CN115179470A - Automobile sealing strip surface shaping treatment equipment - Google Patents

Abstract

The invention discloses surface shaping treatment equipment for an automobile sealing strip, which comprises a water tank, wherein a water supplementing pipe is arranged on the side wall of the water tank, two supports are symmetrically arranged on the upper surface of the water tank, a vulcanization pipe and a drying cooler are sequentially arranged on the two supports from bottom to top, an air inlet pipe is inserted in the center of the bottom of the vulcanization pipe, two exhaust pipes are symmetrically arranged on the upper side wall of the vulcanization pipe, an air injection pipe is fixedly arranged in the center of the inner wall of the vulcanization pipe, and a mixing cavity is arranged in the center of the drying cooler. According to the invention, the uniform degree of the vulcanization temperature is increased through the dead-corner-free vulcanization of high-temperature steam, the vulcanization effect of the sealing strip is improved, the air flow drying of the sealing strip is realized by heating air with the high-temperature steam, and the cooling of the sealing strip is realized through cooling air, so that the structure is more integrated, the reliability is high, the use is simple and easy, the occupied space is small, the water circulation utilization rate can be increased, and the energy-saving and environment-friendly effects are achieved.

Description

Automobile sealing strip surface shaping treatment equipment

Technical Field

The invention relates to the field of rubber sealing strip production, in particular to surface shaping treatment equipment for an automobile sealing strip.

Background

Present sealing strip vulcanization typical design equipment is usually as in application number CN201910357651.9 "an automobile sealing strip surface sizing treatment equipment", it adopts gas flame to spray the mode to vulcanize, vulcanize through flame injection heating sealing strip surface promptly, but flame injection's outer flame, inner flame and flame core temperature differ great, temperature control is difficult, and the sealing strip can't bear great tension straightening owing to not vulcanize then, it is inhomogeneous to make sealing strip surface heating, then lead to the excessive or vulcanization not enough condition easily, it is relatively poor promptly to vulcanize the effect, and the complicated dispersion of structure, need the cooperation to remove between a plurality of mechanisms, the reliability is lower and the operation is difficult.

Disclosure of Invention

The invention aims to solve the defects that in the prior art, the vulcanization effect is poor due to the fact that the temperature of flame heating vulcanization treatment is difficult to control, the structure is complex, the control is complex, operation is difficult and the reliability is low, and provides the surface shaping treatment equipment for the automobile sealing strip.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides an automobile sealing strip surface shaping treatment facility, includes the water tank, install the moisturizing pipe on the lateral wall of water tank, two supports are installed to the upper surface symmetry of water tank, two from up installing vulcanization pipe and dry cooler in proper order down on the support, the bottom of vulcanization pipe is inserted between two parties and is equipped with the intake pipe, two blast pipes are installed to the last lateral wall symmetry of vulcanization pipe, fixed mounting has jet-propelled pipe on two parties on the inner wall of vulcanization pipe, be equipped with the hybrid chamber between two parties in the dry cooler, hot runner and the cold runner that runs through the dry cooler end wall are seted up respectively to the both sides of hybrid chamber, annular heating groove has been seted up on the lateral wall of hot runner, the notch department seal installation in annular heating groove has the heating pipe, annular cooling groove has been seted up on the lateral wall of cold runner, two the one end that the vulcanization pipe was kept away from to the blast pipe is all inserted and is established bottom and intercommunication annular heating groove at dry cooler.

Preferably, the gas ejector comprises a pipe body fixed on the inner wall of the vulcanizing pipe, an annular steam cavity is formed in the side wall of the pipe body, a plurality of nozzles are evenly inserted in the annular shape on the inner wall of the pipe body, each nozzle is communicated with the annular steam cavity, and the upper end of the gas inlet pipe is communicated with the annular steam cavity.

Preferably, the upper surface fixed mounting of water tank has high-pressure steam engine, install drinking-water pipe and steam pipe on the high-pressure steam engine respectively, the one end that high-pressure steam engine was kept away from to the drinking-water pipe is inserted and is established on the water tank, the one end and the intake pipe fixed connection of high-pressure steam engine are kept away from to the steam pipe.

Preferably, the upper surface of the water tank is provided with a circulating liquid cooling machine, the circulating liquid cooling machine is respectively provided with a liquid discharge pipe and a liquid suction pipe, one end of the liquid discharge pipe, which is far away from the circulating liquid cooling machine, is inserted into the bottom of the drying cooler and is communicated with the annular cooling groove, and one end of the liquid suction pipe, which is far away from the circulating liquid cooling machine, is inserted into the top of the drying cooler and is communicated with the annular cooling groove.

