CN108819307B

CN108819307B - Automobile sealing strip production line

Info

Publication number: CN108819307B
Application number: CN201810583162.0A
Authority: CN
Inventors: 刘美清; 曾宝龙; 罗海龙
Original assignee: Guangzhou Yuhao Electromechanical Equipment Co ltd
Current assignee: Guangzhou Yuhao Electromechanical Equipment Co ltd
Priority date: 2018-06-05
Filing date: 2018-06-05
Publication date: 2020-07-07
Anticipated expiration: 2038-06-05
Also published as: CN108819307A

Abstract

The invention discloses an automobile sealing strip production line which comprises a feeding assembly, a dehumidifying assembly, an extruding assembly, a processing assembly, a vulcanizing assembly, a forming assembly, a quick cooling assembly and a stabilizing assembly, wherein the feeding assembly comprises a core material guiding machine, a core material spot welding machine and a core material storage machine, and the spot welding core material machine is arranged on the left side of the core material guiding machine; this production technology of cover sealing strip production line has realized the accurate controllable of each item parameter completely, and each corollary equipment all is equipped with the inductor, highly integrated control, and each item parameter controllable type in the production process is good, and the operation is convenient, and the reaction is rapid, and the change that is favorable to whole production technology is convenient, improves production efficiency, and core material storage machine has changed the transmission mode, and the cylinder transmission before will be changed into motor drive, is similar to the elevator transmission, the change of this scheme, the oscilaltion of guide pulley is more steady, safety, is favorable to the steady output of core.

Description

Automobile sealing strip production line

Technical Field

The invention belongs to the technical field of sealing strips, and particularly relates to an automobile sealing strip production line.

Background

The automobile sealing strip has the functions of filling various intermittences and gaps among automobile body components, damping, waterproofing, dust prevention, sound insulation, decoration and the like, improves the comfort of driving experience and protects the automobile body. Generally, a vehicle owner experiences that the vehicle feels strong noise in a certain running state, such as high-speed running, a sand and stone road surface and a downtown area, so that the largest possibility is that the sealing performance of the vehicle body has a problem, a plurality of methods for solving the problem are provided, and the sealing strip is a solution with high cost performance.

In the prior art, the monitoring of the equipment in the control aspect is too dispersed, the parameter allocation is difficult, and a real-time monitoring system is not available, wherein which link is abnormal cannot be found in time, and personnel are required to continuously patrol the whole production line; the related matching parameter change interval of each device is small, the applicability to the production process of a plurality of products is poor, the utilization rate of the whole production line is reduced, and inconvenience is brought to users.

Disclosure of Invention

The invention aims to provide an automobile sealing strip production line, which aims to solve the problems that the traditional equipment provided in the background technology is too dispersive in monitoring in the aspect of control, difficult in parameter allocation and free of a real-time monitoring system, and which link is abnormal and cannot be found in time, so that a person is required to continuously patrol the whole production line; the related matching parameter change interval of each device is small, the applicability to the production process of a plurality of products is poor, the utilization rate of the whole production line is reduced, and inconvenience is brought to users.

