CN112265037B

CN112265037B - Automatic scrap tire cutting machine of pay-off

Info

Publication number: CN112265037B
Application number: CN202011089892.9A
Authority: CN
Inventors: 吴新波
Original assignee: Nanjing Lingque Intelligent Manufacturing Co Ltd
Current assignee: Youxian Fenghang Renewable Resources Co.,Ltd.
Priority date: 2020-10-13
Filing date: 2020-10-13
Publication date: 2022-06-21
Anticipated expiration: 2040-10-13
Also published as: CN112265037A

Abstract

The invention relates to waste tire cutting, in particular to an automatic feeding waste tire cutting machine. Provided is a scrap tire cutting machine capable of realizing automatic feeding, cutting and pushing. An automatic feeding waste tire cutting machine comprises a bottom plate and a bearing platform, wherein the bottom plate is connected with the bearing platform; the motor is connected to the side part of the bearing table; the lifting mechanism is connected between the bearing platform and the motor output shaft; and a cutting mechanism is connected between the lifting mechanism and the motor output shaft. Through the cooperation between motor, feeding mechanism, elevating system and the cutting mechanism, can be so that during the pay-off, cutting member rebound, when cutting the abandonment tire, stop the pay-off, can so that continuous cutting to the abandonment tire need not manual operation, improves work efficiency.

Description

Automatic scrap tire cutting machine of pay-off

Technical Field

The invention relates to waste tire cutting, in particular to an automatic feeding waste tire cutting machine.

Background

The current social economy is continuously developed, the consumption capability of people is continuously improved, the models and styles of automobiles are more and more, and waste tires are increased along with the increase of the models and styles of the automobiles. How to dispose of the waste tires becomes a big problem at present, and if the waste tires are directly thrown away, the environment is polluted, and resources are wasted. Therefore, the waste tires should be recycled, the iron rings in the waste tires are cut, and the waste tires can be cleanly processed to be made into some common things in life, such as: ceiling lights, ornaments, swings, recreational articles, flowerpots, and the like, which can beautify the environment.

Patent application CN201721024714.1 discloses a scrap tire cutting machine, which is adapted to fit a rotating wheel for mounting scrap tires, and is rotatably connected to one end of a movable hinge shaft, and the other end of the movable hinge shaft is movably hinged to a frame; the first air cylinder is connected with the movable hinge shaft; the running wheel is arranged below the rotating wheel and is in contact with the outer surface of the waste tire sleeved on the rotating wheel to drive the rotating wheel to rotate; the power mechanism is in driving connection with the running wheel and drives the running wheel to rotate; the cutter is connected with a movable mechanical arm, and the movable mechanical arm can drive the cutter to be close to the rotating wheel to be abutted against the outer surface of the waste tire.

The tire cutting machine can cut and separate the tire side and the tire crown of the waste tire, is convenient for next step of segmentation, transportation and storage, is the first process for treating the waste tire, and is widely applied to the regenerated rubber powder and oil refining industries. However, it is necessary to manually convey and take out the waste tire, which is time-consuming and labor-consuming, and an automatic feeding waste tire cutting machine capable of realizing automatic feeding, cutting and pushing out has been developed.

Disclosure of Invention

In order to overcome the shortcoming of current equipment cutting abandonment tire, unable realization pay-off and the effect of releasing, the technical problem that solves: provided is a scrap tire cutting machine capable of realizing automatic feeding, cutting and pushing.

The technical scheme is as follows: an automatic feeding scrap tire cutting machine, comprising:

the base plate is connected with the bearing platform;

the motor is connected to the side part of the bearing table;

the lifting mechanism is connected between the bearing platform and the motor output shaft;

and a cutting mechanism is connected between the lifting mechanism and the motor output shaft.

Preferably, the lifting mechanism includes:

the output shaft of the motor penetrates through the side part of the bearing table and is connected with a third gear;

the side part of the bearing table is rotatably connected with a reduction gear set which is positioned on the side part of the third gear;

the side part of the reduction gear set is connected with the first rotating shaft;

one side of the bearing platform is connected with a fixed through pipe;

the fixed through pipe is connected with a second rotating shaft which can slide and rotate, and the second rotating shaft is connected with the cutting mechanism;

the top of the second rotating shaft is rotatably connected with a first movable assembly, and the first movable assembly is connected with the first rotating shaft in a sliding manner.

