CN114850361A - Improved steel wire ring production line for tire - Google Patents

Improved steel wire ring production line for tire Download PDF

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Publication number
CN114850361A
CN114850361A CN202210526619.0A CN202210526619A CN114850361A CN 114850361 A CN114850361 A CN 114850361A CN 202210526619 A CN202210526619 A CN 202210526619A CN 114850361 A CN114850361 A CN 114850361A
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CN
China
Prior art keywords
steel wire
winding
ring
disc
driver
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Granted
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CN202210526619.0A
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Chinese (zh)
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CN114850361B (en
Inventor
段立国
李明峰
陈中论
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Link-Asia Smart Technology (suzhou) Co ltd
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Link-Asia Smart Technology (suzhou) Co ltd
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Priority to CN202210526619.0A priority Critical patent/CN114850361B/en
Publication of CN114850361A publication Critical patent/CN114850361A/en
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Publication of CN114850361B publication Critical patent/CN114850361B/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21FWORKING OR PROCESSING OF METAL WIRE
    • B21F37/00Manufacture of rings from wire
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21FWORKING OR PROCESSING OF METAL WIRE
    • B21F11/00Cutting wire
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21FWORKING OR PROCESSING OF METAL WIRE
    • B21F23/00Feeding wire in wire-working machines or apparatus
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21FWORKING OR PROCESSING OF METAL WIRE
    • B21F3/00Coiling wire into particular forms

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Tyre Moulding (AREA)

Abstract

The invention provides an improved steel wire ring production line for tires, which comprises a steel wire supply device, a steel wire winding device and a steel wire winding device, wherein the steel wire supply device is used for simultaneously drawing out a plurality of special-shaped steel wires in a plurality of steel wire coils; the pre-setting device is used for arranging and setting the special-shaped steel wires output from the steel wire supply device according to a preset shape; the conveying and cutting device is used for conveying the steel wire output from the pre-setting device to a position to be wound and cutting off the steel wire; the winding machine also comprises a winding host, a winding device, a clamping device and a ring unloading device; the winding host is provided with a base and a case, the case is rotatably arranged on the base, the case is provided with a steel wire assembling disc, and the steel wire assembling disc, the clamping device and the ring unloading device can move relatively. The winding device has the advantages that the structure and the layout of the winding host machine, the winding device, the clamping device and the ring unloading device are designed, so that the floor area of a production workshop is saved; the layout structure is matched, a single driver is arranged to realize the driving of winding rotation and clamping rotation, the structure is simplified, and the equipment folding cost is reduced.

Description

Improved steel wire ring production line for tire
Technical Field
The invention relates to a steel wire ring production line which is suitable for a tire and is formed by directly winding a plurality of special-shaped steel wires with polygonal cross sections into rings.
Background
The prior invention patent application No. 202011129264.9 of the applicant discloses a bead ring production line for tires, which realizes winding, clamping and ring unloading of a plurality of special-shaped steel wires in a three-station layout mode. The detailed description of the principles is omitted.
However, in the industrialization process of continuous optimization, continuous reduction of production cost and the like, the applicant finds that the existing three-station layout mode has the following improvement:
1. the existing three-station layout structure is relatively complex, and the occupied area is relatively large;
2. when the same steel wire assembling disc is wound and clamped, because the steel wire assembling disc needs different rotating speeds, two different drivers are needed to respectively control the rotating speed of the steel wire assembling disc during winding and the rotating speed of the steel wire assembling disc during clamping. And the two sets of drives are respectively controlled, so that the whole structure and operation are relatively complex and the cost is higher.
Disclosure of Invention
In order to solve the above technical problems, the present invention provides an improved bead ring production line for a tire, including a wire supplying device for simultaneously drawing out a plurality of wire profiles from a plurality of wire coils; the pre-setting device is used for arranging and setting the special-shaped steel wires output from the steel wire supply device according to a preset shape; the conveying and cutting device is used for conveying the steel wire output from the pre-setting device to a position to be wound and cutting off the steel wire; the winding machine also comprises a winding host, a winding device, a clamping device and a ring unloading device; the winding main machine is provided with a base and a case, the case is rotatably arranged on the base, the case is provided with a steel wire assembling disc, and the steel wire assembling disc, the clamping device and the ring disassembling device can move relatively.
