CN111633267A - Automatic production equipment for corrugated pipe - Google Patents

Abstract

The invention discloses automatic production equipment of a corrugated pipe, which comprises a clamping plate supporting plate, a lifting pipe cutting device, a pipe rotating clamping mechanism, a pipe pressing component and a wiping mechanism, wherein the clamping plate supporting plate is arranged on the upper surface of the clamping plate; the pressure pipe assembly comprises a pressure pipe follow-up roller and a swing arm assembly, the pressure pipe follow-up roller can be arranged in a lifting mode, the swing arm assembly is connected with a pressure pipe follow-up roller rotating shaft, the pressure pipe follow-up roller can be in contact with the upper surface of the corrugated pipe, and the pressure pipe follow-up roller is driven to rotate along with the corrugated pipe by relative friction generated between the pressure pipe follow-up roller and the corrugated pipe; the cleaning mechanism comprises a first rotating shaft which can be in contact connection with the swing arm assembly and is driven by the swing arm assembly to swing, an included angle supporting plate extending into the inner wall of the corrugated pipe orifice is mounted on the first rotating shaft, a wave cleaning gasket is mounted on the included angle supporting plate, and the cleaning mechanism further comprises an angle adjusting assembly used for adjusting the included angle of the included angle supporting plate so that the wave cleaning gasket can be in contact with the inner wall of the corrugated pipe.

Description

Automatic production equipment for corrugated pipe

Technical Field

The invention relates to the technical field of corrugated pipe production devices, in particular to automatic production equipment for corrugated pipes.

Background

The corrugated pipe is a tubular elastic sensitive element which is formed by connecting foldable corrugated sheets along the folding and stretching direction. The corrugated pipe has wide application in instruments and meters, and is mainly used as a measuring element of a pressure measuring instrument to convert pressure into displacement or force. The corrugated pipe has thin pipe wall and high sensitivity, and the measurement range is from tens of Pa to tens of MPa. Its open end is fixed, its sealed end is in free state, and its elasticity is increased by using auxiliary helical spring or reed. The bellows is in the later stage of production, need cut long banding bellows, form the bellows that has certain length, later carry out concentrated packing transportation to the bellows.

(1) For the cutting of some corrugated pipes with larger specifications, some corrugated pipes are fixed by using a tool, and then the pipe opening part is cut, but the method has the defects that: in the process of cutting the corrugated pipe by the cutting tool, because the cutting tool is always in the displacement process, the cutting direction is difficult to control, more burrs are easily generated at the cut, and the workload of polishing the pipe orifice of the subsequent corrugated pipe is increased;

(2) after the corrugated pipe is cut, scraps can be left at the pipe orifice of the corrugated pipe, the efficiency of manually cleaning the scraps is low, and the scraps are difficult to clean due to a special fluctuation structure in the corrugated pipe, so that the use is influenced; the problem that the current clearance mode of adopting machinery exists is difficult to the inner wall to the bellows when the cutting clear up, if adopt the absorbent mode of wind-force, still can have partial piece adhesion in the recess of bellows inner wall, difficult clean up.

Disclosure of Invention

Therefore, the invention provides automatic production equipment of corrugated pipes, which aims to overcome the defects in the prior art.

An automatic production equipment of corrugated pipe comprises

The bottom of the corrugated pipe is placed between the two clamping plate conveying plates in a contact manner;

the lifting pipe cutting device is arranged at the front end of the clamping plate supporting plate and is used for cutting the pipe wall of the corrugated pipe from the bottom;

the rotating pipe clamping mechanism is arranged at the rear end of the clamping plate supporting plate and is used for clamping and rotating the tail part of the corrugated pipe;

the pressure pipe assembly comprises a pressure pipe follow-up roller and a swing arm assembly, wherein the pressure pipe follow-up roller can be arranged in a lifting mode, the swing arm assembly is connected with a rotating shaft of the pressure pipe follow-up roller, the pressure pipe follow-up roller can be in contact with the upper surface of the corrugated pipe, and the pressure pipe follow-up roller is driven to rotate along with the corrugated pipe by relative friction generated between the pressure pipe follow-up roller and the corrugated pipe;

