阅读说明：本技术 一种紫外皮秒超快激光精密打孔设备及工艺 (Ultraviolet picosecond ultrafast laser precision drilling equipment and technology ) 是由 汤亮 孔强 黄玲 董超祥 李俊霖 于 2021-08-25 设计创作，主要内容包括：本发明公开了一种紫外皮秒超快激光精密打孔设备及工艺,包括机体、激光打孔器、工件,所述机体的上端一侧设有加工口,所述机体上端设有位于加工口上方并用于安装、移动激光打孔器的安装机构,所述机体内设有位于加工口下方的加工室,所述加工室的周壁上开设有安装槽,所述安装槽内设有用于固定工件的定位机构,所述机体的左侧设有位于加工室下方的出料槽,所述出料槽内安装有出料传送带。本发明还公开了一种采用本发明的紫外皮秒超快激光精密打孔设备的打孔工艺。本设备能够实现上料、打孔、卸料的一体化联动操作,实现共烧陶瓷片激光打孔工序的智能化,并能够对激光打孔后的共烧陶瓷片进行及时喷气降温,冷却效果较好。(The invention discloses ultraviolet picosecond ultrafast laser precision punching equipment and process, which comprises a machine body, a laser puncher and a workpiece, wherein a processing opening is formed in one side of the upper end of the machine body, an installation mechanism which is located above the processing opening and used for installing and moving the laser puncher is arranged at the upper end of the machine body, a processing chamber located below the processing opening is arranged in the machine body, an installation groove is formed in the peripheral wall of the processing chamber, a positioning mechanism used for fixing the workpiece is arranged in the installation groove, a discharge groove located below the processing chamber is formed in the left side of the machine body, and a discharge conveying belt is arranged in the discharge groove. The invention also discloses a punching process of the ultraviolet picosecond ultrafast laser precision punching equipment. This equipment can realize the integration linkage operation of material loading, punching, unloading, realizes the intellectuality of firing the potsherd laser beam drilling process altogether to can in time jet-propelled cooling, the cooling effect is better to firing the potsherd altogether after laser beam drilling.)

1. The utility model provides an ultra-fast laser precision drilling equipment of ultraviolet picosecond, includes organism (1), laser puncher (18), work piece (11), a serial communication port, the upper end one side of organism (1) is equipped with processing mouth (19), organism (1) upper end is equipped with the installation mechanism that is located processing mouth (19) top and is used for installation, removal laser puncher (18), be equipped with processing chamber (24) that is located processing mouth (19) below in organism (1), mounting groove (34) have been seted up on the perisporium of processing chamber (24), be equipped with the positioning mechanism who is used for fixed work piece (11) in mounting groove (34), the left side of organism (1) is equipped with blown down tank (25) that is located processing chamber (24) below, install exit conveyor (26) in blown down tank (25), be equipped with in organism (1) and be located processing mouth (19), Push away silo (7) between process chamber (24), be equipped with in pushing away silo (7) and be used for promoting work piece (11) to the feed mechanism in process chamber (24), be equipped with movable groove (27) that are located between process chamber (24), blown down tank (25) in organism (1), be equipped with in movable groove (27) and be used for the support material mechanism to work piece (11) bearing, it is equipped with the actuating mechanism who is connected with feed mechanism, support material mechanism to inlay on the right side wall of organism (1), organism (1) upper end is equipped with and pushes away silo (7) intercommunication and is used for the stock mechanism of putting things in good order work piece (11).

2. The ultraviolet picosecond ultrafast laser precision punching device of claim 1, wherein the installation mechanism comprises an installation frame (13) fixed on the upper end of the machine body (1) and located above the processing opening (19), the inner top of the installation frame (13) is provided with an X-direction electric slide rail (14), the X-direction electric slide rail (14) is provided with an X-direction moving seat (15), the X-direction moving seat (15) is provided with a Y-direction electric slide rail (16), the Y-direction electric slide rail (16) is provided with a Y-direction moving seat (17), and the laser puncher (18) is installed on the Y-direction moving seat (17).

