CN219254746U - Petroleum barrel cover port flange tapping and chamfering integrated machine - Google Patents

Abstract

The oil drum cover flange tapping and chamfering integrated machine is characterized in that a dividing table and a rotary table are arranged in the middle of the upper surface of a working table, a tooling plate is arranged on the outer edge of the rotary table, and an oil cylinder is arranged below the rotary table; the rear side of the upper surface of the workbench is provided with a feeding station, the feeding station is provided with two longitudinal feeding cylinders, the front of each longitudinal feeding cylinder is provided with a longitudinal feeding channel, two sides of each longitudinal feeding cylinder are provided with inclined feeding channels, and two sides of the front ends of the two longitudinal feeding channels are provided with transverse feeding cylinders; a loading and unloading station is arranged on the right side of the upper surface of the workbench, a transverse unloading cylinder is arranged on the unloading station, and an unloading frame is arranged at the left end of a cylinder rod of the unloading cylinder; a chip removing station is arranged on the front side of the upper surface of the workbench, a chip removing cylinder is arranged on the chip removing station, two vertical guide posts are arranged on the left and right sides of the chip removing station, and chip removing pieces are arranged at the lower ends of the guide posts; the front part of the left side above the workbench is provided with a chamfering mechanism; the rear side of the chamfering mechanism is provided with a tapping mechanism, so that the problem of low production efficiency of step-by-step tapping chamfering of the flange of the oil barrel cover opening is solved, and the chamfering mechanism is suitable for processing the flange of the oil barrel cover opening.

Description

Petroleum barrel cover port flange tapping and chamfering integrated machine

Technical Field

The utility model relates to the technical field of drilling and tapping machinery, in particular to a special machine tool for tapping and chamfering a flange on a petroleum barrel cover opening.

Background

The lid mouth of the international general petroleum barrel is provided with a lid mouth flange which is matched with the lid mouth to be covered, when in production and processing, the inner periphery of the lid mouth flange is required to be tapped and the lower mouth edge is required to be chamfered, and the traditional method adopts two machine tools to tap and chamfer step by step.

Disclosure of Invention

The utility model provides a machine tool for processing the flange of the oil barrel cover, which integrates tapping and chamfering into a whole, and aims to solve the problems of complicated operation and low production efficiency of the flange of the oil barrel cover, which are obtained by using two machine tools to tap and chamfer the flange of the oil barrel cover step by step.

The technical scheme of the utility model is that the oil barrel cover port flange tapping and chamfering integrated machine is characterized in that a dividing table is arranged in the middle of the upper surface of a plane workbench, a disc-shaped rotary table is arranged on the dividing table, an upper rotary joint is arranged in the middle of the rotary table, five assembly tooling plates are uniformly distributed on the outer edge of the upper surface of the rotary table, an oil cylinder corresponding to the tooling plates is arranged on the outer edge of the lower surface of the rotary table, and a top plate matched with the tooling plates is arranged at the top of the oil cylinder;

the rear side of the dividing table on the workbench is provided with a feeding station, the middle left and right on the feeding station are provided with two longitudinal feeding cylinders with built-in cylinder rods, the front of each longitudinal feeding cylinder is provided with a longitudinal material channel, the left and right sides of each longitudinal feeding cylinder are respectively provided with an oblique feeding channel, and the rear ends of the oblique feeding channels are upwards tilted and connected with a feeding system; the left and right sides of the front ends of the two longitudinal material channels are respectively provided with a transverse feeding cylinder with a built-in cylinder rod;

the right side of the dividing table on the workbench is provided with a loading and unloading station, the unloading station is provided with an unloading cylinder with a built-in cylinder rod, and the left end of the cylinder rod of the unloading cylinder is provided with an unloading frame;

a chip removing station is arranged on the front side of the dividing table on the workbench, a chip removing cylinder arranged below the cylinder rod is arranged on the chip removing station, two vertical guide posts are arranged on the left and right sides of the chip removing station, and chip removing pieces are arranged at the lower ends of the guide posts;

the front part of the left side of the dividing table on the workbench is provided with a chamfering mechanism; the rear side of the chamfering mechanism is provided with a tapping mechanism; the hydraulic system is arranged at the front side of the workbench.

