CN212558277U - Full-automatic tire circular cutting conveying device - Google Patents

Abstract

The utility model relates to a full-automatic tire circular cutting and conveying device, which comprises a front end conveying mechanism, a rotary conveying mechanism and a conveying mechanism, wherein the front end conveying mechanism is used for conveying waste tires to the rotary conveying mechanism; the rotary carrying mechanism is used for carrying the waste tire to the bead ring cutting mechanism and assisting in carrying out tire ring cutting; the bead ring cutting mechanism cuts off the bead of the waste tire under the action of the rotary carrying mechanism; and the rear end conveying mechanism is used for conveying the waste tire with the cut tire bead out. The beneficial effects of the utility model are that tire circular cutting conveyor can realize that the automatic of tire is carried, the tire clamp is got, the tire bead circular cutting reaches the transport work of circular cutting back tire.

Description

Full-automatic tire circular cutting conveying device

Technical Field

The utility model belongs to the technical field of junked tire, especially, relate to a full-automatic tire circular cutting conveyor.

Background

With more and more discarded waste tires, more and more attention is paid to the secondary utilization of waste tires. In the prior art, a relatively perfect waste tire processing mode is not provided, a complete waste tire half-component directional processing system is not provided, most tires are destroyed, the utilization rate of waste materials is low, and material waste is greatly caused. At the present stage, some simple and crude devices for cutting the bead ring exist, but the devices are all manually operated, the manual operation precision is low, the labor cost is high, and certain operation danger exists.

In Chinese patent literature, the invention is named as a waste tire circular cutting device, and the publication with the publication number of CN108437285A discloses a scheme, which comprises a base, a supporting seat, a rotating shaft, a first motor, a sliding plate, a bracket, a circular cutting knife and a second motor; the supporting seat is arranged on the base; the rotating shaft is parallel to the base, is arranged on the supporting seat and can rotate under the driving of the motor I; the sliding plate is arranged on the supporting seat and can slide towards the supporting seat on the base; the bracket is arranged on the base; the ring cutter is arranged on the bracket and can rotate under the drive of the motor II; the expansion mechanism comprises a hydraulic rod and a supporting plate, the hydraulic rod is fixed on the rotating shaft, the supporting plate is installed on the hydraulic rod, and the outer side face of the supporting plate is an arc face.

Although the technical scheme realizes the circular cutting of the tire, the traditional mechanical blade can cause rubber heating and scorching during cutting, so that the environment is polluted, and the circular cutting device adopts two-shaft linkage and has lower flexibility; in addition, the tire is supported by the expansion mechanism during the tire cutting, and the tire is not favorably held during the cutting process; and the functions of conveying and carrying tires and the like are not involved.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an all-tire circular cutting conveyor, the purpose is that the automatic transport of realization tire, tire clamp get, the tire bead circular cut and the transport work of circular cut back tire.

The technical scheme of the utility model is that:

a full-automatic tire circular cutting and conveying device, which comprises,

the front end conveying mechanism is used for conveying the waste tires to the rotary carrying mechanism;

the rotary carrying mechanism is used for carrying the waste tire to the bead ring cutting mechanism and assisting in carrying out tire ring cutting;

the bead ring cutting mechanism cuts off the bead of the waste tire under the action of the rotary carrying mechanism;

and the rear end conveying mechanism is used for conveying the waste tire with the cut tire bead out.

Furthermore, the rotary conveying mechanism comprises a rotary table support frame, a rotary table arranged on the rotary table support frame, clamping assemblies arranged on two sides of the rotary table and a rotary driving assembly for driving the rotary table to rotate; the clamping assembly comprises a clamping base arranged on the rotating platform, two lead screws which are arranged on the clamping base and have opposite spiral turning directions, a coupler for connecting the two lead screws, guide rods arranged on two sides of the lead screws in parallel, clamping jaws arranged on the two lead screws and on the guide rods in a rotating mode respectively, and a lead screw power part arranged on one side of the clamping base and used for driving the two lead screws to rotate. In the technical scheme, the clamping assembly can respectively clamp two tire beads of a tire, the driving of the two actuating mechanisms by the single screw power part is realized by adopting the design of a double-rotation-direction lead screw, and the mutual approaching or separating of two clamping jaws is realized; two clamping jaws adopt relative horizontal movement, can guarantee that the centre of getting is got to the clamp and remains unchanged, make the clamp force of tongs to each position of tire comparatively even, avoided the centre gripping stress concentration of centre gripping in-process, prevent that the tire from taking place inhomogeneous deformation, make the tire keep true circle in the centre gripping process, guarantee follow-up cutting accuracy.