3. The ultraviolet picosecond ultrafast laser precision drilling device according to claim 1, wherein the driving mechanism comprises a telescopic cylinder (5) embedded on the right side wall of the machine body (1), the telescopic end of the telescopic cylinder (5) extends towards the right side of the machine body (1) and is fixed with a moving plate (3).

4. The ultraviolet picosecond ultrafast laser precision punching device according to claim 3, wherein the feeding mechanism comprises a feeding plate (8) which is arranged in the material pushing groove (7) and can slide transversely, one end of the feeding plate (8) is provided with a feeding groove (9) which is arranged below the material leakage opening (12) and used for accommodating the workpiece (11), one end of the feeding plate (8) far away from the feeding groove (9) is fixed with a connecting rod (6), and one end of the connecting rod (6) far away from the feeding plate (8) penetrates through the inner wall of the material pushing groove (7) rightwards and is fixed on the moving plate (3).

5. The ultraviolet picosecond ultrafast laser precision drilling device according to claim 3, wherein the material supporting mechanism comprises a material supporting plate (28) which is arranged in a movable groove (27) and can slide transversely, a movable rod (2) is fixed on the side wall of the material supporting plate (28), one end, far away from the material supporting plate (28), of the movable rod (2) penetrates through the inner wall of the movable groove (27) rightwards and extends to the outer side of the machine body (1), one end, located outside the machine body (1), of the movable rod (2) penetrates through the movable plate (3) and is fixed with a limiting block (4), a spring (31) is sleeved on the side wall, located inside the movable groove (27), of the movable rod (2), and two ends of the spring (31) are respectively abutted against the inner walls of the material supporting plate (28) and the movable groove (27).

6. The ultraviolet picosecond ultrafast laser precision drilling device according to claim 4, wherein the machine body (1) is internally provided with a pump air sliding cavity (37) located below the material pushing groove (7), the left inner wall of the pump air sliding cavity (37) is provided with a through hole communicated with the outside of the machine body (1), the pump air sliding cavity (37) is internally provided with a magnetic sliding plug (38), the right end of the feeding plate (8) is fixedly sleeved with a magnetic ring (35) magnetically attracted with the magnetic sliding plug (38), the right side wall of the pump air sliding cavity (37) is connected with an air inlet pipe (36), the inner side wall of the processing chamber (24) is provided with a ring-shaped groove (21), the ring-shaped pipe (22) is arranged in the ring-shaped groove (21), the side wall of the ring-shaped pipe (22) is provided with an air nozzle (23) along the circumferential direction, and the machine body (1) is internally provided with a gas nozzle (23) for connecting the ring-shaped pipe (22), The air outlet pipe (39) is communicated with the air pumping sliding cavity (37), and the air inlet pipe (36) and the air outlet pipe (39) are internally provided with one-way valves.

7. The ultraviolet picosecond ultrafast laser precision drilling device according to claim 4, wherein the positioning mechanism comprises a positioning cylinder (32) installed in the installation groove (34), a positioning clamp (33) used for positioning and fixing the workpiece (11) is installed at the telescopic end of the positioning cylinder (32), a push switch (20) is embedded on the inner wall of one side of the material pushing groove (7) close to the upper part of the processing chamber (24), and the push switch (20) is electrically connected with the positioning cylinder (32) and used for controlling the telescopic of the positioning cylinder (32).

8. The ultraviolet picosecond ultrafast laser precision drilling device according to claim 1, wherein the material storing mechanism comprises a material storing barrel (10) fixed at the upper end of the machine body (1), a material leaking opening (12) located right below the material storing barrel (10) is formed in the top of the material pushing groove (7), and the workpieces (11) are vertically stacked in the material storing barrel (10).

9. The ultraviolet picosecond ultrafast laser precision punching device according to claim 5, wherein four cushion blocks (29) which are distributed in a rectangular shape and support the workpiece (11) are arranged at the upper end of the retainer plate (28), and a strip-shaped groove (30) corresponding to the cushion blocks (29) is formed at the inner top of the movable groove (27).

