CN108080216B - Tire spouts gluey technology assembly line - Google Patents

Abstract

The utility model discloses a tire glue spraying process line, which belongs to the technical field of machinery, and comprises a frame, wherein cleaning equipment for cleaning tires, a dust collection device for dust collection, drying equipment for drying, a glue spraying device I for spraying primer, a glue spraying device II for spraying glue and a cooling mechanism are arranged on the frame; the tire glue spraying process has the advantages of cleaning and uniform glue spraying, and can improve the product quality.

Description

Tire spouts gluey technology assembly line

Technical Field

The utility model belongs to the technical field of tire processing equipment, relates to tire glue spraying process equipment, and particularly relates to tire glue spraying and drying equipment.

Background

In order to ensure good riding comfort and running smoothness of an automobile, hot melt adhesive is sprayed in the tire in a tire production process for improving the tire performance, and a plurality of processes such as cleaning, drying, primer spraying, secondary glue spraying, cooling and inspection of the tire are involved in the adhesive spraying process, and in the prior art, the automobile is processed by adopting a plurality of steps, so that the production efficiency is low, the product quality is low, and the later use of the tire is influenced.

The utility model patent with the publication number of CN206373040U discloses a full-automatic tire glue spraying production line, which comprises a cleaning module, a drying module, a glue spraying module and a glue drying module, wherein the cleaning module comprises a water tank and a cleaning water pump, the top of the water tank is provided with a mounting seat, a roller is arranged on the mounting seat, a roller driving motor is further arranged on the mounting seat, a water suction pipe and a water spraying pipe are connected on the cleaning water pump, the end part of the water spraying pipe is connected with a cleaning spray head, the drying module comprises a dryer body, the output end of the dryer body is connected with a hot air pipe, the end part of the hot air pipe is connected with a drying head, and the driving device of the glue drying module comprises a transmission chain, a tire driving component, a roller blocking component and a supporting steel plate, and one side of the transmission chain is provided with the transmission chain driving motor. The cleaning, drying, glue spraying and glue drying are completed on one production line, automatic production is realized, labor intensity is greatly reduced, and working efficiency is improved.

Although the problem of low production efficiency of the tire sub-process processing is solved in the above patent, the problem of poor cleaning, long drying time and the like of the tire is caused due to the fact that the optimizing point exists in the equipment structure of each process, and the spraying colloid quality is poor.

Disclosure of Invention

The utility model aims to solve the technical problems of poor glue spraying quality caused by incomplete cleaning, long drying time and the like of a tyre glue spraying assembly line in the prior art, and provides a tyre glue spraying assembly line capable of improving the glue spraying quality of a tyre after structural optimization.

In order to solve the technical problems, the utility model provides a tire glue spraying process line, which comprises a frame, a cleaning device for cleaning a tire, a dust collection device for collecting dust, a drying device for drying, a glue spraying device I for spraying primer, a glue spraying device II for spraying glue, a cooling mechanism and a detection device, wherein the frame is provided with a fan, a heating device for heating gas, a drying device and an air inlet and outlet device, the fan is arranged on the frame, the drying device is arranged on an inner ring of the tire, the air inlet and outlet device comprises an air inlet channel and an air outlet channel, the heating device is arranged in the air inlet channel, the air inlet and outlet device is connected with the drying device, the drying device comprises an air suction part, an air outlet part and a first partition plate, the air suction part and the air outlet part are separated along the radial direction of the tire, the air suction part comprises a plurality of air suction holes, the air outlet part comprises a plurality of air outlet holes, and the air suction part is communicated with the fan through the air outlet channel, and the air outlet part is communicated with the fan through the air inlet channel.

The tyre glue spraying process comprises cleaning, drying, dust collection, primer spraying, drying, glue spraying, cooling and detection. The process position switching is realized through the tire overturning device among the cleaning, drying, dust collection and glue spraying processes, the process position switching is realized through the tire transposition device in the process of glue spraying and cooling, the air passes through the air inlet duct after the fan is started in the working process of the glue spraying and drying equipment, the air is heated by the air inlet duct heating device and then is led to the air outlet part of the drying device, and the air is discharged out of the drying device through the air outlet hole. The heated air can be blown to the surface of the inner ring of the tire through the air outlet, the air outlet channel is connected with the air suction part, the air suction part is internally provided with negative pressure by the air suction part, and the external air enters the air suction part of the drying device through the air suction hole.

