CN218701492U - Forming device for tire production - Google Patents

Abstract

The utility model relates to a forming device for tire production, which comprises a rolling structure and a transferring structure; the motor drives the winding roller to rotate, so that the adhesive tape is wound on the winding roller by one circle to preliminarily form a green tire, then the longitudinal driving piece drives the longitudinal moving block to move longitudinally to drive the transverse moving assembly and the clamping assembly to move towards the winding structure, after the longitudinal moving assembly moves to the maximum position, the telescopic rod of the telescopic cylinder extends to drive the clamping assembly to move towards the green tire, then the clamping assembly clamps the green tire, the telescopic cylinder contracts, meanwhile, the longitudinal moving assembly drives the green tire to move longitudinally, so that the green tire is removed from the winding roller, then the transverse driving piece drives the transverse moving block to move transversely in the opening structure to drive the clamping assembly and the green tire to move transversely, the green tire is transferred to the next process, or the green tire is stored uniformly, then the uniformly stored green tire is vulcanized, and the operation is repeated, so that the green tire is transferred automatically.

Description

Forming device for tire production

Technical Field

The utility model relates to a tire production technical field, concretely relates to forming device of tire production usefulness.

Background

A tire is a ground-rolling circular ring-shaped elastic rubber article mounted on various vehicles or machines. Generally mounted on a metal rim, and is capable of supporting a vehicle body, buffering external impact, achieving contact with a road surface and ensuring the driving performance of a vehicle.

The solid tire is also used on the existing vehicle, has the characteristics of high elasticity, strong heat dissipation, good wear resistance and the like, has the advantages of low deformation rate, maintenance cost reduction, long service life and the like, and is more durable than a pneumatic tire (hollow tire).

During the production of the solid tire, rubber and carbon black raw materials are added into a stirring device to be stirred and mixed to finally form a strip-shaped rubber strip, then the rubber strips are conveyed to a winding device through a conveying device, the rubber strip is wound by one turn through a rotating roller in the winding device, then a tire blank is formed, the tire blank is preliminarily molded, the preliminarily molded tire blank is the tire blank, then the tire blank is manually removed from the rotating roller, the tire blank is manually transferred to a vulcanizing device, the tire blank is placed in the vulcanizing device to be vulcanized, the solid tire is completely molded, and the action Jian Shandian of the vulcanizing device is that the green tire blank is steamed into a mature tire blank.

Because the child base is preliminary shaping back, needs artificial transport child base, when the batch production child base, then very consumption physical power through artificial transport for personnel are very tired.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing an automatic change forming device of tire production usefulness of transferring child base.

In order to achieve the purpose, the utility model provides a forming device for tyre production, which comprises a rolling structure and a transferring structure;

the winding structure comprises a winding roller, a motor, a plate body structure and a bottom plate, the plate body structure is arranged at the upper end of the bottom plate, the winding roller is arranged at the front end of the plate body structure, and an output shaft of the motor penetrates through the plate body structure and is connected with one end of the winding roller;

the transfer structure is arranged in front of the rolling structure and comprises longitudinal moving assemblies, transverse moving assemblies and clamping assemblies, the longitudinal moving assemblies are two groups, the longitudinal moving assemblies comprise longitudinal driving pieces and longitudinal moving blocks, the longitudinal driving pieces are used for driving the longitudinal moving blocks to move longitudinally, the transverse moving assemblies comprise U-shaped blocks, the transverse driving pieces and transverse moving blocks, two vertical blocks of the U-shaped blocks are arranged on the two longitudinal moving blocks respectively, opening structures are arranged on the transverse blocks of the U-shaped blocks, the transverse driving pieces are used for driving the transverse moving blocks to move transversely in the opening structures, two telescopic cylinders are arranged on the outer sides of the transverse moving blocks and are connected with the clamping assemblies respectively, and the clamping assemblies are used for clamping the green tires which are preliminarily molded.