Preferably, the cutting mechanism comprises:

the first steering gear assembly is connected between the motor output shaft and the second rotating shaft;

the side part of the second rotating shaft is connected with a cutter for cutting the tire;

the second rotating shaft is rotatably connected with the fixing block, and the fixing block is positioned on the side part of the cutter;

the cross is connected with the lower side of the second rotating shaft in a rotating mode, the cross can slide on the second rotating shaft, and the cross is located on the side portion of the fixing block.

Preferably, the device also comprises a feeding mechanism, wherein the feeding mechanism comprises:

the four sides of the bottom plate are connected with the second brackets;

the conveying assembly used for conveying the tires is rotatably connected between the second supports, and the side part of the bearing platform penetrates through the conveying assembly;

one side of the top of the bearing table is connected with a third bracket;

the third rotating shaft is rotatably connected between the third bracket and the bearing platform;

the bearing platform is rotatably connected with a first gear on one side close to the third gear, and the first gear is positioned on the side part of the third gear;

the second steering gear assembly is connected between the first gear and the third rotating shaft;

one side of the bottom plate, which is close to the third support, is connected with the fifth support;

the fifth bracket is connected with a rotatable and slidable sliding assembly;

one side of the sliding assembly, which is far away from the first gear, is connected with a second gear;

the side, close to the second gear, of the transportation assembly is connected with an embedded gear rotating shaft, and the embedded gear rotating shaft is meshed with the second gear;

the outer side of the sliding assembly is connected with a first rack;

the bottom plate is provided with a first bracket close to the first rack;

a transmission gear is rotatably connected between the fourth bracket and meshed with the first rack;

a first belt assembly is connected between the third rotating shaft and the sliding assembly, and a sliding block is connected to the side part of the bearing table in a sliding manner;

the connecting rod is connected with on the slider, and the connecting rod is connected with second pivot rotary type, and the connecting rod bottom is connected with the second rack, and the second rack meshes with drive gear.

Preferably, the device also comprises a discharging mechanism, wherein the discharging mechanism comprises:

the bearing table is rotatably connected with the fourth rotating shaft at one side close to the third support;

the second belt assembly is connected between the fourth rotating shaft and the first rotating shaft;

the top of the bearing table is connected with a push plate used for pushing out a tire in a sliding manner;

the front end of the push plate is connected with a second movable assembly, and the second movable assembly is rotatably connected with a fourth rotating shaft.

The invention has the following advantages: 1. through the cooperation between motor, feeding mechanism, elevating system and the cutting mechanism, can be so that during the pay-off, cutting member rebound, when cutting the abandonment tire, stop the pay-off, can so that continuous cutting to the abandonment tire need not manual operation, improves work efficiency.

2. Through discharge mechanism, can make the discarded tire after being cut release backward, be convenient for people and collect.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of the motor, the bearing table, the lifting mechanism and the cutting mechanism of the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a schematic perspective view of the feeding mechanism of the present invention.

Fig. 5 is a schematic partial perspective view of the feeding mechanism of the present invention.

Reference numerals: 1_ bottom plate, 11_ load bearing table, 2_ motor, 3_ lifting mechanism, 30_ third gear, 31_ reduction gear set, 32_ first rotating shaft, 33_ first movable component, 34_ fixed through pipe, 35_ second rotating shaft, 4_ cutting mechanism, 41_ first steering gear component, 42_ cutter, 43_ fixed block, 44_ cross, 5_ feeding mechanism, 51_ second bracket, 52_ third bracket, 53_ fourth bracket, 54_ fifth bracket, 55_ transportation component, 56_ first gear, 57_ second steering gear component, 58_ third rotating shaft, 59_ sliding component, 510_ first rack, 511_ second gear, 512_ embedded gear rotating shaft, 513_ transmission gear, 514_ connecting rod, 515_ slider, 6_ unloading mechanism, 61_ second belt component, 62_ fourth rotating shaft, 63_ second movable component, and 64_ push plate.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

The utility model provides an automatic scrap tire cutting machine of pay-off, as shown in figure 1, including bottom plate 1, bearing platform 11, motor 2, elevating system 3 and cutting mechanism 4, be connected with bearing platform 11 on the bottom plate 1, bearing platform 11 right side is connected with motor 2, is connected with elevating system 3 between bearing platform 11 and the 2 output shafts of motor, is connected with cutting mechanism 4 between elevating system 3 and the 2 output shafts of motor.

