CN112277199A

CN112277199A - Tire ring cutting device

Info

Publication number: CN112277199A
Application number: CN202011061342.6A
Authority: CN
Inventors: 郭庆文
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-30
Filing date: 2020-09-30
Publication date: 2021-01-29

Abstract

The invention relates to the technical field of automobile tire ring cutting, in particular to a tire ring cutting device, which comprises: a processing table; the positioning rotary lifting mechanism is arranged on the processing table and used for horizontally positioning, rotating and lifting the tire to be cut into rings; the multi-shaft driving ring cutting mechanism is arranged on the processing table and used for cutting a ring of the hub positioned by the positioning rotary lifting mechanism; the waste material blanking mechanism is arranged on the processing table and is used for collecting the tire waste materials after the ring is cut on the positioning rotary lifting mechanism; it is characterized in that the positioning rotary lifting mechanism comprises: the lifting assembly is vertically arranged right below the processing table; the rotating assembly is arranged above the lifting assembly; the locating and clamping assembly is arranged at the working end of the rotating assembly, the equipment is simple in structure, can cut the tire into rings quickly and efficiently, meets the requirement of tire treatment, and can automatically collect the cut tire waste.

Description

Tire ring cutting device

Technical Field

The invention relates to the technical field of automobile tire ring cutting, in particular to a tire ring cutting device.

Background

With the continuous development of society and the increasing improvement of the living standard of people, an automobile is generally a main vehicle, the quantity of generated waste tires is also multiplied, the waste tires are inconvenient and wasteful in transportation due to the fact that the waste tires are hollow and large in size, centralized processing is difficult, economic benefits are reduced, the environment is polluted, the waste tires need to be recycled, and therefore the purposes of saving resources and improving the economic benefits are achieved, tires need to be cut into rings, steel wires on the tires can be conveniently taken down, the existing tire ring cutting device cannot be conveniently moved as required in the using process, in the tire cutting process, when the tires are cut to a certain depth, the ring cutting depth of a ring cutting tool needs to be manually adjusted, the tires can be continuously and deeply cut, the ring cutting tool cannot continuously and efficiently press the tires, the tire ring cutting efficiency is reduced, the conventional tire fixing mechanism fixes a tire by utilizing the screw rod to drive the tire supporting rod, after the tire is fixed, the screw rod can generate unnecessary rotation, the tire supporting rod and the tire can not be continuously tensioned, so that the tire can not be accurately and firmly fixed, the tire rotates in the ring cutting process, the ring cutting efficiency of the tire is influenced, the production requirement can not be met, and therefore, the tire ring cutting device is provided, and the problem provided by the scheme is solved.

Disclosure of Invention

For solving above-mentioned technical problem, provide a tire and cut circle device, this equipment simple structure, can high efficiency cut the circle processing with the tire, satisfy the needs that the tire was handled to can be automatic collect the tire waste material of excision.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

a tire bead cutting apparatus comprising:

a processing table;

the positioning rotary lifting mechanism is arranged on the processing table and used for horizontally positioning, rotating and lifting the tire to be cut into rings;

the multi-shaft driving ring cutting mechanism is arranged on the processing table and used for cutting a ring of the hub positioned by the positioning rotary lifting mechanism;

the waste material blanking mechanism is arranged on the processing table and is used for collecting the tire waste materials after the ring is cut on the positioning rotary lifting mechanism;

it is characterized in that the positioning rotary lifting mechanism comprises:

the lifting assembly is vertically arranged right below the processing table;

the rotating assembly is arranged above the lifting assembly, and the working end of the lifting assembly is connected with the inner bottom end of the rotating assembly;

and the positioning and clamping assembly is arranged at the working end of the rotating assembly.

