Double-screw extrusion equipment for processing waste tires
Technical Field
The utility model relates to a junked tire technical field specifically is a double screw extrusion equipment of junked tire processing.
Background
The waste tire refers to a tire which is replaced or eliminated and loses the use value of the tire and a waste tire generated in a factory, although the waste tire is classified as a waste product, the potential value of the waste tire is considerable, the waste tire is called as 'black gold mine', the waste tire is solid waste, if the waste tire is not properly disposed, not only resource waste is caused, but also environmental influence is brought, for example, the double-screw extrusion equipment for processing the waste tire with the application number of CN202021243995.1 comprises a double-screw extruder body, a conical charging barrel is fixedly installed at the top of the double-screw extruder body, and a discharging pipe is arranged on one side of the top of the conical charging barrel.
Although the comparison file can realize that twin-screw extruder is reinforced when, manual work intensity of labour is great and there is the problem of material lifting slippage potential safety hazard, still there is great tire mixed material to enter into twin-screw extrusion equipment when using, great tire mixture melts not thoroughly, block up the problem of extrusion opening easily when extruding, when reinforced for twin-screw extruder, can not control the flow of material, when having large-traffic, the material is piled up at twin-screw extruder, make the unable problem of normal work of twin-screw extruder.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a double screw extrusion equipment of junked tire processing to solve the great tire misce bene material that provides in the above-mentioned background art and enter into double screw extrusion equipment, great tire mixture melts not thoroughly, blocks up the problem of extrusion opening easily when extruding, when reinforced for double screw extruder, can not control the flow of material, when having large-traffic, the material is piled up at double screw extruder, makes the unable problem of normal work of double screw extruder.
In order to achieve the above object, the utility model provides a following technical scheme: the double-screw extrusion equipment for processing the waste tires comprises a feed inlet, wherein a connecting plate is fixedly connected to the outer wall of the feed inlet, and a vibration mechanism is arranged on the surface of the connecting plate;
the vibration mechanism comprises a second motor, a bevel gear set, a cam, a roller, a spring, a connecting column, an L-shaped rod and a filter screen;
the utility model discloses a feed inlet, including the connecting plate, the second motor passes through the motor cabinet rigid coupling on the surface of connecting plate, the output shaft of second motor passes through bevel gear group and round pin axle rotation, the surface rigid coupling of round pin axle has the cam, the round pin axle rotates with the spreader to be connected, the spreader rigid coupling is on the surface of feed inlet, the outer wall and the gyro wheel laminating of cam, the gyro wheel rotates with the spliced pole through the round pin axle to be connected, spliced pole and horizontal pole sliding connection, the both ends difference rigid coupling of spring is on spliced pole and horizontal pole surface, the tip rigid coupling of spliced pole has L type pole, the tip rigid coupling of L type pole has the filter screen, the inside processing of feed inlet has the spout, two spouts all with filter screen sliding connection.
Preferably, the surface of the filter screen is fixedly connected with a baffle.
Preferably, the feed inlet is opened on the outer wall of shell, the tip of shell passes through bolt and first motor threaded connection, the output shaft rigid coupling of first motor has the rotary rod, the both ends of rotary rod are passed through the bearing and are rotated with the shell and be connected, the discharge gate has been seted up to the tip of shell.
Preferably, the discharge hole is fixedly connected with the trough, and the bottom of the trough is fixedly connected with a discharge hole.
Preferably, the discharge hole is fixedly connected to the top of the double-screw extruder body, the double-screw extruder body is mounted on the surface of the supporting seat, the supporting rod is fixedly connected to the surface of the supporting seat, and the top of the supporting rod is fixedly connected with the shell.
Preferably, the surface of the supporting seat is provided with a material control mechanism;
the material control mechanism comprises a hydraulic rod, a rack, a gear, a connecting rod, an upright post, a pulling plate and a sleeve;
the utility model discloses a hydraulic pressure pole, including hydraulic stem, bracing piece, gear, rack, hinge pin, bracing piece, hydraulic stem rigid coupling is on the surface of supporting seat, the tip rigid coupling of hydraulic stem has the rack, the rack meshes with the gear mutually, the gear rigid coupling is on the surface of round pin axle, the round pin axle rotates with the diaphragm to be connected, the diaphragm rigid coupling is on the surface of bracing piece, the surface of gear rotates with the connecting rod through the round pin axle to be connected, the tip of connecting rod rotates with the stand through the round pin axle to be connected, the tip rigid coupling of stand is on the surface of arm-tie, arm-tie and sleeve sliding connection, the sleeve rigid coupling is in the inside of drain hole, the inside processing of drain hole is fluted.
