CN116921877A

CN116921877A - Copper-clad ceramic carrier plate cutting and coding device

Info

Publication number: CN116921877A
Application number: CN202311184179.6A
Authority: CN
Inventors: 朱锐; 马敬伟; 李炎; 孙泉
Original assignee: Sichuan Fulehua Semiconductor Technology Co ltd
Current assignee: Sichuan Fulehua Semiconductor Technology Co ltd
Priority date: 2023-09-14
Filing date: 2023-09-14
Publication date: 2023-10-24
Anticipated expiration: 2043-09-14
Also published as: CN116921877B

Abstract

The invention discloses a copper-clad ceramic carrier plate cutting and coding device, which has the technical scheme that: the automatic cleaning machine comprises a frame, be fixed with servo motor in the frame, servo motor's motor shaft end fixing has first back shaft, first back shaft end is fixed with the second back shaft through electromagnetic clutch, the end fixing of second back shaft has the microscope carrier, dodge the groove has been seted up at the middle part of microscope carrier, be fixed with the side stand in the frame, install laser marking device on the side stand, the top of frame is provided with the pressure structure that is used for fixed work piece on the microscope carrier and is used for the air-blowing subassembly of the clean work piece upper and lower surface of air-blowing, microscope carrier department is provided with a plurality of negative pressure trachea that is used for connecting external tracheal. The copper-clad ceramic carrier plate cutting and coding device adopts one laser coding device positioned on the side upright post to realize double-sided coding, and has simple and exquisite structure.

Description

Copper-clad ceramic carrier plate cutting and coding device

Technical Field

The invention relates to the field of laser coding, in particular to a copper-clad ceramic carrier plate cutting coding device.

Background

The laser coding process is a mature marking process, has very wide application, and aims at some workpiece products, and the double-sided coding is needed to perform the representation and identification operation. The prior art is divided into a laser cutting machine and a laser coding machine, the laser cutting and the laser coding are divided into two working procedures, and the processing efficiency is lower.

The prior art can refer to Chinese patent with publication number of CN106378531A, and discloses a copper-clad ceramic carrier plate cutting and coding device, which comprises a machine head, a guide table, a first pinch roll and a second pinch roll, wherein the guide table is used for supporting a belt body, the machine head is positioned above the guide table and coding the belt body on the guide table, the first pinch roll and the second pinch roll are respectively positioned at two ends of the guide table so as to convey the belt body between the first pinch roll and the second pinch roll, the first pinch roll comprises a first upper roll and a first lower roll which rotate oppositely to convey the belt body, the second pinch roll comprises a second upper roll and a second lower roll which rotate oppositely to convey the belt body, the guide roll is positioned between the guide table and the second pinch roll, the belt head is guided to the lower part of the second lower roll through the guide roll, and then enters between the second lower roll and the second upper roll after winding the outer side of the second lower roll to move towards the first pinch roll. According to the copper-clad ceramic carrier plate cutting and coding device, the upper surface and the lower surface of the belt body are turned over through the guide rollers, and the belt body can walk back and forth between the first pinch roller and the second pinch roller to code the two surfaces.

And then, as in the chinese patent with the existing publication number CN215944048U, it discloses a laser coding machine with a double-sided coding device, which belongs to the technical field of laser coding, and includes a main body support, on which an upper coding head and a lower coding head are arranged, on which positioning cameras for photographing and positioning the PCB board are arranged, on which coding areas for laser coding are arranged, and on which the upper coding head and the lower coding head are respectively positioned at two sides of the coding areas and are oppositely arranged facing the coding areas. This application has improved the effect to the double-sided code printing efficiency of PCB board.

The above patents each have some advantages, but all have some disadvantages such as: the double-sided coding device is characterized in that a coding device which is arranged up and down is adopted, the structure is complex, and the double-sided coding device can be improved.

Disclosure of Invention

The invention aims to provide a copper-clad ceramic carrier plate cutting and coding device for solving the problems of the background technology.

