CN217529619U - Laser processing production line for equilateral angle steel - Google Patents

Abstract

The utility model relates to an equilateral angle steel laser beam machining production line, including mechanical feeding mechanism, conveying frame, support tripod, angle steel, clamping positioning mechanism and laser typing mechanism, one side of mechanical feeding mechanism is provided with the conveying frame, the top of conveying frame is provided with the support tripod, it is provided with the angle steel to support the tripod top, one side of conveying frame is provided with clamping positioning mechanism, be provided with laser typing mechanism between the clamping positioning mechanism. These angle steel laser beam machining production lines, angle steel irrotational mode processing improves the precision of angle steel processing pitch-row, because of work piece irrotational mechanism simplifies, the BOM cost of greatly reduced lathe carries out complicated dysmorphism processing such as drilling, printing number material, dissection, limb, corner cut to the angle steel, and than current mechatronic liquid integration stamping equipment low noise, high efficiency, and technological capability is perfect, can realize low-cost, low noise, low operation processing.

Description

Laser processing production line for equilateral angle steel

Technical Field

The utility model relates to an equilateral angle steel processing technology field specifically is an equilateral angle steel laser beam machining production line.

Background

The application of the equal angle steel is more and more along with the development of mechanized and modernized construction in various manufacturing and construction industries such as mechanical manufacturing, civil engineering and the like.

The processing mode of the first-class angle steel in the current market is A: a production line for punching, cutting and printing material numbers of angle steel is electromechanical-hydraulic integrated equipment, can not cut limbs and corners, can not cut 0 tailing, and has relatively large noise pollution caused by manual replacement of a box. B: an angle steel drilling production line can only drill holes and print steel characters for processing (a character box needs to be replaced manually), cannot cut off, and cannot cut limbs and corner; the machine tool is heavy, the cost is high, and the machining efficiency is low; the 0 tailing cannot be achieved. C: the four-chuck heavy-duty pipe laser processing production line can realize all processing functions and can also realize 0-tailing processing, but because workpieces rotate, the chuck bears heavy weight, and the control is complex, and the machine tool cost is high due to the processing of compatible pipes and square steel.

Therefore, in order to solve the problems, the laser processing production line for the equilateral angle steel is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an equilateral angle steel laser beam machining production line to solve the limb can not be cut, corner cut integration processing that above-mentioned background art provided, can not 0 tails and need the manual work to change word box and cut noise pollution great relatively, because the work piece is rotatory, the chuck bears the great complicated and compatible pipe of control in addition, square steel processing and produces the very high problem of lathe cost.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an equilateral angle steel laser beam machining production line, includes mechanical feeding mechanism, conveying frame, support tripod, angle steel, presss from both sides tight positioning mechanism and laser typing mechanism, one side of mechanical feeding mechanism is provided with the conveying frame, the top of conveying frame is provided with the support tripod, it is provided with the angle steel to support the tripod top, one side of conveying frame is provided with presss from both sides tight positioning mechanism, it is provided with laser typing mechanism to press from both sides between the tight positioning mechanism.

Preferably, the mechanical feeding mechanism comprises a conveying support frame, a feeding guide rail, a feeding moving mechanism, a first hydraulic cylinder, an installation frame, a second hydraulic cylinder, a moving frame, a third hydraulic cylinder, a pressing structure, a connecting chute, a feeding rod, a chuck and a data cable.

Preferably, top one side of conveying support frame is provided with the pay-off guide rail, install pay-off moving mechanism on the pay-off guide rail, pay-off moving mechanism and data cable interconnect, pay-off moving mechanism's top is provided with first pneumatic cylinder, the output of first pneumatic cylinder is connected with the mounting bracket, the second pneumatic cylinder is installed to one side of mounting bracket, the second pneumatic cylinder passes the mounting bracket and is connected with the removal frame.

Preferably, a third hydraulic cylinder is mounted on the moving frame, a compression structure is arranged at the output end of the third hydraulic cylinder, a connecting sliding groove is arranged below the compression structure, a feeding rod is mounted on the connecting sliding groove, and a chuck is mounted at one end of the feeding rod.

Preferably, the clamping and positioning mechanism comprises a clamping frame, a clamping hydraulic cylinder, a clamping head and a laser positioning device.

Preferably, a clamping hydraulic cylinder is arranged above the clamping rack, the output end of the clamping hydraulic cylinder penetrates through the clamping rack to be connected with the clamping head, and a laser positioning device is arranged on one side of the clamping rack.

Preferably, laser typing mechanism includes rotating platform, rotary platform, carousel, servo motor, first regulation rail, first regulation frame, second regulation rail, second regulation frame, third regulation rail, third regulation frame and laser host computer.

