CN209797175U - bellows seal wind - Google Patents

Abstract

The utility model discloses a bellows seal wind, include: an operation table; the long pipe storage mechanism is arranged on one side of the operating platform; the pressure head clamp assembly is arranged on the other side of the operating platform; a tension bellows assembly disposed between the long tube storage mechanism and the indenter clamp assembly; the supporting plate is arranged on the operating table in a sliding mode, and a sealing belt is arranged on the top of the supporting plate; a first driving mechanism provided at a lower portion of the support plate; the cylindrical gear is arranged on one side of the first driving mechanism and can be driven by the first driving mechanism to rotate; the V-shaped pressing sheet is fixed on the inner wall of the cylindrical gear; the sealing belt covers the opening of the gear, the support plate is moved to enable the V-shaped pressing sheet to be sequentially contacted with the sealing belt and the inner pipe, and the inner pipe is wound along with the rotation of the V-shaped pressing sheet. The device realizes the fixed-length winding of the corrugated pipe and has high winding precision.

Description

bellows seal wind

Technical Field

The invention relates to a corrugated pipe sealing and winding device, and belongs to the field of mechanical production and manufacturing.

Background

at present, the urea corrugated pipe is widely applied in the field of SCR in the automobile industry, and meanwhile, customers have different using requirements (such as requirements on length precision, winding position, sealing and the like) on the urea corrugated pipe, and usually use a mechanical method or manual winding and sealing.

typically, these wrap sealing methods result in imperfect wrapping, or when wrapped, positional misalignment. Manual winding can also result in difficulties for the user to ergonomically fit. In particular, users with relatively small hand sizes or relatively low hand or wrist strength have difficulty in completing wraps. When the existing sealing equipment is used for different corrugated pipes, the same winding procedure is adopted, so that the winding precision of the adhesive tape is uncontrollable, the winding efficiency is low, and the quality is unstable.

Disclosure of Invention

the invention designs and develops a corrugated pipe sealing and winding device, which moves and positions a long pipe by stretching a corrugated pipe assembly and a pressure head clamp assembly, and drives a V-shaped pressing sheet to rotate by a first driving mechanism, so that the fixed-length winding of the corrugated pipe is realized, the winding precision is high, and the sealing effect is good.

another object of the invention is: the sealing belt is wound by the winding pulley, so that the sealing belt is automatically peeled.

The technical scheme provided by the invention is as follows:

a bellows seal winding device comprising:

An operation table;

The long pipe storage mechanism is arranged on one side of the operating platform and can support the corrugated pipe to be wound;

The pressure head clamp assembly is arranged on the other side of the operating platform and is connected with the corrugated pipe inner pipe and used for positioning the corrugated pipe inner pipe;

The stretching corrugated pipe assembly is arranged between the long pipe storage mechanism and the pressure head clamp assembly and can position and move the outer pipe of the corrugated pipe;

The supporting plate is slidably arranged on the operating platform, one end of the supporting plate is close to the corrugated pipe, and the top of the supporting plate is provided with a sealing belt;

a first driving mechanism provided at a lower portion of the support plate;

the cylindrical gear is arranged on one side of the first driving mechanism and can be driven by the first driving mechanism to rotate, and the cylindrical gear is provided with a gear opening;

The V-shaped pressing sheet is fixed on the inner wall of the cylindrical gear, and the opening direction of the V-shaped pressing sheet faces the opening of the gear;

The sealing belt covers the opening of the gear, the support plate is moved to enable the V-shaped pressing sheet to be sequentially contacted with the sealing belt and the inner pipe, and the inner pipe is wound along with the rotation of the V-shaped pressing sheet.

Preferably, the first drive mechanism includes:

a first drive motor;

The first driving wheel is connected with the power output end of the first driving motor after penetrating through the supporting plate;

A first conveyor belt;

a second drive wheel which passes through the first conveyor belt and the first drive wheel;

and the first transmission gear is coaxially arranged with the second driving wheel and rotates coaxially with the second driving wheel.

and the two second transmission gears are oppositely arranged between the first transmission gear and the cylindrical gear, are respectively meshed with the first transmission gear and the cylindrical gear, and simultaneously drive the two second transmission gears to rotate through the first transmission gear so as to drive the cylindrical gear to rotate.

preferably, the gear box further comprises a sealing belt assembly which is fixed at one end of the supporting plate and is positioned above the cylindrical gear.

