CN218611964U - Automatic cutting machine for strip-shaped steel - Google Patents

Abstract

The utility model discloses a strip-shaped steel automatic cutting machine, which comprises a steel feeding structure, a steel conveying structure, a steel guide pipe, a steel cutting structure, a first clamping structure and a second clamping structure; the steel cutting structure is positioned right above the first clamping structure, the steel conveying structure, the steel guide pipe, the first clamping structure and the second clamping structure are sequentially arranged from one side to the other side, the second clamping structure comprises a second left clamping head, a second right clamping head, a second clamping cylinder for controlling the second left clamping head and the second right clamping head to clamp or loosen mutually, and a second telescopic cylinder for controlling the second clamping cylinder to be close to or far away from the first clamping structure, the second clamping structure clamps steel and drives the steel to be far away from the steel guide pipe, the first clamping structure clamps the steel, and the steel cutting structure cuts off the steel; its advantage is that can realize cutting off steel fast incessantly, and the length of steel cutting is more even, and the cutting is more stable.

Description

Automatic steel cutting machine of rectangular shape

Technical Field

The utility model belongs to the technical field of automation equipment technique and specifically relates to a steel automatic cutout machine of rectangular shape.

Background

The long-strip-shaped steel needs to be cut into a section on the cutting machine, the existing cutting mode is manual cutting, the cutting efficiency is low, the steel cutting is unstable, and the steel cutting length is not uniform.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects of the prior art and providing a steel automatic cutting machine with a long strip shape.

The utility model discloses a technical scheme:

the long-strip-shaped steel automatic cutting machine comprises a steel feeding structure, a steel conveying structure for supporting steel, a steel guide pipe, a steel cutting structure for cutting off the steel, a first clamping structure for clamping or loosening the steel, and a second clamping structure for clamping the steel and driving the steel to move along the steel guide pipe; the steel cut-off structure is located first tight structure of clamp directly over, steel conveying structure, steel stand pipe, first tight structure of clamp and second press from both sides tight structure from one side to opposite side and set gradually, the second presss from both sides tight structure and includes that the second left side presss from both sides tight head, the second right side presss from both sides tight head, the second left side of control second and the second right side presss from both sides tight head and presss from both sides tight second die clamping cylinder that tightly presss from both sides tight or loosen each other and control second die clamping cylinder is close to or keeps away from the second telescopic cylinder that the first tight structure of clamp, the second presss from both sides tight structure and presss from both sides tight steel and drives steel and keeps away from the steel stand pipe, and the first tight steel that presss from both sides tight structure presss from both sides tight steel, and steel cut-off structure cuts off steel.

One preferred scheme is that the strip-shaped automatic steel cutting machine further comprises a blanking box, a finished product storage bin and a waste product storage bin; the finished product storage bin is located feed box one side, the waste product storage bin is located the feed box opposite side, be equipped with the deflector in the feed box, the feed box is equipped with control deflector pivoted guide cylinder outward, guide cylinder control deflector rotates for feed box and finished product storage bin intercommunication or with waste product storage bin intercommunication.

One preferred scheme is that the first clamping structure comprises a first left clamping head, a first right clamping head and a first clamping cylinder for controlling the first left clamping head and the first right clamping head to clamp or unclamp mutually, and when the first left clamping head and the first right clamping head clamp steel, the steel cutting structure cuts off the steel; when first left chuck and first right chuck loosened steel, the second presss from both sides tight structure and presss from both sides tight steel and drives steel and keep away from the steel stand pipe.

A preferred scheme is that a positioning pipe is arranged between the first clamping structure and the second clamping structure.

One preferred scheme is that the steel feeding structure comprises two parallel supporting plates, a steel pushing mechanism, a third clamping mechanism for clamping steel, and a rotating mechanism for driving the third clamping mechanism to rotate; the backup pad is equipped with the support groove that supports steel, steel pushing mechanism promotes steel to third clamping mechanism from supporting the groove, after third clamping mechanism presss from both sides tight steel, rotary mechanism drives the steel rotation to conveying mechanism that third clamping mechanism presss from both sides tightly.

The third clamping mechanism preferably comprises a third upper clamping head, a third lower clamping head and a third clamping cylinder for controlling the third upper clamping head and the third lower clamping head to clamp or unclamp each other, the steel pushing mechanism pushes the steel from the supporting groove to a position between the third upper clamping head and the third lower clamping head, and the third clamping cylinder controls the third upper clamping head and the third lower clamping head to clamp the steel.