The technical aim of the invention is realized by the following technical scheme:

the utility model provides a cover copper pottery carrier plate cutting and beat sign indicating number device, includes the frame, be fixed with servo motor in the frame, servo motor's motor shaft end fixing has first back shaft, first back shaft end is fixed with the second back shaft through electromagnetic clutch, the end fixing of second back shaft has the microscope carrier, dodge the groove has been seted up at the middle part of microscope carrier, be fixed with the side stand in the frame, install laser marking device on the side stand, the top of frame is provided with the pressure structure that is used for fixing the work piece on the microscope carrier and is used for the air-blowing subassembly of the clean work piece upper and lower surface of air-blowing, microscope carrier department is provided with a plurality of negative pressure trachea that is used for connecting external tracheal, be provided with the laser cutter to the work piece cutting on the microscope carrier in the frame.

By adopting the technical scheme, the copper-clad ceramic carrier plate cutting and coding device adopts one laser coding device positioned on the side upright post to realize double-sided coding, and has simple and exquisite structure; when the device is applied, the servo motor can be used for driving the first support shaft and the second support shaft to rotate, the carrier and a workpiece on the carrier are driven to overturn, and the electromagnetic clutch can control the connection, the fixation and the disconnection of the first support shaft and the second support shaft; when the carrying platform and the workpiece are driven to overturn, the pressing structure can be synchronously controlled to press the workpiece, and then the workpiece is matched with the negative pressure air pipe to form negative pressure so as to ensure that the workpiece is stable on the carrying platform, ensure the stability of the overturning process, and drive the air blowing component to adjust the position in the process so as to perform air blowing cleaning on the surface of the workpiece to be subjected to laser coding and laser coding; in addition, the laser cutting of the workpiece can be realized by a laser cutter on the frame.

Preferably, the pressing structure comprises a pressing block, a pressing pad and a pressing rod, wherein the pressing block is fixed on one side of the pressing rod, and the pressing pad is fixed on the bottom surface of the pressing block and used for pressing a workpiece above the carrying platform.

By adopting the technical scheme, the pressing block, the pressing pad and the pressing rod are utilized to realize good pressing and fixing effects.

Preferably, the air blowing assembly comprises an upper air pipe, a lower air pipe, an upper spray head, a lower spray head, a main air pipe, an air pump and an air control valve, wherein the upper air pipe and the lower air pipe are respectively arranged on the upper side and the lower side of the carrying platform, the upper spray head is arranged on the side of the end of the upper air pipe, the lower air pipe is arranged on the side of the end of the lower spray head, the main air pipe is communicated with the upper air pipe and the lower air pipe, one end of the main air pipe is connected with the air outlet of the air pump, and the air control valve is respectively arranged on the upper air pipe and the lower air pipe.

Through adopting above-mentioned technical scheme, go up shower nozzle on the trachea and lower shower nozzle on the lower trachea and can carry out the air blow, air pump accessible total trachea is to trachea and lower trachea air feed, and the pneumatic control valve can control and go up trachea and lower trachea and blow, when last shower nozzle and lower shower nozzle blow, can realize the upper and lower jetting.

Preferably, a linkage control structure for controlling the action of the pressing assembly and controlling the air blowing assembly to adjust the air blowing position is arranged outside the first support shaft.

Through adopting above-mentioned technical scheme, utilize coordinated control structure can realize the hold-in range and press the dynamic control subassembly and blow subassembly adjustment position.

Preferably, the coordinated control structure includes arc triangle-shaped piece, rectangle frame, first extension rod, second extension rod and guide pin bushing, the outside at first back shaft is fixed to the arc triangle-shaped piece, the rectangle frame is located the outside of arc triangle-shaped frame, the appearance of arc triangle-shaped piece is the leio triangle-shaped curve, horizontal sliding connection between rectangle frame and the frame, first extension rod is fixed in one side of rectangle frame, the second extension rod is fixed in one side that the rectangle frame deviates from first extension rod, the guide pin bushing is fixed in the frame and supplies the second extension rod to pass, total trachea and air pump are fixed on the rectangle frame, the one end of depression bar is fixed on first extension rod through the bolt.

Through adopting above-mentioned technical scheme, when first back shaft drove the arc triangle-shaped piece and rotates, it can drive rectangle frame horizontal slip, drives first extension rod horizontal slip, and movable dynamic structure adjustment position when first extension rod horizontal slip to can drive upper airway and lower trachea adjustment jetting position, realize control linkage.

Preferably, a guide rail is fixed on the frame, a sliding block is fixed at the bottom of the rectangular frame, and the sliding block is slidably connected in a guide groove on the guide rail.

By adopting the technical scheme, the sliding stability of the rectangular frame can be improved by utilizing the cooperation of the guide groove and the sliding block on the guide rail.