the cleaning mechanism is used for cleaning the inner wall of the pipe orifice of the corrugated pipe and comprises a first rotating shaft which can be in contact connection with the swing arm assembly and is driven to swing by the swing arm assembly, an included angle supporting plate extending into the inner wall of the pipe orifice of the corrugated pipe is installed on the first rotating shaft, a wave cleaning gasket is installed on the included angle supporting plate, and the cleaning mechanism further comprises an angle adjusting assembly used for adjusting the included angle of the included angle supporting plate so that the wave cleaning gasket can be in contact with the inner wall of the corrugated pipe.

Preferably, the pressure pipe assembly further comprises a lifting mounting plate, the pressure pipe follow-up roller is mounted below the lifting mounting plate through a roller seat, a rotating shaft of the pressure pipe follow-up roller and the pipe shaft direction of the corrugated pipe are parallel to each other, the swing arm assembly comprises a first connecting rod fixedly connected with the rotating shaft of the pressure pipe follow-up roller, a second connecting rod is hinged to the end of the first connecting rod, the swing arm assembly further comprises a sector gear hinged to the lower end of the lifting mounting plate, and the end of the second connecting rod is hinged to a panel of the sector gear;

install in the first pivot with sector gear intermeshing's first gear, first pivot is rotated through the pivot seat and is installed on sliding mounting board, in the guide rail that the below of lift mounting panel set up, one side of sliding mounting board is provided with and is used for making sliding mounting board along the gliding electric putter of guide rail level, when electric putter extended, first epaxial first gear can with sector gear's surface contact.

Preferably, a guide groove is formed in the sector gear, a movable locking block is arranged on the guide groove, and the second connecting rod is hinged to the movable locking block.

Preferably, the included angle supporting plate comprises a vertical mounting plate, an elastic plate which is obliquely arranged with the inner pipe wall of the corrugated pipe is mounted on one side of the vertical mounting plate, which faces the rotating pipe clamping mechanism, the elastic plate is obliquely and downwards arranged inwards along the pipe orifice of the corrugated pipe, and the wave wiping gasket is mounted on the upper surface of the elastic plate.

Preferably, the angle modulation assembly comprises a limiting groove which is located below the elastic plate and is perpendicular to the vertical mounting plate, a screw rod is arranged in parallel to the limiting groove and is driven to rotate by a rotating handle, a supporting sleeve plate which is matched with the side wall of the screw rod and is supported below the elastic plate is mounted on the screw rod, and the supporting sleeve plate is mounted on the limiting groove in a limiting mode and slides along the limiting groove.

Preferably, the rotating pipe clamping mechanism comprises a base and a ring sleeve rotatably mounted on the base, a plurality of pipe clamping devices are arranged on the annular array of the side wall of the ring sleeve, the corrugated pipe can be clamped between the pipe clamping devices, a circle of toothed ring is arranged on the side wall of the ring sleeve, a gear which is driven to rotate by a motor is arranged on the base, and the gear is meshed with the toothed ring.

Preferably, the lifting pipe cutting device comprises a cutting machine and a lifting support arranged below the cutting machine, and the front end of the clamping plate supporting plate is also provided with a cutting guide plate provided with a cutter groove.

Preferably, a plurality of balls are provided on opposite inner sides of the clamping plate supporting plate.

Preferably, the wheel rim of the pressure pipe follow-up roller is wrapped with an anti-skid buffer pad.

