CN215357191U - Aluminum profile punching, tapping and chamfering cut-off machine - Google Patents

Abstract

The utility model relates to an aluminium alloy tapping chamfer cutter that punches belongs to the field of aluminium alloy processing equipment, and it includes the workstation, the moving direction along the aluminium alloy is equipped with feed mechanism, beveler, puncher, tapping machine and shutdown mechanism in proper order on the workstation, feed mechanism is used for feeding of aluminium alloy, the beveler is used for the chamfer processing of aluminium alloy, the puncher is used for punching of aluminium alloy, the tapping machine is used for the tapping of aluminium alloy, the shutdown mechanism is used for cutting off of aluminium alloy. This application has the effect that reduces manpower work, improves work efficiency.

Description

Aluminum profile punching, tapping and chamfering cut-off machine

Technical Field

The application relates to the field of aluminium alloy processing equipment, especially relates to an aluminium alloy tapping chamfer cutter that punches.

Background

With the continuous progress of science and technology, the requirement on the machining precision of the threaded hole in the aluminum alloy part is higher and higher, and in the related technology, the machining method of the threaded hole in the aluminum alloy part adopts a mode of firstly drilling and then finely machining. Firstly, drilling a material by using a perforating machine to process the material into a hole with a certain diameter; then, tapping in the punched hole by using a tapping machine; finally, using a chamfering machine to perform chamfering treatment; wherein the order of tapping and chamfering may be interchanged. In addition, prior to the punching step, it is also common to cut the monolithic aluminum alloy into aluminum alloy parts of the desired dimensions.

In the related processing method, the cutting equipment, the punching equipment, the tapping equipment and the chamfering equipment are independent from each other, so that each piece of material needs to be sequentially transferred to the processing table surfaces of the multiple processing tools for processing, the processing time is too long, time and labor are wasted, and the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that screw hole aluminium alloy processing is wasted time and energy, this application provides an aluminium alloy tapping chamfer cutter that punches.

The application provides a pair of aluminium alloy tapping chamfer cutter that punches adopts following technical scheme:

the utility model provides an aluminium alloy tapping chamfer cutter that punches, includes the workstation, the moving direction along the aluminium alloy is equipped with feed mechanism, beveler, puncher, tapping machine and shutdown mechanism in proper order on the workstation, feed mechanism is used for feeding of aluminium alloy, the beveler is used for the chamfer processing of aluminium alloy, the puncher is used for punching of aluminium alloy, the tapping machine is used for the tapping of aluminium alloy, shutdown mechanism is used for cutting off of aluminium alloy.

Through adopting above-mentioned technical scheme, when carrying out adding man-hour of screw hole aluminium alloy, arrange the aluminium alloy in on the workstation, feed mechanism is used for feeding of aluminium alloy to carry, and the aluminium alloy carries out the chamfer through the beveler, punches through the puncher, carries out the tapping through the tapping machine at the in-process of feeding, cuts off through shutdown mechanism. The multiple procedures for machining the threaded hole aluminum piece are integrated and automatically machined on one piece of equipment, so that the labor work is reduced, and the working efficiency is improved.

Optionally, feed mechanism is including removing subassembly and pay-off clamping component, feed mechanism carries out the removal subassembly that the ration removed and is used for pressing from both sides the pay-off clamping component who presss from both sides tight fixed to the aluminium alloy including being used for driving the aluminium alloy, remove the subassembly and locate on the workstation, it includes servo motor and lead screw to remove the subassembly, servo motor locates on the workstation, servo motor's output and lead screw fixed connection, be provided with first slide rail, two along self length direction symmetry on the workstation first slide rail sliding connection has same mobile station, mobile station and first clamp tight piece fixed connection, be equipped with the connecting block on the mobile station, connecting block and lead screw threaded connection, pay-off clamping component locates on the mobile station.

Through adopting above-mentioned technical scheme, first servo motor starts, drives the lead screw and rotates, and then drives the mobile station and slide along first slide rail, and the pay-off clamping component on the mobile station presss from both sides tight fixedly to the aluminium alloy, has realized that the material of aluminium alloy is fed.