Preferably, the winding device further comprises a first slide rail arranged on one side of the winding host, and the clamping device and the ring unloading device are movably arranged on the first slide rail.
Preferably, the clamping device and the coil unloading device are fixedly arranged on one side of the winding host, a second slide rail is arranged below the winding host, and a base of the winding host can be movably arranged on the second slide rail.
Preferably, the wire assembling device further comprises a driver for driving the wire assembling disc to rotate, the wire assembling disc comprises a first wire assembling disc and a second wire assembling disc, the first wire assembling disc is arranged on one side of the case, and the second wire assembling disc is arranged on the other side of the case; the driver comprises a first steel wire assembly disc driver and a second steel wire assembly disc driver, the first steel wire assembly disc driver is connected with the first steel wire assembly disc, and the second steel wire assembly disc driver is connected with the second steel wire assembly disc.
Preferably, the first wire assembly disc driver drives the first wire assembly disc to have adjustable rotation speed, and the second wire assembly disc driver drives the second wire assembly disc to have adjustable rotation speed.
Preferably, the device further comprises a rotary driver, a first transmission piece and a second transmission piece which are arranged in the base; the rotary driver is connected with the first transmission piece, the first transmission piece is linked with the second transmission piece, and the second transmission piece is fixedly arranged with the bottom plate of the case.
Preferably, the winding device comprises a winding frame, and a telescopic driver and a roller arranged at the driving end of the telescopic driver are arranged on the winding frame.
Preferably, the winding device further comprises a shaping driver arranged on the winding rack, and a stepped finishing block arranged on the shaping driver.
Preferably, the ring unloading device comprises a ring unloading rack, the ring unloading rack is provided with a ring unloading disc and a ring unloading disc driver, the ring unloading disc driver drives the ring unloading disc to move in a telescopic manner, a plurality of open slots are formed in the circumference of the ring unloading disc, and the open slots are provided with ring unloading mechanisms.
Preferably, the ring unloading mechanism comprises a ring unloading driver and a finger-shaped structure, the ring unloading driver is fixed at the notch of the open slot on the ring unloading disc, and the ring unloading driver drives the finger-shaped structure to move for ring unloading.
Drawings
Fig. 1 is an overall schematic view of the improved bead ring production line for tires of the present invention.
Fig. 2 is a general schematic view of another operating condition of the improved bead ring production line for tires of the present invention.
FIG. 3 is a schematic view of the winding machine, the clamping device and the coil removing device according to the present invention.
FIG. 4 is a schematic view of the winding machine, the clamping device and the coil removing device in another working state.
Fig. 5 is a schematic view of the base of the present invention.
Fig. 6 is a partial schematic view of fig. 5.
Fig. 7 is a perspective view of the winding machine according to the present invention.
FIG. 8 is a schematic view of a loop removing device according to the present invention.
Fig. 9 is a schematic view of another perspective of the loop removing device of the present invention.
Fig. 10 is a perspective view of the winding apparatus of the present invention.
Fig. 11 is a partial schematic view of a winding apparatus according to the present invention.
Fig. 12 is a schematic view of the fastening device of the present invention.
Detailed Description
The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.
As shown in fig. 1 to 12, the present invention provides an improved bead ring production line for a tire, which includes a wire supplying device 10 for simultaneously drawing out a plurality of wire profiles from a plurality of wire reels; the pre-setting device 20 is used for arranging and setting the plurality of the special-shaped steel wires pulled out from the steel wire supply device according to a required shape; the conveying and cutting device 30 is used for conveying the steel wires which are output from the pre-setting device and are subjected to setting arrangement to a position to be wound and cutting the steel wires; a main winding unit 80, which includes a base 81, a case 82 rotatably disposed on the base 81, a first wire assembly tray mechanism 83 including a first wire assembly tray 831, a second wire assembly tray mechanism 84 including a second wire assembly tray 841, and a first wire assembly tray driver 833 and a second wire assembly tray driver 843 disposed on two sides of the case 82, where the first wire assembly tray driver 833 and the second wire assembly tray driver 843 are preferably disposed on the case 82, and may be disposed at other positions or independently disposed; the first wire assembling mechanism 83 is correspondingly provided with a winding device 40; the winding device 40 is arranged in a first working position a; a second working position B is arranged corresponding to the first working position A; the second wire assembling disc mechanism 84 is correspondingly provided with a clamping device 50, and the clamping device 50 is arranged at a second working position B; the steel wire ring assembling device further comprises a ring disassembling device 60, and the first steel wire assembling disc 831 and the second steel wire assembling disc 841 can move relative to the clamping device 50 and the ring disassembling device 60. Wherein the first wire mounting plate driver can drive the first wire mounting plate to rotate at different rotation speeds, and the second wire mounting plate driver can drive the second wire mounting plate to rotate at different rotation speeds, that is, when the first and second wire mounting plates 831 and 841 are moved to the winding device position (i.e., the first working position a), the first and second wire mounting plate drivers output the winding driving rotation speed required for winding the wire; when the first steel wire assembly disc 831 and the second steel wire assembly disc 841 move to the fastening device position (i.e., the second working position B), the first steel wire assembly disc driver and the second steel wire assembly disc driver output intermittent rotation speed required by fastening driving required by a wound steel wire, so that the winding driving operation and the fastening driving operation are realized by the same driver.
