CN217433150U - Drilling, milling and cutting device in underwater pipe - Google Patents

Abstract

The utility model provides a drilling, milling and cutting device in an underwater pipe, which comprises a cutting device, a rotating device and a fixing device, wherein the fixing device consists of a supporting hydraulic cylinder, a supporting short arm, an upper flange, a lower flange and a main structural steel pipe, and the rotating device consists of an external gear rotary support, a driving gear, a speed reducer, a hydraulic motor and a circular working platform which are meshed with the external gear rotary support; the cutting device is provided with two sets of same mechanisms and consists of a driving motor, an end milling head, a milling cutter, a feeding hydraulic cylinder and a slide rail. The two sets of cutting devices are oppositely arranged on the rotary working platform in an angle of 180 degrees. The lower flange of the fixing device is connected with the outer ring of the slewing bearing; the cutting device is connected with the inner ring of the slewing bearing through the working platform; the slewing device slewing drive motor is connected with the speed reducer and fixed on the slewing working platform, and the drive gear is connected with the speed reducer and meshed with the slewing bearing outer ring gear. The utility model has the characteristics of simple structure, independently nimble, efficient, strong adaptability etc.

Description

Drilling, milling and cutting device in underwater pipe

Technical Field

The utility model relates to a cutting technical field of the underwater internal cutting of piling bar particularly, especially relate to a intraductal brill mills cutting device under water.

Background

In ocean engineering construction and cofferdam engineering construction, steel pipes are often required to be cut underwater, and the cutting technologies in the field comprise high-pressure water cutting, diamond wire saw cutting, underwater electric oxygen arc cutting, beveling machine cutting and laser cutting of the latest technology. High-pressure water cutting and underwater laser cutting equipment is too high, and common small and medium-sized enterprises cannot bear high equipment cost; underwater electric oxygen arc cutting belongs to destructive cutting, only ensures cutting off and has to be operated by divers; the beveling machine cutting belongs to annular rotating internal cutting and has the defects that when vertical steel pile cutting is carried out, a cutter is easy to clamp during cutting off, and a backing plate cannot be used for prevention; the diamond wire saw is used for cutting into external cutting, and equipment cannot be installed when an interference structure exists outside the pile.

Therefore, in view of the above, there is a need to provide a new type of cutting equipment for drilling and milling to solve the deficiencies of the prior art. The utility model relates to a novel brill mill inscribe cutting equipment, to within the wall thickness 35mm steel pile cutting have better advantage, this kind of novel equipment low cost, general enterprise all can purchase or process, can avoid pressing from both sides sword scheduling problem in the slot to vertical stake cutting, not only solves traditional mechanical cutting mechanism's problem, still guarantees to have sufficient intensity and accurate location in the cutting, simultaneously for cutting the operation a plurality of selections under water.

SUMMERY OF THE UTILITY MODEL

According to the high-pressure water cutting and underwater laser cutting equipment, the equipment is too high, and common small and medium-sized enterprises cannot bear high equipment cost; underwater electric oxygen arc cutting belongs to destructive cutting, only ensures cutting off and has to be operated by divers; the beveling machine cutting belongs to annular rotating internal cutting and has the defects that when vertical steel pile cutting is carried out, a cutter is easy to clamp during cutting off, and a backing plate cannot be used for prevention; the diamond wire saw cutting is external cutting, and the technical problem that equipment cannot be installed when an interference structure exists outside a pile is solved, so that the underwater pipe drilling and milling cutting device is provided. The utility model discloses it is intraductal mainly through putting into the steel pipe with boring milling cutting equipment, start to fix equipment at design cutting position with the hydraulic support arm, start milling cutter actuating motor and make milling cutter carry out high-speed rotation, the back starts to feed the pneumatic cylinder and promotes cutting system and outwards along radially feeding cutting drilling from the inside pipe wall, until boring the pipe wall thoroughly, restart rotation mechanism actuating motor drives milling cutter gyration cutting, cuts off the pipe wall. The utility model discloses the during operation starts cutting device unit head and drives milling cutter fast revolution, it promotes the cutting unit head and carries out the drilling to being cut the piling bar to advance the hydraulic cylinder after the completion, it is rotatory to start the gyration drive hydraulic motor of fixed on the circular rotary working platform after the piling bar to bore through and drive gear, because drive gear and the slewing bearing outer lane gear interlock of fixing on fixing device, thereby it is rotatory to drive the circular rotary working platform of fixing in the slewing bearing circle, thereby it cuts along the circumference by cutting the piling bar to drive milling cutter, when based on be that subtend double knives carry out the cutting operation, slewing device only needs 180 rotatory completions piling bar cutting operation promptly.

