CN219131146U - Flexible circuit board cutting machine - Google Patents

Abstract

The utility model is applicable to the technical field of flexible circuit board processing, and provides a flexible circuit board cutting machine which comprises a workbench, a material tray, an optical path system, a cutting device and a displacement device; the displacement device is used for moving the product to the station and comprises a first displacement assembly and a second displacement assembly; the optical path system is used for guiding laser on the optical path system to the cutting device; the cutting device is used for cutting the product, and a plurality of groups of cutting assemblies are arranged on the cutting device for simultaneously cutting the flexible circuit board; the utility model sets the displacement components moving in the X-axis direction and the Y-axis direction, reduces the moving steps of the cutting device, sets a plurality of light paths to guide laser to a plurality of groups of cutting components, can realize simultaneous processing of a plurality of products, and improves the processing efficiency.

Description

Flexible circuit board cutting machine

Technical Field

The utility model belongs to the technical field of flexible circuit board processing, and particularly relates to a flexible circuit board cutting machine.

Background

Flexible printed circuit boards (fpcb) are printed circuits made of flexible insulating substrates, and are mainly suitable for the electronics industry. Therefore, the flexible circuit board is widely applied to the fields of communication equipment, smart phones, computers, medical machinery, automotive electronics, aviation, military equipment and the like.

The flexible circuit board is also called a soft board, is a printed circuit board which is made of polyimide or polyester film as a base material, has the characteristics of high wiring density, light weight and thin thickness, can be freely bent, rolled and folded, can bear millions of dynamic bending without damaging wires, can be randomly designed according to space layout requirements, and can be randomly moved and stretched in a three-dimensional space, thereby achieving the integration of component assembly and wire connection, is mainly used in various electronic products, and is required to be cut according to the used length in the processing and production process of the flexible circuit board.

In the cutting process of the flexible circuit board, the flexible circuit board is cut by using a laser cutting machine, in the prior art, the flexible circuit board is cut, the cutting steps on the flexible circuit board are more, the moving range is larger, the laser cutting machine is required to move for multiple times, most of the laser cutting machines are complex in structure and only provided with a single cutting mechanism, and the problem of low machining efficiency occurs in the machining process.

Disclosure of Invention

The embodiment of the utility model aims to provide a flexible circuit board cutting machine, which aims to solve the problem that a laser cutting mechanism is low in processing efficiency in the actual action process.

The embodiment of the utility model is realized in such a way that the flexible circuit board cutting machine comprises a workbench, a material tray, a light path system, a cutting device and a displacement device;

the optical path system is arranged on the workbench and is used for guiding laser on the optical path system to the cutting device;

the cutting device is arranged on the workbench and is provided with a plurality of groups of cutting assemblies, and the cutting device is used for cutting products;

the tray is used for placing products and is arranged on the displacement device;

the displacement device is used for moving a product to a station, the displacement device is arranged on a workbench and comprises a first displacement assembly and a second displacement assembly, the first displacement assembly is arranged above the first displacement assembly, the second displacement assembly is arranged on the workbench, the first displacement assembly drives the product on the material tray to move in the X-axis direction, and the second displacement assembly drives the product on the first displacement assembly to move in the Y-axis direction.

Preferably, the optical path system comprises a laser and an optical path;

the laser is arranged on the workbench and provides two parallel laser beams;

the light path is used for providing stable laser for the cutting device.

Preferably, the motion circuit comprises a first optical path and a second optical path;

the first optical path comprises a reflector AII, a reflector AIII, a reflector AIV and a reflector AIV which are sequentially arranged along the propagation direction of the optical path; the reflector AII is used for deflecting the laser beam A provided by the laser upwards by 90 degrees to enter the reflector AII, the reflector AII is used for deflecting the laser beam A by 90 degrees to the horizontal direction and entering the reflector AIV, the reflector AIV is used for deflecting the laser beam A downwards by 90 degrees and entering the reflector AIV, and the reflector AIV is used for deflecting the laser beam A by 90 degrees to the horizontal direction and entering the vibrating mirror A;

