CN115582056A - Raw material mixing equipment for manufacturing tire rubber - Google Patents

Abstract

The invention discloses a raw material mixing device for manufacturing tire rubber, which relates to the technical field of mixing devices and comprises a collecting assembly for placing all assemblies and picking and placing a top cover of a mixing ball, wherein a collecting tank and an adsorption head are arranged in the collecting assembly, the mixed materials can be collected, a stirring assembly for fully stirring the rubber is arranged on the placing assembly, a multidirectional rotating stirring column is arranged on the stirring assembly, a mixing assembly for mixing the stirred materials is arranged at the lower end of the placing assembly, a multi-angle rotating mixing ball is arranged in the mixing assembly, and a multi-angle mixing column is arranged in the mixing ball.

Description

Raw material mixing equipment for manufacturing tire rubber

Technical Field

The invention relates to the technical field of mixing devices, in particular to a raw material mixing device for manufacturing tire rubber.

Background

Tires are ground-rolling circular rings of elastomeric rubber articles fitted on various vehicles or machines. The tyre is usually arranged on a metal rim, can support a vehicle body, can buffer external impact, realizes contact with a road surface and ensures the running performance of a vehicle, the tread rubber and a layer of rubber material with patterns printed on the surface, wherein the outermost layer of the tyre is in contact with the road surface, so that the tyre has traction force, can buffer impact and swing during running, prevents cutting and piercing of a cord layer and the like, is often used under complicated and harsh conditions, bears various deformations, loads, forces and high and low temperature effects during running, and therefore has higher bearing performance, traction performance and buffering performance. Meanwhile, high wear resistance and flexibility, low rolling resistance and heat generation are required, and it is urgently required to design a device capable of improving the tread rubber manufacturing efficiency.

The Chinese patent with publication number CN107088975A discloses a raw material mixing device for tire rubber manufacturing, which comprises a mounting frame, a first slide rail, a first slide block, a first spring, a frame body, a lifting device and the like; the bottom is equipped with first slide rail in the mounting bracket, and first slide rail top bilateral symmetry slidingtype is connected with first slider, and first slider top all is equipped with first spring, and first spring top is connected with the framework, and the bottom is equipped with elevating gear in the mounting bracket of first slide rail rear side, and elevating gear is located under the framework. According to the invention, the box body is arranged to separately add the oil and the additive and other raw materials into the box body for mixing, the amount of the oil and the additive can be regulated at any time according to the amount of the oil and the additive to be added, but the device has poor overall technical effect, the raw materials cannot be efficiently mixed and stirred, and the manufacturing steps and the cost are increased.

Disclosure of Invention

In view of the problems in the art described above, the present invention provides a raw material mixing apparatus for making a tire rubber material.

Aiming at the technical problems, the invention adopts the technical scheme that: the utility model provides a preparation tire is raw materials mixing apparatus for sizing material, is provided with mixing subassembly and stirring subassembly including collecting the subassembly on the subassembly, the collection subassembly include the base, be provided with adjusting motor, ring gear one, mount pad and swing mechanism on the base, including adsorbing the head in the swing mechanism, mixing subassembly including rotating the rotating turret of installing on the mount pad, the rotating turret on be provided with adjustment mechanism, adjustment mechanism in including mixing the ball, mixing the ball on be provided with the top cap, top cap and the first intermittent type laminating of adsorption, mixing subassembly still include replacement mechanism, replacement mechanism including the five gear that remove, five intermittent type of gear and four meshing of gear, stirring subassembly including installing the support frame on the base, the support frame on be provided with feed chute and reversing mechanism, reversing mechanism in including striking off board and multiunit stirring post, the support frame in be provided with the multiunit elastic plate, elastic plate and support frame between be provided with electric jar two, all be provided with the hot plate in mixing ball and the support frame, heat the material that mixes to the stirring.

Further, the collecting assembly further comprises a collecting tank installed on the base, the swinging mechanism comprises a gear II and a swinging rod which are rotatably installed on the base, a gear ring II is arranged at one end of the swinging rod, an electric cylinder I is arranged at the other end of the swinging rod, a swinging motor is arranged on the base, a gear I is arranged on an output shaft of the swinging motor, the gear I is meshed with the gear II, the gear II is meshed with the gear ring II, and the adsorption head is arranged at the movable end of the electric cylinder I.