The utility model discloses a technical means as follows:

a drilling, milling and cutting device for underwater pipes, which is arranged in a cut steel pipe with hollowed internal mud, comprises: the cutting device comprises a fixing device, a cutting device and a rotating device, wherein the cutting device and the rotating device are installed below the fixing device, the fixing device is used for fastening the whole cutting device on the inner wall of a cut steel pipe, the rotating device is used for achieving circumferential rotation of the cutting device, the cutting device is used for drilling through the pipe wall of the cut steel pipe, and circumferential cutting of the pipe wall of the cut steel pipe is achieved under the driving of the rotating device.

Further, the fixing device comprises a main structure steel pipe, a supporting hydraulic cylinder and a fastening mechanism, the supporting hydraulic cylinder is arranged inside the main structure steel pipe, an upper flange and a lower flange are welded at the upper end and the lower end of the main structure steel pipe respectively, the top surface of the upper flange is connected with a base flange of the supporting hydraulic cylinder, the bottom surface of the lower flange is connected with an outer ring of a slewing bearing of an external gear slewing bearing, an inner ring of the slewing bearing of the external gear slewing bearing is connected with a slewing working platform, the cutting device and the slewing device are fixed on the slewing working platform, the slewing device is rotationally connected with the outer ring of the slewing bearing, and drives the slewing working platform to rotate through the outer ring of the slewing bearing, so that the cutting device is driven to rotate, and the fixing device is rotationally connected with the slewing working platform; the rotary working platform is circular, and the center of the rotary working platform is coaxial with the rotating shaft center of the external gear rotary support;

the main structure steel pipe is connected with a plurality of fastening mechanisms, and the fastening mechanisms are all connected with the supporting hydraulic cylinder and driven by the supporting hydraulic cylinder, so that the whole cutting device is fastened on the inner wall of the cut steel pipe.

Furthermore, the bottom surface of the upper flange is welded with at least two upper double-lug eye plates which are uniformly distributed in the circumferential direction on the outer wall of the main structure steel pipe, the top surface of the lower flange is welded with at least two lower double-lug eye plates which are uniformly distributed in the circumferential direction on the outer wall of the main structure steel pipe, the plurality of lower double-lug eye plates are respectively positioned under the plurality of upper double-lug eye plates, the upper double-lug eye plates and the lower double-lug eye plates which are arranged in the same vertical direction form a group, the upper double-lug eye plates and the lower double-lug eye plates in each group are jointly connected with a fastening mechanism, and the plurality of fastening mechanisms are driven by a supporting hydraulic cylinder connected with the fastening mechanisms to fasten the whole cutting device on the inner wall of the cut steel pipe.

Furthermore, the fastening mechanism comprises support short arms, support rods and connecting arms which are controlled by the expansion and contraction of the support hydraulic cylinder, each upper double-lug-eye plate and each lower double-lug-eye plate are respectively connected with one support short arm, the two support short arms connected with the upper double-lug-eye plate and the lower double-lug-eye plate in the same group are arranged in parallel, the other ends of the two support short arms are jointly connected with one support rod, and a parallelogram is formed among the two support short arms, the support rods and the main structural steel pipe in the same group;

every under bracing forearm inboard all adds and is equipped with the linking arm, a plurality of notches have evenly been seted up on the circumference pipe wall of main structure steel pipe, the linking arm passes the notch of main structure steel pipe and is connected with the telescopic link that supports the pneumatic cylinder, the jar action that stretches of supporting the pneumatic cylinder drives the linking arm to top under bracing forearm carries out driven and drives and supports forearm and bracing piece motion, when whole cutting device places in being cut the steel pipe, and the multiunit supports the forearm from top to bottom and fastens inside the steel pile under the drive of supporting the pneumatic cylinder, and the bracing piece pastes tight steel pipe inner wall.

Furthermore, four upper double-ear eye plates are symmetrically distributed at 90 degrees; four lower double-lug eye plates are symmetrically distributed at 90 degrees; notches are formed in the pipe wall of the main structure steel pipe at intervals of 90 degrees.