Optionally, the present invention provides that the improved bead ring production line for tires further includes a first slide rail 70 disposed on one side of the winding main machine 80, the clamping device 50 and the ring unloading device 60 are both movably disposed on the first slide rail 70, the winding main machine 80 is fixedly disposed, and the winding device 40 is fixedly disposed on the other side of the winding main machine 80. When the case 82 rotates relative to the base 81, the case can drive the first wire assembly disc mechanism 83 and the second wire assembly disc mechanism 84 to synchronously rotate; when the steel wire assembling disc mechanism rotates to a first working position A, the steel wire assembling disc mechanism is matched with the winding device 40 to synchronously wind a plurality of special-shaped steel wires to form a steel wire ring; when the steel wire assembling disc mechanism rotates to the second working position B, the clamping device 50 moves to the second working position B along the first slide rail 70, and is matched with the steel wire assembling disc mechanism to clamp the steel wire ring. After the clamping operation is completed, the clamping device 50 moves out of the second working position B, the ring unloading device 60 moves to the second working position B, and the ring unloading device 60 is matched with the steel wire assembling disc mechanism to unload the steel wire ring.
In addition, in the improved bead ring production line for a tire according to the present invention, the fastening device 50 and the ring-removing device 60 may be fixedly disposed at a second working position B on one side of the winding main unit 80, a second slide rail (not shown) is disposed below the winding main unit 80 (i.e., below the base 81), and the base 81 of the winding main unit 80 may be movably disposed on the second slide rail. When the case 82 rotates relative to the base 81, the case can drive the first wire assembly disc mechanism 83 and the second wire assembly disc mechanism 84 to synchronously rotate; when the steel wire assembling disc mechanism rotates to a first working position A, the steel wire assembling disc mechanism is matched with the winding device 40 to synchronously wind a plurality of special-shaped steel wires to form a steel wire ring; when the steel wire assembling disc mechanism rotates to the second working position B, the clamping device 50 is matched with the steel wire assembling disc mechanism to clamp the steel wire ring. After the fastening operation is completed, the winding main machine 80 drives the first steel wire assembly disc 831 or the second steel wire assembly disc 841 to move to the second working position B, and the ring removing device 60 cooperates with the steel wire assembly disc mechanism to remove the ring of the steel wire. The ground rail or the linear sliding table which are horizontally arranged are preferably selected from the first sliding rail and the second sliding rail.
According to the improved bead ring production line for the tire, the winding main machine is arranged, the two working positions are arranged on the two sides of the winding main machine, and the steel wire assembling disc, the clamping device and the ring disassembling device are arranged in a mode of relative movement, so that flexible layout can be realized according to the field condition of a production workshop, and the floor area of the production workshop is further saved.
Fig. 5 and 6 are schematic views of the base of the present invention. Specifically, the base 81 includes a base housing 813, in which a rotation driver 811, a first transmission member 812 and a second transmission member 814 are disposed; the power output end of the rotary driver 811 is connected to the first transmission member 812, the first transmission member 812 is linked with the second transmission member 814, and the second transmission member 814 is fixed to the bottom plate 815 of the chassis 82. The rotation driver 811 drives the first transmission part 812 to rotate so as to drive the second transmission part 814 to rotate, and since the second transmission part 814 is fixedly arranged with the bottom plate 815 of the case 82, the rotation driver 811 drives the case 82 to rotate integrally. The driving mode can be an electric mode, a hydraulic mode or a pneumatic mode; the transmission device of the first transmission member 812 and the second transmission member 814 can be a gear-to-gear, a gear-to-rack, a gear-to-synchronous belt or a worm gear, and the like, and the gear-to-gear linkage mode is preferred in the invention.
