CN203752375U - High-pressure-water-jet-based tire recovery device for crushing junked tire - Google Patents

Abstract

The utility model discloses a high-pressure-water-jet-based tire recovery device for crushing a junked tire. The tire recovery device is characterized by comprising a rack (22), wherein a crushing chamber (5) with an openable head cover (1) is arranged at the upper part of the rack (22); a tire clamping mechanism is arranged inside the crushing chamber (15); mobile jet nozzles for jetting high-pressure water towards the clamped tire are arranged on the crushing chamber (15) in the upper, lower, left and right directions; the clamping mechanism comprises a spindle (28), a clamping rack (34), a radial expansion arm, an electromagnetic chuck (44), a small bevel gear (40) and a large bevel gear (41). The device disclosed by the utility model does not need to carry out preliminary disassembly on the junked tire, proper jet flow pressure is adjusted, and the rubber on the surface of the tire can be thoroughly crushed while a steel wire gauze is not destroyed.

Description

A kind of tire recycling device based on high-pressure water jet pulverizing waste tire

Technical field

The utility model relates to tire recycling device, specifically a kind of retracting device based on high-pressure water jet pulverizing waste tire.

Background technology

China's automobile quantity increases severely at present, and " black pollution " phenomenon that the junked tire simultaneously thereupon producing causes is also more and more serious, and the processing method that therefore solves junked tire is paid close attention to by people also more and more.

By the common radial of limited company of Siemens utility model, due to steel wire, be combined very closely with rubber, during recovery, separating difficulty is large, and separating difficulty has been well imagined much especially at normal temperatures.

In China and other countries, area, junked tire recycles conventional method generally to be had: pyrolysismethod, explosive detonation method, normal temperature mechanical crushing method, cryogenic pulverization method etc.Pyrolysismethod complex process wherein, energy consumption is high, pollutes highly, and tail gas is many.Explosive detonation method need consume a large amount of explosives, and average every tire need to consume about 1Kg explosive, and the toxic and harmful that blast produces is also more and difficult, and blast cabin and charge process also very loaded down with trivial details and noise be also a large problem.The simple efficiency of normal temperature crushing up equipment is high, and treating capacity is large, and cost is lower, but gained rubber powder particle diameter is thicker, is unfavorable for the reprocessing utilization of rubber powder.Low-temperature grinding method has rubber powder particle diameter tiny, and the degree of oxidation that is heated is low, free of contamination feature almost, although can produce the rubber powder of high-quality, energy consumption for cooling is large, and economic benefit is low.

For this reason, our utility model a kind of processing method of high pressure water jet mill junked tire.

Utility model content

The deficiency that the utility model exists for fear of prior art, provides a kind of tire recycling device based on high-pressure water jet pulverizing waste tire.

The technical problem that the utility model solves realizes by the following technical solutions:

A kind of tire recycling device based on high-pressure water jet pulverizing waste tire, its design feature is, frame is set, the top of described frame is provided with the openable pulverizing chamber of top cover, in described pulverizing chamber, be provided with tire clamping mechanism, and be provided with to the portable fluid jet nozzle of clamping tire inject high pressure water in pulverizing chamber upper and lower, left and right direction;

Described clamping device comprises main shaft, holding frame, radially expanding arm, magnechuck, bevel pinion and bevel gear wheel, and described main shaft vertically penetrates pulverizing chamber, and its bottom is connected with driving mechanism, the top holding frame that is rigidly connected; Described holding frame bottom is uncovered, and is circumferentially evenly provided with a plurality of through holes on open-mouth sidewall edge; Near each described through hole, be provided with horizontally-guided bar; Described radially expanding arm is comprised of screw mandrel, expansion link, and described screw mandrel coordinates with expansion link worm drive, and described expansion link is provided with horizontally-guided bar and coordinates the pilot hole with radial location; Described screw mandrel is through the through hole of holding frame, and its end connects bevel pinion; Described bevel gear wheel connects with axle sleeve profile and can move axially, and described bevel gear wheel passes through axle sleeve empty set on main shaft, and is connected with rigidity of frame, and the bottom of described axle sleeve is provided with backstop rubber ring; Described magnechuck also fixed cover is located on axle sleeve, for adhesive bevel gear wheel, bevel gear wheel is meshed with bevel pinion.

