CN215431240U - Double-specification cutting multi-station pipe end machine - Google Patents

Abstract

The utility model discloses a double-specification cutting multi-station pipe end machine which comprises a straightening device, a feeding device, a clamping device, a cutting device, a snapping device and a pipe end machining device. According to the double-specification cutting multi-station pipe end machine, the feeding device is provided with the two groups of feeding and clamping mechanisms, pipes on the two pipe cutting lines are clamped by the two groups of feeding and clamping mechanisms respectively, and the two groups of feeding and clamping mechanisms work independently, so that the feeding device can convey a single pipe at a time, and further the feeding device can convey two pipes with different lengths and specifications at different times, so that the cutting of the double-specification pipes is realized, the use flexibility of equipment is improved, and the production and production scheduling of enterprises are facilitated.

Description

Double-specification cutting multi-station pipe end machine

Technical Field

The utility model relates to the technical field of pipe end machining equipment, in particular to a double-specification cutting multi-station pipe end machine.

Background

Most of the existing pipe end machines are double-line pipe end opening machines which are provided with two pipe material opening lines, so that the processing efficiency is improved, and the pipe end machines are suitable for the working efficiency of pipe bending machines. The feeding device of the double-line pipe opening and closing machine is provided with a group of feeding and clamping mechanisms, each feeding and clamping mechanism comprises a feeding and clamping module and a feeding and clamping driving piece, the feeding and clamping modules are driven to open and close by the feeding and clamping driving pieces so as to release or clamp pipes, the feeding and clamping mechanisms are driven to move by the feeding and moving driving pieces, and the feeding and clamping modules can clamp two pipes and convey the two pipes at one time. Therefore, the feeding device can only simultaneously convey two pipes with the same length specification, so that the double-line pipe end cutting machine can only cut two pipes with the same length specification. However, for small enterprises, due to the limitation of production cost and site space, the double-line pipe cutting and end machine is usually only equipped, and the double-line pipe cutting and end machine can only cut two pipes with the same length specification at a time, and can not cut the pipes with the other length specification at the same time, so that the use flexibility is lacked, the production scheduling is not facilitated, and the production schedule is influenced.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides a double-specification cutting multi-station pipe end machine.

The utility model discloses a double-specification cutting multi-station pipe end machine, which comprises:

the straightening device comprises two groups of straightening mechanisms, wherein one group of straightening mechanisms is arranged along a first pipe material opening line, and the other group of straightening mechanisms is arranged along a second pipe material opening line;

the feeding device comprises two groups of feeding and clamping mechanisms and feeding moving mechanisms, wherein one group of feeding and clamping mechanisms are arranged along a first pipe material opening line, the other group of feeding and clamping mechanisms are arranged along a second pipe material opening line, and the two groups of feeding and clamping mechanisms are linked with the feeding moving mechanisms;

the clamping device comprises two groups of clamping mechanisms, wherein one group of clamping mechanisms is arranged along a first pipe material opening line, and the other group of clamping mechanisms is arranged along a second pipe material opening line;

the blanking device comprises two groups of blanking mechanisms and blanking driving mechanisms, wherein one group of the blanking mechanisms is arranged along a first pipe material cutting line, the other group of the blanking mechanisms is arranged along a second pipe material cutting line, and the two groups of the blanking mechanisms are linked with the blanking driving mechanisms;

the breaking device comprises two breaking mechanisms and two breaking moving mechanisms, wherein one breaking mechanism is arranged along a first pipe material opening line, the other breaking mechanism is arranged along a second pipe material opening line, and the two breaking mechanisms are linked with the breaking moving mechanisms; and

the pipe end processing device comprises two groups of pipe end processing mechanisms and pipe end moving mechanisms, wherein one group of pipe end processing mechanisms are arranged along a first pipe material cutting line, the other group of pipe end processing mechanisms are arranged along a second pipe material cutting line, and the two groups of pipe end processing mechanisms are linked with the pipe end moving mechanisms.

