CN111843582A

CN111843582A - Pipeline transmission device for cutting stainless steel pipeline

Info

Publication number: CN111843582A
Application number: CN202010727426.2A
Authority: CN
Inventors: 刘洪防; 梅振辉
Original assignee: Zhangjiagang Taida Machinery Manufacturing Co ltd
Current assignee: Zhangjiagang Taida Machinery Manufacturing Co ltd
Priority date: 2020-07-27
Filing date: 2020-07-27
Publication date: 2020-10-30

Abstract

The invention relates to a pipeline transmission device for cutting a stainless steel pipeline, which comprises: the device comprises a rack, a material conveying device, a feeding gap adjusting device, a discharging gap adjusting device and a material beating and ejecting device; a feeding belt is arranged on the frame; the material conveying device is arranged at the lower end of the material loading belt; the feeding gap adjusting device is arranged at the upper end of the rack; the discharging gap adjusting device is arranged at the lower end of the rack and is parallel to the feeding gap adjusting device; the material beating and ejecting device is arranged at the lower end of the rack; the lower end of the frame is provided with a material supporting frame. According to the stainless steel pipe cutting machine, the stainless steel pipes are conveyed into the working area through the feeding belt and the material conveying devices, the conveying, conveying and arranging are carried out according to the number and the gaps through the residual devices, and then the stainless steel pipes are conveyed out for cutting, so that the structure is simple and effective, the working efficiency is accelerated on the premise of ensuring the stability of subsequent work, the problems of stacking and the like of the stainless steel pipes are solved, the labor is reduced, and the automation degree is improved.

Description

Pipeline transmission device for cutting stainless steel pipeline

Technical Field

The invention relates to the field of stainless steel processing equipment, in particular to a pipeline transmission device for cutting a stainless steel pipeline.

Background

In current stainless steel course of working, when the pipeline transmits to cutting work position, because it cuts simultaneously with the pipeline to be many, often can produce many and arrange the untidy inhomogeneous not uniform with the pipeline, or the pipeline is many times less scheduling problem during quantity, needs the manual work to beat it at this time, but the pipeline figure if surpass but this can cut the figure, can lead to cutting inhomogeneous incomplete scheduling problem. Therefore, a pipeline transmission device for cutting stainless steel pipelines, which has stable work, high work efficiency and reduced labor cost and can arrange the pipelines to enter a cutting work position in order, is needed.

Disclosure of Invention

The invention aims to provide a pipeline transmission device for cutting a stainless steel pipeline, which has stable work and high work efficiency.

In order to ensure that the work is stable and the work efficiency is high in the using process, the invention relates to a pipeline transmission device for cutting a stainless steel pipeline, which comprises:

the device comprises a rack, a material conveying device, a feeding gap adjusting device, a discharging gap adjusting device and a material beating and ejecting device;

a feeding belt is arranged on the frame; the material conveying device is arranged at the lower end of the material loading belt; the feeding gap adjusting device is arranged at the upper end of the rack; the discharging gap adjusting device is arranged at the lower end of the rack and is parallel to the feeding gap adjusting device; the material beating and ejecting device is arranged at the lower end of the rack; the lower end of the frame is provided with a material supporting frame.

The stainless steel pipe cutting machine has the advantages that the stainless steel pipes are conveyed into a working area through the feeding belt and the material conveying devices, the conveying, conveying and arranging are carried out through the remaining devices according to the number and the gaps, and then the stainless steel pipes are conveyed out for cutting, so that the structure is simple and effective, the working efficiency is accelerated on the premise of ensuring the stability of subsequent work, the problems of stacking and the like of the stainless steel pipes are solved, the labor is reduced, and the automation degree is improved.

