CN111846827A - Pipeline processing assembly line - Google Patents

Abstract

The invention provides a pipeline processing assembly line which comprises an inclined material supporting rack, wherein the inclined material supporting rack is used for placing pipelines and enabling the pipelines to roll along the inclined surface of the pipelines, a material taking device for transferring one pipeline is arranged at the lower end of the material supporting rack, a driving device for radially positioning and axially conveying the pipelines is arranged at the lower stream of the material discharging end of the material taking device, a pipe end processing device is arranged in the conveying direction of the driving device, and transferring devices for transferring the pipelines are arranged between the material taking device and the driving device and between the driving device and the material storing rack. Each station can the autonomous working like this, transports to other stations by transfer device with pipeline A on each station again, and drive arrangement on the station carries the pipeline to pipe end processingequipment department and drives the pipeline that processing was accomplished again and withdraw from the processing station, then places it on the stock rack to subsequent packing or other manufacturing procedure, this system is whole need not artifical the participation, can work respectively between the different devices, realizes streamlined production, and production efficiency is high.

Description

Pipeline processing assembly line

Technical Field

The invention relates to the field of pipeline processing, in particular to a pipeline processing assembly line.

Background

In the production process of the pipeline (A), the pipe end of the pipeline (A) generally needs to be processed, such as the processes of flanging, reinforcing, marking and the like, and during processing, a single pipeline (A) needs to be placed on a processing station and then processed by equipment.

Among the prior art, need artifically place pipeline (A) on the station when processing pipeline (A), take off the pipeline (A) that will process by the manual work again and stack, this operation is wasted time and energy, and is inefficient. Or the large pipeline (A) to be processed is placed on a station by a lifting appliance to be processed, the operation also needs manpower, and the problem of low efficiency exists.

Disclosure of Invention

The invention aims to provide a pipeline processing assembly line for automatically processing the pipe end of a pipeline.

In order to achieve the purpose, the scheme of the invention is as follows: the utility model provides a pipeline processing assembly line, including being used for putting the pipeline and making the pipeline along the pipe supporting material rack of its inclined that rolls to one side, the low side of pipe supporting material rack is provided with the extracting device who transports a pipeline, extracting device's blowing end low reaches are provided with the drive arrangement who carries out radial positioning and axial transport to the pipeline, be provided with pipe end processingequipment on drive arrangement's the direction of delivery, be provided with the transfer device who transports the pipeline between extracting device and the drive arrangement and between drive arrangement and the material rack of depositing.

Each station can the autonomous working like this, transports to other stations by transfer device with pipeline A on each station again, and drive arrangement on the station carries the pipeline to pipe end processingequipment department and drives the pipeline that processing was accomplished again and withdraw from the processing station, then places it on the stock rack to subsequent packing or other manufacturing procedure, this system is whole need not artifical the participation, can work respectively between the different devices, realizes streamlined production, and production efficiency is high.

Drawings

FIGS. 1, 2 and 4 are schematic structural views of the present invention;

fig. 3 is a partially enlarged view of fig. 2.

Detailed Description

A pipeline processing assembly line comprises an inclined material supporting rack 10 used for placing a pipeline A and enabling the pipeline A to roll along an inclined plane, a material taking device 20 used for transferring the pipeline A is arranged at the lower end of the material supporting rack 10, a driving device used for radially positioning and axially conveying the pipeline A is arranged at the downstream of the material discharging end of the material taking device 20, a pipe end processing device 30 is arranged in the conveying direction of the driving device, and a transferring device 40 used for transferring the pipeline A is arranged between the material taking device 20 and the driving device and between the driving device and a material supporting rack 80.

In the above scheme, the pipelines roll and accumulate at the lower end of the material supporting rack 10, the material taking device 20 takes one pipeline a from the position and places the pipeline a on the driving device, the driving device drives the pipeline a to the pipe end processing device 30 to process the pipeline a, the driving device drives the pipeline a to return after the processing, then the pipeline A is placed on the material storage rack 80 through the transfer device 40, so that each station can work independently, the pipeline A on each station is transferred to other stations through the transfer device 40, the pipeline A is conveyed to the pipe end processing device 30 by the driving device on the station, the processed pipeline A is driven to exit the processing station, and then placed on the stock racks 80, for subsequent baling or other processing operations, the system does not need manual participation in the whole process, different devices can work respectively, the production line is realized, and the production efficiency is high.