According to an embodiment of the present invention, two sets of feeding and clamping mechanisms are arranged side by side on the feeding linkage member, each feeding and clamping mechanism includes two feeding and clamping dies and a feeding and clamping driving member, the two feeding and clamping dies are arranged on the feeding linkage member, and one of the feeding and clamping dies is connected to an output end of the feeding and clamping driving member.

According to one embodiment of the utility model, the feeding moving mechanism comprises a feeding moving driving member and a feeding transmission assembly, and the feeding linkage member is connected to the output end of the feeding moving driving member through the feeding transmission assembly.

According to one embodiment of the utility model, two sets of clamping mechanisms are arranged on the clamping bearing part side by side, each clamping mechanism comprises two clamping dies and a clamping driving part, the two clamping dies are oppositely arranged on the clamping bearing part, and one clamping die is connected to the output end of the clamping driving part.

According to an embodiment of the present invention, the material cutting mechanism includes a material cutting guiding member, a material cutting transmission assembly, and a material cutting knife assembly, the material cutting guiding member has a material cutting guiding channel, the material cutting transmission assembly is disposed on the material cutting guiding member, the material cutting knife assembly is linked to the material cutting transmission assembly, the material cutting transmission assembly is linked to the material cutting driving mechanism, and the material cutting knife assembly is disposed around a discharging end of the material cutting guiding channel.

According to an embodiment of the utility model, two sets of breaking mechanisms are arranged on the breaking installation part side by side, each breaking mechanism comprises two breaking clamping dies and a breaking clamping driving part, the two breaking clamping dies are arranged on the breaking installation part oppositely, and one of the breaking clamping dies is connected to the output end of the breaking clamping driving part through the breaking transmission assembly.

According to an embodiment of the present invention, the snapping transmission assembly includes a snapping transmission fixing member and a snapping transmission hinge member, the snapping transmission fixing member is disposed on the snapping mounting member, one end of the snapping transmission hinge member is hinged to one of the snapping material clamping dies, the other end of the snapping transmission hinge member is hinged to the snapping transmission fixing member, and the hinge point of the snapping transmission hinge member is connected to the output end of the snapping material clamping driving member.

According to one embodiment of the present invention, the pipe end machining mechanism includes a pipe end shaping die head and a pipe end shaping driving member, the pipe end shaping die head is connected to an output end of the pipe end shaping driving member, the pipe end shaping driving member is provided on a first pipe end connector, and the first pipe end connector is slidably provided on a second pipe end connector.

According to an embodiment of the present invention, the tube end moving mechanism includes a tube end traverse driving member and a tube end vertical movement driving member, the first tube end connector is connected to an output end of the tube end traverse driving member, and the second tube end connector is connected to an output end of the tube end vertical movement driving member.

According to an embodiment of the present invention, the pipe end processing apparatus further includes a pipe end expanding and contracting mechanism, the pipe end expanding and contracting mechanism includes a pipe end expanding and contracting die head set and a pipe end expanding and contracting mouth driving member, the pipe end expanding and contracting die head set and the pipe end expanding and contracting mouth driving member are disposed on the first pipe end connecting member, and the pipe end expanding and contracting die head set is connected to an output end of the pipe end expanding and contracting mouth driving member.

Compared with the prior art, the double-specification cutting multi-station pipe end machine has the following advantages:

according to the double-specification cutting multi-station pipe end machine, the feeding device is provided with the two groups of feeding and clamping mechanisms, pipes on the two pipe cutting lines are clamped by the two groups of feeding and clamping mechanisms respectively, and the two groups of feeding and clamping mechanisms work independently, so that the feeding device can convey a single pipe at a time, and further the feeding device can convey two pipes with different lengths and specifications at different times, so that the cutting of the double-specification pipes is realized, the use flexibility of equipment is improved, and the production and production scheduling of enterprises are facilitated.

In addition, the straightening mechanism, the clamping mechanism, the cutting mechanism, the snapping and clamping mechanism and the pipe end processing mechanism are respectively provided with two groups, so that the linkage between two pipe cutting lines is reduced, the single-line operation can be realized, and the use flexibility is further improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a top view of the double-gauge cutting multi-station pipe-end machine in an embodiment;

FIG. 2 is a schematic structural diagram of a double-gauge slitting multi-station pipe end machine in an embodiment;

fig. 3 is an enlarged view of region a in fig. 1.

