CN113459461A

CN113459461A - Rolling baling equipment of car pillar extruding machine

Info

Publication number: CN113459461A
Application number: CN202110691313.6A
Authority: CN
Inventors: 徐巧红; 林永斌
Original assignee: Wuhu Futian Electronic Technology Co ltd
Current assignee: Wuhu Futian Electronic Technology Co ltd
Priority date: 2021-06-22
Filing date: 2021-06-22
Publication date: 2021-10-01
Anticipated expiration: 2041-06-22
Also published as: CN113459461B

Abstract

The invention discloses rolling and packaging equipment of an automobile protective pipe extruding machine, and relates to the field of automobile protective pipe production.

Description

Rolling baling equipment of car pillar extruding machine

Technical Field

The invention relates to the field of production, in particular to a winding and packaging device of an automobile protective pipe plastic extruding machine.

Background

When the conventional automobile protective pipe is produced, the protective pipe is extruded by a plastic extruding machine, then is cooled by cooling water, and is conveyed by a guide mechanism, and the reversing, winding, packaging and storage of a winding device during winding and winding of the protective pipe can be realized;

however, when the temperature of the existing extruder is different in different seasons or when the material is supplied by the supplier, resulting in slow extrusion speed, so that the produced protective tube is tensioned between the extruding machine and the rolling station, the winding machine winds and pulls the protective tube at a normal speed, so that the protective tube between the extruding machine and the winding station is pulled out of cracks, and at the moment, the guide mechanism has the defects of incapability of conveying or disorderly reversing, and the upper layer is uniformly wound and distributed on the protective pipe of the lower layer when the protective pipe cannot be wound on the winding shaft, and the circulating amount of the cooling water is not adaptively adjusted, so that the protective pipe is cooled in a transition way, which causes quality problems, meanwhile, the prior rolled protective tube adopts a binding belt to bind for several times during packaging, so that the problems of friction scratch, damage and the like of the product caused by collision in the transportation process are solved, therefore, the winding and packaging equipment of the automobile protective pipe extruding machine needs to be provided to solve the problems.

Disclosure of Invention

In order to solve the technical problems, the invention provides the following technical scheme:

the utility model provides a rolling baling equipment of car pillar extruding machine, includes the workstation, workstation upper portion is equipped with cooling trough and its lower part is equipped with the water tank, cooling trough passes through a drain pipe intercommunication water tank, the one end of workstation is equipped with the base station, be equipped with ejector pin trigger assembly, guide assembly and rolling subassembly along pillar axis direction on the base station in proper order, still be equipped with the speed reduction system on the base station, base station one side is equipped with the packing subassembly with the packing of car pillar.

Preferably, the ejector rod trigger assembly comprises a support, two conveying rollers with the same structure are rotatably connected to the support, an ejector rod is installed at the lower end of the support, the lower end of the ejector rod penetrates through the base station and is connected with a first piston, the first piston slides in a first piston cylinder, the upper portion and the lower portion of the first piston cylinder are communicated through a water pipe, and a first water inlet pipe is arranged between the first piston cylinder and the water tank.

Preferably, the speed reduction system comprises a plunger cylinder and two piston cylinders II which are arranged in the base station, a water inlet pipe II is arranged between the plunger cylinder and the piston cylinder I, a water outlet pipe II is arranged between the plunger cylinder and the cooling water tank, a plunger is connected in the plunger cylinder in a sliding manner, a plunger rod is arranged on the plunger, and a friction wheel I and a friction wheel II are arranged on the plunger rod;

and the piston cylinder II is connected with a piston II in a sliding manner, the piston II is provided with a piston rod, a water inlet pipe III is arranged between the piston cylinder II and the water tank, and a water outlet pipe III is arranged between the piston cylinder II and the cooling water tank.

Preferably, the direction subassembly is including installing the base plate on the base station, be equipped with horizontal pole and rotation connecting threaded rod on the base plate, the servo motor of installing on the base plate is connected to threaded rod one end, the threaded rod other end is equipped with the clutch blocks two, the clutch blocks two is installed in the base station, threaded rod and horizontal pole overcoat have the slider, it has the screw hole with threaded rod complex to open on the slider, be equipped with the gag lever post that two structures are the same on the slider.

