CN213945094U - Material guiding device for pipe cutting machine - Google Patents

Abstract

The utility model discloses a guide device for pipe cutting machine, it includes material loading frame, backup pad, material loading board, push pipe mechanism I, push pipe mechanism II, backup pad, material loading board are two, vertical setting is in the both sides side of material loading frame, and the material loading board includes forward position and upper edge, and the forward position of material loading board is connected with the upper edge of backup pad and is constituted corner groove I, and the upper edge rear end of material loading board is provided with fender edge I, push pipe mechanism I include material loading board I, and material loading board I can move from top to bottom, when moving to the top, jack up the pipe fitting above the material loading board I of corner groove I, push to the material loading board top, and fender edge I and the upper edge of material loading board can support and block the pipe fitting; liftout mechanism II include liftout board II, the end edge of liftout board II can upwards be shifted, will place at the last flitch with keep off the pipe fitting jack-up along I department, the device is through mechanized operation, sends into the pay-off track with the pipe fitting one by one, has improved production efficiency.

Description

Material guiding device for pipe cutting machine

Technical Field

The utility model relates to a pipe cutting machine equipment technical field, more specifically say, relate to a pipe cutting machine guide device.

Background

In the production and the course of working of steel pipe, often need cut the steel pipe, the cutting need in advance put into the pay-off track before the cutting station with tubular product on, mainly through two at least manual works at present, lift up the pay-off track with tubular product, because the quality of some tubular products is great, not only intensity of labour is great when the transport, and causes the incident easily, and is more dangerous, and simultaneously, the efficiency of artifical transport is lower, is difficult to satisfy continuous production's purpose, and production efficiency is lower.

Disclosure of Invention

In order to solve the technical problem, the utility model provides a pipe cutter is with guide device through mechanized operation, sends the pipe fitting into the pay-off track one by one, has improved production efficiency.

The utility model adopts the technical proposal that: a guide device for a pipe cutting machine comprises a feeding frame, a supporting plate, two feeding plates, a pipe jacking mechanism I and a pipe jacking mechanism II, wherein the two feeding plates are vertically arranged on two sides of the feeding frame, the supporting plate and the feeding plates are fixedly connected and are used for supporting pipe fittings, each feeding plate comprises a front edge and an upper edge, the front edge of each feeding plate is connected with the upper edge of the corresponding supporting plate to form an angle groove I, the rear end of the upper edge of each feeding plate is provided with a retaining edge I, the pipe jacking mechanism I comprises a material jacking plate I, the material jacking plates I can move up and down and are arranged at the angle grooves I and are connected with a linear driving device I, the upper edges of the material jacking plates I are inclined planes, when the material jacking plates I move to the lower ends, the upper edges of the material jacking plates I are lower than the upper edges of the supporting plate, when the material jacking plates I move to the uppermost ends, the upper edges of the material jacking plates are higher than the upper edges of the material jacking plates, the material jacking plates I act to jack up the pipe fittings above the material jacking plates I at the angle grooves I and push the upper portions of the material jacking plates to the upper portions of the upper portions, the blocking edge I and the upper edge of the feeding plate can support the blocking pipe fitting; and the ejection mechanism II comprises an ejection plate II, the end edge of the ejection plate II can move upwards, and when the end edge of the ejection plate II moves to the highest position, the end edge of the ejection plate II is higher than the upper end of the retaining edge I, and the ejection mechanism can be used for ejecting the pipe fitting placed on the upper plate and the retaining edge I.

Linear drive unit I be the scalable drive arrangement of vertical setting, its stiff end is connected with the material loading frame, flexible end and I lower extreme fixed connection of liftout plate, linear drive unit I be cylinder or electric push rod.

Ejector plate II be connected with linear driving device II, but linear up-and-down displacement, linear driving device II is the scalable driving device of vertical setting, and its stiff end is connected with the material loading frame, flexible end and II lower extreme fixed connection of ejector plate, linear driving device II be cylinder or electric push rod, the pipe fitting jack-up of I department along the fender can be shifted on the ejector plate II, the propelling movement is to next procedure position, the pay-off track before the pipe cutting machine promptly.