Preferably, the positioning and clamping assembly comprises a bearing disc, a first hollow sleeve, a first motor, a threaded rod, a screw rod sliding sleeve and four positioning fixtures, the bearing disc is horizontally positioned above the processing table, the first hollow sleeve is vertically arranged at the bottom of the bearing disc, the threaded rod is vertically and rotatably arranged at the center of the interior of the first hollow sleeve, the screw rod sliding sleeve is arranged on the threaded rod, the screw rod sliding sleeve is in threaded connection with the threaded rod, the first motor is vertically arranged at the bottom of the first hollow sleeve, the output end of the first motor is in transmission connection with the bottom of the threaded rod, the four positioning fixtures are equidistantly distributed above the bearing disc along the circumferential direction of the bearing disc, each positioning fixture is vertically arranged, the bearing disc is provided with moving chutes which are in one-to-one correspondence with each positioning fixture, and all the moving chutes are distributed in a cross shape, the inside of every removal spout is provided with respectively and can removes the inside gliding slider of spout at every, and the top of every slider is connected with the bottom of every positioning fixture respectively, and the articulated connecting rod that is equipped with every slider one-to-one in the upper end of lead screw sliding sleeve, and the one end that lead screw sliding sleeve was kept away from to every articulated connecting rod is articulated with the bottom of slider respectively, and the top center department that bears the weight of the disc is equipped with the locating pin that is vertical setting.

Preferably, the vertical surfaces of all the positioning clamps facing back to each other are provided with anti-skid rubber layers.

Preferably, the lifting assembly comprises a rectangular base, a first hydraulic cylinder, a lifting plate and four telescopic rods, the base is horizontally arranged under the processing table, the first hydraulic cylinder is vertically arranged at the top of the base, the lifting plate is horizontally arranged right above the first hydraulic cylinder, the working end of the first hydraulic cylinder is connected with the center of the bottom of the lifting plate, the four telescopic rods are vertically arranged at each corner of the base, and the working end of each telescopic rod is connected with the bottom of the lifting plate respectively.

Preferably, rotating assembly includes second cavity sleeve and second motor, and the second cavity sleeve is vertical to be located first cavity sleeve under, and the top of lifter plate is connected with the bottom center department of second cavity sleeve, and the second motor is vertical setting at the inside lower extreme of second cavity sleeve, and the output of second motor is connected with first cavity sleeve's bottom center department.

Preferably, the top edge of the second hollow sleeve is provided with an annular track, and the bottom of the first hollow sleeve is provided with a plurality of annular sliding blocks capable of sliding on the annular track.

Preferably, a circular through hole for the bearing disc to pass through is formed in the processing table, a stripping ring horizontally arranged is arranged on an inner ring of the circular through hole, and the diameter of the inner ring of the stripping ring is equal to that of the bearing disc.

Preferably, the multi-shaft driving ring cutting mechanism comprises a vertical support, a first screw rod sliding table and a second screw rod sliding table, third lead screw slip table, vertical pole and cutter, vertical support sets up on the processing platform, be located the one side that bears the weight of the disc, first lead screw slip table is vertical setting on vertical support is close to the perpendicular that bears the weight of the disc, the work end of first lead screw slip table is provided with the lift diaphragm, second lead screw slip table is the level setting on the lift diaphragm, the work end of second lead screw slip table is provided with X to the horizontal plate, X extends the setting to the direction that bears the weight of the disc to the one end of horizontal plate, third lead screw slip table is the water blanket setting on X to the horizontal plate, the work end of third lead screw slip table is provided with Y to the adapter sleeve, vertical pole is vertical setting and is in Y to the adapter sleeve, the lower extreme downwardly extending of vertical pole, the cutter is the bottom extension end of level setting at vertical pole.

Preferably, multiaxis drive circle cutting mechanism still includes scale and knee, and the scale is the level and sets up at Y to the top of horizontal riser, and the one end and the top of vertical pole of knee are connected, and the other end of knee extends the setting to one side of scale.

Preferably, waste material unloading mechanism includes arc scraping wings, the second pneumatic cylinder, collect basket and both sides portion baffle, both sides portion baffle symmetry sets up in the both sides that bear the weight of the disc, every lateral part baffle is installed respectively on the processing platform, the arc scraping wings is vertical to be located between two lateral part baffles, the bottom that the arc pushed wings closely laminates with the mesa of processing platform, the both sides of arc scraping wings are provided with the sliding block respectively, be equipped with the shifting chute that supplies sliding block horizontal migration on the baffle of both sides portion respectively, the second pneumatic cylinder is the level and sets up the one end of keeping away from bearing the weight of the disc at the arc scraping wings, the output of second pneumatic cylinder is connected with the one end center department of arc scraping wings, the collection basket is vertical setting and keeps away from one side of arc scraping wings at.