Further, slewer includes drive gear, speed reducer and the gyration actuating motor with the interlock of outer gear slewing bearing, the gyration actuating motor links to each other with the speed reducer, the speed reducer is fixed on rotary working platform, and the pivot passes trompil and drive gear key-type connection on the rotary working platform, drive gear and slewing bearing outer lane tooth interlock, the gyration actuating motor passes through the speed reducer and drives drive gear rotation to it rotates to drive rotary working platform.

Further, cutting device is equipped with one set at least, including unit head, milling cutter, feeding pneumatic cylinder and slide rail, the unit head includes driving motor and end mill head, driving motor links to each other with end mill head is vertical, anchor clamps and end mill head level are to linking to each other, milling cutter is pressed from both sides tightly and is followed the radial directional steel pipe wall of being cut of rotary work platform by anchor clamps, end mill head and slide rail sliding connection, the slide rail is fixed on rotary work platform, feeding pneumatic cylinder one end and fixing on rotary work platform, end mill head is connected to the other end, the jar action that stretches of feeding pneumatic cylinder promotes and ends that the mill head is whole to feed along the slide rail.

Furthermore, two sets of cutting devices are arranged, and are oppositely arranged at 180 degrees by the axis of the rotary working platform; the position of the rotating device and the axis of the cutting device are arranged in an included angle of 90 degrees.

The utility model also provides a drilling and milling cutting device's application method in the underwater pipe, including following step:

when the cutting device is used, the crane hoists the whole cutting device to be placed in a steel pipe to be cut, and after the cutting device reaches a designed cutting position, the supporting hydraulic cylinder is started to push the connecting arm, so that the supporting short arm is driven to enable the supporting rod 8 to be attached to the inner wall of the steel pipe to be cut, and the whole cutting device is fastened in the steel pipe to be cut;

secondly, starting a driving motor, driving a milling cutter to rotate at a high speed through an end milling head, starting a feeding hydraulic cylinder to push the milling cutter to feed to the cut steel pipe along a slide rail after the milling cutter is finished, and simultaneously rotating and feeding the milling cutter at a high speed so as to drill a hole on the pipe wall of the cut steel pipe; two sets of cutting devices are fixed on the rotary working platform, the two sets of cutting devices rotate simultaneously along with the rotary working platform, and the rotary working platform rotates 180 degrees to complete the cutting of the cut steel pipe due to the opposite arrangement of the two sets of cutting devices; for the large-diameter cut steel pipe, the rotary working platform is large in space, four sets of cutting devices can be arranged according to actual space, the rotary working platform can cut the cut steel pipe only by rotating 90 degrees, and the efficiency is further improved.

Compared with the prior art, the utility model has the advantages of it is following:

1. the utility model provides a intraductal brill mills cutting device under water has simple structure, independently characteristics such as nimble, efficient, strong adaptability.

2. The utility model provides an intraductal brill mills cutting device under water has better advantage to the cutting of steel pile within 35mm of wall thickness, and this kind of novel equipment low cost, general enterprise all can purchase or process, can avoid pressing from both sides sword scheduling problem in the slot interpolation backing plate to vertical pile cutting, not only solves traditional mechanical cutting mechanism's problem, still guarantees to have sufficient intensity and accurate location in the cutting, is the many choices of cutting operation under water simultaneously.

In conclusion, the technical scheme of the utility model can solve the problems that the high pressure water cutting and underwater laser cutting equipment in the prior art are too high, and common small and medium-sized enterprises can not bear high equipment cost; underwater electric oxygen arc cutting belongs to destructive cutting, only ensures cutting off and has to be operated by divers; the beveling machine cutting belongs to annular rotating internal cutting and has the defects that when vertical steel pile cutting is carried out, a cutter is easy to clamp during cutting off, and a backing plate cannot be used for prevention; the cutting of the diamond wire saw is external cutting, and equipment can not be installed when an interference structure exists outside the pile.

Based on the above reason the utility model discloses can extensively promote in fields such as cutting of the underwater internal cutting of piling bar.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a cross-sectional view (90 ° cross-sectional jigsaw puzzle) of the drilling, milling and cutting device of the present invention, wherein the left and right side figures are vertical cross-sections.

Fig. 2 is a layout diagram of the rotary working platform of the present invention.

Fig. 3 is a view angle structure diagram of a-a in fig. 1 according to the present invention.