Further, bead ring cutting mechanism includes the stand, fixes the cantilever beam on the stand, sets up at the terminal rotary power drive of cantilever beam arm, the horizontal module of being connected with rotary power drive, with horizontal module sliding connection's vertical module, set up the water sword subassembly on vertical module. Adopt the triaxial to remove among this technical scheme can press from both sides the tire bead of getting and dismantling multiple specification, the degree of freedom is high, flexible operation.

Furthermore, front end conveying mechanism includes climbing conveying chain subassembly and horizontal conveying chain subassembly, climbing conveying chain subassembly includes power cylinder support, fixes the cylinder side shield of both sides on power cylinder support, installs the power cylinder between two cylinder side shields, ann changes the direction bracing piece on the cylinder side shield, installs fortune wheel on the direction bracing piece, the cylinder power spare of drive power cylinder motion.

Furthermore, the clamping jaw comprises an upper side plate, a lower side plate, a clamping fixing plate fixed at one end of the upper side plate and the lower side plate, a screw rod sleeve and a clamping sliding block which are arranged on the clamping fixing plate and respectively sleeved on a screw rod and a guide rod, a plurality of rotary rollers arranged between the upper side plate and the lower side plate and contacted with tires, and a supporting rod arranged between the upper side plate and the lower side plate and opposite to the rotary rollers. The clamping jaw in the technical scheme is provided with the rotary roller, so that the clamping jaw has a higher buffering effect, the clamping jaw is prevented from damaging or deforming the tire greatly, the cutting precision is prevented from being influenced, and the friction effect on the tire is improved; in addition, the tire can free rotation in rotatory transport mechanism's centre gripping subassembly, guarantees the smooth realization of ring-cutting work.

Furthermore, the rotary driving assembly comprises a turbine shaft connected with the rotary table, a turbine worm connected with the turbine shaft, a second bevel gear connected with the worm through a coupling, a first bevel gear matched with the second bevel gear, and a bevel gear motor connected with the first bevel gear.

Furthermore, rear end conveying mechanism includes rear end conveying chain support, set up rear end conveying motor on rear end conveying chain support, the sprocket group of being connected with rear end conveying motor, set up the rotation chain on the sprocket group, install the delivery board on the rotation chain through the hinge.

Furthermore, the water jet cutter assembly comprises a water jet cutter support fixedly arranged on the vertical module, a water jet cutter arranged on the water jet cutter support and a water retaining cover sleeved on the water jet cutter. In the technical scheme, the water jet cutter is used for cutting the tire bead, and the rubber is cooled by water flow in the cutting process, so that pollution is avoided; and a water-knife water-retaining cover is arranged to prevent water flow generated by the water knife from splashing.

Further, horizontal module includes the horizontal module support of being connected with the rotary power drive, installs the electronic slide rail of level on horizontal module support, sets up horizontal slider on the electronic slide rail of level and drives horizontal slider along the electronic slide rail removal of level horizontal slider motor.

Further, vertical module is including fixing the vertical module support on horizontal slider, being fixed in the vertical electronic slide rail on the vertical module support, setting up the vertical slider on vertical electronic slide rail and drive vertical slider along the vertical slider motor of the electronic slide rail removal of level.

The utility model has the advantages that:

1) the tire ring cutting and conveying device can realize automatic conveying of tires, tire clamping, tire bead ring cutting and conveying of the tires subjected to ring cutting.

2) The rotary carrying mechanism can clamp the tire and convey the tire to the bead ring cutting mechanism, and the tire can freely rotate in the clamping mechanism of the rotary carrying device, so that smooth realization of ring cutting work is guaranteed.