Preferably, the sliding block is a dovetail block or an arc block, and the guide groove is a dovetail groove or an arc groove matched with the sliding block.

By adopting the technical scheme, the dovetail block or the bow-shaped block is adopted as the sliding block, and the sliding block has the advantage of stable sliding.

Preferably, the side stand column is a telescopic column, and the side stand column drives telescopic adjustment through the air cylinder.

By adopting the technical scheme, the side stand column adopts a telescopic column structure, so that the position of the laser coding device can be conveniently adjusted.

In summary, the invention has the following beneficial effects:

the copper-clad ceramic carrier plate cutting and coding device adopts one laser coding device positioned on the side upright post to realize double-sided coding, and has simple and exquisite structure; when the device is applied, the servo motor can be used for driving the first support shaft and the second support shaft to rotate, the carrier and a workpiece on the carrier are driven to overturn, and the electromagnetic clutch can control the connection, the fixation and the disconnection of the first support shaft and the second support shaft; when the carrying platform and the workpiece are driven to overturn, the pressing structure can be synchronously controlled to press the workpiece, and then the workpiece is matched with the negative pressure air pipe to form negative pressure so as to ensure that the workpiece is stable on the carrying platform, ensure the stability of the overturning process, and drive the air blowing component to adjust the position in the process so as to perform air blowing cleaning on the surface of the workpiece to be subjected to laser coding and laser coding; in addition, the laser cutting of the workpiece can be realized by a laser cutter on the frame.

Drawings

FIG. 1 is a schematic diagram of a copper-clad ceramic carrier cutting and coding device;

FIG. 2 is a second schematic diagram of a device for cutting and coding copper-clad ceramic carrier;

FIG. 3 is a third schematic diagram of a device for cutting and coding copper-clad ceramic carrier;

FIG. 4 is an enlarged view at A in FIG. 3;

FIG. 5 is an enlarged view at B in FIG. 3;

FIG. 6 is a schematic diagram of a copper-clad ceramic carrier cutting and coding device.

Reference numerals: 1. a frame; 10. a servo motor; 11. a first support shaft; 12. a second support shaft; 13. a carrier; 14. an avoidance groove; 15. side uprights; 16. a laser code printer; 2. a pressing structure; 3. an air blowing assembly; 17. a negative pressure air pipe; 21. briquetting; 22. a pressing pad; 23. a compression bar; 31. an upper air pipe; 32. a lower air pipe; 33. an upper nozzle; 34. a lower nozzle; 35. a main air pipe; 36. an air pump; 37. a pneumatic control valve; 4. a linkage control structure; 41. arc triangle blocks; 42. a rectangular frame; 43. a first extension rod; 44. a second extension rod; 45. guide sleeve; 46. a guide rail; 47. a sliding block.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and examples.

As shown in fig. 1 to 6, a copper-clad ceramic carrier plate cutting and coding device comprises a frame 1, a servo motor 10 is fixed on the frame 1, a first supporting shaft 11 is fixed at the end part of a motor shaft of the servo motor 10, a second supporting shaft 12 is fixed at the end part of the first supporting shaft 11 through an electromagnetic clutch, a carrying platform 13 is fixed at the end part of the second supporting shaft 12, an avoidance groove 14 is formed in the middle of the carrying platform 13, a side stand 15 is fixed on the frame 1, a laser coding device 16 is mounted on the side stand 15, a pressing structure 2 for fixing a workpiece on the carrying platform 13 and an air blowing assembly 3 for air blowing and cleaning the upper surface and the lower surface of the workpiece are arranged above the frame 1, a plurality of negative pressure air pipes 17 for connecting external air pipes are arranged at the carrying platform 13, and a laser cutter for cutting the workpiece on the carrying platform 13 is arranged on the frame 1.

With important reference to fig. 1 and 2, the copper-clad ceramic carrier plate cutting and coding device adopts one laser coding device 16 positioned on the side upright post 15 to realize double-sided coding, and has simple and exquisite structure; when the device is applied, the servo motor 10 can be used for driving the first support shaft 11 and the second support shaft 12 to rotate, the carrier 13 and a workpiece on the carrier 13 are driven to overturn, and the electromagnetic clutch can control the connection fixation and disconnection of the first support shaft 11 and the second support shaft 12; when the carrying platform 13 and the workpiece are driven to overturn, the pressing structure 2 can be synchronously controlled to press the workpiece, and then the workpiece is matched with the negative pressure air pipe 17 to form negative pressure so as to ensure that the workpiece is stabilized on the carrying platform 13, ensure the stability of the overturning process, and in the process, the air blowing component 3 can be driven to adjust the position so as to perform air blowing cleaning on the surface of the workpiece to be subjected to laser coding and laser coding; furthermore, laser cutting of the workpiece can be achieved with a laser cutter on the frame 1.