Furthermore, a material feeding belt connecting frame and a rack working frame are arranged on the rack; the material conveying device comprises a first transmission shaft, a transmission gear set and a second transmission shaft; the first transmission shaft is arranged on the feeding belt connecting frame; two ends of the feeding belt are connected with the first transmission shaft and the second transmission shaft respectively; the middle end of the feeding belt is connected with the transmission gear set. Because the material loading area is the flexibility design, stainless steel pipe piles up in the material loading area layer upon layer, and the tightness of material loading is driven in the rotation through the transmission shaft, and when the material loading area tightened to the certain degree, stainless steel pipe rolled to the work area on slowly from the material loading area owing to the transform of material loading area inclination to the transmission begins to arrange.

Furthermore, the transmission gear set and the second transmission shaft are arranged on the rack working frame; a working table surface is arranged on the working frame of the frame; a material arranging chain is arranged on the working table surface; the transmission gear set is connected with the material arranging chain. Through the drive gear group with material all in one piece chain connection is connected, guarantees that stainless steel pipeline can be stable from the material loading area transmit table surface on, is equipped with material all in one piece chain on the table surface, and after stainless steel pipeline got into in the feeding clearance adjustment device, clearance adjustment completed the back, and the pipeline on the material all in one piece chain is through material all in one piece chain reversal, gets back to the material loading area with unnecessary pipeline on, guarantees that every batch of stainless steel pipeline quantity all equals.

Furthermore, the feeding gap adjusting device comprises a first adjusting shaft, a first adjusting gear, a first adjusting rack and a material pressing plate; the first adjusting gear is connected with the first adjusting shaft; the first adjusting rack is arranged above the first adjusting gear and is in meshed connection with the tooth end of the first adjusting gear; the material pressing plate is connected with the first adjusting rack. The first adjusting gear can be driven to move through the rotation of the first adjusting gear, the first adjusting gear is meshed and connected with the first adjusting gear, so that the material pressing plate is driven to move back and forth, and the first rotating shaft is connected with the servo motor, so that output power is obtained. Be equipped with corresponding slide rail on the pressure flitch, guarantee the stability of removal.

Furthermore, the discharging gap adjusting device comprises a second adjusting shaft, a second adjusting gear, a second adjusting rack, an adjusting block and a discharging fixing plate; the second adjusting gear is connected with the second adjusting shaft; the tooth end of the second adjusting rack is meshed with the second adjusting gear; the lower end of the adjusting block is fixedly connected with the second adjusting rack; an adjusting block stroke block is arranged on the discharging fixing plate; the adjusting block is connected with the discharging fixing plate through the adjusting block stroke block. Through the meshing of the second adjusting gear and the second adjusting rack, the second adjusting gear rotates to drive the second adjusting rack to move, the adjusting block is connected with the second adjusting rack and then drives the adjusting block to move, the adjusting block is connected with the adjusting block stroke block, the adjusting block stroke block and the effect similar to a sliding rail ensure the stability of the adjusting block moving back and forth when the gap is adjusted, and the accuracy of the stroke and the moving direction is also ensured.

Furthermore, the material beating and ejecting device comprises a material beating plate seat, an adjusting screw rod and a fixed seat; the material beating plate seat is connected with the adjusting screw rod; the fixed seat is provided with a slide rail; the lower end of the material beating plate seat is connected with the sliding rail. The servo motor is connected with the adjusting screw rod, so that the adjusting screw rod is driven to rotate, the bat plate base is driven to move left and right, and the material pipeline is fixed.

Furthermore, the material beating and ejecting device comprises a material beating optical axis, a material beating cylinder and a guide rail fixing seat; the guide rail fixing seat is connected with the fixing seat; the material shooting optical axis is connected with the guide rail fixing seat; the extending end of the material shooting cylinder is connected with the material shooting optical axis; and a linear optical axis bearing is arranged on the material beating optical axis. The end that stretches out of clapping the material cylinder is connected with clapping the material optical axis, through its effect that stretches out, drives and claps the removal of material optical axis, and then drives the removal about guide rail fixing base and fixing base.