When the feeding device works, a workpiece enters the inclined feeding channel (two feeding channels work simultaneously) from the feeding system, and when the workpiece reaches the front end of the inclined feeding channel, the left transverse feeding cylinder and the right transverse feeding cylinder are started simultaneously to push the workpiece inwards to be fed into the longitudinal feeding channel, then the longitudinal feeding cylinder pushes the workpiece forwards to be fed onto the tooling plate, and the hydraulic system is started to enable the oil cylinder to tighten the top plate to lock the workpiece.

Then the cutting table is started to drive the turntable, the oil cylinder, the tooling plate and the workpiece to rotate clockwise, and when the workpiece rotates to the lower part of the tapping mechanism, the tapping mechanism operates to finish tapping.

After the tapping of the workpiece is completed, the cutting table is started to continuously drive the turntable, the oil cylinder, the tooling plate and the workpiece to rotate clockwise, and when the workpiece rotates to the lower part of the chamfering mechanism, the chamfering mechanism operates to complete chamfering of the workpiece.

After the chamfering of the workpiece is finished, the cutting table is started to continuously drive the turntable, the oil cylinder, the tooling plate and the workpiece to rotate clockwise, and when the workpiece rotates to the lower part of the scrap removing station, the scrap removing cylinder pushes the two guide posts to move downwards, so that the scrap removing pieces at the lower end are detected into the workpiece, and the scrap is pushed downwards.

After the scrap cleaning is finished, the cutting table is started to continuously drive the turntable, the oil cylinder, the tooling plate and the workpiece to rotate clockwise, when the workpiece is rotated to the lower part of the unloading station, the unloading cylinder is started, the unloading frame is pulled rightwards, and the unloading frame pulls the workpiece to the receiving plate to slide out.

The technical effect of the utility model is that by adopting the technical scheme, the tapping and chamfering machine tool for the flange of the oil barrel cover opening, which is convenient to operate and extremely high in processing efficiency, can be realized.

Drawings

Fig. 1 is a front view of the structure of the present utility model.

Fig. 2 is a structural view of the feed station of the present utility model.

Fig. 3 is a structural view of the discharge station of the present utility model.

In the figure, a workbench 1, a longitudinal feeding cylinder 2, a segmentation table 3, a rotary table 4, a tooling plate 5, an oil cylinder 6, a feeding station 7, a discharging station 8, a top plate 9, a receiving plate 10, a discharging cylinder 11, a hydraulic system 12, a chip cleaning piece 13, a guide pillar 14, a chip cleaning station 15, a chip cleaning cylinder 16, a chamfering mechanism 17, a tapping mechanism 18, a rotary joint 19, a discharging frame 20, an inclined feeding channel 21, a transverse feeding cylinder 22 and a longitudinal feeding channel 23.

Detailed Description

The utility model will be further described with reference to examples of drawings.

As shown in the figure, a dividing table 3 is arranged in the middle of the upper surface of a plane workbench 1, a disc-shaped rotary table 4 is arranged on the dividing table 3, an upper rotary joint 19 is arranged in the middle of the rotary table 4, five groups of tooling plates 5 are uniformly distributed on the upper outer edge of the rotary table 4, an oil cylinder 6 corresponding to the tooling plates 5 is arranged on the lower outer edge of the rotary table 4, and a top plate 9 matched with the tooling plates 5 is arranged on the top of the oil cylinder 6;

the rear side of the dividing table 3 on the workbench 1 is provided with a feeding station 7, the middle left and right rows on the feeding station 7 are provided with two longitudinal feeding air cylinders 2 with built-in cylinder rods, the front of each longitudinal feeding air cylinder 2 is provided with a longitudinal material channel 23, the left and right sides of each longitudinal feeding air cylinder 2 are respectively provided with an oblique feeding channel 21, and the rear ends of the oblique feeding channels 21 are upwards tilted to be connected with a feeding system; the left and right sides of the front ends of the two longitudinal material channels 23 are respectively provided with a transverse feeding cylinder 22 with a built-in cylinder rod;

the right side of the dividing table 3 on the workbench 1 is provided with a loading and unloading station 8, the unloading station 8 is provided with an unloading cylinder 11 with a built-in cylinder rod, and the left end of the cylinder rod of the unloading cylinder 11 is provided with an unloading frame 20;

a chip removing station 15 is arranged on the front side of the dividing table 3 on the workbench 1, a chip removing cylinder 16 with a cylinder rod arranged below is arranged on the chip removing station 15, two vertical guide posts 14 are arranged on the chip removing station 15 in a left-right row, and chip removing pieces 13 are arranged at the lower ends of the guide posts 14;

the front part of the left side of the dividing table 3 on the workbench 1 is provided with a chamfering mechanism 17; the rear side of the chamfering mechanism 17 is provided with a tapping mechanism 18; the hydraulic system 12 is arranged on the front side of the workbench 1.