Compared with the prior art, the invention has the beneficial effects that: a tire ring cutting device is provided, during operation, a wheel to be cut into a ring is horizontally placed on a bearing disc through a manipulator or a worker and is preliminarily positioned with a positioning pin, a first motor is started, a threaded rod is driven to rotate through the first motor, a screw rod sliding sleeve is driven to move upwards along the threaded rod through the threaded rod, each hinged connecting rod is driven to move upwards through the screw rod sliding sleeve, each sliding block is respectively driven to move along each moving sliding chute through the upper end of each hinged connecting rod, each positioning clamp is driven to move, an inner ring of a wheel hub is positioned through an anti-slip rubber layer arranged on each positioning clamp, a lifting transverse plate is driven to move up and down through the starting of a first screw rod sliding table, a cutter is driven to move up and down through a second screw rod sliding table, an X horizontal plate is driven to move in an X direction, a cutter is driven to move in the X direction, a Y direction, and then drive the Y-direction translation of the cutter, until moving the cutter to the cutting position of the tire and stopping, the curved rod moves along the scale at the same time, the worker can observe the distance of the feed, start the second motor, drive the first hollow sleeve to rotate through the second motor, and then drive the positioned wheel hub to rotate, the feed to the tire on the wheel hub through the cutter carries on the cutting operation of the tire, until the tire is cut evenly, when the first hollow sleeve rotates, each set annular slide block moves along the annular track in a limiting way, and then the positioned wheel is more stable when rotating, after the cutting is finished, start the first hydraulic cylinder, drive the lifting plate and the positioned wheel hub to move to the lower part of the processing platform through the working end of the first hydraulic cylinder, each set telescopic rod plays a role in buffering, when the positioned wheel hub moves to the lower part of the processing platform, the tire waste material that the material ring of shelling that sets up will amputate is contradicted, make the tire waste material remain at the processing bench, start the second pneumatic cylinder, the work end through the second pneumatic cylinder drives the arc scraping wings and will remain in the tire waste material push collecting box on the processing bench and collect, every lateral part baffle that sets up is used for shelves material, every sliding block that sets up carries out spacing removal along the shifting chute that sets up on every lateral part baffle respectively, the equipment simple structure, can high efficiency cut the circle processing with the tire, satisfy the needs that the tire was handled, and can be automatic collect the tire waste material of excision.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a side view of the present invention;

FIG. 4 is a third schematic perspective view of the present invention;

FIG. 5 is a top view of the present invention;

FIG. 6 is a cross-sectional view taken along A-A of FIG. 5 of the present invention;

FIG. 7 is an enlarged view of the invention at B of FIG. 6;

fig. 8 is a schematic perspective view of the multi-axis driving ring cutting mechanism of the present invention.

The reference numbers in the figures are:

1-a processing table; 2-a carrying disc; 3-a first hollow sleeve; 4-a first motor; 5-a threaded rod; 6-a screw rod sliding sleeve; 7-positioning the clamp; 8-moving the chute; 9-a slide block; 10-a hinged link; 11-a locating pin; 12-a non-slip rubber layer; 13-a base; 14-a first hydraulic cylinder; 15-a lifter plate; 16-a telescopic rod; 17-a second hollow sleeve; 18-a second electric machine; 19-an endless track; 20-an annular slider; 21-stripping ring; 22-a vertical support; 23-a first screw rod sliding table; 24-a second screw rod sliding table; 25-a third screw rod sliding table; 26-vertical rods; 27-a cutter; 28-lifting transverse plates; a 29-X direction horizontal plate; a 30-Y direction connecting sleeve; 31-scale; 32-bent rod; 33-arc shaped pusher plate; 34-a second hydraulic cylinder; 35-a collection basket; 36-side baffles; 37-a slider; 38-moving the slot.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1 to 8, a tire bead cutting apparatus includes:

a processing table 1;

the positioning rotary lifting mechanism is arranged on the processing table 1 and is used for horizontally positioning, rotating and lifting the tire to be cut into rings;

the multi-shaft driving ring cutting mechanism is arranged on the processing table 1 and is used for cutting a ring of the hub positioned by the positioning rotary lifting mechanism;

the waste blanking mechanism is arranged on the processing table 1 and is used for collecting the tire waste materials after the ring cutting on the positioning rotary lifting mechanism;

the positioning rotary lifting mechanism comprises:

the lifting assembly is vertically arranged right below the processing table 1;