In order to achieve the purpose, the invention provides the following technical scheme: an automobile sealing strip production line comprises a feeding assembly, a dehumidifying assembly, an extruding assembly, a processing assembly, a vulcanizing assembly, a forming assembly, a quick cooling assembly and a stabilizing assembly, wherein the feeding assembly comprises a core material guiding machine, a core material spot welding machine and a core material storage machine, the core material spot welding machine is arranged on the left side of the core material guiding machine, the core material guiding machine is fixedly connected with the core material spot welding machine through a first transmission machine, the core material storage machine is arranged on the left side of the core material spot welding machine, the core material storage machine is fixedly connected with the core material spot welding machine through a second transmission machine, the core material guiding machine, the core material spot welding machine and the core material storage machine are electrically connected with an external power supply, the dehumidifying assembly comprises a first core material dehumidifier, a core material pre-forming machine and a second core material dehumidifier, the first core material dehumidifier is arranged on the left side of the core material storage, the first core dehumidifier is fixedly connected with the core material storage machine through a third conveyor, the core material pre-forming machine is arranged on the left side of the first core dehumidifier, the first core dehumidifier is fixedly connected with the core material pre-forming machine through a fourth conveyor, the second core dehumidifier is arranged on the left side of the core material pre-forming machine, the second core dehumidifier is fixedly connected with the core material pre-forming machine through a fifth conveyor, the first core dehumidifier, the core pre-forming machine and the second core dehumidifier are all electrically connected with an external power supply, the extrusion assembly comprises an extruder, an extruder main machine and an extruder auxiliary machine, the extruder is positioned on the left side of the second core dehumidifier and is fixedly connected with the second core dehumidifier through a sixth conveyor, and the extruder main machine is arranged at the top end of the extruder, the extruder main unit is fixedly connected with the extruder, the upper surface of the extruder main unit is provided with the extruder auxiliary unit, the extruder auxiliary unit is fixedly connected with the extruder main unit, the extruder main unit and the extruder auxiliary unit are electrically connected with an external power supply, the processing assembly comprises a raw material punching machine, a first surface treatment machine, a first low-temperature vulcanizing tank, a plasma processing machine, a traction machine, a second low-temperature vulcanizing tank and a second surface treatment machine, the raw material punching machine is positioned on the left side of the extruder and fixedly connected with the extruder, the first surface treatment machine is arranged on the left side of the raw material punching machine and fixedly connected with the raw material punching machine, the first low-temperature vulcanizing tank is arranged on the left side of the first surface treatment machine and fixedly connected with the first surface treatment machine, the first surface processor and the first low-temperature vulcanizing tank are electrically connected with an external power supply, the vulcanizing assembly comprises a first microwave vulcanizing tank, a second microwave vulcanizing tank, a first hot air vulcanizing tank, a second hot air vulcanizing tank, a third hot air vulcanizing tank, a fourth hot air vulcanizing tank and a cooling water tank, the first microwave vulcanizing tank is positioned on the left side of the first low-temperature vulcanizing tank and fixedly connected with the first low-temperature vulcanizing tank, the second microwave vulcanizing tank is arranged on the left side of the first microwave vulcanizing tank and fixedly connected with the first microwave vulcanizing tank, the first hot air vulcanizing tank is fixedly connected with the second microwave vulcanizing tank, the second hot air vulcanizing tank is positioned on the left side of the first hot air vulcanizing tank and fixedly connected with the first hot air vulcanizing tank, the plasma processor is positioned above the second hot air vulcanizing tank and fixedly connected with the second hot air vulcanizing tank, the tractor is arranged on the right side of the plasma processor and fixedly connected with the plasma processor, the second low-temperature vulcanizing tank is arranged on the right side of the tractor and fixedly connected with the tractor, the second surface processor is arranged on the right side of the second low-temperature vulcanizing tank and fixedly connected with the second low-temperature vulcanizing tank, the plasma processor, the tractor, the second low-temperature vulcanizing tank and the second surface processor are all electrically connected with an external power supply, the third hot air vulcanizing tank is arranged on the right side of the second surface processor and fixedly connected with the second surface processor, the fourth hot air vulcanizing tank is positioned on the right side of the third hot air vulcanizing tank and is fixedly connected with the third hot air vulcanizing tank, the cooling water tank is arranged on the right side of the fourth hot air vulcanizing tank and is fixedly connected with the fourth hot air vulcanizing tank, the cooling water tank is electrically connected with an external power supply, the molding assembly comprises an ink-jet printer, a perforating machine, a molding machine and a core material breaking machine, the ink-jet printer is arranged on the right side of the cooling water tank and is fixedly connected with the cooling water tank, the perforating machine is arranged on the right side of the ink-jet printer and is fixedly connected with the ink-jet printer, the molding machine is arranged on the right side of the perforating machine and is fixedly connected with the perforating machine, the core material breaking machine is arranged above the molding machine and is fixedly connected with the molding machine, the ink-jet printer, the perforating machine, the forming machine and the core material breaking machine are all electrically connected with an external power supply, the quick-cooling assembly comprises a cooling water tank body, a first cooling tank, a steering wheel, a second cooling tank and a third cooling tank, the first cooling tank is arranged on the upper surface of the cooling water tank body, the first cooling tank is welded and fixed with the cooling water tank body, the steering wheel is arranged on the right side of the top end of the first cooling tank, the steering wheel is fixedly connected with the first cooling tank, the second cooling tank is arranged above the first cooling tank, the second cooling tank is fixedly connected with the cooling water tank body, the third cooling tank is arranged on the left side of the first cooling tank, the third cooling tank is fixedly connected with the cooling water tank body, and the stabilizing assembly comprises a core material storage machine body, a pressing wheel mounting column, a feeder, The core material storing machine comprises a material conveyor, a pressing wheel and a motor, wherein the material conveyor is arranged on the right side of the top end of a core material storing machine body and is fixedly connected with the core material storing machine body, the motor is arranged on the left side of the material conveyor, the motor is fixedly connected with the core material storing machine body, the left side of the top end of the core material storing machine body is provided with a pressing wheel mounting column, the pressing wheel mounting column is fixedly connected with the core material storing machine body, the pressing wheel is located on the front surface of the pressing wheel mounting column and is fixedly connected with the pressing wheel mounting column, the material feeder is located at the front end of the core material storing machine body and is rotatably connected with the core material storing machine body, and the motor is electrically connected with an external power supply