The invention has the following advantages:

(1) the cutting device is fixed, and the corrugated pipe rotates to cut the circumference of the pipe orifice of the corrugated pipe, so that the problem of uneven cutting caused by inaccurate adjustment of the cutting device can be avoided; the tail end of the corrugated pipe is clamped by a pipe rotating clamping mechanism, the whole corrugated pipe is rotated, a pipe pressing assembly is arranged above the front end of the corrugated pipe, a pipe pressing follow-up roller is pressed on the upper end of the corrugated pipe, and the pipe pressing follow-up roller rotates synchronously with the corrugated pipe; on one hand, the pressure pipe follow-up roller can limit the upper part of the corrugated pipe, so that the axis of the corrugated pipe is always on the same horizontal line in the rotating process of the corrugated pipe, and the smoothness of a cutting part is ensured; on the other hand, the pressure pipe follow-up roller can rotate relative to the surface of the corrugated pipe, so that the friction force between contact surfaces of the pressure pipe and the corrugated pipe is reduced compared with a fixed pressing mode, the corrugated pipe rotates more smoothly, and the smooth cut of the corrugated pipe is ensured;

(2) the cleaning mechanism extends into the interior of the pipe orifice of the corrugated pipe to clean the upper inner wall of the rotating corrugated pipe, the corrugated pipe rotates, the cleaning mechanism can clean the circle of pipe wall of the corrugated pipe, and cutting scraps raised in the cleaning process are adsorbed by combining the dust collection mechanism, so that the scraps are prevented from being adhered to the inner wall of the pipe orifice of the corrugated pipe; meanwhile, the rotating corrugated pipe can enable the rotating shaft of the pressure pipe follow-up roller which is in rolling contact with the rotating corrugated pipe to rotate, so that the swing arm assembly connected with the rotating shaft drives the wave wiping gasket of the wiping mechanism to swing in a small range at the pipe orifice of the corrugated pipe, and the wiping efficiency can be further improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the clamping plate support plate and the rotating pipe clamping mechanism of the present invention;

FIG. 3 is a schematic view of the connection of the crimp tube assembly and wiping mechanism of the present invention;

FIG. 4 is a schematic structural view of the present invention with the bellows tube assembly and wiping mechanism unconnected and the angled support plate not extending into the interior of the bellows orifice;

FIG. 5 is a schematic view of the connection of the pressure tube assembly and wiping mechanism of the present invention with the angled support plate extending into the interior of the bellows orifice;

FIG. 6 is a schematic view of the structure of the present invention after the angle of the elastic plate is adjusted in the state of FIG. 5;

fig. 7 is a schematic side view of the rotating pipe clamping mechanism of the present invention.

In the figure:

1-a splint support plate; 2-lifting pipe cutting device; 3-rotating the tube clamping mechanism; 4-a crimp assembly; 5-a wiping mechanism;

201-a cutting machine; 202-a knife slot; 203-cutting the guide plate;

301-a base; 302-ring sleeve; 303-clamping the pipe clamp; 304-a toothed ring; 305-a rotational bearing; 306-a clamping cylinder; 307-a motor; 308-a gear;

401-pressing pipe follow-up roller; 402-a rotating shaft; 403-a swing arm assembly; 404-lifting the mounting plate; 405-roller seat; 406-a first link; 407-a second link; 408-sector gear; 409-a guide groove; 410-a movable locking block;

501-a first rotating shaft; 502-included angle support plate; 503-wave wiping pad; 504-angle modulation assembly; 505-a first gear; 506-rotating shaft seat; 507-a sliding mounting plate; 508-a guide rail; 509-electric push rod; 510-a vertical mounting plate; 511-elastic plate; 512-a limit groove; 513-screw; 514-rotating the handle; 515-supporting the sheathing.

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 7, the present invention provides an automatic production apparatus for corrugated pipes, which can improve the cutting efficiency of the pipe orifice of the corrugated pipe and clean dust generated during the shearing process in time. Specifically, the method comprises the following steps:

the equipment is used for cutting the pipe orifice at the tail end of the corrugated pipe production, and specifically comprises a clamping plate supporting plate 1, a lifting pipe cutting device 2, a pipe rotating clamping mechanism 3, a pipe pressing component 4 and a wiping mechanism 5.