Compared with the prior art, the beneficial effects of the utility model are that: this twin-screw extrusion equipment of junked tire processing, through the second motor, bevel gear group, the cam, the gyro wheel, a spring, the spliced pole, cooperation between L type pole and the filter screen, thereby the second motor drives bevel gear group and rotates and drive the round pin axle and rotate, the round pin axle drives the cam and rotates, the cam drives the gyro wheel and rotates, the gyro wheel drives and slides in the miscellaneous horizontal pole of spliced pole, the spliced pole does work to the spring, the spliced pole drives L type pole and removes, L type pole drives the filter screen and slides in the spout, realized that great tire misce bene material enters into twin-screw extrusion equipment, great tire misce material can be filtered out, the problem of the easy jam extrusion mouth when extruding has been solved.
Through the hydraulic stem, the rack, the gear, the connecting rod, the stand, cooperation between arm-tie and the sleeve, the hydraulic stem drives the rack and removes, the rack drives gear revolve, the gear drives the connecting rod and rotates, the connecting rod drives the stand and removes, the stand drives the arm-tie and slides in the sleeve, remove suitable position with the arm-tie, realized giving twin-screw extruder reinforced time, can control the flow of material, when having solved large-traffic, the material is piled up at twin-screw extruder, the unable normal problem of work of messenger twin-screw extruder.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic view of the vibrating mechanism of FIG. 1;
FIG. 3 is a side view of the cam and roller of FIG. 1;
FIG. 4 is an enlarged schematic view of the structure at A in FIG. 1;
fig. 5 is an enlarged schematic view of B in fig. 1.
In the figure: 1. supporting seat, 2, double screw extruder body, 3, drain hole, 4, feed cylinder, 5, accuse material mechanism, 501, hydraulic stem, 502, rack, 503, gear, 504, connecting rod, 505, stand, 506, arm-tie, 507, sleeve, 6, bracing piece, 7, first motor, 8, vibrations mechanism, 801, second motor, 802, bevel gear group, 803, cam, 804, gyro wheel, 805, spring, 806, spliced pole, 807, L type pole, 808, filter screen, 9, shell, 10, rotary rod, 11, baffle, 12, feed inlet, 13, horizontal pole.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Example 1
Referring to fig. 1-5, the present invention provides a technical solution: a double-screw extrusion device for processing waste tires comprises a feed inlet 12, a connecting plate is fixedly connected to the outer wall of the feed inlet 12, a vibration mechanism 8 is arranged on the surface of the connecting plate, the vibration mechanism 8 comprises a second motor 801, a bevel gear set 802, a cam 803, a roller 804, a spring 805, a connecting column 806, an L-shaped rod 807 and a filter screen 808, the model of the second motor 801 is selected according to actual requirements to meet the requirement of work, the second motor 801 is fixedly connected to the surface of the connecting plate through a motor base, an output shaft of the second motor 801 rotates with a pin shaft through the bevel gear set 802, the second motor 801 drives the bevel gear set 802 to rotate so as to drive the pin shaft to rotate, the cam 803 is fixedly connected to the surface of the pin shaft, the pin shaft drives the cam 803 to rotate, the pin shaft is rotatably connected with a cross column, the cross column is fixedly connected to the surface of the feed inlet 12, the outer wall of the cam 803 is attached to the roller 804, the cam 803 drives the roller 804 to rotate, the roller 804 is rotatably connected with a connecting column 806 through a pin shaft, the roller 804 drives the connecting column 806 to slide in a cross rod 13, the connecting column 806 is slidably connected with the cross rod 13, two ends of a spring 805 are respectively fixedly connected on the surfaces of the connecting column 806 and the cross rod 13, the connecting column 806 applies work to the spring 805, the end part of the connecting column 806 is fixedly connected with an L-shaped rod 807, the connecting column 806 drives the L-shaped rod 807 to move, the end part of the L-shaped rod 807 is fixedly connected with a filter screen 808, a chute is processed in the interior of the feed inlet 12, both chutes are slidably connected with the filter screen 808, the L-shaped rod 807 drives the filter screen 808 to slide in the chute, the surface of the filter screen 808 is fixedly connected with a baffle 11, the baffle 11 is used for placing materials mixed by tires and entering the chute to block the chute, the feed inlet 12 is arranged on the outer wall of the shell 9, the end part of the shell 9 is in threaded connection with a first motor 7 through a bolt, the model of the first motor 7 is selected according to actual requirements, the tire mixing device is characterized in that a rotating rod 10 is fixedly connected to an output shaft of a first motor 7, the first motor 7 drives the rotating rod 10 to rotate, two ends of the rotating rod 10 are rotatably connected with a shell 9 through bearings, a discharge hole is formed in the end portion of the shell 9, and the rotating rod 10 conveys a mixed tire material to the discharge hole;
through the cooperation between second motor 801, bevel gear group 802, cam 803, gyro wheel 804, spring 805, spliced pole 806, L type pole 807 and filter screen 808, thereby second motor 801 drives bevel gear group 802 and rotates and drives the round pin axle and rotate, the round pin axle drives cam 803 and rotates, cam 803 drives gyro wheel 804 and rotates, gyro wheel 804 drives and slides in the miscellaneous horizontal pole 13 of spliced pole 806, spliced pole 806 does work to spring 805, spliced pole 806 drives L type pole 807 and moves, L type pole 807 drives filter screen 808 and slides in the spout, realized that great tire mixture enters into twin-screw extrusion equipment, great tire mixture can be filtered out, solved and blocked the problem of extrusion mouth easily when extrudeing.