Preferably, the winding assembly comprises a rotating shaft installed on the base station, one end of the rotating shaft is rotatably connected with the support, the other end of the rotating shaft is connected with the motor to drive the motor to rotate, a plurality of support pieces with arc-shaped end faces are arranged on the support, the tail ends of the support pieces are rotatably connected with the separation blades, a hydraulic rod is arranged on the inner side of each support piece, the front end of each hydraulic rod is connected with the separation blade, a first friction block and an end face cam are further arranged on the rotating shaft, and the lower end of each end face cam abuts against the top end of a piston rod of each piston cylinder II.

Preferably, the first drain pipe, the water pipe, the first water inlet pipe, the second drain pipe, the third water inlet pipe and the third drain pipe are all provided with one-way valves.

Preferably, the packing subassembly includes lower cushion cap, goes up the cushion cap and several installs in the cushion cap between the two, all be equipped with the membrane module and the seal receptacle of sending of structural symmetry on lower cushion cap and the last cushion cap, two sets of send the membrane module to send two-layer plastic envelope membrane into between two seal receptacles, wherein, the seal receptacle of upper end passes through the cylinder and is connected with last cushion cap, and the seal receptacle of lower extreme is installed under on the cushion cap, is the through-hole in the middle of the seal receptacle of upper end, and the upper end is equipped with the heating collar, heating collar electric connection power, be equipped with the silo with the coaxial setting of seal receptacle on the cushion cap down.

Preferably, the film feeding assembly comprises a film roller and a conveying roller assembly, the film roller and the conveying roller assembly are mounted on the lower bearing platform or the upper bearing platform, and one end of the plastic film of the film roller penetrates through the conveying roller assembly and conveys the plastic film through the conveying roller assembly.

The invention has the beneficial effects that:

1. the cooling water tank, the ejector rod triggering assembly, the guide assembly, the winding assembly and the packing assembly are arranged, so that the cooling and conveying of the protective pipe after the protective pipe is extruded from the extruder are realized, and the reversing, winding and packing during winding and winding of the protective pipe are realized;

2. by arranging the ejector rod triggering assembly, water on the upper portion of the piston cylinder flows into a plunger cylinder of the speed reducing system through a water inlet pipe according to whether the ejector rod is pulled up and rises by the tensile force of the protective pipe or not as a triggering condition, when the ejector rod is pulled up and rises, the speed reducing system starts to operate, the plunger moves upwards, so that the friction wheel I and the friction wheel II are respectively contacted with the friction block I of the winding assembly and the friction block II of the guide assembly, the winding assembly is decelerated and the guide assembly is decelerated in a reversing way, the problems that the extrusion speed is low, the protective pipe between the extruding machine and the winding station is pulled out of cracks, the guide assembly cannot be conveyed or is disorderly reversed at the moment, and the defects that the upper layer is uniformly wound and distributed on the protective pipe of the next layer when the protective pipe is wound on the winding shaft cannot be realized are solved;

3. the end face cam is decelerated through the deceleration of the winding assembly, so that water pumped out of the water tank by the two piston cylinders II at the lower ends of the end face cam is reduced through the water inlet pipe III, the water entering the cooling water tank through the water outlet pipe III can be reduced, and the defect that quality problems are caused due to the fact that the protective pipe is cooled excessively because the circulating consumption of the cooling water is not adjusted adaptively is overcome;

4. two-layer plastic envelope membrane is sent into between two seal receptacle through setting up two sets of membrane subassemblies that send, and the heating circle circular telegram for two seal receptacle, makes it thermoplastically mould two-layer plastic envelope membrane to the packing of lapping pillar reduces quality problems such as friction scratch, damage that lead to because the transportation between the lapping pillar.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the working state of the present invention.

Fig. 3 and 4 are schematic structural diagrams of the packing assembly in different angles.

Fig. 5 is a schematic structural view of the seal seat of the present invention.

Fig. 6 and 7 are schematic views of different angles of the unmounted baling assembly according to the present invention.

Fig. 8 is a schematic structural view of the deceleration system of the present invention.

Fig. 9 is a schematic structural view of the push rod trigger assembly of the present invention.

Fig. 10 is a schematic structural view of a guide assembly according to the present invention.

Fig. 11 is a schematic structural view of the winding assembly of the present invention.

