping cloth 7 passing out of the space between the transition rail 1001 and the transition roller 1003 is abutted against the carcass part 3, the pinch roller body 902 compacts the U/L-shaped wrapping cloth 7 and the carcass part 3, the transition rail 1001 and the transition roller 1003 play a role in guiding and rectifying the U/L-shaped wrapping cloth 7, and the possibility that the part of the U/L-shaped wrapping cloth 7 extending out of the storage rack 8 is deviated from the bonding process of the carcass part 3, so that the bonding position of the U/L-shaped wrapping cloth 7 and the carcass part 3 is pleated is further reduced.

As shown in fig. 3 and 4 and fig. 5 and 6, the transition roller 1003 is not in contact with the tacky U/L-shaped drape 7, and the U/L-shaped drape 7 is prevented from adhering to the transition roller 1003 to affect the connection of the U/L-shaped drape 7 and the carcass part 3.

As shown in fig. 3, fig. 4, fig. 5 and fig. 6, the adjusting component 5 comprises two fixing seats 501 fixed on two sides of the upper surface of the large attaching frame 4, a horizontal screw rod 502 is rotationally connected between the two fixing seats 501, a thread groove on the horizontal screw rod 502 is symmetrically arranged by taking the middle position of the horizontal screw rod 502 as a center, two sliding blocks 503 respectively positioned on two sides of the horizontal screw rod 502 are arranged outside the horizontal screw rod 502 through thread sleeves, the sliding blocks 503 are fixedly connected with adjacent axial brackets 6 and a storage frame 8, one end of the horizontal screw rod 502 penetrates out of the adjacent fixing seats 501 and is rotationally connected with the fixing seats 501, a hand wheel 504 is fixed on the part of the horizontal screw rod 502 penetrating out of the fixing seats 501, a bracket sliding rail 505 is fixed on one side of the large attaching frame 4 facing the axial brackets 6, two sliding blocks 506 are slidingly connected on the bracket sliding rail 505, and the part of the sliding blocks 506 deviating from the bracket sliding rail 505 is fixedly connected with the axial brackets 6.

As shown in fig. 3, fig. 4, fig. 5 and fig. 6, the manual rotation hand wheel 504 provides power so as to drive the horizontal screw rod 502 to rotate, the rotation of the horizontal screw rod 502 drives the two sliding blocks 503 to move in opposite directions on the horizontal screw rod 502, the movement of the sliding blocks 503 drives the axial support 6 fixed with the sliding blocks 503 and the material storage rack 8 to move, the movement of the axial support 6 is guided through the cooperation of the support sliding rail 505 and the sliding blocks 506, and the stability of the movement of the axial support 6, the sliding blocks 503 and the material storage rack 8 is improved so as to adjust the position of the U/L-shaped wrapping cloth 7.

As shown in fig. 3, 4, 7 and 8, one end of the feeding machine frame 1, which is close to the tire forming machine 32, is fixed with two opposite upright posts 11, a cross bar 12 for connecting the two upright posts 11 is fixed between the two upright posts 11, a support plate 14 is connected to the cross bar 12 through a horizontal moving assembly 13, a blade 15 for cutting the U/L-shaped wrapping cloth 7 is connected to one side of the support plate 14, which is away from the cross bar 12, through a vertical moving assembly 16, the blade 15 is driven to move downwards by the vertical moving assembly 16 to be in contact with the U/L-shaped wrapping cloth 7 so as to cut the carcass part 3 and the U/L-shaped wrapping cloth 7, and the blade 15 is driven by the horizontal moving assembly 13 to move along the long side direction of the cross bar 12 so as to cut the carcass part 3 and the U/L-shaped wrapping cloth 7, and the carcass part 3 and the U/L-shaped wrapping cloth 7 do not need manual cutting.