In the figure: 1. a main structural steel pipe; 2. an upper flange; 3. a lower flange; 4. a binaural eye plate; 5. a support hydraulic cylinder; 6. a base flange; 7. a short support arm; 8. a stay bar; 9. a connecting arm; 10. an outer ring of the slewing bearing; 11. a slewing bearing inner ring; 12. a rotary working platform; 13. a drive gear; 14. a speed reducer; 15. a rotary drive motor; 16. a drive motor; 17. a vertical milling head; 18. a clamp; 19. milling cutters; 20. a slide rail; 21. a feed hydraulic cylinder; 22. the steel pipe is cut.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in the figure, the utility model provides a brill mills cutting device in intraductal under water arranges in that inside mud has been dug out in cut steel pipe 22, include: the cutting device comprises a fixing device, a cutting device and a rotating device, wherein the cutting device and the rotating device are installed below the fixing device, the fixing device is used for fastening the whole cutting device on the inner wall of the cut steel pipe 22, the rotating device is used for achieving circumferential rotation of the cutting device, the cutting device is used for drilling through the pipe wall of the cut steel pipe 22, and circumferential cutting of the pipe wall of the cut steel pipe 22 is achieved under the driving of the rotating device.

As a preferred embodiment, the fixing device comprises a main structural steel pipe 1, a supporting hydraulic cylinder 5 and a fastening mechanism, the supporting hydraulic cylinder 5 is arranged in a cavity inside the main structural steel pipe 1 (with a telescopic rod of the supporting hydraulic cylinder 5 facing downwards), an upper flange 2 and a lower flange 3 are welded at the upper end and the lower end of the main structural steel pipe 1 respectively, the top surface of the upper flange 2 is connected with a base flange 6 of the supporting hydraulic cylinder 5, the bottom surface of the lower flange 3 is connected with an outer slewing bearing ring 10 of an outer slewing bearing, an inner slewing bearing ring 11 of the outer slewing bearing is connected with a slewing working platform 12, both the cutting device and the slewing device are fixed on the slewing working platform 12, the slewing device is rotatably connected with the outer slewing bearing ring 10, and the outer slewing bearing ring 10 drives the slewing working platform 12 to rotate, so as to drive the cutting device to rotate, the fixing device is rotationally connected with the rotary working platform 12; the rotary working platform 12 is circular, and the center of the rotary working platform is coaxial with the rotating axis of the external gear rotary support;

the outer wall of the main structure steel pipe 1 is connected with a plurality of fastening mechanisms, the fastening mechanisms are connected with the supporting hydraulic cylinder 5 and driven by the supporting hydraulic cylinder 5, and the whole device is fastened on the inner wall of the cut steel pipe 22.

In a preferable embodiment, at least two upper double-lug eye plates which are uniformly distributed in the circumferential direction are welded on the outer wall of the main structure steel pipe 1 on the bottom surface of the upper flange 2, at least two lower double-lug eye plates which are uniformly distributed in the circumferential direction are welded on the outer wall of the main structure steel pipe 1 on the top surface of the lower flange 3, the plurality of lower double-lug eye plates are respectively positioned under the plurality of upper double-lug eye plates, the upper double-lug eye plates and the lower double-lug eye plates which are arranged in the same vertical direction form a group, each group of upper double-lug eye plates and lower double-lug eye plates are commonly connected with a fastening mechanism, and the plurality of fastening mechanisms are driven by a supporting hydraulic cylinder 5 connected with the fastening mechanisms to fasten the whole device on the inner wall of the cut steel pipe 22.

As a preferred embodiment, the fastening mechanism comprises a supporting short arm 7, a supporting rod 8 and a connecting arm 9 which are controlled by the expansion and contraction of the supporting hydraulic cylinder 5, each upper double-lug-eye plate and each lower double-lug-eye plate are respectively connected with one supporting short arm 7, the two supporting short arms 7 connected with the upper double-lug-eye plate and the lower double-lug-eye plate in the same group are arranged in parallel, the other ends of the two supporting short arms 7 are connected with one supporting rod 8, and a parallelogram is formed between the two supporting short arms 7 and the supporting rods 8 in the same group and the main structural steel pipe 1;

every lower support forearm inboard all adds and is equipped with linking arm 9, a plurality of notches have evenly been seted up on the circumference pipe wall of main structure steel pipe 1, linking arm 9 passes main structure steel pipe 1's notch and is connected with the telescopic link that supports pneumatic cylinder 5, the jar action that stretches of supporting hydraulic cylinder 5 drives linking arm 9 to top push away the lower support forearm and follow and drive and support forearm and bracing piece 8 motion, when whole cutting device placed by cutting steel pipe 22 in, the multiunit supports the forearm from top to bottom and fastens inside the piling bar under supporting hydraulic cylinder 5 drives, and bracing piece 8 pastes tight steel pipe inner wall.