Preferably, a plurality of square through holes are formed in the third cooling tank.

Preferably, the feeder is in a plurality of numbers, and the feeders are all installed at the front end of the core material storing machine body.

Preferably, the left end of the inner side wall of the first cooling groove is provided with a rotating roller, and the rotating roller is fixedly connected with the first cooling groove.

Preferably, the first cooling groove and the second cooling groove have the same width.

Compared with the prior art, the invention has the beneficial effects that: this production technology of cover sealing strip production line has realized the accurate controllable of each item parameter completely, and each corollary equipment all is equipped with the inductor, highly integrated control, and each item parameter controllable type in the production process is good, and the operation is convenient, and the reaction is rapid, and the change that is favorable to whole production technology is convenient, improves production efficiency, and core material storage machine has changed the transmission mode, and the cylinder transmission before will be changed into motor drive, is similar to the elevator transmission, the change of this scheme, the oscilaltion of guide pulley is more steady, safety, is favorable to the steady output of core.

Drawings

FIG. 1 is a schematic diagram of structure A of the present invention;

FIG. 2 is a schematic view of the structure B of the present invention;

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

FIG. 4 is a schematic view of a dehumidification assembly of the present invention;

FIG. 5 is a schematic view of an extrusion assembly of the present invention;

FIG. 6 is a schematic view of a processing assembly of the present invention;

FIG. 7 is a schematic view of a first microwave vulcanization tank according to the present invention;

FIG. 8 is a schematic structural view of a second hot air vulcanizing tank in the present invention;

FIG. 9 is a schematic view of a processing assembly of the present invention;

FIG. 10 is a novel schematic view of a third hot air vulcanization tank in accordance with the present invention;

FIG. 11 is a schematic view of a cooling water tank according to the present invention;

FIG. 12 is a schematic view of a molding assembly of the present invention;

FIG. 13 is a perspective view of the instant cooling assembly of the present invention;

FIG. 14 is a front view of the quick chill assembly of the present invention;

FIG. 15 is a perspective view of a stabilization assembly of the present invention;

FIG. 16 is an elevation view of a stabilizing assembly of the present invention;