One preferred scheme is that the rotating mechanism comprises a rotating cylinder and a rotating shaft, the third clamping mechanism is fixedly connected with the rotating shaft, and the rotating cylinder drives the rotating shaft and the third clamping mechanism to rotate.

The steel conveying structure comprises a supporting roller, a first clamping roller, a second clamping roller and a fourth clamping cylinder, a first clamping space is formed between the first clamping roller and the second clamping roller, the fourth clamping cylinder controls the first clamping roller and the second clamping roller to be clamped or loosened mutually, the supporting roller is used for supporting steel, and a rotating mechanism drives the steel clamped by a third clamping mechanism to rotate between the first clamping roller and the second clamping roller.

The steel conveying structure further comprises a third clamping roller and a fourth clamping roller, a second clamping space is formed between the third clamping roller and the fourth clamping roller, the third clamping roller is connected with the first clamping roller through a first connecting block, the fourth clamping roller is connected with the second clamping roller through a second connecting block, and the fourth clamping cylinder controls the first connecting block and the second connecting block to be close to or far away from each other.

One preferable scheme is that the pushing mechanism comprises a pushing cylinder and a guide rail, and the pushing cylinder pushes the steel to be close to the third clamping mechanism pushing block from the supporting groove; the pushing block is connected with the guide rail in a sliding mode, the pushing cylinder is connected with the pushing block, and the pushing cylinder pushes the pushing block to slide along the guide rail.

Synthesize above-mentioned technical scheme, the beneficial effects of the utility model: steel conveying structure is delivered to steel feeding structure, steel conveying structure carries steel to the steel stand pipe, the second presss from both sides tight structure clamp and gets steel and drive steel and keep away from the steel stand pipe, first press from both sides tight structure and press from both sides steel tightly, steel cutting structure cuts off steel, after steel cuts off, the second presss from both sides tight structure pine and opens the steel after cutting off, the second presss from both sides tight structure and removes to being close to the steel stand pipe, first presss from both sides tight structure and loosens steel, the second presss from both sides tight structure and continues to press from both sides to get steel and drive steel and keep away from the steel stand pipe, first presss from both sides tight structure and presss from both sides steel tightly, steel cutting structure cuts off steel, it is repeated so. After a whole steel cutting, steel material loading structure continues to deliver to steel conveying structure with next steel, can realize cutting off steel fast incessantly, and the length of steel cutting is more even, and the cutting is more stable.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented in accordance with the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more clearly understood, the following preferred embodiments are specifically illustrated below, and the detailed description is given in conjunction with the accompanying drawings.

Drawings

Fig. 1 is a first perspective view of the present invention;

fig. 2 is a second perspective view of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a perspective view of the first clamping structure, the second clamping structure and the blanking box of the present invention;

fig. 5 is a perspective view of a second clamping structure of the present invention;

FIG. 6 is a perspective view of the steel feeding structure of the present invention;

fig. 7 is a perspective view of the steel conveying structure of the present invention.

Detailed Description

For the purpose of illustrating the spirit and purposes of the present invention, the present invention will be further described with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 7, an automatic steel bar cutting machine in a bar shape includes a steel bar feeding structure 10, a steel bar conveying structure 20 for supporting a steel bar 31, a steel bar guide pipe 30, a steel bar cutting structure 40 for cutting the steel bar 31, a first clamping structure 50 for clamping or unclamping the steel bar 31, a second clamping structure 60 for clamping the steel bar 31 and moving the steel bar 31 along the steel bar guide pipe 30; the steel cutting structure 40 is located directly over the first clamping structure 50, the steel conveying structure 20, the steel guide pipe 30, the first clamping structure 50 and the second clamping structure 60 are sequentially arranged from one side to the other side, the second clamping structure 60 comprises a second left clamping head 61, a second right clamping head 62, a second clamping cylinder 63 for controlling the second left clamping head 61 and the second right clamping head 62 to clamp or loosen each other, and a second telescopic cylinder 64 for controlling the second clamping cylinder 63 to be close to or far away from the first clamping structure 50, the second clamping structure 60 clamps the steel 31 and drives the steel 31 to be far away from the steel guide pipe 30, the first clamping structure 50 clamps the steel 31, and the steel cutting structure 40 cuts off the steel 31.