As a preferred embodiment, four upper double-ear eye plates are arranged and are symmetrically distributed at 90 degrees; four lower double-lug eye plates are symmetrically distributed at 90 degrees; notches are formed in the pipe wall of the main structural steel pipe 1 at intervals of 90 degrees.

In a preferred embodiment, the rotating device includes a driving gear 13 engaged with the external gear rotating support, a speed reducer 14 and a rotating driving motor 15, the rotating driving motor 15 is connected to the speed reducer 14, the speed reducer 14 is fixed on the rotating working platform 12, a rotating shaft passes through an opening on the rotating working platform 12 and is in key connection with the driving gear 13, the driving gear 13 is engaged with the rotating support outer ring 10, and the rotating driving motor 15 drives the driving gear 13 to rotate through the speed reducer 14, so as to drive the rotating working platform 12 to rotate.

As a preferred embodiment, the cutting device is at least provided with one set, and includes a power head, a milling cutter 19, a feeding hydraulic cylinder 21 and a slide rail 20, the power head includes a driving motor 16 and an end mill head 17, the driving motor 16 is vertically connected with the end mill head 17, the clamp 18 is horizontally connected with the end mill head 17, the milling cutter 19 is clamped by the clamp 18 and points to the pipe wall of the cut steel pipe 22 along the radial direction of the rotary working platform 12, the end mill head 17 is slidably connected with the slide rail 20, the slide rail 20 is fixed on the rotary working platform 12, one end of the feeding hydraulic cylinder 21 is fixed on the rotary working platform 12, the other end of the feeding hydraulic cylinder 21 is connected with the end mill head 17, and the cylinder extending action of the feeding hydraulic cylinder 21 pushes the end mill head 17 to feed along the slide rail 20 as a whole.

As a preferred embodiment, two sets of cutting devices are arranged, and the two sets of cutting devices are oppositely arranged by 180 degrees at the axis of the rotary working platform 12; the position of the rotating device and the axis of the cutting device are arranged in an included angle of 90 degrees.

The utility model also provides a drilling and milling cutting device's application method in the underwater pipe, including following step:

when the cutting device is used, the crane lifts the whole cutting device to be placed into a cut steel pipe 22 to be cut, and after the cutting device reaches a designed cutting position, the supporting hydraulic cylinder 5 is started to push the connecting arm 9, so that the supporting short arm is driven to enable the supporting rod 8 to be attached to the inner wall of the cut steel pipe 22, and the whole cutting device is fastened in the cut steel pipe 22;

step two, starting a driving motor 16, driving a milling cutter 19 to rotate at a high speed through an end milling head 17, starting a feeding hydraulic cylinder 21 to push the milling cutter 19 to feed to a cut steel pipe 22 integrally along a slide rail 20 after the completion, simultaneously rotating the milling cutter 19 at a high speed, so as to drill a hole on the pipe wall of the cut steel pipe 22, and after the pipe wall of the cut steel pipe 22 is drilled through, starting a rotary driving motor 15 to drive a driving gear 13 to rotate through a speed reducer 14, so as to drive a rotary working platform 12 to rotate; two sets of cutting devices are fixed on the rotary working platform 12, the two sets of cutting devices rotate simultaneously along with the rotary working platform 12, and the rotary working platform 12 rotates 180 degrees due to the opposite arrangement of the two sets of cutting devices, so that the cut steel pipe 22 can be cut; for the large-diameter cut steel pipe 22, the rotary working platform 12 has large space, four sets of cutting devices can be arranged according to actual space, the rotary working platform 12 can complete the cutting of the cut steel pipe 22 only by rotating 90 degrees, and the efficiency is further improved.