in the figure: 10. a feeding assembly; 11. starting up the core material; 12. a core material spot welder; 13. a core material storage machine; 20. a dehumidification assembly; 21. a first core dehumidifier; 22. a core material preforming machine; 23. a second core material dehumidifier; 30. an extrusion assembly; 31. an extruder; 32. discharging out of the host machine; 33. an extruder auxiliary machine; 40. a processing component; 41. a raw material perforating machine; 42. a first surface treating machine; 43. a first low temperature vulcanization tank; 44. a plasma processor; 45. a tractor; 46. a second low temperature vulcanization tank; 47. a second surface treating machine; 50. a vulcanization assembly; 51. a first microwave vulcanizing tank; 52. a second microwave vulcanizing tank; 53. a first hot air vulcanization tank; 54. a second hot air vulcanizing tank; 55. a third hot air vulcanizing tank; 56. a fourth hot air vulcanizing tank; 57. a cooling water tank; 60. a molding assembly; 61. an ink jet printer; 62. a perforating machine; 63. a forming machine; 64. a core material breaking machine; 70. a quick cooling assembly; 71. a cooling water tank body; 72. a first cooling tank; 73. a steering wheel; 74. a second cooling tank; 75. a third cooling tank; 80. a stabilizing assembly; 81. a core material storing machine body; 82. a pinch roller mounting post; 83. a feeder; 84. a material conveyer; 85. pressing the wheel tightly; 86. an electric motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-16, the present invention provides a technical solution: an automobile sealing strip production line comprises a feeding component 10, a dehumidifying component 20, an extrusion component 30, a processing component 40, a vulcanizing component 50, a forming component 60, a quick cooling component 70 and a stabilizing component 80, wherein the feeding component 10 comprises a core material guiding machine 11, a core material spot welding machine 12 and a core material storage machine 13, the core material spot welding machine 12 is arranged on the left side of the core material guiding machine 11, the core material guiding machine 11 is fixedly connected with the core material spot welding machine 12 through a first transmission machine, the core material storage machine 13 is arranged on the left side of the core material spot welding machine 12, the core material storage machine 13 is fixedly connected with the core material spot welding machine 12 through a second transmission machine, the core material guiding machine 11, the core material spot welding machine 12 and the core material storage machine 13 are electrically connected with an external power supply, the dehumidifying component 20 comprises a first core material dehumidifier 21, a core material preformer 22 and a second core material dehumidifier 23, the first core material, the first core dehumidifier 21 is fixedly connected with the core material storage machine 13 through a third transmission machine, the left side of the first core dehumidifier 21 is provided with a core material pre-forming machine 22, the first core dehumidifier 21 is fixedly connected with the core material pre-forming machine 22 through a fourth transmission machine, the left side of the core material pre-forming machine 22 is provided with a second core dehumidifier 23, the second core dehumidifier 23 is fixedly connected with the core material pre-forming machine 22 through a fifth transmission machine, the first core dehumidifier 21, the core material pre-forming machine 22 and the second core dehumidifier 23 are electrically connected with an external power supply, the extrusion assembly 30 comprises an extruder 31, an extruder main machine 32 and an extruder auxiliary machine 33, the extruder 31 is positioned at the left side of the second core dehumidifier 23 and fixedly connected with the second core dehumidifier 23 through a sixth transmission machine, the top end of the extruder 31 is provided with an extruder main machine 32, the extruder main machine 32 is fixedly connected with the extruder 31, the upper surface of the extruder main machine 32 is provided with an extruder auxiliary machine 33, the extruder auxiliary machine 33 is fixedly connected with the extruder main machine 32, the extruder 31, the extruder main machine 32 and the extruder auxiliary machine 33 are all electrically connected with an external power supply, the processing assembly 40 comprises a raw material punching machine 41, a first surface treatment machine 42, a first low-temperature vulcanizing tank 43, a plasma processing machine 44, a traction machine 45, a second low-temperature vulcanizing tank 46 and a second surface treatment machine 47, the raw material punching machine 41 is positioned at the left side of the extruder 31 and is fixedly connected with the extruder 31, the left side of the raw material punching machine 41 is provided with the first surface treatment machine 42, the first surface treatment machine 42 is fixedly connected with the raw material punching machine 41, the left side of the first surface treatment machine 42 is provided with the first low-temperature vulcanizing tank 43, the first low-temperature vulcanizing tank 43 is fixedly connected with the first surface treatment machine 42, the first surface treatment machine 42 and the first low-temperature vulcanizing tank 43 are