The tire blank transferring device has the advantages that adhesive tapes conveyed at the upstream are wound on the winding roller for one circle, the motor drives the winding roller to rotate, the adhesive tapes are wound on the winding roller for one circle, a tire blank is preliminarily formed, then the longitudinal driving piece drives the longitudinal moving block to longitudinally move, the transverse moving assembly and the clamping assembly are driven to move towards the winding structure direction, after the longitudinal moving piece moves to the maximum position, the telescopic rod of the telescopic cylinder extends to drive the clamping assembly to move towards the tire blank direction, then the clamping assembly clamps the tire blank, the telescopic cylinder contracts, meanwhile, the longitudinal moving assembly drives the tire blank to longitudinally move under the action of the longitudinal moving assembly, the tire blank is moved away from the winding roller, then the transverse driving piece drives the transverse moving block to transversely move in the opening structure, the clamping assembly and the tire blank are driven to transversely move, the tire blank is transferred to the next process, or the tire blanks are uniformly stored, then the uniformly stored tire blanks are vulcanized, and the operation is repeated, and the automatic transfer of the tire blanks is realized.

In addition, the green tire is transferred to a desired position by the cooperation of the transverse moving assembly and the longitudinal moving assembly.

According to a preferable scheme, the longitudinal driving piece comprises a rotary screw rod, a longitudinal sliding rod, a fixing block, a groove and a driving motor, the groove is formed in the fixing block, the rotary screw rod and the longitudinal sliding rod are arranged in the groove in parallel, the longitudinal moving block is arranged on the rotary screw rod and the longitudinal sliding rod, and the driving motor is connected with one end of the rotary screw rod.

According to a preferable scheme, the transverse driving piece comprises a rotating lead screw, a transverse sliding rod and a rotating motor, the rotating lead screw and the transverse sliding rod are arranged in an opening structure at ordinary times, a transverse moving block is arranged on the rotating lead screw and the transverse sliding rod, a connecting plate block is arranged on the outer side of the transverse moving block, telescopic cylinders are arranged at the upper position and the lower position of the connecting plate block respectively, a fixing plate is arranged on the outer side of the connecting plate block, and telescopic rods of the two telescopic cylinders penetrate through the fixing plate respectively to be connected with the clamping assembly.

According to a preferable scheme, the clamping assembly comprises two triangular plates and clamping pieces, the two triangular plates are connected through connecting columns between three corners of the two triangular plates, the three clamping pieces are three groups, the three clamping pieces correspond to the three corners of the triangular plates one by one, the three clamping pieces comprise arc-shaped rotating plates, clamping columns and clamping cylinders, the inner ends of the arc-shaped rotating plates are hinged to the middle positions of the connecting columns, one ends of the clamping columns are connected with the outer ends of the arc-shaped rotating plates, telescopic columns of the clamping cylinders are hinged to the middle portions of the inner sides of the arc-shaped rotating plates, and the end portions of the clamping cylinders are hinged to fixing columns between the two triangular plates.

The automatic winding device comprises a winding structure and is characterized by further comprising a tensioning structure, wherein the tensioning structure is arranged on one side of the winding structure and comprises a vertical plate, a transverse plate, lifting pieces and rotating rollers, the vertical plate is arranged on a bottom plate, the upper end of the vertical plate is connected with the transverse plate, the lifting pieces are arranged at two ends of the transverse plate respectively, the two groups of lifting pieces comprise a fixed cylinder, lifting columns, tooth rows, rotating gears, a lifting motor, a stabilizing plate and lifting blocks, the fixed cylinder is arranged on the transverse plate, the lifting columns can be arranged in the fixed cylinder in a lifting mode, the lower ends of the lifting columns penetrate through the transverse plate, notch structures are arranged under one side of the fixed cylinder, the tooth rows are arranged on one side of the lifting columns, the rotating gears are meshed with the tooth rows through the notch structures, the output shaft of the lifting motor penetrates through the stabilizing plate to be connected with the rotating gears, the stabilizing plate is arranged on one side of the fixed cylinder, the lifting blocks are connected with the lower ends of the lifting columns, and the rotating rollers are arranged between the lifting blocks.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of a molding apparatus for tire production according to the present invention;

FIG. 2 is a schematic structural view of a molding apparatus for tire production according to the present invention;

FIG. 3 is a schematic structural view of a partial side sectional view of a forming apparatus for tire production according to the present invention;

FIG. 4 is a schematic view of a portion of a molding apparatus for producing a tire according to the present invention;

fig. 5 is a schematic structural view of a part of a molding apparatus for producing a tire according to the present invention.

Detailed Description

The technical solution in the embodiment of the present invention is clearly and completely described below with reference to the drawings in the embodiment of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, other ways of implementing the invention may be devised different from those described herein, and it will be apparent to those skilled in the art that the invention can be practiced without departing from the spirit and scope of the invention.