When people need cut the waste tire, place the waste tire in 11 top left sides of bearing platform earlier, starting motor 2 afterwards, motor 2 output shaft rotates the part that drives elevating system 3 and moves down, and then makes cutting mechanism 4's part cut the waste tire, and after the cutting, close motor 2, it can to take out.

Example 2

Based on embodiment 1, as shown in fig. 2, the lifting mechanism 3 includes a third gear 30, a reduction gear set 31, a first rotating shaft 32, a first movable assembly 33, a fixed through pipe 34 and a second rotating shaft 35, an output shaft of the motor 2 passes through the upper side of the bearing table 11, the output shaft of the motor 2 is connected with the third gear 30, the upper side of the bearing table 11 is rotatably connected with the reduction gear set 31, the reduction gear set 31 is located on the upper side of the third gear 30, the left side of the upper portion of the reduction gear set 31 is connected with the first rotating shaft 32, the left portion of the upper side of the bearing table 11 is connected with the fixed through pipe 34, the fixed through pipe 34 is connected with a slidable and rotatable second rotating shaft 35, the second rotating shaft 35 is connected with the cutting mechanism 4, the upper portion of the second rotating shaft 35 is rotatably connected with the first movable assembly 33, and the first movable assembly 33 is slidably connected with the first rotating shaft 32.

After people open motor 2, motor 2 output shaft rotates and drives third gear 30, reduction gear 31, first pivot 32 and cutting mechanism 4's part and constantly rotates for first movable assembly 33, second pivot 35 and cutting mechanism 4's part constantly reciprocates, and second pivot 35 drives cutting mechanism 4's part and constantly rotates simultaneously, and then can constantly cut the waste tyre, later close motor 2.

The cutting mechanism 4 comprises a first steering gear assembly 41, a cutter 42, a fixing block 43 and a cross 44, the first steering gear assembly 41 is connected between the left end of the output shaft of the motor 2 and the middle part of the second rotating shaft 35, the cutter 42 is connected to the lower side of the second rotating shaft 35, the fixing block 43 is connected to the lower side of the second rotating shaft 35 in a rotating mode, the fixing block 43 is located on the lower side of the cutter 42, the cross 44 is connected to the lower side of the second rotating shaft 35 in a rotating mode, the cross 44 can slide on the second rotating shaft 35, and the cross 44 is located on the lower side of the fixing block 43.

When the second rotating shaft 35 moves downwards to drive the upper part of the first steering gear assembly 41, the cutter 42, the fixed block 43 and the cross 44 to move downwards, when the first steering gear assembly 41 is meshed, the output shaft of the motor 2 rotates to drive the first steering gear assembly 41, the cutter 42, the fixed block 43 and the cross 44 to rotate continuously, when the cross 44 moves downwards to contact with the waste tire, the cross 44 moves upwards to enable the cross 44 to be attached to the fixed block 43, the cutter 42 cuts the waste tire downwards, so that the cross 44 fixes the waste tire, the cutter 42 rotates to cut the waste tire, when the waste tire is cut by one circle, the first movable assembly 33 drives the second rotating shaft 35, the first steering gear assembly 41, the cutter 42, the fixed block 43 and the cross 44 to move upwards, and when the first steering gear assembly 41 is separated, the second rotating shaft 35, the first steering gear assembly 41 and the cutter 42 move upwards, The fixed block 43 and the cross 44 stop rotating, and the cutting of the waste tire can be completed by repeating the above operations.