both electrically connected with the external power supply, the vulcanizing assembly 50 comprises a first microwave vulcanizing tank 51, a second microwave vulcanizing tank 52, a first hot air vulcanizing tank 53, a second hot air vulcanizing tank 54, a third hot air vulcanizing tank 55, a fourth hot air vulcanizing tank 56 and a cooling water tank 57, wherein the first microwave vulcanizing tank 51 is positioned on the left side of the first low-temperature vulcanizing tank 43 and fixedly connected with the first low-temperature vulcanizing tank 43, the second microwave vulcanizing tank 52 is arranged on the left side of the first microwave vulcanizing tank 51, the second microwave vulcanizing tank 52 is fixedly connected with the first microwave vulcanizing tank 51, the first hot air vulcanizing tank 53 is arranged on the left side of the second microwave vulcanizing tank 52, the first hot air vulcanizing tank 53 is fixedly connected with the second microwave vulcanizing tank 52, the second hot air vulcanizing tank 54 is positioned on the left side of the first hot air vulcanizing tank 53 and fixedly connected with the first hot air vulcanizing tank 53, the plasma 44 is positioned above the second hot air vulcanizing tank 54 and fixedly connected with the second hot air vulcanizing tank 54, the right side of the plasma processor 44 is provided with a tractor 45, the tractor 45 is fixedly connected with the plasma processor 44, the right side of the tractor 45 is provided with a second low-temperature vulcanizing tank 46, the second low-temperature vulcanizing tank 46 is fixedly connected with the tractor 45, the right side of the second low-temperature vulcanizing tank 46 is provided with a second surface processor 47, the second surface processor 47 is fixedly connected with the second low-temperature vulcanizing tank 46, the plasma processor 44, the tractor 45, the second low-temperature vulcanizing tank 46 and the second surface processor 47 are all electrically connected with an external power supply, the right side of the second surface processor 47 is provided with a third hot air vulcanizing tank 55, the third hot air vulcanizing tank 55 is fixedly connected with the second surface processor 47, a fourth hot air vulcanizing tank 56 is positioned at the right side of the third hot air vulcanizing tank 55 and is fixedly connected with the third hot air vulcanizing tank 55, the right side of the fourth hot air vulcanizing tank 56 is provided with a cooling water tank 57, the cooling water tank 57 is fixedly connected with the fourth hot air vulcanizing tank 56, the cooling water tank 57 is electrically connected with an external power supply, the molding assembly 60 comprises an ink-jet printer 61, a perforating machine 62, a molding machine 63 and a core material breaking machine 64, the ink-jet printer 61 is arranged on the right side of the cooling water tank 57, the ink-jet printer 61 is fixedly connected with the cooling water tank 57, the perforating machine 62 is arranged on the right side of the ink-jet printer 61, the perforating machine 62 is fixedly connected with the ink-jet printer 61, the molding machine 63 is arranged on the right side of the perforating machine 62, the molding machine 63 is fixedly connected with the perforating machine 62, the core material breaking machine 64 is arranged above the molding machine 63, the ink-jet printer 61, the perforating machine 62, the molding machine 63 and the core material breaking machine 64 are all electrically connected with the external power supply, the quick cooling assembly 70 comprises a cooling water tank body 71, a first cooling tank 72, a steering wheel 73, a second cooling tank 74 and a third cooling tank 75, the first cooling tank 72 is welded and fixed with the cooling tank body, the right side of the top end of the first cooling tank 72 is provided with a steering wheel 73, the steering wheel 73 is fixedly connected with the first cooling tank 72, a second cooling tank 74 is arranged above the first cooling tank 72, the second cooling tank 74 is fixedly connected with the cooling water tank body 71, the left side of the first cooling tank 72 is provided with a third cooling tank 75, the third cooling tank 75 is fixedly connected with the cooling water tank body 71, the stabilizing assembly 80 comprises a core material storage machine body 81, a pressing wheel mounting column 82, a feeder 83, a feeder 84, a pressing wheel 85 and a motor 86, the right side of the top end of the core material storage machine body 81 is provided with the feeder 84, the feeder 84 is fixedly connected with the core material storage machine body 81, the left side of the feeder 84 is provided with the motor 86, the motor 86 is fixedly connected with the core material storage machine body 81, the left side of the core material storage machine body 81 is provided with the pressing wheel mounting column 82, the pressing wheel mounting column 82 is fixedly connected with the, the compacting wheel 85 is positioned on the front surface of the compacting wheel mounting column 82 and fixedly connected with the compacting wheel mounting column 82, the feeder 83 is positioned at the front end of the core material storing machine body 81 and rotatably connected with the core material storing machine body 81, and the motor 86 is electrically connected with an external power supply