Wherein, 1-workbench, 2-cooling water tank, 3-water tank, 4-base station, 5-ejector trigger component, 6-guide component, 7-winding component, 8-speed reducing system, 9-water outlet pipe I, 10-support, 11-conveying roller, 12-ejector rod, 13-piston I, 14-piston cylinder I, 15-plunger rod, 17-water pipe, 18-water inlet pipe I, 19-plunger cylinder, 20-water inlet pipe II, 21-water outlet pipe II, 22-plunger, 23-friction wheel I, 24-friction wheel II, 25-base plate, 26-cross bar, 27-threaded rod, 28-servo motor, 29-friction block II, 30-slide block, 31-rotating shaft, 32-support and 33-support sheet, 34-a baffle plate, 35-a hydraulic rod, 36-a friction block I, 37-an end face cam, 38-a piston cylinder II, 39-a piston II, 40-a piston rod, 41-a water inlet pipe III, 42-a water outlet pipe III, 43-a packing assembly, 44-a lower bearing platform, 45-a bearing column, 46-an upper bearing platform, 47-a membrane feeding assembly, 48-a sealing seat, 49-a cylinder, 50-a heating ring, 51-a membrane roller, 52-a conveying roller assembly and 53-a blanking groove.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 11, a rolling baling equipment of car pillar extruding machine, includes

workstation

1, 1 upper portion of workstation is equipped with cooling trough 2 and its lower part is equipped with water tank 3, cooling trough 2 communicates water tank 3 through drain pipe 9, the one end of workstation 1 is equipped with base station 4, be equipped with ejector pin trigger assembly 5, guide component 6 and rolling component 7 along pillar axis direction in proper order on base station 4, still be equipped with speed reduction system 8 on the

base station

4, 4 one side of base station is equipped with the packing subassembly 43 with the packing of car pillar.

The ejector rod trigger assembly 5 comprises a support 10, two conveying rollers 11 with the same structure are rotatably connected to the support 10, an ejector rod 12 is mounted at the lower end of the support 10, the lower end of the ejector rod 12 penetrates through the base platform 4 and is connected with a first piston 13, the first piston 13 slides in a first piston cylinder 14, the upper portion and the lower portion of the first piston cylinder 14 are communicated through a water pipe 17, and a first water inlet pipe 18 is arranged between the first piston cylinder 14 and the water tank 3.

The speed reduction system 8 comprises a plunger cylinder 19 and two piston cylinders II 38 which are arranged in the base station 4, a water inlet pipe II 20 is arranged between the plunger cylinder 19 and the piston cylinder I14, a water outlet pipe II 21 is arranged between the plunger cylinder 19 and the cooling water tank 2, a plunger 22 is connected in the plunger cylinder 19 in a sliding mode, a plunger rod 15 is arranged on the plunger 22, and a friction wheel I23 and a friction wheel II 24 are arranged on the plunger rod 15;

and a second piston 39 is connected in the second piston cylinder 38 in a sliding manner, a piston rod 40 is arranged on the second piston 39, a third water inlet pipe 41 is arranged between the two second piston cylinders 38 and the water tank 3, and a third water outlet pipe 42 is arranged between the two second piston cylinders 38 and the cooling water tank 2.

The guide assembly 6 is including installing the base plate 25 on base station 4, be equipped with horizontal pole 26 and rotation connecting threaded rod 27 on the base plate 25, the servo motor 28 of installing on base plate 25 is connected to threaded rod 27 one end, the threaded rod 27 other end is equipped with two 29 of friction block, two 29 of friction block are installed in base station 4, threaded rod 27 and the 26 overcoat of horizontal pole have slider 30, it has the screw hole with 27 complex of threaded rod to open on the slider 30, be equipped with the gag lever post that two structures are the same on the slider 30.

The winding assembly 7 comprises a rotating shaft 31 installed on the base station 4, one end of the rotating shaft 31 is rotatably connected with the support 32, the other end of the rotating shaft is connected with the motor to drive the motor to rotate, a plurality of support pieces 33 with arc-shaped end faces are arranged on the support 32, the tail ends of the support pieces 33 are rotatably connected with the separation pieces 34, a hydraulic rod 35 is arranged on the inner side of each support piece 33, the front end of each hydraulic rod 35 is connected with the separation piece 34, a first friction block 36 and an end face cam 37 are further arranged on the rotating shaft 31, and the lower end of each end face cam 37 abuts against the top end of a piston rod 40 of two piston cylinders 38.