A first embodiment;

as shown in fig. 1 and 2, the present invention provides a forming device for tire production, which comprises a rolling structure 10 and a transferring structure 20;

the winding structure 10 comprises a winding roller 11, a motor 12, a plate structure 13 and a bottom plate 14, the plate structure 13 is arranged at the upper end of the bottom plate 14, the winding roller 11 is arranged at the front end of the plate structure 13, and an output shaft of the motor 12 penetrates through the plate structure 13 and is connected with one end of the winding roller 11;

the transfer structure 20 is arranged in front of the rolling structure 10, the transfer structure 20 includes two sets of longitudinal moving assemblies 30, a transverse moving assembly 40 and a clamping assembly 50, the longitudinal moving assemblies 30 include two sets of longitudinal driving members 31 and two sets of longitudinal moving assemblies 38, the longitudinal driving members 31 are used for driving the longitudinal moving blocks 38 to move longitudinally, the transverse moving assembly 40 includes U-shaped blocks 41, a transverse driving member 60 and a transverse moving block 42, two vertical blocks 43 of the U-shaped blocks 41 are respectively arranged on the two longitudinal moving blocks 38, an opening structure 45 is arranged on a transverse block 44 of the U-shaped blocks 41, the transverse driving member 60 is used for driving the transverse moving block 42 to move transversely in the opening structure 45, two telescopic cylinders 46 are arranged outside the transverse moving block 42, the two telescopic cylinders 46 are respectively connected with the clamping assembly 50, and the clamping assembly 50 is used for clamping the preliminarily molded green tire 5.

During the working process, the adhesive tape conveyed from the upstream is wound on the winding roller 11 for one circle, the motor 12 drives the winding roller 11 to rotate, the adhesive tape is wound on the winding roller 11 for one circle, a green tire 5 is preliminarily formed, then the longitudinal driving piece 31 drives the longitudinal moving block 38 to longitudinally move, the transverse moving assembly 40 and the clamping assembly 50 are driven to move towards the winding structure 10, after the longitudinal movement is carried out to the maximum position, the telescopic rod of the telescopic cylinder 46 extends to drive the clamping assembly 50 to move towards the green tire 5, then the clamping assembly 50 clamps the green tire 5, the telescopic cylinder 46 contracts, meanwhile, the longitudinal moving assembly 30 drives the green tire 5 to longitudinally move under the action of the longitudinal moving assembly, so that the green tire 5 is moved away from the winding roller 10, then the transverse driving piece 60 drives the transverse moving block 42 to transversely move in the opening structure 45 to drive the clamping assembly 50 and the green tire 5 to transversely move, the green tire 5 is transferred to the next procedure, or the green tire 5 is stored, and then the uniformly stored green tire 5 is vulcanized, repeated operation is realized, and the transfer of the green tire is automatic.

In addition, the green tire is transferred to a desired position by the cooperation of the transverse moving assembly 40 and the longitudinal moving assembly 30.

A second embodiment;

as shown in fig. 2 to 5, the longitudinal driving member 31 includes a rotary screw 32, a longitudinal sliding rod 33, a fixing block 34, a groove 35 and a driving motor 36, the groove 35 is disposed on the fixing block 34, the rotary screw 32 and the longitudinal sliding rod 33 are disposed in the groove 35 in parallel, the longitudinal moving block 38 is disposed on the rotary screw 32 and the longitudinal sliding rod 33, and the driving motor 36 is connected to one end of the rotary screw 32.

By driving the motor 36 to drive the rotating screw rod 32 to rotate, the rotating screw rod 32 drives the longitudinal moving block 38 to move longitudinally along the longitudinal slide rod 33, the longitudinal moving block 38 moves longitudinally, and the transverse moving assembly 40 and the clamping assembly 50 are driven to move longitudinally.

The transverse driving member 60 comprises a rotary screw rod 61, a transverse sliding rod 62 and a rotary motor 63, the rotary screw rod 61 and the transverse sliding rod 62 are usually arranged in the opening structure 45, the transverse moving block 42 is arranged on the rotary screw rod 61 and the transverse sliding rod 62, a connecting plate block 71 is arranged on the outer side of the transverse moving block 42, telescopic cylinders 46 are respectively arranged at the upper position and the lower position of the connecting plate block 71, a fixing plate 72 is arranged on the outer side of the connecting plate block 71, and telescopic rods of the two telescopic cylinders 46 respectively penetrate through the fixing plate 72 to be connected with the clamping assembly 50.