the second optical path comprises a reflector BI, a reflector BII, a reflector BIII, a reflector BIV and a reflector BIV which are sequentially arranged along the propagation direction of the optical path; the reflector BI is used for deflecting the laser beam B provided by the laser downwards by 90 degrees to enter the reflector BII, the reflector BII is used for deflecting the laser beam B by 90 degrees to the horizontal direction and enters the reflector BIII, the reflector BIII is used for deflecting the laser beam B by 90 degrees to the horizontal direction and enters the reflector BIV, the reflector BIV is used for deflecting the laser beam B by 90 degrees to the horizontal direction and enters the vibrating mirror B.

Preferably, the first displacement assembly comprises a first motor, a first guide rail, a first fixing assembly, a first platform and a first dust cover, wherein the first platform is used for installing the tray and each element, the first guide rail is provided with a plurality of groups, the first fixing assembly is used for fixing the first guide rail and the first motor, the first guide rail is used for guiding and supporting the first platform, the first motor is used for providing power for the movement of the first platform, the first dust cover is arranged on the first guide rail fixing assembly, and the first dust cover is used for protecting the first guide rail and the first motor.

Preferably, the second displacement assembly comprises a second motor, a second guide rail, a second fixing assembly, a second platform and a second dust cover, wherein the second platform is used for installing the first displacement assembly, the second guide rail is provided with a plurality of groups, the second fixing assembly is used for fixing the second guide rail and fixing the second motor, the second guide rail is used for guiding and supporting the second platform, the second motor is used for providing power for the movement of the second platform, the second dust cover is installed on the workbench, and the second dust cover is used for protecting the second guide rail and the second motor.

Preferably, the cutting device comprises a first cutter and a second cutter;

the first cutting machine comprises a first mounting plate, a third platform, a third guide rail, a third motor, a first screw rod, a vibrating mirror A, a first visual positioning device, a first light path focusing device and a first smoke purifying device, wherein the first mounting plate is arranged on a laser, the third motor is arranged on the first mounting plate, one end of the first screw rod is in transmission connection with the third motor, the other end of the first screw rod is arranged on the third platform, the third guide rail is arranged on the first mounting plate, the vibrating mirror A is arranged on the third platform, the first light path focusing device is arranged below the vibrating mirror A, the first smoke purifying device is arranged below the first light path focusing device, and the first visual positioning device is arranged on the first smoke purifying device.

Preferably, the second cutting machine comprises a second mounting plate, a fourth platform, a fourth guide rail, a fourth motor, a second screw rod, a vibrating mirror B, a second visual positioning device, a second light path focusing device and a second smoke purifying device, wherein the second mounting plate is arranged on the laser, the fourth motor is arranged on the second mounting plate, one end of the second screw rod is in transmission connection with the fourth motor, the other end of the second screw rod is arranged on the fourth platform, the fourth guide rail is arranged on the second mounting plate, the vibrating mirror B is arranged on the fourth platform, the second light path focusing device is arranged below the vibrating mirror B, the second smoke purifying device is arranged below the second light path focusing device, and the second visual positioning device is arranged on the second smoke purifying device.

Preferably, the tray is arranged on the first platform of the first displacement assembly, the tray is provided with a plurality of placing positions and suckers, the placing positions are provided with suckers, the placing positions are used for placing products, and the suckers are used for fixing the products.

Preferably, the workbench comprises a platform and a mounting frame, wherein the mounting frame is arranged on the platform and used for mounting the laser and the cutting device, and the platform is provided with a plurality of mounting holes and used for mounting the displacement device.

The utility model is provided with the displacement components which move in the X-axis direction and the Y-axis direction, the first displacement component drives the products on the material tray to move in the X-axis direction, and the second displacement component drives the products on the first displacement component to move in the Y-axis direction, so that the moving steps of the cutting device are reduced; the optical path system capable of simultaneously sending out a plurality of optical paths is arranged, the plurality of optical paths are guided to the plurality of groups of cutting assemblies, a plurality of products can be processed simultaneously, and the processing efficiency of the products is improved.

