angle iron corner cutting machine

CN116833480BActive Publication Date: 2026-06-23WENZHOU TAICHANG TOWER MFG

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
WENZHOU TAICHANG TOWER MFG
Filing Date
2023-07-05
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

In existing technologies, the cutting of angle steel edges and corners is time-consuming and labor-intensive, difficult to control accuracy, and has low processing efficiency.

Method used

An angle steel corner cutting machine was designed, which adopts a structure including a sliding table, a steering seat, a pushing seat, and a positioning component. The angle steel is fixed by a magnetic or clamping device, the pushing seat floats up and down to adjust the angle, and the machine is clamped by an electromagnet and an airbag to achieve precise cutting.

Benefits of technology

It reduces manual operation, improves production and processing efficiency, ensures cutting accuracy and positional stability, and has a simple, practical and reliable structure.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN116833480B_ABST
    Figure CN116833480B_ABST
Patent Text Reader

Abstract

The application discloses an angle steel corner cutting machine, which comprises a base, a corner cutting device for cutting corners is arranged on the base, a first sliding rail is arranged on the base along the length direction on one side of the corner cutting device, a sliding table is slidingly matched on the first sliding rail, a second sliding rail is arranged on the sliding table along the width direction, a steering seat is slidingly arranged on the second sliding rail, a rotating groove is formed in the steering seat, a ball head is rotatingly arranged in the rotating groove, a connecting seat is arranged on the ball head, the connecting seat is exposed outside the rotating groove, a connecting groove is formed in the connecting seat, a positioning assembly for fixing the angle steel is arranged in the connecting groove, an annular track is arranged on the base in the circumferential direction of the sliding table, and a pushing seat for pushing the angle steel to swing is slidingly arranged on the annular track. The angle steel corner cutting machine has good auxiliary supporting and feeding effects, reduces manual operation, improves production and processing efficiency, has a simple structure and good use effect.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This invention relates to the field of machining technology, and in particular to an angle steel corner cutting machine. Background Technology

[0002] Angle steel, commonly known as angle iron, is a long strip of steel with two sides perpendicular to each other, forming an angle. After production, angle steel usually needs to be trimmed at its edges to meet assembly requirements. Currently, the main method for trimming angle steel is for workers to lift the steel and feed it to a corner cutting machine. This is time-consuming and labor-intensive. Furthermore, due to the large overall length of the angle steel, it is difficult for workers to control it, affecting the accuracy of the cut. In many cases, the cut angles on both sides of the angle steel are different, further increasing the difficulty of production and resulting in low production efficiency. Summary of the Invention

[0003] To address the shortcomings of existing technologies, this invention provides an angle steel corner cutting machine, which has a good auxiliary support feeding effect, reduces manual operation, improves production and processing efficiency, and has a simple structure and good performance.

[0004] To achieve the above objectives, the present invention provides an angle steel corner cutting machine, comprising a base, on which a corner cutting device for corner cutting is disposed, a first slide rail is disposed on the base along the length direction on one side of the corner cutting device, a sliding stage is slidably fitted on the first slide rail, a second slide rail is disposed on the sliding stage along the width direction, a steering seat is slidably disposed on the second slide rail, a rotating groove is formed on the steering seat, a ball head is rotatably disposed in the rotating groove, a connecting seat is disposed on the ball head, the connecting seat is exposed outside the rotating groove, a connecting groove is formed on the connecting seat, a positioning component for fixing the angle steel is disposed in the connecting groove, and an annular track is disposed around the base on the sliding stage, a pushing seat for pushing the angle steel to swing is slidably disposed on the annular track.

[0005] The advantages of this design are as follows: The angle steel is placed in the connecting groove and fixed by positioning components. These components can be magnetically attached or clamped. After fixing, the angle steel is adjusted by driving the sliding seat to slide circumferentially, thus achieving the cutting action on both sides of the angle steel. Preferably, the sliding seat can be floated up and down for more precise control of the cutting angle, ensuring the cutting effect. This design reduces manual labor, effectively improves production efficiency, and has a simple structure that is easy to implement, resulting in good performance.

[0006] Furthermore, the pusher seat is provided with a push plate, and the pusher seat is provided with cams and drive motors for driving the cams to rotate on both sides of the push plate.

[0007] The advantages of this design are: it has a simple structure and can effectively move the angle steel up and down. In addition, the angle steel can be swung by a push plate. An electromagnet can be installed on the push plate to lock or unlock the angle steel by turning the power on and off, ensuring the stability of the angle steel's position movement. Furthermore, the electromagnet can prevent the angle steel from slipping during subsequent corner cutting, ensuring positional stability and providing good performance.

[0008] Furthermore, the peripheral wall of the cam is provided with a positioning groove for engaging with the tip of the angle steel.

[0009] The advantages of this design are: ensuring the stability of the angle steel position, facilitating the adjustment of the angle steel position, and achieving good performance.