The transfer device 40 comprises a driving shaft 41 with a shaft core parallel to the shaft core of the pipeline A, at least one swing arm 42 is arranged in the circumferential direction of the driving shaft 41, a V-shaped support clamp 43 with an opening which faces upwards for supporting the pipeline A is hinged to the suspension end of the swing arm 42, and the revolution surface of the V-shaped support clamp and the placement positions of the front pipeline and the rear pipeline are arranged in the axial direction of the pipeline in a staggered and avoiding mode. In the scheme, the V-shaped support clamp 43 and the front and rear pipeline placing positions are arranged in a staggered mode in the axis direction of the pipeline A, so that the V-shaped support clamp 43 and the pipeline placing positions are prevented from interfering with each other, when the V-shaped support clamp 43 moves to an upstream station, the V-shaped support clamp supports the pipeline A on the upstream station to enable the pipeline A to move along with the V-shaped support clamp 43, and when the support clamp moves to a downstream station, the V-shaped support clamp places the pipeline A on the downstream station and continues to rotate along with the swing arm 42. The V-shaped bracket 43, which is always open upward, ensures that the pipeline a on it does not fall off.

The articulated shaft of V-shaped support card 43 passes through the driving chain and links to each other with drive shaft 41, and the rotation direction of V-shaped support card 43 for swing arm 42 is opposite with the rotation direction of swing arm 42 and the drive ratio is 1: 1. thus, the V-shaped holding card 43 can be ensured to be always opened upwards when rotating along with the swing arm 42.

The low side of pipe supporting material rack 10 is provided with and keeps off the material sloping block, extracting device 20 includes the pivot 21 that the axle core is parallel with pipeline A axle core, the even interval arrangement in pivot 21 circumference has the die-pin 22 of its axle core direction of at least three pole length direction perpendicular to, its suspension end is located and treats the vertical region on limit with the first pipeline A that waits to get and the second pipeline A that waits to get when die-pin 22 gets the material, the dorsal part of the surface of getting of die-pin 22 is provided with V-arrangement and holds in the palm material breach 221, the surface of getting of die-pin 22 and the V-arrangement of adjacent die-pin 22 hold in the palm material breach 221 constitution pipeline A's guide face. When the support rod 22 contacts with the pipeline a on the material supporting rack 10 in the above scheme, only the gravity center of one pipeline a is on the support rod 22, the support rod 22 rotates continuously to generate an inclination, and the pipeline a rolls from the suspension end of the support rod 22 to the root thereof, and then rolls from the root thereof to the V-shaped material supporting notch 221 of the other support rod 22. This completes the extraction of the single pipe a.

When the V-shaped material supporting notch 221 reaches the position with the opening facing upward, the material placing frame 50 is arranged beside the V-shaped material supporting notch, and the material placing frame 50 is provided with a V-shaped power roller 51 which is horizontal in the roller core direction and vertical to the axis core of the pipeline a. Therefore, when the V-shaped material supporting notch 221 reaches the position, the pipeline A on the V-shaped material supporting notch can be placed on the material placing frame 50, the supporting rod 22 rotates continuously, and meanwhile, the axial position of the pipeline A can be adjusted by the V-shaped power roller 51 on the material placing frame 50 so as to be convenient for taking and processing of subsequent stations.

The driving device is an I-shaped power roller 60 which is horizontal to the roller core direction and vertical to the axis core of the pipeline A. The I-shaped power roller 60 can more effectively position the pipeline A to prevent the pipeline A from rolling, and is convenient to process.

The I-shaped power roller 60 is a lifting roller, a carrier roller 70 with a roller core parallel to the axis core of the pipeline A is arranged beside the I-shaped power roller 60, the front carrier roller 70 and the rear carrier roller 70 jointly support the pipeline A to form a pipeline placing position, the middle point of the roller core connecting line of the front carrier roller 70 and the rear carrier roller 70 is positioned on the axial middle surface of the I-shaped power roller 60, the support surface of the I-shaped power roller 60 is lower than the support surfaces of the front carrier roller 70 and the rear carrier roller 70 when the I-shaped power roller 60 is positioned at a low position, and the support surface of the I-shaped power roller 60 is higher than the support surfaces of the front carrier roller 70 and the rear carrier. In the scheme, the axial middle surface is a vertical surface at the axial middle position of the I-shaped power roller 60, the pipeline A is supported by the two carrier rollers 70 when the pipeline A is placed, and the I-shaped power roller 60 is lifted to an accurate height to lift the pipeline A only when the pipeline A needs to be conveyed, so that the I-shaped power roller 60 is prevented from frequently receiving impact force for placing the pipeline A, the precision of the I-shaped power roller is guaranteed, and meanwhile, the I-shaped power roller can adapt to processing devices with various heights.

The center of the clamp of the pipe end processing device 30 coincides with the axis of the pipeline a on the high-level "i" shaped power roller 60, and the pipe end processing device 30 is respectively provided with one on both end sides of the pipeline a or one on one end side of the pipeline a. Thus, both ends of the pipeline can be processed on the same driving device.