The cleaning equipment comprises a cleaning device capable of being placed on the inner ring of the tire and a water pumping device, the cleaning device further comprises a transmission shaft, a rotary cylinder, a water inlet and a water outlet, the transmission shaft, the rotary cylinder and the frame are fixedly connected, the cleaning device comprises a water spraying gun and a cleaning head, one end of the transmission shaft is connected with the cleaning device, the other end of the transmission shaft is connected with the rotary cylinder, the water pumping device comprises a water pumping head and a rotary cylinder II for controlling the rotary position of the water pumping head, the water pumping device is connected with a rotating shaft, the water pumping device and the cleaning device are arranged at the same end, the water inlet is positioned on the transmission shaft, the water inlet is communicated with the water spraying gun of the cleaning device, and the water outlet is communicated with the water pumping head of the water pumping device.

The cleaning device and the pumping device are located in the inner ring of the tire during operation, the rotating cylinder drives the transmission shaft to rotate, then the cleaning device and the pumping device on the transmission shaft are controlled to rotate, the water spraying gun on the cleaning device sprays clear water, the cleaning head cleans the inner ring of the tire, all parts of the inner ring of the tire can be cleaned through rotation, the pumping device is connected with the transmission shaft through the rotating cylinder II, the pumping device rotates in a multi-dimensional mode through the rotating cylinder II when the transmission shaft rotates, accumulated sewage of the inner ring of the tire is timely pumped away, the design can timely pump the retained sewage in the tire, the inner ring of the tire is cleaned at multiple angles, the quality of a later-stage tire glue spraying process is facilitated, the quality of tire cleaning is improved, and the glue spraying quality of products is further improved.

The dust collection device comprises a transmission shaft II, a rotary cylinder III, a dust collection part capable of being placed on the inner ring of the tire and a fan II, wherein the dust collection part comprises a connecting rod and a dust collection head, the transmission shaft II is rotatably connected with the frame, one end of the transmission shaft II is connected with the connecting rod of the dust collection part, the other end of the transmission shaft II is connected with the rotary cylinder III, and the dust collection part is communicated with the fan II through the transmission shaft II.

The glue spraying device for spraying the primer comprises a transmission shaft III, a rotary cylinder IV, a glue spraying gun capable of being placed in a tire, a mounting plate and a glue spraying gun support, wherein the transmission shaft III is rotatably connected with the support, one end of the transmission shaft III is connected with the rotary cylinder IV, the other end of the transmission shaft III is connected with the mounting plate, the glue spraying gun support is connected with the glue spraying gun in a clamping mode, and the glue spraying gun support is fixedly connected with the mounting plate.

The second glue spraying device comprises a glue inlet channel, the glue inlet channel is fixedly connected with the support, one end of the glue inlet channel is provided with a glue inlet, the other end of the glue inlet channel is bent to form a 90-degree angle, the glue outlet is provided with a glue spraying opening, and the glue spraying opening can be placed on the inner side of the tire.

Above-mentioned frame includes tire fixing device, frame main part, tire fixing device includes fixed plate, fly leaf, translation device and a plurality of roller bearing, the fixed plate is on a parallel with the tire periphery and not with the tire contact with the fly leaf, fixed plate and frame main part fixed connection are located tire axial one side, the fly leaf is located tire axial opposite side through translation device and frame main part sliding connection, the fixed plate is connected with a plurality of roller bearings with the fly leaf lateral wall, roller bearing and tire lateral wall rolling contact, the fly leaf can be for following tire axial displacement through translation device.

The frame further comprises a tire transposition device, the tire transposition device comprises a side fixing device and a bottom edge fixing device capable of sliding along the tire axial direction, the side fixing device comprises a first roller and a second roller which can move along the tire axial direction, the first roller is located on one side of the tire axial direction, the second roller is located on the other side of the tire axial direction, the second roller can move along the tire axial direction, the bottom edge fixing device comprises a third roller and a fourth roller which are arranged along the tire axial direction and can synchronously rotate, the distance between the third roller and the fourth roller is greater than or equal to the width of the tire, and the axes of the first roller, the second roller, the third roller and the fourth roller are perpendicular to the axis of the tire and are parallel to the side face of the tire.