Preferably, the last surface mounting of water tank has the circulating pump machine, the malleation end of circulating pump machine is inserted and is established on the water tank, the negative pressure end of circulating pump machine is installed the negative pressure and is responsible for, the negative pressure is responsible for and is kept away from the one end of circulating pump machine and insert and establish the top and the intercommunication hybrid chamber at dry cooler, install the steam recovery pipe on being responsible for, the steam recovery pipe is kept away from the one end that the negative pressure was responsible for and is inserted and establish the roof and the intercommunication annular heating tank at dry cooler.

Preferably, the last surface mounting of water tank has the assembly plate, rotate on the assembly plate and install the guiding axle, install the leading wheel on the guiding axle, the upper and lower horizontal tangent line of leading wheel coincides with the axis of vulcanize pipe and dry cooler respectively.

Preferably, a sealing cover is installed at one end, close to the assembly plate, of the vulcanization pipe and one end, close to the assembly plate, of the drying cooler together, the guide shaft is rotatably inserted into the sealing cover, the guide wheel is located in the sealing cover, the side wall of the sealing cover is fixed on the assembly plate, and a feeding guide pipe is installed at one end, far away from the sealing cover, of the vulcanization pipe.

Preferably, the sealed cowling is including fixed cover and activity cover, fixed cover is fixed on the assembly panel, fixed cover is close to and installs a plurality of sealing screw on the lateral wall of activity cover, the activity cover runs through on being close to the lateral wall of fixed cover and has seted up a plurality of sealed holes, and is a plurality of sealing screw inserts respectively and establishes in a plurality of sealed holes, every all install lock nut on the sealing screw, fixed cover is equallyd divide with one side of activity cover and is do not installed half pipe of direction and half pipe of direction down, two go up half pipe of direction and two down the half pipe of direction keep away from fixed cover and activity cover one end respectively with vulcanize pipe and dry cooler sealing connection, every go up and all seted up a plurality of gas pockets on the half pipe of direction.

The invention has the beneficial effects that: through the even degree that high temperature steam does not have the dead angle vulcanization and increases vulcanization temperature, promote the sealing strip vulcanization effect, and utilize high temperature steam heating air to realize the air current drying sealing strip, and realize the air current cooling sealing strip through cooling air for the structure is more integrated, and the reliability is high, simple easy-to-use, occupation space is little, and can increase the cyclic utilization rate of water, and is more energy-concerving and environment-protective.

Drawings

FIG. 1 is a schematic structural view of an automobile sealing strip surface shaping treatment device provided by the invention;

FIG. 2 is an enlarged view of a part of the structure of an air injection pipe of the surface shaping processing equipment for the automobile sealing strip, which is provided by the invention;

FIG. 3 is a schematic structural diagram according to a second embodiment;

FIG. 4 is an enlarged view of a portion of a guide wheel according to the second embodiment;

FIG. 5 is an enlarged view of a portion of the seal cap according to the second embodiment;

fig. 6 is a partially enlarged view of the stationary cover and the movable cover of the second embodiment.

In the figure: 1 water tank, 11 water replenishing pipe, 12 supports, 2 high-pressure steam engine, 21 water pumping pipe, 22 steam pipe, 3 vulcanizing pipe, 31 air inlet pipe, 32 air outlet pipe, 33 feeding guide pipe, 4 drying cooler, 41 mixing cavity, 42 hot runner, 43 cold runner, 44 annular heating groove, 45 annular refrigerating groove, 46 heating pipe, 47 cooling pipe, 5 circulating liquid cooler, 51 liquid outlet pipe, 52 liquid pumping pipe, 6 circulating pump, 61 negative pressure main pipe, 62 steam recovery pipe, 7 gas jet pipe, 71 pipe body, 72 annular steam cavity, 73 nozzle, 8 assembling plate, 81 guide shaft, 82 guide wheel, 9 sealing cover, 91 fixing cover, 92 movable cover, 93 upper guide half pipe, 94 lower guide half pipe, 95 sealing screw rod, 96 sealing hole, 97 locking nut and 98 air hole.

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.