Preferably, the apparatus further comprises a second driving mechanism disposed on the support plate and above the first driving mechanism, including:

A second drive motor;

The third driving wheel is connected with the power output end of the second driving mechanism after penetrating through the supporting plate;

A fourth driving wheel provided on the support plate;

A fifth drive wheel disposed on said sealing belt assembly;

and the second conveyor belt is sequentially connected with the third driving wheel, the fourth driving wheel and the fifth driving wheel, so that the third driving wheel, the fourth driving wheel and the fifth driving wheel synchronously rotate.

Preferably, the apparatus further comprises a third driving mechanism disposed above the second driving mechanism, including:

a sixth driving wheel provided on one side of the fourth driving wheel, in contact therewith, and rotatable by the fourth driving wheel;

the seventh driving wheel is in contact with the top of the sixth driving wheel and can rotate under the driving of the sixth driving wheel;

A third belt;

And an eighth driving wheel connected to the seventh driving wheel through a third belt, so that the eighth driving wheel and the seventh driving wheel rotate in synchronization.

Preferably, a leather rolling wheel is further arranged on the supporting plate, is coaxial with the eighth driving wheel and rotates coaxially with the eighth driving wheel, and is used for winding the belt leather of the sealing belt.

preferably, the sealing band assembly comprises:

A third transmission gear which is coaxially arranged with the fifth driving wheel and rotates coaxially with the fifth driving wheel;

the fourth transmission gear and the fifth transmission gear are oppositely arranged, are respectively meshed with the third transmission gear and can synchronously rotate with the third transmission gear under the driving of the third transmission gear;

the sealing belt enters from the top of the sealing belt feeding assembly and is driven by the fourth transmission gear and the fifth transmission gear to move downwards continuously.

Preferably, the pressing supports are symmetrically arranged on one side of the gear opening, and the pressing wheel shafts are arranged on the pressing supports.

Preferably, the method further comprises the following steps:

and a cutting mechanism arranged between the first driving mechanism and the second driving mechanism and used for cutting the sealing tape.

the invention has the following beneficial effects: the invention provides a corrugated pipe sealing winding device, which realizes the positioning of an inner pipe and the movement of an outer pipe through the matching of a stretching corrugated pipe assembly and a pressure head clamp assembly, and realizes the fixed-length winding and the single-layer or multi-layer winding of a corrugated pipe through the rotation of a cylindrical gear driven by a first driving mechanism, the winding length is controllable, and the winding precision is high. Meanwhile, the automatic peeling of the sealing tape can be realized in the winding process.

drawings

Fig. 1 is a schematic structural diagram of a bellows sealing and winding device according to the present invention.

Fig. 2 is a schematic structural diagram of the sealing assembly according to the present invention.

figure 3 is an elevational view of a indenter clamp assembly according to the present invention.

figure 4 is a top view of an indenter clamp assembly according to the present invention.

Fig. 5 is a front view of a tension bellows assembly according to the present invention.

Fig. 6 is a top view of a stretch bellows assembly in accordance with the present invention.

fig. 7 is a schematic structural diagram of the right side of the sealing mechanism according to the present invention.

Fig. 8 is a schematic structural view of the left side of the sealing mechanism according to the present invention.

Fig. 9 is a partially enlarged view of the sealing mechanism according to the present invention.

fig. 10 is a schematic structural diagram of a translation mechanism according to the present invention.

Fig. 11 is a schematic view of the internal structure of the sealing belt assembly of the present invention.

fig. 12 is a schematic structural view of the sealing and winding assembly according to the present invention.

Detailed Description

the present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.

As shown in fig. 1 to 9, the present invention provides a bellows seal winding apparatus comprising: support body 400 and the sealing device assembly of setting in its inside, the sealing device assembly specifically includes: the console 410 long tube storage mechanism 100, the tension bellows assembly 200, the indenter clamp assembly 300, and a sealing mechanism.

On the operation table 410, as shown in fig. 1, the long tube storage mechanism 100, the tensile bellows assembly 200, and the indenter clamp assembly 300 are sequentially arranged from right to left, and the sealing mechanism is arranged on the operation table and can slide back and forth in the vertical direction so as to be close to and away from the indenter clamp assembly 300 and the tensile bellows assembly 200. Wherein, mechanism 100 is deposited to the long tube and is supported the long tube that remains the winding, adopt tensile bellows assembly 200 to tentatively decide the long tube through tensile ripple, adopt pressure head anchor clamps assembly 300 to clip the inner tube one end of setting in long tube inside, it is fixed with it, and expose the inner tube through the tensile bellows assembly 200 of horizontal migration, and remove sealing mechanism and make it be close to the inner tube and twine the inner tube, remove sealing mechanism once more after the completion and make it keep away from the inner tube, the tensile bellows assembly of horizontal migration wraps up the outer tube outside at the winding inner tube, accomplish the winding.