And the first drain pipe 9, the water pipe 17, the first water inlet pipe 18, the second water inlet pipe 20, the second drain pipe 21, the third water inlet pipe 41 and the third drain pipe 42 are all provided with one-way valves.

Packing subassembly 43 includes lower cushion cap 44, goes up cushion cap 46 and several installs in the support post 45 between the two, all be equipped with the film feeding subassembly 47 and the seal receptacle 48 of structural symmetry on lower cushion cap 44 and the last cushion cap 46, two sets of film feeding subassembly 47 send two-layer plastic envelope membrane into between two seal receptacles 48, wherein, the seal receptacle 48 of upper end passes through cylinder 49 and is connected with last cushion cap 46, and the seal receptacle 48 of lower extreme is installed on lower cushion cap 44, is the through-hole in the middle of the seal receptacle 48 of upper end, and the upper end is equipped with heating collar 50, heating collar 50 electric connection power, be equipped with the blanking groove 53 with the coaxial setting of seal receptacle 48 on the cushion cap 44 down.

The film feeding assembly 47 comprises a film roller 51 and a conveying roller assembly 52 which are mounted on the lower stage 44 or the upper stage 46, and one end of the plastic film of the film roller 51 passes through the conveying roller assembly 52 and is conveyed by the conveying roller assembly 52.

The lower ends of the first piston 13, the second piston 39 and the plunger 22 are respectively provided with a spring which is respectively connected with the inner bottom wall of the first piston cylinder 14, the second piston cylinder 38 and the plunger cylinder 19.

The working process and principle are as follows: the protective tube extruded by the extruder passes through the cooling water tank 2, then passes through the space between the two conveying rollers 11 of the ejector rod triggering assembly 5, then passes through the space between the two limiting rods on the sliding block 30 of the guide assembly 6, then is wound on the winding assembly 7, and after being cut by a worker, the coiled protective tube is placed in the packaging assembly 43 to be subjected to plastic packaging.

After a hydraulic rod 35 is started to enable a right angle to be formed between a blocking piece 34 and a supporting piece 33, a motor of a winding component 7 and a servo motor 28 of a guiding component 6 are started to enable a rotating shaft 31 and a threaded rod 27 to rotate, when stable production of an extruder meets the quality requirement of a protective pipe, the threaded rod 27 rotates to drive a sliding block 30 to move back and forth, and the rotating shaft 31 rotates, so that the protective pipe is uniformly wound on the supporting piece 33 in a lower-layer covering mode, at the moment, the rotating speed of the winding component 7 is stable, the rotating speed of an end face cam 37 is constant, water pumped out of a water tank 3 by two piston cylinders 39 at the lower end of the protective pipe is stable through a water inlet pipe three 41, the water entering a cooling water tank 2 through a water outlet pipe three 42 is stable, and the water amount in the cooling water tank 2 is stable;

after the winding is finished, a worker cuts off the protective tube by using a knife, then the hydraulic rod 35 is started, the angle between the blocking piece 34 and the supporting sheet 33 is adjusted, so that the whole-roll protective tube can be taken down from the supporting sheet 33, then the whole-roll protective tube is placed in the position of the corresponding plastic packaging film on the lower sealing seat 48, at the moment, the whole-roll protective tube is subjected to compression molding and sealing by gravity, the film roller 51 rotates, the film feeding component 47 is matched with a workshop driving component for use, the film feeding component 47 is driven by the driving component to feed the film, the feeding speed of the upper film feeding component 47 is lower than that of the lower film feeding component 47, the air cylinder 49 is started to drive the upper sealing seat 48 to press downwards, the power supply is started, the heating ring 50 is electrified, the upper plastic packaging film and the lower plastic packaging film are subjected to hot molding, and after the hot molding and packaging, the worker cuts the upper plastic packaging film and the lower plastic packaging film through the blanking groove 53 by using the knife;