Description of reference numerals:

l1, a first pipe cutting line; l2, a second pipe cutting line;

1. a straightening device; 11. a straightening mechanism; 111. straightening a feed end; 112. a straightening wheel set; 113. straightening the discharging end; 2. a feeding device; 21. a feeding and clamping mechanism; 211. feeding a clamping die; 212. a feeding and clamping driving member; 22. a feeding moving mechanism; 221. feeding a movable driving member; 222. a feeding transmission assembly; 23. a feeding linkage member; 24. a feeding mounting member; 3. a clamping device; 31. a clamping mechanism; 311. clamping the die; 312. clamping the driving member; 32. clamping the carrier; 33. clamping the mounting member; 4. a material cutting device; 41. a material cutting mechanism; 42. a material cutting driving mechanism; 5. a snapping device; 51. breaking the clamping mechanism; 511. breaking the material clamping die; 512. breaking the clamping driving piece; 513. breaking the transmission assembly; 5131. breaking the transmission fixing piece; 5132. snapping the drive hinge; 53. snapping off the mounting piece; 6. a pipe end processing device; 61. a pipe end machining mechanism; 611. a pipe end shaping die head; 612. a tube end shaping drive; 62. a pipe end moving mechanism; 622. the pipe end vertically moves the driving piece; 63. a pipe end expanding and contracting mechanism; 631. a pipe end flaring and necking die head group; 632. a pipe end expansion and contraction opening driving piece; 64. a first pipe end connector; 65. a second pipe end connector.

Detailed Description

In the following description, for purposes of explanation, numerous implementation details are set forth in order to provide a thorough understanding of the various embodiments of the present invention. It should be understood, however, that these implementation details are not to be interpreted as limiting the utility model. That is, in some embodiments of the utility model, such implementation details are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.

In addition, the descriptions related to the first, the second, etc. in the present invention are only used for description purposes, do not particularly refer to an order or sequence, and do not limit the present invention, but only distinguish components or operations described in the same technical terms, and are not understood to indicate or imply relative importance or implicitly indicate the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1-3, a double-specification cutting multi-station pipe end machine comprises a straightening device 1, a feeding device 2, a clamping device 3, a cutting device 4, a stretch-breaking device 5 and a pipe end processing device 6, wherein the straightening device 1, the feeding device 2, the clamping device 3, the cutting device 4, the stretch-breaking device 5 and the pipe end processing device 6 are sequentially arranged on a machine table.

The pipe cutting machine comprises a straightening device 1, a feeding device 2, a pipe end processing device 6, a cutting device 4, a stretch breaking device 5 and a conveying device, wherein the straightening device 1 is used for straightening pipes on a tray, the feeding device 2 is used for conveying the straightened pipes to the pipe end processing device 6, pipe ends of the pipes are processed through the pipe end processing device 6, the feeding device 2 is used for conveying the pipes in a fixed length mode after the pipe ends are processed, the pipes are cut circularly through the cutting device 4, the pipes at the front end are broken through the stretch breaking device 5 to achieve single-section pipe separation, and the single-section pipes are moved away through the conveying device. Wherein, in the pipe end processing or the pipe breaking process, the pipe is clamped by the clamping device 3 and the breaking device 5, so that the pipe is prevented from rotating in the processing process.

This multistation pipe-end machine is opened to two specifications has two tubular product to open the stockline, is first tubular product to open stockline L1 and second tubular product to open stockline L2 respectively, and first tubular product is opened stockline L1 and second tubular product and is opened stockline L2 and be set up side by side.

Straightening device 1 includes two sets of straightening mechanisms 11, and two sets of straightening mechanisms 11 are located on the board side by side, and wherein a set of straightening mechanism 11 sets up along first tubular product stockline L1, and a set of straightening mechanism 11 sets up along second tubular product stockline L2 in addition. The straightening mechanism 11 includes a straightening feed end 111, a straightening wheel set 112, and a straightening discharge end 113, the straightening feed end 111 is communicated with one end of the straightening wheel set 112, and the other end of the straightening wheel set 112 is communicated with the straightening discharge end 113. The pipe on the charging tray enters the straightening wheel set 112 from the straightening feeding end 111, and is output from the straightening discharging end 113 after being straightened by the straightening wheel set 112.