Fig. 7 is a schematic perspective view of the winding machine according to the present invention. The first wire assembly disc mechanism 83 comprises a first wire assembly disc 831, the first wire assembly disc 831 is connected with a first driving shaft 832, and the other end of the first driving shaft 832 is connected with a first wire assembly disc driver 833; the second wire assembly disc mechanism 84 includes a second wire assembly disc 841, the second wire assembly disc mechanism 841 is connected with a second driving shaft 842, and the other end of the second driving shaft 842 is connected with a second wire assembly disc driver 843. When the first wire assembly disc 831 or the second wire assembly disc 841 rotates to the first working position a, the first wire assembly disc driver 833 or the second wire assembly disc driver 843 drives the first driving shaft 832 or the second driving shaft 842 to continuously rotate so as to drive the first wire assembly disc 831 or the second wire assembly disc 841 to rotate, and a plurality of special-shaped wires are synchronously wound to form a wire ring by matching with the winding device 40; when the first steel wire assembly disc 831 or the second steel wire assembly disc 841 rotates to the second working position B, the clamping device 50 moves to the second working position B along the first slide rail 70, and the first steel wire assembly disc driver 833 or the second steel wire assembly disc driver 843 drives the first driving shaft 832 or the second driving shaft 842 to intermittently rotate so as to drive the first steel wire assembly disc 831 or the second steel wire assembly disc 841 to intermittently rotate, and the clamping device 50 is matched to clamp the steel wire ring.
According to the invention, one or more sets of steel wire assembly disc mechanisms with the same configuration are arranged, and one steel wire assembly disc driver drives the steel wire assembly disc to output different rotation speeds at different stations, so that the whole mechanism is simple to set, convenient to use and operate in practice and more convenient to maintain.
The fixing device 50 of the present invention can horizontally reciprocate at the second working position B by the first slide rail 70. At this time, the clamping device 50 and the ring detaching device 60 are arranged on the first slide rail 70; after the clamping device 50 finishes the clamping work, the clamping device 50 and the ring detaching device 60 are driven to move on the first slide rail 70 through a driving motor (not shown) arranged on the first slide rail 70, the clamping device 50 moves out of the second working position B, and the ring detaching device 60 moves to the second working position B where the original clamping device 50 is located to detach the ring; after the ring is unloaded, the driving motor simultaneously drives the clamping device 50 and the ring unloading device 60 to return to the initial positions, and the next clamping and ring unloading operation is prepared.
The winding host machine, the clamping device and the ring unloading device which are arranged in a relative movement mode can be flexibly arranged according to the field situation, and the layout space can be effectively saved.
As shown in fig. 8 and 9. The ring unloading device 60 mainly comprises a ring unloading rack 61, wherein a fixed plate 62 is arranged on the ring unloading rack 61, a plurality of telescopic pieces 63 are fixedly connected to the fixed plate 62, a ring unloading disc 64 is fixedly connected to the other ends of the telescopic pieces 63, the ring unloading disc 64 is preferably circular, and the ring unloading disc 64 can move back and forth relative to the fixed plate 62 through the telescopic pieces 63; the ring removing device 60 further comprises a ring removing disc driver 65 for driving the ring removing disc 64 to move telescopically relative to the fixing plate 62; a plurality of open grooves 641 are arranged on the circumference of the ring-removing disk 64, the positions of the open grooves 641 correspond to the positions of the ring-removing grooves/holes on the steel wire assembling disk, and a ring-removing mechanism 66 is detachably arranged in the open grooves 641. In operation, the ring unloading disc driver 65 drives the ring unloading disc 64 to move forward to approach the steel wire assembly disc, and drives the ring unloading mechanism 66 on the ring unloading disc 64 to extend into the steel wire ring from the ring unloading groove/hole of the steel wire assembly disc for ring unloading. The telescopic member 63 may be any structure capable of realizing linear relative movement, such as a guide post, a guide sleeve structure or a linear guide rail, and is used for assisting in supporting the ring-removing disc 64.