When the feeding system is in operation, a workpiece enters the inclined feeding channel 21 (two channels work simultaneously) from the feeding system, when the workpiece reaches the front end of the inclined feeding channel 21, the left transverse feeding cylinder 22 and the right transverse feeding cylinder 22 are started simultaneously, the workpiece is pushed inwards to be fed into the longitudinal feeding channel 23, the workpiece is pushed forwards to be fed onto the tooling plate 5 by the longitudinal feeding cylinder 2, and the hydraulic system 13 is started, so that the cylinder 6 tightens the top plate 9 to lock the workpiece.

Then the cutting table 3 starts to drive the rotary table 4 and 6 oil cylinders, the tooling plate 5 and the workpiece to rotate clockwise, the workpiece stops when rotating below the tapping mechanism 18, and the tapping mechanism 18 operates to finish tapping.

After the tapping of the workpiece is completed, the cutting table 3 is started to continuously drive the rotary table 4, the 6 oil cylinders, the tooling plate 5 and the workpiece to rotate clockwise, the workpiece stops when the workpiece rotates to the lower part of the chamfering mechanism 17, and the chamfering mechanism 17 runs to complete chamfering of the workpiece.

After the chamfering of the workpiece is finished, the cutting table 3 is started to continuously drive the rotary table 4, the 6 oil cylinders, the tooling plate 5 and the workpiece to rotate clockwise, the workpiece stops when rotating below the scrap removing station 16, and the scrap removing cylinder 16 pushes the two guide posts 14 to move downwards so that the scrap removing pieces 13 at the lower end are detected into the workpiece, and the scrap is pushed downwards.

After the scrap cleaning is finished, the cutting table 3 is started to continuously drive the rotary table 4, the 6 oil cylinders, the tooling plate 5 and the workpiece to rotate clockwise, the workpiece stops when the workpiece rotates to the lower part of the unloading station 8, the unloading cylinder 11 is started, the unloading frame 20 is pulled rightwards, and the unloading frame 20 pulls the workpiece to the receiving plate 10 to slide out.

Claims (1)

1. A petroleum barrel cover port flange tapping chamfer all-in-one machine is characterized in that: a dividing table is arranged in the middle of the upper surface of the plane workbench, a disc-shaped rotary table is arranged on the dividing table, an upper rotary joint is arranged in the middle of the rotary table, five groups of tooling plates are uniformly distributed on the outer edge of the upper surface of the rotary table, an oil cylinder corresponding to the tooling plates is arranged on the outer edge of the lower surface of the rotary table, and a top plate matched with the tooling plates is arranged at the top of the oil cylinder;

the rear side of the dividing table on the workbench is provided with a feeding station, the middle left and right on the feeding station are provided with two longitudinal feeding cylinders with built-in cylinder rods, the front of each longitudinal feeding cylinder is provided with a longitudinal material channel, the left and right sides of each longitudinal feeding cylinder are respectively provided with an oblique feeding channel, and the rear ends of the oblique feeding channels are upwards tilted and connected with a feeding system; the left and right sides of the front ends of the two longitudinal material channels are respectively provided with a transverse feeding cylinder with a built-in cylinder rod;

the right side of the dividing table on the workbench is provided with a loading and unloading station, the unloading station is provided with an unloading cylinder with a built-in cylinder rod, and the left end of the cylinder rod of the unloading cylinder is provided with an unloading frame;

a chip removing station is arranged on the front side of the dividing table on the workbench, a chip removing cylinder arranged below the cylinder rod is arranged on the chip removing station, two vertical guide posts are arranged on the left and right sides of the chip removing station, and chip removing pieces are arranged at the lower ends of the guide posts;

the front part of the left side of the dividing table on the workbench is provided with a chamfering mechanism; the rear side of the chamfering mechanism is provided with a tapping mechanism; the hydraulic system is arranged at the front side of the workbench.

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