CN215624825U - Motorcycle tyre inner support placing device - Google Patents

Abstract

A motorcycle tire inner support piece placing device comprises a picking and placing inner support piece assembly arranged on a truss and a seam allowance opening assembly arranged on a central frame body, wherein the picking and placing inner support piece assembly is movably connected to a cross beam of the truss through a lifting frame; the upper and lower sliding seats of the taking and placing inner supporting piece are connected with the linear guide rail of the taking and placing inner supporting piece in an engaged mode through the sliding block, and the upper and lower sliding seats of the taking and placing inner supporting piece are vertically connected with the mounting seat of the taking and placing inner supporting piece through the vertical connecting shaft. The inner supporting piece is completely placed by replacing manual work with the automatic and intelligent special equipment, so that the improvement of the production efficiency and the fine design of the filling process of the inner supporting piece are realized.

Description

Motorcycle tyre inner support placing device

Technical Field

The utility model relates to an actuating mechanism suitable for a motorcycle tire final assembly production line and used for placing an inner support piece in a disassembled and stacked tire body, belonging to the technical field of motorcycle tire production.

Background

The tyre body structure and the formula of the rubber material of the motorcycle tyre are similar to those of a common automobile tyre, but the motorcycle tyre has unique manufacturing and production requirements due to small volume and different storage and transportation conditions.

In the general assembly production line of motorcycle tires, after vulcanization processing of the tires, an inner support piece is usually required to be lined in a seam of the molded tire to prevent extrusion deformation of a plurality of tires after being stacked for a long time and influence subsequent normal transportation, installation to wheels and other assembly and processing links.

The existing inner support piece filling process links of the motorcycle tire adopt manual operation, so that time and labor are wasted, the field filling efficiency is low, and the accuracy of the position angles of a plurality of groups of inner support pieces is difficult to control through manual filling. In addition, the motorcycle tires have more specifications and types, and the corresponding inner support parts also have various sizes, so that higher technical requirements are provided for field production process and scheduling.

The prior art lacks of full-automatic directional placement equipment and a control method required by filling the inner support part in the motorcycle tire, and does not solve the problems of automatic and intelligent production and supply of the motorcycle tire. Further, the above-mentioned prior patent does not disclose any technical solution for improving the mechanization of assembly and automatic filling in the continuous operation of the batch tires.

In view of this, the present patent application is specifically proposed.

SUMMERY OF THE UTILITY MODEL

The motorcycle tire inner support piece placing device aims to solve the problems in the prior art and provides an inner support piece placing and executing method specially matched with motorcycle tire final assembly production, so that manual placing of the inner support piece is completely replaced by local and intelligent special equipment, and accordingly production efficiency is improved and fine design of an inner support piece filling process is achieved.

In order to achieve the design purpose, the motorcycle tire inner support piece placing device comprises an inner support piece taking and placing assembly arranged on a truss and a sub-opening assembly arranged on a central frame body.

The lifting frame is provided with a linear guide rail for taking and placing the inner supporting piece and a first servo motor for taking and placing the inner supporting piece, wherein the linear guide rail is vertically arranged; the upper and lower sliding seats of the taking and placing inner supporting piece are engaged and connected with the linear guide rail of the taking and placing inner supporting piece through a sliding block, and the upper and lower sliding seats of the taking and placing inner supporting piece are vertically connected with the mounting seat of the taking and placing inner supporting piece through a vertical connecting shaft; the first servo motor for taking and placing the inner supporting piece drives a synchronous belt of the inner supporting piece which is tightly connected with the sliding block through a synchronous belt wheel for taking and placing the inner supporting piece; the upper and lower sliding seats of the picking and placing inner supporting pieces are provided with a second servo motor for picking and placing the inner supporting pieces through a motor fixing seat for picking and placing the inner supporting pieces, the second servo motor for picking and placing the inner supporting pieces is vertically connected with a ball screw for picking and placing the inner supporting pieces through a coupler for picking and placing the inner supporting pieces, screw nuts of the picking and placing inner supporting pieces sleeved on the ball screw for picking and placing the inner supporting pieces are respectively connected with the upper ends of a plurality of groups of picking and placing inner supporting piece supporting rods, the lower ends of the picking and placing inner supporting rods are connected with a sucking disc fixing seat, and a vacuum sucking disc is arranged on the sucking disc fixing seat;