10. A punching process adopting the ultraviolet picosecond ultrafast laser precision punching equipment of any claim 1 to 9 is characterized by comprising the following steps:

firstly, stacking a workpiece (11) in a material storage barrel (10), and discharging the workpiece (11) into an upper material groove (9) through a material leakage opening (12);

step two, starting a telescopic cylinder (5) to contract, driving a material supporting plate (28) to move to the lower part of a processing chamber (24), pushing a workpiece (11) into the processing chamber (24) by a material feeding plate (8) and dropping onto the material supporting plate (28), so as to realize feeding of the workpiece (11), starting a positioning cylinder (32) to extend by pressing a switch (20), and positioning and fixing the workpiece (11) fed into the processing chamber (24) by a positioning clamp (33);

step three, starting a laser puncher (18) to punch the workpiece (11) positioned in the step two;

step four, after punching, start telescopic cylinder (5) extension, drive flitch (8) of going up, hold in the palm flitch (28) and move to the right and reset, it no longer blocks machining room (24) to hold in the palm flitch (28), work piece (11) unloading that the completion was processed on the realization asks flitch (28) to go up ejection of compact to exit conveyor (26), and go up silo (9) and remove to drain hole (12) below again, next work piece (11) fall into in last silo (9), repetitive operation can carry out the punching of subsequent work piece (11).

Technical Field

The invention relates to the technical field of laser drilling of co-fired ceramics, in particular to ultraviolet picosecond ultrafast laser precision drilling equipment and process.

Background

The cofiring ceramic punching equipment has wide market space at home and abroad, and the current market capacity is estimated to be about 10 thousands (including ceramic punching and FPC punching), wherein the precision small hole punching equipment accounts for about 10 percent. At present, the drilling of the co-fired ceramic mainly comprises three methods: metal drilling, punching and laser drilling.

Present laser beam drilling uses the processing of punching of ultra-violet picosecond ultrafast laser precision drilling equipment ceramic burns altogether, but present laser beam drilling equipment, and material loading, unloading are through manual operation, and overall efficiency is lower, the human cost is high, and is not intelligent enough, consequently, need design an ultra-violet picosecond ultrafast laser precision drilling equipment now to realize the integration linkage operation of material loading, punching, unloading, realize the intellectuality of firing potsherd laser beam drilling process altogether.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides ultraviolet picosecond ultrafast laser precision drilling equipment and process.

In order to achieve the purpose, the invention adopts the following technical scheme:

an ultraviolet picosecond ultrafast laser precision punching device comprises a machine body, a laser puncher and a workpiece, wherein a processing opening is formed in one side of the upper end of the machine body, an installing mechanism which is located above the processing opening and used for installing and moving the laser puncher is arranged at the upper end of the machine body, a processing chamber which is located below the processing opening is arranged in the machine body, an installing groove is formed in the peripheral wall of the processing chamber, a positioning mechanism used for fixing the workpiece is arranged in the installing groove, a discharging groove which is located below the processing chamber is formed in the left side of the machine body, a discharging conveying belt is arranged in the discharging groove, a material pushing groove which is located between the processing opening and the processing chamber is formed in the machine body, a feeding mechanism used for pushing the workpiece into the processing chamber is arranged in the material pushing groove, a movable groove which is located between the processing chamber and the discharging groove is formed in the machine body, and a material supporting mechanism used for supporting the workpiece is arranged in the movable groove, and a driving mechanism connected with the feeding mechanism and the material supporting mechanism is embedded on the right side wall of the machine body, and a material storing mechanism communicated with the material pushing groove and used for stacking workpieces is arranged at the upper end of the machine body.

As a further improvement of the invention, the mounting mechanism comprises a mounting frame fixed at the upper end of the machine body and positioned above the processing opening, an X-direction electric slide rail is mounted at the inner top of the mounting frame, an X moving seat is mounted on the X-direction electric slide rail, a Y-direction electric slide rail is mounted on the X moving seat, a Y moving seat is arranged on the Y-direction electric slide rail, and the laser puncher is mounted on the Y moving seat.

As a further improvement of the invention, the driving mechanism comprises a telescopic cylinder embedded on the right side wall of the machine body, and the telescopic end of the telescopic cylinder extends towards the right side of the machine body and is fixed with a moving plate.