The first embodiment is as follows:

referring to fig. 1-2, an automobile sealing strip surface shaping processing device includes a water tank 1, a water replenishing pipe 11 is installed on a side wall of the water tank 1, two supports 12 are symmetrically installed on an upper surface of the water tank 1, a vulcanization pipe 3 and a drying cooler 4 are sequentially installed on the two supports 12 from bottom to top, an air inlet pipe 31 is inserted in the middle of the bottom of the vulcanization pipe 3, two exhaust pipes 32 are symmetrically installed on an upper side wall of the vulcanization pipe 3, an air jet pipe 7 is fixedly installed in the middle of the inner wall of the vulcanization pipe 3, a mixing chamber 41 is arranged in the middle of the drying cooler 4, a hot runner 42 and a cold runner 43 penetrating through an end wall of the drying cooler 4 are respectively arranged on two sides of the mixing chamber 41, an annular heating groove 44 is arranged on a side wall of the hot runner 42, a heating pipe 46 is hermetically installed at a notch of the annular heating groove 44, an annular cooling groove 45 is arranged on a side wall of the cold runner 43, a cooling pipe 47 is hermetically installed at a notch of the annular cooling groove 45, and one end of each exhaust pipe 32 far away from the vulcanization pipe 3 is inserted at the bottom of the drying cooler 4 and communicated with the annular heating groove 44;

the upper surface mounting of water tank 1 has circulation pump machine 6, and the malleation end of circulation pump machine 6 is inserted and is established on water tank 1, and the negative pressure end of circulation pump machine 6 is installed and is responsible for 61, and the negative pressure is responsible for 61 and is kept away from the one end of circulation pump machine 6 and insert and establish the top of drying cooler 4 and communicate hybrid chamber 41, is responsible for 61 and is installed steam recovery pipe 62 on the negative pressure, and the one end that steam recovery pipe 62 kept away from the negative pressure and is responsible for 61 is inserted and establish the roof of drying cooler 4 and communicate annular heating groove 44.

The air inlet pipe 31 can eject high-temperature steam from the air injection pipe 7 into the vulcanizing pipe 3, the sealing strip can be vulcanized by the high-temperature steam to be shaped after penetrating through the vulcanizing pipe 3, the temperature is more uniform through the high-temperature steam vulcanization, and the vulcanization effect is better;

steam in the vulcanization pipe 3 is discharged into an annular heating groove 44 in the drying cooler 4 through the exhaust pipe 32, so that the annular heating groove 44 is filled with high-temperature steam, the heating pipe 46 can be heated, residual water stain on the sealing strip after vulcanization can be evaporated and dried, low-temperature cooling liquid is filled in an annular cooling groove 45, the temperature of the cooling pipe 47 is reduced, the hotter sealing strip after drying can be rapidly cooled, and the functions of rapid drying and cooling of the sealing strip are realized;

the circulating pump machine 6 generates negative pressure in the mixing cavity 41 through the negative pressure main pipe 61, so that external air enters the mixing cavity 41 through the hot runner 42 and the cold runner 43, the air in the hot runner 42 can be heated by the heating pipe 46 to form hot air flowing on the surface of the sealing strip, namely water stain on the sealing strip can be quickly evaporated and taken away, the drying speed is increased, the length of a drying area is shortened, the air in the cold runner 43 can be refrigerated by the cooling pipe 47 to form cold air flowing on the surface of the sealing strip, namely the temperature of the sealing strip can be quickly reduced, the length of the cooling area is shortened, namely the drying and cooling lengths can be integrally shortened to reduce the occupied space of equipment;

the negative pressure main pipe 61 generates negative pressure in the steam recovery pipe 62, so that steam can be recovered and discharged into the negative pressure main pipe 61, the negative pressure main pipe 61 absorbs cold and hot mixed air from the mixing cavity 41, and the mixed air sucked in the negative pressure main pipe 61 is far lower than the steam temperature, so that steam condensate is condensed into warm water and is discharged into the water tank 1 by the circulating pump 6 for reuse, thereby reducing water consumption, and reducing the energy consumption for heating the high-pressure steam engine 2, namely reducing energy consumption, and being more energy-saving and environment-friendly.

The gas injection pipe 7 comprises a pipe body 71 fixed on the inner wall of the vulcanizing pipe 3, an annular steam cavity 72 is formed in the side wall of the pipe body 71, a plurality of nozzles 73 are uniformly inserted in the inner wall of the pipe body 71 in an annular mode, each nozzle 73 is communicated with the annular steam cavity 72, and the upper end of the gas inlet pipe 31 is communicated with the annular steam cavity 72.