As shown in fig. 3, fig. 4, fig. 7 and fig. 8, the horizontal moving assembly 13 comprises a chute 1301 formed on the upper surface of the cross rod 12, a cutting screw rod is rotationally connected in the chute 1301, the central line direction of the cutting screw rod is parallel to the long side direction of the cross rod 12, a moving block 1302 is arranged outside the cutting screw rod through a threaded sleeve, the moving block 1302 is slidably connected with the chute 1301, the moving block 1302 extends out of the chute 1301, the part of the moving block 1302 extending out of the chute 1301 is fixed with a supporting plate 14, the end of the cross rod 12 is fixed with a cutting motor 1303 for driving the cutting screw rod to rotate, the vertical moving assembly 16 comprises a mounting plate 1601 fixed on the upper end surface of the supporting plate 14, a cutting cylinder 1602 is fixed on the mounting plate 1601, an extension end of the cutting cylinder 1602 penetrates through the mounting plate 1601 and is slidably connected with the mounting plate 1601, two opposite slide ways arranged axially, a sliding block 1605 is slidably connected on the slide way 1604, one side of the sliding block 1605, which is away from the slide way, is fixed with the square plate 1603, a side of the sliding block 1603, which is away from the sliding block 1605, is fixed with an inner cavity 16015, a protection box 1606 is arranged in the protection box 1606, and the protection box 1606 is rotatably connected with the protection box 1606, and the protection box 1606 is arranged in the protection box 1606.

As shown in fig. 3 and 4 and fig. 7 and 8, the cutting motor 1303 is used for providing power so as to drive the cutting screw to rotate, the moving block 1302 is matched with the moving block 1302 in threaded connection with the cutting screw, the moving block 1302 moves along the central line direction of the cutting screw to drive the blade 15 to move, the cutting cylinder 1602 is used for providing power to drive the square plate 1603 and the protection box 1606 to move in the vertical direction so as to drive the blade 15 to move downwards to contact with the carcass part 3, and the carcass part 3 and the U/L type wrapping cloth 7 are conveniently cut.

As shown in fig. 3 and 4 and fig. 7 and 10, the upright 11 is also connected with a pressing plate 17 which is positioned below the blade 15 and is matched with the blade 15 to reduce the possibility of pleating the U/L-shaped wrapping cloth 7 due to the phenomenon of dragging during cutting, the cavity of the pressing plate 17 is hollow and is open at the bottom, and a strip-shaped groove 1701 for the blade 15 to penetrate through the pressing plate 17 and collide with the carcass part 3 and the U/L-shaped wrapping cloth 7 is formed in the middle position of the pressing plate 17.

As shown in fig. 3 and 4 and fig. 7 and fig. 9 and fig. 10, the height of the pressing plate 17 is adjusted by the control assembly 18, so that the pressing plate 17 moves downwards and is in conflict with the carcass part 3 and the U/L-shaped wrapping cloth 7 when the carcass part 3 and the U/L-shaped wrapping cloth 7 need to be cut, the carcass part 3 and the U/L-shaped wrapping cloth 7 are tightly pressed, and the possibility of pleating caused by the phenomenon of dragging blades due to the self viscosity of the U/L-shaped wrapping cloth 7 during cutting is avoided.

As shown in fig. 10, two ends of the bottom of the pressing plate 17 are bent inwards to extend, an arc-shaped groove is formed in the bottom of the pressing plate 17, so that the contact area between the pressing plate 17 and the U/L-shaped wrapping cloth 7 and the contact area between the pressing plate 17 and the carcass part 3 are reduced, the possibility that the pressing plate 17 is adhered to the U/L-shaped wrapping cloth 7 is reduced, lubricating oil is coated on the bottom of the pressing plate 17, and the possibility that the U/L-shaped wrapping cloth 7 and the carcass part 3 are adhered to the pressing plate 17 and are pleated is further reduced.