The long tube storage mechanism 100 is arranged on one side of the operating table 410, one end of the long tube storage mechanism 100 is arranged outside the frame body 400, the other end of the long tube storage mechanism 100 is arranged inside the frame body 400 and supported above the operating table 410, and a plurality of fixing clamps are arranged on the long tube storage mechanism 100 along the axial direction and used for connecting and positioning long tubes. The long tube comprises an inner tube and an outer tube sleeved outside the inner tube, and an electric heating wire is further arranged between the inner tube and the outer tube.

As shown in fig. 5-6, the tension bellows assembly 200 is located at the left side of the long tube storage mechanism 100, and specifically includes: a first pressing block 210, a second pressing block 220, a third pressing block 230, a traverse cylinder 240, and a first wire clamping block 250. The transverse moving cylinder 240 is horizontally arranged at the lower part of the stretching corrugated pipe assembly 200, so that the stretching corrugated pipe assembly can horizontally move, the first pressing block 210, the second pressing block 220 and the third pressing block 230 are sequentially arranged from left to right at the top of the stretching corrugated pipe assembly 200, the two first wire clamping blocks 250 are symmetrically arranged between the first pressing block 210 and the second pressing block 220, and are respectively driven by two clamping cylinders arranged at one side of the two first wire clamping blocks 250.

As shown in fig. 3-4, the indenter clamp assembly 300 is located on the left side of the tensile bellows 200, and specifically includes: the wire clamping device comprises a lifting cylinder 310, a pressing cylinder 320, a pressure head 330, a wire clamping cylinder 340 and a second wire clamping block 350. The lifting cylinder vertical 310 is vertically arranged at the lower part of the pressure head clamp assembly 300, so that the pressure head clamp assembly 300 can be lifted up and down, the two second wire clamping blocks 350 are symmetrically arranged at the top of the pressure head clamp assembly 300, the pressure head 330 is arranged between the two wire clamping blocks 350, the two wire clamping cylinders 340 are arranged at two ends of the top of the pressure head clamp assembly 300 and used for respectively driving the two wire clamping blocks 350, and the pressing cylinder 320 is horizontally arranged above the lifting cylinder and used for driving the pressure head 330 to lift.

In operation, the lifting cylinder 310 and the pressing cylinder 320 are first driven to raise the indenter clamp assembly, an operator places one end of the corrugated tube from the long tube storage mechanism 100 under the indenter 330, and sequentially places the electrical heating wires in the corrugated tube into the two second wire clamping blocks 350, and then the operator manually presses the indenter 330 down to clamp the corrugated tube workpiece, and then the lifting cylinder 310 is lowered to return the indenter clamp assembly 300 to the original position.

The corrugated pipe is clamped through the first clamping block 210, the second clamping block 220 and the third clamping block 230 in sequence, after clamping is completed, the transverse moving cylinder 240 is started, the outer pipe of the corrugated pipe is compressed through contraction of the transverse moving cylinder, the inner pipe of the corrugated pipe is exposed, at the moment, electric heating is taken down from the two second wire clamping blocks 350 and placed into the two first wire clamping blocks 250, the sealing mechanism is moved to be close to the inner pipe, after the inner pipe is wound and sealed, the electric heating wire is taken down and wound outside the sealing adhesive tape for the second time of sealing winding, after the sealing is completed, the outer pipe is relaxed and restored through relaxation of the transverse moving cylinder 240, the wound and sealed inner pipe is wrapped, the third clamping block 230, the second clamping block 220, the first clamping block 210 and the pressure head 330 are opened in sequence, the corrugated pipe is taken down, and winding and sealing is completed.