3) The tire bead ring cutting device adopts three-axis linkage, has higher flexibility, can cut the tire beads of different specifications, has high cutting precision of the water jet cutter, and cannot generate pollution.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a partial structure view of the front end conveying mechanism of the present invention;

FIG. 3 is a structural view of the rotary carrying mechanism of the present invention;

FIG. 4 is a structural diagram of the clamping assembly of the present invention;

FIG. 5 is a structural view of the rotary drive assembly of the present invention;

FIG. 6 shows the ring cutting mechanism of the present invention;

FIG. 7 is a structural diagram of the horizontal module of the present invention;

FIG. 8 is a diagram of the vertical module structure of the present invention;

FIG. 9 is a view of the structure of the water jet cutter of the present invention;

fig. 10 is a structural view of the rear end conveying mechanism of the present invention.

In the figure, 100, a front end conveying mechanism; 200. a rotary carrying mechanism; 300. a bead ring cutting mechanism; 400. a rear end conveying mechanism; 110. a climbing conveyor chain assembly; 120. a horizontal conveyor chain assembly; 111. a powered roller support; 112. a drum side baffle; 113. a powered roller; 114. a guide support rod; 115. a Fulai wheel;

210. a rotating table support frame; 220. a rotating table; 230. a clamping assembly; 240. a rotary drive assembly; 231. tightening the base; 232. a lead screw; 233. a coupling; 234. a guide bar; 235. a clamping jaw; 235-1, upper side plate; 235-2, lower side plate; 235-3, clamping the fixing plate; 235-4, a screw sleeve; 235-5, clamping the sliding block; 235-6, rotating the roller; 235-7 of support rods; 236-1 and a clamping jaw motor; 236-2, a first pulley; 236-3, a second pulley; 241. a turbine shaft; 242. a turbine; 243. a worm; 244. a second bevel gear; 245. a first bevel gear; 246. a bevel gear motor.

310. A column; 320. a cantilever beam; 330. driving by rotary power; 340. a horizontal module; 350. a vertical module; 360. a water jet assembly; 341. a horizontal module support; 342. a horizontal electric slide rail; 343. a horizontal slider; 344. a horizontal slider motor; 351. a vertical module support; 352. a vertical electric slide rail; 353. a vertical slide block; 354. a vertical slider motor; 361. a water jet cutter support; 362. water jet; 363. a water retaining cover.

401. A rear end conveyor chain support; 402. a rear end conveying motor; 403. a sprocket set; 404. and (5) conveying the plate.

Detailed Description

As shown in fig. 1, a full-automatic tire circular cutting and conveying device comprises,

a front end conveying mechanism 100 for conveying the junked tires to the rotary carrying mechanism;

the rotary carrying mechanism 200 is used for carrying the waste tire to the bead ring cutting mechanism and assisting in performing tire ring cutting;

the bead ring cutting mechanism 300 is used for cutting off the bead of the waste tire under the action of the rotary conveying mechanism;

and the rear end conveying mechanism 400 is used for conveying the waste tire with the cut tire bead out.

As shown in fig. 1 and 2, the front end conveying mechanism includes a climbing conveying chain assembly 110 and a horizontal conveying chain assembly 120, the climbing conveying chain assembly 110 includes a power roller support 111, roller side baffles 112 fixed on both sides of the power roller support, a power roller 113 installed between the two roller side baffles, a guide support rod 114 installed on the roller side baffles, a Foley wheel 115 installed on the guide support rod, and a roller power member driving the power roller to move, and the roller power member is implemented by a motor and a sprocket chain.

As shown in fig. 3 and 4, the rotary transfer mechanism 200 includes a rotary table support frame 210, a rotary table 220 provided on the rotary table support frame, clamping units 230 attached to both sides of the rotary table, and a rotary drive unit 240 for driving the rotary table to rotate; the tightening assembly 230 comprises a tightening base 231 mounted on the rotating table, two screw rods 232 mounted on the tightening base and having opposite spiral directions, a coupler 233 connected with the two screw rods, guide rods 234 arranged on two sides of the screw rods in parallel, clamping jaws 235 respectively mounted on the two screw rods and the guide rods, and a screw rod power part mounted on one side of the tightening base and driving the two screw rods to rotate.