The positioning and clamping assembly comprises a bearing disc 2, a first hollow sleeve 3, a first motor 4, a threaded rod 5, a lead screw sliding sleeve 6 and four positioning fixtures 7, wherein the bearing disc 2 is horizontally positioned above the processing table 1, the first hollow sleeve 3 is vertically arranged at the bottom of the bearing disc 2, the threaded rod 5 is vertically and rotatably arranged at the inner center of the first hollow sleeve 3, the lead screw sliding sleeve 6 is arranged on the threaded rod 5, the lead screw sliding sleeve 6 is in threaded connection with the threaded rod 5, the first motor 4 is vertically arranged at the bottom of the first hollow sleeve 3, the output end of the first motor 4 is in transmission connection with the bottom of the threaded rod 5, the four positioning fixtures 7 are equidistantly distributed above the bearing disc 2 along the circumferential direction of the bearing disc 2, each positioning fixture 7 is vertically arranged, the bearing disc 2 is provided with moving chutes 8 which are in one-to-one correspondence with each positioning fixture 7, all moving chutes 8 are arranged in a cross shape, each moving chute 8 is internally provided with a sliding block 9 capable of sliding in each moving chute 8, the top of each sliding block 9 is connected with the bottom of each positioning fixture 7, the upper end of the screw rod sliding sleeve 6 is hinged with a hinged connecting rod 10 corresponding to each sliding block 9 one to one, one end of each hinged connecting rod 10 far away from the screw rod sliding sleeve 6 is hinged with the bottom of each sliding block 9, and the center of the top of the bearing disc 2 is provided with a positioning pin 11 which is vertically arranged.

All positioning fixture 7 all is provided with non-slip rubber layer 12 on the perpendicular of back to each other, during the operation, the wheel that will treat the cutting ring through manipulator or staff is the level and places on bearing disc 2, and with locating pin 11 location initially, start first motor 4, it is rotatory to drive threaded rod 5 through first motor 4, drive lead screw sliding sleeve 6 through threaded rod 5 along threaded rod 5 rebound, drive every articulated connecting rod 10 rebound through lead screw sliding sleeve 6, drive every slider 9 respectively through the upper end of every articulated connecting rod 10 along every removal spout 8 removal, and then drive every positioning fixture 7 and remove, non-slip rubber layer 12 through setting up on every positioning fixture 7 fixes a position wheel hub's inner circle.

The lifting assembly comprises a rectangular base 13, a first hydraulic cylinder 14, a lifting plate 15 and four telescopic rods 16, the base 13 is horizontally arranged under the machining table 1, the first hydraulic cylinder 14 is vertically arranged at the top of the base 13, the lifting plate 15 is horizontally arranged right above the first hydraulic cylinder 14, the working end of the first hydraulic cylinder 14 is connected with the center of the bottom of the lifting plate 15, the four telescopic rods 16 are vertically arranged at each corner of the base 13, the working end of each telescopic rod 16 is respectively connected with the bottom of the lifting plate 15, after the ring is cut, the first hydraulic cylinder 14 is started, the working end of the first hydraulic cylinder 14 drives the lifting plate 15 and the positioned hub to move towards the lower part of the machining table 1, and each set telescopic rod 16 plays a role in buffering.

The rotating assembly comprises a second hollow sleeve 17 and a second motor 18, the second hollow sleeve 17 is vertically positioned under the first hollow sleeve 3, the top of the lifting plate 15 is connected with the center of the bottom of the second hollow sleeve 17, the second motor 18 is vertically arranged at the lower end of the inside of the second hollow sleeve 17, and the output end of the second motor 18 is connected with the center of the bottom of the first hollow sleeve 3.

The top edge of second hollow sleeve 17 is provided with circular orbit 19, the bottom of first hollow sleeve 3 is equipped with a plurality of and can be on circular orbit 19 gliding annular slider 20, start second motor 18, it is rotatory to drive first hollow sleeve 3 through second motor 18, and then it is rotatory to drive the wheel hub after the location, the cutting operation is carried out the tire to the advance of the tire on the wheel hub through cutter 27, until cutting the even circle of tire, when first hollow sleeve 3 is rotatory, every annular slider 20 that sets up respectively along circular orbit 19 spacing removal, and then it is more stable when making the wheel of location rotatory.