the sub-opening assembly comprises at least one group of correlation photoelectric devices arranged on the central frame body, at least 1 group of sub-opening lifting linear guide rails and at least 1 group of sub-opening rack which are vertically arranged; the seam allowance opening upper and lower sliding seats are connected with the seam allowance opening lifting linear guide rail through the sliding block in a meshing manner; the output end of a sub-opening lifting servo motor which is arranged on the sub-opening upper and lower sliding seats is in driving connection with a sub-opening gear which is arranged on a sub-opening rack; the sub-opening vertical rod servo motor is arranged on the sub-opening upper and lower sliding seats, and an output shaft of the servo motor is connected with a sub-opening supporting rod screw nut arranged on a sub-opening supporting rod ball screw in a connecting way; the mouth of a son props up the bracing piece fixing base and connects the mouth of a son to prop up the bracing piece screw and one end of the bracing piece of opening of several groups of mouths of a son respectively, another end of mouth of a son props up the bracing piece and connects the mouth of a son and props up the pole setting, prop up the pole setting fixedly with mouth of a son and prop up and compress the support on the mouth of a son; a plurality of groups of sub-opening servo motors are arranged on the sub-opening fixing plate, and the output end of each group of sub-opening servo motors drives a sub-opening ball screw through a sub-opening transmission gear; and a sub-opening nut sleeved on the sub-opening ball screw is connected with the opening hand grip.

Furthermore, the middle part of each group of the stay bars of the picking and placing inner support pieces is respectively engaged with the picking and placing inner support piece guide slide rail connected to the mounting seat of the picking and placing inner support pieces through the stay bar slide block.

Furthermore, the sub-opening support rod is connected with the sub-opening vertical rod through a sub-opening sliding block, the sub-opening sliding block is meshed with a sub-opening vertical rod linear guide rail connected to the sub-opening fixing plate, and the sub-opening fixing plate is fixed on the sub-opening upper and lower sliding seats.

Furthermore, a through groove for the opening of the seam allowance opening vertical rod to vertically pass through is arranged on the central frame body.

As described above, the motorcycle tire inner support placing device described in the present application has the following advantages:

1. the device meets the requirements of the motorcycle tire final assembly and inner support piece filling process, has simple and exquisite integral equipment structure, and can realize the fine control of continuous operation and synchronous walking among the absorption of the inner support piece, the opening of the seam allowance and the filling and a plurality of stations in the process of placing the inner support piece, thereby improving the overall automation and intelligent control of the final assembly process;

2. the efficiency of filling the inner supporting piece is high, and the accuracy and the automation level of the process in the filling stage are improved;

3. is suitable for filling the inner supporting pieces with various specifications and models, and is beneficial to improving the production efficiency of the whole motorcycle tire and reducing the production cost.

Drawings

The utility model will now be further described with reference to the following drawings;

FIG. 1 is a schematic view of the overall assembly plant to which the device for placing the inner support of a motorcycle tire according to the present application is applied;

FIG. 2 is a schematic process diagram of a motorcycle tire inner strut placement method;

FIG. 3 is a schematic view of the gripping device for positioning the inner tire support of a motorcycle;

FIG. 4-1 is a schematic view of a seam allowance spreading station for placing the inner tire support of the motorcycle;

FIG. 4-2 is a schematic structural view of a tire inner support placing part opening device of a motorcycle;

FIG. 4-3 is a side schematic view of FIG. 4-2;

FIG. 4-4 is a top down schematic view of FIG. 4-2;

in the above drawings, a center frame body 10, a positioning column 10-2, a through groove 10-3, a first conveying assembly 11, a second conveying assembly 12, a tire pushing assembly 13, a clamping assembly 14, a lifting transmission assembly 15, an inner support 20, a bottom plate 21, a bin 22, a truss 30, an inner support assembly 31 for taking and placing, a sub opening 32 expanding assembly 40 for moving a tire, and a tire unloading conveying assembly 50;

30-1 cross beam, 30-2 truss linear guide rail, 30-3 truss servo motor, 30-4 truss synchronous pulley, 30-5 truss synchronous belt, 30-33 upright post and 30-34 drag chain;