Furthermore, the adjusting mechanism comprises a gear four, an internal rotating column and a gear three which are rotatably installed on the rotating frame, the gear four is meshed with the gear ring one, one end of the internal rotating column is provided with a gear six, the other end of the internal rotating column is connected with an output shaft of the adjusting motor, the gear three is meshed with the gear six, the gear three is provided with a rotating motor, and the mixing ball is installed on an output shaft of the rotating motor.

Further, the mixed ball in be provided with the multiunit and mix the post, be provided with the driving source on the mixed post, the mixed ball on be provided with the multiunit electromagnetism iron plate, the adsorption head in be provided with the electromagnetism block equally, adsorption head and mixed ball all adsorb the top cap through the electromagnetism iron plate.

Furthermore, the replacement mechanism comprises a sliding plate which is slidably mounted on the base, a lead screw motor is arranged on the mounting base, a lead screw is arranged on an output shaft of the lead screw motor, the lead screw is in threaded connection with the sliding plate, a lantern ring is rotatably arranged on the sliding plate, the lantern ring is connected with an output shaft of the adjusting motor through a spline shaft, and the five gears are coaxially mounted on the lantern ring.

Furthermore, reversing mechanism including install driving motor, rack, seven and the ring gear three on the support frame, seven and the ring gear three of gear all rotate with the support frame and be connected, the coaxial drive frame that is provided with on the seven gear, the drive frame on rotate and be provided with multiunit gear eight, gear eight and ring gear three meshing, rack and support frame sliding connection, rack and seven meshing of gear, seven coaxial rotation of going up of gear be provided with the gear ten, gear ten and eight meshing of gear, be provided with gear nine on driving motor's the output shaft, gear nine on be provided with the drive post, the rack on be provided with the spout, drive post and spout laminating.

Furthermore, the inner side and the outer side of the third gear ring are provided with teeth, the gear nine is meshed with the outer side teeth of the third gear ring, and the multiple groups of gears eight are meshed with the inner side teeth of the third gear ring.

Further, stirring post and ten and eight coaxial arrangements of multiunit gear, strike off the board and install in ring gear three inboards, strike off the inside laminating of board and support frame.

Furthermore, the lower end of the support frame is provided with a discharge hole, and the discharge hole is intermittently aligned with the top of the mixing ball.

Compared with the prior art, the invention has the beneficial effects that: (1) The adjusting mechanism provided by the invention can adjust the angle of the mixing ball, can drive the mixing ball to rotate at the adjusted angle, and is matched with the mixing column in the mixing ball to improve the mixing uniformity of materials; (2) The stirring component is internally provided with a plurality of groups of stirring columns and scraping plates capable of automatically steering, so that the stirring effect on materials is improved, and the phenomenon that the materials are adhered to the inner wall of the stirring bin to cause material waste can be well avoided; (3) The collecting assembly provided by the invention can automatically open the top cover of the mixing ball and automatically take out the materials in the mixing ball, thereby perfecting the stirring and mixing steps and improving the working efficiency of the whole device.

Drawings

Fig. 1 is a front view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

FIG. 3 is a schematic view of the collecting assembly of the present invention.

Fig. 4 is an enlarged view of a structure shown in fig. 3.

Fig. 5 is a sectional view showing the structure of the collecting unit of the present invention.

FIG. 6 is a schematic structural diagram of a hybrid module according to the present invention.

FIG. 7 is a partial structural view of a mixing assembly according to the present invention.

Fig. 8 is a partial structural sectional view of the mixing assembly of the present invention.

Fig. 9 is a schematic view of a turret structure.

Fig. 10 is a cross-sectional view of a hybrid ball structure of the present invention.

FIG. 11 is a schematic view of the stirring assembly of the present invention.

FIG. 12 is a partial schematic view of the stirring assembly of the present invention.

FIG. 13 is a schematic diagram of the structure of the elastic plate according to the present invention.

FIG. 14 is a sectional view of the stirring assembly of the present invention.