Drawings

Fig. 1 is a perspective view of a flexible circuit board cutting machine according to an embodiment of the present utility model;

fig. 2 is a schematic structural diagram of a cutting device in a flexible circuit board cutting machine according to an embodiment of the present utility model.

In the accompanying drawings: 1. a laser; 2. a reflector AII; 3. a reflector AI; 4. a reflector BI; 5. a second mirror BII; 6. a reflector AIII; 7. a reflector BIII; 8. a reflector BIV; 9. a mirror BV; 10. a reflector AIV; 11. a reflector a v; 12. a second motor; 13. a first motor; 14. a work table; 15. a material tray; 16. a first smoke purification device; 17. a first optical path focusing device; 18. a first visual positioning device; 19. vibrating mirror A; 20. a third motor; 21. a second visual positioning device; 22. a fourth motor; 23. vibrating mirror B; 24. a second optical path focusing device; 25. a second fume purification device.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Specific implementations of the utility model are described in detail below in connection with specific embodiments.

As shown in fig. 1, the structure diagram of a flexible circuit board cutting machine according to an embodiment of the present utility model is shown, where the flexible circuit board cutting machine includes a workbench 14, a tray 15, an optical path system, a cutting device and a displacement device;

the optical path system is arranged on the workbench 14 and is used for guiding the laser on the optical path system to the cutting device;

the cutting device is arranged on the workbench 14 and is provided with a plurality of groups of cutting assemblies, and the cutting device is used for cutting products;

the tray 15 is used for placing products, and the tray 15 is installed on a displacement device;

the displacement device is used for moving a product to a station, the displacement device is arranged on the workbench 14 and comprises a first displacement component and a second displacement component, the first displacement component is arranged above the first displacement component, the second displacement component is arranged on the workbench 14, the first displacement component drives the product on the charging tray 15 to move in the X-axis direction, and the second displacement component drives the product on the first displacement component to move in the Y-axis direction.

In the embodiment of the utility model, the flexible circuit board cutting machine consists of five parts, namely a workbench 14, a material tray 15, an optical path system, a cutting device and a displacement device, wherein before cutting, preferably, a product to be processed is flattened and placed on the material tray 15, and the displacement device drives the product to move on an X axis or a Y axis and moves to a processing station of the cutting device to wait for the next action; in cutting, preferably, the optical path system guides the laser to the cutting device according to the setting of the optical path, and the laser passes through the cutting device to reach the cutting position of the product and cuts the product; preferably, the movement track of the displacement device and the number of cuts by the cutting device may be determined according to the setting of the tray 15.

In the embodiment of the present utility model, the displacement device is composed of a first displacement component and a second displacement component, the displacement device can be mounted on the platform of the workbench 14, and preferably, the displacement device is located at the center of the platform on the workbench 14 when the whole structure of the flexible circuit board cutting machine is seen, the center of the first displacement component coincides with the center of the second displacement component, the first displacement component is mounted on the second displacement component, and the second displacement component is mounted on the platform. Preferably, the movement instructions of the displacement device are dependent on the requirements of the product processing.

In an embodiment of the present utility model, the cutting device may be mounted on the mounting frame of the table 14, preferably, the cutting device may be disposed directly above the displacement device as seen from the overall structure of the flexible circuit board cutting machine, and a plurality of sets of cutting devices may be simultaneously disposed to be mounted on the table 14, with the cutting range of the laser light on the cutting device being directly above the first displacement assembly.

In an embodiment of the present utility model, the light path system may be mounted on a mounting frame of the table 14.

In an embodiment of the utility model, the tray 15 may be mounted on the first displacement assembly.

As an alternative embodiment of the present utility model, the optical path system includes a laser 1 and an optical path;

the laser 1 is arranged on a workbench 14, and the laser 1 provides two parallel laser beams;

the light path is used for providing stable laser for the cutting device.