As shown in fig. 3, fig. 4, fig. 7 and fig. 9, a driving box 19 with a hollow inner cavity is fixed between the bottom end of the upright post 11 and the feeding machine frame 1, a guide groove 20 is formed on one side, facing the pressing plate 17, of the upright post 11, a control assembly 18 comprises a connecting screw 1801 arranged in the guide groove 20, two ends of the connecting screw 1801 are rotationally connected with the groove top and the groove bottom of the guide groove 20, a connecting block 1802 is arranged on the connecting screw 1801 through a threaded sleeve, the connecting block 1802 is slidably connected with the guide groove 20, the connecting block 1802 extends out of the upright post 11, a connecting plate 1803 is fixed between the two connecting blocks 1802, the connecting plate 1803 is fixedly connected with the outer side wall of the pressing plate 17, the bottom end of the connecting screw 1801 penetrates through the upright post 11 and enters the driving box 19, the connecting screw 1801 is rotationally connected with the driving box 19, a synchronous wheel is coaxially fixed on the driving box 19, a synchronous wheel 1804 is fixed on the driving box 19, an output shaft end of the driving motor 1804 enters the inner cavity of the driving box 19, a synchronous wheel is coaxially fixed on the part of the driving box 1804, and the synchronous wheel is matched with the synchronous belt of the synchronous wheel.

As shown in fig. 3 and 4 and fig. 7 and 9, power is provided by a driving motor 1804, and the connecting screw 1801 is driven to rotate by a synchronizing wheel a, a synchronizing wheel B and a synchronous belt, so that the connecting screw 1801 is driven to rotate, the connecting screw 1801 rotates to drive a connecting block 1802 in threaded connection with the connecting screw 1801 to move, and meanwhile, the connecting block 1802, the connecting plate 1803 and the pressing plate 17 which are of an integrated structure are driven to move, so that the height of the pressing plate 17 is adjusted.

As shown in fig. 3, fig. 4 and fig. 7, a support frame 21 is fixed at one end of the feeding machine frame 1, which is close to the tire forming machine 32, a rolling assembly 22 for further improving the attaching firmness of the U/L-shaped wrapping cloth 7 and the carcass part 3 is arranged on the support frame 21, the rolling assembly 22 comprises a control cylinder 2201 fixed on the support frame 21, a connecting rod 2202 is hinged at the extension end of the control cylinder 2201, a traction frame 2203 is hinged at one end of the connecting rod 2202, which is far away from the control cylinder 2201, a supporting rod 23 which is horizontally arranged is fixed on the support frame 21, the traction frame 2203 is rotatably connected with the supporting rod 23 through a short shaft 2204, and an upper compression roller 2205 which is in contact with the U/L-shaped wrapping cloth 7 on the forming drum and the carcass part 3 is rotatably connected at one side of the traction frame 2203, which faces the tire forming machine 32.

As shown in fig. 3, fig. 4 and fig. 7, the control cylinder 2201 provides power to push the traction frame 2203 to rotate around the short shaft 2204, the rotation of the traction frame 2203 drives the upper press roller 2205 on the traction frame 2203 to move, the firmness of the attachment of the U/L-shaped wrapping cloth 7 to the carcass part 3 is further improved when the upper press roller 2205 is in contact with the U/L-shaped wrapping cloth 7 on the forming drum and the carcass part 3, and the possibility of air bubbles between the U/L-shaped wrapping cloth 7 and the carcass part 3 to pleat is reduced.

As shown in fig. 3, 4 and 7, two lifting cylinders are fixed below the attaching drum 3201 of the tire building machine 32, strip-shaped plates are fixed at the extending ends of the two lifting cylinders, and lower press rollers are rotatably connected to the strip-shaped plates.