As shown in fig. 1 to 7, the steel material cutting structure 40 can move along the X-axis, the Y-axis and the Z-axis, the steel material feeding structure 10 sends the steel material 31 to the steel material conveying structure 20, the steel material conveying structure 20 conveys the steel material 31 to the steel material guide tube 30, the second clamping structure 60 clamps the steel material 31 and drives the steel material 31 to move away from the steel material guide tube 30, the first clamping structure 50 clamps the steel material 31, the steel material cutting structure 40 cuts the steel material 31, after the steel material 31 is cut, the second clamping structure 60 releases the cut steel material 31, the second clamping structure 60 moves to be close to the steel material guide tube 30, the first clamping structure 50 releases the steel material 31, the second clamping structure 60 continues to clamp the steel material 31 and drives the steel material 31 to move away from the steel material guide tube 30, the first clamping structure 50 clamps the steel material 31, the steel material cutting structure 40 cuts the steel material 31, and so on. After the whole steel material 31 is cut, the steel material feeding structure 10 continues to feed the next steel material 31 to the steel material conveying structure 20.

As shown in fig. 1 to 7, the automatic cutting machine for elongated steel products further includes a blanking box 70, a finished product storage bin 71 and a waste product storage bin 72; the finished product storage bin 71 is located on one side of the lower material box 70, the waste product storage bin 72 is located on the other side of the lower material box 70, a guide plate 73 is arranged in the lower material box 70, a guide cylinder 74 for controlling the guide plate 73 to rotate is arranged outside the lower material box 70, and the guide cylinder 74 controls the guide plate 73 to rotate, so that the lower material box 70 is communicated with the finished product storage bin 71 or communicated with the waste product storage bin 72.

As shown in fig. 1 to 7, the guide cylinder 74 controls the guide plate 73 to rotate, so that the lower material box 70 is communicated with the finished product storage bin 71. After the steel material cutting structure 40 cuts the steel material 31, the second clamping structure 60 releases the cut steel material 31, the cut steel material 31 falls into the blanking box 70 and slides into the finished product storage bin 71 from the blanking box 70, after the strip-shaped steel material 31 is cut and the remaining tailings are left, the guide cylinder 74 controls the guide plate 73 to rotate, so that the blanking box 70 is communicated with the waste product storage bin 72, the second clamping structure 60 clamps the tailings, then releases the tailings, and the tailings fall into the blanking box 70 and slide into the waste product storage bin 72 from the blanking box 70. The classification of finished products and tailings can be automatically finished.

As shown in fig. 1 to 7, the first clamping structure 50 includes a first left clamping head 51, a first right clamping head 52, and a first clamping cylinder for controlling the mutual clamping or loosening of the first left clamping head and the first right clamping head 52, and when the first left clamping head 51 and the first right clamping head 52 clamp the steel material 31, the steel material cutting structure 40 cuts the steel material 31; when the first left clamping head 51 and the first right clamping head 52 loosen the steel material 31, the second clamping structure 60 clamps the steel material 31 and drives the steel material 31 away from the steel material guide pipe 30. The first clamping structure 50 mainly functions to fix the steel material 31, and prevents the steel material 31 from swinging when the steel material cutting structure 40 cuts the steel material 31.

As shown in fig. 1 to 7, a positioning tube 32 is disposed between the first clamping structure 50 and the second clamping structure 60. The positioning pipe 32 mainly functions to fix the steel material 31, and prevents the steel material 31 from swinging when the steel material cutting structure 40 cuts the steel material 31.

As shown in fig. 1 to 7, the steel feeding structure 10 includes two parallel support plates 11, a steel pushing mechanism 12, a third clamping mechanism 13 for clamping a steel 31, and a rotating mechanism 14 for driving the third clamping mechanism 13 to rotate; the supporting plate 11 is provided with a supporting groove for supporting the steel 31, the steel pushing mechanism 12 pushes the steel 31 to the third clamping mechanism 13 from the supporting groove, and after the third clamping mechanism 13 clamps the steel 31, the rotating mechanism 14 drives the steel 31 clamped by the third clamping mechanism 13 to rotate to the conveying mechanism. The steel feeding structure 10 may store the steel 31 and send the steel 31 to the steel conveying structure 20.