Drawings

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

FIG. 1 is a structural view of a pipe transferring apparatus for cutting stainless steel pipes according to the present invention;

FIG. 2 is a view of a feeding gap adjusting apparatus of a pipe transfer apparatus for cutting stainless steel pipes according to the present invention;

FIG. 3 is a view of a discharge gap adjusting device of a pipe transfer device for cutting stainless steel pipes according to the present invention;

fig. 4 is a diagram of a material beating and ejecting device of the pipeline transmission device for cutting the stainless steel pipeline.

The corresponding part names indicated by the numbers in the figures:

1. a frame; 2. a material conveying device; 3. a feed gap adjusting device; 4. a discharge gap adjusting device; 5. a material beating and ejecting device; 6. feeding a material belt; 7. a material supporting frame; 8. a material feeding belt connecting frame; 9. a frame work frame; 10. a first drive shaft; 11. a drive gear set; 12. a second drive shaft; 13. a work table; 14. a monolith chain; 15. a first adjustment shaft; 16. a first adjusting gear; 17. a first adjusting rack; 18. a material pressing plate; 19. a slide rail; 20. a servo motor; 21. a speed reducer; 22. a second adjustment shaft; 23. a second adjusting gear; 24. a second adjusting rack; 25. an adjusting block; 26. a discharge fixing plate; 27. adjusting the block stroke block; 28. a material beating plate seat; 29. adjusting the screw rod; 30. a fixed seat; 31. a slide rail; 32. shooting a material optical axis; 33. a material shooting cylinder; 34. a guide rail fixing seat; 35. and a linear optical axis bearing.

Detailed Description

The present invention will be further described in detail with reference to the following specific examples:

As shown in fig. 1, in order to ensure stable operation and high operation efficiency during the use process, the invention relates to a pipeline transmission device for cutting stainless steel pipelines, which comprises:

the device comprises a rack 1, a material conveying device 2, a feeding gap adjusting device 3, a discharging gap adjusting device 4 and a material beating and ejecting device 5;

a feeding belt 6 is arranged on the frame 1; the material conveying device 2 is arranged at the lower end of the feeding belt 6; the feeding gap adjusting device 3 is arranged at the upper end of the rack 1; the discharging gap adjusting device 4 is arranged at the lower end of the rack 1 and is parallel to the feeding gap adjusting device 3; the material beating and ejecting device 5 is arranged at the lower end of the rack 1; the lower end of the frame 1 is provided with a material supporting frame 7.

The stainless steel pipe conveying device has the advantages that the stainless steel pipes are conveyed into a working area through the material feeding belt 6 and the material conveying device 2, the conveying, conveying and arranging are carried out through the rest devices according to the number and the gaps, and then the stainless steel pipes are conveyed out for cutting, so that the structure is simple and effective, the working efficiency is accelerated on the premise of ensuring the stability of subsequent work, the problems of stacking and the like of the stainless steel pipes are solved, the labor is reduced, and the automation degree is improved.

Further, a material feeding belt connecting frame 8 and a frame working frame 9 are arranged on the frame 1; the material conveying device 2 comprises a first transmission shaft 10, a transmission gear set 11 and a second transmission shaft 12; the first transmission shaft 10 is arranged on the feeding belt connecting frame 8; two ends of the feeding belt 6 are respectively connected with a first transmission shaft 10 and a second transmission shaft 12; the middle end of the feeding belt 6 is connected with the transmission gear set 11. Because material loading area 6 is the flexibility design, the stainless steel pipe is piled up in material loading area 6 layer upon layer, and the degree of tightness of material loading area 6 is driven in the rotation through the transmission shaft, and when material loading area 6 tightened to the certain extent, the stainless steel pipeline rolls to the work area on because the transform of the 6 inclinations in material loading area slowly from material loading area 6 to the transmission begins to arrange.