In the embodiment of the utility model, the optical path system consists of two parts, namely a laser 1 and an optical path, preferably, the laser 1 can be arranged into a rectangular box body, a laser emitter is arranged in the box body, two laser output ends can be arranged at one side of the box body, the laser emitted by the two output ends are parallel to each other, and the bottom surface of the laser 1 can be fixedly arranged on the upper surface of the mounting frame; preferably, the optical path may be provided with several groups, the origin of which is at the output of the laser 1, the laser being directed onto the cutting device by means of mirrors.

As an alternative embodiment of the present utility model, the optical path includes a first optical path and a second optical path;

the first optical path comprises a reflector AI3, a reflector AII 2, a reflector AIII 6, a reflector AIV 10 and a reflector AIV 11 which are sequentially arranged along the propagation direction of the optical path; the mirror AI3 is used for deflecting the laser beam A provided by the laser 1 upwards by 90 degrees to enter the mirror AII 2, the mirror AII 2 is used for deflecting the laser beam A by 90 degrees to the horizontal direction and entering the mirror AIII 6, the mirror AIII 6 is used for deflecting the laser beam A by 90 degrees to the horizontal direction and entering the mirror AIV 10, the mirror AIV 10 is used for deflecting the laser beam A downwards by 90 degrees and entering the mirror AIV 11, and the mirror AIV 11 is used for deflecting the laser beam A by 90 degrees to the horizontal direction and entering the vibrating mirror A19;

the second optical path comprises a reflector BI 4, a reflector BII 5, a reflector BIII 7, a reflector BIIV 8 and a reflector BIV 9 which are sequentially arranged along the propagation direction of the optical path; the mirror BI 4 is used for deflecting the laser beam B provided by the laser 1 downwards by 90 DEG into the mirror BII 5, the mirror BII 5 is used for deflecting the laser beam B by 90 DEG to the horizontal direction and into the mirror BIII 7, the mirror BIII 7 is used for deflecting the laser beam B by 90 DEG to the horizontal direction and into the mirror BIV 8, the mirror BIV 8 is used for deflecting the laser beam B by 90 DEG downwards and into the mirror BIV 9, and the mirror BIV 9 is used for deflecting the laser beam B by 90 DEG to the horizontal direction and into the vibrating mirror B23.

In the embodiment of the utility model, preferably, two groups of optical paths, namely a first optical path and a second optical path, are arranged, the first optical path and the second optical path are not interfered with each other, each optical path can be provided with a plurality of reflectors, the optical paths can be formed by combining a plurality of lasers with different lengths, and the lasers emitted by the laser 1 can be led into the cutting device through the serial connection of the lasers on the optical paths.

In the embodiment of the present utility model, preferably, the first optical path guides the laser beam a emitted by the laser 1 onto the vibrating mirror a19 on the cutting device through the arrangement of the reflective mirror ai 3, the reflective mirror aii 2, the reflective mirror aiii 6, the reflective mirror aiv 10 and the reflective mirror aiv 11, the laser beam a is at a horizontal plane with a certain height and still remains stable and parallel, the reflective mirror ai 3, the reflective mirror aii 2, the reflective mirror aiii 6, the reflective mirror aiv 10 and the reflective mirror aiv 11 can be all set to be fixed, and can be fixed through the bracket, and the fixed orientation setting can be consistent with the orientation of the laser output hole of the laser 1; preferably, the angles or orientations of the reflectors AII 3, AII 2, AIII 6, AIV 10 and AIV 11 with respect to the horizontal or vertical plane are adjustable to facilitate maintenance corrections to the path.

In the embodiment of the present utility model, the description of the second optical path may refer to the first optical path, which is not repeated in the embodiment of the present utility model.

As an alternative embodiment of the present utility model, the first displacement assembly includes a first motor 13, a first guide rail, a first fixing assembly, a first platform, and a first dust cover, the first platform is used for mounting the tray 15, the first guide rail is provided with a plurality of groups, the first fixing assembly is used for fixing the first guide rail and the first motor 13, the first guide rail is used for guiding and supporting the first platform, the first motor 13 is used for providing power for the movement of the first platform, and the first dust cover is arranged on the first guide rail fixing assembly, and the first dust cover is used for protecting the first guide rail and the first motor 13.