Wherein the clamping plate supporting plate 1 is used for bearing the corrugated pipe 10 to be cut. The splint supporting plates 1 are symmetrically arranged, and a gap larger than the diameter of the pipe orifice of the corrugated pipe 10 is reserved between the two splint supporting plates 1. Under the action of gravity, the bottom of the corrugated pipe 10 is placed between the two clamping plate conveying plates 1 in a contact manner, so that the corrugated pipe can be prevented from transversely and randomly sliding.

To facilitate later rotation of the bellows 10, balls (not shown) are provided on the opposite inner side of the clamping plate support plate 1. The balls facilitate the movement of the corrugated tube 10 in the direction in which the chucking plate 1 extends, and also facilitate the smooth rotation of the corrugated tube 10 around the axial direction of the corrugated tube.

Wherein, the lifting pipe cutting device 2 is arranged at the front end of the clamping plate supporting plate 1 and is used for cutting the pipe wall of the corrugated pipe 10 from the bottom. The lifting pipe cutting device 2 comprises a cutting machine 201 and a lifting support (not shown in the figure) arranged below the cutting machine, the lifting support can be driven to lift through an electric rod, and a cutting guide plate 203 provided with a cutter groove 202 is further mounted at the front end of the clamping plate supporting plate 1. The cutting machine 201 goes up and down along with the lifting support, a blade of the cutting machine 201 acts on the lower pipe wall of the corrugated pipe 10 through the cutter groove 202 on the cutting guide plate 203, the lower pipe wall of the corrugated pipe is cut, and the corrugated pipe is circularly cut along with the radial rotation of the corrugated pipe.

The rotating pipe clamping mechanism 3 is arranged at the rear end of the clamping plate supporting plate 1, and clamping and rotation of the tail of the corrugated pipe 10 are achieved. Specifically, the method comprises the following steps:

the rotating pipe clamping mechanism 3 comprises a base 301 and a ring sleeve 302 rotatably mounted on the base 301, wherein the ring sleeve 302 is rotatably mounted on the base 301 through a rotating bearing 305.

The side wall of the ring sleeve 302 is annularly arrayed with a plurality of pipe clamping devices 303, the pipe clamping devices 303 are clamped on the side wall of the corrugated pipe 10 through clamping cylinders 306, the side wall of the ring sleeve 302 is provided with a circle of toothed rings 304, the base 301 is provided with a gear 308 which is driven to rotate by a motor 307, and the gear 308 is meshed with the toothed rings 304.

In operation, the corrugated pipe 10 passes through the ring sleeve 302, the plurality of pipe clamping devices 303 are started to clamp the side wall of the corrugated pipe under the action of the clamping air cylinder 306, then the motor 307 is started to drive the gear 308 to rotate, the ring sleeve 302 with the gear ring 304 meshed with the gear 308 rotates along with the corrugated pipe 10 clamped in the ring sleeve 302 to axially rotate.

The pressure pipe assembly 4 comprises a pressure pipe follow-up roller 401 arranged in a lifting mode and a swing arm assembly 403 connected with a rotating shaft 402 of the pressure pipe follow-up roller 401, the pressure pipe follow-up roller 401 can be in contact with the upper surface of the corrugated pipe 10, and relative friction between the pressure pipe follow-up roller 401 and the corrugated pipe 10 enables the pressure pipe follow-up roller 401 to rotate along with the corrugated pipe 10. The wheel rim of the pressing pipe follow-up roller 401 is wrapped with an anti-skid buffer pad (not shown in the figure). The anti-slip buffer pad may increase the friction between the pressure tube follower roller 401 and the corrugated tube 10.