As shown in fig. 3 to 4, the pressing structure 2 includes a pressing block 21, a pressing pad 22 and a pressing rod 23, wherein the pressing block 21 is fixed on one side of the pressing rod 23, and the pressing pad 22 is fixed on the bottom surface of the pressing block 21 for pressing the workpiece above the carrying table 13; good press-fit fixing effect can be achieved by using the pressing block 21, the pressing pad 22 and the pressing rod 23.

Referring to fig. 1 and 3, the air blowing assembly 3 includes an upper air pipe 31, a lower air pipe 32, an upper spray head 33, a lower spray head 34, a main air pipe 35, an air pump 36 and an air control valve 37, wherein the upper air pipe 31 and the lower air pipe 32 are respectively arranged at the upper side and the lower side of the carrying platform 13, the upper spray head 33 is arranged at the end side of the upper air pipe 31, the lower air pipe 32 is arranged at the end side of the lower spray head 34, the main air pipe 35 is communicated with the upper air pipe 31 and the lower air pipe 32, one end of the main air pipe 35 is connected at the air outlet of the air pump 36, and the air control valve 37 is respectively arranged on the upper air pipe 31 and the lower air pipe 32; the upper nozzle 33 on the upper air pipe 31 and the lower nozzle 34 on the lower air pipe 32 can perform air blowing, the air pump 36 can supply air to the upper air pipe 31 and the lower air pipe 32 through the main air pipe 35, the air control valve 37 can control the upper air pipe 31 and the lower air pipe 32 to blow, and when the upper nozzle 33 and the lower nozzle 34 blow, the upper and lower blowing can be realized.

As shown in fig. 1 to 5, the first support shaft 11 is externally provided with a linkage control structure 4 for controlling the motion of the pressing assembly and controlling the air blowing assembly 3 to adjust the air blowing position, and the linkage control structure 4 can be used for realizing the synchronous driving of the pressing control assembly and the air blowing assembly 3 to adjust the position.

Referring to fig. 1 and 3 with emphasis, the coordinated control structure 4 includes an arc triangle block 41, a rectangular frame 42, a first extension rod 43, a second extension rod 44 and a guide sleeve 45, where the arc triangle block 41 is fixed on the outside of the first support shaft 11, the rectangular frame 42 is located on the outside of the arc triangle block, the shape of the arc triangle block 41 is a leo triangle curve, the rectangular frame 42 is horizontally slidingly connected with the frame 1, the first extension rod 43 is fixed on one side of the rectangular frame 42, the second extension rod 44 is fixed on one side of the rectangular frame 42 facing away from the first extension rod 43, the guide sleeve 45 is fixed on the frame 1 for the second extension rod 44 to pass through, the gas pipe 35 and the gas pump 36 are fixed on the rectangular frame 42, and one end of the compression rod 23 is fixed on the first extension rod 43 through bolts; when the first supporting shaft 11 drives the arc triangle block 41 to rotate, the arc triangle block can drive the rectangular frame 42 to horizontally slide, drive the first extension rod 43 to horizontally slide, and when the first extension rod 43 horizontally slides, the first extension rod can drive the pressing structure 2 to adjust the position, and can drive the upper air pipe 31 and the lower air pipe 32 to adjust the spraying position, so that control linkage is realized.

As shown in fig. 1 to 6, a guide rail 46 is fixed on the frame 1, a sliding block 47 is fixed at the bottom of the rectangular frame 42, the sliding block 47 is slidably connected in a guide groove on the guide rail 46, and the sliding stability of the rectangular frame 42 can be improved by utilizing the cooperation of the guide groove on the guide rail 46 and the sliding block 47; the sliding block 47 is a dovetail block or an arc block, the guide groove is a dovetail groove or an arc groove matched with the sliding block 47, and the dovetail block or the arc block is used as a sliding block, so that the sliding block has the advantage of stable sliding; the side stand 15 is a telescopic column, the side stand 15 drives telescopic adjustment through an air cylinder, and the side stand 15 adopts a telescopic column structure to conveniently adjust the position of the laser code printer 16.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the present invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.