In the embodiment of the present utility model, the first displacement assembly mainly comprises five parts, which are respectively a first motor 13, a first guide rail, a first fixing assembly, a first platform and a first dust cover, preferably, the first motor 13 may be a linear motor, the first platform may be configured as a rectangular plate with a certain thickness, the first platform is located on the upper layer of the first displacement assembly, and the first platform bottom plate is installed on the first motor 13; the first guide rail can be an I-shaped guide rail and is provided with two groups; the first fixing component comprises a first U-shaped plate and a first guide rail mounting seat, the first U-shaped plate consists of two side fixing blocks and a middle plate, the two side fixing blocks are used for fixing a first guide rail, the middle plate is used for fixing a first motor 13, and the first guide rail mounting seat and the first guide rail can be in sliding connection; preferably, the first dust cover may be provided in a square shape, one end of the first dust cover being mounted on one side of the intermediate plate, and the other end of the first dust cover being mounted on the first platform.

As an alternative embodiment of the utility model, the second displacement assembly comprises a second motor 12, a second guide rail, a second fixing assembly, a second platform and a second dust cover, the second platform is used for mounting the first displacement assembly, the second guide rail is provided with a plurality of groups, the second fixing assembly is used for fixing the second guide rail and the second motor 12, the second guide rail is used for guiding and supporting the second platform, the second motor 12 is used for providing power for the movement of the second platform, and the second dust cover is mounted on the workbench 14 and is used for protecting the second guide rail and the second motor 12.

In the embodiment of the present utility model, the description of the second displacement assembly may refer to the first displacement assembly, which is not repeated in the embodiment of the present utility model.

As an alternative embodiment of the present utility model, the cutting device includes a first cutter and a second cutter;

the first cutting machine comprises a first mounting plate, a third platform, a third guide rail, a third motor 20, a first screw rod, a vibrating mirror A19, a first visual positioning device 18, a first light path focusing device 17 and a first smoke purifying device 16, wherein the first mounting plate is arranged on the laser 1, the third motor 20 is arranged on the first mounting plate, one end of the first screw rod is in transmission connection with the third motor 20, the other end of the first screw rod is arranged on the third platform, the third guide rail is arranged on the first mounting plate, the vibrating mirror A19 is arranged on the third platform, the first light path focusing device 17 is arranged below the vibrating mirror A19, the first smoke purifying device 16 is arranged on the first light path focusing device 17, and the first visual positioning device 18 is arranged on the first light path focusing device 17.

In the embodiment of the utility model, the cutting device can be provided with two groups of cutting machines, namely a first cutting machine and a second cutting machine, and preferably, the first cutting machine and the second cutting machine have the same structure, the installation positions are positioned on the same straight line, and the first cutting machine and the second cutting machine can be fixed on the mounting frame.

Preferably, the first mounting plate may be configured as a rectangular plate having a certain thickness, the third motor 20, the third guide rail, and the third screw are all fixed to the first mounting plate, the third platform may be fixed to the third guide rail, and the movement power of the third platform is provided by the third motor 20 and the third screw; preferably, the vibrating mirror a19 may be configured as a square structure and mounted on the third platform, the vibrating mirror a19 guides the laser to the first optical path focusing device 17, and after focusing the laser through the optical path, the laser converts light energy into heat energy, and the flexible circuit board is processed according to the required cutting position by using high energy generated by the laser; the first smoke purifying device 16 is arranged and fixed at the laser outlet of the first light path focusing device 17, and the high-energy laser melts the circuit board to generate smoke in the process of cutting the circuit board, so that the first smoke purifying device 16 is used for purifying gas generated in the processing process; the first vision positioning device 18 is mounted and fixed on the first optical path focusing device 17, and preferably, the first vision positioning device 18 is used for transmitting the physical image of the laser cutting circuit board into a system, calculating the offset position and angle through the system, and feeding back to the first optical path focusing device 17 and the displacement device.