As a further improvement of the invention, the feeding mechanism comprises a feeding plate which is arranged in the material pushing groove and can slide transversely, one end of the feeding plate is provided with a feeding groove which is positioned below the material leakage opening and used for accommodating a workpiece, one end of the feeding plate, which is far away from the feeding groove, is fixed with a connecting rod, and one end of the connecting rod, which is far away from the feeding plate, penetrates through the inner wall of the material pushing groove rightwards and is fixed on the movable plate.

As a further improvement of the invention, the material supporting mechanism comprises a material supporting plate which is arranged in the movable groove and can slide transversely, a movable rod is fixed on the side wall of the material supporting plate, one end of the movable rod, which is far away from the material supporting plate, penetrates through the inner wall of the movable groove rightwards and extends to the outer side of the machine body, one end of the movable rod, which is positioned outside the machine body, penetrates through the movable plate and is fixed with a limiting block, a spring is sleeved on the side wall of the movable rod, which is positioned in the movable groove, and two ends of the spring are respectively abutted against the material supporting plate and the inner wall of the movable groove.

As a further improvement of the invention, a pump air sliding cavity located below the material pushing groove is arranged inside the machine body, a through hole communicated with the outside of the machine body is formed in the inner wall of the left side of the pump air sliding cavity, a magnetic sliding plug is arranged in the pump air sliding cavity, a magnetic ring magnetically attracted with the magnetic sliding plug is fixedly sleeved at the right end of the feeding plate, an air inlet pipe is connected to the right side wall of the pump air sliding cavity, an annular groove is formed in the inner side wall of the processing chamber, an annular pipe is arranged in the annular groove, an air nozzle is arranged on the side wall of the annular pipe along the circumferential direction, an air outlet pipe used for communicating the annular pipe with the pump air sliding cavity is arranged inside the machine body, and one-way valves are arranged in the air inlet pipe and the air outlet pipe.

As a further improvement of the invention, the positioning mechanism comprises a positioning cylinder arranged in the mounting groove, a positioning clamp for positioning and fixing the workpiece is arranged at the telescopic end of the positioning cylinder, a press switch is embedded on the inner wall of one side of the pushing groove close to the upper part of the processing chamber, and the press switch is electrically connected with the positioning cylinder and used for controlling the telescopic movement of the positioning cylinder.

As a further improvement of the invention, the material storage mechanism comprises a material storage barrel fixed at the upper end of the machine body, a material leakage port positioned right below the material storage barrel is formed in the top of the material pushing barrel, and the workpieces are vertically stacked in the material storage barrel.

As a further improvement of the invention, the upper end of the retainer plate is provided with four cushion blocks which are distributed in a rectangular shape and support the workpiece, and the inner top of the movable groove is provided with a strip-shaped groove corresponding to the cushion blocks.

The invention relates to a punching process of ultraviolet picosecond ultrafast laser precision punching equipment, which comprises the following steps:

stacking workpieces in a storage barrel, and discharging the workpieces into an upper material groove through a material leakage opening;

step two, starting the telescopic cylinder to contract to drive the material supporting plate to move to the lower part of the processing chamber, pushing the workpiece into the processing chamber by the material feeding plate and dropping the workpiece onto the material supporting plate to realize the feeding of the workpiece, starting the positioning cylinder to extend by pressing a switch, and positioning and fixing the workpiece fed into the processing chamber by the positioning clamp;

step three, starting a laser puncher to punch the workpiece positioned in the step two;

and step four, after the punching is finished, starting the telescopic cylinder to extend, driving the feeding plate and the material supporting plate to move rightwards to reset, enabling the material supporting plate not to block the machining chamber, discharging the workpiece which is machined on the material supporting plate to a discharging conveying belt to discharge, moving the feeding groove to the position below the material leakage opening again, enabling the next workpiece to fall into the feeding groove, and repeatedly operating to punch subsequent workpieces.

The invention has the beneficial effects that:

1. the movable plate can be driven to move left by setting the driving mechanism, the feeding mechanism and the material supporting mechanism and contracting through the telescopic cylinder, the elastic force of the spring acts on the material supporting plate to push the material supporting plate to move left in the movable groove, and the material supporting plate moves to the lower part of the processing chamber before the material feeding plate, so that the effect of supporting a workpiece is achieved;

and after the work piece processing finishes, start telescopic cylinder extension, can drive the flitch of going up, hold in the palm the flitch and move right and reset, hold in the palm the flitch and no longer block the process chamber, realize that the work piece unloading of accomplishing processing on the flitch carries out the ejection of compact to ejection of compact conveyer belt on, accomplishes the next feeding.