The tire transposition device plays a role in converting a station of the tire between the second glue spraying device and the cooling mechanism, when the tire is ready to transpose after the second glue spraying device is processed, the first roller and the second roller clamp the tire from the side edge, the third roller and the fourth roller in the bottom edge fixing device turn to the side deviating from the tire, the bottom edge fixing device moves to the position right below the tire along the axial direction of the tire, the third roller and the fourth roller rotate to clamp the tire from the bottom, at the moment, the second roller moves to the side deviating from the tire along the radial direction of the tire, and the third roller and the fourth roller drive the tire to move to the cooling mechanism.

The cooling mechanism comprises a transmission chain capable of circularly moving along the axial direction of the tire, a plurality of transmission eccentric rollers, a tire transmission frame and a motor for driving the transmission chain to move, wherein the transmission chain is positioned on one side of the tire transmission frame, one ends of the transmission eccentric rollers are fixedly connected with the transmission chain and are uniformly distributed perpendicular to the transmission chain, the other ends of the transmission eccentric rollers are provided with a plurality of eccentric shaft sheets, the transmission eccentric rollers can be in contact with the side wall of the tire, and the distance between the adjacent transmission eccentric rollers is larger than the width of the tire.

The frame also comprises a position adjusting device, wherein the position adjusting device comprises a height adjusting device with adjustable height and a distance adjusting device with adjustable distance from the tire. The above-mentioned adjusting device also includes a transverse adjusting device which can adjust the transverse position.

The height adjusting device, the distance adjusting device and the transverse adjusting device are all screw rod sliding block structures driven by a motor.

According to the utility model, the processing quality of each process of a product in the tire glue spraying process is improved by improving assembly line equipment such as a cleaning device, a drying device, a glue spraying device, a cooling structure and the like, so that the glue spraying quality of the product is improved.

Drawings

FIG. 1 is a schematic diagram of the position structure of a tire glue spraying process line of the present utility model.

Fig. 2 is a schematic view of a drying apparatus of the present utility model.

Fig. 3 is a schematic view of a cleaning apparatus of the present utility model.

Fig. 4 is a schematic view of a cleaning apparatus of the present utility model.

Fig. 5 is a schematic view of a drying apparatus according to the present utility model.

Fig. 6 is a schematic diagram of a glue spraying device according to the present utility model.

FIG. 7 is a schematic diagram of a glue spraying device according to the present utility model.

Figure 8 is a schematic view of a suction device according to the present utility model.

Fig. 9 is a schematic view of a cooling mechanism of the present utility model.

Fig. 10 is a schematic view of a tire changing device of the present utility model.

Reference numerals illustrate: 1. A frame; 11. a detection device 2, a cleaning apparatus; 21. a cleaning device; 211. a water spraying gun; 212. a cleaning head; 22. a water pumping device; 221. a water suction head; 222. a rotary cylinder II; 23. a transmission shaft; 24. a rotary cylinder; 25. a water inlet; 26. a water outlet; 3. a dust collection device; 31. a transmission shaft II; 32. a rotary cylinder III; 33. a dust collection part; 331. a connecting rod; 332. a dust collection head; 4. a drying device; 41. a blower; 42. a heating device; 43. a drying device; 431. an air suction unit; 432. an air outlet portion; 433. a first partition plate; 44. an air inlet and outlet device; 441. an air inlet duct; 442. an air outlet duct; 5. a glue spraying device I; 51. transmission shafts III, 52 and a rotary cylinder IV; 53. a glue gun; 54. a mounting plate; 55. a glue gun bracket; 6. glue spraying device II; 61. a glue inlet channel; 62. a glue inlet; 7. a cooling mechanism; 71. a drive chain; 72. transmitting eccentric rollers; 73. a tire transmission frame; 8. a tire fixing device; 81. a fixing plate; 82. a movable plate; 83. a translation device; 84. a roller; 9. a tire transposition device; 91. a side fixing device; 911. a first rolling shaft; 912. a second rolling shaft; 92. a bottom edge fixing device; 921. a third roller; 922. a rolling shaft IV; 101. a position adjusting device; 101a, a height adjusting device; 101b, a distance adjusting device; 101c, a transverse adjusting device.

Description of the embodiments

The utility model is further described below with reference to the accompanying drawings.