Optionally, the feeding clamping assembly comprises a first clamping block, a second clamping block and a first air cylinder, the first clamping block is arranged on the moving platform and abutted against the top surface of the aluminum profile, the first air cylinder is fixed on the moving platform and vertically arranged, the second clamping block is fixedly connected with the end part of the piston rod of the first air cylinder, and the second clamping block is located below the aluminum profile.

Through adopting above-mentioned technical scheme, when first cylinder started, drive the second and press from both sides tight piece rebound, press from both sides the bottom surface butt of tight piece and aluminium alloy until the second, accomplish the clamp to the aluminium alloy and press from both sides tightly, the aluminium alloy of being convenient for carries out the material and feeds.

Optionally, be equipped with X axle direction adjusting part on the workstation, X axle direction adjusting part includes mounting bracket and three regulating block, the mounting bracket is fixed in on the workstation, and is three the regulating block is connected with beveler, puncher, tapping machine in proper order, the length direction of regulating block along the mounting bracket slides and connects on the mounting bracket, the regulating block is through first latch bolt and mounting bracket fixed connection.

Through adopting above-mentioned technical scheme, each regulating block and mounting bracket sliding connection adjust the position of regulating block on the mounting bracket through the length direction along the mounting bracket to can adjust corresponding beveler, puncher or tapping machine position on aluminium alloy direction of delivery, and then can be applicable to the processing requirement of different model aluminium alloy and different product spare, have simple structure, the effect of being convenient for adjust.

Optionally, be equipped with first Z axle direction adjusting part between beveler and the workstation, first Z axle direction adjusting part includes and adjusts post and second fitting bolt, the one end and the beveler fixed connection of adjusting the post, the one end that the beveler was kept away from to the regulation post is worn to locate in the regulating block, the width direction and the regulating block sliding connection of adjusting the post along the mounting bracket, the second fitting bolt is used for adjusting post and regulating block fixed connection.

Through adopting above-mentioned technical scheme, the beveler is through adjusting post and regulating block sliding connection to through the second fitting pin with fix, the staff of being convenient for carries out the position adjustment to the beveler on the direction of delivery of perpendicular to aluminium alloy, and then can be applicable to the chamfer processing requirement of different model aluminium alloy and different product spare, have simple structure, the effect of being convenient for adjust.

Optionally, a second Z-axis direction adjusting assembly is arranged between the punching machine and the workbench, a third Z-axis direction adjusting assembly is arranged between the tapping machine and the workbench, and the second Z-axis direction adjusting assembly and the third Z-axis direction adjusting assembly are identical in structure to the first Z-axis direction adjusting assembly.

Through adopting above-mentioned technical scheme, the staff of being convenient for carries out position adjustment on the direction of delivery of perpendicular to aluminium alloy to tapping machine and tapping machine, and then can be applicable to the processing requirement of punching, tapping of different model aluminium alloy and different product spare, has simple structure, the effect of being convenient for to adjust.

Optionally, shutdown mechanism is including being fixed in the second cylinder in the workstation, be equipped with the second slide rail in the workstation, the width direction setting of workstation is followed to the second slide rail, sliding connection has the mounting panel on the second slide rail, the tip and the mounting panel fixed connection of the piston rod of second cylinder, be fixed with driving motor on the mounting panel, driving motor's output is equipped with the saw bit, the workstation is worn out at the top of saw bit.

Through adopting above-mentioned technical scheme, driving motor starts, and it is rotatory to drive the saw bit, and meanwhile, the second cylinder starts, drives the mounting panel and slides along the second slide rail to drive driving motor and saw bit and remove along the width direction of workstation, be convenient for cut off the aluminium alloy.

Optionally, a first clamping mechanism is arranged between the chamfering machine and the perforating machine, the first clamping mechanism comprises a first clamping plate, a second clamping plate and a third cylinder, the first clamping plate and the third cylinder are both fixedly connected to the workbench, the second clamping plate is fixed to a piston rod of the third cylinder, and the first clamping plate and the second clamping plate are arranged at two ends of the aluminum profile in the width direction of the aluminum profile relatively.

Through adopting above-mentioned technical scheme, the third cylinder starts to drive the second pinch-off blades and removes towards first pinch-off blades, and it is tight to press from both sides first pinch-off blades, second pinch-off blades and aluminium alloy butt clamp, reduces the aluminium alloy and takes place the skew possibility of position when carrying out the chamfer and punching, improves aluminium alloy chamfer and the machining precision who punches.