The rotating motor 63 drives the rotating screw 61 to rotate, so that the transverse moving block 42 moves transversely along the transverse sliding rod 62, and the transverse moving block 42 drives the telescopic cylinder 46 and the clamping assembly 50 to move transversely.

The clamping assembly 50 comprises two triangular plates 51 and clamping pieces 80, the two triangular plates 52 are connected through connecting columns 52, the three clamping pieces 80 are three groups, the three clamping pieces 80 correspond to the three corners of the triangular plates 51 one by one, the three clamping pieces 80 respectively comprise arc-shaped rotating plates 81, clamping columns 82 and clamping cylinders 83, the inner ends of the arc-shaped rotating plates 81 are hinged to the middle positions of the connecting columns 52, one ends of the clamping columns 82 are connected with the outer ends of the arc-shaped rotating plates 81, telescopic columns of the clamping cylinders 83 are hinged to the middle portions of the inner sides of the arc-shaped rotating plates 81, and the end positions of the clamping cylinders 83 are hinged to fixing columns 53 between the two triangular plates 51.

When the telescopic rod of the telescopic cylinder 46 is extended, the clamping assembly 50 is moved towards the green tire 5, then the three clamping columns 82 are arranged on the outer side of the green tire 5, then the three clamping cylinders 83 are contracted simultaneously, so that the inner ends of the three arc-shaped rotating plates 81 rotate towards one side on the three connecting columns 52 simultaneously, meanwhile, the outer ends of the three arc-shaped rotating plates 81 drive the clamping columns 82 to be in contact with the outer side of the green tire 5, thereby clamping the green tire, then the telescopic cylinder 46 is contracted, the clamping assembly 50 is driven to move towards the transverse moving block 42, meanwhile, the green tire 5 clamped by the clamping assembly 50 also moves outwards from the winding roller 11, then the longitudinal driving block 38 is driven to move longitudinally by the longitudinal driving block 31, the transverse moving assembly 40, the clamping assembly 50 and the green tire 5 are driven to move towards the direction far away from the winding roller 11, so that the green tire 5 is removed from the winding roller 11, then the transverse moving block 42 is driven to move transversely by the transverse driving block 60, and then the clamping assembly 50 and the green tire 5 are driven to move transversely, so that the green tire 5 can be transferred to the corresponding position.

The winding mechanism is characterized by further comprising a tensioning structure 90, the tensioning structure 90 is arranged on one side of the winding structure 10, the tensioning structure 90 comprises a vertical plate 91, a transverse plate 92, lifting pieces 100 and rotating rollers 93, the vertical plate 91 is arranged on the bottom plate 14, the upper end of the vertical plate 91 is connected with the transverse plate 92, the two ends of the transverse plate 92 are respectively provided with the lifting pieces 100, the two groups of lifting pieces 100 respectively comprise a fixed cylinder 101, lifting columns 102, gear rows 103, rotating gears 104, lifting motors 105, stabilizing plates 106 and lifting blocks 107, the fixed cylinder 101 is arranged on the transverse plate 92, the lifting columns 102 can be arranged in the fixed cylinder 101 in a lifting mode, the lower ends of the lifting columns 102 penetrate through the transverse plate 92, notch structures 94 are arranged under one side of the fixed cylinder 101, the gear rows 103 are arranged on one side of the lifting columns 102, the rotating gears 104 are meshed with the gear rows 103 through the notch structures 94, output shafts of the lifting motors 105 penetrate through the stabilizing plates 106 to be connected with the rotating gears 104, the stabilizing plates 106 are arranged on one side of the fixed cylinder 101, the lifting blocks 107 are connected with the lower ends of the lifting columns 102, and the two lifting rollers 93 are arranged between the two lifting rollers 93.

When the adhesive tape 4 is wound on the winding roller 11, the adhesive tape 4 is firstly wound from the lower end of the rotating roller 11, then the winding roller 11 is wound by one circle, then the motor 12 drives the winding roller 11 to rotate, the adhesive tape 4 is wound on the winding roller 11 by one circle, then the lifting motor 105 drives the rotating gear 104 to rotate, the rotating gear 104 drives the lifting column 102 to move downwards in the fixed cylinder 101 through the tooth row 103, the lifting column 102 moves downwards to drive the lifting block 107 to move downwards, the lifting block 107 drives the rotating roller 93 to move downwards, and the rotating roller 93 moves downwards to move the adhesive tape 4 downwards, so that the adhesive tape 4 is more tightly wound on the winding roller 11, and the phenomenon that the winding is not tight when the adhesive tape is wound on the winding roller 11 by one circle is avoided.