Preferably, a rotating platform is installed on the rotating platform frame, the rotating platform is driven to rotate through a servo motor, and a rotating disc is arranged on one side of the rotating platform.

Preferably, one side of carousel is provided with first regulation rail, be connected with first alignment jig on the first regulation rail, be provided with the second on the first alignment jig and adjust the rail, install the second alignment jig on the second regulation rail, be provided with the third on the second alignment jig and adjust the rail, install the third alignment jig on the third alignment rail, one side of third alignment jig is provided with the laser host computer.

Compared with the prior art, the beneficial effects of the utility model are that: this equilateral angle steel laser beam machining production line:

1. through starting clamping hydraulic cylinder, clamping hydraulic cylinder output promotes to press from both sides tight head and removes, it is the right angle shape of falling V to press from both sides tight head, it also is provided with the identical support lug of shape to press from both sides tight head below to press from both sides tight head, it all is provided with the gyro wheel with pressing from both sides tight overhead to support the lug, it compresses tightly the angle steel with pressing from both sides tight head with the support lug, the gyro wheel makes the angle steel can be at the support lug and press from both sides tight head easily and pass through, laser positioning device can detect the angle steel position simultaneously, whether correctly press from both sides the angle steel between support lug and the tight head of clamp, angle steel irrotational mode processing, alignment control is not influenced by angle steel limb width thickness tolerance, improve the precision of angle steel processing pitch, simplify because of work piece irrotational mechanism, the BOM cost of greatly reduced lathe.

2. An alignment jig can pass through the motor and drive the slip on first alignment rail, second alignment rail and second alignment jig and third alignment rail and third alignment jig are the same reason, consequently first alignment rail slide control height, about second alignment rail and the control of second alignment jig, around third alignment rail and the control of third alignment jig, and then can realize the three-dimensional position adjustment to the laser host computer, carry out complex dysmorphism processing such as drilling to the angle bar, print the number material, the dissection, cut limb, corner cut, than current mechatronics liquid integration stamping equipment low noise, the high efficiency, and technological capability is perfect, can realize low cost, low noise, low operation processing. The bus system specially designed and developed can accept the identification and processing of two-dimensional cad drawings, and breaks the limitation of the existing laser equipment for identifying three-dimensional drawings. Earlier nc data push down is simpler.

3. And a small Y axis is added, namely a third adjusting rail is combined with a third adjusting frame, so that the lightweight rotating chuck is lower in manufacturing cost.

4. The low cost can realize 0 tailing processing.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the three-dimensional structure of the present invention;

FIG. 3 is a schematic view of the structure of the present invention;

FIG. 4 is a schematic view of the three-dimensional structure of the laser typing mechanism of the present invention;

fig. 5 is a schematic view of the three-dimensional structure of the mechanical feeding mechanism of the present invention.

In the figure: 1. a mechanical feeding mechanism; 11. a conveying support frame; 12. a feeding guide rail; 13. a feeding moving mechanism; 14. a first hydraulic cylinder; 15. a mounting frame; 16. a second hydraulic cylinder; 17. a movable frame; 18. a third hydraulic cylinder; 19. a compression structure; 110. connecting the sliding chute; 111. a feed bar; 112. a chuck; 113. a data cable; 2. a transfer frame; 3. a supporting tripod; 4. angle steel; 5. a clamping and positioning mechanism; 51. clamping the frame; 52. clamping a hydraulic cylinder; 53. a clamping head; 54. a laser positioning device; 6. a laser typing mechanism; 61. a rotating stand; 62. rotating the platform; 63. a turntable; 64. a servo motor; 65. a first adjustment rail; 66. a first adjusting bracket; 67. a second adjustment rail; 68. a second adjusting bracket; 69. a third adjustment rail; 610. a third adjusting bracket; 611. and a laser host.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides an equilateral angle steel laser beam machining production line, includes mechanical feeding mechanism 1, conveying frame 2, support tripod 3, angle steel 4, presss from both sides tight positioning mechanism 5 and laser typing mechanism 6, one side of mechanical feeding mechanism 1 is provided with conveying frame 2, the top of conveying frame 2 is provided with supports tripod 3, it is provided with angle steel 4 to support 3 tops of tripod, and the surface of supporting tripod 3 is provided with the gyro wheel to angle steel 4 removes on supporting tripod 3, one side of conveying frame 2 is provided with presss from both sides tight positioning mechanism 5, presss from both sides tight positioning mechanism 5 and is provided with two sets ofly, it is provided with laser typing mechanism 6 to press from both sides between the tight positioning mechanism 5.

Referring to fig. 5, the mechanical feeding mechanism 1 includes a conveying support frame 11, a feeding guide rail 12, a feeding moving mechanism 13, a first hydraulic cylinder 14, a mounting frame 15, a second hydraulic cylinder 16, a moving frame 17, a third hydraulic cylinder 18, a pressing structure 19, a connecting chute 110, a feeding rod 111, a chuck 112, and a data cable 113.