31-6 lifting frame, 31-7 first servo motor for picking and placing inner supporting piece, 31-8 synchronous pulley for picking and placing inner supporting piece, 31-9 synchronous belt for picking and placing inner supporting piece, 31-10 upper and lower sliding seats for picking and placing inner supporting piece, 31-11 second servo motor for picking and placing inner supporting piece, 31-12 coupler for picking and placing inner supporting piece, 31-13 ball screw for picking and placing inner supporting piece, 31-14 screw nut for picking and placing inner supporting piece, 31-15 motor fixing seat for picking and placing inner supporting piece, 31-16 supporting piece supporting rod for picking and placing inner supporting piece, 31-17 suction cup fixing seat, 31-18 vacuum suction cup, 31-19 linear guide rail for picking and placing inner supporting piece, 31-20 mounting seat for picking and placing inner supporting piece, 31-21 guide slide rail for picking and placing inner supporting piece, 31-22 supporting rod slide block and 31-23 vertical connecting shaft;

32-1 sub-opening lifting servo motor, 32-2 sub-opening lifting linear guide rail, 32-3 sub-opening upper and lower sliding seats, 32-4 sub-opening upright rod servo motor, 32-5 sub-opening upright rod fixing seat, 32-6 sub-opening upright rod ball screw, 32-7 sub-opening upright rod, 32-8 sub-opening fixing plate, 32-9 sub-opening upright rod linear guide rail, 32-10 sub-opening upright rod, 32-11 sub-opening ball screw, 32-12 sub-opening screw nut, 32-13 opening hand grip, 32-14 sub-opening servo motor, 32-15 sub-opening transmission gear, 32-16 sub-opening rack, 32-17 sub-opening gear, 32-18 sub-opening pressing support, 32-19 correlation photoelectric, 32-20 screw nuts of the supporting rod are expanded by the sub-opening, and 32-21 sliding blocks are expanded by the sub-opening;

the tire moving device comprises a 40-20 tire moving assembly cylinder, a 40-21 tire moving assembly guide shaft, a 40-22 tire moving assembly servo motor, a 40-23 tire moving assembly coupler, a 40-24 tire moving assembly fixing seat, a 40-25 tire moving assembly motor fixing seat, a 40-26 tire moving assembly ball screw, a 40-27 tire moving assembly screw nut, a 40-28 tire moving assembly support rod, a 40-29 tire moving assembly linear guide rail, a 40-30 tire moving assembly fixing plate, a 40-31 tire moving assembly gripper and a 40-32 tire moving assembly mounting seat.

Detailed Description

Example 1, as shown in fig. 1, the general assembly apparatus for a motorcycle tire inner support placing device according to the present invention includes an unstacking conveyor device formed by sequentially connecting a first conveyor assembly 11 and a second conveyor assembly 12, a center frame 10, a bin 22 storing an inner support 20, a truss 30, a tire moving assembly 40, and a tire unloading conveyor assembly 50.

The first conveying assembly 11 is a belt conveyor, and a tire pushing assembly 13, a clamping assembly 14 and a lifting transmission assembly 15 are mounted on a rack of the second conveying assembly 12;

the second conveying assembly 12 extends forwards to be connected with the central frame body 10, and a positioning column 10-2 used for limiting and blocking the conveyed tires is installed at the top of the central frame body 10;

the whole stack of the motorcycle tires is conveyed to the second conveying assembly 12 from the belt conveyor of the first conveying assembly 11, the whole stack of the motorcycle tires is arranged on the second conveying assembly 12, the clamping assembly 14 clamps other tires except the tire at the bottommost layer in the whole stack of the motorcycle tires along the circumferential direction, and the tires are driven by the lifting transmission assembly 15 to vertically ascend;

then, the tire pushing assembly 13 pushes the tire positioned at the bottommost layer forward to the central frame body 10 until the tire is blocked and limited by the positioning column 10-2, and the tire pushing assembly 13 returns to the second conveying assembly 12;

the above steps are repeatedly and circularly executed until all the tires of the pile are sequentially pushed to the central frame body 10;

the storage bin 22 is arranged on the bottom plate 21, and the inner support members 20 which are arranged in a queue in sequence are stored in the storage bin 22;

on the central frame 10, the motorcycle tire inner support placing device of the present application places the inner support 20 inside the tire body of the single motorcycle tire after unstacking;

the motorcycle tires with the inner support members 20 inside are transferred one by the tire transfer assembly 40 to the tire unloading conveyor assembly 50 for restacking, and finally the whole stack of motorcycle tires after the final assembly production is removed from the final assembly equipment.

As shown in fig. 2 to 4-4, the motorcycle tire inner support placing device described in the present application includes an inner support picking and placing assembly 31 disposed on the truss 30, and a rim spreading assembly 32 disposed on the center frame 10.

The inner support component 31 is movably connected to the cross beam 30-1 of the truss 30 through a lifting frame 31-6, and the cross beam 30-1 is also movably connected with a tire moving component fixing seat 40-24 of the tire moving component 40.