The utility model design feature is also:

Described Water jet sprayer is comprised of a pair of upper nozzle, a pair of lower nozzle and a pair of side spray head, each side spray head is slidably matched by a side spray headstock and the vertical side rails being fixedly connected in respective side frame, the end of the described side spray headstock is connected in the curved slot of cylindrical cam, described cylindrical cam is rigidly attached on side shaft one or side shaft two, and drives side shaft one or side shaft two to rotate by main shaft.

Each described lower nozzle is fixedly connected with jet nozzle, described frame is provided with the sliding tray being slidably matched with lower nozzle frame, in described sliding tray, be provided with push rod simultaneously, described push rod forms cam mechanism with the disc cam being rigidly attached on respective side side shaft, and disc cam drives push rod to realize lower nozzle frame and horizontally slips in sliding tray.

Each described upper nozzle is fixedly connected with a upper nozzle frame, described upper nozzle frame connects with the corresponding square rail profile being located on pulverizing chamber top cover, and upper nozzle frame can horizontally slip on square rail, two upper nozzle framves are connected and are realized interlock by connecting rod one, be located at the crank on side shaft one top by connecting rod two kinematic links one, make the upper nozzle frame can side-to-side movement on square rail, thereby drive upper nozzle side-to-side movement.

The top cover of described pulverizing chamber and side shaft one rotate hinged, the inwall of described top cover is provided with protruding arc slide bar, described frame corresponding to slide bar is provided with the arc-shaped guide rail with arc groove, and described arc slide bar can rotational slide on arc-shaped guide rail, thereby opens top cover.

Described radially expanding arm is four, along main shaft diameter to being uniformly distributed.

Described pulverizing chamber bottom is provided with hopper.

Described driving mechanism consists of motor, speed regulator, worm type of reduction gearing.

Compared with the prior art, the utility model beneficial effect is embodied in:

1. the utility model device, without junked tire is tentatively disassembled, regulates suitable jet pressure, when not destroying steel wire, the rubber of surface of tyre thoroughly can be pulverized.

2. the utility model device is a set of complete linked system, only adopts a dynamical system, can realize the rotation of tire and the movement of each shower nozzle.

3. the recovery method clean environment firendly of the utility model device, gained rubber powder is meticulousr, and water can further recycle.

4. the utility model device top cover is rotatable opens, and facilitates the installation and removal of tire.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of the utility model device;

Fig. 2 is the utility model perspective view one;

Fig. 3 is the utility model perspective view two;

Fig. 4 is the utility model top cover upward view;

Fig. 5 is the utility model capping top view;

Fig. 6 is the utility model clamping wheel mechanism for tire cutaway view;

Fig. 7 is the utility model tire clamping mechanism top view;

Fig. 8 is the A-A cutaway view of Fig. 1;

Fig. 9 is the B-B cutaway view of Fig. 1;

Number in the figure: 1 top cover, 2 square rails, 3 upper nozzles, 4 upper nozzle framves, 5 arc slide bars, 6 handles, 7 connecting rods one, 8 connecting rods two, 9 cranks, 10 side shafts one, 11 side rails, the 12 side spray headstocks, 13 side spray heads, 14 cylindrical cams, 15 pulverizing chamber, 16 lower nozzles, 17 disc cams, 18 push rods, 19 lower nozzle framves, 20 sliding trays, 21 hoppers, 22 frames, 23 bands, 24 driven pulleys, 25 motors, 26 speed regulators, 27 worm type of reduction gearings, 28 main shafts, 29 round nuts, 30 driving pulleys, 31 outlets, 32 side shafts two, 33 tires, 34 holding frames, 35 arc grooves, 36 arc-shaped guide rails, 37 expansion links, 38 horizontally-guided bars, 39 screw mandrels, 40 bevel pinions, 41 bevel gear wheels, 42 rubber rings, 43 axle sleeves, 44 magnechucks, 45 keys, 46 seals.