The utility model discloses a pay-off guide rail 12, including conveying support frame 11, pay-off guide rail 12, install pay-off moving mechanism 13 on the pay-off guide rail 12, pay-off moving mechanism 13 and data cable 113 interconnect, the top of pay-off moving mechanism 13 is provided with first pneumatic cylinder 14, the output of first pneumatic cylinder 14 is connected with mounting bracket 15, second pneumatic cylinder 16 is installed to one side of mounting bracket 15, second pneumatic cylinder 16 passes mounting bracket 15 and is connected with removal frame 17, through starting the servo motor on the pay-off moving mechanism 13, can make pay-off moving mechanism 13 move on pay-off guide rail 12, starts first pneumatic cylinder 14, and first pneumatic cylinder 14 can adjust the distance between mounting bracket 15 and the pay-off moving mechanism 13, and then adjusts the distance between second pneumatic cylinder 16 and the pay-off moving mechanism 13, starts second pneumatic cylinder 16, and can promote removal frame 17 to remove, still is fixed with the slide bar in addition on the removal frame 17, constitutes sliding connection between slide bar and the mounting bracket 15, and the slide bar is located the below of second pneumatic cylinder 16.

The third hydraulic cylinder 18 is mounted on the moving frame 17, a compression structure 19 is arranged at the output end of the third hydraulic cylinder 18, a connecting chute 110 is arranged below the compression structure 19, a feeding rod 111 is mounted on the connecting chute 110, a chuck 112 is mounted at one end of the feeding rod 111, the compression structure 19 can be adjusted by the third hydraulic cylinder 18 by starting the third hydraulic cylinder 18, the compression structure 19 can prevent the feeding rod 111 from falling off the connecting chute 110, in addition, the feeding rod 111 can be detached and replaced by controlling the compression structure 19, the feeding rod 111 can slide on the connecting chute 110 through a motor, the stretching of the feeding rod 111 is realized, so that the angle iron 4 can be pushed to slide on the supporting tripod 3, and in addition, the feeding moving mechanism 13 can move and also drive the mechanical feeding mechanism 1 to move so as to drive the feeding rod 111 to move, and push the angle iron 4 to slide on the supporting tripod 3.

Referring to fig. 4, the clamping and positioning mechanism 5 includes a clamping frame 51, a clamping hydraulic cylinder 52, a clamping head 53 and a laser positioning device 54.

The angle steel processing device is characterized in that a clamping hydraulic cylinder 52 is arranged above the clamping frame 51, the output end of the clamping hydraulic cylinder 52 penetrates through the clamping frame 51 to be connected with a clamping head 53, a laser positioning device 54 is arranged on one side of the clamping frame 51, the clamping hydraulic cylinder 52 is started, the output end of the clamping hydraulic cylinder 52 pushes the clamping head 53 to move, the clamping head 53 is in a right-angle inverted V shape, a supporting convex block with a matched shape is also arranged below the clamping head 53, rollers are arranged on the supporting convex block and the clamping head 53, the supporting convex block and the clamping head 53 tightly press the angle steel 4, the roller enables the angle steel 4 to easily pass through the supporting convex block and the clamping head 53, meanwhile, the laser positioning device 54 can detect the position of the angle steel 4, whether the angle steel 4 is correctly clamped between the supporting convex block and the clamping head 53 or not, the angle steel 4 is processed in a non-rotating mode, alignment control is not affected by the thickness tolerance of limbs, the angle steel processing hole pitch precision is improved, a workpiece non-rotating mechanism is simplified, and the BOM cost of the machine tool is greatly reduced.

Referring to fig. 4, the laser typing mechanism 6 includes a rotating rack 61, a rotating platform 62, a turntable 63, a servo motor 64, a first adjusting rail 65, a first adjusting rack 66, a second adjusting rail 67, a second adjusting rack 68, a third adjusting rail 69, a third adjusting rack 610, and a laser host 611.

Install rotary platform 62 on the rotating platform frame 61, rotary platform 62 drives rotatoryly through servo motor 64, one side of rotary platform 62 is provided with carousel 63, and through starting servo motor 64, servo motor 64 can drive rotary platform 62 and rotate on rotating platform frame 61.