The production line of the seed tire glue spraying process shown in fig. 1-10 comprehensively improves the production quality of each working procedure of the glue spraying process by improving equipment of each working procedure in the glue spraying process, and further improves the glue spraying quality of the tire.

The tire spouts earlier through belt cleaning device 21 in the gluey process, belt cleaning device 21 includes, can place in belt cleaning device 21, the pumping device 22 of tire inner race, cleaning device 2 still includes transmission shaft 23, revolving cylinder 24, water inlet 25 and delivery port 26, transmission shaft 23, revolving cylinder 24 and frame 1 fixed connection, belt cleaning device 21 includes spray gun 211, cleaning head 212, transmission shaft 23 one end is connected with belt cleaning device 21, and the other end is connected with revolving cylinder 24, pumping device 22 includes water suction head 221, control water suction head 221 rotary position revolving cylinder 222, pumping device 22 and axis of rotation connection, pumping device 22 with belt cleaning device 21 sets up in same end, water inlet 25 is located transmission shaft 23, water inlet 25 communicates with each other with spray gun 211 of belt cleaning device 21, delivery port 26 communicates with each other with water suction head 221 of pumping device 22, transmission shaft 23 is connected with frame 1 position adjustment device 101.

The cleaning device 21 and the water pumping device 22 are located in the tire inner ring during operation, the rotary air cylinder 24 drives the transmission shaft 23 to rotate, the cleaning device 21 and the water pumping device 22 on the transmission shaft 23 are further controlled to rotate, the cleaning position can be adjusted through the position adjusting device 101, the water spraying gun 211 on the cleaning device 21 sprays clear water, the cleaning head 212 cleans the tire inner ring, all parts of the tire inner ring can be cleaned through rotation, the water pumping device 22 is connected with the transmission shaft 23 through the rotary air cylinder 222, the water pumping device 22 rotates in a multi-dimensional mode through the rotary air cylinder 222 while the transmission shaft 23 rotates, accumulated sewage of the tire inner ring is timely pumped away, the design can timely pump the residual sewage in the tire, the tire inner ring is cleaned at multiple angles, the quality of a later tire glue spraying process is facilitated, the tire cleaning quality is improved, and the product glue spraying quality is further improved.

The tire reaches the drying process through the tire turning device after cleaning, the drying equipment 4 comprises a fan 41, a heating device 42 for heating gas, a drying device 43 placed on the inner ring of the tire and an air inlet and outlet device 44, wherein the fan 41, the heating device 42 is arranged on the frame 1, the air inlet and outlet device 44 comprises an air inlet duct 441 and an air outlet duct 442, the heating device 42 is arranged in the air inlet duct 441, the air inlet and outlet device 44 is connected with the drying device 43, the drying device 43 comprises an air suction part 431, an air outlet part 432 and a first partition plate 433, the first partition plate 433 separates the air suction part 431 from the air outlet part 432 along the radial direction of the tire, the air suction part 431 comprises a plurality of air suction holes, the air outlet part 432 comprises a plurality of air outlet holes, the air suction part 431 is communicated with the fan 41 through the air outlet duct 442, the air outlet part 432 is communicated with the fan 41 through the air inlet duct 441, and the heating device 42 is connected with the position adjusting device 101 of the bracket.

After the fan 41 is started in the working process of the glue spraying and drying equipment 4, the air passes through the air inlet duct 441, is heated by the air inlet duct 441 heating device 42 and then is led to the air outlet part 432 of the drying device 43, and is discharged out of the drying device 43 through the air outlet hole, and the drying device 43 can be in a cylinder shape or a cuboid shape and the like as being placed in the inner ring of the tire. The heated air can be blown to the surface of the inner ring of the tire through the air outlet holes, the air outlet channel 442 connects the fan 41 with the air suction part 431, the fan 41 enables negative pressure to be generated inside the air suction part 431, external air enters the air suction part 431 of the drying device 43 through the air suction holes, and because the drying device 43 is placed on the inner ring of the tire, the air suction part 431 and the air outlet part 432 are separated along the radial direction of the tire through the partition plates, the circulation of the air suction part 431 and the air outlet part 432 can accelerate the air circulation rate of the inner ring of the tire, air flows out of the air suction part 431 from the air outlet part 432 and enters the air suction part 431 and regularly runs along the axial direction of the tire, so that the tire is quickly dried, the drying efficiency of the tire is greatly improved, and the design can recycle the air, and most of energy can be saved when a part of heated air is sucked through the air suction holes for secondary heating, and meanwhile, the drying quality is improved, and the glue spraying quality of products is improved.