A truss linear guide rail 30-2 is laid on the cross beam 30-1, a truss synchronous belt 30-5 is respectively connected with a lifting frame 31-6 and a tire moving assembly fixing seat 40-24, a truss servo motor 30-3 installed on the cross beam 30-1 drives the truss synchronous belt 30-5 through a truss synchronous belt wheel 30-4, and therefore the lifting frame 31-6 and the tire moving assembly fixing seat 40-24 are synchronously driven by the truss servo motor 30-3 to transversely reciprocate to move along the cross beam 30-1.

The tire moving assembly 40 is characterized in that tire moving assembly air cylinders 40-20 are installed on the tire moving assembly fixing seats 40-24, 4 sets of tire moving assembly guide shafts 40-21 vertically penetrate through the tire moving assembly fixing seats 40-24 and are fixedly connected with the tire moving assembly installing seats 40-32 at the bottom ends, and the output ends of the tire moving assembly air cylinders 40-20 vertically drive the tire moving assembly installing seats 40-32;

the tire moving assembly servo motor 40-22 is arranged on the tire moving assembly mounting seat 40-32 through a tire moving assembly motor fixing seat 40-25, the output end of the tire moving assembly servo motor 40-22 drives the tire moving assembly ball screw 40-26 through a tire moving assembly coupler 40-23, a tire moving assembly screw nut 40-27 sleeved on the tire moving assembly ball screw 40-26 is connected to the upper end of a tire moving assembly support rod 40-28, a tire moving assembly gripper 40-31 is arranged at the lower end of the tire moving assembly support rod 40-28, and the middle part of the tire moving assembly support rod 40-28 is meshed with a tire moving assembly linear guide rail 40-29 connected to a tire moving assembly fixing plate 40-30 through a sliding block (not shown in the figure).

The lifting frame 31-6 of the taking and placing inner support member assembly 31 is provided with a linear guide rail 31-19 for taking and placing the inner support member and a first servo motor 31-7 for taking and placing the inner support member, which are vertically arranged;

the upper and lower sliding seats 31-10 of the taking and placing inner supporting piece are engaged and connected with the linear guide rails 31-19 of the taking and placing inner supporting piece through sliding blocks (not shown in the figure), and the upper and lower sliding seats 31-10 of the taking and placing inner supporting piece are vertically connected with the mounting seats 31-20 of the taking and placing inner supporting piece through vertical connecting shafts 31-23;

the first servo motor 31-7 for taking and placing the inner supporting piece drives a synchronous belt 31-9 for taking and placing the inner supporting piece, which is fixedly connected with the sliding block through a synchronous belt wheel 31-8 for taking and placing the inner supporting piece, so that the first servo motor 31-7 for taking and placing the inner supporting piece controls and drives the upper and lower sliding seats 31-10 for taking and placing the inner supporting piece to vertically and reciprocally slide and displace along the linear guide rail 31-19 for taking and placing the inner supporting piece;

on the upper and lower sliding seats 31-10 of the internal support piece, a second servomotor 31-11 of the internal support piece is arranged through a motor fixing seat 31-15 of the internal support piece, the second servomotor 31-11 of the internal support piece is vertically connected with a ball screw 31-13 of the internal support piece through a coupling 31-12 of the internal support piece, a screw nut 31-14 of the internal support piece sleeved on the ball screw 31-13 of the internal support piece is respectively connected with the upper ends of 3 groups of supporting rods 31-16 of the internal support piece, the lower end of the supporting rod 31-16 of the internal support piece is connected with a suction cup fixing seat 31-17, and a vacuum suction cup 31-18 is arranged on the suction cup fixing seat 31-17; the middle part of each group of the taking and placing inner supporting part supporting rods 31-16 is respectively engaged with 3 groups of the taking and placing inner supporting part guide sliding rails 31-21 connected to the taking and placing inner supporting part mounting seats 31-20 through the supporting rod sliding blocks 31-22; at least one group of negative pressure pneumatic components are arranged on the upper and lower sliding seats 31-10 of the internal support members, and negative pressure pneumatic pipelines of the components are communicated with the vacuum suction cups 31-18 at the tail ends of the supporting rods 31-16 of each group of internal support members.