High-temperature steam in the intake pipe 31 gets into in the annular steam chamber 72 to spout from a plurality of nozzles 73, make high-temperature steam can not have the dead angle and carry out high-temperature steam vulcanization to the sealing strip through in the jet-propelled pipe 7 and handle, vulcanize the effect better and more reliable, can not produce the damage to the sealing strip surface.

The upper surface of the water tank 1 is fixedly provided with a high-pressure steam engine 2, the high-pressure steam engine 2 is provided with a water pumping pipe 21 and a steam pipe 22 respectively, one end of the water pumping pipe 21, which is far away from the high-pressure steam engine 2, is inserted into the water tank 1, and one end of the steam pipe 22, which is far away from the high-pressure steam engine 2, is fixedly connected with the air inlet pipe 31.

High pressure steam engine 2 can take out the water in water tank 1 and produce high-temperature steam through drinking-water pipe 21, and high pressure steam engine 2 makes high-temperature steam temperature be higher than standard pressure steam temperature through increasing internal pressure to in discharging intake pipe 31 through steam pipe 22, the quick vulcanization sealing strip of being convenient for, and vulcanization temperature is more even, and steam vulcanization handles the sealing strip performance more excellent.

The upper surface of the water tank 1 is provided with a circulating liquid cooler 5, the circulating liquid cooler 5 is provided with a liquid discharge pipe 51 and a liquid suction pipe 52 respectively, one end of the liquid discharge pipe 51 far away from the circulating liquid cooler 5 is inserted at the bottom of the drying cooler 4 and communicated with the annular refrigerating groove 45, and one end of the liquid suction pipe 52 far away from the circulating liquid cooler 5 is inserted at the top of the drying cooler 4 and communicated with the annular refrigerating groove 45.

The circulating liquid cooler 5 draws the cooling liquid in the annular cooling groove 45 through the liquid suction pipe 52 for cooling, and then discharges the low-temperature cooling liquid into the annular cooling groove 45 through the liquid discharge pipe 51, so that the annular cooling groove 45 always keeps a low temperature, and air in the cold runner 43 can quickly cool the sealing strip.

The last surface mounting of water tank 1 has assembly plate 8, it installs guiding axle 81 to rotate on the assembly plate 8, install leading wheel 82 on the guiding axle 81, the upper and lower horizontal tangent line of leading wheel 82 coincides with the axis of vulcanising pipe 3 and dry cooler 4 respectively, the sealing strip can get into and install on leading wheel 82 through vulcanising pipe 3, and follow hot runner 42 and get into and wear out from cold runner 43, then can realize vulcanizing, drying and cooling integration, and high integration, occupation space is littleer.

In the embodiment, a traction rope penetrates from a cold runner 43 and penetrates out of a hot runner 42, then the traction rope is wound on a guide wheel 82 and penetrates into one end of a vulcanization pipe 3 close to the guide wheel 82 and penetrates out of the other end of the vulcanization pipe 3, a sealing strip extruded by an extruder is connected with the traction rope, then the other end of the traction rope is connected with a winding roller, the winding roller pulls the traction rope to move, so that the sealing strip enters the vulcanization pipe 3, a high-pressure steam engine 2 pumps water in a water tank 1 into a water tank through a water pumping pipe 21 to generate high-temperature steam and discharges the high-temperature steam into an air inlet pipe 31 through a steam pipe 22, the air inlet pipe 31 discharges the steam into an annular steam cavity 72 and sprays the high-temperature steam into an air injection pipe 7 through a plurality of nozzles 73 to realize high-temperature steam vulcanization, and the vulcanized sealing strip is pulled out of the vulcanization pipe 3 and enters the hot runner 42 along the guide wheel 82;

when the circulating pump machine 6 works, the negative pressure main pipe 61 generates negative pressure in the mixing cavity 41 and generates negative pressure in the annular heating groove 44 through the steam recovery pipe 62, so that the negative pressure main pipe 61 sucks external air into the mixing cavity 41 through the hot runner 42 and the cold runner 43, the steam recovery pipe 62 generates negative pressure in the annular heating groove 44, and sucks steam in the vulcanization pipe 3 through the exhaust pipe 32, so that the heating pipe 46 is continuously heated, air is heated when passing through the hot runner 42 to form hot air to flow over the surface of the sealing strip, so that moisture on the surface of the sealing strip can be quickly evaporated and flows into the mixing cavity 41, and the negative pressure main pipe 61 absorbs the moisture, thereby realizing the function of quick drying;

the circulating liquid cooler 5 circularly cools the cooling liquid in the annular cooling groove 45 through the liquid discharge pipe 51 and the liquid suction pipe 52, the air is cooled to form cold air flowing through the surface of the sealing strip when passing through the cold runner 43, the sealing strip can be rapidly cooled, the cold air and the hot air in the cold runner 43 and the hot runner 42 are mixed to form medium-temperature air, the negative pressure main pipe 61 sucks the medium-temperature air and mixes the medium-temperature air with high-temperature steam in the steam recovery pipe 62, heat release and condensation of the high-temperature steam are enabled to form warm water to be discharged into the water tank 1, water recycling can be achieved, and the power consumption of the high-pressure steam engine 2 can be reduced.