Optionally, a second clamping mechanism is arranged between the punching machine and the tapping machine, and the second clamping mechanism and the first clamping mechanism have the same structure.

Through adopting above-mentioned technical scheme, reduce the aluminium alloy and take place the skew possibility in position when punching and tapping, improve the aluminium alloy and punch and the machining precision of tapping.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the chamfering machine, the perforating machine, the tapping machine and the cutting mechanism are arranged on the same workbench in a centralized manner, and the machining processes of the chamfering machine, the perforating machine, the tapping machine and the cutting mechanism are connected through the feeding mechanism, so that the one-time machining of the chamfering, perforating, tapping and cutting processes of the aluminum profile is realized, and the production and machining efficiency of the aluminum piece with the threaded hole is effectively improved;

2. through the arrangement of the first clamping block and the second clamping block, when the second clamping block moves upwards and is abutted against the bottom surface of the aluminum profile, the aluminum profile is clamped, and the aluminum profile is convenient to feed materials;

3. through the setting of first clamp plate and second clamp plate, reduce the aluminium alloy and carry out the chamfer and take place the skew possibility of position when punching, improve the aluminium alloy chamfer and the machining precision who punches.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic structural diagram showing an internal structure of a table in an embodiment of the present application.

Fig. 3 is a partially enlarged schematic view at a in fig. 2.

Fig. 4 is an enlarged partial schematic view of B in fig. 1.

FIG. 5 is a schematic structural diagram of an X-axis direction adjustment assembly, a first Z-axis direction adjustment assembly, a second Z-axis direction adjustment assembly, and a third Z-axis direction adjustment assembly embodying an embodiment of the present application.

Description of reference numerals:

1. a work table; 11. a first slide rail; 12. a first clamping mechanism; 121. a first clamping plate; 122. a second clamping plate; 123. a third cylinder; 13. a second clamping mechanism; 14. a second slide rail; 141. mounting a plate; 15. cutting the opening; 16. an X-axis direction adjusting component; 161. a mounting frame; 162. an adjusting block; 163. a first locking bolt; 17. a first Z-axis direction adjustment assembly; 171. an adjustment column; 172. a second locking bolt; 18. a second Z-axis direction adjustment assembly; 19. a third Z-axis direction adjustment assembly; 2. a feed mechanism; 21. a moving assembly; 211. a servo motor; 212. a screw rod; 213. a mobile station; 214. connecting blocks; 215. mounting blocks; 2151. a vertical block; 2152. a transverse block; 2153. fastening bolts; 22. a feeding clamping assembly; 221. a first clamping block; 2211. an adjustment groove; 2212. fastening a nut; 222. a first cylinder; 223. a second clamping block; 3. chamfering machine; 4. a perforating machine; 5. a tapping machine; 6. a cutting mechanism; 61. a second cylinder; 62. a drive motor; 63. a saw blade.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

Example (b):

the embodiment of the application discloses aluminium alloy tapping chamfer cutter that punches. Referring to fig. 1, the aluminum profile punching, tapping, chamfering and cutting machine comprises a workbench 1, wherein a feeding mechanism 2, a chamfering machine 3, a punching machine 4, a tapping machine 5 and a cutting mechanism 6 are sequentially arranged on the workbench 1 along the moving direction of the aluminum profile, and the feeding mechanism 2, the chamfering machine 3, the punching machine 4, the tapping machine 5 and the cutting mechanism 6 are respectively used for feeding, chamfering, punching, tapping and cutting off the aluminum profile.

Referring to fig. 2 and 3, the feeding mechanism 2 includes a moving assembly 21 and a feeding clamping assembly 22, the moving assembly 21 includes a servo motor 211 and a lead screw 212, the servo motor 211 is fixed on the worktable 1, and the lead screw 212 is coaxially fixed with an output end of the servo motor 211. First slide rails 11 are symmetrically arranged in the workbench 1 along the length direction of the workbench, the two first slide rails 11 are connected with the same mobile station 213 in a sliding manner, a connecting block 214 is fixed on the mobile station 213, and the connecting block 214 is in threaded connection with the screw rod 212.