Under the drive of a truss servo motor 30-3, a truss synchronous belt 30-5 is driven by a truss synchronous belt wheel 30-4, and a lifting frame 31-6 for taking and placing an inner supporting piece assembly 31 and a tire moving assembly fixing seat 40-24 for the tire moving assembly 40 synchronously switch and walk among the vertical upper parts of the storage bin 22, the central frame body 10 and the tire unloading conveying assembly 50. The specific process comprises the following two stages:

in the first stage, when the inner support member 20 is sucked by the inner support member picking and placing assembly 31, the tire moving assembly 40 picks up the tire with the inner support member 20 built therein. Specifically, the first servo motor 31-7 for taking and placing the inner supporting pieces drives the lifting frame 31-6 to descend to a proper height position of the bin 22 storing the queue of the inner supporting pieces 20 through the synchronous pulley 31-8 for taking and placing the inner supporting pieces and the synchronous belt 31-9 for taking and placing the inner supporting pieces; the second servo motor 31-11 for taking and placing the inner supporting piece drives the ball screw 31-13 for taking and placing the inner supporting piece to drive the screw nut 31-14 for going down, the sucker fixing seat 31-17 is expanded to a set position through the supporting rod 31-16 for taking and placing the inner supporting piece, after the three vacuum suckers 31-18 simultaneously suck the inner supporting piece 20, the second servo motor 31-11 for taking and placing the inner supporting piece drives the ball screw 31-13 for taking and placing the inner supporting piece to drive the screw nut 31-14 for going up, the sucker fixing seat 31-17 is retracted to the set position through the supporting rod 31-16 for taking and placing the inner supporting piece, the first servo motor 31-7 for taking and placing the inner supporting piece drives the synchronous belt pulley 31-8 for taking and placing the inner supporting piece to drive the synchronous belt 31-9 for taking and placing the lifting frame 31-6 to go up to a set height.

The operation is carried out simultaneously with the operation stages, the tire moving assembly air cylinder 40-20 acts, after the tire moving assembly mounting seat 40-32 is lowered to a set height, the tire moving assembly servo motor 40-22 drives the tire moving assembly ball screw 40-26 to drive the tire moving assembly screw 40-27 to move downwards, the tire moving assembly gripper 40-31 is unfolded to a set position along the tire moving assembly linear guide rail 40-29 through the tire moving assembly support rod 40-28, after the tire is supported, the sub-opening unfolding assembly 32 retracts, and the tire moving assembly air cylinder 40-20 drives the tire (at the moment, the inner support member 20 is arranged in the sub-opening) to ascend to the set height position;

under the drive of a truss servo motor 30-3, a truss synchronous belt 30-5 is driven by a truss synchronous belt wheel 30-4, and meanwhile, a lifting frame 31-6 and a tire moving assembly fixing seat 40-24 are respectively moved to the vertical upper parts of the central frame body 10 and the tire unloading conveying assembly 50.

In the second stage, when the inner support member taking and placing assembly 31 puts the inner support member 20 into the next tire, the tire moving assembly 40 unloads the previous tire with the inner support member 20 built therein to the tire unloading conveying assembly 50. Specifically, the first servo motor 31-7 for picking and placing the inner supporting member drives the synchronous pulley 31-8 for picking and placing the inner supporting member to drive the synchronous belt 31-9 for picking and placing the inner supporting member, and drives the lifting frame 31-6 to move down to the set height of the central frame body 10. At this time, the bead-expanding assembly 32 has expanded the bead of the next tire. The second servo motor 31-11 for taking and placing the inner supporting piece drives the ball screw 31-13 for taking and placing the inner supporting piece to drive the screw nut 31-14 for taking and placing the inner supporting piece to move downwards, the suction cup fixing seat 31-17 is unfolded to a set position through the stay bar 31-16 for taking and placing the inner supporting piece 20 in the tire with the sub-opening unfolded by the sub-opening unfolding component 32, and the three vacuum suction cups 31-18 release the inner supporting piece 20 at the same time; after placement of the inner strut 20 is complete, the ostium distraction assembly 32 remains in the ostium distraction state without retraction. The second servo motor 31-11 for taking and placing the inner supporting piece drives the ball screw 31-13 for taking and placing the inner supporting piece to drive the screw nut 31-14 for taking and placing the inner supporting piece to move upwards, the sucker fixing seat 31-17 is retracted to the set position through the stay bar 31-16 for taking and placing the inner supporting piece, the first servo motor 31-7 for taking and placing the inner supporting piece drives the synchronous pulley 31-8 for taking and placing the inner supporting piece to drive the synchronous belt 31-9 for taking and placing the inner supporting piece, and the lifting frame 31-6 is driven to move upwards to the set height.