When the tire forming machine is used, firstly, two bead ring assemblies 28 of a tire are placed at two ends of a forming drum on the tire forming machine 32, the head end of an airtight layer 31 is wound on the forming drum manually, then a carcass part 3 is laid on a conveying belt in a flat mode, a worker grasps a hand wheel 504 according to the size of the carcass part 3 and manually rotates the hand wheel 504, the hand wheel 504 rotates to drive a horizontal screw rod 502 fixedly connected with the hand wheel 504 to rotate, the horizontal screw rod 502 rotates to drive two sliding blocks 503 in threaded connection with the horizontal screw rod 502 to move on the horizontal screw rod 502 in opposite directions, the sliding blocks 503 move to drive an axial support 6 fixed with the sliding blocks 503 and a storage rack 8 to move, the axial support 6 moves through the matching of a support sliding rail 505 and the sliding blocks 506 so as to conveniently adjust a U/L type wrapping 7 to a proper position, and after the U/L type wrapping 7 moves to the proper position, the hand wheel 504 and a fixing seat 501 are fixed by screws by the worker;

then, a worker grabs the head end of the U/L type wrapping cloth 7, and the head end of the U/L type wrapping cloth 7 enters between the transition rail 1001 and the transition roller 1003 and penetrates out of the transition rail 1001, and the head end of the U/L type wrapping cloth 7 penetrating out of the transition rail 1001 is bonded and connected with a proper position of the carcass part 3;

then, a pinch roller cylinder 904 is opened, power is provided by the pinch roller cylinder 904, a pinch roller arm 901 which is hinged with the extension end of the pinch roller cylinder 904 is driven to rotate, so that the position of a pinch roller body 902 is adjusted, the pinch roller body 902 is abutted against the U/L-shaped wrapping cloth 7, and the U/L-shaped wrapping cloth 7 and a carcass part 3 are compacted;

the transmission belt and the carcass part 3 are limited by clamping, the possibility that the carcass part 3 cannot move along with rotation of the transmission belt under the action of the U/L-shaped wrapping cloth 7 is reduced, the transmission motor is turned on, the transmission motor is used for providing power to drive the transmission belt to rotate, so that the carcass part 3 on the transmission belt is driven to move, the U/L-shaped wrapping cloth 7 is pulled to discharge from the storage rack 8 by the movement of the carcass part 3, the U/L-shaped wrapping cloth 7 is guided and rectified by the cooperation of the transition rail 1001 and the transition roller 1003, the possibility that the U/L-shaped wrapping cloth 7 is folded due to deviation in the attaching process of the U/L-shaped wrapping cloth 7 and the carcass part 3 is reduced, and the possibility that the U/L-shaped wrapping cloth 7 is compacted by the pinch roller body 902 is reduced;

when the/L-shaped wrapping cloth and the carcass part 3 move to be close to the tire forming machine 32, the clamp is opened, the conveying belt is disconnected with the carcass part 3, a worker manually fixes the head of the carcass part 3 outside the airtight layer 31 on the forming drum, then the control cylinder 2201 is opened, the control cylinder 2201 provides power, the control cylinder 2201 pushes the traction frame 2203 to rotate around the short shaft 2204, the rotation of the traction frame 2203 drives the upper pressing roller 2205 on the traction frame 2203 to move, the upper pressing roller 2205 is in contact with the U/L-shaped wrapping cloth 7 on the forming drum and the carcass part 3, and the airtight layer 31, the U/L-shaped wrapping cloth 7 and the carcass part 3 are compacted along with the U/L-shaped wrapping cloth 7 and the carcass part 3 wound on the outer side of the airtight layer 31 for one circle, so that the firmness of the attachment of the U/L-shaped wrapping cloth 7 and the carcass part 3 is further improved, and the possibility of air bubbles between the U/L-shaped wrapping cloth 7 and the carcass part 3 is reduced;

meanwhile, the lifting cylinder is opened, power is provided by the lifting cylinder, a strip-shaped plate fixed with the extension end of the lifting cylinder is driven to move upwards, the strip-shaped plate moves upwards to drive a lower press roller rotationally connected with the strip-shaped plate to move upwards, the lower press roller moves upwards to be in contact with the U/L-shaped wrapping cloth 7 on the forming drum and the carcass part 3, and the U/L-shaped wrapping cloth 7 and the carcass part 3 are wound on the outer side of the airtight layer 31 for one circle along with the fact that the U/L-shaped wrapping cloth 7 and the carcass part 3 are wound, and the airtight layer 31, the U/L-shaped wrapping cloth 7 and the carcass part 3 are compacted;