The processing table 1 is provided with a circular through hole for the bearing disc 2 to pass through, the inner ring of the circular through hole is provided with a stripping ring 21 which is horizontally arranged, the diameter of the inner ring of the stripping ring 21 is equal to that of the bearing disc 2, and when the positioned hub moves towards the lower part of the processing table 1, the arranged stripping ring 21 collides the cut tire waste, so that the tire waste is kept on the processing table 1.

The multi-shaft driving ring cutting mechanism comprises a vertical support 22, a first lead screw sliding table 23, a second lead screw sliding table 24, a third lead screw sliding table 25, a vertical rod 26 and a cutter 27, wherein the vertical support 22 is arranged on the processing table 1 and is positioned at one side of the bearing disc 2, the first lead screw sliding table 23 is vertically arranged on a vertical surface of the vertical support 22 close to the bearing disc 2, a lifting transverse plate 28 is arranged at the working end of the first lead screw sliding table 23, the second lead screw sliding table 24 is horizontally arranged on the lifting transverse plate 28, an X-direction horizontal plate 29 is arranged at the working end of the second lead screw sliding table 24, one end of the X-direction horizontal plate 29 extends towards the bearing disc 2, the third lead screw sliding table 25 is horizontally arranged on the X-direction horizontal plate 29, a Y-direction connecting sleeve 30 is arranged at the working end of the third lead screw sliding table 25, the vertical rod 26 is vertically arranged on the Y-direction connecting sleeve 30, and the lower, the cutter 27 is horizontally disposed at the bottom extending end of the vertical rod 26.

Circle mechanism is cut in multiaxis drive still includes scale 31 and knee 32, scale 31 is the level setting at Y to horizontal riser's top, the one end of knee 32 is connected with vertical pole 26's top, the other end of knee 32 extends the setting to one side of scale 31, start first lead screw slip table 23 and drive lift diaphragm 28 elevating movement, be used for driving cutter 27 and adjust from top to bottom, drive X horizontal plate X through second lead screw slip table 24 to the translation, and then drive cutter 27 towards X to the translation, drive Y to adapter sleeve 30 and vertical pole 26Y to the translation through third lead screw slip table 25, and then drive cutter 27Y to the translation, until cutting 27 moves to the circle position of cutting of tire and stops, the knee 32 of setting simultaneously moves along scale 31, be convenient for the staff to observe the distance of feed.

The waste blanking mechanism comprises an arc-shaped pushing plate 33, a second hydraulic cylinder 34, a collecting basket 35 and two side baffles 36, wherein the two side baffles 36 are symmetrically arranged at two sides of the bearing disc 2, each side baffle 36 is respectively arranged on the processing table 1, the arc-shaped pushing plate 33 is vertically arranged between the two side baffles 36, the bottom of the arc-shaped pushing plate is tightly attached to the table surface of the processing table 1, sliding blocks 37 are respectively arranged at two sides of the arc-shaped pushing plate 33, moving grooves 38 for the sliding blocks 37 to horizontally move are respectively arranged on the two side baffles 36, the second hydraulic cylinder 34 is horizontally arranged at one end of the arc-shaped pushing plate 33 far away from the bearing disc 2, the output end of the second hydraulic cylinder 34 is connected with the center of one end of the arc-shaped pushing plate 33, the collecting basket 35 is vertically arranged at one side of the processing table 1 far away from the arc-shaped pushing plate 33, the second hydraulic cylinder 34 is started, and the working end of the second hydraulic cylinder 34 drives the arc The collection is carried out in the box, each side baffle 36 is arranged for blocking materials, and each sliding block 37 is arranged to move along a moving groove 38 arranged on each side baffle 36 in a limiting mode.