The feeding device 2 comprises two groups of feeding and clamping mechanisms 21 and two groups of feeding and clamping mechanisms 22, wherein one group of feeding and clamping mechanisms 21 is arranged along a first pipe material opening line L1, and the other group of feeding and clamping mechanisms 21 is arranged along a second pipe material opening line L2; the two groups of feeding and clamping mechanisms 21 are linked with the feeding moving mechanism 22 and driven by the feeding moving mechanism 22 to move, and the two groups of feeding and clamping mechanisms 21 work independently.

Furthermore, the two feeding and clamping mechanisms 21 are arranged side by side on a feeding linkage member 23, and the feeding linkage member 23 is connected to the output end of the feeding moving mechanism 22. The feeding and clamping mechanism 21 comprises two feeding and clamping dies 211 and two feeding and clamping driving members 212, the two feeding and clamping dies 211 are arranged on the feeding linkage member 23, the feeding and clamping driving members 212 are arranged on the feeding linkage member 23, one feeding and clamping die 211 is connected to the output end of the feeding and clamping driving member 212, and the feeding and clamping driving members 212 drive the two feeding and clamping dies 211 to open and close so as to clamp and place the pipes.

Further, the two feeding material clamping dies 211 are arranged oppositely up and down, the feeding material clamping die 211 located below is fixed on the feeding linkage member 23, the feeding material clamping die 211 located above is connected with the output end of the feeding material clamping driving member 212, and the feeding material clamping driving member 212 is fixed on the feeding linkage member 23 through the feeding mounting member 24.

The feeding moving mechanism 22 includes a feeding moving driving member 221 and a feeding transmission assembly 222, the feeding linkage member 23 is connected to the output end of the feeding moving driving member 221 through the feeding transmission assembly 222, and the feeding moving driving member 221 drives the feeding transmission assembly 222 to drive the feeding linkage member 23 to move. Preferably, in the embodiment, the feeding transmission assembly 222 is a screw transmission assembly, and the feeding linkage member 23 is slidably disposed on the machine platform through a guide rod, so as to improve stability and smoothness of the feeding linkage member 23 during the moving process.

The clamping device 3 comprises two groups of clamping mechanisms 31, wherein one group of clamping mechanisms 31 is arranged along the first pipe material opening line L1, and the other group of clamping mechanisms 31 is arranged along the second pipe material opening line L2.

Further, two sets of clamping mechanisms 31 are arranged side by side on the clamping carrier 32, and the two sets of clamping mechanisms 31 work independently. The clamping mechanism 31 includes two clamping dies 311 and a clamping driving member 312, the two clamping dies 311 are disposed on the clamping carrier 32, and one of the clamping dies 311 is connected to an output end of the clamping driving member 312, and the clamping driving member 312 drives the two clamping dies 311 to open and close to clamp the pipe.

Furthermore, the two clamping dies 311 are disposed opposite to each other, the lower clamping die 311 is fixed to the clamping carrier 32, the upper clamping die 311 is connected to the output end of the clamping driving member 312, and the clamping driving member 312 is fixed to the clamping carrier 32 through the clamping mounting member 33.

The material cutting device 4 comprises two material cutting mechanisms 41 and two material cutting driving mechanisms 42, wherein the number of the material cutting mechanisms 41 is two, one group of the material cutting mechanisms 41 is arranged along a first pipe material cutting line L1, and the other group of the material cutting mechanisms 41 is arranged along a second pipe material cutting line L2. The two blanking mechanisms 41 are interlocked with the blanking driving mechanism 42, and the two blanking mechanisms 41 are driven by the blanking driving mechanism 42 to operate.