As an alternative embodiment of the present utility model, the second cutting machine includes a second mounting plate, a fourth platform, a fourth guide rail, a fourth motor 22, a second screw rod, a vibrating mirror B23, a second visual positioning device 21, a second optical path focusing device 24, and a second smoke purifying device 25, where the second mounting plate is disposed on the laser 1, the fourth motor 22 is disposed on the second mounting plate, one end of the second screw rod is in driving connection with the fourth motor 22, the other end of the second screw rod is disposed on the fourth platform, the fourth guide rail is mounted on the second mounting plate, the vibrating mirror B23 is mounted on the fourth platform, the second optical path focusing device 24 is disposed below the vibrating mirror B23, the second smoke purifying device is disposed on the second optical path focusing device 24, and the second visual positioning device 21 is mounted on the second optical path focusing device 24.

In the embodiment of the present utility model, the description of the second cutting machine may refer to the first cutting machine, and the embodiment of the present utility model will not be repeated.

As an alternative embodiment of the present utility model, the tray 15 is disposed on the first platform of the first displacement assembly, and the tray 15 is provided with a plurality of placement positions and suction cups, and the placement positions are provided with suction cups, and the placement positions are used for placing products, and the suction cups are used for fixing the products.

In the embodiment of the utility model, the feeding disc 15 of the flexible circuit board cutting machine can be a rectangular disc with a certain thickness, preferably, a plurality of placing positions can be arranged on the disc, a gap with a certain width can be arranged between the placing positions, and the size of the placing positions can be determined according to the cutting size required by the flexible circuit board; preferably, be provided with the sucking disc in the central point of every position, the sucking disc is located the planar below of charging tray 15, and when the circuit board tiling of waiting to process on charging tray 15, the flexible circuit board on the position can be fixed to the sucking disc, prevents to wait to process the circuit board and appear the problem of shifting at the cutting in-process.

As an alternative embodiment of the utility model, the table 14 comprises a platform and a mounting frame, the mounting frame being arranged on the platform for mounting the laser 1 and the cutting device, the platform being provided with a number of mounting holes for mounting the displacement device.

In the embodiment of the present utility model, the upper table 14 of the flexible circuit board cutting machine is composed of a platform and a mounting frame, preferably, the platform and the mounting frame are both made of marble, the platform may be a rectangular plate having a certain thickness, the mounting frame may be composed of four support posts for supporting the plate, the support posts are mounted on the platform, the plate may be fixed on the four support posts, and the plate is used for mounting the laser 1 and the cutting device.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (9)

1. The flexible circuit board cutting machine is characterized by comprising a workbench, a material tray, an optical path system, a cutting device and a displacement device;

the optical path system is arranged on the workbench and is used for guiding laser on the optical path system to the cutting device;

the cutting device is arranged on the workbench and is provided with a plurality of groups of cutting assemblies, and the cutting device is used for cutting products;

the tray is used for placing products and is arranged on the displacement device;

the displacement device is used for moving a product to a station, the displacement device is arranged on a workbench and comprises a first displacement assembly and a second displacement assembly, the first displacement assembly is arranged above the first displacement assembly, the second displacement assembly is arranged on the workbench, the first displacement assembly drives the product on the material tray to move in the X-axis direction, and the second displacement assembly drives the product on the first displacement assembly to move in the Y-axis direction.

2. The flexible circuit board cutting machine of claim 1 wherein the optical path system comprises a laser and an optical path;

the laser is arranged on the workbench and provides two parallel laser beams;

the light path is used for providing stable laser for the cutting device.