Claims

1. The utility model provides a cover copper pottery carrier plate cutting and beat sign indicating number device, includes frame (1), its characterized in that: the automatic cutting machine is characterized in that a servo motor (10) is fixed on the frame (1), a first supporting shaft (11) is fixed at the end part of a motor shaft of the servo motor (10), a second supporting shaft (12) is fixed at the end part of the first supporting shaft (11) through an electromagnetic clutch, a carrying table (13) is fixed at the end part of the second supporting shaft (12), a avoidance groove (14) is formed in the middle of the carrying table (13), a side stand column (15) is fixed on the frame (1), a laser coding device (16) is mounted on the side stand column (15), a pressing structure (2) for fixing a workpiece on the carrying table (13) and an air blowing assembly (3) for air blowing to clean the upper surface and the lower surface of the workpiece are arranged above the frame (1), a plurality of negative pressure air pipes (17) for connecting external air pipes are arranged at the carrying table (13), and laser cutters for cutting the workpiece on the carrying table (13) are arranged on the frame (1).

2. The copper-clad ceramic carrier plate cutting and coding device according to claim 1, wherein: the pressing structure (2) comprises a pressing block (21), a pressing pad (22) and a pressing rod (23), wherein the pressing block (21) is fixed on one side of the pressing rod (23), and the pressing pad (22) is fixed on the bottom surface of the pressing block (21) and used for pressing a workpiece above the carrying platform (13).

3. The copper-clad ceramic carrier plate cutting and coding device according to claim 2, wherein: the air blowing assembly (3) comprises an upper air pipe (31), a lower air pipe (32), an upper spray head (33), a lower spray head (34), a main air pipe (35), an air pump (36) and an air control valve (37), wherein the upper air pipe (31) and the lower air pipe (32) are respectively arranged on the upper side and the lower side of the carrying platform (13), the upper spray head (33) is arranged on the end side of the upper air pipe (31), the lower air pipe (32) is arranged on the end side of the lower spray head (34), the main air pipe (35) is communicated with the upper air pipe (31) and the lower air pipe (32), one end of the main air pipe (35) is connected with the air outlet of the air pump (36), and the air control valve (37) is respectively arranged on the upper air pipe (31) and the lower air pipe (32).

4. A copper-clad ceramic carrier cutting and coding device according to claim 3, wherein: the first support shaft (11) is externally provided with a linkage control structure (4) for controlling the action of the pressing assembly and controlling the air blowing assembly (3) to adjust the air blowing position.

5. The copper-clad ceramic carrier plate cutting and coding device according to claim 4, wherein: the linkage control structure (4) comprises an arc triangle block (41), a rectangular frame (42), a first extension rod (43), a second extension rod (44) and a guide sleeve (45), wherein the arc triangle block (41) is fixed on the outside of a first supporting shaft (11), the rectangular frame (42) is positioned on the outside of the arc triangle block, the appearance of the arc triangle block (41) is a Lai triangle curve, the rectangular frame (42) is horizontally and slidably connected with a frame (1), the first extension rod (43) is fixed on one side of the rectangular frame (42), the second extension rod (44) is fixed on one side, deviating from the first extension rod (43), of the rectangular frame (42), the guide sleeve (45) is fixed on the frame (1) and used for the second extension rod (44) to penetrate, the total air pipe (35) and the air pump (36) are fixed on the rectangular frame (42), and one end of the compression rod (23) is fixed on the first extension rod (43) through bolts.

6. The copper-clad ceramic carrier plate cutting and coding device according to claim 5, wherein: the machine frame (1) is fixedly provided with a guide rail (46), the bottom of the rectangular frame (42) is fixedly provided with a sliding block (47), and the sliding block (47) is slidably connected in a guide groove on the guide rail (46).

7. The copper-clad ceramic carrier plate cutting and coding device according to claim 6, wherein the sliding block (47) is a dovetail block or an arc block, and the guide groove is a dovetail groove or an arc groove matched with the sliding block (47).

8. The copper-clad ceramic carrier plate cutting and coding device according to claim 1, wherein the side stand column (15) is a telescopic column, and the side stand column (15) drives telescopic adjustment through a cylinder.