The material cutting mechanism 41 includes a material cutting guide member, a material cutting transmission assembly and a material cutting knife assembly, the material cutting guide member has a material cutting guide channel, the material cutting transmission assembly is arranged on the material cutting guide member, the material cutting knife assembly is linked with the material cutting transmission assembly, the material cutting transmission assembly is linked with the material cutting driving mechanism 42, and the material cutting knife assembly is arranged around the discharge end of the material cutting guide channel. The material cutting driving member of the material cutting driving mechanism 42 drives the material cutting transmission assembly to drive the material cutting knife set to work, so that the material cutting knife set performs circular cutting on the pipe in the material cutting and guiding channel.

The stretch breaking device 5 comprises a stretch breaking material clamping mechanism 51 and a stretch breaking moving mechanism, the number of the stretch breaking mechanisms is two, one group of the stretch breaking mechanisms is arranged along a first pipe material opening line L1, and the other group of the stretch breaking mechanisms is arranged along a second pipe material opening line L2. The two groups of breaking and clamping mechanisms 51 are linked with the breaking moving mechanism, the breaking moving mechanism drives the two groups of breaking and clamping mechanisms 51 to move, and the two groups of breaking mechanisms work independently.

Further, two snapping mechanisms are arranged side by side on the snapping mounting piece 53, and the snapping mounting piece 53 is connected to the output end of the snapping movable driving piece of the snapping moving mechanism. The stretch-breaking mechanism comprises two stretch-breaking material clamping dies 511 and a stretch-breaking material clamping driving piece 512, the two stretch-breaking material clamping dies 511 are oppositely arranged on the stretch-breaking mounting piece 53 from left to right, one of the stretch-breaking material clamping dies 511 is connected to the output end of the stretch-breaking material clamping driving piece 512 through a stretch-breaking transmission component 513, and the stretch-breaking material clamping driving piece 512 drives the two stretch-breaking material clamping dies 511 to open and close so as to clamp and place the pipe.

Further, the snapping transmission assembly 513 includes a snapping transmission fixing member 5131 and a snapping transmission hinge member 5132, the snapping transmission fixing member 5131 is disposed on the snapping installation member 53, one end of the snapping transmission hinge member 5132 is hinged to one of the snapping material clamping dies 511, the other end of the snapping transmission hinge member 5132 is hinged to the snapping transmission fixing member 5131, and the hinge point of the snapping transmission hinge member 5132 is connected to the output end of the snapping material clamping driving member 512.

The pipe end processing device 6 includes two sets of pipe end processing mechanisms 61 and pipe end moving mechanisms 62, wherein one set of pipe end processing mechanisms 61 is arranged along a first pipe cutting line L1, the other set of pipe end processing mechanisms 61 is arranged along a second pipe cutting line L2, and the two sets of pipe end processing mechanisms 61 are interlocked with the pipe end moving mechanisms 62. The two groups of pipe end processing mechanisms 61 are driven by the pipe end moving mechanism 62 to move, and the two groups of pipe end processing mechanisms 61 work independently.

Specifically, the tube-end machining mechanism 61 includes a tube-end shaping die 611 and a tube-end shaping driver 612, the tube-end shaping die 611 being connected to an output end of the tube-end shaping driver 612, the tube-end shaping driver 612 being provided on the first tube-end connector 64, the first tube-end connector 64 being slidably provided on the second tube-end connector 65.

The tube end moving mechanism 62 includes a tube end traversing drive and a tube end vertical drive 622, the first tube end connector 64 being connected to an output end of the tube end traversing drive, and the second tube end connector 65 being connected to an output end of the tube end vertical drive 622. The pipe-end vertical movement driver 622 drives the second pipe-end connector 65 to move in the vertical direction, the pipe-end lateral movement driver and the first pipe-end connector 64 move with the second pipe-end connector 65, the pipe-end lateral movement driver drives the first pipe-end connector 64 to move in the horizontal direction, and the pipe-end machining mechanism 61 moves with the first pipe-end connector 64.

Preferably, the pipe end processing device 6 further includes a pipe end expanding and contracting mechanism 63, the pipe end expanding and contracting mechanism 63 includes a pipe end expanding and contracting head set 631 and a pipe end expanding and contracting driving member 632, the pipe end expanding and contracting head set 631 and the pipe end expanding and contracting driving member 632 are disposed on the first pipe end connecting member 64, and the pipe end expanding and contracting head set 631 is connected to an output end of the pipe end expanding and contracting driving member 632, and the pipe end of the pipe can be expanded or contracted as required.