It is obvious that the described embodiments are only some of the embodiments of the present invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Claims (5)

1. A molding apparatus for tire production, comprising:

the winding structure comprises a winding roller, a motor, a plate body structure and a bottom plate, the plate body structure is arranged at the upper end of the bottom plate, the winding roller is arranged at the front end of the plate body structure, and an output shaft of the motor penetrates through the plate body structure and is connected with one end of the winding roller;

the transfer structure is arranged in front of the winding structure and comprises a longitudinal moving assembly, a transverse moving assembly and a clamping assembly, the longitudinal moving assembly is two sets, the longitudinal moving assembly comprises a longitudinal driving piece and a longitudinal moving block, the longitudinal driving piece is used for driving the longitudinal moving block to move longitudinally, the transverse moving assembly comprises a U-shaped block, a transverse driving piece and a transverse moving block, two vertical blocks of the U-shaped block are arranged on the two longitudinal moving blocks respectively, an opening structure is arranged on the transverse block of the U-shaped block, the transverse driving piece is used for driving the transverse moving block to move transversely in the opening structure, two telescopic cylinders are arranged on the outer side of the transverse moving block and are connected with the clamping assembly respectively, and the clamping assembly is used for clamping a primary molded green tire.

2. The molding apparatus for producing tires according to claim 1, wherein the longitudinal driving member comprises a rotary screw, a longitudinal slide bar, a fixed block, a groove, and a driving motor, the groove is disposed on the fixed block, the rotary screw and the longitudinal slide bar are disposed in the groove in parallel, the longitudinal moving block is disposed on the rotary screw and the longitudinal slide bar, and the driving motor is connected to one end of the rotary screw.

3. The molding apparatus for producing tire as claimed in claim 1, wherein said lateral driving member comprises a rotary screw, a lateral slide bar and a rotary motor, said rotary screw and lateral slide bar are normally disposed in the opening structure, said lateral moving block is disposed on the rotary screw and lateral slide bar, a connecting block is disposed outside the lateral moving block, two telescopic cylinders are disposed at upper and lower positions of the connecting block, respectively, a fixing plate is disposed outside the connecting block, and the telescopic rods of the two telescopic cylinders are connected to the clamping assembly through the fixing plate, respectively.

4. The molding device for producing the tire according to claim 1, wherein the clamping assembly comprises two triangular plates and three clamping members, the two triangular plates are connected through a connecting column, the three clamping members are three groups, the three clamping members correspond to the three corners of the triangular plates one by one, each clamping member comprises an arc-shaped rotating plate, a clamping column and a clamping cylinder, the inner end of the arc-shaped rotating plate is hinged to the middle position of the connecting column, one end of the clamping column is connected with the outer end of the arc-shaped rotating plate, the telescopic column of the clamping cylinder is hinged to the middle portion of the inner side of the arc-shaped rotating plate, and the end position of the clamping cylinder is hinged to a fixing column between the two triangular plates.

5. The forming device for producing the tire according to claim 1, further comprising a tensioning structure, wherein the tensioning structure is arranged on one side of the rolling structure and comprises a vertical plate, a transverse plate, lifting pieces and rotating rollers, the vertical plate is arranged on the bottom plate, the upper end of the vertical plate is connected with the transverse plate, the two ends of the transverse plate are respectively provided with the lifting pieces, the two groups of lifting pieces comprise a fixed cylinder, lifting columns, gear rows, rotating gears, a lifting motor, a stabilizing plate and lifting blocks, the fixed cylinder is arranged on the transverse plate and can be lifted up and down in the fixed cylinder, the lower ends of the lifting columns penetrate through the transverse plate, one side of the fixed cylinder is provided with a notch structure, the gear rows are arranged on one side of the lifting columns, the rotating gears are meshed with the gear rows through the notch structure and connected with the gear rows, output shafts of the lifting motors penetrate through the stabilizing plate and connected with the rotating gears, the stabilizing plate is arranged on one side of the fixed cylinder, the lifting blocks are connected with the lower ends of the lifting columns, and the rotating rollers are arranged between the two lifting blocks.

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