The wiping mechanism 5 is used for wiping the inner wall of the nozzle of the corrugated pipe 10. Specifically, the method comprises the following steps:

the wiping mechanism comprises a first rotating shaft 501 which can be in contact connection with the swing arm assembly 403 and is driven by the swing arm assembly 403 to swing, an included angle supporting plate 502 which extends into the inner wall of the nozzle of the corrugated pipe 10 is installed on the first rotating shaft 501, a wave wiping gasket 503 is installed on the included angle supporting plate 502, and the wiping mechanism further comprises an angle adjusting assembly 504 which is used for adjusting the included angle of the included angle supporting plate 502 so that the wave wiping gasket 503 can be in contact with the inner wall of the corrugated pipe 10.

The pressure pipe assembly 4 further comprises a lifting mounting plate 404, the pressure pipe follow-up roller 401 is mounted below the lifting mounting plate 404 through a roller seat 405, and a rotating shaft 402 of the pressure pipe follow-up roller 401 is parallel to the pipe shaft direction of the corrugated pipe 10.

The swing arm assembly 403 comprises a first connecting rod 406 fixedly connected with the rotating shaft 402 of the pressure pipe follow-up roller 401, the end part of the first connecting rod 406 is hinged with a second connecting rod 407, the swing arm assembly 403 further comprises a sector gear 408 hinged at the lower end of the lifting mounting plate 404, and the end part of the second connecting rod 407 is hinged on the panel of the sector gear 408;

the first rotating shaft 501 is provided with a first gear 505 engaged with the sector gear 408, the first rotating shaft 501 is rotatably installed on a sliding installation plate 507 through a rotating shaft seat 506, a guide rail 508 arranged below the lifting installation plate 404 is provided with an electric push rod 509 used for enabling the sliding installation plate 507 to horizontally slide along the guide rail 508, and when the electric push rod 509 extends, the first gear 505 on the first rotating shaft 501 can be in contact with the surface of the sector gear 408.

The included angle supporting plate 502 comprises a vertical mounting plate 510, an elastic plate 511 which is obliquely arranged with the inner pipe wall of the corrugated pipe 10 is mounted on one side of the vertical mounting plate 510 facing the rotating pipe clamping mechanism 3, the elastic plate 511 is obliquely and downwardly arranged inwards along the pipe orifice of the corrugated pipe 10, and the wave wiping pad 503 is mounted on the upper surface of the elastic plate 511.

The angle modulation assembly 504 comprises a limiting groove 512 which is located below the elastic plate 511 and is perpendicular to the vertical mounting plate 510, a screw 513 is arranged in the limiting groove 512, the screw 513 is driven to rotate through a rotating handle 514, a supporting sleeve plate 515 which is matched with the side wall of the screw 513 and is supported below the elastic plate 511 is mounted on the screw 513, and the supporting sleeve plate 515 is mounted on the limiting groove 512 in a limiting mode and slides along the limiting groove 512.

The sector gear 408 is provided with a guide groove 409, the guide groove 409 is provided with a movable locking block 410, and the second connecting rod 407 is hinged to the movable locking block 410.

The working principle of the device is as follows:

step one, locking the corrugated pipe: placing the corrugated pipe 10 to be cut between the two clamping plate supporting plates 1 until a front pipe orifice to be cut of the corrugated pipe 10 is positioned right above the lifting pipe cutting device 2, enabling the rear end of the corrugated pipe 10 to penetrate through the ring sleeve 302 of the pipe rotating clamping mechanism 3, and locking the corrugated pipe 10;

step two, pressing and cleaning angle adjustment: as shown in fig. 4 to 6, the lifting mounting plate 404 is driven to move downwards, so that the pressure pipe follower roller 401 just contacts with the upper pipe wall of the corrugated pipe, when the axis of the front pipe orifice of the corrugated pipe has a displacement trend in the cutting process, the pipe shaft can not change all the time in the rotating process of the corrugated pipe 10 due to the acting force exerted on the pressure pipe follower roller 401 by the pressure pipe follower roller 401, the precision degree of subsequent cutting of the pipe orifice of the corrugated pipe can be improved, and the burr phenomenon can be reduced;