As shown in fig. 1 to 7, the third clamping mechanism 13 includes a third upper clamping head 131, a third lower clamping head 132, and a third clamping cylinder 133 for controlling the third upper clamping head 131 and the third lower clamping head 132 to be clamped or unclamped from each other, the steel pushing mechanism 12 pushes the steel 31 from the support groove to between the third upper clamping head 131 and the third lower clamping head 132, and the third clamping cylinder 133 controls the third upper clamping head 131 and the third lower clamping head 132 to clamp the steel 31. Two ends of a steel material 31 are arranged in a support groove, the steel material pushing mechanism 12 pushes the steel material 31 in the support groove to be close to a third clamping mechanism 13, the third clamping mechanism 13 clamps the steel material 31, after the third clamping mechanism 13 clamps the steel material 31, the rotating mechanism 14 drives the steel material 31 clamped by the third clamping mechanism 13 to rotate 180 degrees, the third clamping mechanism 13 places the clamped steel material 31 on a conveying mechanism, automatic feeding of the steel material 31 is completed, then, the rotating mechanism 14 drives the third clamping mechanism 13 to rotate to the original position, and the third clamping mechanism 13 continues to clamp the next steel material 31.

As shown in fig. 1 to fig. 7, the rotating mechanism 14 includes a rotating cylinder 141 and a rotating shaft 142, the third clamping mechanism 13 is fixedly connected to the rotating shaft 142, and the rotating cylinder 141 drives the rotating shaft 142 and the third clamping mechanism 13 to rotate. The rotating cylinder 141 can drive the rotating shaft 142 and the third clamping mechanism 13 to rotate 180 degrees, and the third clamping mechanism 13 can convey the clamped steel material 31 from the supporting groove to the conveying mechanism on the other side.

As shown in fig. 1 to 7, the steel conveying structure 20 includes a supporting roller 21, a first clamping roller 22, a second clamping roller 23, and a fourth clamping cylinder 24, a first clamping space is formed between the first clamping roller 22 and the second clamping roller 23, the fourth clamping cylinder 24 controls the first clamping roller 22 and the second clamping roller 23 to clamp or loosen each other, the supporting roller 21 is used for supporting a steel 31, and the rotating mechanism 14 drives the steel 31 clamped by the third clamping mechanism 13 to rotate between the first clamping roller 22 and the second clamping roller 23. The supporting roller 21 is used for supporting the steel material 31, and the rotating mechanism 14 drives the steel material 31 clamped by the third clamping mechanism 13 to rotate between the first clamping roller 22 and the second clamping roller 23. The rotating cylinder 141 drives the rotating shaft 142 and the third clamping mechanism 13 to rotate 180 degrees clockwise, the fourth clamping cylinder 24 controls the first clamping roller 22 and the second clamping roller 23 to loosen each other, the third clamping mechanism 13 places the clamped steel 31 in the first clamping space, the fourth clamping cylinder 24 controls the first clamping roller 22 and the second clamping roller 23 to clamp each other, the rotating cylinder 141 drives the rotating shaft 142 and the third clamping mechanism 13 to rotate 180 degrees counterclockwise, and the rotating shaft 142 and the third clamping mechanism 13 return to the original positions.

As shown in fig. 1 to 7, the steel material conveying structure 20 further includes a third clamping roller 25 and a fourth clamping roller 26, a second clamping space is formed between the third clamping roller 25 and the fourth clamping roller 26, the third clamping roller 25 is connected to the first clamping roller 22 through a first connecting block 27, the fourth clamping roller 26 is connected to the second clamping roller 23 through a second connecting block 28, and the fourth clamping cylinder 24 controls the first connecting block 27 and the second connecting block 28 to approach or separate from each other. The third clamping roller 25 and the fourth clamping roller 26 increase the clamping stability.

As shown in fig. 1 to 7, the steel material pushing mechanism 12 includes a pushing cylinder 121, a guide rail 122, a pushing block 123 for pushing the steel material 31 from the supporting groove to the position close to the third clamping mechanism 13; the pushing block 123 is connected with the guide rail 122 in a sliding manner, the pushing cylinder 121 is connected with the pushing block 123, and the pushing cylinder 121 pushes the pushing block 123 to slide along the guide rail 122. The pushing cylinder 121 pushes the pushing block 123 to slide back and forth along the guide rail 122, the pushing block 123 pushes the steel material 31 in the steel material 31 arrangement groove to approach the third clamping mechanism 13, and when the steel material 31 approaches the third clamping mechanism 13, the clamping mechanism clamps the steel material 31.