when the extruder is unstable or the extrusion speed is slow due to material problems, and the pipe protecting extruder and the winding station are tensioned, the ejector rod trigger assembly 5 is additionally arranged between the cooling water tank 2 and the guide assembly 60, when the ejector rod 1 is pulled up by the tensioning force of the protective pipe, the piston I13 in the piston cylinder I14 rises, water on the upper part of the piston cylinder I14 (water is on the upper part of the piston cylinder I14 in an initial state, when the piston I13 rises, the lower part of the piston cylinder I14 sucks water from the water tank 13 through the water inlet pipe I18, when the ejector rod 1 descends, the piston I13 descends, and water is sucked from the lower part of the piston cylinder I14 to the upper part of the piston cylinder I14 through the water pipe 17) flows into the plunger cylinder 19 of the speed reducing system 8 through the water inlet pipe II 20 (the plunger cylinder 19 discharges water to the cooling water tank 2 through the water discharge pipe II 21, the flow rate of the water discharge pipe II is smaller than that of the water inlet pipe II 20), so that the plunger 22 moves upwards, and the friction wheel I23 and the friction wheel II 24 respectively contact the friction block I36, the friction block I, the winding assembly 7, A second friction block 29 of the guide assembly 6, so as to decelerate the winding assembly 7 and reverse and decelerate the guide assembly 6;

when the winding assembly 7 is decelerated, the end cam 37 thereof is decelerated, and therefore, the two piston cylinders 39 at the lower end thereof pump out the water tank 3 through the water inlet pipe three 41, so that the water introduced into the cooling water tank 2 through the water outlet pipe three 42 is reduced.

According to the invention, by arranging the cooling water tank 2, the ejector rod triggering assembly 5, the guide assembly 6, the winding assembly 7 and the packing assembly 43, the cooling and conveying of the protective pipe after the protective pipe is extruded from the extruder are realized, and the reversing, winding and packing during winding and winding of the protective pipe are realized;

by arranging the ejector rod trigger assembly 5, according to the fact that whether the ejector rod 1 is pulled up by the tensile force of the protective tube or not as a trigger condition, when the ejector rod 1 is pulled up and rises, water on the upper portion of the piston cylinder I14 flows into the plunger cylinder 19 of the speed reducing system 8 through the water inlet pipe II 20, the speed reducing system 8 starts to operate, the plunger 22 moves upwards, so that the friction wheel I23 and the friction wheel II 24 are respectively in contact with the friction block I36 of the winding assembly 7 and the friction block II 29 of the guide assembly 6, the winding assembly 7 is reduced in speed, the guide assembly 6 is reversed and reduced in speed, the defects that the extruding speed is low, the protective tube between the extruding machine and the winding station is pulled out of cracks, the guide assembly cannot be conveyed or is reversed and disordered, and the upper protective tube is uniformly wound and distributed on the protective tube on the next layer when the protective tube cannot be wound on the winding shaft are solved;

the end face cam 37 is decelerated through the deceleration of the winding component 7, so that the water pumped out of the water tank 3 by the two piston cylinders 39 at the lower ends of the end face cam is reduced through the water inlet pipe III 41, the water entering the cooling water tank 2 through the water outlet pipe III 42 can be reduced, and the defect that the quality problem is caused due to the fact that the protective pipe is cooled excessively because the circulating consumption of the cooling water is not adjusted adaptively is overcome;

two-layer plastic envelope membrane is sent into between two seal receptacle 48 through setting up two sets of membrane subassemblies 47 that send, and the heating circle 50 circular telegram for two seal receptacle 48 makes it thermoplastically mould two-layer plastic envelope membrane to will become the package of lap pillar, reduce quality problems such as the friction scratch that leads to owing to the transportation between the lap pillar, damage.

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of or equivalence to the invention are intended to be embraced therein.

Claims

1. The utility model provides a rolling baling equipment of car pillar extruding machine, a serial communication port, includes workstation (1), workstation (1) upper portion is equipped with cooling trough (2) and its lower part is equipped with water tank (3), cooling trough (2) are through drain pipe (9) intercommunication water tank (3), the one end of workstation (1) is equipped with base station (4), be equipped with ejector pin trigger component (5), guide component (6) and rolling component (7) in proper order along pillar axis direction on base station (4), still be equipped with speed reduction system (8) on base station (4), base station (4) one side is equipped with packing subassembly (43) with the packing of car pillar.