then, the electric push rod 509 is actuated to move the slide mounting plate 507 connected to one end of the electric push rod 509 toward the nozzle side of the bellows 10 along the guide rail 508, and at the same time, the first shaft 501 fixedly attached to the slide mounting plate 507 is moved until the first gear 505 and the sector gear 408 on the first shaft 501 are engaged with each other. Meanwhile, the included angle supporting plate 502 connected to the first rotating shaft 501 also extends into the opening of the corrugated tube 10, so as to limit the upper tube wall of the corrugated tube 10 between the included angle formed by the elastic plate 511 and the first rotating shaft 501. Then, the rotating handle 514 is manually adjusted to displace the supporting sleeve 515 on the screw 513 along the direction of the screw 513, so as to gradually support the bottom of the elastic plate 511 until the wave wiping pad 503 installed above the elastic plate 511 contacts with the upper tube wall inside the corrugated tube 10, thereby completing the angle adjustment.

Step three, cutting and ash removal: the motor is started to drive the rotating pipe clamping mechanism 3 to clamp the corrugated pipe 10 to rotate radially, the lifting support of the lifting pipe cutting device 2 is started to lift the cutting machine 201, the lower pipe wall of the corrugated pipe 10 is cut, and a circle of cutting can be performed on the pipe orifice of the corrugated pipe in the rotating process of the corrugated pipe;

meanwhile, the wave wiping pad 503 contacting the upper inner pipe wall of the corrugated pipe 10 wipes the pipe orifice of the corrugated pipe 10 for a circle during rotation, lifts up the debris adhered to the pipe wall of the corrugated pipe during cutting, and is adsorbed by a dust suction mechanism (not shown).

As the pressure tube follow-up roller 401 is contacted with the upper tube wall of the corrugated tube, the rotating corrugated tube drives the rotating shaft 402 of the pressure tube follow-up roller 401 to rotate, and the rotating shaft 402 drives the sector gear 408 on the swing arm assembly 403 to intermittently rotate forward and backward. The swing amplitude of the swing arm assembly 403 can be realized by adjusting the fixing position of the movable locking block 410 on the guide groove 409 in the early stage. The first rotating shaft 501 on which the first gear 505 meshed with the sector gear 408 is located can swing with a small amplitude, and the wave wiping gasket 503 on the included angle supporting plate 502 connected with the first rotating shaft 501 can perform small-amplitude swing wiping on the pipe wall of the corrugated pipe, so that the cleaning efficiency of debris is enhanced.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (9)

1. The utility model provides an automated production equipment of bellows which characterized in that: comprises that

The bottom of the corrugated pipe (10) is placed between the two clamping plate conveying plates (1) in a contact manner;

the lifting pipe cutting device (2) is arranged at the front end of the clamping plate supporting plate (1) and is used for cutting the pipe wall of the corrugated pipe (10) from the bottom;

the rotating pipe clamping mechanism (3) is arranged at the rear end of the clamping plate supporting plate (1) and is used for clamping and rotating the tail part of the corrugated pipe (10);

the pipe pressing assembly (4) comprises a pipe pressing follow-up roller (401) which can be arranged in a lifting mode and a swing arm assembly (403) connected with a rotating shaft (402) of the pipe pressing follow-up roller (401), the pipe pressing follow-up roller (401) can be in contact with the upper surface of the corrugated pipe (10), and the pipe pressing follow-up roller (401) is driven to rotate along with the corrugated pipe (10) through relative friction generated between the pipe pressing follow-up roller and the corrugated pipe (10);

wiping mechanism (5) for clean the mouth of pipe inner wall of bellows (10), wiping mechanism include can with swing arm subassembly (403) contact be connected and by swing arm subassembly (403) drive first pivot (501) that sways, install contained angle backup pad (502) that stretch into bellows (10) mouth of pipe inner wall on first pivot (501), install wave on contained angle backup pad (502) and clean gasket (503), wiping mechanism is still including being used for adjusting contained angle backup pad (502) contained angle is so that wave cleans gasket (503) and angle modulation subassembly (504) of bellows (10) inner wall contact.