Simultaneously performing the operation stages, namely, moving the tire assembly cylinder 40-20 to move, after the tire assembly mounting seat 40-32 is lowered to a set height, driving the tire assembly ball screw 40-26 to drive the tire assembly screw 40-27 to move downwards by the tire assembly moving servo motor 40-22, and unloading the previous tire with the built-in inner support member 20 to the tire unloading conveying assembly 50 by driving the tire assembly moving gripper 40-31 through the tire assembly moving support rod 40-28; subsequently, the tire moving assembly servo motor 40-22 drives the tire moving assembly support rod 40-28 to retract along the tire moving assembly linear guide rail 40-29, and the tire moving assembly mounting seat 40-32 is integrally lifted to a set height position.

Under the drive of the truss servo motor 30-3, the truss synchronous belt 30-5 is driven by the truss synchronous belt pulley 30-4, and meanwhile, the lifting frame 31-6 and the tire moving assembly fixing seat 40-24 are returned to the vertical upper part of the storage bin 22 and the central frame body 10 again. After completing a cycle of switching the walk, the first phase is ready to be executed again.

The sub-opening expanding component 32 comprises at least one group of correlation photoelectricity 32-19 arranged on the central frame body 10, at least 1 group of sub-opening expanding lifting linear guide rail 32-2 and 1 group of sub-opening expanding racks 32-16 which are vertically arranged; the upper and lower sliding seats 32-3 for opening the sub-opening are engaged with the linear guide rail 32-2 for opening the sub-opening and lifting through sliding blocks (not shown in the figure); the output end of a sub-opening lifting servo motor 32-1 arranged on the sub-opening upper and lower sliding seats 32-3 is in driving connection with a sub-opening gear 32-17 arranged on a sub-opening rack 32-16;

the sub-opening vertical rod servo motor 32-4 is arranged on the sub-opening upper and lower sliding seats 32-3, and an output shaft of the servo motor is connected with a sub-opening supporting rod screw nut 32-20 sleeved on a sub-opening supporting rod ball screw 32-6;

the fixed seat 32-5 of the sub-opening support rod is respectively connected with a screw 32-20 of the sub-opening support rod and one end of 3 groups of sub-opening support rods 32-7, the other end of the sub-opening support rod 32-7 is connected with a sub-opening vertical rod 32-10, and a sub-opening pressing support 32-18 is fixedly connected to the sub-opening vertical rod 32-10; a through groove 10-3 for the vertical passage of the seam allowance opening upright rod 32-10 is arranged on the central frame body 10;

the sub-opening support rod 32-7 is connected with the sub-opening vertical rod 32-10 through a sub-opening slide block 32-21, the sub-opening slide block 32-21 is meshed with a sub-opening vertical rod linear guide rail 32-9 connected to a sub-opening fixing plate 32-8, and the sub-opening fixing plate 32-8 is fixed on a sub-opening upper and lower slide seat 32-3;

3 groups of sub-opening servo motors 32-14 are arranged on the sub-opening fixing plate 32-8, and the output end of each group of sub-opening servo motors 32-14 drives a sub-opening ball screw 32-11 through a sub-opening transmission gear 32-15; the sub-opening expanding screw 32-12 sleeved on the sub-opening expanding ball screw 32-11 is connected with an expanding gripper 32-13, and a fixedly arranged sub-opening expanding pressing support 32-18 and the movably connected expanding gripper 32-13 are used for expanding or releasing the sub-opening of the tire under the driving of a sub-opening expanding servo motor 32-14.

By applying the motorcycle tire inner support placing device, the inner support component 31 and the seam allowance opening component 32 are mutually matched to complete a complete operation process of the inner support component 20.

Specifically, the method for placing the inner support of the motorcycle tyre comprises the following steps:

1) tire positioning and bead opening

The tire is pushed to the centering position of the central frame body 10 through the tire pushing assembly 13, after the correlation photoelectricity 32-19 detects that the tire is in place, the sub-opening expanding lifting servo motor 32-1 drives the sub-opening expanding gear 32-17 and the sub-opening expanding rack 32-16 to enable the sub-opening expanding upper and lower sliding seats 32-3 to ascend to the set height position according to the set program and corresponding to the current specification and model of the tire;

then, the sub-opening upright rod servo motor 32-4 drives the sub-opening upright rod fixing seat 32-5 to ascend, and the sub-opening upright rod 32-10 is horizontally and transversely opened to a set position through the sub-opening upright rod 32-7;

then, the sub-opening expanding lifting servo motor 32-1 drives the sub-opening expanding assembly 32 to integrally move downwards so as to press the sub-opening expanding pressing support 32-18 to the lower edge of the sub-opening of the tire;

finally, the three groups of sub-opening expanding servo motors 32-14 respectively drive the expanding grippers 32-13 to rise vertically until reaching the set height position, and the sub-openings of the tire are expanded vertically under the combined action of the sub-opening expanding pressing supports 32-18 and the expanding grippers 32-13.