Reference numerals: 1-a collection assembly; 2-a mixing assembly; 3-a stirring component; 101-a collecting tank; 102-a base; 103-adjusting the motor; 104-gear ring I; 105-a mount; 106-a sway bar; 107-gear one; 108-gear two; 109-ring gear two; 110-electric cylinder one; 111-an adsorption head; 201-mixing balls; 202-a top cover; 203-a mixing column; 204-a rotating frame; 205-gear three; 206-gear four; 207-a collar; 208-gear five; 209-internal rotating column; 210-gear six; 211-sliding plate; 212-a lead screw; 213-rotating the motor; 301-gear seven; 302-gear ring three; 303-a support frame; 304-a feed chute; 305-gear eight; 306-a drive carriage; 307-rack; 308-a chute; 309-gear nine; 310-a drive column; 311-gear ten; 312-stirring column; 313-a scraping plate; 314-a resilient plate; 315-electric cylinder two; 316-discharge port.

Detailed Description

A specific embodiment of the device according to the invention is described further below with reference to the figures and the exemplary embodiments.

Referring to fig. 1 to 14, the raw material mixing device for manufacturing tire rubber material comprises a collecting assembly 1 for placing components and picking and placing a top cover 202, wherein the collecting assembly 1 is provided with a mixing assembly 2 and a stirring assembly 3, the mixing assembly 2 is used for fully mixing rubber material, and the stirring assembly 3 is used for stirring various materials which are stirred.

The collecting assembly 1 comprises a base 102, a regulating motor 103, a first gear ring 104, a mounting seat 105, a swing motor and a collecting tank 101 are arranged on the base 102, a swing rod 106 and a second gear 108 are further rotatably arranged on the base 102, a first gear 107 is arranged on an output shaft of the swing motor, the first gear 107 is meshed with the second gear 108, the second gear 108 is meshed with the second gear 109, one end of the swing rod 106 is provided with the second gear ring 109, the other end of the swing rod 106 is provided with a first electric cylinder 110, the movable end of the first electric cylinder 110 is provided with an adsorption head 111, an electromagnet block is arranged in the adsorption head 111, and the adsorption head 111 intermittently adsorbs the top cover 202 through the electromagnet block.

The mixing component 2 comprises a rotating frame 204 rotatably arranged on a mounting seat 105, one end of the rotating frame 204 is rotatably provided with a gear four 206, the other end of the rotating frame 204 is rotatably provided with a gear three 205, the rotating frame 204 is coaxially and rotatably provided with an internal rotating column 209, one end of the internal rotating column 209 is coaxially provided with a gear six 210, the other end of the internal rotating column 209 is connected with an output shaft of a regulating motor 103, the gear three 205 is meshed with the gear six 210, the gear four 206 is meshed with a gear ring one 104, a rotating motor 213 is coaxially arranged on a rotating shaft of the gear three 205, a mixing ball 201 is arranged on an output shaft of the rotating motor 213, a heating plate is arranged in the mixing ball 201, a top cover 202 is detachably arranged on the mixing ball 201, the mixing ball 201 is connected with the top cover 202 through an electromagnet block, a plurality of groups of mixing columns 203 are arranged in the mixing ball 201, mixing columns 203 are provided with mixing motors, and a lead screw motor is arranged on the mounting seat 105, the output shaft of the screw motor is provided with a top cover 202, the base 102 is provided with a sliding plate 211 in a sliding manner, the sliding plate 211 is in threaded connection with a screw 212, the sliding plate 211 is provided with a sleeve ring 207 in a rotating manner, the sleeve ring 207 is connected with the output shaft of the adjusting motor 103 through a spline shaft, the sleeve ring 207 is coaxially provided with a gear five 208, the gear five 208 is intermittently meshed with the gear four 206, when the gear five 208 is meshed with the gear four 206, the adjusting motor 103 is started, the adjusting motor 103 drives an internal rotating column 209 to rotate, the internal rotating column 209 drives a gear six 210 to rotate, meanwhile, the adjusting motor 103 drives the sleeve ring 207 to rotate, the sleeve ring 207 drives the gear five 208 to rotate, the gear five 208 drives the gear four 206 to rotate, the gear four 206 moves on a gear ring one 104, the gear ring one 104 drives the rotating frame 204 to rotate, the rotating frame 204 drives the gear three 205 to rotate synchronously with the gear six 210, and the gear three 205 does not rotate, when the rotating shaft of the gear four 206 is to be attached to the sliding plate 211, the adjusting motor 103 is rotated in a reverse direction, at this time, the mixing ball 201 is rotated in a reverse direction, so that mechanical collision between the gear four 206 and the sliding plate 211 is avoided, when the angle of the mixing ball 201 needs to be adjusted, the lead screw motor is started, the lead screw motor drives the lead screw 212 to rotate, the lead screw 212 drives the sliding plate 211 to slide on the base 102, the sliding plate 211 drives the sleeve ring 207 and the gear five 208 to move, at this time, the gear five 208 is disengaged from the gear four 206, at this time, the adjusting motor 103 is started, the adjusting motor 103 drives the inner rotating column 209 and the sleeve ring 207 to rotate, the inner rotating column 209 drives the gear six 210 to rotate, at this time, the gear five 208 is not engaged with the gear four 206, so that the rotating frame 204 does not rotate, at this time, the gear six 210 drives the gear three 205 to rotate, the gear three 205 drives the rotating motor 213 and the mixing ball 201 to rotate with the rotating shaft of the gear three 205 as the center, the position of the mixing ball 201 is adjusted, and when the mixing ball 201 mixes raw materials, the mixing motor 213 is started at the same time, so that the mixing efficiency is improved.