The ejector plate II can also be a turnover plate, is connected with the rotating shaft, can turn from flat to upright, and can jack and push the pipe fitting to the next flow position when the end edge is higher than the upper edge of the upper material plate and is higher than the upper end of the retaining edge I; the rotating shaft is fixedly connected with a crank arm, and the crank arm is connected with a linear driving device; further, II afterbody in kicking plate are provided with and keep off along II, and when kicking plate II reachd the highest position, the pipe fitting was by last flitch top jack-up, roll into and keep off along II blockings, play the buffering and block the effect, when deciding II downward displacements of flitch, the pipe fitting gets into the pay-off track.

The ejector plate II is arranged between the two feeding plates and at least provided with two groups of material fixing mechanisms II for ejecting materials

The supporting plates are vertically arranged on two sides of the frame and comprise horizontal sections and slope sections, the slope sections and the front edges of the feeding plates form angle grooves I to block the pipe fittings, and the slope sections are inclined downwards towards the angle grooves I; the upper edge of the feeding plate is inclined and is inclined downwards towards the blocking edge I; and the end edge of the ejector plate II is a slope, and the inclined direction inclines downwards towards the feeding track.

The pipe jacking mechanism is characterized by further comprising a pipe jacking mechanism III, the pipe jacking mechanism III is arranged at the horizontal section of the supporting plate and comprises an air cylinder and a material pushing plate, one end of the material pushing plate is hinged to the material loading frame, the other end of the material pushing plate is connected with the air cylinder, the air cylinder acts, the other end of the material pushing plate is tilted to exceed the upper edge of the horizontal section and lift up a pipe fitting, the hinged position is close to the higher end of the slope section, the upper edge of the material pushing plate is flush with the horizontal section in a natural state, when the material pushing plate is jacked up by the air cylinder, the pipe fitting can roll along the upper edge of the material pushing plate to the slope section, and the pipe fitting temporarily stored above the horizontal section is conveyed to the slope section.

The ejector plate I, the ejector plate II and the material pushing plate are at least two, and the material is nylon plates.

The pipe fitting can be temporarily stored above the supporting plate, the pipe fitting at the front end can be blocked by the angle groove I, the material ejecting mechanism I acts to eject the pipe fitting at the angle groove I to the upper material plate and is blocked by the blocking edge I, and the material ejecting mechanism II acts to push the pipe fitting at the blocking edge I to the next flow, such as a feeding track in front of a pipe cutting machine; and the material ejecting mechanism III acts to push the pipe fittings accumulated in the horizontal section to the slope section.

The utility model has the advantages that: through the device, can carry out the guide with storing a plurality of pipe fittings in backup pad top one by one and carry the feeding track before the pipe cutting machine on, degree of mechanization is high, and production efficiency is high.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of the ejector plate II.

1-a feeding frame, 2-a feeding plate, 3-a retaining edge I, 4-an ejection plate I, 5-a linear driving device I, 6-a supporting plate, 7-an ejection plate II, 8-an ejection mechanism III, 9-a rotating shaft, 10-a crank arm, 601-a horizontal section, 602-a slope section, 11-a pushing plate and 12-a retaining edge II.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings and examples.

A guide device for a pipe cutting machine comprises a feeding frame 1, a supporting plate 6, two feeding plates 2, a pipe jacking mechanism I and a pipe jacking mechanism II, wherein the supporting plate 6 and the two feeding plates 2 are vertically arranged on two sides of the feeding frame 1, the supporting plate 6 and the two feeding plates 2 are fixedly connected and are used for supporting pipe fittings, each feeding plate 2 comprises a front edge and an upper edge, the front edges of the feeding plates 2 are connected with the upper edges of the supporting plate 6 to form an angle groove I, a blocking edge I3 is arranged at the rear end of the upper edge of each feeding plate 2, the pipe jacking mechanism I comprises a material plate I4, the material plate I4 can move up and down and is arranged at the position of the angle groove I and connected with a linear driving device I5, the upper edge of the material plate I4 is an inclined plane, when the material plate I4 moves to the lower end, the upper edge of the material plate is lower than the upper edge of the supporting plate 6, when the material plate I4 moves to the uppermost end, the upper edge of the material plate is higher than the upper edge of the material plate 2, the material plate I4 moves, jacking the pipe fitting above a jacking plate I4 at the corner groove I, pushing the pipe fitting above an upper material plate 2, wherein the blocking edge I3 and the upper edge of the upper material plate 2 can support and block the pipe fitting; liftout mechanism II include liftout board II 7, the end edge of liftout board II 7 can upwards be shifted, when its end edge shifted the highest point, be higher than the upper end of keeping off along I3, will place at last flitch 2 and keep off the pipe fitting jack-up along I3 department.