according to the length of the U/L type wrapping cloth 7 and the carcass part 3 around the outer side of the inner liner 31, the driving motor 1804 is turned on, power is provided by the driving motor 1804, the driving motor 1804 can drive the B synchronous wheel to rotate, the rotation of the B synchronous wheel can drive the synchronous belt matched with the B synchronous wheel to rotate, the rotation of the synchronous belt can drive the A synchronous wheel matched with the synchronous belt to rotate, the A synchronous wheel rotates to drive the connecting screw 1801 coaxially fixed with the A synchronous wheel, so that the connecting block 1802 in threaded connection with the connecting screw 1801 is driven to move downwards, the connecting block 1802, the connecting plate 1803 and the pressing plate 17 which are integrally structured are driven to move downwards, the pressing plate 17 is pushed against the carcass part 3 and the U/L type wrapping cloth 7 to press the carcass part 3 and the U/L type wrapping cloth 7, and the possibility of pleating caused by viscous drag phenomenon of the U/L type wrapping cloth 7 during cutting is reduced;

the cutting cylinder 1602 is opened, power is provided by the cutting cylinder 1602, the square plate 1603, the protection box 1606 and the blade 15 are driven to move in the vertical direction, the blade 15 moves downwards and penetrates through the strip-shaped groove 1701 to form the pressing plate 17, the part of the blade 15 penetrating through the pressing plate 17 is contacted with the position where the carcass part 3 and the U/L-shaped wrapping cloth 7 need to be cut, the cutting motor 1303 is opened, the cutting motor 1303 is powered by the cutting motor 1303, the cutting screw is driven to rotate, the moving block 1302 in threaded connection with the cutting screw is driven to move along the width direction of the carcass part 3, the carcass part 3 and the U/L-shaped wrapping cloth 7 are cut, manual cutting is not needed, and the possibility that the U/L-shaped wrapping cloth 7 is folded due to the phenomenon of dragging caused by self viscosity in the cutting process of the blade 15 rolling cutting in the moving process is further reduced.

After cutting, under the action of the tire forming machine 32, the forming drum rotates to drive the carcass part 3 and the U/L-shaped wrapping cloth 7 to wind around the outer circumference of the airtight layer 31, the joints are aligned, the bead ring assembly 28 moves from two ends to the middle under the pushing of the back pressure inflatable bag 3202 and is sleeved outside the carcass part 3, meanwhile, the two ends of the carcass part 3 are forced to be rolled up to cover and reversely wrap the bead ring assembly 28, the two ends are attached with the sidewall part 27 again, the bead ring assembly 28, the carcass part 3, the U/L-shaped wrapping cloth 7, the airtight layer 31 and the sidewall rubber part are compacted to form a semi-finished embryo, the tread part 24, the nylon crown band 25 and the steel band layer 26 are combined and compacted to form a tread assembly, the tread assembly is attached with the semi-finished embryo and compacted to form a complete embryo, then the formed embryo is placed into a corresponding mold, a series of chemical reactions are applied to generate a tire finished product with a certain strength, the complete pattern and the sidewall mark, and the tire is processed as in the prior art, so that the process of the tire is not repeated.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (5)