The stirring assembly 3 comprises a supporting frame 303 installed on a base 102, a heating plate is arranged in the supporting frame 303, a feeding groove 304 and a stirring bin are arranged on the supporting frame 303, the lower end of the stirring bin is conical, a plurality of groups of elastic plates 314 and a plurality of groups of electric cylinders 315 are arranged in the stirring bin, the electric cylinders 315 are rotatably connected with the stirring bin, the movable ends of the electric cylinders 315 are rotatably connected with the elastic plates 314, a discharge port 316 is arranged at the lower end of the stirring bin, the discharge port 316 is intermittently aligned with the top of the mixing ball 201, a driving motor is arranged on the supporting frame 303, a gear nine 309 is arranged on an output shaft of the driving motor, a driving column 310 is arranged on the gear nine 309, a rack 307 is slidably arranged on the supporting frame 303, a sliding groove 308 is arranged on the rack 307, the sliding groove 308 is attached to a driving column 310, a gear seven 301 and a gear ring three 302 are rotatably arranged on the supporting frame 303, teeth are arranged on the inner side and the outer side of the gear three ring 302, a driving frame 306 is coaxially provided with a plurality of gears 305, a gear ten gear 311 is coaxially arranged on the seven gear 301, eight gear 305 is coaxially arranged on the driving frame 306, eight gear 305 is simultaneously engaged with the inner side teeth of the gear ten gear 311, a gear 313 and an inner side of the stirring bin is engaged with the inner wall of the stirring bin 312, and an eight gear scraping plate 312.

The working principle is as follows: when the stirring device works, materials needing to be stirred are put into a stirring bin of the supporting frame 303 through the feeding groove 304, then the driving motor and a heating plate in the supporting frame 303 are started, the driving motor drives the gear nine 309 to rotate, the gear nine 309 drives the driving column 310 and the gear ring three 302 to rotate, the driving column 310 slides in the sliding groove 308, the driving column 310 drives the sliding groove 308 to move, the sliding groove 308 drives the rack 307 to slide on the supporting frame 303 in a reciprocating mode, the rack 307 drives the gear seven 301 to rotate when sliding, the gear seven 301 and the gear ring three 302 rotate in opposite directions, the gear seven 301 drives the driving frame 306 to rotate, the driving frame 306 drives the multiple groups of gear eight 305 to rotate in the gear ring three 302, the multiple groups of gear eight 305 drive the gear ten 311 to rotate when rotating, at the moment, the gear ten groups of gear 311 and the gear eight 305 drive the multiple groups of stirring columns 312 to stir the materials, and simultaneously drives the scraping plate 313 to scrape the materials on the inner wall of the stirring bin when the gear ring three 302 rotates, so that the materials are prevented from being adhered to the inner wall of the stirring bin, and the materials are stirred.

The swing motor is started, the swing motor drives the first gear 107 to rotate, the first gear 107 drives the second gear 108 to rotate, the second gear 108 drives the second gear ring 109 to rotate on the base 102, the second gear ring 109 drives the swing rod 106 to rotate when rotating, when the swing rod 106 drives the first electric cylinder 110 and the first adsorption head 111 to align with the top of the top cover 202, the first electric cylinder 110 is started, the first electric cylinder 110 drives the first adsorption head 111 to descend, the first adsorption head 111 is attached to the top of the top cover 202, the electromagnet blocks inside the first adsorption head 111 are electrified at the moment, the electromagnet blocks on the mixing ball 201 are powered off, the top cover 202 and the mixing ball 201 are released from fixing, the top cover 202 and the adsorption head 111 are fixed, then the first electric cylinder 110 and the swing motor are started, the first adsorption head 111 and the swing rod 106 are driven to reset, and the upper end of the mixing ball 201 is opened at the moment.