Linear drive device I5 be the scalable drive arrangement of vertical setting, its stiff end is connected with material loading frame 1, flexible end and I4 lower extreme fixed connection of liftout plate, linear drive device I5 be cylinder or electric push rod.

Ejector plate II 7 be connected with linear drive device II, but linear up-down displacement, linear drive device II is the scalable drive arrangement of vertical setting, its stiff end is connected with material loading frame 1, flexible end and II 7 lower extreme fixed connection of ejector plate, linear drive device II be cylinder or electric push rod, the displacement on ejector plate II 7 can be with keeping off along the pipe fitting jack-up of I3 department, propelling movement to next flow position, the pay-off track before the pipe cutting machine promptly.

The ejector plate II 7 can also be a turnover plate and is connected with the rotating shaft 9, can be turned from a flat state to a vertical state, and can jack and push the pipe fitting to the next flow position when the end edge is higher than the upper edge of the upper material plate 2 and is higher than the upper end of the retaining edge I3; the rotating shaft 9 is fixedly connected with a crank arm 10, and the crank arm 10 is connected with a linear driving device; further, II 7 afterbody in liftout board is provided with keeps off along II 12, and when II 7 in liftout board reachd the highest position, the pipe fitting is by 2 tops in the flitch jack-ups, rolls into to keep off along II 12 and is blockked, plays the buffering and stops the effect, and when deciding II displacements downwards of flitch, the pipe fitting gets into the pay-off track.

The ejector plate II 7 is arranged between the two feeding plates 2 and at least provided with two groups of material fixing mechanisms II for ejecting materials

The supporting plates 6 are vertically arranged on two sides of the frame and comprise horizontal sections 601 and slope sections 602, the slope sections 602 and the front edges of the feeding plates 2 form an angle groove I to block the pipe fittings, and the slope sections 602 incline downwards towards the angle groove I; the upper edge of the feeding plate 2 is inclined and is inclined downwards towards the blocking edge I3; and the end edge of the ejector plate II 7 is a slope, and the inclination direction inclines downwards towards the feeding track.

The pipe jacking mechanism comprises a cylinder and a material pushing plate 11, one end of the material pushing plate 11 is hinged to the feeding frame 1, the other end of the material pushing plate 11 is connected with the cylinder, the cylinder acts, the other end of the material pushing plate 11 tilts to exceed the upper edge of the horizontal section 601 and lift a pipe fitting, the hinged position is close to the higher end of the slope section 602, the upper edge of the material pushing plate 11 is flush with the horizontal section 601 in a natural state, when the material pushing plate 11 is jacked up by the cylinder, the pipe fitting can roll to the slope section 602 along the upper edge of the material pushing plate 11, and the pipe fitting temporarily stored above the horizontal section 601 is conveyed to the slope section 602.

Ejector plate I4, ejector plate II 7, scraping wings 11 all include two at least, the material chooses the nylon board for use.

The pipe fittings can be temporarily stored above the supporting plate 6, the pipe fittings at the front ends can be blocked by the angle grooves I, the material ejecting mechanism I acts to eject the pipe fittings at the angle grooves I to the upper part of the feeding plate 2 and is blocked by the blocking edges I3, and the material ejecting mechanism II acts to push the pipe fittings at the blocking edges I3 to the next flow, such as a feeding track in front of a pipe cutting machine; the ejector mechanism III 8 acts to push the pipe fittings accumulated in the horizontal section 601 to the slope section 602.

The above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and the changes, modifications, additions or substitutions made by those skilled in the art within the scope of the present invention should also belong to the protection scope of the present invention.