The above is a detailed implementation manner of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (10)

1. The long-strip-shaped steel automatic cutting machine is characterized by comprising a steel feeding structure, a steel conveying structure, a steel guide pipe, a steel cutting structure, a first clamping structure and a second clamping structure, wherein the steel conveying structure is used for supporting steel; the steel cuts off the structure and is located first clamp structure directly over, steel conveying structure, steel stand pipe, first clamp structure and second press from both sides tight structure and set gradually from one side to the opposite side, the second presss from both sides tight structure and includes that the second left side presss from both sides tight head, the second right side and presss from both sides tight head, the second that the control second left side pressed from both sides tight head and the second right side and presss from both sides tight head and press from both sides tight or loosen second die clamping cylinder and control second die clamping cylinder and be close to or keep away from the second telescopic cylinder of first clamp structure, the second presss from both sides tight steel and drives steel and keeps away from the steel stand pipe, and first clamp structure presss from both sides tight steel, and steel cuts off the structure and cuts off steel.

2. The automatic strip steel cutting machine according to claim 1, further comprising a blanking box, a finished product storage bin and a waste product storage bin; the finished product storage bin is located feed box one side, the waste product storage bin is located the feed box opposite side, be equipped with the deflector in the feed box, the feed box is equipped with control deflector pivoted guide cylinder outward, guide cylinder control deflector rotates for feed box and finished product storage bin intercommunication or with waste product storage bin intercommunication.

3. An automatic elongated steel material cutting machine according to claim 1, wherein said first clamping means includes a first left chuck, a first right chuck, and a first clamping cylinder for controlling the first left chuck and the first right chuck to be clamped or unclamped from each other, and the steel material cutting means cuts the steel material while the first left chuck and the first right chuck clamp the steel material; when the first left chuck and the first right chuck loosen steel, the second clamping structure clamps the steel and drives the steel to be far away from the steel guide pipe.

4. An automatic strip steel cutting machine as claimed in claim 1 wherein a locating tube is provided between the first and second clamp structures.

5. An automatic strip steel cutting machine according to claim 1, wherein said steel feeding structure comprises two parallel support plates, a steel pushing mechanism, a third clamping mechanism for clamping the steel, and a rotating mechanism for rotating the third clamping mechanism; the supporting plate is provided with a supporting groove for supporting steel, the steel pushing mechanism pushes the steel to the third clamping mechanism from the supporting groove, and after the third clamping mechanism clamps the steel, the rotating mechanism drives the steel clamped by the third clamping mechanism to rotate to the conveying mechanism.

6. The automatic strip steel cutting machine according to claim 5, wherein the third clamping mechanism includes a third upper jaw, a third lower jaw, and a third clamping cylinder for controlling the third upper jaw and the third lower jaw to be clamped or unclamped from each other, the steel pushing mechanism pushes the steel from the support groove to between the third upper jaw and the third lower jaw, and the third clamping cylinder controls the third upper jaw and the third lower jaw to clamp the steel.

7. An automatic strip steel cutting machine according to claim 5 wherein said rotating means includes a rotating cylinder and a rotating shaft, said third clamping means is fixedly connected to said rotating shaft, and said rotating cylinder rotates said rotating shaft and said third clamping means.

8. An automatic strip steel cutting machine according to claim 1, wherein the steel material conveying structure includes a support roller, a first clamp roller, a second clamp roller, and a fourth clamp cylinder, a first clamping space is formed between the first clamp roller and the second clamp roller, the fourth clamp cylinder controls the first clamp roller and the second clamp roller to be clamped or loosened with respect to each other, the support roller is used for supporting the steel material, and the rotating mechanism drives the steel material clamped by the third clamp mechanism to rotate between the first clamp roller and the second clamp roller.

9. The automatic elongated steel material cutting machine according to claim 8, wherein the steel material conveying structure further includes a third clamping roller and a fourth clamping roller, a second clamping space is formed between the third clamping roller and the fourth clamping roller, the third clamping roller is connected to the first clamping roller through a first connecting block, the fourth clamping roller is connected to the second clamping roller through a second connecting block, and the fourth clamping cylinder controls the first connecting block and the second connecting block to approach or separate from each other.

10. An automatic strip steel cutting machine according to claim 5, wherein said steel pushing mechanism comprises a pushing cylinder, a guide rail, a pushing block for pushing the steel from the support groove to the position near the third clamping mechanism; the pushing block is connected with the guide rail in a sliding mode, the pushing cylinder is connected with the pushing block, and the pushing cylinder pushes the pushing block to slide along the guide rail.

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