And starting a plurality of groups of second electric cylinders 315, pulling the elastic plate 314 to move by the second electric cylinders 315, releasing the blocking of the materials in the stirring bin by the elastic plate 314, and enabling the materials in the stirring bin to enter the mixing ball 201 through a discharge hole 316 at the lower end of the support frame 303.

Then, the first electric cylinder 110 and the swing motor are started to place the top cover 202 on the mixing ball 201, and the mixing ball 201 and the top cover 202 are fixed.

At this time, the angle of the mixing ball 201 is adjusted, the lead screw motor is started, the lead screw motor drives the lead screw 212 to rotate, the lead screw 212 drives the sliding plate 211 to slide on the base 102, the sliding plate 211 drives the sleeve ring 207 and the gear five 208 to move, the gear five 208 and the gear four 206 are disengaged, the adjusting motor 103 is started at this time, the adjusting motor 103 drives the internal rotating column 209 and the sleeve ring 207 to rotate, the internal rotating column 209 drives the gear six 210 to rotate, the gear five 208 is not engaged with the gear four 206, the rotating frame 204 does not rotate, the gear six 210 drives the gear three 205 to rotate, the gear three 205 drives the rotating motor 213 and the mixing ball 201 to rotate by taking the rotating shaft of the gear three 205 as the circle center, the position of the mixing ball 201 is adjusted, after the position of the mixing ball 201 is adjusted, the lead screw motor is started, the lead screw motor drives the lead screw 212 to rotate, the lead screw 212 drives the sliding plate 211 to reset, the sliding plate 211 drives the sleeve ring 207 and the gear five 208 to move, and the gear five 208 is engaged with the gear 206.

When the mixing ball 201 mixes materials, the adjusting motor 103 is started simultaneously, the mixing motor and the rotating motor 213 are started, the adjusting motor 103 is started, the adjusting motor 103 drives the internal rotating column 209 to rotate, the internal rotating column 209 drives the gear six 210 to rotate, meanwhile, the adjusting motor 103 drives the lantern ring 207 to rotate, the lantern ring 207 drives the gear five 208 to rotate, the gear five 208 drives the gear four 206 to rotate, the gear four 206 moves on the gear ring one 104, the gear ring one 104 drives the rotating frame 204 to rotate, the rotating frame 204 drives the gear three 205 and the gear six 210 to synchronously rotate, at the moment, the gear three 205 does not rotate, the gear three 205 drives the rotating motor 213 to rotate with the mixing ball 201, and the multi-angle adjustable rotation of the mixing ball 201 improves the mixing efficiency of the materials.

After the mixing, the top cover 202 is taken down through the adsorption head 111, the position of the mixing ball 201 is adjusted, and the materials in the mixing ball 201 are placed into the collecting tank 101.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception and fall within the scope of the present invention.

Claims (9)

1. The utility model provides a preparation raw materials mixing apparatus for tire sizing material, is provided with mixing assembly (2) and stirring subassembly (3) including collecting subassembly (1) on collecting subassembly (1), its characterized in that: the collecting assembly (1) comprises a base (102), an adjusting motor (103), a first gear ring (104), a mounting seat (105) and a swinging mechanism are arranged on the base (102), an adsorption head (111) is arranged in the swinging mechanism, the mixing assembly (2) comprises a rotating frame (204) rotatably arranged on the mounting seat (105), the rotating frame (204) is provided with an adjusting mechanism, the adjusting mechanism comprises a mixing ball (201), the mixing ball (201) is provided with a top cover (202), the top cover (202) is intermittently attached to the adsorption head (111), the mixing assembly (2) further comprises a replacing mechanism, the replacing mechanism comprises a fifth moving gear (208), the fifth gear (208) is intermittently engaged with a fourth gear (206), the stirring assembly (3) comprises a supporting frame (303) arranged on the base (102), the supporting frame (303) is provided with a feeding groove (304) and a reversing mechanism, the reversing mechanism comprises a scraping plate (313) and a plurality of groups of stirring columns (312), the supporting frame (303) is internally provided with a plurality of elastic plates (314), and a plurality of groups of heating plates (201) and a heating plate (303) are arranged between the elastic plates (314), and heating the stirred and mixed materials.