[0010] Furthermore, the connecting groove is V-shaped, and guide posts are respectively provided on the side wall of the connecting groove. The positioning component includes a clamping plate, an airbag, and a controller for controlling the expansion or contraction of the airbag. The clamping plate is slidably mounted on the guide posts. A tension spring for resetting the clamping plate is provided between the clamping plate and the side wall of the connecting groove. The tension spring is sleeved on the guide posts. A through hole is provided on the clamping plate. The airbag is disposed between the clamping plate and the side wall of the connecting groove, and the airbag portion is exposed outside the through hole.

[0011] The beneficial effects of this design are: the airbag is inflated or deflated by the controller, which drives the clamping plate to slide, thereby clamping the angle steel and ensuring the stability of the angle steel position. Furthermore, by placing the airbag on the clamping plate, it can be partially exposed, allowing it to better fit the angle steel and preventing it from loosening. This structure is simple, practical, reliable, and has good performance.

[0012] Furthermore, the connecting seat is provided with driving grooves at both ends of the connecting groove, and a driving wheel is rotatably arranged in the driving groove. The driving wheel is hourglass shaped.

[0013] The advantages of this design are: it facilitates the feeding of inclined angle steel, ensures the feeding effect, and has a simple structure that is easy to implement and has good performance.

[0014] Furthermore, guide wheels are provided on both sides of the pusher seat, and guide grooves are provided on the side wall of the annular track, with the guide wheels and guide grooves rotating in cooperation.

[0015] The advantages of this design are: it facilitates the sliding of the sliding seat, ensures smooth movement, and provides excellent usability.

[0016] Furthermore, the corner-cutting device includes a worktable, a clamping groove is provided on the worktable, a clamping seat is slidably disposed on the clamping groove, and an electromagnet is disposed on the clamping seat.

[0017] The advantages of this design are: it ensures the positioning of the angle steel, prevents the angle steel from deflecting, and has a simple structure that is easy to implement and has good performance.

[0018] Furthermore, the workbench is also equipped with an identification system for recognizing the angle and height of the angle steel.

[0019] The benefits of this setup are: improved overall system operating efficiency, easier control of angle steel position, guaranteed processing accuracy, and good performance. Attached Figure Description

[0020] Figure 1 This is a schematic diagram of the overall structure of an embodiment of the present invention;

[0021] Figure 2 This is a schematic diagram of the steering seat in an embodiment of the present invention;

[0022] Figure 3 This is a cross-sectional view of the steering seat in an embodiment of the present invention;

[0023] Figure 4 This is a schematic diagram of the pusher seat in an embodiment of the present invention. Detailed Implementation

[0024] Examples of embodiments of the angle steel corner cutting machine of the present invention Figures 1 to 4 As shown: The system includes a base 1, on which a corner-cutting device 2 is mounted. A first slide rail 11 is mounted on the base 1 along the length of the corner-cutting device 2. A sliding platform 12 is slidably fitted on the first slide rail 11. A second slide rail 13 is mounted on the sliding platform 12 along the width direction. A steering seat 4 is slidably mounted on the second slide rail 13. A rotating groove is formed on the steering seat 4. A ball head 41 is rotatably mounted in the rotating groove. A connecting seat 42 is mounted on the ball head 41. The connecting seat 42 is exposed outside the rotating groove. A connecting groove is formed on the connecting seat 42. A positioning component for fixing the angle steel is provided in the connecting groove. An annular track 14 is circumferentially mounted on the base 1 around the sliding platform 12. A pusher seat 3 for pushing the angle steel to swing is slidably mounted on the annular track 14. The advantages of this design are as follows: The angle steel is placed in the connecting groove and fixed by positioning components. These components can be magnetically attached or clamped. After fixing, the angle steel is adjusted by driving the pusher seat 3 to slide circumferentially, thus achieving the cutting action on both sides of the angle steel. Preferably, the pusher seat 3 can be floated up and down for more precise control of the cutting angle, ensuring the cutting effect. This design reduces manual labor, effectively improves production efficiency, and has a simple structure that is easy to implement, resulting in good performance.

[0025] Furthermore, the pusher seat 3 is provided with a push plate 31, and the pusher seat 3 is provided with cams 32 and drive motors for driving the cams 32 to rotate on both sides of the push plate 31. The beneficial effects of this configuration are: simple structure, effective ability to drive the angle steel to float up and down, and the ability to push the angle steel to swing through the push plate 31. An electromagnet can be installed on the push plate 31 to lock or unlock the angle steel by switching on and off the power, ensuring the stability of the angle steel's position movement. In addition, the electromagnet can prevent the angle steel from slipping during subsequent corner cutting, ensuring positional stability and providing good performance.

[0026] Furthermore, the cam 32 has a positioning groove on its peripheral wall for engaging with the tip of the angle steel. This design ensures the stability of the angle steel's position, facilitates adjustment of its position, and provides excellent performance.