After the drying process is finished, a dust collection process is performed through the tire turning device tire, the dust collection device 3 comprises a second transmission shaft 31, a third rotary cylinder 32, a dust collection part 33 capable of being placed on the inner ring of the tire and a second fan, the dust collection part 33 comprises a connecting rod 331 and a dust collection head 332, the second transmission shaft 31 is rotatably connected with the frame 1, one end of the second transmission shaft 31 is connected with the connecting rod 331 of the dust collection part 33, the other end of the second transmission shaft is connected with the third rotary cylinder 32, the dust collection part 33 is communicated with the second fan through the second transmission shaft 31, and the second transmission shaft 31 is connected with the position adjusting device 101 of the frame 1.

After the dust collection process is finished, a primer spraying process is needed, wherein a primer spraying device I5 comprises a transmission shaft III 51, a rotary cylinder IV 52, a primer spraying gun 53 which can be placed in a tire, a mounting plate 54 and a primer spraying gun support 55, the transmission shaft III 51 is rotatably connected with a bracket, one end of the transmission shaft III 51 is connected with the rotary cylinder IV 52, the other end of the transmission shaft III is connected with the mounting plate 54, the primer spraying gun support 55 is clamped with the primer spraying gun 53, the primer spraying gun support 55 is fixedly connected with the mounting plate 54, and the transmission shaft III 51 is connected with a position adjusting device 101 of the bracket.

And after the bottom glue spraying process is finished, drying again, and then entering a second glue spraying device 6 to perform the glue spraying process, wherein the second glue spraying device 6 comprises a glue inlet channel 61, the glue inlet channel 61 is fixedly connected with a bracket, one end of the glue inlet channel 61 is provided with a glue inlet 62, the other end of the glue inlet channel is bent to form a 90-degree angle and provided with a glue spraying opening, and the glue spraying opening can be placed on the inner side of a tire.

The machine frame 1 of each process further comprises a tire fixing device 8 and a machine frame 1 main body, the tire fixing device 8 comprises a fixing plate 81, a movable plate 82, a translation device 83 and a plurality of rollers 84, the fixing plate 81 and the movable plate 82 are parallel to the circumferential surface of the tire and are not in contact with the tire, the fixing plate 81 is fixedly connected with the machine frame 1 main body and located on one side of the tire in the axial direction, the movable plate 82 is slidably connected with the machine frame 1 main body through the translation device 83 and located on the other side of the tire in the axial direction, the fixing plate 81 and the side wall of the movable plate 82 are connected with the plurality of rollers 84, the rollers 84 are in rolling contact with the side wall of the tire, and the movable plate 82 can move relative to the tire in the axial direction through the translation device 83.

In the working process, one end side surface of the tire is contacted with a roller 84 on the fixed plate 81, the movable plate 82 enables the other end side surface of the tire to be contacted with the roller 84 on the movable plate 82 through the translation device 83, the position of the tire is fixed through the movable plate 82 and the roller 84 on the fixed plate 81, and the fixed plate 81 and the movable plate 82 are arranged on the equipment body.

The frame 1 further comprises a tire transposition device 9, the tire transposition device 9 comprises a side fixing device 91 and a bottom edge fixing device 92 capable of sliding along the tire axial direction, the side fixing device 91 comprises a first roller 911 and a second roller 912 which can move along the tire axial direction, the first roller 911 is located on one side of the tire axial direction, the second roller 912 is located on the other side of the tire axial direction, the second roller 912 can move along the tire radial direction, the bottom edge fixing device 92 comprises a third roller 921 and a fourth roller 922 which are distributed along the tire axial direction and can synchronously rotate, and the distance between the third roller 921 and the fourth roller 922 is larger than or equal to the width of the tire.