Referring to fig. 3, the feeding clamping assembly 22 includes a first clamping block 221 and a first cylinder 222, the moving table 213 is provided with a mounting block 215, the mounting block 215 includes a vertical block 2151 and a horizontal block 2152 which are integrally formed, the horizontal block 2152 is located above the vertical block 2151, and the side wall of the aluminum profile abuts against the side wall of the vertical block 2151 away from the connecting block 214. The transverse block 2152 is fixed with a fastening bolt 2153 towards one end of the first clamping block 221, an adjusting groove 2211 is formed in the side wall of the first clamping block 221 in the vertical direction, the fastening bolt 2153 penetrates through the adjusting groove 2211 and is connected with a fastening nut 2212 in a threaded mode, and the fastening nut 2212 is abutted to one end, far away from the transverse block 2152, of the first clamping block 221. The height of the first clamping block 221 can be adjusted by adjusting the position of the fastening bolt 2153 in the adjusting groove 2211, so that the bottom surface of the first clamping block 221 is abutted against the top surface of the aluminum profile to adapt to aluminum profiles with different thicknesses. The first cylinder 222 is fixed to a side wall of the moving stage 213, and the second clamp block 223 is fixed to an end of a piston rod of the first cylinder 222.

Referring to fig. 2 and 3, when feeding the aluminum profile on the table 1, the aluminum profile is placed above the moving table 213 and the side wall of the aluminum profile abuts against the vertical block 2151. First cylinder 222 starts, and the piston rod of first cylinder 222 drives the second and presss from both sides tight piece 223 rebound, until the second press from both sides the bottom surface butt of piece 223 with the aluminium alloy and press from both sides tight aluminium alloy with the cooperation of first clamp piece 221 after, servo motor 211 starts, drives lead screw 212 and rotates, and lead screw 212 then drives the direction removal that the mobile platform 213 deviates from servo motor 211 along first slide rail 11, realizes feeding of aluminium alloy material and carries.

Referring to fig. 1, in order to prevent the aluminum profile from shifting during chamfering and drilling processes of the chamfering machine 3 and the drilling machine 4 and improve the accuracy of the chamfering and drilling processes, a first clamping mechanism 12 is disposed on the table 1, and the first clamping mechanism 12 is located between the chamfering machine 3 and the drilling machine 4. The first clamping mechanism 12 comprises a first clamping plate 121, a second clamping plate 122 and a third cylinder 123, the first clamping plate 121 and the third cylinder 123 are both fixedly connected to the workbench 1, the third cylinder 123 is horizontally arranged, the second clamping plate 122 is fixed to a piston rod of the third cylinder 123, and the first clamping plate 121 and the second clamping plate 122 are oppositely arranged at two ends of the aluminum profile in the width direction of the aluminum profile.

Referring to fig. 1, in order to make the aluminum profile not easily deviate during tapping process of the tapping machine 5 and improve the precision of the tapping process, a second clamping mechanism 13 is disposed on the worktable 1, the second clamping mechanism 13 is located between the punching machine 4 and the tapping machine 5, and the second clamping mechanism 13 and the first clamping mechanism 12 have the same structure, so that the details are not repeated.

Referring to fig. 1 and 4, the cutting mechanism 6 includes a second cylinder 61 fixed in the table 1, a second slide rail 14 is fixed in the table 1, the second slide rail 14 is disposed along the width direction of the table 1, an installation plate 141 is slidably connected to the second slide rail 14, and an end portion of a piston rod of the second cylinder 61 is fixedly connected to the installation plate 141. Fixedly connected with driving motor 62 on the mounting panel 141, driving motor 62's the coaxial saw bit 63 that is fixed with of output, has seted up cutting opening 15 along self width direction on the workstation 1, and cutting opening 15 is worn out at the top of saw bit 63.

Referring to fig. 2 and 4, when the aluminum profile is chamfered, punched, tapped and cut, the servo motor 211 is stopped, the aluminum profile stops feeding, and the third cylinder 123 is started to drive the second clamping plate 122 to move towards the first clamping plate 121 until the first clamping plate 121, the second clamping plate 122 and the aluminum profile abut and are clamped. Subsequently, the chamfering machine 3, the punching machine 4 and the tapping machine 5 start to work simultaneously, and chamfer, punch and tap different positions to be processed of the aluminum profile respectively. Meanwhile, the driving motor 62 is started to drive the saw blade 63 to rotate, the second cylinder 61 is started to drive the mounting plate 141 to slide along the second slide rail 14 away from the second cylinder 61, so that the driving motor 62 is driven to move away from the second cylinder 61, and the saw blade 63 cuts off the aluminum profile. After the cutting is completed, the piston rod of the second cylinder 61 drives the mounting plate 141 to slide along the length direction of the second slide rail 14, so as to drive the driving motor 62 to reset.