The working principle of the invention is as follows: during operation, a wheel to be cut is horizontally placed on the bearing disc 2 through a manipulator or a worker and is initially positioned with the positioning pin 11, the first motor 4 is started, the threaded rod 5 is driven to rotate through the first motor 4, the threaded rod 5 drives the screw rod sliding sleeve 6 to move upwards along the threaded rod 5, the screw rod sliding sleeve 6 drives each hinged connecting rod 10 to move upwards, the upper end of each hinged connecting rod 10 drives each sliding block 9 to move along each moving sliding chute 8 respectively, so as to drive each positioning fixture 7 to move, the inner ring of the wheel hub is positioned through the anti-slip rubber layer 12 arranged on each positioning fixture 7, the first screw rod sliding table 23 is started to drive the lifting transverse plate 28 to move up and down so as to drive the cutter 27 to adjust up and down, the X-direction horizontal plate is driven to move horizontally through the second screw rod sliding table 24, so as to drive the cutter 27 to move horizontally towards the, the Y-direction connecting sleeve 30 and the vertical rod 26 are driven to translate in the Y direction through the third screw rod sliding table 25, the cutter 27 is driven to translate in the Y direction until the cutter 27 is moved to the ring cutting position of the tire and stops, the arranged bent rod 32 moves along the scale 31 at the same time, so that a worker can conveniently observe the distance of feed, the second motor 18 is started, the first hollow sleeve 3 is driven to rotate through the second motor 18, the positioned hub is driven to rotate, the tire is cut into rings through the feed of the cutter 27 to the tire on the hub until the tire is uniformly cut into rings, when the first hollow sleeve 3 rotates, each annular slide block 20 is respectively arranged to move along the annular rail 19 in a limiting manner, the positioned wheel is further enabled to rotate more stably, after the rings are cut, the first hydraulic cylinder 14 is started, the lifting plate 15 and the positioned hub are driven to move below the processing table 1 through the working end of the first hydraulic cylinder 14, each telescopic rod 16 is arranged to play a role in buffering, when a positioned wheel hub moves to the lower part of the processing table 1, the cut tire waste is abutted by the arranged stripping ring 21, so that the tire waste is remained on the processing table 1, the second hydraulic cylinder 34 is started, the arc-shaped material pushing plate 33 is driven by the working end of the second hydraulic cylinder 34 to push the tire waste remained on the processing table 1 into the collection box for collection, each side baffle 36 is arranged for blocking materials, and each sliding block 37 is arranged to perform limiting movement along the moving groove 38 arranged on each side baffle 36.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A tire bead cutting apparatus comprising:

a processing table (1);

the positioning, rotating and lifting mechanism is arranged on the processing table (1) and is used for horizontally positioning, rotating and lifting the tire to be cut into rings;

the multi-shaft driving ring cutting mechanism is arranged on the processing table (1) and is used for cutting a ring of the hub positioned by the positioning rotary lifting mechanism;

the waste blanking mechanism is arranged on the processing table (1) and is used for collecting the tire waste materials which are circled on the positioning rotary lifting mechanism;

it is characterized in that the positioning rotary lifting mechanism comprises:

the lifting assembly is vertically arranged right below the processing table (1);

2. The tire ring cutting device according to claim 1, wherein the positioning and clamping assembly comprises a bearing disc (2), a first hollow sleeve (3), a first motor (4), a threaded rod (5), a screw rod sliding sleeve (6) and four positioning clamps (7), the bearing disc (2) is horizontally positioned above the processing table (1), the first hollow sleeve (3) is vertically arranged at the bottom of the bearing disc (2), the threaded rod (5) is vertically and rotatably arranged at the inner center of the first hollow sleeve (3), the screw rod sliding sleeve (6) is arranged on the threaded rod (5), the screw rod sliding sleeve (6) is in threaded connection with the threaded rod (5), the first motor (4) is vertically arranged at the bottom of the first hollow sleeve (3), the output end of the first motor (4) is in transmission connection with the bottom of the threaded rod (5), four positioning fixture (7) are in the top of bearing disc (2) along the circumferencial direction equidistant distribution who bears disc (2), every positioning fixture (7) all is vertical setting, bearing disc (2) on set up with removal spout (8) of every positioning fixture (7) one-to-one, all removal spouts (8) are the distribution setting of cross, the inside of every removal spout (8) is provided with respectively can be at every slider (9) that removes spout (8) inside gliding, the top of every slider (9) is connected with the bottom of every positioning fixture (7) respectively, the articulated connecting rod (10) that are equipped with every slider (9) one-to-one in upper end of lead screw sliding sleeve (6), the one end that lead screw sliding sleeve (6) was kept away from in every articulated connecting rod (10) is articulated with the bottom of slider (9) respectively, the top center department that bears disc (2) is equipped with locating pin (11) that are vertical setting.

3. A tyre bead cutting device according to claim 2, characterized in that all the positioning clamps (7) are provided with an anti-slip rubber layer (12) on the mutually opposite vertical surfaces.