The tire transposition device 9 plays a role in converting a station of the tire between the second glue spraying device 6 and the cooling mechanism 7, when the tire is ready to be transposed after the process of the second glue spraying device 6 is completed, the first roller 911 and the second roller 912 clamp the tire from the side, the third roller 921 and the fourth roller 922 in the bottom fixing device 92 turn to the side deviating from the tire, the bottom fixing device 92 moves to the right lower side of the tire along the axial direction of the tire, the third roller 921 and the fourth roller 922 clamp the tire from the bottom, at the moment, the second roller 912 moves to the side deviating from the tire along the radial direction of the tire, and the third roller 921 and the fourth roller 922 drive the tire to move to the cooling mechanism 7.

The cooling mechanism 7 comprises a transmission chain 71 capable of circularly moving along the axial direction of the tire, a plurality of transmission eccentric rollers 72, a tire transmission frame 73 and a motor for driving the transmission chain 71 to move, wherein the transmission chain 71 is positioned on one side of the tire transmission frame 73, one end of each transmission eccentric roller 72 is fixedly connected with the transmission chain 71 and is uniformly distributed perpendicular to the transmission chain, the other end of each transmission eccentric roller 72 is provided with a plurality of eccentric shaft sheets, each transmission eccentric roller 72 can be in contact with the side wall of the tire, and the distance between every two adjacent transmission eccentric rollers 72 is larger than the width of the tire.

The position adjusting device 101 of the frame 1 includes a height adjusting device 101a capable of adjusting the height and a distance adjusting device 101b capable of adjusting the distance from the tire. The above-mentioned adjusting means further comprise lateral adjusting means 101c for adjusting the lateral position. The height adjusting device 101a, the distance adjusting device 101b and the transverse adjusting device 101c are all screw rod sliding block structures driven by the motor 74.

The utility model improves the production line equipment such as the cleaning device 21, the drying device 43, the glue spraying device, the cooling structure and the like, so as to improve the processing quality of each process of the product in the tyre glue spraying process, and further improve the glue spraying quality of the product.

The embodiments of the present utility model have been described in detail with reference to the accompanying drawings, but the present utility model is not limited to the embodiments described above, and it will be apparent to those skilled in the art that various modifications and improvements can be made therein without departing from the scope of the utility model.

Claims (8)

1. The utility model provides a tire spouts gluey process line, includes frame (1), its characterized in that: the cleaning equipment (2) for cleaning the tire, the dust collection device (3) for collecting dust, the drying equipment (4) for drying, the first glue spraying device (5) for spraying bottom glue, the second glue spraying device (6) for spraying glue and the cooling mechanism (7) are sequentially arranged on the frame (1), the drying equipment (4) comprises a fan (41) arranged on the frame (1), a heating device (42) for heating gas, the drying device (43) placed on the inner ring of the tire and an air inlet and outlet device (44), the air inlet and outlet device (44) comprises an air inlet channel (441) and an air outlet channel (442), the heating device (42) is arranged in the air inlet channel (441), the air inlet and outlet device (44) is connected with the drying device (43), the drying device (43) comprises an air suction part (431), an air outlet part (432) and a partition plate one (433), the air suction part (431) and the air outlet part (432) are radially partitioned along the tire, the air suction part (431) comprises a plurality of air suction holes, the air outlet part (432) comprises an air outlet hole (441), the air outlet part (432) is communicated with the fan (41) through the air inlet channel (41) and the air inlet and the air outlet device (41), the cleaning device comprises a cleaning device (21) capable of being placed on an inner ring of a tire and a water pumping device (22), the cleaning device (2) further comprises a transmission shaft (23), a rotary cylinder (24), a water inlet (25) and a water outlet (26), the transmission shaft (23), the rotary cylinder (24) and a rack (1) are fixedly connected, the cleaning device (21) comprises a water spraying gun (211) and a cleaning head (212), one end of the transmission shaft (23) is connected with the cleaning device (21), the other end of the transmission shaft is connected with the rotary cylinder (24), the water pumping device (22) comprises a water pumping head (221) and a rotary cylinder (222) for controlling the rotary position of the water pumping head (221), the water pumping device (22) is connected with a rotary shaft, the water pumping device (22) and the cleaning device (21) are arranged at the same end, the water inlet (25) is positioned on the transmission shaft (23), the water inlet (25) is communicated with the water spraying gun (211) of the cleaning device (21), the water outlet (26) is communicated with the water pumping head (221) of the water pumping device (22), the dust collecting device (3) comprises a transmission shaft II (31), a rotary cylinder (32), a dust collecting part capable of being placed on the inner ring (33) and a dust collecting part (33) comprises a dust collecting part (33) The dust collection head (332), but transmission shaft two (31) and frame (1) swivelling joint, transmission shaft two (31) one end is connected with dust absorption portion (33) connecting rod (331), and the other end is connected with revolving cylinder three (32), dust absorption portion (33) communicate with each other with fan two through transmission shaft two (31).