Referring to fig. 1 and 5, an X-axis direction adjusting assembly 16 is arranged on the worktable 1, the X-axis direction adjusting assembly 16 includes an installation frame 161 and three adjusting blocks 162, the installation frame 161 is fixed on the worktable 1, the three adjusting blocks 162 are respectively connected with the chamfering machine 3, the punching machine 4 and the tapping machine 5, the adjusting blocks 162 are connected on the installation frame 161 in a sliding manner along the length direction of the installation frame 161, and the adjusting blocks 162 are fixedly connected with the installation frame 161 through a first locking bolt 163. The first locking bolt 163 horizontally penetrates through the outer wall of the adjusting block 162, the first locking bolt 163 is in threaded connection with the adjusting block 162, and the threaded end of the first locking bolt 163 abuts against the mounting frame 161. After the first locking bolt 163 is unscrewed, the corresponding adjusting block 162 can slide along the length direction of the mounting frame 161, and then the position of the corresponding chamfering machine 3, punching machine 4 or tapping machine 5 in the X-axis direction can be adjusted, wherein the X-axis direction is the same as the length direction of the mounting frame 161, and after the adjustment is finished, the first locking bolt 163 is screwed, and the position fixing of the corresponding chamfering machine 3, punching machine 4 or tapping machine 5 in the X-axis direction can be completed.

Referring to fig. 5, a first Z-axis direction adjusting assembly 17 is arranged between the chamfering machine 3 and the workbench 1, the first Z-axis direction adjusting assembly 17 includes an adjusting column 171 and a second locking bolt 172, one end of the adjusting column 171 is fixedly connected with the chamfering machine 3, one end of the adjusting column 171, which is far away from the chamfering machine 3, is arranged in the adjusting block 162 in a penetrating manner, the adjusting column 171 is slidably connected with the adjusting block 162 along the width direction of the mounting frame 161, and the second locking bolt 172 is used for fixedly connecting the adjusting column 171 with the adjusting block 162. The second locking bolt 172 vertically penetrates through the adjusting block 162 and is in threaded connection with the adjusting block 162, and the threaded end of the second locking bolt 172 abuts against the adjusting column 171. Unscrewing second locking bolt 172, can follow the width direction slip regulation post 171 of mounting bracket 161, can carry out the position control of Z axle direction to beveler 3, wherein the Z axle direction is the same with the width direction of mounting bracket 161, adjust the back that finishes, screw second locking bolt 172 for second locking bolt 172 penetrates the one end and the regulation post 171 butt of regulating block 162, thereby will adjust post 171 and regulating block 162 fixed connection, accomplish the fixed position of beveler 3 in Z axle direction.

Referring to fig. 5, a second Z-axis direction adjusting assembly 18 is disposed between the hole puncher 4 and the worktable 1, a third Z-axis direction adjusting assembly 19 is disposed between the tapping machine 5 and the worktable 1, and the second Z-axis direction adjusting assembly 18 and the third Z-axis direction adjusting assembly 19 are both the same as the first Z-axis direction adjusting assembly 17 in structure, and therefore are not described again.

Through Z axle direction adjusting part and first Z axle direction adjusting part 17, second Z axle direction adjusting part 18, third Z axle direction adjusting part 19, the staff of being convenient for adjusts the processing position of beveler 3, puncher 4 and tapping machine 5, can be applicable to the processing requirement of different model aluminium alloy and different product spare.

The application principle of the aluminum profile punching, tapping and chamfering cut-off machine is as follows: from whole product line, at first, place the aluminium alloy on workstation 1 for the lateral wall of aluminium alloy and riser 2151 butt. Then the first cylinder 222 is started to drive the second clamping block 223 to move upwards until the second clamping block 223 abuts against the bottom surface of the aluminum profile and clamps the aluminum profile. At this time, the servo motor 211 is started to drive the screw rod 212 to rotate, and the screw rod 212 drives the moving platform 213 to move along the first slide rail 11, so that the quantitative feeding and conveying of the aluminum profile can be realized.