4. The tire ring cutting device according to claim 3, wherein the lifting assembly comprises a rectangular base (13), a first hydraulic cylinder (14), a lifting plate (15) and four telescopic rods (16), the base (13) is horizontally arranged right below the processing table (1), the first hydraulic cylinder (14) is vertically arranged at the top of the base (13), the lifting plate (15) is horizontally arranged right above the first hydraulic cylinder (14), the working end of the first hydraulic cylinder (14) is connected with the center of the bottom of the lifting plate (15), the four telescopic rods (16) are vertically arranged at each corner of the base (13), and the working end of each telescopic rod (16) is respectively connected with the bottom of the lifting plate (15).

5. A tyre ring cutting device according to claim 4, characterized in that the rotating assembly comprises a second hollow sleeve (17) and a second motor (18), the second hollow sleeve (17) is vertically positioned under the first hollow sleeve (3), the top of the lifting plate (15) is connected with the bottom center of the second hollow sleeve (17), the second motor (18) is vertically arranged at the inner lower end of the second hollow sleeve (17), and the output end of the second motor (18) is connected with the bottom center of the first hollow sleeve (3).

6. A tyre bead-cutting device as claimed in claim 5, characterized in that the second hollow sleeve (17) is provided at its top edge with an annular track (19), and the first hollow sleeve (3) is provided at its bottom with a plurality of annular slides (20) able to slide on the annular track (19).

7. A tire circle cutting device according to claim 6, characterized in that the processing table (1) is provided with a circular through hole for the bearing disc (2) to pass through, the inner ring of the circular through hole is provided with a horizontally arranged stripping ring (21), and the diameter of the inner ring of the stripping ring (21) is equal to that of the bearing disc (2).

8. The tire ring cutting device according to claim 7, wherein the multi-shaft driving ring cutting mechanism comprises a vertical support (22), a first screw rod sliding table (23), a second screw rod sliding table (24), a third screw rod sliding table (25), a vertical rod (26) and a cutter (27), the vertical support (22) is arranged on the processing table (1) and is positioned at one side of the bearing disc (2), the first screw rod sliding table (23) is vertically arranged on a vertical surface of the vertical support (22) close to the bearing disc (2), a lifting transverse plate (28) is arranged at the working end of the first screw rod sliding table (23), the second screw rod sliding table (24) is horizontally arranged on the lifting transverse plate (28), an X-direction horizontal plate (29) is arranged at the working end of the second screw rod sliding table (24), one end of the X-direction horizontal plate (29) extends towards the direction of the bearing disc (2), third lead screw slip table (25) are the water blanket and set up on X to horizontal plate (29), and the work end of third lead screw slip table (25) is provided with Y to adapter sleeve (30), and vertical pole (26) are vertical setting on Y to adapter sleeve (30), and the lower extreme downwardly extending of vertical pole (26), cutter (27) are the level and set up the bottom extension end at vertical pole (26).

9. The tire circle cutting device according to claim 8, characterized in that the multi-axis driving circle cutting mechanism further comprises a scale (31) and a bent rod (32), wherein the scale (31) is horizontally arranged on the top of the Y-direction horizontal riser, one end of the bent rod (32) is connected with the top of the vertical rod (26), and the other end of the bent rod (32) is arranged to extend towards one side of the scale (31).

10. The tire ring cutting device according to claim 9, wherein the waste blanking mechanism comprises an arc-shaped pushing plate (33), a second hydraulic cylinder (34), a collecting basket (35) and two side baffles (36), the two side baffles (36) are symmetrically arranged on two sides of the bearing disc (2), each side baffle (36) is respectively arranged on the processing table (1), the arc-shaped pushing plate (33) is vertically arranged between the two side baffles (36), the bottom of the arc-shaped pushing plate is tightly attached to the table surface of the processing table (1), two sides of the arc-shaped pushing plate (33) are respectively provided with a sliding block (37), the two side baffles (36) are respectively provided with a moving groove (38) for the horizontal movement of the sliding block (37), the second hydraulic cylinder (34) is horizontally arranged at one end of the arc-shaped pushing plate (33) far away from the bearing disc (2), the output end of the second hydraulic cylinder (34) is connected with the center of one end of the arc-shaped pushing plate (33), the collecting basket (35) is vertically arranged on one side of the processing platform (1) far away from the arc-shaped material pushing plate (33).