Further, the transmission gear set 11 and the second transmission shaft 12 are arranged on the rack working frame 9; a working table surface 13 is arranged on the frame working frame 9; a monolith chain 14 is arranged on the working table surface 13; the drive gear set 11 is connected to the monolith chain 14. Through drive gear group 11 with material all in one piece chain 14 is connected, guarantees that the stainless steel pipeline can be stable transmit the table surface 13 from material loading area 6 on, is equipped with material all in one piece chain 14 on the table surface 13, and after the stainless steel pipeline got into in the feeding clearance adjusting device 3, clearance adjustment was accomplished the back, the pipeline on the material all in one piece chain 14 was through material all in one piece chain 14 reversal, gets back to material loading area 6 with unnecessary pipeline on, guarantees that every batch of stainless steel pipeline quantity all equals.

As shown in fig. 2, further, the feeding gap adjusting device 3 includes a first adjusting shaft 15, a first adjusting gear 16, a first adjusting rack 17, and a pressure plate 18; the first adjusting gear 16 is connected with the first adjusting shaft 15; the first adjusting rack 17 is arranged above the first adjusting gear 16 and is meshed with the tooth end of the first adjusting gear 16; the pressure plate 18 is connected with the first adjusting rack 17. The first adjusting gear 16 can rotate to drive the first adjusting rack 17 meshed and connected with the first adjusting gear 16 to move, so as to drive the material pressing plate 18 to move back and forth, and the first rotating shaft 15 is connected with the servo motor 20, so as to obtain output power. The material pressing plate 18 is provided with a corresponding slide rail 19 to ensure the stability of movement.

As shown in fig. 3, further, the discharging gap adjusting device 4 includes a second adjusting shaft 22, a second adjusting gear 23, a second adjusting rack 24, an adjusting block 25, and a discharging fixing plate 26; the second adjusting gear 23 is connected with the second adjusting shaft 22; the tooth end of the second adjusting rack 24 is meshed with the second adjusting gear 23; the lower end of the adjusting block 25 is fixedly connected with the second adjusting rack 24; an adjusting block stroke block 27 is arranged on the discharging fixing plate 26; the adjusting block 25 is connected with the discharging fixing plate 26 through the adjusting block stroke block 27. Through the meshing of the second adjusting gear 23 and the second adjusting rack 24, the second adjusting gear 23 rotates to drive the second adjusting rack 24 to move, the adjusting block 25 is connected with the second adjusting rack 24, the adjusting block 25 is further driven to move, the adjusting block 25 is connected with the adjusting block stroke block 27, the adjusting block stroke block 27 and the effect similar to a sliding rail ensure the stability of the front and back movement of the adjusting block 25 when the gap is adjusted, and the accuracy of the stroke and the moving direction is also ensured.

As shown in fig. 4, further, the material beating and ejecting device 5 includes a material beating plate seat 28, an adjusting screw 29, and a fixing seat 30; the material beating plate seat 28 is connected with the adjusting screw rod 29; the fixed seat 30 is provided with a slide rail 31; the lower end of the bat material plate seat 28 is connected with the slide rail 31. The servo motor 20 is connected with the adjusting screw rod 29, so that the adjusting screw rod 29 is driven to rotate, the material beating plate seat 28 is driven to move left and right, and the material pipeline is fixed.

Further, the material beating and ejecting device 5 comprises a material beating optical axis 32, a material beating cylinder 33 and a guide rail fixing seat 34; the guide rail fixing seat 34 is connected with the fixing seat 30; the material shooting optical axis 32 is connected with the guide rail fixing seat 34; the extending end of the material shooting cylinder 33 is connected with the material shooting optical axis 32; and a linear optical axis bearing 35 is arranged on the material shooting optical axis 32. Clap the end that stretches out of material cylinder 33 and clap material optical axis 32 and be connected, through its effect that stretches out, drive and clap and expect moving about optical axis 32, and then drive the moving about of guide rail fixing base 34 and fixing base 30.