Example 3

On the basis of the embodiment 2, as shown in fig. 3 to 5, the feeding device further includes a feeding mechanism 5, the feeding mechanism 5 includes a second bracket 51, a third bracket 52, a fourth bracket 53, a fifth bracket 54, a transportation component 55, a first gear 56, a second steering gear component 57, a third rotating shaft 58, a sliding component 59, a first rack 510, a second gear 511, an embedded gear rotating shaft 512, a transmission gear 513, a connection rod 514, and a sliding block 515, the second bracket 51 is connected to the front, the rear, the left, and the right sides of the bottom plate 1, the transportation component 55 is rotatably connected between the second brackets 51, the transportation component 55 passes through the left side of the load-bearing table 11, the third bracket 52 is connected to the front of the right side of the load-bearing table 11, the third rotating shaft 58 is rotatably connected between the third bracket 52 and the right side of the load-bearing table 11, the first gear 56 is rotatably connected to the front of the right side of the load-bearing table 11, the first gear 56 is located in front of the third gear 30, a second steering gear assembly 57 is connected between the right end of the first gear 56 and the rear side of the third rotating shaft 58, a fifth bracket 54 is connected with the front part of the right side of the bottom plate 1, a rotatable and slidable sliding assembly 59 is connected with the upper part of the fifth bracket 54, a second gear 511 is connected with the rear end of the sliding assembly 59, an embedded gear rotating shaft 512 is connected with the front right side of the transportation assembly 55, the embedded gear rotating shaft 512 is meshed with the second gear 511, a first rack 510 is connected with the outer side of the sliding assembly 59, fourth brackets 53 are respectively arranged on the left and right sides of the front right side of the bottom plate 1, the fourth brackets 53 are positioned on both sides of the first rack 510, a rotary transmission gear 513 is connected between the upper parts of the fourth brackets 53, the transmission gear 513 is meshed with the first rack 510, a first belt assembly is connected between the front end of the third rotating shaft 58 and the front side of the sliding assembly 59, a sliding block 515 is connected with the upper right side of the front part of the bearing table 11, a connecting rod 514 is connected on the sliding block 515, the rear end of the connecting rod 514 is rotatably connected with the second rotating shaft 35, the bottom of the connecting rod 514 is connected with a second rack, and the second rack is meshed with the transmission gear 513.

When the second rotating shaft 35 moves downwards, the connecting rod 514, the sliding block 515 and the second rack are driven to move downwards, the transmission gear 513 is driven to rotate, the first rack 510, the rear side of the sliding component 59 and the second gear 511 move forwards, the second gear 511 and the embedded gear rotating shaft 512 are separated, at this time, the transportation component 55 stops rotating, the cutter 42 cuts the waste tire, after cutting, the second rotating shaft 35, the cutter 42, the connecting rod 514, the sliding block 515 and the second rack move upwards, the transmission gear 513 rotates to drive the first rack 510, the rear part of the sliding component 59 and the second gear 511 to move backwards, the second gear 511 is meshed with the embedded gear rotating shaft 512, the output shaft of the motor 2 rotates to drive the third gear 30, the first gear 56, the third rotating shaft 58, the first belt component, the sliding component 59 and the second gear 511 to rotate, so that the transportation component 55 rotates clockwise, people can place the left side of transportation subassembly 55 with the scrap tire, and transportation subassembly 55 clockwise rotation drives the scrap tire and moves to the right below cutter 42, and the operation can accomplish the cutting scrap tire more than repeating.

The automatic discharging device is characterized by further comprising a discharging mechanism 6, wherein the discharging mechanism 6 comprises a second belt assembly 61, a fourth rotating shaft 62, a second movable assembly 63 and a push plate 64, the lower side of the front portion of the bearing table 11 is rotatably connected with the fourth rotating shaft 62, the second belt assembly 61 is connected between the right side of the fourth rotating shaft 62 and the first rotating shaft 32, the push plate 64 is slidably connected to the right side of the top of the bearing table 11, the front end of the push plate 64 is connected with the second movable assembly 63, and the second movable assembly 63 is rotatably connected with the left end of the fourth rotating shaft 62.