Claims (6)

1. The utility model provides a pipe cutter is with guide device which characterized in that: the pipe jacking device comprises a feeding frame, two supporting plates, two feeding plates, a pipe jacking mechanism I and a pipe jacking mechanism II, wherein the two supporting plates and the two feeding plates are vertically arranged on two sides of the feeding frame, the supporting plates and the feeding plates are fixedly connected and are used for supporting pipe fittings, each feeding plate comprises a front edge and an upper edge, the front edges of the feeding plates and the upper edges of the supporting plates are connected to form an angle groove I, the rear ends of the upper edges of the feeding plates are provided with blocking edges I, the pipe jacking mechanism I comprises a jacking plate I which can move up and down and is arranged at the corner groove I, which is connected with a linear driving device I, the upper edge of a material ejecting plate I is an inclined plane, when the material ejecting plate I moves to the lower end, the upper edge of the retainer edge I is lower than the upper edge of the supporting plate, when the retainer edge I moves to the uppermost end, the upper edge of the retainer edge I is higher than the upper edge of the feeding plate, the ejector plate I acts to jack up the pipe fitting above the ejector plate I at the corner groove I and push the pipe fitting to the upper part of the feeding plate, and the retainer edge I and the upper edge of the feeding plate can support and stop the pipe fitting; and the ejection mechanism II comprises an ejection plate II, the end edge of the ejection plate II can move upwards, and when the end edge of the ejection plate II moves to the highest position, the end edge of the ejection plate II is higher than the upper end of the retaining edge I, and the ejection mechanism can be used for ejecting the pipe fitting placed on the upper plate and the retaining edge I.

2. The material guiding device for the pipe cutting machine according to claim 1, wherein: linear drive unit I be the scalable drive arrangement of vertical setting, its stiff end is connected with the material loading frame, flexible end and I lower extreme fixed connection of liftout plate, linear drive unit I be cylinder or electric push rod.

3. The material guiding device for the pipe cutting machine according to claim 1, wherein: ejector plate II be connected with linear drive device II, but linear up-and-down displacement, linear drive device II is the scalable drive arrangement of vertical setting, and its stiff end is connected with the material loading frame, flexible end and II lower extreme fixed connection of ejector plate, linear drive device II be cylinder or electric push rod, the pipe fitting jack-up of I department along the fender can be shifted on the ejector plate II, propelling movement to next flow position.

4. The material guiding device for the pipe cutting machine according to claim 1, wherein: the ejector plate II is also a turnover plate and is connected with the rotating shaft, the ejector plate II can be turned from a flat state to a vertical state, the end edge of the ejector plate II is higher than the upper edge of the upper material plate to the upper end of the retaining edge I from a state lower than the upper edge of the upper material plate, and the ejector plate II can eject and push the pipe fitting to the next flow position; the rotating shaft is fixedly connected with a crank arm, and the crank arm is connected with a linear driving device.

5. The material guiding device for the pipe cutting machine according to claim 1, wherein: the supporting plates are vertically arranged on two sides of the frame and comprise horizontal sections and slope sections, the slope sections and the front edges of the feeding plates form angle grooves I to block the pipe fittings, and the slope sections are inclined downwards towards the angle grooves I; the upper edge of the feeding plate is inclined and is inclined downwards towards the blocking edge I; and the end edge of the ejector plate II is a slope, and the inclined direction inclines downwards towards the feeding track.

6. The material guiding device for the pipe cutting machine as claimed in claim 5, wherein: the pipe jacking mechanism is characterized by further comprising a pipe jacking mechanism III, the pipe jacking mechanism III is arranged at the horizontal section of the supporting plate and comprises an air cylinder and a material pushing plate, one end of the material pushing plate is hinged to the material loading frame, the other end of the material pushing plate is connected with the air cylinder, the air cylinder acts, the other end of the material pushing plate is tilted to exceed the upper edge of the horizontal section, the pipe fitting is lifted, the hinged position is close to the higher end of the slope section, the upper edge of the material pushing plate is flush with the horizontal section in the natural state of the material pushing plate, and when the material pushing plate is jacked by the air cylinder, the.

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