[0027] Furthermore, the connecting groove is V-shaped, and guide posts 45 are respectively provided on the sidewalls of the connecting groove. The positioning assembly includes a clamping plate 43, an airbag 44, and a controller for controlling the expansion or contraction of the airbag 44. The clamping plate 43 is slidably mounted on the guide posts 45. A tension spring 46 for resetting the clamping plate 43 is provided between the clamping plate 43 and the sidewall of the connecting groove. The tension spring 46 is sleeved on the guide posts 45. A through hole is provided on the clamping plate 43. The airbag 44 is disposed between the clamping plate 43 and the sidewall of the connecting groove, with part of the airbag 44 exposed outside the through hole. The beneficial effects of this design are: by controlling the expansion or deflation of the airbag 44 through the controller, the clamping plate 43 is slidable, thereby clamping the angle steel and ensuring the stability of the angle steel position. Furthermore, by being mounted on the clamping plate 43, the airbag 44 can be partially exposed, allowing it to better fit the angle steel and preventing it from loosening. This structure is simple, practical, reliable, and has good performance.

[0028] Furthermore, the connecting seat 42 is provided with driving grooves at both ends of the connecting groove, and a driving wheel 47 is rotatably disposed in the driving groove. The driving wheel 47 is hourglass-shaped. The beneficial effects of this design are: it facilitates the feeding of inclined angle steel, ensures the feeding effect, and has a simple structure, is easy to implement, and has good performance.

[0029] Furthermore, guide wheels are respectively provided on both sides of the pusher seat 3, and guide grooves are provided on the side wall of the annular track 14. The guide wheels and guide grooves are rotatably engaged. The beneficial effect of this arrangement is that it facilitates the sliding of the pusher seat 3, ensuring smooth sliding and providing excellent performance.

[0030] Furthermore, the corner-cutting device 2 includes a worktable with a clamping groove 21. A clamping seat 22 is slidably mounted on the clamping groove 21, and an electromagnet is mounted on the clamping seat 22. The advantages of this design are: ensuring the positioning of the angle steel, preventing deflection, and having a simple structure that is easy to implement and provides good performance.

[0031] Furthermore, the workbench is also equipped with a recognition system for identifying the angle and height of the angle steel. The advantages of this setup are: improved overall system operating efficiency, easier control of the angle steel position, guaranteed processing accuracy, and excellent performance.

[0032] The above examples are merely one preferred embodiment of the present invention. Ordinary variations and substitutions made by those skilled in the art within the scope of the technical solution of the present invention are all included within the protection scope of the present invention.

Claims

1. An angle steel corner cutting machine, comprising a base, wherein a corner cutting device for corner cutting is disposed on the base, characterized in that: A first slide rail is provided along the length direction on one side of the corner-cutting device on the base. A sliding stage is slidably fitted on the first slide rail. A second slide rail is provided along the width direction on the sliding stage. A steering seat is slidably mounted on the second slide rail. The steering seat has a rotating groove. A ball head is rotatably mounted in the rotating groove. A connecting seat is provided on the ball head. The connecting seat is exposed outside the rotating groove. A connecting groove is provided on the connecting seat. A positioning component for fixing the angle steel is provided in the connecting groove. An annular track is provided around the sliding stage on the base. A pusher seat for pushing the angle steel to swing is slidably mounted on the annular track. A pusher plate is provided on the pusher seat. Cams and drive mechanisms are provided on both sides of the pusher plate on the pusher seat. The drive motor for rotating the cam has a positioning groove on its peripheral wall for engaging with the tip of an angle steel. The connecting groove is V-shaped, and guide posts are respectively provided on the side walls of the connecting groove. The positioning assembly includes a clamping plate, an airbag, and a controller for controlling the expansion or contraction of the airbag. The clamping plate is slidably mounted on the guide posts. A tension spring for resetting the clamping plate is provided between the clamping plate and the side wall of the connecting groove. The tension spring is sleeved on the guide posts. A through hole is provided on the clamping plate. The airbag is located between the clamping plate and the side wall of the connecting groove, with part of the airbag exposed outside the through hole. A drive groove is provided at both ends of the connecting groove on the connecting seat. A drive wheel is rotatably mounted in the drive groove, and the drive wheel is hourglass-shaped.

2. The angle steel cutting machine according to claim 1, characterized in that: Guide wheels are provided on both sides of the pusher seat, and guide grooves are provided on the side wall of the annular track. The guide wheels and guide grooves are rotatably engaged.

3. The angle steel cutting machine according to claim 1, characterized in that: The corner-cutting device includes a worktable, a clamping groove on the worktable, a clamping seat slidably disposed on the clamping groove, and an electromagnet disposed on the clamping seat.

4. The angle steel cutting machine according to claim 3, characterized in that: The workbench is also equipped with a recognition system for identifying the angle and height of the angle steel.