Example two:

referring to fig. 3-6, a surface shaping processing device for a sealing strip of an automobile, which is substantially the same as the first embodiment except that:

a sealing cover 9 is installed at one end of the vulcanization pipe 3 and one end of the drying cooler 4 close to the assembling plate 8 together, a guide shaft 81 is rotatably inserted on the sealing cover 9, a guide wheel 82 is positioned in the sealing cover 9, the side wall of the sealing cover 9 is fixed on the assembling plate 8, and a feeding guide pipe 33 is installed at one end of the vulcanization pipe 3 far away from the sealing cover 9;

the sealed cowling 9 includes fixed cowling 91 and movable cowling 92, fixed cowling 91 is fixed on the assembly plate 8, install a plurality of sealing screw 95 on the fixed cowling 91 is close to the lateral wall of movable cowling 92, it has seted up a plurality of sealed holes 96 to run through on the lateral wall that the movable cowling 92 is close to fixed cowling 91, a plurality of sealing screw 95 are inserted respectively and are established in a plurality of sealed holes 96, all install lock nut 97 on every sealing screw 95, do not install the half pipe 93 of direction and lead half pipe 94 down on one side of fixed cowling 91 and movable cowling 92, two are gone up the half pipe 93 of direction and two are led half pipe 94 down and keep away from the one end of fixed cowling 91 and movable cowling 92 respectively with sulphide tube 3 and dry cooler 4 sealing connection, all seted up a plurality of gas pockets 98 on every is gone up the half pipe 93 of direction.

The two upper guide half-pipes 93 can be connected with one end of the drying cooler 4, so that the hot runner 42 can suck external air through the plurality of air holes 98, the two lower guide half-pipes 94 can be connected with one end of the vulcanization pipe 3, and the other end of the vulcanization pipe 3 is protected by the feeding guide pipe 33, thereby avoiding steam from overflowing and scattering, increasing the recovery amount of steam, and further reducing the water consumption;

the movable cover 92 can be movably opened by detaching the locking nut 97, so that the movable cover 92 can be detached from the fixed cover 91, that is, the sealing strip or the traction strip is conveniently fixed on the guide wheel 82, the movable cover 92 is assembled on the fixed cover 91, the locking nut 97 is screwed down, the movable cover 92 and the fixed cover 91 are sealed, and the sealing strip is conveniently assembled and disassembled.

In this embodiment, pull down lock nut 97 and pull activity cover 92 for activity cover 92 and fixed cover 91 separation, then can install haulage rope or sealing strip on leading wheel 82, then close activity cover 92 and screw up lock nut 97, make the both ends of vulcanising pipe 3 all with outside not direct intercommunication, then can reduce the steam volume of spilling over, increase the cyclic utilization of water.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (8)

1. A surface shaping treatment device for an automobile sealing strip comprises a water tank (1) and is characterized in that, a water replenishing pipe (11) is installed on the side wall of the water tank (1), two brackets (12) are symmetrically installed on the upper surface of the water tank (1), a vulcanizing pipe (3) and a drying cooler (4) are sequentially installed on the two brackets (12) from bottom to top, an air inlet pipe (31) is inserted in the middle of the bottom of the vulcanizing pipe (3), two exhaust pipes (32) are symmetrically arranged on the upper side wall of the vulcanizing pipe (3), an air injection pipe (7) is fixedly arranged in the middle of the inner wall of the vulcanizing pipe (3), a mixing cavity (41) is arranged in the middle of the drying cooler (4), a hot runner (42) and a cold runner (43) which penetrate through the end wall of the drying cooler (4) are respectively arranged on the two sides of the mixing cavity (41), an annular heating groove (44) is arranged on the side wall of the hot runner (42), a heating pipe (46) is hermetically arranged at the notch of the annular heating groove (44), an annular refrigerating groove (45) is arranged on the side wall of the cold runner (43), the notch department seal installation in annular refrigeration groove (45) has cooling tube (47), two the one end that vulcanizes pipe (3) was kept away from in blast pipe (32) is all inserted and is established the bottom of drying cooler (4) and communicate annular heating groove (44).