2. The tire spraying process line according to claim 1, wherein: glue spraying device one (5) of spraying primer comprises a transmission shaft three (51), a rotary cylinder four (52), a glue spraying gun (53) capable of being placed in a tire, a mounting plate (54) and a glue spraying gun support (55), wherein the transmission shaft three (51) is rotatably connected with a support, one end of the transmission shaft three (51) is connected with the rotary cylinder four (52), the other end of the transmission shaft three (51) is connected with the mounting plate (54), the glue spraying gun support (55) is clamped with the glue spraying gun (53), and the glue spraying gun support (55) is fixedly connected with the mounting plate (54).

3. A tyre glue-spraying process line according to claim 2, wherein: the second glue spraying device (6) comprises a glue inlet channel (61), the glue inlet channel (61) is fixedly connected with the support, one end of the glue inlet channel (61) is provided with a glue inlet (62), the other end of the glue inlet channel is bent to form a 90-degree angle, the glue outlet is provided with a glue spraying opening, and the glue spraying opening can be placed on the inner side of the tire.

4. A tyre glue-spraying process line according to claim 1 or 2 or 3, characterized in that: frame (1) include tire fixing device (8), frame (1) main part, tire fixing device (8) include fixed plate (81), fly leaf (82), translation device (83) and a plurality of roller bearing (84), fixed plate (81) are on a parallel with fly leaf (82) and do not contact with the tire periphery, fixed plate (81) and frame (1) main part fixed connection are located tire axial one side, fly leaf (82) are located tire axial opposite side through translation device (83) and frame (1) main part sliding connection, fixed plate (81) are connected with a plurality of roller bearings (84) with fly leaf (82) lateral wall, roller bearing (84) and tire lateral wall rolling contact, fly leaf (82) can be for following tire axial displacement through translation device (83).

5. The tire spraying process line according to claim 4, wherein: the tire shifting device comprises a frame (1) and is characterized in that the frame (1) further comprises a tire shifting device (9), the tire shifting device (9) comprises a side fixing device (91) and a bottom edge fixing device (92) capable of sliding along the tire axial direction, the side fixing device (91) comprises a first roller (911) and a second roller (912) which can move along the tire axial direction, the first roller (911) is located on one side of the tire axial direction, the second roller (912) is located on the other side of the tire axial direction, the second roller (912) can move along the tire axial direction, the bottom edge fixing device (92) comprises a third roller (921) and a fourth roller (922) which are arranged along the tire axial direction and can synchronously rotate, the distance between the third roller (921) and the fourth roller (922) is larger than or equal to the width of the tire, and the axes of the first roller (911), the second roller (912), the third roller (921) and the fourth roller (922) are perpendicular to the tire axis and parallel to the side surface of the tire.

6. The tire spraying process line according to claim 1, wherein: the cooling mechanism (7) comprises a transmission chain (71), a plurality of transmission eccentric rollers (72), a tire transmission frame (73) and a motor for driving the transmission chain (71) to move, wherein the transmission chain (71) is positioned on one side of the tire transmission frame (73), one end of each transmission eccentric roller (72) is fixedly connected with the transmission chain (71) and is uniformly distributed perpendicular to the transmission chain, a plurality of eccentric shaft sheets are arranged at the other end of each transmission eccentric roller (72), each transmission eccentric roller (72) can be in contact with the side wall of the tire, and the distance between every two adjacent transmission eccentric rollers (72) is larger than the width of the tire.

7. A tyre glue-spraying process line according to claim 1 or 2 or 3, characterized in that: the frame (1) further comprises a position adjusting device (101), wherein the position adjusting device (101) comprises a height adjusting device (101 a) with adjustable height and a distance adjusting device (101 b) with adjustable distance from the tire.

8. The tire spraying process line according to claim 7, wherein: the adjustment device further comprises a lateral adjustment device (101 c) for adjusting the lateral position.