1. The utility model provides a new energy automobile tire infantees installation device, its characterized in that includes feeding frame (1) and sets up conveyer (2) in feeding frame (1), conveyer (2) upper surface tiling has matrix part (3), be fixed with big frame (4) of laminating on feeding frame (1), big frame (4) of laminating is connected with axial support (6) through adjusting subassembly (5), be fixed with on axial support (6) and be used for holding the storage frame (8) of rolling U/L type infantees (7), the head end of U/L type infantees (7) extends storage frame (8) and laminates with matrix part (3), be equipped with on axial support (6) and reduce between U/L type infantees (7) and matrix part (3) bubble and laminate subassembly (9) in advance of possibility of pleating;

the pre-attaching assembly (9) comprises a pinch roller arm (901) hinged with an axial support (6), one end, far away from the axial support (6), of the pinch roller arm (901) is movably connected with a pinch roller body (902) matched with a U/L wrapping cloth (7), a swing frame (903) positioned above the pinch roller arm (901) is further fixed on the axial support (6), a pinch roller cylinder (904) is hinged in the swing frame (903), and the extension end of the pinch roller cylinder (904) is hinged with the pinch roller arm (901);

a guide assembly (10) which is matched with the pinch roller body (902) and has a deviation rectifying effect on the part of the U/L type wrapping cloth (7) extending out of the material storage rack (8) is arranged on the large lamination rack (4);

two opposite upright posts (11) are fixed at one end of the feeding machine frame (1) close to the tire forming machine (32), a cross rod (12) for connecting the two upright posts (11) is fixed between the two upright posts (11), a supporting plate (14) is connected to the cross rod (12) through a horizontal moving assembly (13), and a blade (15) for cutting the U/L-shaped wrapping cloth (7) is connected to one side of the supporting plate (14) away from the cross rod (12) through a vertical moving assembly (16);

the upright post (11) is also connected with a pressing plate (17) which is positioned below the blade (15) and matched with the blade (15) to reduce the possibility of pleating the U/L type wrapping cloth (7) due to the phenomenon of dragging during cutting, the cavity of the pressing plate (17) is hollow and the bottom of the pressing plate is open, and a strip-shaped groove (1701) for the blade (15) to penetrate through the pressing plate (17) and collide with the carcass part (3) and the U/L type wrapping cloth (7) is formed in the middle position of the pressing plate (17);

a hollow driving box (19) is fixed between the bottom end of the upright post (11) and the feeding machine frame (1), a guide groove (20) is formed in one side, facing the pressing plate (17), of the upright post (11), the control assembly (18) comprises a connecting screw rod (1801) arranged in the guide groove (20), two ends of the connecting screw rod (1801) are rotationally connected with the top and the bottom of the guide groove (20), the connecting screw rod (1801) is provided with a connecting block (1802) through a threaded sleeve, the connecting block (1802) is slidably connected with the guide groove (20), the connecting block (1802) extends out of the upright post (11), a connecting plate (1803) is fixed between the two connecting blocks (1802), the connecting plate (1803) is fixedly connected with the outer side wall of the pressing plate (17), the bottom end of the connecting screw rod (1801) penetrates through the upright post (11) and enters the driving box (19), the connecting screw rod (1801) is rotationally connected with the driving box (19), a part of the connecting screw rod (1801) entering the inner cavity of the driving box (19) is fixedly provided with a motor A, the driving box (1804) is fixedly connected with the driving box (19) and is rotationally connected with the driving box (19) through a synchronous motor (19), and a B synchronous wheel is coaxially fixed at the part of the output shaft end of the driving motor (1804) entering the inner cavity of the driving box (19), and synchronous belts matched with the A synchronous wheel and the B synchronous wheel are sleeved outside the A synchronous wheel and the B synchronous wheel.

2. A new energy automobile tyre wrap mounting device according to claim 1, wherein the guiding assembly (10) comprises a transition rail (1001) fixed at the bottom of the axial bracket (6), the inner cavity of the transition rail (1001) is hollow, one side facing the pinch roller body (902) and one side facing the laminating frame (4) are opened, two oppositely arranged lug plates (1002) are fixed on one side of the transition rail (1001) facing the pinch roller body (902), two transition rollers (1003) are rotatably connected between the two lug plates (1002), the part of the U/L-shaped wrap (7) extending out of the storage frame (8) enters the inner cavity of the transition rail (1001) and is positioned between the transition rail (1001) and the transition rollers (1003), and the part of the U/L-shaped wrap (7) entering between the transition rail (1001) and the transition rollers (1003) penetrates between the transition rail (1001) and the transition rollers (1003).