Further, the coil unloading mechanism 66 mainly comprises a coil unloading driver 661, wherein the coil unloading driver 661 is arranged at the notch 641 on the coil unloading disc; the loop-removing mechanism 66 further comprises a finger-shaped structure 662, wherein the finger-shaped structure 662 comprises a hook end 6621, a fixed end 6622 and a movable end 6623, the fixed end 6622 is fixed on the loop-removing disk 64 through a shaft connection, and the movable end 6623 is fixed on the loop-removing driver 661 through a shaft connection. In operation, the loop-removing actuator 661 pushes the movable end 6623 of the finger-shaped structure forward, and the fixed end 6622 drives the hook end 6621 to move up obliquely. A ring unloading disc driver 65 on the ring unloading device drives the ring unloading disc 64 to move forward to be close to the steel wire assembling disc, and the clamping hook end 6621 extends into the steel wire ring through a ring unloading groove/hole of the steel wire assembling disc; the ring-detaching driver 661 drives the movable end 6623 of the finger-shaped structure to move backward, the hook end 6621 of the finger-shaped structure falls back, the ring-detaching driver 65 drives the ring-detaching disk 64 to move backward, and the hook end 6621 of the ring-detaching mechanism hooks the bead ring from multiple directions and continues to move backward until the bead ring falls off from the assembly, thereby completing the ring-detaching.
Furthermore, in order to better limit the positions of the ring unloading device 60 and the steel wire assembly disc, a plurality of positioning pins 67 are arranged on the ring unloading disc 64 of the ring unloading device and are matched with the positioning holes on the steel wire assembly disc for alignment and positioning, so that the ring unloading disc of the ring unloading device and the steel wire assembly disc are aligned more accurately.
Furthermore, a plurality of limiting columns 68 are movably arranged on the ring unloading disc 64 of the ring unloading device, the front ends of the limiting columns 68 are provided with buffering parts such as rubber pads/caps and the like, the buffering parts are used for limiting the distance between the ring unloading disc 64 of the ring unloading device and the steel wire assembling disc, and the ring unloading disc 64 and the steel wire assembling disc are prevented from hard collision through the buffering parts.
Fig. 10 is a perspective view of the winding device of the present invention, and fig. 11 is a partial view of the winding device of the present invention. The winding device 40 of the present invention mainly includes a winding frame 41, and a winding auxiliary mechanism 42 which can move up and down is detachably provided on the winding frame 41. Specifically, winding complementary unit 42 is including fixing flexible driver 421 in the winding frame, and connecting in the gyro wheel 422 of flexible driver drive end, and on many shaped steel wires synchronous transport to steel wire assembly dish circumference surface when the steel wire winding twines, flexible driver 421 drive gyro wheel 422 pressed on the steel wire surface, and steel wire assembly dish driver drive steel wire assembly dish is rotatory, and many shaped steel wires twine and form the steel wire winding on steel wire assembly dish surface.
In addition, the winding device 40 of the present invention further includes a finishing mechanism 43 fixed on the frame 41 and capable of moving up and down, the finishing mechanism 43 mainly includes a shaping driver 431 and a stepped finishing block 432 connected to the shaping driver, the stepped finishing block 432 includes a long side 4321, when the steel wire is wound, the shaping driver 431 drives the stepped finishing block 432 to move to the surface of the special-shaped steel wire, and the long side 4321 of the stepped finishing block is used for blocking the sides of the plurality of special-shaped steel wires, so that the plurality of special-shaped steel wires are tightly arranged when wound.
Further, the winding device can be further fixedly provided with a detection element 44 for detecting the corresponding position when the steel wire is wound and the number of rotating turns of the steel wire assembly disc so as to realize accurate winding control.
As shown in fig. 12, the clamping device 50 of the present invention includes a clamping frame 51, the clamping frame 51 is provided with a blanking mechanism 52 and a welding mechanism 53, when the wire assembly tray mechanism completes winding and rotates to the second working position B for clamping, the blanking mechanism 52 is configured to blank and cover the steel wire ring on the thin steel strip clamped by the steel wire ring, and the welding mechanism 53 is configured to weld and fix the interface of the thin steel strip for clamping the steel wire ring. After the clamping at one position is finished, the steel wire assembling disc driver drives the steel wire assembling disc to rotate intermittently so as to clamp and fix the steel wire ring at a plurality of positions on the steel wire ring. The various drivers can select a servo motor, an air cylinder or an electric push rod and the like according to actual requirements.