2. Through setting up positioning mechanism, go up the flitch and promote the material loading to the machining chamber back with the work piece, support through last flitch and press and open push switch for the location cylinder starts the extension, and then fixes a position fixedly through the work piece that the location pressed from both sides will treat laser beam drilling, guarantees the stability of work piece, and then guarantees follow-up laser beam drilling's precision, guarantees the quality of punching.

3. Through setting up the smooth chamber of pump gas, the annular tube, the air nozzle, the smooth stopper of magnetism, the magnetism ring, when going up flitch left shift and carrying out the material loading to the work piece, because magnetism ring and the smooth stopper magnetism of magnetism attract mutually, when going up the flitch left shift, drive the smooth stopper of magnetism and move left at the smooth chamber of pump gas, make the smooth stopper right side of magnetism suction gas, accomplish laser beam drilling processing back at the work piece, when going up the flitch and moving to the right side and reset, can drive the smooth stopper of magnetism and move right and extrude the smooth intracavity gas of pump gas to the annular tube and spout through the air nozzle through the outlet duct, and then carry out jet-propelled cooling fast to the work piece after laser beam drilling, and the cooling efficiency is improved.

The laser drilling device can realize integrated linkage operation of loading, drilling and unloading, realize intellectualization of the laser drilling process of the co-fired ceramic chip, and can perform timely air injection cooling on the co-fired ceramic chip after laser drilling, and the cooling effect is good.

Drawings

FIG. 1 is a schematic structural diagram of an ultra-fast UV picosecond laser precision drilling apparatus according to the present invention;

FIG. 2 is a schematic structural diagram of a retainer plate and a cushion block of the ultra-fast laser precision drilling equipment for ultraviolet picoseconds according to the present invention;

FIG. 3 is a schematic structural diagram of a positioning mechanism of the ultra-violet picosecond ultrafast laser precision drilling apparatus according to the present invention;

fig. 4 is an enlarged view of a portion a in fig. 1.

In the figure: 1 organism, 2 movable rods, 3 movable plates, 4 limit blocks, 5 telescopic cylinders, 6 connecting rods, 7 material pushing grooves, 8 material feeding plates, 9 material feeding grooves, 10 material storage cylinders, 11 workpieces, 12 material leakage openings, 13 mounting frames, 14X-direction electric slide rails, 15X-direction moving seats, 16Y-direction electric slide rails, 17Y-direction moving seats, 18 laser puncher, 19 processing openings, 20 press switches, 21 annular grooves, 22 annular pipes, 23 air nozzles, 24 processing chambers, 25 material discharging grooves, 26 material discharging conveyor belts, 27 movable grooves, 28 material supporting plates, 29 cushion blocks, 30 strip-shaped grooves, 31 springs, 32 positioning cylinders, 33 positioning clamps, 34 mounting grooves, 35 magnetic rings, 36 air inlet pipes, 37 pump air sliding cavities, 38 magnetic sliding plugs and 39 air outlet pipes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-4, an ultraviolet picosecond ultrafast laser precision drilling device comprises a machine body 1, a laser puncher 18 and a workpiece 11, wherein one side of the upper end of the machine body 1 is provided with a processing opening 19, the upper end of the machine body 1 is provided with a processing opening 19 which is positioned above the processing opening 19 and used for installation, the installation mechanism of the movable laser puncher 18 comprises an installation frame 13 which is fixed at the upper end of the machine body 1 and positioned above a processing port 19, an X-direction electric sliding rail 14 is installed at the inner top of the installation frame 13, an X-direction movable seat 15 is installed on the X-direction electric sliding rail 14, a Y-direction electric sliding rail 16 is installed on the X-direction movable seat 15, a Y-direction movable seat 17 is arranged on the Y-direction electric sliding rail 16, the laser puncher 18 is installed on the Y-direction movable seat 17, the X-direction electric sliding rail 14 and the Y-direction electric sliding rail 16 are the prior art, the position of the laser puncher 18 can be adjusted in a plane, and the requirement of accurate punching is met;