2) Placing the inner support piece

The first servo motor 31-7 for taking and placing the inner supporting pieces drives the lifting frame 31-6 to move downwards to a set height position along the vertical direction of the central frame body 10 through the synchronous belt pulley 31-8 for taking and placing the inner supporting pieces and the synchronous belt 31-9 for taking and placing the inner supporting pieces;

the second servo motor 31-11 for taking and placing the inner supporting piece drives the supporting rod 31-16 for taking and placing the inner supporting piece to move downwards and props the suction cup fixing seat 31-17 open to a set position; the three vacuum suction cups 31-18 simultaneously release the inner support member 20 to place the inner support member 20 inside the tire with the sub-opening being spread by the sub-opening spreading assembly 32;

the second servo motor 31-11 for taking and placing the inner supporting piece drives the supporting rod 31-16 for taking and placing the inner supporting piece to move upwards so as to retract the sucker fixing seat 31-17 to an initial setting position;

the first servo motor 31-7 for taking and placing the inner supporting part drives the lifting frame 31-6 to move upwards to the initial height position.

Further, in the step 1), the sub-opening expanding vertical rod servo motor 32-4 drives the sub-opening expanding support rod ball screw 32-6, and the sub-opening expanding support rod screw nut 32-20 drives the sub-opening expanding support rod fixing seat 32-5 to ascend;

the supporting rod 32-7 is opened through the sub-opening, and the sub-opening vertical rod 32-10 in three directions is opened along the sub-opening vertical rod linear guide rail 32-9 to be opened to a set transverse position from inside to outside respectively.

Further, in the step 1), the three sets of sub-opening servo motors 32-14 respectively and simultaneously drive the sub-opening transmission gears 32-15, and the opening grippers 32-13 are lifted vertically through the sub-opening ball screws 32-11 and the sub-opening nuts 32-12 until reaching the set height position.

Further, in the step 1), the sub-opening expanding upright rods 32-10 extend out of the central frame body 10 from the bottom upwards along the vertical direction of the through grooves 10-3, and are transversely expanded to the set position in the horizontal direction of the through grooves 10-3.

Further, in the step 2), the second servo motor 31-11 for taking and placing the inner supporting piece drives the supporting rod 31-16 for taking and placing the inner supporting piece to horizontally and transversely prop the suction cup fixing seat 31-17 to a set position or retract to an initial position through the ball screw 31-13 and the screw nut 31-14 for taking and placing the inner supporting piece to reciprocate along the vertical direction;

the first servo motor 31-7 for taking and placing the inner supporting part drives the lifting frame 31-6 to move up to the initial height position along the vertical direction through the synchronous pulley 31-8 for taking and placing the inner supporting part and the synchronous belt 31-9 for taking and placing the inner supporting part to reciprocate along the vertical direction.

Further, while the step 1) is executed, the picking and placing inner support member assembly 31 executes the operation of picking up the inner support member 20, which includes the following steps:

the first servo motor 31-7 for taking and placing the inner supporting pieces drives the lifting frame 31-6 to descend to a proper height position of the bin 22 storing the queue of the inner supporting pieces 20 through the synchronous pulley 31-8 for taking and placing the inner supporting pieces and the synchronous belt 31-9 for taking and placing the inner supporting pieces;

the second servo motor 31-11 for taking and placing the inner supporting piece drives the ball screw 31-13 for taking and placing the inner supporting piece to drive the screw nut 31-14 for taking and placing the inner supporting piece to move downwards, the suction cup fixing seat 31-17 is propped to a set transverse position through the supporting rod 31-16 for taking and placing the inner supporting piece, and the three vacuum suction cups 31-18 simultaneously suck the inner supporting piece 20;

the second servo motor 31-11 for taking and placing the inner supporting piece drives the ball screw 31-13 for taking and placing the inner supporting piece to drive the screw nut 31-14 for taking and placing the inner supporting piece to move upwards, and the suction cup fixing seat 31-17 is retracted to a set position through the supporting rod 31-16 for taking and placing the inner supporting piece;

the first servo motor 31-7 for taking and placing the inner supporting piece drives the lifting frame 31-6 to move upwards to a set height through the synchronous pulley 31-8 for taking and placing the inner supporting piece and the synchronous belt 31-9 for taking and placing the inner supporting piece.