In this embodiment, motor 86's model is Y2, the production technology of this set of sealing strip production line, it is controllable to have realized the accuracy of each item parameter completely, each corollary equipment all is equipped with the inductor, highly integrated control, each item parameter controllable type in the production process is good, the operation is convenient, the reaction is rapid, be favorable to the change of whole production technology convenient, improve production efficiency, core material storage machine 13 has changed transmission mode, the cylinder transmission before will be changed into motor 86 transmission, similar to the elevator transmission, the change of this scheme, the oscilaltion of guide pulley is more steady, safety, be favorable to the steady output of core, for improving the factory building utilization ratio, on the cooling line of same length, through the layer design, twine the material on directive wheel 73, divide cooling trough 57 into three-layer cooling, the cooling effect has improved the twice than the single-layer cooling in the past.

In the embodiment, when the sealing strip is produced, a material is guided into a core material guiding machine 11, the sealing strip is automatically fed by the core material guiding machine 11, then the sealing strip is manufactured and formed by matching a series of material guiding, extruding, baking, forming, cooling, code spraying, punching and cutting sequentially, when a core material storage machine 13 is used, a feeder 83 is arranged at the top end, the core material is wound on the feeder, when the material is short, a pressing wheel 85 is pressed, the feeder 83 descends to ensure the automatic output of the section bar, a new core material is added by using the time, after the addition is completed, a switch is started, the feeder 83 automatically returns to a normal production position, the core material is output by the feeder 83 and a roller at the lower part through a material conveyor 84, the material conveyor 84 adjusts the traction speed along with different tension forces of the core material, the motor 86 is adopted for transmission, the operation is stable, and the automobile sealing strip has a, because the sealing strip temperature after the vulcanization is very high, if carry out cooling treatment to it in the short time, just need apply cooling trough 57, cooling trough 57's advantage can realize a tractor serves several purposes, and the sealing strip trend is total three kinds of modes, and these three kinds of modes are great to the cooling effect difference of material, select different cooling methods to different materials, different requirements.

Further, the third cooling tank 75 has a plurality of square through holes formed therein.

In this embodiment, when the sealing strip is cooled in the third cooling groove 75, the cooling liquid is collected in the corresponding container through the plurality of square through holes, so that the utilization rate of the cooling liquid is improved.

Further, the number of the feeders 83 is plural, and the feeders 83 are all mounted on the front end of the core material storage body 81.

In this embodiment, when the core material storage 13 is used, the feeder 83 is at the top end, the core material is wound in the core material storage, and when the core material is short, the feeder 83 is pressed by the pressing wheel 85, and the automatic output of the section bar is ensured.

Further, a rotating roller is arranged at the left end of the inner side wall of the first cooling groove 72, and the rotating roller is fixedly connected with the first cooling groove 72.

In this embodiment, in order to improve the transmission efficiency of the sealing strip, a rotating roller is disposed at the left end of the first cooling groove 72, and the friction between the sealing strip and the cooling groove is reduced by the rotation of the rotating roller.

Further, the first cooling groove 72 and the second cooling groove 74 have the same width.

In this embodiment, the widths of the first cooling groove 72 and the second cooling groove 74 are made the same in order to pass the sealing tape through the two cooling grooves.