The specific embodiment

Below in conjunction with accompanying drawing, by specific embodiment, technical solutions of the utility model are further explained to explanation.

As shown in the figure, tire recycling device, comprises frame 22, and the top of frame 22 is provided with the openable pulverizing chamber 15 of top cover 1, in pulverizing chamber 15, be provided with tire clamping mechanism, and be provided with to the portable fluid jet nozzle of clamping tire inject high pressure water in pulverizing chamber 15 upper and lower, left and right directions;

Above-mentioned clamping device comprises main shaft 28, holding frame 34, radially expanding arm, magnechuck 44, bevel pinion 40 and bevel gear wheel 41, and main shaft 28 vertically penetrates pulverizing chamber 15, and its bottom is connected with driving mechanism, the top holding frame 34 that is rigidly connected; Holding frame 34 bottoms are uncovered, and are circumferentially evenly provided with a plurality of through holes on open-mouth sidewall edge; Near each described through hole, be provided with horizontally-guided bar 38; Radially expanding arm is comprised of screw mandrel 39, expansion link 37, and screw mandrel 39 coordinates with expansion link 37 worm drive, and expansion link 37 is provided with horizontally-guided bar 38 and coordinates the pilot hole with radial location; Screw mandrel 39 is through the through hole of holding frame 34, and its end connects bevel pinion 40; Bevel gear wheel 41 connects and can move axially with axle sleeve 43 profiles, and bevel gear wheel 41 passes through axle sleeve 43 empty sets on main shaft 28, and is rigidly connected with frame 22, and the bottom of axle sleeve 43 is provided with rubber ring 42 for backstop; Magnechuck 44 also fixed cover is located on axle sleeve 43, for adhesive bevel gear wheel 41, bevel gear wheel 41 is meshed with bevel pinion 40.

Above-mentioned Water jet sprayer is comprised of a pair of upper nozzle 3, a pair of lower nozzle 16 and a pair of side spray 13, each side spray 13 is slidably matched by a side spray headstock 12 and the vertical side rails 11 being fixedly connected in respective side frame, the end of the side spray headstock 12 is connected in the curved slot of cylindrical cam 14, cylindrical cam 14 is rigidly attached on side shaft 1 or side shaft 2 32, and drives side shaft 1 or side shaft 2 32 to rotate by main shaft 28.Each lower nozzle 16 is fixedly connected with jet nozzle 19, frame 22 is provided with the sliding tray 20 being slidably matched with lower nozzle frame 19, the interior push rod 18 that is simultaneously provided with of sliding tray 20, push rod 18 forms cam mechanism with the disc cam 17 being rigidly attached on respective side side shaft, and disc cam 17 drives push rod 18 to realize lower nozzle frame 19 and horizontally slips in sliding tray 20.

Each above-mentioned upper nozzle 3 is fixedly connected with a upper nozzle frame 4, upper nozzle frame 4 connects with corresponding square rail 2 profiles that are located on pulverizing chamber 15 top covers 1, and upper nozzle frame 4 can horizontally slip on square rail 2, two upper nozzle framves 4 are connected and are realized interlock by connecting rod 1, the crank 9 that is located at side shaft one 10 tops makes the upper nozzle frame 4 can side-to-side movement on square rail 2 by connecting rod 28 kinematic links 1, thereby drives upper nozzle 3 side-to-side movements.