The working process of the double-specification cutting multi-station pipe end machine is as follows:

firstly, a pipe on a tray is straightened by a straightening mechanism 11, then the pipe is clamped by a feeding mechanism and is driven by a feeding moving mechanism 22 to move so as to convey the pipe, then a pipe end moving mechanism 62 drives a pipe end processing mechanism 61 to move so that the pipe end processing mechanism 61 is close to the pipe end of the pipe, the pipe end processing mechanism 61 shapes the pipe end of the pipe, after the pipe end is shaped, the pipe end moving mechanism 62 drives the pipe end processing mechanism 61 to move and return, then the pipe is clamped by the feeding mechanism and is driven by the feeding moving mechanism 22 to move so as to convey the pipe with fixed length, next, a cutting driving mechanism 42 drives a cutting mechanism 41 to perform circular cutting on the pipe, finally, a breaking clamping mechanism 51 clamps the pipe and is driven by the breaking moving mechanism to move so as to break the pipe, and a single-section pipe is moved by a conveying device. During the process of pipe end processing or pipe breaking, the clamping mechanism 31 and the breaking and clamping mechanism 51 clamp the pipe, so that the pipe is prevented from rotating in the processing process.

If only the pipes with the same length and specification need to be produced, the pipe cutting machine can be realized by the work of the mechanism on the single pipe cutting line, and can also be realized by the synchronous work of the mechanisms on the two pipe cutting lines. If two kinds of pipes with different length specifications need to be produced simultaneously, the two kinds of pipes with different length specifications are produced on two pipe cutting lines respectively. Because the length specification of tubular product is different, the tubular product on two tubular product opening lines can not be carried simultaneously, and material feeding unit 2 only carries one of them tubular product at every turn.

In summary, the feeding device of the double-specification cutting multi-station pipe end machine provided by the utility model is provided with the two groups of feeding and clamping mechanisms, the two groups of feeding and clamping mechanisms are used for clamping the pipes on the two pipe cutting lines respectively, and the two groups of feeding and clamping mechanisms work independently, so that the feeding device can convey a single pipe at a time, and further the feeding device can convey two pipes with different lengths and specifications at different times, thereby realizing the cutting of the double-specification pipes, improving the use flexibility of the equipment, and being beneficial to the production and production scheduling of enterprises. In addition, the straightening mechanism, the clamping mechanism, the cutting mechanism, the snapping and clamping mechanism and the pipe end processing mechanism are respectively provided with two groups, so that the linkage between two pipe cutting lines is reduced, the single-line operation can be realized, and the use flexibility is further improved.

The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a multistation pipe-end machine is opened to two specifications which characterized in that includes:

the straightening device comprises two groups of straightening mechanisms, wherein one group of straightening mechanisms is arranged along a first pipe stripping line, and the other group of straightening mechanisms is arranged along a second pipe stripping line;

the feeding device comprises two groups of feeding and clamping mechanisms and feeding moving mechanisms, wherein one group of the feeding and clamping mechanisms is arranged along the first pipe material opening line, the other group of the feeding and clamping mechanisms is arranged along the second pipe material opening line, and the two groups of the feeding and clamping mechanisms are linked with the feeding moving mechanisms;

the clamping device comprises two groups of clamping mechanisms, wherein one group of clamping mechanisms is arranged along the first pipe material opening line, and the other group of clamping mechanisms is arranged along the second pipe material opening line;

the blanking device comprises two groups of blanking mechanisms and blanking driving mechanisms, wherein one group of the blanking mechanisms is arranged along the first pipe blanking line, the other group of the blanking mechanisms is arranged along the second pipe blanking line, and the two groups of the blanking mechanisms are linked with the blanking driving mechanisms;

the stretch breaking device comprises two groups of stretch breaking and clamping mechanisms and a stretch breaking moving mechanism, wherein one group of the stretch breaking and clamping mechanisms are arranged along the first pipe material opening line, the other group of the stretch breaking and clamping mechanisms are arranged along the second pipe material opening line, and the two groups of the stretch breaking and clamping mechanisms are linked with the stretch breaking moving mechanism; and

the pipe end processing device comprises two groups of pipe end processing mechanisms and pipe end moving mechanisms, wherein one group of pipe end processing mechanisms are arranged along the first pipe material cutting line, the other group of pipe end processing mechanisms are arranged along the second pipe material cutting line, and the two groups of pipe end processing mechanisms are linked with the pipe end moving mechanisms.