The clamping jaw 235 comprises an upper side plate 235-1, a lower side plate 235-2, a clamping fixing plate 235-3 fixed at one end of the upper side plate and the lower side plate, a screw rod sleeve 235-4 and a clamping sliding block 235-5 which are arranged on the clamping fixing plate and respectively sleeved with a screw rod and a guide rod, a plurality of rotary rollers 235-6 which are arranged between the upper side plate and the lower side plate and can freely rotate in contact with tires, and a supporting rod 235-7 arranged at the opposite side of the rotary rollers between the upper side plate and the lower side plate. When the lead screw rotates, the clamping jaws arranged on the two lead screws can move relatively, namely the two clamping jaws move close to or away from each other, when the two clamping jaws are close to each other, a tire can be clamped, and when the two clamping jaws are away from each other, the tire can be dismounted. The screw power part comprises a second belt wheel 236-3 fixedly arranged at the end part of the screw 232, a clamping jaw motor 236-1 arranged on the base of the clamping jaw and a first belt wheel 236-2 connected with the clamping jaw motor, and the second belt wheel and the first belt wheel are connected through a belt (not shown in the figure) and can rotate relatively.

As shown in fig. 5, the rotary driving assembly 240 includes a turbine shaft 241 connected to the rotary table, a worm wheel 242 and a worm 243 connected to the turbine shaft, a second bevel gear 244 connected to the worm via a coupling, a first bevel gear 245 engaged with the second bevel gear, and a bevel gear motor 246 connected to the first bevel gear.

As shown in fig. 6-9, the bead ring cutting mechanism 300 includes a vertical column 310, a cantilever beam 320 fixed on the vertical column, a rotary power drive 330 disposed at the end of the cantilever beam, a horizontal module 340 connected with the rotary power drive, a vertical module 350 slidably connected with the horizontal module, and a water knife assembly 360 disposed on the vertical module.

The horizontal module 340 includes a horizontal module bracket 341 drivingly connected to the rotary power, a horizontal electric slide rail 342 mounted on the horizontal module bracket, a horizontal slider 343 disposed on the horizontal electric slide rail, and a horizontal slider motor 344 driving the horizontal slider to move along the horizontal electric slide rail. The vertical module 350 comprises a vertical module support 351 fixed on the horizontal sliding block 343, a vertical electric sliding rail 352 fixed on the vertical module support, a vertical sliding block 353 arranged on the vertical electric sliding rail, and a vertical sliding block motor 354 driving the vertical sliding block to move along the horizontal electric sliding rail. The water jet assembly 360 comprises a water jet support 361 fixedly arranged on the vertical sliding block, a water jet 362 arranged on the water jet support and a water blocking cover 363 sleeved on the water jet. The rotary power drive 330 mainly comprises a motor, a belt wheel, a bearing and the like, and can realize that the water jet cutter rotates in a certain space range.

As shown in fig. 10, the rear end conveying mechanism 400 includes a rear end conveying chain support 401, a rear end conveying motor 402 provided on the rear end conveying chain support, a chain wheel set 403 connected to the motor, a rotating chain provided on the chain wheel set, and a conveying plate 404 attached to the rotating chain via a hinge.

The working method of the full-automatic tire circular cutting and conveying device comprises the following steps:

the tire front end conveying mechanism 100 is responsible for conveying complete waste tires from a waste tire shelf to the tire rotating and conveying mechanism 200 through the climbing conveying chain assembly 110 and the horizontal conveying chain assembly 120, a clamping assembly of the tire rotating and conveying mechanism 200 moves, namely a motor drives a lead screw to run, two clamping jaws move relatively, and the tires are clamped when the two clamping jaws approach each other; the rotary driving assembly 240 acts to drive the rotary table to rotate, so that the waste tire rotates to the working area of the bead ring cutting mechanism;

the bead ring cutting mechanism is used for cutting off the bead of the waste tire for recycling; the rotating power drives the horizontal module bracket to rotate, so that the water knife rotates in a certain space range; the motor action of the horizontal module drives the water jet to move horizontally, and the motor action of the vertical module drives the water jet to move vertically;

the water jet cutter is started, high-pressure water jet can be sprayed out to cut the waste tire, the cutting precision is high, and the method is pollution-free. Through the linkage control of the rotary power drive, the horizontal module and the vertical module, the water jet cutter can cut any position of the side surface of the waste tire, so that a complete tire bead is cut.