In summary, the improved compact bead ring production line for the tire provided by the invention has the advantages that the space of a production workshop is fully utilized by designing the brand-new structures and the layout of the winding main machine and the winding device, the clamping device and the ring unloading device, so that the layout of the production line is more compact, and the floor area of the production workshop is saved; the above layout structure is matched, the driving mode of winding rotation and clamping rotation can be realized by setting a single driver, the structural design is optimized, the manufacturing cost of equipment is reduced, and the industrial popularization is facilitated.
The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (10)

1. An improved bead ring production line for a tire includes a wire supplying device for simultaneously drawing out a plurality of wire profiles from a plurality of wire reels; the pre-setting device is used for arranging and setting the special-shaped steel wires output from the steel wire supply device according to a preset shape; the conveying and cutting device is used for conveying the steel wire output from the pre-setting device to a position to be wound and cutting off the steel wire; the method is characterized in that: the winding device comprises a winding main machine, a winding device, a clamping device and a ring unloading device; the winding main machine is provided with a base and a case, the case is rotatably arranged on the base, the case is provided with a steel wire assembling disc, and the steel wire assembling disc, the clamping device and the ring disassembling device can move relatively.
2. The improved bead ring production line for tires according to claim 1, characterized in that: the winding machine further comprises a first sliding rail arranged on one side of the winding main machine, and the clamping device and the ring unloading device are movably arranged on the first sliding rail.
3. The improved bead ring production line for tires according to claim 1, characterized in that: the clamping device and the coil unloading device are fixedly arranged on one side of the winding host, a second slide rail is arranged below the winding host, and a base of the winding host can be movably arranged on the second slide rail.
4. An improved bead ring production line for tires according to any one of claims 1 to 3, characterized in that: the steel wire assembling disc comprises a first steel wire assembling disc and a second steel wire assembling disc, the first steel wire assembling disc is arranged on one side of the case, and the second steel wire assembling disc is arranged on the other side of the case; the driver comprises a first steel wire assembly disc driver and a second steel wire assembly disc driver, the first steel wire assembly disc driver is connected with the first steel wire assembly disc, and the second steel wire assembly disc driver is connected with the second steel wire assembly disc.
5. The improved bead ring production line for tires according to claim 4, characterized in that: the first steel wire assembly disc driver drives the first steel wire assembly disc to have adjustable rotating speed, and the second steel wire assembly disc driver drives the second steel wire assembly disc to have adjustable rotating speed.
6. An improved bead ring production line for tires according to any one of claims 1 to 3, characterized in that: the rotary driving device, the first transmission piece and the second transmission piece are arranged in the base; the rotary driver is connected with the first transmission piece, the first transmission piece is linked with the second transmission piece, and the second transmission piece is fixedly arranged with the bottom plate of the case.
7. An improved bead ring production line for tires according to any one of claims 1 to 3, characterized in that: the winding device comprises a winding rack, wherein a telescopic driver and a roller arranged at the driving end of the telescopic driver are arranged on the winding rack.
8. The improved bead ring production line for tires according to claim 7, characterized in that: the winding device further comprises a shaping driver arranged on the winding rack and a stepped finishing block arranged on the shaping driver.
9. An improved bead ring production line for tires according to any one of claims 1 to 3, characterized in that: the ring unloading device comprises a ring unloading rack, the ring unloading rack is provided with a ring unloading disc and a ring unloading disc driver, the ring unloading disc driver drives the ring unloading disc to move in a telescopic mode, a plurality of open grooves are formed in the circumference of the ring unloading disc, and ring unloading mechanisms are arranged in the open grooves.
10. The improved bead ring production line for tires according to claim 9, characterized in that: the ring unloading mechanism comprises a ring unloading driver and a finger-shaped structure, the ring unloading driver is fixed at the notch of an open slot on the ring unloading disc, and the ring unloading driver drives the finger-shaped structure to move to unload rings.
CN202210526619.0A 2022-05-16 2022-05-16 Improved bead ring production line for tire Active CN114850361B (en)

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