When the aluminum profile is chamfered, punched, tapped and cut off, the servo motor 211 stops, the first clamping mechanism 12 and the second clamping mechanism 13 work simultaneously to clamp and fix the aluminum profile, so that the processing quality of each process is ensured. Meanwhile, the chamfering machine 3, the punch 4, the tapping machine 5 and the cutting mechanism 6 are operated simultaneously, and the processing of chamfering, punching, tapping and cutting is started simultaneously. Because the working table 1 is sequentially provided with the chamfering machine 3, the perforating machine 4, the tapping machine 5 and the cutting mechanism 6, the actual aluminum profile is processed according to the sequence of chamfering, perforating, tapping and cutting when a threaded hole aluminum piece is processed. When the chamfering, punching, tapping and cutting-off processes are all completed and the chamfering machine 3, the perforating machine 4, the tapping machine 5 and the cutting-off mechanism 6 are reset, the first clamping mechanism 12 and the second clamping mechanism 13 reset, and the aluminum profile is loosened. Meanwhile, the servo motor 211 is continuously started to drive the screw rod 212 to rotate, and the aluminum profile is conveyed in a circulating and quantitative feeding mode, so that the production line processing of the aluminum piece with the threaded hole is realized.

For machining a single threaded hole, the feeding mechanism 2 feeds and conveys the aluminum profile in a circulating and quantitative manner. Because the chamfering machine 3, the perforating machine 4 and the tapping machine 5 are sequentially arranged according to the feeding and conveying direction of the aluminum profile, firstly, when the position point to be machined of the threaded hole passes through the chamfering machine 3, the aluminum profile is clamped and fixed by the first clamping mechanism 12 and the second clamping mechanism 13, and the chamfering machine 3 begins to chamfer the position point to be machined. After the chamfering process is completed, the first clamping mechanism 12 and the second clamping mechanism 13 reset, the aluminum profile continues to be fed and conveyed, when the position point to be processed passes through the perforating machine 4, the aluminum profile is clamped and fixed by the first clamping mechanism 12 and the second clamping mechanism 13, and the chamfering machine 3 starts to punch the position point to be processed, which has completed the chamfering process. After the punching processing is finished, the first clamping mechanism 12 and the second clamping mechanism 13 reset, the aluminum profile continues to be fed and conveyed, when the position points to be processed pass through the tapping machine 5, the aluminum profile is clamped and fixed by the first clamping mechanism 12 and the second clamping mechanism 13, and the chamfering machine 3 starts to perform tapping processing on the position points to be processed which have finished chamfering and punching. After the tapping process is completed, that is, the completion of a single threaded hole is indicated, the aluminum profile is waited to be conveyed to the cutting mechanism 6, and the cutting mechanism 6 cuts the position to be cut, so that the processing of the aluminum piece with the single threaded hole is completed.

The chamfering machine 3, the perforating machine 4, the tapping machine 5 and the cutting mechanism 6 are installed on the same workbench 1 in a centralized mode, and the feeding mechanism 2 is used for linking the machining processes of the chamfering machine 3, the perforating machine 4, the tapping machine 5 and the cutting mechanism 6, so that the one-time machining of the chamfering, perforating, tapping and cutting processes of the aluminum profile is realized, and the production machining efficiency of the threaded hole aluminum piece is effectively improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides an aluminium alloy tapping chamfer cutter that punches, its characterized in that: including workstation (1), the moving direction of following the aluminium alloy is equipped with feed mechanism (2), beveler (3), puncher (4), tapping machine (5) and shutdown mechanism (6) in proper order on workstation (1), feed mechanism (2) are used for feeding of aluminium alloy, beveler (3) are used for the chamfer processing of aluminium alloy, puncher (4) are used for punching of aluminium alloy, tapping machine (5) are used for the tapping of aluminium alloy, shutdown mechanism (6) are used for cutting off of aluminium alloy.