2. The dual-specification cutting multi-station pipe end machine according to claim 1, wherein two sets of feeding and clamping mechanisms are arranged side by side on a feeding linkage member, each feeding and clamping mechanism comprises a feeding and clamping die and a feeding and clamping driving member, the number of the feeding and clamping dies is two, the two feeding and clamping dies are oppositely arranged on the feeding linkage member, and one feeding and clamping die is connected to the output end of the feeding and clamping driving member.

3. The dual-specification cutting multi-station pipe end machine according to claim 2, wherein the feeding moving mechanism comprises a feeding moving driving member and a feeding transmission assembly, and the feeding linkage member is connected to the output end of the feeding moving driving member through the feeding transmission assembly.

4. The dual-specification cutting multi-station pipe end machine according to claim 1, wherein two sets of clamping mechanisms are arranged side by side on a clamping carrier, each clamping mechanism comprises two clamping dies and a clamping driving member, the two clamping dies are arranged on the clamping carrier oppositely, and one of the clamping dies is connected to an output end of the clamping driving member.

5. The dual-specification cutting multi-station pipe end machine according to claim 1, wherein the cutting mechanism comprises a cutting guide member, a cutting transmission assembly and a cutting knife assembly, the cutting guide member is provided with a cutting guide channel, the cutting transmission assembly is arranged on the cutting guide member, the cutting knife assembly is linked with the cutting transmission assembly, the cutting transmission assembly is linked with the cutting driving mechanism, and the cutting knife assembly is arranged around the discharge end of the cutting guide channel.

6. The dual-specification cutting multi-station pipe end machine according to claim 1, wherein two sets of the breaking mechanisms are arranged on the breaking installation part side by side, each breaking mechanism comprises a breaking clamping die and a breaking clamping driving part, the number of the breaking clamping dies is two, the two breaking clamping dies are arranged on the breaking installation part oppositely, and one of the breaking clamping dies is connected to the output end of the breaking clamping driving part through a breaking transmission assembly.

7. The dual specification cutting multi-station pipe end machine according to claim 6, wherein the snapping transmission assembly comprises a snapping transmission fixing member and a snapping transmission hinge member, the snapping transmission fixing member is arranged on the snapping mounting member, one end of the snapping transmission hinge member is hinged to one of the snapping clamping dies, the other end of the snapping transmission hinge member is hinged to the snapping transmission fixing member, and the hinge point of the snapping transmission hinge member is connected with the output end of the snapping clamping driving member.

8. The dual gauge strip multi-station pipe end machine of claim 1 wherein the pipe end machining mechanism includes a pipe end shaping die and a pipe end shaping drive, the pipe end shaping die being connected to an output end of the pipe end shaping drive, the pipe end shaping drive being disposed on a first pipe end connector, the first pipe end connector being slidably disposed on a second pipe end connector.

9. The dual specification slitter-feed multi station pipe end machine of claim 8 wherein the pipe end movement mechanism comprises a pipe end traversing drive and a pipe end erecting drive, the first pipe end connector being connected to an output end of the pipe end traversing drive and the second pipe end connector being connected to an output end of the pipe end erecting drive.

10. The dual gauge cutting multi-station pipe end machine according to claim 9, wherein the pipe end machining device further comprises a pipe end expanding and contracting mechanism, the pipe end expanding and contracting mechanism comprises a pipe end expanding and contracting die head set and a pipe end expanding and contracting driving piece, the pipe end expanding and contracting die head set and the pipe end expanding and contracting driving piece are arranged on the first pipe end connecting piece, and the pipe end expanding and contracting die head set is connected to an output end of the pipe end expanding and contracting driving piece.

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