a processing chamber 24 positioned below the processing opening 19 is arranged in the machine body 1, a mounting groove 34 is arranged on the peripheral wall of the processing chamber 24, a positioning mechanism for fixing the workpiece 11 is arranged in the mounting groove 34, a discharge groove 25 positioned below the processing chamber 24 is arranged on the left side of the machine body 1, a discharge conveyor belt 26 is arranged in the discharge groove 25, a material pushing groove 7 positioned between the processing opening 19 and the processing chamber 24 is arranged in the machine body 1, a feeding mechanism for pushing the workpiece 11 into the processing chamber 24 is arranged in the material pushing groove 7, a movable groove 27 positioned between the processing chamber 24 and the discharge groove 25 is arranged in the machine body 1, a material supporting mechanism for supporting the workpiece 11 is arranged in the movable groove 27, a driving mechanism connected with the feeding mechanism and the material supporting mechanism is embedded on the right side wall of the machine body 1, the driving mechanism comprises a telescopic cylinder 5 embedded on the right side wall of the machine body 1, and a movable plate 3 is fixed on the right side of the telescopic cylinder 5, the upper end of the machine body 1 is provided with a material storage mechanism which is communicated with the material pushing groove 7 and used for stacking the workpieces 11.

But feed mechanism is including setting up in pushing away material groove 7 and lateral sliding's last flitch 8, and 8 one end of going up the flitch is equipped with the last silo 9 that is located drain hole 12 below and is used for holding work piece 11, and the one end that goes up flitch 8 and keep away from last silo 9 is fixed with connecting rod 6, and the one end that the flitch 8 was kept away from to connecting rod 6 runs through the inner wall that pushes away material groove 7 right and fixes on movable plate 3.

The material supporting mechanism comprises a material supporting plate 28 which is arranged in a movable groove 27 and can transversely slide, four cushion blocks 29 which are distributed in a rectangular shape and support the workpiece 11 are arranged at the upper end of the material supporting plate 28, the cushion blocks 29 can be made of rubber materials, when the workpiece 11 is discharged onto the material supporting plate 28, a buffering effect can be achieved, the workpiece 11 is protected, the workpiece 11 can be suspended and supported by the cushion blocks 29, the workpiece 11 can be positioned and fixed conveniently, a strip-shaped groove 30 corresponding to the cushion blocks 29 is formed in the inner top of the movable groove 27, a movable rod 2 is fixed on the side wall of the material supporting plate 28, one end, far away from the material supporting plate 28, of the movable rod 2 penetrates through the inner wall of the movable groove 27 rightwards and extends to the outer side of the machine body 1, one end, located outside the machine body 1, of the movable rod 2 penetrates through a movable plate 3 and is fixed with a limiting block 4, a spring 31 is sleeved on the side wall, located in the movable groove 27, and two ends of the spring 31 are respectively connected with the material supporting plate 28, The inner walls of the movable grooves 27 abut against each other.

The inside smooth chamber 37 of pump gas that is located push away silo 7 below that is equipped with of organism 1, set up the through-hole with organism 1 outer intercommunication on the left side inner wall in the smooth chamber 37 of pump gas, be equipped with the smooth stopper 38 of magnetism in the smooth chamber 37 of pump gas, the fixed cover of right-hand member of material loading plate 8 is equipped with the magnetic ring 35 with the smooth stopper 38 magnetism looks of magnetism attracted, the right side wall of the smooth chamber 37 of pump gas is connected with intake pipe 36, be equipped with ring channel 21 on the inside wall of processing chamber 24, be equipped with annular tube 22 in the ring channel 21, be equipped with air nozzle 23 along circumference on the lateral wall of annular tube 22, the inside of organism 1 is equipped with and is used for annular tube 22, the outlet duct 39 that the smooth chamber 37 of pump gas communicates, intake pipe 36, all install the check valve in the outlet duct 39, realize intake pipe 36, the one-way of outlet duct 39 admits air, one-way is given vent.