2. The aluminum profile punching, tapping, chamfering and cutting machine as claimed in claim 1, is characterized in that: feed mechanism (2) including be used for driving the aluminium alloy to carry out removal subassembly (21) that the ration removed and be used for pressing from both sides the pay-off clamping component (22) of fixing to the aluminium alloy, remove subassembly (21) and locate on workstation (1), removal subassembly (21) includes servo motor (211) and lead screw (212), servo motor (211) are located on workstation (1), the output and lead screw (212) fixed connection of servo motor (211), be provided with first slide rail (11), two along self length direction symmetry on workstation (1) first slide rail (11) sliding connection has same mobile station (213), mobile station (213) and first clamp tight piece (221) fixed connection, be equipped with connecting block (214) on mobile station (213), connecting block (214) and lead screw (212) threaded connection, the feeding clamping assembly (22) is arranged on the moving table (213).

3. The aluminum profile punching, tapping, chamfering and cutting machine as claimed in claim 2, characterized in that: pay-off clamping unit (22) includes first clamp piece (221), second clamp piece (223) and first cylinder (222), first clamp piece (221) are located on mobile station (213), first clamp piece (221) and the top surface butt of aluminium alloy, first cylinder (222) are fixed in on mobile station (213), first cylinder (222) vertical setting, the second presss from both sides the piston rod tip fixed connection of piece (223) and first cylinder (222), second clamp piece (223) are located the below of aluminium alloy.

4. The aluminum profile punching, tapping, chamfering and cutting machine as claimed in claim 1, is characterized in that: be equipped with X axle direction adjusting part (16) on workstation (1), X axle direction adjusting part (16) include mounting bracket (161) and three regulating block (162), on workstation (1) is fixed in mounting bracket (161), it is three regulating block (162) are connected with beveler (3), puncher (4), tapping machine (5) in proper order, the length direction of mounting bracket (161) is followed in regulating block (162) and is slided and connect on mounting bracket (161), regulating block (162) are through first latch bolt (163) and mounting bracket (161) fixed connection.

5. The aluminum profile punching, tapping, chamfering and cutting machine as claimed in claim 4, wherein: be equipped with first Z axle direction adjusting part (17) between beveler (3) and workstation (1), first Z axle direction adjusting part (17) are including adjusting post (171) and second locking bolt (172), the one end and the beveler (3) fixed connection of adjusting post (171), adjust in one end that beveler (3) were kept away from in post (171) wears to locate regulating block (162), the width direction and regulating block (162) sliding connection of mounting bracket (161) are followed to regulation post (171), second locking bolt (172) are used for adjusting post (171) and regulating block (162) fixed connection.

6. The aluminum profile punching, tapping, chamfering and cutting machine as claimed in claim 5, wherein: be equipped with second Z axle direction adjusting part (18) between puncher (4) and workstation (1), be equipped with third Z axle direction adjusting part (19) between tapping machine (5) and workstation (1), second Z axle direction adjusting part (18), third Z axle direction adjusting part (19) all are the same with the structure of first Z axle direction adjusting part (17).

7. The aluminum profile punching, tapping, chamfering and cutting machine as claimed in claim 1, is characterized in that: shutdown mechanism (6) is including being fixed in second cylinder (61) in workstation (1), be equipped with second slide rail (14) in workstation (1), second slide rail (14) set up along the width direction of workstation (1), sliding connection has mounting panel (141) on second slide rail (14), the tip and mounting panel (141) fixed connection of the piston rod of second cylinder (61), be fixed with driving motor (62) on mounting panel (141), the output of driving motor (62) is equipped with saw bit (63), workstation (1) is worn out at the top of saw bit (63).

8. The aluminum profile punching, tapping, chamfering and cutting machine as claimed in claim 1, is characterized in that: be equipped with first clamping mechanism (12) between beveler (3) and puncher (4), first clamping mechanism (12) include first clamp plate (121), second clamp plate (122) and third cylinder (123), first clamp plate (121) and third cylinder (123) all fixed connection are on workstation (1), second clamp plate (122) are fixed with the piston rod of third cylinder (123), first clamp plate (121) and second clamp plate (122) set up in the both ends of aluminium alloy along self width direction relatively.

9. The aluminum profile punching, tapping, chamfering and cutting machine as claimed in claim 8, wherein: and a second clamping mechanism (13) is arranged between the punching machine (4) and the tapping machine (5), and the second clamping mechanism (13) has the same structure as the first clamping mechanism (12).

Images