The working principle and the using process of the invention are as follows: after the sealing strip is installed, when the sealing strip is produced, materials are guided into a core material guiding machine 11, the sealing strip is automatically fed by the core material guiding machine 11, then the sealing strip is manufactured and formed through the matching of a series of material guiding, extruding, baking, forming, cooling, code spraying, punching and cutting, when a core material storage machine 13 is used, a feeder 83 is located at the top end, core materials are wound on the feeder 83, when the materials are short, a pressing wheel 85 is pressed, the feeder 83 descends, automatic output of the section bars is guaranteed, new core materials are added in the time, after the addition is completed, a switch is started, the feeder 83 automatically returns to a normal production position, the core materials are output through the feeder 83 and a roller at the lower part, the traction speed of the feeder 84 is adjusted along with different tension forces of the core materials, and the operation is stable by the transmission of a motor 86.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an automobile sealing strip production line which characterized in that: the core spot welding machine comprises a feeding component (10), a dehumidifying component (20), a pressing-out component (30), a processing component (40), a vulcanizing component (50), a forming component (60), a quick cooling component (70) and a stabilizing component (80), wherein the feeding component (10) comprises a core material guiding machine (11), a core material spot welding machine (12) and a core material storage machine (13), the core material spot welding machine (12) is arranged on the left side of the core material guiding machine (11), the core material guiding machine (11) is fixedly connected with the core material spot welding machine (12) through a first transmission machine, the core material storage machine (13) is arranged on the left side of the core material spot welding machine (12), the core material storage machine (13) is fixedly connected with the core material spot welding machine (12) through a second transmission machine, and the core material guiding machine (11), the core material spot welding machine (12) and the core material storage machine (13) are both electrically connected with an external power, the dehumidifying assembly (20) comprises a first core dehumidifier (21), a core preforming machine (22) and a second core dehumidifier (23), the first core dehumidifier (21) is arranged on the left side of the core storage machine (13), the first core dehumidifier (21) is fixedly connected with the core storage machine (13) through a third transmission machine, the core preforming machine (22) is arranged on the left side of the first core dehumidifier (21), the first core dehumidifier (21) is fixedly connected with the core preforming machine (22) through a fourth transmission machine, the second core dehumidifier (23) is arranged on the left side of the core preforming machine (22), the second core dehumidifier (23) is fixedly connected with the core preforming machine (22) through a fifth transmission machine, and the first core dehumidifier (21), the core preforming machine (22) and the second dehumidifier (23) are electrically connected with an external power supply, escort subassembly (30) including escort machine (31), main engine of escort (32) and escort machine auxiliary engine (33), escort machine (31) are located the left side of second core dehumidifier (23), and with second core dehumidifier (23) are through sixth transmission machine fixed connection, the top of escort machine (31) is equipped with main engine of escort (32), main engine of escort (32) with escort machine (31) fixed connection, the upper surface of escort main engine (32) is equipped with escort machine auxiliary engine (33), escort machine auxiliary engine (33) with main engine of escort (32) fixed connection, escort machine (31), main engine of escort (32) with escort machine auxiliary engine (33) all with external power source electric connection, processing assembly (40) are including puncher raw material (41), first surface treatment machine (42), A first low-temperature vulcanizing tank (43), a plasma processor (44), a traction machine (45), a second low-temperature vulcanizing tank (46) and a second surface processor (47), wherein the raw material punching machine (41) is positioned at the left side of the extrusion machine (31) and fixedly connected with the extrusion machine (31), the first surface processor (42) is arranged at the left side of the raw material punching machine (41), the first surface processor (42) is fixedly connected with the raw material punching machine (41), the first low-temperature vulcanizing tank (43) is arranged at the left side of the first surface processor (42), the first low-temperature vulcanizing tank (43) is fixedly connected with the first surface processor (42), the first surface processor (42) and the first low-temperature vulcanizing tank (43) are both electrically connected with an external power supply, and the vulcanizing assembly (50) comprises a first microwave vulcanizing tank (51), A second microwave vulcanizing tank (52), a first hot air vulcanizing tank (53), a second hot air vulcanizing tank (54), a third hot air vulcanizing tank (55), a fourth hot air vulcanizing tank (56) and a cooling water tank (57), wherein the first microwave vulcanizing tank (51) is positioned on the left side of the first low-temperature vulcanizing tank (43) and is fixedly connected with the first low-temperature vulcanizing tank (43), the second microwave vulcanizing tank (52) is arranged on the left side of the first microwave vulcanizing tank (51), the second microwave vulcanizing tank (52) is fixedly