Example 1

As shown in figures 1-3, the drilling, milling and cutting device for the underwater pipe comprises an upper layer and a lower layer, wherein the upper layer is a fixing device, and the lower layer is a cutting device and a rotating device. The fixing device comprises a supporting hydraulic cylinder 5, a supporting short arm 7 controlled by the expansion of the supporting hydraulic cylinder, an upper flange, a lower flange, a base flange 6, a main structural steel pipe 1 and other main components, wherein the fixing device comprises a seamless steel pipe as a main structure (the steel pipe is a structure which is used for fixing the supporting hydraulic cylinder and the supporting short arm and is integrated with the upper flange and the lower flange), notches are formed in the steel pipe at intervals of 90 degrees, the supporting hydraulic cylinder 5 is arranged in the main structural steel pipe 1, the upper flange 2 and the lower flange 3 are respectively welded at the upper end and the lower end of the steel pipe, the top surface of the upper flange 2 is connected with the base flange 6 of the supporting hydraulic cylinder 5, the bottom surface of the lower flange 3 is connected with a slewing bearing outer ring 10, the bottom surfaces of the upper flange 2 and the lower flange 3 are respectively welded with four double-lug eye plates 4 which are symmetrically distributed at 90 degrees outside the steel pipe, the four double-lug eye plates above and the four double-lug eye plates below are vertically arranged in a one-to-one correspondence, and the upper and the lower double-lug eye plates form a group, and are respectively connected (hinged) with a positioning support short arm 7, the upper and lower support short arms 7 in the same group are arranged in parallel, the other ends of the two support short arms are jointly connected (hinged) with a support rod 8, a parallelogram is formed between the support rod 8 and the two support short arms in the same group and the main structural steel pipe 1 (if the main structural steel pipe is taken as a frame, the two support short arms 7, the support rod 8 and the main structural steel pipe can form a parallel four-bar mechanism), a connecting arm 9 (the lower support short arm is hinged with one end of the connecting arm 9) is additionally arranged on the inner side of the lower support short arm, the connecting arm 9 passes through a slot of the main structural steel pipe and is connected (hinged) with a telescopic rod of a support hydraulic cylinder 5, the cylinder 5 extends to drive the connecting arm 9 so as to push the lower support short arm 7 to be driven and drive the upper support short arm and the support rod 8 to move, when the equipment is placed in a cut steel pipe 22 (a cut steel pile), the four groups of the upper and lower support short arms 7 are fastened in the steel pile under the drive of the support hydraulic cylinder 5, the stay bar 8 is tightly attached to the inner wall of the steel pipe.

In the present embodiment, the lower flange 3 of the main structural steel pipe 1 is geared with the outer ring 10 of the slewing bearing of the external gear slewing bearing, the inner ring 11 of the slewing bearing of the external gear is geared with the circular slewing table 12 (the circular slewing table 12 is anchored to the slewing bearing), and the rotation axis center of the external gear slewing bearing is coaxial with the center of the slewing table 12.

In the embodiment, 2 sets of cutting devices with the same structure are arranged on the rotary working platform 12, and 1 set of rotary device. The 2 sets of cutting devices are oppositely arranged in a 180-degree mode by the axis of the circular rotary working platform 12 (the two sets of cutting devices are oppositely arranged on the rotary working platform in a 180-degree mode), the cutting devices are connected with the inner ring of the rotary support through the rotary working platform, the milling cutters 19 of the cutting devices point to the cut steel piles along the radial direction of the rotary working platform, and the positions of the rotary devices and the axis of the cutting devices are arranged in a 90-degree included angle mode.

In the present embodiment, the slewing device is composed of an external gear slewing bearing, a driving gear 13 meshed with the external gear slewing bearing, a speed reducer 14, a slewing drive motor 15, and a circular slewing work platform 12 anchored to the external gear slewing bearing, wherein the slewing drive motor 15 (slewing drive hydraulic motor) is fixed to the speed reducer 14 by bolts, the speed reducer 14 is fixed to the slewing work platform 12 by bolts, a shaft passes through an opening on the platform and is connected with the driving gear 13 in a key manner, and the driving gear 13 is meshed with the slewing bearing outer ring 10 in a gear manner. As the outer ring 10 of the slewing bearing is connected with the lower flange 3 of the fixing device, and the inner ring 11 of the slewing bearing is connected with the slewing working platform 12, the fixing device is in rotary connection with the slewing working platform. Because the slewing bearing outer ring 10 is fixed on the fixing device, the slewing bearing outer ring 10 is meshed with the driving gear 13, and the slewing driving motor 15 is started to drive the driving gear 13 to rotate through the speed reducer 14, so that the slewing working platform 12 is driven to rotate.