3. The flexible circuit board cutter of claim 2, wherein the circuit comprises a first optical path and a second optical path;

the first optical path comprises a reflector AII, a reflector AIII, a reflector AIV and a reflector AIV which are sequentially arranged along the propagation direction of the optical path; the reflector AII is used for deflecting the laser beam A provided by the laser upwards by 90 degrees to enter the reflector AII, the reflector AII is used for deflecting the laser beam A by 90 degrees to the horizontal direction and entering the reflector AIV, the reflector AIV is used for deflecting the laser beam A downwards by 90 degrees and entering the reflector AIV, and the reflector AIV is used for deflecting the laser beam A by 90 degrees to the horizontal direction and entering the vibrating mirror A;

the second optical path comprises a reflector BI, a reflector BII, a reflector BIII, a reflector BIV and a reflector BIV which are sequentially arranged along the propagation direction of the optical path; the reflector BI is used for deflecting the laser beam B provided by the laser downwards by 90 degrees to enter the reflector BII, the reflector BII is used for deflecting the laser beam B by 90 degrees to the horizontal direction and enters the reflector BIII, the reflector BIII is used for deflecting the laser beam B by 90 degrees to the horizontal direction and enters the reflector BIV, the reflector BIV is used for deflecting the laser beam B by 90 degrees to the horizontal direction and enters the vibrating mirror B.

4. The flexible circuit board cutting machine of claim 1, wherein the first displacement assembly comprises a first motor, a first guide rail, a first fixing assembly, a first platform and a first dust cover, the first platform is used for mounting the tray and the elements, the first guide rail is provided with a plurality of groups, the first fixing assembly is used for fixing the first guide rail and the first motor, the first guide rail is used for guiding and supporting the first platform, the first motor is used for providing power for movement of the first platform, and the first dust cover is arranged on the first guide rail fixing assembly and is used for protecting the first guide rail and the first motor.

5. The flexible circuit board cutting machine of claim 1, wherein the second displacement assembly comprises a second motor, a second guide rail, a second fixing assembly, a second platform and a second dust cover, the second platform is used for installing the first displacement assembly, the second guide rail is provided with a plurality of groups, the second fixing assembly is used for fixing the second guide rail and the second motor, the second guide rail is used for guiding and supporting the second platform, the second motor is used for providing power for the movement of the second platform, and the second dust cover is installed on the workbench and is used for protecting the second guide rail and the second motor.

6. The flexible circuit board cutting machine of claim 1 wherein the cutting means comprises a first cutter and a second cutter;

the first cutting machine comprises a first mounting plate, a third platform, a third guide rail, a third motor, a first screw rod, a vibrating mirror A, a first visual positioning device, a first light path focusing device and a first smoke purifying device, wherein the first mounting plate is arranged on a laser, the third motor is arranged on the first mounting plate, one end of the first screw rod is in transmission connection with the third motor, the other end of the first screw rod is arranged on the third platform, the third guide rail is arranged on the first mounting plate, the vibrating mirror A is arranged on the third platform, the first light path focusing device is arranged below the vibrating mirror A, the first smoke purifying device is arranged below the first light path focusing device, and the first visual positioning device is arranged on the first smoke purifying device.

7. The flexible circuit board cutting machine according to claim 6, wherein the second cutting machine comprises a second mounting plate, a fourth platform, a fourth guide rail, a fourth motor, a second screw rod, a vibrating mirror B, a second visual positioning device, a second optical path focusing device and a second smoke purifying device, the second mounting plate is arranged on a laser, the fourth motor is arranged on the second mounting plate, one end of the second screw rod is in transmission connection with the fourth motor, the other end of the second screw rod is arranged on the fourth platform, the fourth guide rail is arranged on the second mounting plate, the vibrating mirror B is arranged on the fourth platform, the second optical path focusing device is arranged below the vibrating mirror B, the second smoke purifying device is arranged below the second optical path focusing device, and the second visual positioning device is arranged on the second smoke purifying device.

8. The flexible circuit board cutting machine according to claim 1, wherein the tray is arranged on the first platform of the first displacement assembly, the tray is provided with a plurality of placement positions and suction cups, the placement positions are provided with suction cups, the placement positions are used for placing products, and the suction cups are used for fixing the products.

9. The flexible circuit board cutting machine according to claim 1, wherein the workbench comprises a platform and a mounting frame, the mounting frame is arranged on the platform and used for mounting the laser and the cutting device, and the platform is provided with a plurality of mounting holes for mounting the displacement device.

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