2. An automated manufacturing apparatus for corrugated tubing as claimed in claim 1, wherein: the pressure pipe assembly (4) further comprises a lifting mounting plate (404), the pressure pipe follow-up roller (401) is mounted below the lifting mounting plate (404) through a roller seat (405), a rotating shaft (402) of the pressure pipe follow-up roller (401) and the pipe shaft direction of the corrugated pipe (10) are parallel to each other, the swing arm assembly (403) comprises a first connecting rod (406) fixedly connected with the rotating shaft (402) of the pressure pipe follow-up roller (401), a second connecting rod (407) is mounted at the end of the first connecting rod (406) in a hinged mode, the swing arm assembly (403) further comprises a sector gear (408) mounted at the lower end of the lifting mounting plate (404) in a hinged mode, and the end of the second connecting rod (407) is mounted on a panel of the sector gear (408) in a hinged mode;

install on first pivot (501) with sector gear (408) intermeshing's first gear (505), first pivot (501) are rotated through pivot seat (506) and are installed on sliding mounting board (507), in guide rail (508) that the below of lift mounting board (404) set up, one side of sliding mounting board (507) is provided with and is used for making sliding mounting board (507) along guide rail (508) horizontal slip's electric putter (509), when electric putter (509) extended, first gear (505) on first pivot (501) can with the surface contact of sector gear (408).

3. An automated manufacturing apparatus for corrugated tubing as claimed in claim 2, wherein: the sector gear (408) is provided with a guide groove (409), the guide groove (409) is provided with a movable locking block (410), and the second connecting rod (407) is hinged to the movable locking block (410).

4. An automated manufacturing apparatus for corrugated tubing as claimed in claim 1, wherein: the included angle supporting plate (502) comprises a vertical mounting plate (510), an elastic plate (511) which is obliquely arranged on one side of the vertical mounting plate (510) facing the rotating pipe clamping mechanism (3) and is obliquely arranged with the inner pipe wall of the corrugated pipe (10), the elastic plate (511) is obliquely and downwards arranged inwards along the pipe orifice of the corrugated pipe (10), and the wave wiping gasket (503) is mounted on the upper surface of the elastic plate (511).

5. An automated manufacturing apparatus for corrugated tubing as claimed in claim 4, wherein: angle modulation subassembly (504) is including being located elastic plate (511) below and perpendicular spacing groove (512) that set up with vertical mounting panel (510), be on a parallel with spacing groove (512) are provided with screw rod (513), screw rod (513) are rotatory through rotatory handle (514) drive, install on screw rod (513) with screw rod (513) lateral wall mutually support at elastic plate (511) below supporting sleeve board (515), supporting sleeve board (515) are spacing to be installed on spacing groove (512) and slide along spacing groove (512).

6. An automated manufacturing apparatus for corrugated tubing as claimed in claim 1, wherein: rotating pipe fixture (3) include base (301) and rotate and install ring cover (302) on base (301), the lateral wall annular array of ring cover (302) has a plurality of pipe clamps (303) of embracing, but bellows (10) centre gripping is in a plurality of embrace between pipe clamp (303), the lateral wall of ring cover (302) is provided with round ring gear (304), be provided with on base (301) through the rotatory gear of motor drive, gear and ring gear (304) intermeshing.

7. An automated manufacturing apparatus for corrugated tubing as claimed in claim 1, wherein: the lifting pipe cutting device (2) comprises a cutting machine (201) and a lifting support arranged below the cutting machine, and a cutting guide plate (203) provided with a cutter groove (202) is further mounted at the front end of the clamping plate support plate (1).

8. An automated manufacturing apparatus for corrugated tubing as claimed in claim 1, wherein: a plurality of balls are arranged on the inner side of the clamp plate supporting plate (1).

9. An automated manufacturing apparatus for corrugated tubing as claimed in claim 1, wherein: the wheel rim of the pressure pipe follow-up roller (401) is wrapped with an anti-skid cushion pad.

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