2. The winding and packaging device of the automobile protective pipe extruder as claimed in claim 1, wherein: the ejector rod trigger assembly (5) comprises a support (10), two conveying rollers (11) with the same structure are rotatably connected to the support (10), an ejector rod (12) is installed at the lower end of the support (10), the lower end of the ejector rod (12) penetrates through the base platform (4) and is connected with a first piston (13), the first piston (13) slides in a first piston cylinder (14), the upper portion and the lower portion of the first piston cylinder (14) are communicated through a water pipe (17), and a first water inlet pipe (18) is arranged between the first piston cylinder (14) and the water tank (3).

3. The winding and packaging device of the automobile protective pipe extruder as claimed in claim 1, wherein: the speed reducing system (8) comprises a plunger cylinder (19) and two piston cylinders II (38) which are arranged in the base station (4), a water inlet pipe II (20) is arranged between the plunger cylinder (19) and the piston cylinder I (14), a water outlet pipe II (21) is arranged between the plunger cylinder (19) and the cooling water tank (2), a plunger (22) is connected in the plunger cylinder (19) in a sliding mode, a plunger rod (15) is arranged on the plunger (22), and a friction wheel I (23) and a friction wheel II (24) are arranged on the plunger rod (15);

and a second piston (39) is connected in the second piston cylinder (38) in a sliding manner, a piston rod (40) is arranged on the second piston (39), a third water inlet pipe (41) is arranged between the two second piston cylinders (38) and the water tank (3), and a third water outlet pipe (42) is arranged between the two second piston cylinders (38) and the cooling water tank (2).

4. The winding and packaging device of the automobile protective pipe extruder as claimed in claim 1, wherein: guide assembly (6) is including installing base plate (25) on base station (4), be equipped with horizontal pole (26) and rotation connecting threaded rod (27) on base plate (25), servo motor (28) of installing on base plate (25) are connected to threaded rod (27) one end, threaded rod (27) other end is equipped with clutch block two (29), install in base station (4) clutch block two (29), threaded rod (27) and horizontal pole (26) overcoat have slider (30), it has with threaded rod (27) complex screw hole to open on slider (30), be equipped with two gag lever posts that the structure is the same on slider (30).

5. The winding and packaging device of the automobile protective pipe extruder as claimed in claim 3, wherein: winding subassembly (7) is including installing pivot (31) on base station (4), pivot (31) one end is rotated and is connected support (32), and the other end is connected the motor and is rotated in order to drive it, be equipped with several terminal surface on support (32) and be curved backing sheet (33), backing sheet (33) end is rotated and is connected separation blade (34), backing sheet (33) inboard is equipped with hydraulic stem (35), hydraulic stem (35) front end is connected with separation blade (34), still be equipped with friction block (36) and end cam (37) on pivot (31), piston rod (40) top of two piston cylinder two (38) of end cam (37) lower extreme butt.

6. The winding and packaging device of the automobile protective pipe extruder as claimed in any one of claims 1 to 3, wherein: and the first drainage pipe (9), the water pipe (17), the first inlet pipe (18), the second inlet pipe (20), the second drainage pipe (21), the third inlet pipe (41) and the third drainage pipe (42) are all provided with one-way valves.

7. The winding and packaging device of the automobile protective pipe extruder as claimed in claim 1, wherein: packing subassembly (43) are including lower cushion cap (44), go up cushion cap (46) and several install in bearing post (45) between the two, all be equipped with film feeding subassembly (47) and seal receptacle (48) of structural symmetry on lower cushion cap (44) and last cushion cap (46), two sets of film feeding subassembly (47) send two-layer plastic envelope membrane into between two seal receptacles (48), wherein, seal receptacle (48) of upper end are connected with last cushion cap (46) through cylinder (49), and seal receptacle (48) of lower extreme are installed under on cushion cap (44), are the through-hole in the middle of seal receptacle (48) of upper end, and the upper end is equipped with heating collar (50), heating collar (50) electric connection power, be equipped with blanking groove (53) with seal receptacle (48) coaxial setting down on cushion cap (44).

8. The winding and packaging device of the automobile protective pipe extruder as claimed in claim 7, wherein: the film feeding assembly (47) comprises a film roller (51) and a conveying roller assembly (52) which are arranged on a lower bearing platform (44) or an upper bearing platform (46), and one end of the plastic film of the film roller (51) passes through the conveying roller assembly (52) and conveys the plastic film through the conveying roller assembly (52).