Similar technical solutions can be derived from the solutions given in the figures and the description, as described above. However, any solution that does not depart from the structure of the present invention is also within the scope of the right of the technical solution of the present invention.

Claims (4)

1. The utility model provides a strutting piece placer in motorcycle child which characterized in that: comprises a picking and placing inner support component arranged on a truss and a sub-opening component arranged on a central frame body;

the inner support piece taking and placing component is movably connected to a cross beam of the truss through a lifting frame, and a linear guide rail and a first servo motor for taking and placing the inner support piece are vertically arranged on the lifting frame; the upper and lower sliding seats of the taking and placing inner supporting piece are engaged and connected with the linear guide rail of the taking and placing inner supporting piece through a sliding block, and the upper and lower sliding seats of the taking and placing inner supporting piece are vertically connected with the mounting seat of the taking and placing inner supporting piece through a vertical connecting shaft; the first servo motor for taking and placing the inner supporting piece drives a synchronous belt of the inner supporting piece which is tightly connected with the sliding block through a synchronous belt wheel for taking and placing the inner supporting piece; the upper and lower sliding seats of the picking and placing inner supporting pieces are provided with a second servo motor for picking and placing the inner supporting pieces through a motor fixing seat for picking and placing the inner supporting pieces, the second servo motor for picking and placing the inner supporting pieces is vertically connected with a ball screw for picking and placing the inner supporting pieces through a coupler for picking and placing the inner supporting pieces, screw nuts of the picking and placing inner supporting pieces sleeved on the ball screw for picking and placing the inner supporting pieces are respectively connected with the upper ends of a plurality of groups of picking and placing inner supporting piece supporting rods, the lower ends of the picking and placing inner supporting rods are connected with a sucking disc fixing seat, and a vacuum sucking disc is arranged on the sucking disc fixing seat;

the sub-opening assembly comprises at least one group of correlation photoelectric devices arranged on the central frame body, at least 1 group of sub-opening lifting linear guide rails and at least 1 group of sub-opening rack which are vertically arranged; the seam allowance opening upper and lower sliding seats are connected with the seam allowance opening lifting linear guide rail through the sliding block in a meshing manner; the output end of a sub-opening lifting servo motor which is arranged on the sub-opening upper and lower sliding seats is in driving connection with a sub-opening gear which is arranged on a sub-opening rack; the sub-opening vertical rod servo motor is arranged on the sub-opening upper and lower sliding seats, and an output shaft of the servo motor is connected with a sub-opening supporting rod screw nut arranged on a sub-opening supporting rod ball screw in a connecting way; the mouth of a son props up the bracing piece fixing base and connects the mouth of a son to prop up the bracing piece screw and one end of the bracing piece of opening of several groups of mouths of a son respectively, another end of mouth of a son props up the bracing piece and connects the mouth of a son and props up the pole setting, prop up the pole setting fixedly with mouth of a son and prop up and compress the support on the mouth of a son; a plurality of groups of sub-opening servo motors are arranged on the sub-opening fixing plate, and the output end of each group of sub-opening servo motors drives a sub-opening ball screw through a sub-opening transmission gear; and a sub-opening nut sleeved on the sub-opening ball screw is connected with the opening hand grip.

2. A motorcycle tire inner support placing device according to claim 1, wherein: the middle part of each group of the stay bars of the internal support taking and placing components is respectively engaged with a guide slide rail of the internal support taking and placing components, which is connected to the mounting seat of the internal support taking and placing components, through a stay bar slide block.

3. A motorcycle tire inner support placing device according to claim 1, wherein: the sub-opening support rod is connected with the sub-opening vertical rod through a sub-opening sliding block, the sub-opening sliding block is connected to a sub-opening vertical rod linear guide rail on a sub-opening fixing plate in a meshing mode, and the sub-opening fixing plate is fixed on a sub-opening upper sliding seat and a sub-opening lower sliding seat.

4. A motorcycle tire inner support placing device according to claim 1, wherein: a through groove for the opening of the seam allowance opening vertical rod to vertically pass through is arranged on the central frame body.

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