The top cover 1 of above-mentioned pulverizing chamber 15 rotates hinged with side shaft 1, the inwall of top cover 1 is provided with protruding arc slide bar 5, frame corresponding to slide bar is provided with the arc-shaped guide rail 36 with arc groove 35, and arc slide bar 5 can rotational slide on arc-shaped guide rail 36, thereby opens top cover 1.

Above-mentioned radially expanding arm is four, along main shaft 28, is radially uniformly distributed.

Above-mentioned pulverizing chamber 15 bottoms are provided with hopper 21.

Above-mentioned driving mechanism consists of motor 25, speed regulator 26, worm type of reduction gearing 27.

The pulverizing chamber place correspondence that above-mentioned Water jet sprayer is corresponding is provided with spout, and spout seals by seal 46.

Operation principle is as follows:

Motor 25 slows down and commutation by speed regulator 26 and worm type of reduction gearing 27 realizations, with drive shaft 28, rotates, and holding frame 34 is connected and is realized driving pulley 30 and holding frame 34 rotations by key 45 with main shaft 28; Driving pulley 30 is by making to be located at two driven pulleys, 24 rotations on side shaft with 23 transmissions, get final product drive-side shaft 1 and side shaft 2 32 rotations, side shaft 1 distributing successively from top to bottom driven pulley 24, disc cam 17, cylindrical cam 14 and crank 9, driven pulley 24, disc cam 17, cylindrical cam 14, crank 9 are connected the rotation that realizes these four kinds of members by key with side shaft 10; Side shaft 2 32 distributing successively from top to bottom driven pulley 24, disc cam 17, cylindrical cam 14, driven pulley 24, disc cam 17, cylindrical cam 14 are connected by key the rotation that realizes these three kinds of members equally with side shaft 2 32; Between push rod 18 and lower nozzle frame 19, all for being rigidly connected, between sliding tray 20 and frame 22, also for being rigidly connected, disc cam 17 forms cam mechanism with push rod 18; Disc cam 17 drives push rod 18 to realize lower nozzle frame 19 and horizontally slips in sliding tray 20, and lower nozzle 16 gets final product side-to-side movement, realizes the pulverizing to tire 33 position, lower sidewall rubber.Cylindrical cam 14 forms cam mechanism with the side spray headstock 12, the side spray headstock 12 can slide on side rails 11, and side rails 11 has just been connected in frame 22, and cylindrical cam 14 driving side jet nozzles 12 move up and down, side spray 13 can move up and down, and realizes the pulverizing to tire 33 crown position rubber; The common formation slider-crank mechanism of square rail 2, upper nozzle 3, upper nozzle frame 4, connecting rod 1, connecting rod 28 and crank 9, square rail 2 is fixed on top cover 1, between upper nozzle frame 4 and square rail 2 for profile connects, and jet nozzle 4 can horizontally slip on square rail 2, two upper nozzle framves 4 are connected and are realized interlock by connecting rod 1, crank 9 is by connecting rod 28 transmissions, make the upper nozzle frame 4 can be in square rail 2 side-to-side movements, thereby drive upper nozzle 3 side-to-side movements, realize the pulverizing to tire 33 position, upper sidewall rubber.

The tire clamping mechanism of the inside of pulverizing chamber 15, is comprised of four expansion links 37, four horizontally-guided bars 38, four screw mandrels 39, four bevel pinions 40, bevel gear wheel 41, axle sleeve 43, magnechuck 44 and holding frames 34, four expansion links 37, four horizontally-guided bars 38, four screw mandrels 39 all become 90 degree uniform with four bevel pinions 40 on horizontal plane, between expansion link 37 and screw mandrel 39, form worm drive, and there is latching characteristics, horizontally-guided bar 38 is rigidly attached on holding frame 34, horizontally-guided bar 38 play the guiding role for expansion link 37, so that moving radially of expansion link 37, between screw mandrel 39 and bevel pinion 40 for being rigidly connected, and form revolute pair between screw mandrel 39 and holding frame 34, 43, bevel gear wheel 41 and axle sleeve connect for profile, axle sleeve 43 empty sets are on main shaft 28, and axle sleeve 43 and frame 22 are for being rigidly connected, holding frame 34 and main shaft 28 are for being rigidly connected,