2. The automobile sealing strip surface shaping treatment equipment according to claim 1, wherein the air injection pipe (7) comprises a pipe body (71) fixed on the inner wall of the vulcanization pipe (3), an annular steam cavity (72) is formed in the side wall of the pipe body (71), a plurality of nozzles (73) are annularly and uniformly inserted in the inner wall of the pipe body (71), each nozzle (73) is communicated with the annular steam cavity (72), and the upper end of the air inlet pipe (31) is communicated with the annular steam cavity (72).

3. The automobile sealing strip surface sizing treatment equipment according to claim 1, wherein a high-pressure steam engine (2) is fixedly mounted on the upper surface of the water tank (1), a water pumping pipe (21) and a steam pipe (22) are respectively mounted on the high-pressure steam engine (2), one end, away from the high-pressure steam engine (2), of the water pumping pipe (21) is inserted into the water tank (1), and one end, away from the high-pressure steam engine (2), of the steam pipe (22) is fixedly connected with an air inlet pipe (31).

4. The automobile sealing strip surface shaping processing device according to claim 1, wherein a circulating liquid cooler (5) is mounted on the upper surface of the water tank (1), a liquid discharge pipe (51) and a liquid suction pipe (52) are respectively mounted on the circulating liquid cooler (5), one end, far away from the circulating liquid cooler (5), of the liquid discharge pipe (51) is inserted into the bottom of the drying cooler (4) and communicated with the annular cooling groove (45), and one end, far away from the circulating liquid cooler (5), of the liquid suction pipe (52) is inserted into the top of the drying cooler (4) and communicated with the annular cooling groove (45).

5. The automobile sealing strip surface shaping processing equipment as claimed in claim 1, wherein a circulating pump machine (6) is installed on the upper surface of the water tank (1), a positive pressure end of the circulating pump machine (6) is inserted into the water tank (1), a negative pressure main pipe (61) is installed at a negative pressure end of the circulating pump machine (6), one end, far away from the circulating pump machine (6), of the negative pressure main pipe (61) is inserted into the top of the drying cooler (4) and communicated with the mixing cavity (41), a steam recovery pipe (62) is installed on the negative pressure main pipe (61), one end, far away from the negative pressure main pipe (61), of the steam recovery pipe (62) is inserted into the top wall of the drying cooler (4) and communicated with the annular heating groove (44).

6. The automobile sealing strip surface shaping processing equipment is characterized in that an assembly plate (8) is mounted on the upper surface of the water tank (1), a guide shaft (81) is rotatably mounted on the assembly plate (8), a guide wheel (82) is mounted on the guide shaft (81), and the upper horizontal tangent line and the lower horizontal tangent line of the guide wheel (82) are respectively coincided with the axes of the vulcanization pipe (3) and the drying cooler (4).

7. The automobile sealing strip surface shaping processing equipment as claimed in claim 6, wherein a sealing cover (9) is installed together at one end of the vulcanization pipe (3) and the drying cooler (4) close to the assembly plate (8), the guide shaft (81) is rotatably inserted on the sealing cover (9), the guide wheel (82) is located in the sealing cover (9), the side wall of the sealing cover (9) is fixed on the assembly plate (8), and a feeding guide pipe (33) is installed at one end of the vulcanization pipe (3) far away from the sealing cover (9).

8. The automobile sealing strip surface shaping processing equipment as claimed in claim 7, wherein the sealing cover (9) comprises a fixed cover (91) and a movable cover (92), the fixed cover (91) is fixed on the assembly plate (8), a plurality of sealing screws (95) are installed on the side wall of the fixed cover (91) close to the movable cover (92), a plurality of sealing holes (96) are formed in the side wall of the movable cover (91) close to the fixed cover (92) in a penetrating manner, the sealing screws (95) are respectively inserted into the sealing holes (96), each sealing screw (95) is provided with a locking nut (97), one side of the fixed cover (91) and one side of the movable cover (92) are respectively provided with an upper guiding half pipe (93) and a lower guiding half pipe (94), two ends of the upper guiding half pipe (93) and the two lower guiding half pipes (94) far away from the fixed cover (91) and the movable cover (92) are respectively connected with the vulcanization pipe (3) and the dryer (4) in a sealing manner, and each upper guiding half pipe (93) is provided with a plurality of air holes (98).

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