One side of carousel 63 is provided with first alignment rail 65, be connected with first alignment jig 66 on the first alignment rail 65, be provided with second alignment rail 67 on the first alignment rail 66, install second alignment jig 68 on the second alignment rail 67, be provided with third alignment rail 69 on the second alignment rail 68, install third alignment jig 610 on the third alignment rail 69, one side of third alignment jig 610 is provided with laser host computer 611, and first alignment jig 66 can pass through the motor and drive the slip on first alignment rail 65, and second alignment rail 67 and second alignment jig 68 are with third alignment rail 69 and third alignment jig 610 with the same reason, so first alignment jig 66 is at first alignment rail 65 slip control height, and second alignment rail 67 and second alignment jig 68 control left and right, third alignment rail 69 and third alignment jig 610 control front and back, and then can realize the three-dimensional position adjustment to laser host computer 611, carry out complex machining liquid such as drilling, printing size material, dissection, cutting, limb, corner cutting, current processing equipment perfection, low-mechanical and low noise, and high-efficient machining liquid, the punching press low noise, stamping technology can realize low noise. The bus system specially designed and developed can accept the identification and processing of two-dimensional cad drawings, and breaks the limitation of the existing laser equipment for identifying three-dimensional drawings. Earlier nc data push down is simpler.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (9)

1. The utility model provides an equilateral angle steel laser beam machining production line, includes mechanical feeding mechanism (1), conveying frame (2), supports tripod (3), angle steel (4), presss from both sides tight positioning mechanism (5) and laser typing mechanism (6), its characterized in that: one side of machinery feeding mechanism (1) is provided with conveying frame (2), the top of conveying frame (2) is provided with support tripod (3), support tripod (3) top is provided with angle steel (4), one side of conveying frame (2) is provided with presss from both sides tight positioning mechanism (5), it constructs (6) to press from both sides to be provided with laser between tight positioning mechanism (5).

2. The equilateral angle steel laser processing production line according to claim 1, characterized in that: the mechanical feeding mechanism (1) comprises a conveying support frame (11), a feeding guide rail (12), a feeding moving mechanism (13), a first hydraulic cylinder (14), a mounting frame (15), a second hydraulic cylinder (16), a moving frame (17), a third hydraulic cylinder (18), a pressing structure (19), a connecting sliding groove (110), a feeding rod (111), a chuck (112) and a data cable (113).

3. The equilateral angle steel laser processing production line according to claim 2, characterized in that: the utility model discloses a conveying support frame, including conveying support frame (11), top one side of conveying support frame (11) is provided with pay-off guide rail (12), install pay-off moving mechanism (13) on pay-off guide rail (12), pay-off moving mechanism (13) and data cable (113) interconnect, the top of pay-off moving mechanism (13) is provided with first pneumatic cylinder (14), the output of first pneumatic cylinder (14) is connected with mounting bracket (15), second pneumatic cylinder (16) are installed to one side of mounting bracket (15), second pneumatic cylinder (16) pass mounting bracket (15) and are connected with removal frame (17).

4. The equilateral angle steel laser processing production line according to claim 3, characterized in that: the movable frame (17) is provided with a third hydraulic cylinder (18), the output end of the third hydraulic cylinder (18) is provided with a compression structure (19), a connecting sliding groove (110) is arranged below the compression structure (19), a feeding rod (111) is arranged on the connecting sliding groove (110), and a chuck (112) is arranged at one end of the feeding rod (111).

5. The equilateral angle steel laser processing production line according to claim 1, characterized in that: the clamping and positioning mechanism (5) comprises a clamping frame (51), a clamping hydraulic cylinder (52), a clamping head (53) and a laser positioning device (54).

6. The equilateral angle steel laser processing production line according to claim 5, characterized in that: a clamping hydraulic cylinder (52) is arranged above the clamping rack (51), the output end of the clamping hydraulic cylinder (52) penetrates through the clamping rack (51) to be connected with a clamping head (53), and a laser positioning device (54) is arranged on one side of the clamping rack (51).

7. The equilateral angle steel laser processing production line according to claim 1, characterized in that: the laser typing mechanism (6) comprises a rotating rack (61), a rotating platform (62), a turntable (63), a servo motor (64), a first adjusting rail (65), a first adjusting rack (66), a second adjusting rail (67), a second adjusting rack (68), a third adjusting rail (69), a third adjusting rack (610) and a laser host (611).

8. The equilateral angle steel laser processing production line according to claim 7, characterized in that: install rotary platform (62) on swivel mount (61), rotary platform (62) carry out the drive rotation through servo motor (64), one side of rotary platform (62) is provided with carousel (63).

9. The equilateral angle steel laser processing production line according to claim 8, characterized in that: one side of carousel (63) is provided with first regulation rail (65), be connected with first alignment jig (66) on first regulation rail (65), be provided with second alignment rail (67) on first alignment jig (66), install second alignment jig (68) on second alignment rail (67), be provided with third alignment rail (69) on second alignment jig (68), install third alignment jig (610) on third alignment rail (69), one side of third alignment jig (610) is provided with laser host computer (611).

Images