At least two sets of the driving device and the pipe end processing device 30 are provided in the pipeline transportation direction. This allows for multiple pipe end machining devices 30 to be provided or for machining both ends of the pipe separately. The material storage rack 80 is obliquely arranged, the high end of the material storage rack is connected with the transfer device, and the low end of the material storage rack is provided with a material blocking block. The processed pipeline A is placed on the material storage rack 80 and rolls to a low position along the material storage rack 80, so that the pipeline A can be conveniently taken out from the position at a subsequent station.

Claims (10)

1. The utility model provides a pipeline processing line which characterized in that: the pipe supporting and feeding device comprises an inclined pipe supporting rack (10) used for placing a pipeline (A) and enabling the pipeline (A) to roll along an inclined plane, wherein a material taking device (20) for transferring one pipeline (A) is arranged at the lower end of the pipe supporting rack (10), a driving device for radially positioning and axially conveying the pipeline (A) is arranged at the lower stream of a material discharging end of the material taking device (20), a pipe end machining device (30) is arranged in the conveying direction of the driving device, and transferring devices (40) for transferring the pipeline (A) are arranged between the material taking device (20) and the driving device and between the driving device and a material storing rack (80).

2. The pipe processing line of claim 1, wherein: transfer device (40) are including axle core and pipeline (A) parallel drive shaft (41) of axle core, and at least one swing arm (42) extend in the circumference of drive shaft (41), and the suspension end of swing arm (42) articulates V-arrangement support card (43) that are used for opening end up of support pipeline (A), and the surface of revolution of V-arrangement support card is placed the position with preceding pipeline and is misplaced on the pipeline axial and dodge the arrangement.

3. The pipe processing line of claim 2, wherein: the articulated shaft of V-arrangement support card (43) passes through the driving chain and links to each other with drive shaft (41), and the rotation direction of V-arrangement support card (43) for swing arm (42) is opposite with the rotation direction of swing arm (42) and the drive ratio is 1: 1.

4. the pipe processing line of claim 1, 2 or 3, wherein: the low side of pipe supporting material rack (10) is provided with and keeps off the material sloping block, extracting device (20) are including pivot (21) that axle core and pipeline (A) axle core are parallel, pivot (21) circumference is even interval arrangement has die-pin (22) of its axle core direction of at least three pole length direction perpendicular to, its suspension end is located and treats the vertical region on border with the axle core that pipeline (A) were waited to get to first pipeline (A) and second when die-pin (22) were got the material, the dorsal part of the material surface of getting of die-pin (22) is provided with V-arrangement and holds in the palm material breach (221), the guide face that the material surface of getting of die-pin (22) and the V-arrangement of adjacent die-pin (22) held in the material breach (221) constitution pipeline (A).

5. The pipe processing line of claim 4, wherein: when the V-shaped material supporting notch (221) reaches the position with the opening facing upwards, a material placing frame (50) is arranged beside the V-shaped material supporting notch, and a V-shaped power roller (51) which is horizontal in the roller core direction and vertical to the shaft core of the pipeline (A) is arranged on the material placing frame (50).

6. The pipe processing line of claim 1, 2 or 3, wherein: the driving device is an I-shaped power roller (60) which is horizontal to the roller core direction and vertical to the shaft core of the pipeline (A).

7. The pipe processing line of claim 6, wherein: the 'I' -shaped power roller (60) is a lifting roller, a carrier roller (70) with a roller core parallel to the shaft core of the pipeline (A) is arranged beside the 'I' -shaped power roller (60), the front carrier roller and the rear carrier roller (70) jointly support the pipeline (A) to form a pipeline placing position, the middle point of the connecting line of the roller cores of the front carrier roller and the rear carrier roller (70) is positioned on the axial middle surface of the 'I' -shaped power roller (60), the support surface of the 'I' -shaped power roller (60) is lower than the support surfaces of the front carrier roller and the rear carrier roller (70) when the 'I' -shaped power roller (60) is positioned at a low position, and the support surface of the 'I' -shaped power roller (60) is higher than the support surfaces of the front carrier roller.

8. The pipe processing line of claim 7, wherein: the center of a clamp of the pipe end processing device (30) is superposed with the shaft core of the pipeline (A) on the H-shaped power roller (60) at a high position, and the pipe end processing device (30) is respectively arranged at two end sides of the pipeline (A) or is arranged at one end side of the pipeline (A).

9. The pipe processing line of claim 1 or 7, wherein: the driving device and the pipe end processing device (30) are provided with at least two groups in the pipeline transportation direction.

10. The pipe processing line of claim 1, 2 or 3, wherein: the material storage rack (80) is obliquely arranged, the high end of the material storage rack is connected with the transfer device, and the low end of the material storage rack is provided with a material blocking block.

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