The positioning mechanism comprises a positioning cylinder 32 installed in an installation groove 34, a positioning clamp 33 used for positioning and fixing the workpiece 11 is installed at the telescopic end of the positioning cylinder 32, a press switch 20 is embedded on the inner wall of one side, close to the upper side of the processing chamber 24, of the material pushing groove 7, the press switch 20 is electrically connected with the positioning cylinder 32 and used for controlling the telescopic movement of the positioning cylinder 32, the press switch 20 is pressed to be opened, the positioning cylinder 32 is controlled to be started and extended, and then the workpiece 11 to be subjected to laser drilling is positioned and fixed through the positioning clamp 33.

The material storing mechanism comprises a material storing barrel 10 fixed to the upper end of the machine body 1, a material leaking port 12 located right below the material storing barrel 10 is formed in the top of the material pushing groove 7, workpieces 11 are vertically stacked in the material storing barrel 10, and the workpieces 11 are automatically discharged into a material feeding groove 9 on the material feeding plate 8 through gravity.

The invention relates to a punching process of ultraviolet picosecond ultrafast laser precision punching equipment, which comprises the following steps:

step one, stacking a workpiece 11 in a storage barrel 10, and discharging the workpiece 11 into an upper material groove 9 through a material leakage opening 12;

step two, starting the telescopic cylinder 5 to contract, driving the retainer plate 28 to move to the lower part of the processing chamber 24, pushing the workpiece 11 into the processing chamber 24 by the feeding plate 8 and dropping onto the retainer plate 28 to realize feeding of the workpiece 11, starting the positioning cylinder 32 to extend by pressing the switch 20, and positioning and fixing the workpiece 11 fed into the processing chamber 24 by the positioning clamp 33;

step three, starting the laser puncher 18 to punch the workpiece 11 positioned in the step two;

and step four, after the punching is finished, starting the telescopic cylinder 5 to extend, driving the feeding plate 8 and the material supporting plate 28 to move rightwards to reset, enabling the material supporting plate 28 not to block the machining chamber 24 any more, discharging the workpiece 11 which is machined on the material supporting plate 28 onto the discharging conveyor belt 26 to discharge, moving the feeding groove 9 to the position below the material leakage opening 12 again, enabling the next workpiece 11 to fall into the feeding groove 9, and repeatedly operating to punch the subsequent workpiece 11.

When the invention is used, a workpiece 11 is stacked in the material storage barrel 10, the workpiece 11 is discharged into the material storage tank 9 through the discharge hole 12, the telescopic cylinder 5 is started to contract, the movable plate 3 can be driven to move to the left, the elastic force of the spring 31 acts on the material supporting plate 28, the material supporting plate 28 is pushed to move to the left in the movable groove 27, the material supporting plate 28 moves to the lower side of the processing chamber 24 before the material loading plate 8 moves to the lower side of the processing chamber 24, the effect of supporting the workpiece 11 is achieved, the movable plate 3 moves to the left, the material loading plate 8 is driven to move to the left, the workpiece 11 temporarily stored in the material storage tank 9 is pushed to the processing chamber 24 to complete material loading, and when the material loading plate 8 moves to the limit position, the pressing switch 20 is pressed to be opened, the positioning cylinder 32 is started to extend, and then the workpiece 11 to be subjected to laser drilling is positioned and fixed through the positioning clamp 33, the stability of the workpiece 11 is ensured, the laser puncher 18 is started to drill the workpiece 11 positioned in the step two, and the position of the laser puncher 18 is adjusted through the X-direction electric slide rail 14 and the Y-direction electric slide rail 16 to complete comprehensive punching operation, after the workpiece 11 is machined, the telescopic cylinder 5 is started to extend, so that the feeding plate 8 and the material supporting plate 28 can be driven to move rightwards and reset, the feeding plate 8 leaves the press switch 20, the positioning cylinder 32 is started to contract, the positioning of the workpiece 11 is released, the material supporting plate 28 does not block the machining chamber 24 any more, the workpiece 11 which is machined on the material supporting plate 28 is discharged onto the discharging conveyor belt 26 to be discharged, and when the feeding groove 9 moves below the material leakage opening 12 again, the next workpiece 11 falls into the feeding groove 9, and subsequent punching of the workpiece 11 can be performed through repeated operation.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.