The first rotating shaft 32 rotates to drive the second belt assembly 61 and the fourth rotating shaft 62 to rotate continuously, so that the second movable assembly 63 and the push plate 64 move back and forth continuously, when the cutter 42 moves downwards, the push plate 64 moves forwards, and when the cutter 42 loosens the waste tire, the push plate 64 moves backwards to move the waste tire backwards, so that people can collect the waste tire conveniently.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims

1. The utility model provides an automatic scrap tire cutting machine of pay-off which characterized in that, including:

the device comprises a bottom plate (1) and a bearing table (11), wherein the bottom plate (1) is connected with the bearing table (11);

the motor (2) is connected to the side part of the bearing table (11);

the lifting mechanism (3) is connected between the bearing platform (11) and the output shaft of the motor (2);

the cutting mechanism (4) is connected between the lifting mechanism (3) and the output shaft of the motor (2);

the lifting mechanism (3) comprises:

an output shaft of the motor (2) penetrates through the side part of the bearing table (11), and the output shaft of the motor (2) is connected with the third gear (30);

the side part of the bearing table (11) is rotatably connected with a reduction gear set (31), and the reduction gear set (31) is positioned on the side part of the third gear (30);

the side part of the reduction gear set (31) is connected with the first rotating shaft (32);

one side of the bearing table (11) is connected with a fixed through pipe (34);

the fixed through pipe (34) is connected with a second rotating shaft (35) which can slide and rotate, and the second rotating shaft (35) is connected with the cutting mechanism (4);

the top of the second rotating shaft (35) is rotatably connected with the first movable assembly (33), and the first movable assembly (33) is connected with the first rotating shaft (32) in a sliding manner;

the cutting mechanism (4) comprises:

the first steering gear assembly (41) is connected between the output shaft of the motor (2) and the second rotating shaft (35);

the cutting knife (42) is connected to the side part of the second rotating shaft (35) and used for cutting the tire;

the second rotating shaft (35) is rotatably connected with the fixing block (43), and the fixing block (43) is located on the side of the cutter (42);

the cross (44) is rotatably connected to the lower side of the second rotating shaft (35), the cross (44) can slide on the second rotating shaft (35), and the cross (44) is located on the side of the fixing block (43);

still including feeding mechanism (5), feeding mechanism (5) including:

the four sides of the bottom plate (1) are connected with the second brackets (51);

the transportation assembly (55) used for transporting the tires is rotatably connected between the second brackets (51), and the lateral part of the bearing platform (11) penetrates through the transportation assembly (55);

a third support (52), wherein one side of the top of the bearing table (11) is connected with the third support (52);

a third rotating shaft (58), wherein the third rotating shaft (58) is rotatably connected between the third bracket (52) and the bearing table (11);

the bearing table (11) is rotatably connected with the first gear (56) close to one side of the third gear (30), and the first gear (56) is positioned on the side part of the third gear (30);

the second steering gear assembly (57) is connected between the first gear (56) and the third rotating shaft (58);

the bottom plate (1) is connected with a fifth bracket (54) at one side close to the third bracket (52);

a sliding component (59), wherein the fifth bracket (54) is connected with the sliding component (59) which can rotate and slide;

the second gear (511) is connected to one side, away from the first gear (56), of the sliding assembly (59);

the embedded gear rotating shaft (512) is connected to one side, close to the second gear (511), of the transportation component (55), and the embedded gear rotating shaft (512) is meshed with the second gear (511);

the first rack (510) is connected to the outer side of the sliding assembly (59);

the bottom plate (1) is provided with fourth supports (53) close to the two sides of the first rack (510), and the fourth supports (53) are positioned on the two sides of the first rack (510);

the transmission gear (513) is rotatably connected between the fourth brackets (53), and the transmission gear (513) is meshed with the first rack (510);

a first belt assembly is connected between the sliding block (515) and the third rotating shaft (58) and the sliding assembly (59), and the sliding block (515) is connected to the side of the bearing table (11) in a sliding manner;

the connecting rod (514) is connected to the sliding block (515), the connecting rod (514) is rotatably connected with the second rotating shaft (35), the bottom of the connecting rod (514) is connected with a second rack, and the second rack is meshed with the transmission gear (513);

still including shedding mechanism (6), shedding mechanism (6) including:

the fourth rotating shaft (62) is rotatably connected to one side, close to the third support (52), of the bearing table (11);

a second belt assembly (61), wherein the second belt assembly (61) is connected between the fourth rotating shaft (62) and the first rotating shaft (32);

the top of the bearing platform (11) is connected with a push plate (64) used for pushing out a tire in a sliding way;

the front end of the push plate (64) is connected with a second movable component (63), and the second movable component (63) is rotatably connected with a fourth rotating shaft (62).