As shown in fig. 10, the translation mechanism is disposed on the console 410, two sliding members 420 are symmetrically disposed on the console 410 in the vertical direction, a bottom plate 440 is disposed above the sliding rail 420, the bottom plate 440 can move back and forth in the vertical direction along the sliding rail 420, a side plate 430 is perpendicularly disposed on the console 410 on one side of the bottom plate 440, a rack is disposed on one side of the side plate 430 facing the bottom plate 440, a third driving motor 540 is disposed on the bottom plate 440, and is in power connection with the driving gear, and is engaged with the rack, so as to drive the bottom plate 440 to move on the sliding rail 420 in the vertical direction, and a supporting plate 530 is perpendicularly disposed on the bottom plate 440 and is parallel to the sliding rail 420, so that the reciprocating movement of the sealing mechanism can be realized by the rotation of the third driving motor 540 and the cooperation of the driving gear and the rack, so that the sealing mechanism is close.

As shown in fig. 7 to 8, the sealing mechanism includes: the sealing tape reel 510, the supporting plate 530, the first driving mechanism, the second driving mechanism, the sealing tape feeding assembly 570 and the sealing tape winding assembly, wherein the first driving mechanism is disposed at the lower portion of the supporting plate 530, the second driving mechanism is disposed above the first driving mechanism, the sealing tape feeding assembly 570 is disposed at one end of the supporting plate close to the inner tube, and the sealing tape winding assembly is disposed on the supporting plate 530 and below the sealing tape feeding assembly. A cutting mechanism 580 is further arranged between the first driving mechanism and the second driving mechanism, and the cutting mechanism 580 comprises a cutting cylinder and a cutter, and the cutter is driven by the cutting cylinder to cut off the sealing adhesive tape.

the sealing tape reel 510 is disposed on the top of the support plate 530, on which the sealing tape 520 is wound, and the brake block 531 is disposed on one side of the support plate 530, wherein the sealing tape 520 is composed of a sealing tape skin 521 and a sealing tape 522, and the sealing tape 522 passes into the sealing tape assembly into the sealing tape winding assembly.

the first drive mechanism includes: a first driving motor 550, the power output end of which passes through the supporting plate 530 and is connected with a first driving wheel 551, the first driving wheel 551 is connected with a second driving wheel 553 through a first conveyor belt 552, the second driving wheel 553 is arranged on the supporting plate, is at the same side of the first driving wheel 551 and is positioned at one side of the supporting plate 530; the first transmission gear 591 is coaxially arranged with the second driving wheel 553 and synchronously rotates with the same, the first transmission gear 591 is arranged on the same side with the first driving motor 550 and is positioned on the other side of the supporting plate 530, the two second transmission gears 592 are oppositely arranged and are positioned on one side of the first transmission gear 591, and the two second transmission gears 592 can be respectively meshed with the first transmission gear 591 and synchronously rotate with the first transmission gear 591 under the driving of the two second transmission gears 592; the cylindrical gear 593 is arranged on one side of the two second transmission gears 592 and is meshed with the two second transmission gears 592, the cylindrical gear 593 can be driven by the two second transmission gears 592 to rotate synchronously with the two second transmission gears 592, namely, the first driving mechanism drives the cylindrical gear 593 to rotate through the two second transmission gears 592, one side of the cylindrical gear 593 is provided with a gear opening, a V-shaped pressing piece 594 is arranged inside the gear opening and fixed on the inner wall of the cylindrical gear, and the opening direction faces the gear opening. At the gear opening part, still the symmetry is provided with two and compresses tightly support 596, and the symmetry is provided with the pinch roller axle about still on two compress tightly support 596, is provided with the nylon roller on it, still supports respectively on two nylon rollers and is provided with torsional spring 595, presss from both sides the tight opening between two compress tightly supports, and the opening that two compress tightly supports is close to the inner tube of area winding bellows, pulls sealing adhesive tape 522 downwards, makes its cover that is long enough on two compress tightly the opening that supports.

The second driving mechanism is arranged above the first driving mechanism, the power output end of the second driving motor 540 penetrates through the supporting plate 530 to be connected with the third driving wheel 541, the fourth driving wheel 542 is arranged on the supporting plate 530, the fifth driving wheel 544 is arranged on the sealing belt assembly 570, the third driving wheel 541, the fourth driving wheel 542 and the fifth driving wheel 544 are arranged in the same plane with the first driving wheel 551 and are all positioned on one side of the supporting plate 530, the second conveying belt 543 is sequentially connected with the third driving wheel 541, the fourth driving wheel 542 and the fifth driving wheel 544, and the third driving wheel 541 is driven by the second driving motor 540 to drive the fourth driving wheel 542 and the fifth driving wheel 544 to synchronously rotate.