In actual operation, a bundle of materials to be processed is placed in the feeding belt 6, and the feeding belt 6 is used for adjusting the parallelism of the feeding belt 6 through the action of the transmission shaft and the transmission gear set 11 so as to enable the feeding pipe to be fed in parallel. The feeding gap adjusting device 3 is used for adjusting the opening interval of the pipes, so that only one pipe enters the device and the pipes cannot enter the device in a superposed mode. After the upper material belt 6 has reached a certain height, the tubes will slide into the area of the adjusted feed gap adjusting device 3 and onwards through the material handling chain 14 into the material waiting area. The monolith chain 14 is time controlled. Can reverse after the time arrives on getting back to material loading area 6 unnecessary pipe fitting, arrange material clearance adjustment device 4 and need adjust the interval and guarantee that the pipe can not the range of superpose, in order to guarantee that only one is ejecting for the pipe, need adjust to only a pipe through pipe size adjusting block 25, adjust to ejecting to only a pipe, push into the V type wheel to the pipe, owing to need push into many pipes and get into the V type wheel, guarantee through arranging material clearance adjustment device 4 that the pipe can not fall in disorder in the V type. The tube falls behind the V-wheel. Preventing any misalignment of the tubes. And pressing the lower die again by using a material beating and ejecting device 5. The back patting cylinder 33 is used to patt the tubes onto the front retainer plate. So that one end of the plurality of pipes is basically ensured to be parallel.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A pipeline transmission device for cutting a stainless steel pipeline is characterized by comprising a rack, a material transmission device, a feeding gap adjusting device, a discharging gap adjusting device and a material beating and ejecting device;

2. The pipe transfer device for stainless steel pipe cutting according to claim 1, wherein: the rack is provided with a feeding belt connecting frame and a rack working frame; the material conveying device comprises a first transmission shaft, a transmission gear set and a second transmission shaft; the first transmission shaft is arranged on the feeding belt connecting frame; two ends of the feeding belt are connected with the first transmission shaft and the second transmission shaft respectively; the middle end of the feeding belt is connected with the transmission gear set.

3. The pipe transfer device for stainless steel pipe cutting according to claim 2, wherein: the transmission gear set and the second transmission shaft are arranged on the rack working frame; a working table surface is arranged on the working frame of the frame; a material arranging chain is arranged on the working table surface; the transmission gear set is connected with the material arranging chain.

4. The pipe transfer device for stainless steel pipe cutting according to claim 1, wherein: the feeding gap adjusting device comprises a first adjusting shaft, a first adjusting gear, a first adjusting rack and a material pressing plate; the first adjusting gear is connected with the first adjusting shaft; the first adjusting rack is arranged above the first adjusting gear and is in meshed connection with the tooth end of the first adjusting gear; the material pressing plate is connected with the first adjusting rack.

5. The pipe transfer device for stainless steel pipe cutting according to claim 1, wherein: the discharging gap adjusting device comprises a second adjusting shaft, a second adjusting gear, a second adjusting rack, an adjusting block and a discharging fixing plate; the second adjusting gear is connected with the second adjusting shaft; the tooth end of the second adjusting rack is meshed with the second adjusting gear; the lower end of the adjusting block is fixedly connected with the second adjusting rack; an adjusting block stroke block is arranged on the discharging fixing plate; the adjusting block is connected with the discharging fixing plate through the adjusting block stroke block.

6. The pipe transfer device for stainless steel pipe cutting according to claim 1, wherein: the material beating and ejecting device comprises a material beating plate seat, an adjusting screw rod and a fixed seat; the material beating plate seat is connected with the adjusting screw rod; the fixed seat is provided with a slide rail; the lower end of the material beating plate seat is connected with the sliding rail.

7. The pipe transfer device for stainless steel pipe cutting of claim 6, wherein: the material beating and ejecting device comprises a material beating optical axis, a material beating cylinder and a guide rail fixing seat; the guide rail fixing seat is connected with the fixing seat; the material shooting optical axis is connected with the guide rail fixing seat; the extending end of the material shooting cylinder is connected with the material shooting optical axis; and a linear optical axis bearing is arranged on the material beating optical axis.