In the present embodiment, the cutting device has two sets of identical mechanisms, and is composed of a power head including a driving motor 16 and an end mill 17, a clamp 18, a milling cutter 19 (drill milling cutter), a slide rail 20, and a feeding hydraulic cylinder 21, wherein the power head can slide linearly on the slide rail 20, and the power is provided by the feeding hydraulic cylinder 21 fixed on both sides of the slide rail. Specifically, the driving motor 16 is vertically connected with the vertical milling head 17 through a bolt, the clamp 18 is horizontally connected with the vertical milling head 17, the milling cutter 19 is clamped by the clamp 18, the vertical milling head 17 is fixed on a slide rail 20 and is slidably connected with the slide rail 20, the slide rail 20 is fixed on the rotary working platform 12, one end of the feeding hydraulic cylinder 21 is fixed on the rotary working platform 12, the other end of the feeding hydraulic cylinder 21 is connected with the vertical milling head 17, and the feeding hydraulic cylinder 21 extends to push the vertical milling head 17 to drive the milling cutter 19 to feed along the slide rail 20.

The utility model discloses a use method does: during the use, the loop wheel machine hangs whole equipment and puts to the steel-pipe pile that needs the cutting in (being dug the interior mud of cutting steel pipe 22 and having been hollowed), after reacing design cutting position, starts to support pneumatic cylinder 5 and promotes linking arm 9 to drive and support short arm 7 and make vaulting pole 8 paste tight steel-pipe pile inner wall, fasten equipment wholly. Starting the driving motors 16 (two sets of driving motors start simultaneously), driving the milling cutter 19 to rotate at a high speed through the end milling head 17, starting the feeding hydraulic cylinders 21 (two sets of driving motors start simultaneously) after finishing, pushing the milling cutter to feed to the steel pipe pile integrally along the slide rail 20, simultaneously feeding the milling cutter 19 to drill on the pipe wall of the steel pipe pile, and after the steel pipe pile is drilled through the pipe wall, starting the rotary driving motor 15 to drive the driving gear 13 to rotate through the speed reducer 14, so as to drive the rotary working platform 12 to rotate. The two sets of cutting devices fixed on the rotary working platform 12 rotate simultaneously, and the rotary working platform rotates 180 degrees to complete the cutting of the steel pipe pile due to the relative reverse arrangement of the two sets of cutting devices. The equipment forming machine aims at phi 1100mm steel pile equipment, the space of the rotary working platform is large for large-diameter steel pipe piles, four sets of cutting devices can be arranged according to actual space, the rotary working platform can complete steel pipe pile cutting only by rotating 90 degrees, and the efficiency is further improved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (8)

1. A drilling and milling cutting device for underwater pipes, placed inside a cut steel pipe (22) whose interior has been hollowed out, comprising: the cutting device comprises a fixing device, a cutting device and a rotating device, wherein the cutting device and the rotating device are installed below the fixing device, the fixing device is used for fastening the whole cutting device on the inner wall of a cut steel pipe (22), the rotating device is used for achieving circumferential rotation of the cutting device, the cutting device is used for drilling through the pipe wall of the cut steel pipe (22), and circumferential cutting of the pipe wall of the cut steel pipe (22) is achieved under the driving of the rotating device.

2. The underwater pipe internal drilling, milling and cutting device as claimed in claim 1, wherein the fixing device comprises a main structural steel pipe (1), a supporting hydraulic cylinder (5) and a fastening mechanism, the supporting hydraulic cylinder (5) is arranged inside the main structural steel pipe (1), an upper flange (2) and a lower flange (3) are welded at the upper end and the lower end of the main structural steel pipe (1) respectively, the top surface of the upper flange (2) is connected with a base flange (6) of the supporting hydraulic cylinder (5), the bottom surface of the lower flange (3) is connected with a slewing bearing outer ring (10) of an external gear slewing bearing, a slewing bearing inner ring (11) of the external gear slewing bearing is connected with a slewing working platform (12), the cutting device and the slewing device are both fixed on the slewing working platform (12), the slewing device is rotatably connected with the slewing bearing outer ring (10) and drives the slewing working platform (12) to rotate through the slewing bearing outer ring (10), thereby driving the cutting device to rotate, and the fixing device is rotationally connected with the rotary working platform (12); the rotary working platform (12) is circular, and the center of the rotary working platform is coaxial with the rotating axis of the external gear rotary support;

the main structure steel pipe (1) is connected with a plurality of fastening mechanisms, and the fastening mechanisms are connected with the supporting hydraulic cylinder (5) and driven by the supporting hydraulic cylinder (5) to fasten the whole cutting device on the inner wall of the cut steel pipe (22).