The sixth driving wheel is disposed at one side of fourth driving wheel 542, contacts fourth driving wheel 542, and is driven by fourth driving wheel 542 to rotate synchronously therewith. The seventh driving wheel 545 is disposed on the top of the sixth driving wheel and contacts the top thereof, the seventh driving wheel 545 can rotate synchronously with the seventh driving wheel, and the eighth driving wheel 547 is disposed on the supporting plate 530 and connected to the seventh driving wheel through the third transfer belt 546 such that the eighth driving wheel 547 and the seventh driving wheel 545 rotate synchronously. The skin winding wheel 532 is coaxially disposed with the eighth driving wheel 547 and coaxially rotates with the eighth driving wheel 547, and the skin winding wheel 532 is located at the other side of the supporting plate 530.

as shown in fig. 9, 11 and 12, the sealing belt assembly 570 is disposed at one end of the supporting plate 530 close to the corrugated tube, and includes a housing and a third transmission gear 471 disposed inside the housing, which is disposed coaxially with the fifth driving wheel 544 and rotates coaxially, the fourth transmission gear 472 and the fifth transmission gear 473 are disposed opposite to each other and located at one side of the third transmission gear 471, and are engaged with the third transmission gear 471 respectively and can rotate synchronously therewith under the driving of the third transmission gear 471, wherein the diameter of the fifth transmission gear 473 is larger than that of the fourth transmission gear 472, so that the rotation speed of the fifth transmission gear 473 is larger than that of the fourth transmission gear. The fourth transmission gear 472 needs to move the sealing tape 522 adhered thereto downward, and the fifth transmission gear 473 needs to peel the sealing tape 522 from the fourth transmission gear 472, and the two move relatively to prevent the sealing tape 522 from being adhered.

the sealing tape 520 is wound on the sealing tape reel 510, the first tension wheel and the second tension wheel are both arranged on the other side surface of the support plate 530 and located below the skin winding wheel 532, the first traction wheel and the second traction wheel are arranged on the housing of the sealing tape assembly 470 and located in the same plane as the first tension wheel and the second tension wheel, the sealing tape 520 sequentially passes through the first tension wheel and the second tension wheel, the sealing tape skin 521 is wound on the skin winding wheel 532 through the first tension wheel, the sealing tape 522 enters the housing of the sealing tape assembly 570 along the second tension wheel, the sealing tape 522 passes through one side of the fourth transmission gear 472 and the fifth transmission gear 473 and continues to move downwards under the drive of the fourth transmission gear 472 and the fifth transmission gear to reach the opening of the two pressing supports 596 of the sealing tape winding assembly, and the sealing tape 522 is located between the inner tube and the sealing tape winding assembly, the side of the sealing tape 522 with glue faces the inner tube, the third driving motor 560 is started to move the supporting plate 530 towards the inner tube, the inner tube presses the sealing tape 522 to enter the V-shaped pressing piece 594 through the two pressing supports 596, and the sealing tape 522 is wound on the inner tube along with the rotation of the cylindrical gear 593.

when the corrugated pipe clamping device works, the lifting cylinder 310 and the pressing cylinder 320 are driven firstly, the pressure head clamp assembly is lifted, an operator puts one end of the corrugated pipe from the long pipe storage mechanism 100 under the pressure head 330, and puts the electric heating wires in the corrugated pipe into the two second wire clamping blocks 350 in sequence, then the operator manually presses the pressure head 330 down to clamp the corrugated pipe workpiece, and then the lifting cylinder 310 descends to enable the pressure head clamp assembly 300 to return to the original position.

the corrugated pipe is clamped through the first clamping block 210, the second clamping block 220 and the third clamping block 230 in sequence, after clamping is completed, the transverse moving cylinder 240 is started, the outer pipe of the corrugated pipe is compressed through contraction of the transverse moving cylinder, the inner pipe of the corrugated pipe is exposed, at the moment, electric heating is taken down from the two second wire clamping blocks 350 and placed into the two first wire clamping blocks 250, the sealing mechanism is moved to be close to the inner pipe, after the inner pipe is wound and sealed, the electric heating wire is taken down and wound outside the sealing adhesive tape for the second time of sealing winding, after the sealing is completed, the outer pipe is relaxed and restored through relaxation of the transverse moving cylinder 240, the wound and sealed inner pipe is wrapped, the third clamping block 230, the second clamping block 220, the first clamping block 210 and the pressure head 330 are opened in sequence, the corrugated pipe is taken down, and winding and sealing is completed.