The course of work of tire clamping is: magnechuck 44 energisings, by bevel gear wheel 41 adhesives, bevel gear wheel 41 is meshed with bevel pinion 40.Motor 25 energisings, by speed regulator 26 and worm type of reduction gearing 27, drive main shaft 28 to rotate, foregoing rotatable holding frame 34 drives four bevel pinions 40 to revolve round the sun together with main shaft 28, because bevel gear wheel 41 is fixed, and each bevel pinion 40 and bevel gear wheel 41 engaged transmission, can realize the relative holding frame 34 of bevel pinion 40 and do rotation, thereby make relative holding frame 34 rotations of screw mandrel 39; During motor 25 forward, by screw mandrel 39, drive expansion links 37 along horizontally-guided bar 38 footpaths, outwards to move to allocation and clamp the medial surface of tire 33; After clamping, magnechuck 44 power-off, bevel gear wheel 41 drops down onto on rubber ring 42 in the Action of Gravity Field downslide of self, thereby make bevel gear wheel 41 and bevel pinion 40 depart from engagement, tire 33 makes clamping reliable under the self-locking property effect of the screw pair of expansion link 37 and screw mandrel 39 compositions, and clamping process finishes.The tire 33 that realization is held synchronously rotates with main shaft 28, finally realizes the pulverizing of high-pressure water jet to tire 33 each position rubber.

Start high-pressure water shot streaming system, by separate system, the High Pressure Pure Water jet of 200MPa left and right is delivered to each shower nozzle, to pulverize the rubber at each position of tire 33.Rubber on 200MPa left and right High Pressure Pure Water jet mill tire 33, but can not destroy the steel wire of its internal structure, after crushing process completes, the rubber powder on tire 33 can be broken into 200 order left and right fine rubber powders, remaining on tire 33 is steel wire.The outlet 31 by hopper 21 of rubber powder after pulverizing and the mixture of water is flowed out, further filtered and recycled, water recycling capable of circulation.Subsequently, motor 25 stalls, and magnechuck 44 energisings, by bevel gear wheel 41 adhesives, bevel gear wheel 41 is meshed with bevel pinion 40, restarts motor 25 and makes its reversion, contrary with clamping process, make each expansion link 37 inwardly move to allocation along horizontally-guided bar 38 footpaths, to unclamp the steel wire of pulverizing after tire 33, convenient by its taking-up; Motor 25 stalls, arc slide bar 5 is rigidly attached on top cover 1, promotes the handle 6 on top cover 1, and top cover 1 rotates around side shaft 1, and arc slide bar 5 can rotational slide on arc-shaped guide rail 36, thereby opens top cover 1; Arc-shaped guide rail 36 can be used for supporting the top cover 1 after opening simultaneously; After top cover 1 is opened, remaining steel wire on tire 33 can be taken out, the whole course of work finishes.

Claims (8)

1. the tire recycling device based on high-pressure water jet pulverizing waste tire, it is characterized in that, frame (22) is set, the top of described frame (22) is provided with the openable pulverizing chamber of top cover (1) (15), described pulverizing chamber is provided with tire clamping mechanism in (15), and is provided with to the portable fluid jet nozzle of clamping tire inject high pressure water in pulverizing chamber (15) upper and lower, left and right direction;