3. The underwater pipe internal drilling, milling and cutting device as claimed in claim 2, wherein at least two upper double-lug eye plates which are uniformly distributed in the circumferential direction are welded on the outer wall of the main structural steel pipe (1) at the bottom surface of the upper flange (2), at least two lower double-lug eye plates which are uniformly distributed in the circumferential direction are welded on the outer wall of the main structural steel pipe (1) at the top surface of the lower flange (3), the plurality of lower double-lug eye plates are respectively positioned under the plurality of upper double-lug eye plates, the upper double-lug eye plates and the lower double-lug eye plates which are positioned in the same vertical direction form a group, the upper double-lug eye plates and the lower double-lug eye plates of each group are jointly connected with a fastening mechanism, the plurality of fastening mechanisms are driven by supporting hydraulic cylinders (5) connected with the fastening mechanisms, and the whole cutting device is fastened on the inner wall of the cut steel pipe (22).

4. The underwater pipe internal drilling, milling and cutting device is characterized in that the fastening mechanism comprises supporting short arms (7), supporting rods (8) and connecting arms (9) which are controlled by the telescopic control of a supporting hydraulic cylinder (5), each upper double-lug-eye plate and each lower double-lug-eye plate are respectively connected with one supporting short arm (7), the two supporting short arms (7) connected with the upper double-lug-eye plate and the lower double-lug-eye plate in the same group are arranged in parallel, the other ends of the two supporting short arms (7) are connected with one supporting rod (8) together, and a parallelogram is formed among the two supporting short arms (7), the supporting rods (8) in the same group and the main structural steel pipe (1);

linking arm (9) have all been installed additional to every under bracing forearm inboard, a plurality of notches have evenly been seted up on the circumference pipe wall of main structure steel pipe (1), the notch that main structure steel pipe (1) was passed in linking arm (9) is connected with the telescopic link that supports pneumatic cylinder (5), the jar action that stretches of supporting pneumatic cylinder (5) drives linking arm (9) to the top pushes away under bracing forearm and follows and support forearm and vaulting pole (8) motion, when whole cutting device placed in being cut steel pipe (22), supports the forearm from top to bottom in the multiunit and drives down the fastening inside the piling bar, and vaulting pole (8) paste tight steel pipe inner wall.

5. The underwater pipe internal drilling, milling and cutting device as claimed in claim 3 or 4, wherein four upper double-lug eye plates are symmetrically distributed at 90 degrees; four lower double-ear eye plates are symmetrically distributed at 90 degrees; notches are formed in the pipe wall of the main structural steel pipe (1) at intervals of 90 degrees.

6. The underwater pipe internal drilling, milling and cutting device as recited in claim 2, wherein the rotating device comprises a driving gear (13) meshed with the external gear rotating support, a speed reducer (14) and a rotating driving motor (15), the rotating driving motor (15) is connected with the speed reducer (14), the speed reducer (14) is fixed on the rotating working platform (12), a rotating shaft penetrates through an opening on the rotating working platform (12) to be connected with the driving gear (13) in a key mode, the driving gear (13) is meshed with the rotating support outer ring (10) in a tooth mode, and the rotating driving motor (15) drives the driving gear (13) to rotate through the speed reducer (14), so that the rotating working platform (12) is driven to rotate.

7. The underwater in-pipe drilling, milling and cutting device as recited in claim 2, wherein the cutting device is provided with at least one set, comprising a power head, a milling cutter (19), a feeding hydraulic cylinder (21) and a slide rail (20), the power head comprises a driving motor (16) and an end milling head (17), the driving motor (16) is vertically connected with the vertical milling head (17), the clamp (18) is horizontally connected with the vertical milling head (17), the milling cutter (19) is clamped by the clamp (18) and points to the wall of the cut steel pipe (22) along the radial direction of the rotary working platform (12), the vertical milling head (17) is connected with a slide rail (20) in a sliding way, the slide rail (20) is fixed on the rotary working platform (12), one end of the feeding hydraulic cylinder (21) is fixed on the rotary working platform (12), the other end is connected with the vertical milling head (17), the cylinder extending action of the feeding hydraulic cylinder (21) pushes the whole vertical milling head (17) to feed along the slide rail (20).

8. The underwater in-pipe drilling, milling and cutting device as recited in claim 7, wherein there are two sets of cutting devices, which are oppositely arranged with the axis of the rotary working platform (12) at 180 degrees; the position of the rotating device and the axis of the cutting device are arranged in an included angle of 90 degrees.

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