3. The new energy automobile tire wrap installation device according to claim 1, wherein the adjusting component (5) comprises two fixing seats (501) fixed on two sides of the upper surface of the large attaching frame (4), a horizontal screw rod (502) is rotatably connected between the two fixing seats (501), thread grooves on the horizontal screw rod (502) are symmetrically arranged by taking the middle position of the horizontal screw rod (502) as a center, two sliding blocks (503) respectively positioned on two sides of the horizontal screw rod (502) are sleeved outside the horizontal screw rod (502) through threads, the sliding blocks (503) are fixedly connected with adjacent axial supports (6) and a storage frame (8), one end of the horizontal screw rod (502) penetrates out of the adjacent fixing seats (501) and is rotatably connected with the fixing seats (501), and a hand wheel (504) is fixed on the part of the horizontal screw rod (502) penetrating out of the fixing seats (501).

One side of the large laminating frame (4) facing the axial support (6) is fixedly provided with a support sliding rail (505), the support sliding rail (505) is connected with two sliding blocks (506) in a sliding manner, and the part of the sliding blocks (506) deviating from the support sliding rail (505) is fixedly connected with the axial support (6).

4. A new energy automobile tire wrap installation device as in claim 3, wherein the horizontal movement assembly (13) comprises a chute (1301) arranged on the upper surface of the cross bar (12), a cutting screw is rotationally connected to the chute (1301), the central line direction of the cutting screw is parallel to the long side direction of the cross bar (12), a movement block (1302) is sleeved outside the cutting screw through threads, the movement block (1302) is slidingly connected with the chute (1301), the movement block (1302) extends out of the chute (1301), the part of the movement block (1302) extending out of the chute (1301) is fixed with the support plate (14), and a cutting motor (1303) for driving the cutting screw to rotate is fixed at the end part of the cross bar (12);

the utility model provides a vertical removal subassembly (16) is including fixing mounting panel (1601) at bearing plate (14) up end, be fixed with cutting cylinder (1602) on mounting panel (1601), mounting panel (1601) and with mounting panel (1601) slip connection are worn to establish by the extension end of cutting cylinder (1602), the part that the extension end of cutting cylinder (1602) was worn out mounting panel (1601) is fixed with square board (1603), bearing plate (14) are fixed with two slide (1604) that set up relatively and axially arranged towards square board (1603) one side, slide on slide (1604) and be connected with slider (1605), one side that slider (1605) deviates from slide (1604) is fixed with square board (1603), one side that square board (1603) deviates from slider (1605) is fixed with the inner chamber cavity, bottom open-ended protection box (1606), blade (15) set up in protection box (1606) and rotate with protection box (1606), blade (15) extend protection box (1606).

5. The new energy automobile tire wrap installation device according to claim 1, wherein one end of the feeding machine frame (1) close to the tire forming machine (32) is fixedly provided with a supporting frame (21), and the supporting frame (21) is provided with a rolling assembly (22) for further improving the bonding firmness of the U/L-shaped wrap (7) and the carcass part (3);

the rolling assembly (22) comprises a control cylinder (2201) fixed on a supporting frame (21), a connecting rod (2202) is hinged to the extension end of the control cylinder (2201), a traction frame (2203) is hinged to one end, away from the control cylinder (2201), of the connecting rod (2202), a support rod (23) arranged horizontally is fixed on the supporting frame (21), the traction frame (2203) is rotatably connected with the support rod (23) through a short shaft (2204), and an upper press roller (2205) which is in contact with a U/L-shaped wrapping cloth (7) on a forming drum and a carcass part (3) is rotatably connected to one side, facing the tire forming machine (32), of the traction frame (2203).