While embodiments of the invention have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (9)

1. A bellows seal winding device, comprising:

An operation table;

the long pipe storage mechanism is arranged on one side of the operating platform and can support the corrugated pipe to be wound;

The pressure head clamp assembly is arranged on the other side of the operating platform and is connected with the corrugated pipe inner pipe and used for positioning the corrugated pipe inner pipe;

The stretching corrugated pipe assembly is arranged between the long pipe storage mechanism and the pressure head clamp assembly and can position and move the outer pipe of the corrugated pipe;

The supporting plate is slidably arranged on the operating platform, one end of the supporting plate is close to the corrugated pipe, and the top of the supporting plate is provided with a sealing belt;

a first driving mechanism provided at a lower portion of the support plate;

the cylindrical gear is arranged on one side of the first driving mechanism and can be driven by the first driving mechanism to rotate, and the cylindrical gear is provided with a gear opening;

The V-shaped pressing sheet is fixed on the inner wall of the cylindrical gear, and the opening direction of the V-shaped pressing sheet faces the opening of the gear;

The sealing belt covers the opening of the gear, the support plate is moved to enable the V-shaped pressing sheet to be sequentially contacted with the sealing belt and the inner pipe, and the inner pipe is wound along with the rotation of the V-shaped pressing sheet.

2. the bellows seal winding device of claim 1, wherein the first drive mechanism comprises:

A first drive motor;

The first driving wheel is connected with the power output end of the first driving motor after penetrating through the supporting plate;

a first conveyor belt;

A second drive wheel which passes through the first conveyor belt and the first drive wheel;

a first transmission gear which is coaxially provided with the second driving wheel and rotates coaxially therewith;

and the two second transmission gears are oppositely arranged between the first transmission gear and the cylindrical gear, are respectively meshed with the first transmission gear and the cylindrical gear, and simultaneously drive the two second transmission gears to rotate through the first transmission gear so as to drive the cylindrical gear to rotate.

3. the bellows seal winding arrangement of claim 2 further comprising a seal belt assembly secured to one end of the support plate and positioned above the cylindrical gear.

4. The bellows seal winding device of claim 3, further comprising a second drive mechanism disposed on the support plate and above the first drive mechanism, comprising:

a second drive motor;

The third driving wheel is connected with the power output end of the second driving mechanism after penetrating through the supporting plate;

A fourth driving wheel provided on the support plate;

a fifth drive wheel disposed on said sealing belt assembly;

And the second conveyor belt is sequentially connected with the third driving wheel, the fourth driving wheel and the fifth driving wheel, so that the third driving wheel, the fourth driving wheel and the fifth driving wheel synchronously rotate.

5. the bellows seal winding device of claim 4, further comprising a third drive mechanism disposed above the second drive mechanism, comprising:

A sixth driving wheel provided on one side of the fourth driving wheel, in contact therewith, and rotatable by the fourth driving wheel;

The seventh driving wheel is in contact with the top of the sixth driving wheel and can rotate under the driving of the sixth driving wheel;

a third belt;

And an eighth driving wheel connected to the seventh driving wheel through a third belt, so that the eighth driving wheel and the seventh driving wheel rotate in synchronization.

6. the bellows seal winding arrangement of claim 5 wherein the support plate is further provided with a take-up pulley coaxially rotatable with the eighth drive wheel for winding the sealing band belt.

7. the bellows seal winding device of claim 6, wherein the sealing strip assembly comprises:

a third transmission gear which is coaxially arranged with the fifth driving wheel and rotates coaxially with the fifth driving wheel;

the fourth transmission gear and the fifth transmission gear are oppositely arranged, are respectively meshed with the third transmission gear and can synchronously rotate with the third transmission gear under the driving of the third transmission gear;

the sealing belt enters from the top of the sealing belt feeding assembly and is driven by the fourth transmission gear and the fifth transmission gear to move downwards continuously.

8. the bellows seal winding device of claim 7, wherein the gear opening is symmetrically provided with a pressing support on one side, and a pressing wheel shaft is provided thereon.

9. The bellows seal winding device of claim 8, further comprising:

And a cutting mechanism arranged between the first driving mechanism and the second driving mechanism and used for cutting the sealing tape.