Described clamping device comprises main shaft (28), holding frame (34), radially expanding arm, magnechuck (44), bevel pinion (40) and bevel gear wheel (41), described main shaft (28) vertically penetrates pulverizing chamber (15), its bottom is connected with driving mechanism, the top holding frame (34) that is rigidly connected; Described holding frame (34) bottom is uncovered, and is circumferentially evenly provided with a plurality of through holes on open-mouth sidewall edge; Near each described through hole, be provided with horizontally-guided bar (38); Described radially expanding arm is comprised of screw mandrel (39), expansion link (37), and described screw mandrel (39) coordinates with expansion link (37) worm drive, and described expansion link (37) is provided with horizontally-guided bar (38) and coordinates the pilot hole with radial location; Described screw mandrel (39) is through the through hole of holding frame (34), and its end connects bevel pinion (40); Described bevel gear wheel (41) connects and can move axially with axle sleeve (43) profile, described bevel gear wheel (41) passes through axle sleeve (43) empty set on main shaft (28), and be rigidly connected with frame (22), the bottom of described axle sleeve (43) is provided with rubber ring for backstop (42); Described magnechuck (44) also fixed cover is located at axle sleeve (43) above, for adhesive bevel gear wheel (41), bevel gear wheel (41) is meshed with bevel pinion (40).

2. a kind of tire recycling device based on high-pressure water jet pulverizing waste tire according to claim 1, it is characterized in that, described Water jet sprayer is by a pair of upper nozzle (3), a pair of lower nozzle (16) and a pair of side spray head (13) form, each side spray head (13) is slidably matched by a side spray headstock (12) and the vertical side rails (11) being fixedly connected in respective side frame, the end of the described side spray headstock (12) is connected in the curved slot of cylindrical cam (14), described cylindrical cam (14) is rigidly attached on side shaft one (10) or side shaft two (32), and drive side shaft one (10) or side shaft two (32) to rotate by main shaft (28).

3. a kind of tire recycling device based on high-pressure water jet pulverizing waste tire according to claim 2, it is characterized in that, described each lower nozzle (16) is fixedly connected with jet nozzle (19), described frame (22) is provided with the sliding tray (20) being slidably matched with lower nozzle frame (19), in described sliding tray (20), be provided with push rod (18) simultaneously, described push rod (18) forms cam mechanism with the disc cam (17) being rigidly attached on respective side side shaft, disc cam (17) drives push rod (18) to realize lower nozzle frame (19) and horizontally slips in sliding tray (20).

4. a kind of tire recycling device based on high-pressure water jet pulverizing waste tire according to claim 2, it is characterized in that, described each upper nozzle (3) is fixedly connected with a upper nozzle frame (4), described upper nozzle frame (4) connects with corresponding square rail (2) profile being located on pulverizing chamber (15) top cover (1), and upper nozzle frame (4) can horizontally slip on square rail (2), two upper nozzle framves (4) are connected and are realized interlock by connecting rod one (7), be located at the crank (9) on side shaft one (10) top by connecting rod two (8) kinematic links one (7), make upper nozzle frame (4) go up side-to-side movement at square rail (2), thereby drive upper nozzle (3) side-to-side movement.

5. a kind of tire recycling device based on high-pressure water jet pulverizing waste tire according to claim 1, it is characterized in that, the top cover (1) of described pulverizing chamber (15) rotates hinged with side shaft one (10), the inwall of described top cover (1) is provided with protruding arc slide bar (5), corresponding to the described frame of slide bar, be provided with the arc-shaped guide rail (36) of band arc groove (35), described arc slide bar (5) can be gone up rotational slide at arc-shaped guide rail (36), thereby opens top cover (1).

6. a kind of tire recycling device based on high-pressure water jet pulverizing waste tire according to claim 1, is characterized in that, described radially expanding arm is four, along main shaft (28), is radially uniformly distributed.

7. a kind of tire recycling device based on high-pressure water jet pulverizing waste tire according to claim 1, is characterized in that, described pulverizing chamber (15) bottom is provided with hopper (21).

8. a kind of tire recycling device based on high-pressure water jet pulverizing waste tire according to claim 1, is characterized in that, described driving mechanism consists of motor (25), speed regulator (26), worm type of reduction gearing (27).