connected with the first microwave vulcanizing tank (51), the first hot air vulcanizing tank (53) is arranged on the left side of the second microwave vulcanizing tank (52), the first hot air vulcanizing tank (53) is fixedly connected with the second microwave vulcanizing tank (52), and the second hot air vulcanizing tank (54) is positioned on the left side of the first hot air vulcanizing tank (53), and is fixedly connected with the first hot air vulcanizing tank (53), the plasma processor (44) is positioned above the second hot air vulcanizing tank (54) and is fixedly connected with the second hot air vulcanizing tank (54), the tractor (45) is arranged on the right side of the plasma processor (44), the tractor (45) is fixedly connected with the plasma processor (44), the second low-temperature vulcanizing tank (46) is arranged on the right side of the tractor (45), the second low-temperature vulcanizing tank (46) is fixedly connected with the tractor (45), the second surface processor (47) is arranged on the right side of the second low-temperature vulcanizing tank (46), the second surface processor (47) is fixedly connected with the second low-temperature vulcanizing tank (46), and the plasma processor (44), the tractor (45), the second low-temperature vulcanizing tank (46) and the second surface processor (47) are all electrically connected with an external power supply, the right side of the second surface processor (47) is provided with the third hot air vulcanizing tank (55), the third hot air vulcanizing tank (55) is fixedly connected with the second surface processor (47), the fourth hot air vulcanizing tank (56) is positioned on the right side of the third hot air vulcanizing tank (55) and is fixedly connected with the third hot air vulcanizing tank (55), the right side of the fourth hot air vulcanizing tank (56) is provided with the cooling water tank (57), the cooling water tank (57) is fixedly connected with the fourth hot air vulcanizing tank (56), the cooling water tank (57) is electrically connected with an external power supply, the molding assembly (60) comprises an ink jet printer (61), a perforating machine (62), a molding machine (63) and a core material breaking machine (64), the right side of the cooling water tank (57) is provided with the ink jet printer (61), and the ink jet printer (61) is fixedly connected with the cooling water tank (57), the punching machine (62) is arranged on the right side of the code spraying machine (61), the punching machine (62) is fixedly connected with the code spraying machine (61), the forming machine (63) is arranged on the right side of the punching machine (62), the forming machine (63) is fixedly connected with the punching machine (62), the core material breaking machine (64) is arranged above the forming machine (63), the core material breaking machine (64) is fixedly connected with the forming machine (63), the code spraying machine (61), the punching machine (62), the forming machine (63) and the core material breaking machine (64) are electrically connected with an external power supply, the quick cooling assembly (70) comprises a cooling water tank body (71), a first cooling tank (72), a steering wheel (73), a second cooling tank (74) and a third cooling tank (75), the first cooling tank (72) is arranged on the upper surface of the cooling water tank body (71), the first cooling tank (72) is welded and fixed with the cooling water tank body (71), the steering wheel (73) is arranged on the right side of the top end of the first cooling tank (72), the steering wheel (73) is fixedly connected with the first cooling tank (72), the second cooling tank (74) is arranged above the first cooling tank (72), the second cooling tank (74) is fixedly connected with the cooling water tank body (71), the third cooling tank (75) is arranged on the left side of the first cooling tank (72), the third cooling tank (75) is fixedly connected with the cooling water tank body (71), the stabilizing component (80) comprises a core material storage machine body (81), a pressing wheel mounting column (82), a material feeder (83), a core material conveyor (84), a pressing wheel (85) and a motor (86), the material conveyor (84) is arranged on the right side of the top end of the storage machine body (81), feeder (84) with core material storage machine body (81) fixed connection, the left side of feeder (84) is equipped with motor (86), motor (86) with core material storage machine body (81) fixed connection, the top left side of core material storage machine body (81) is equipped with sticiss a round erection column (82), pinch roller erection column (82) with core material storage machine body (81) fixed connection, pinch roller (85) are located the front surface of pinch roller erection column (82), and with sticis a round erection column (82) fixed connection, feeder (83) are located the front end of core material storage machine body (81), and with core material storage machine body (81) rotate to be connected, motor (86) and external power source electric connection.

2. The automotive weatherstrip production line according to claim 1, wherein: and a plurality of square through holes are formed in the third cooling groove (75).

3. The automotive weatherstrip production line according to claim 1, wherein: the number of feeders (83) is a plurality of, and is a plurality of feeders (83) all install the front end of core material storing machine body (81).

4. The automotive weatherstrip production line according to claim 1, wherein: the left end of the inner side wall of the first cooling groove (72) is provided with a rotary roller, and the rotary roller is fixedly connected with the first cooling groove (72).

5. The automotive weatherstrip production line according to claim 1, wherein: the first cooling groove (72) and the second cooling groove (74) have the same width.