Claims (10)

1. The utility model provides a full-automatic tire ring cutting conveyor which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the front end conveying mechanism is used for conveying the waste tires to the rotary carrying mechanism;

the rotary carrying mechanism is used for carrying the waste tire to the bead ring cutting mechanism and assisting in carrying out tire ring cutting;

the bead ring cutting mechanism cuts off the bead of the waste tire under the action of the rotary carrying mechanism;

and the rear end conveying mechanism is used for conveying the waste tire with the cut tire bead out.

2. The fully automatic tire ring cutting conveyor of claim 1, wherein: the rotary conveying mechanism comprises a rotary table supporting frame, a rotary table arranged on the rotary table supporting frame, clamping assemblies arranged on two sides of the rotary table and a rotary driving assembly for driving the rotary table to rotate; the clamping assembly comprises a clamping base arranged on the rotating platform, two lead screws which are arranged on the clamping base and have opposite spiral turning directions, a coupler for connecting the two lead screws, guide rods arranged on two sides of the lead screws in parallel, clamping jaws arranged on the two lead screws and on the guide rods in a rotating mode respectively, and a lead screw power part arranged on one side of the clamping base and used for driving the two lead screws to rotate.

3. The fully automatic tire ring cutting conveyor of claim 1, wherein: the bead ring cutting mechanism comprises an upright post, a cantilever beam fixed on the upright post, a rotary power drive arranged at the tail end of the cantilever beam arm, a horizontal module connected with the rotary power drive, a vertical module connected with the horizontal module in a sliding manner, and a water jet assembly arranged on the vertical module.

4. The fully automatic tire ring cutting conveyor of claim 1, wherein: the front end conveying mechanism comprises a climbing conveying chain component and a horizontal conveying chain component, wherein the climbing conveying chain component comprises a power roller support, roller side baffles fixed on two sides of the power roller support, a power roller arranged between the two roller side baffles, a guide supporting rod arranged on the roller side baffles, a fortune coming wheel arranged on the guide supporting rod and a roller power part driving the power roller to move.

5. The fully automatic tire ring cutting conveyor of claim 2, wherein: the clamping jaw comprises an upper side plate, a lower side plate, a clamping fixing plate fixed at one end of the upper side plate and the lower side plate, a screw rod sleeve and a clamping sliding block which are arranged on the clamping fixing plate and are respectively sleeved on a screw rod and a guide rod, a plurality of rotary rollers which are arranged between the upper side plate and the lower side plate and are in contact with tires and can freely rotate, and supporting rods arranged between the upper side plate and the lower side plate and opposite to the rotary rollers.

6. The fully automatic tire ring cutting conveyor of claim 2, wherein: the rotary driving assembly comprises a turbine shaft connected with the rotary table, a turbine worm connected with the turbine shaft, a second bevel gear connected with the worm through a coupler, a first bevel gear matched with the second bevel gear, and a bevel gear motor connected with the first bevel gear.

7. The fully automatic tire ring cutting conveyor of claim 1, wherein: the rear end conveying mechanism comprises a rear end conveying chain support, a rear end conveying motor arranged on the rear end conveying chain support, a chain wheel set connected with the rear end conveying motor, a rotating chain arranged on the chain wheel set, and a conveying plate arranged on the rotating chain through a hinge.

8. The fully automatic tire ring cutting conveyor of claim 3, wherein: the water knife component comprises a water knife bracket fixed on the vertical module, a water knife arranged on the water knife bracket and a water retaining cover sleeved on the water knife.

9. The fully automatic tire ring cutting conveyor of claim 3, wherein: the horizontal module comprises a horizontal module support, a horizontal electric sliding rail, a horizontal sliding block and a horizontal sliding block motor, wherein the horizontal module support is connected with the rotary power drive, the horizontal electric sliding rail is installed on the horizontal module support, the horizontal sliding block is arranged on the horizontal electric sliding rail, and the horizontal sliding block motor drives the horizontal sliding block to move along the horizontal electric sliding rail.

10. The fully automatic tire ring cutting conveyor of claim 3, wherein: the vertical module comprises a vertical module support fixed on the horizontal sliding block, a vertical electric sliding rail fixed on the vertical module support, a vertical sliding block arranged on the vertical electric sliding rail and a vertical sliding block motor driving the vertical sliding block to move along the horizontal electric sliding rail.

Images