2. A raw mixing apparatus for making a tire compound as in claim 1, wherein: the collecting assembly (1) further comprises a collecting tank (101) installed on the base (102), the swinging mechanism comprises a gear II (108) and a swinging rod (106) which are rotatably installed on the base (102), one end of the swinging rod (106) is provided with a gear ring II (109), the other end of the swinging rod (106) is provided with an electric cylinder I (110), the base (102) is provided with a swinging motor, an output shaft of the swinging motor is provided with a gear I (107), the gear I (107) is meshed with the gear II (108), the gear II (108) is meshed with the gear ring II (109), and the adsorption head (111) is arranged at the movable end of the electric cylinder I (110).

3. A raw mixing apparatus for making a tire compound as in claim 1, wherein: the adjusting mechanism comprises a gear four (206), an internal rotating column (209) and a gear three (205) which are rotatably installed on a rotating frame (204), the gear four (206) is meshed with a gear ring one (104), one end of the internal rotating column (209) is provided with a gear six (210), the other end of the internal rotating column (209) is connected with an output shaft of an adjusting motor (103), the gear three (205) is meshed with the gear six (210), the gear three (205) is provided with a rotating motor (213), and a mixing ball (201) is installed on an output shaft of the rotating motor (213).

4. A raw mixing apparatus for making a tire compound as in claim 3, wherein: mix ball (201) in be provided with multiunit and mix post (203), be provided with the drive source on mixing post (203), mix ball (201) on be provided with multiunit electromagnetism iron plate, adsorption head (111) in be provided with the electromagnetism body piece equally, adsorption head (111) and mix ball (201) all adsorb top cap (202) through the electromagnetism piece.

5. A raw material mixing apparatus for making a tire compound as in claim 3, wherein: the replacement mechanism comprises a sliding plate (211) which is slidably mounted on the base (102), a lead screw motor is arranged on the mounting base (105), a lead screw (212) is arranged on an output shaft of the lead screw motor, the lead screw (212) is in threaded connection with the sliding plate (211), a sleeve ring (207) is rotatably arranged on the sliding plate (211), the sleeve ring (207) is connected with an output shaft of the adjusting motor (103) through a spline shaft, and five gears (208) are coaxially mounted on the sleeve ring (207).

6. A raw mixing apparatus for making a tire compound as in claim 1, wherein: the reversing mechanism comprises a driving motor, a rack (307), a gear seven (301) and a gear ring three (302) which are mounted on a support frame (303), the gear seven (301) and the gear ring three (302) are rotationally connected with the support frame (303), a driving frame (306) is coaxially arranged on the gear seven (301), a plurality of groups of gear eight (305) are rotationally arranged on the driving frame (306), the gear eight (305) is meshed with the gear ring three (302), the rack (307) is slidably connected with the support frame (303), the rack (307) is meshed with the gear seven (301), a gear ten (311) is coaxially arranged on the gear seven (301) in a rotating mode, the gear ten (311) is meshed with the gear eight (305), a gear nine (309) is arranged on an output shaft of the driving motor, a driving column (310) is arranged on the gear nine (309), a sliding groove (308) is arranged on the rack (307), and the driving column (310) is attached to the sliding groove (308).

7. A raw mixing apparatus for making a tire compound as in claim 6, wherein: the inner side and the outer side of the gear ring III (302) are provided with teeth, the gear nine (309) is meshed with the outer side teeth of the gear ring III (302), and the multiple groups of gears eight (305) are meshed with the inner side teeth of the gear ring III (302).

8. A raw mixing apparatus for making a tire compound as in claim 7, wherein: stirring post (312) and ten (311) and multiunit gear eight (305) coaxial arrangement of gear, scraping board (313) install at ring gear three (302) inboard, scraping board (313) and support frame (303) inside laminating.

9. A raw mixing apparatus for making a tire compound as in claim 8, wherein: the lower end of the support frame (303) is provided with a discharge hole (316), and the discharge hole (316) is intermittently aligned with the top of the mixing ball (201).

Images