Referring to fig. 1 and 5, a discharge port is fixedly connected with a trough 4, a discharge port 3 is fixedly connected to the bottom of the trough 4, the discharge port 3 is fixedly connected to the top of a twin-screw extruder body 2, the twin-screw extruder body 2 is mounted on the surface of a support base 1, a support rod 6 is fixedly connected to the surface of the support base 1, the top of the support rod 6 is fixedly connected with a housing 9, a material control mechanism 5 is arranged on the surface of the support base 1, the material control mechanism 5 comprises a hydraulic rod 501, a rack 502, a gear 503, a connecting rod 504, a column 505, a pulling plate 506 and a sleeve 507, the type of the hydraulic rod 501 is selected according to actual requirements to meet the requirement, the hydraulic rod 501 is fixedly connected to the surface of the support base 1, the end of the hydraulic rod 501 is fixedly connected with the rack 502, the hydraulic rod 501 drives the rack 502 to move, the rack 502 is meshed with the gear 503, the rack 502 drives the gear 503 to rotate, the gear 503 is fixedly connected to the surface of a pin shaft and is rotatably connected with a transverse plate, the gear 503 drives the connecting rod 504 to rotate, the transverse plate is fixedly connected to the surface of the supporting rod 6, the surface of the gear 503 is rotatably connected with the connecting rod 504 through a pin shaft, the end of the connecting rod 504 is rotatably connected with the upright post 505 through a pin shaft, the connecting rod 504 drives the upright post 505 to move, the end of the upright post 505 is fixedly connected to the surface of the pulling plate 506, the pulling plate 506 is slidably connected with the sleeve 507, the upright post 505 drives the pulling plate 506 to slide in the sleeve 507, the sleeve 507 is fixedly connected to the inside of the discharging port 3, and a groove is formed in the inside of the discharging port 3;
through the cooperation between hydraulic stem 501, rack 502, gear 503, connecting rod 504, stand 505, arm-tie 506 and the sleeve 507, hydraulic stem 501 drives rack 502 to remove, rack 502 drives gear 503 to rotate, gear 503 drives connecting rod 504 to rotate, connecting rod 504 drives stand 505 to remove, stand 505 drives arm-tie 506 to slide in the sleeve 507, move suitable position with arm-tie 506, when having realized giving twin-screw extruder reinforced, can control the flow of material, when having solved large-traffic, the material is piled up at twin-screw extruder, make the unable problem of normal work of twin-screw extruder.
The working principle is as follows:
firstly, a second motor 801 is connected to an external power supply, the second motor 801 drives a bevel gear set 802 to rotate so as to drive a pin shaft to rotate, the pin shaft drives a cam 803 to rotate, the cam 803 drives a roller 804 to rotate, the roller 804 drives a connecting column 806 to slide in a transverse rod 13, the connecting column 806 applies work to a spring 805, the connecting column 806 drives an L-shaped rod 807 to move, the L-shaped rod 807 drives a filter screen 808 to slide in a chute, a baffle 11 is used for placing a mixed material of tires to enter the chute to block the chute, then the mixed material of the tires is poured into a shell 9 from a feeding port 12, a first motor 7 is connected to the external power supply, the first motor 7 drives a rotating rod 10 to rotate, the rotating rod 10 conveys the mixed material of the tires to a discharging port and enters a charging barrel 4 through the discharging port, a hydraulic rod 501 is started, the hydraulic rod drives a rack 502 to move, the rack 502 drives a gear 503 to rotate, the gear 503 drives a connecting rod 504 to rotate, the connecting rod 504 drives a pulling plate 506 to move, the pulling plate 506 to slide in the sleeve 507, the pulling plate 506 is moved to stop the sleeve rod 501, the mixed material enters a double helix extrusion body, 2, and finally the double helix extrusion body is started to extrude the double helix material to pass through the double helix extrusion body.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.