CN114670271A - PCB copper-clad plate processing and cutting all-in-one machine - Google Patents

Abstract

The invention discloses a processing and cutting integrated machine for a PCB (printed circuit board) copper-clad plate, which comprises a base, two linear guide rails, two cutting and blanking mechanisms, two bidirectional telescopic devices, two cutting mechanisms, a lifting seat and a positioning mechanism. Each linear guide rail is fixedly arranged on the base; each cutting and blanking mechanism comprises a supporting frame and a processing blanking plate fixedly arranged on the upper part of the supporting frame. Two-way telescoping devices are disposed between the two support frames. The integrated machine for processing and cutting the PCB copper-clad plate realizes that processing personnel does not indirectly contact the cutting mechanism so as to avoid processing danger; by realizing direct cutting of the copper-clad plate and lower separation of the waste, the waste cut from the copper-clad plate can be prevented from occupying the processing area because the waste is left on a processing table, and the processing and production efficiency of the copper-clad plate is effectively improved; the use of different cutting widths of the copper-clad plate can be met by realizing the adjustment of the transverse distance between the two cutting mechanisms.

Description

PCB copper-clad plate processing and cutting all-in-one machine

Technical Field

The invention relates to the technical field of copper-clad plate cutting, in particular to a PCB (printed circuit board) copper-clad plate processing and cutting integrated machine.

Background

In electronic equipment, small electronic watches, calculators, large computers, general electronic equipment and military weapon systems, the interconnection between electronic components is all made by using PCBs. The copper clad laminate is a plate-shaped material which is prepared by impregnating a reinforcing material with resin, coating a copper foil on one surface or two surfaces of the reinforcing material and performing hot pressing, is called a copper clad laminate and is a basic material for manufacturing a PCB. The copper-clad plate needs to be cut by cutting equipment in the production and processing process.

The invention discloses a Chinese invention patent of a cutting and grinding integrated machine for PCB processing, which is mainly composed of a cutting wheel, a limiting and collecting device, an installation frame, a grinding disc, a rotary seat, a connecting rod, a motor, a fixed table, an extrusion plate, a supporting rod, a fixed block, a screwing nut and other structures, wherein the PCB to be processed can be extruded and fixed through the combined action of the extrusion plate, the fixed table and the screwing nut, then the cut PCB can be conveniently polished through the combined action of the cutting wheel and the grinding disc, and scraps generated in the cutting and polishing process can be cleaned by utilizing the collecting device, so that the cutting and polishing integration of the PCB can be realized when the PCB is processed, the processing efficiency of the PCB is greatly improved, and the cutting and grinding integrated machine for PCB processing has good practicability.

In the prior art, the cutting and grinding integrated machine for the copper-clad plate needs to manually operate cutting equipment in a short distance for cutting the copper-clad plate to be cut, and the safety of processing personnel cannot be guaranteed; in addition, the waste materials cut from the copper-clad plate occupy the processing area because of being kept on the processing table, and the process of continuous cutting of the copper-clad plate is delayed in the waste material cleaning process, so that the efficiency of processing and producing the copper-clad plate is reduced.

Disclosure of Invention

On the basis, the copper-clad plate to be cut needs to be manually cut by a cutting device in a short distance aiming at the cutting and grinding integrated machine which is currently used for the copper-clad plate, and the safety of processing personnel cannot be guaranteed; in addition, the waste materials cut from the copper-clad plate occupy the processing area because of being kept on the processing table, and the process of continuous cutting of the copper-clad plate is delayed in the waste material cleaning process, so that the efficiency problem of processing and production of the copper-clad plate is reduced, and the integrated machine for processing and cutting the PCB copper-clad plate is provided.

A PCB copper-clad plate processing and cutting integrated machine comprises a base;

the cutting all-in-one machine further comprises:

the two linear guide rails are fixedly arranged on the base;

the cutting and blanking mechanism comprises a support frame and a processing blanking plate fixedly arranged on the upper part of the support frame;

two bidirectional telescopic devices arranged between the two support frames; each bidirectional telescopic device is fixedly connected with the upper surface of the base;

the cutting mechanism is arranged on each processing blanking plate;

the lifting seat is fixedly arranged on the upper surface of the base; a linear driving mechanism is arranged on the lifting seat; and

and the positioning mechanism is arranged on the linear driving mechanism and used for clamping the copper-clad plate.

According to the processing and cutting integrated machine for the PCB copper-clad plate, processing personnel do not indirectly contact the cutting mechanism, and processing danger is avoided; by realizing the direct cutting of the copper-clad plate and the lower separation of the waste materials, the waste materials cut out from the copper-clad plate can be prevented from occupying the processing area because the waste materials are remained on a processing platform, and the processing and production efficiency of the copper-clad plate is effectively improved; the use of different cutting widths of the copper-clad plate can be met by realizing the adjustment of the transverse distance between the two cutting mechanisms.

In one embodiment, the lower surface of the supporting frame is provided with a sliding groove matched with the linear guide rail, and the processing blanking plate is connected with the linear guide rail in a sliding manner through the supporting frame.

In one embodiment, when the output shaft of the bidirectional telescopic device extends out, the two cutting and blanking mechanisms move away from each other on the basis of the linear guide rail; or when the output shaft of the bidirectional telescopic device contracts, the cutting and blanking mechanisms of the chain move close to each other on the basis of the linear guide rail.

In one embodiment, the inner angle of the processing blanking plate is 135 degrees.

In one embodiment, each cutting mechanism comprises a first rotary driving device fixedly arranged on the horizontal lower surface of each processing blanking plate and a cutting blade arranged at the output end of the first rotary driving device; the cutting blade extends to the upper surface of the bending position of the processing blanking plate.

In one embodiment, a through groove for extending the cutting blade is formed through the upper surface of the bent part of the processing blanking plate.

In one embodiment, the lifting seat is arranged in a T shape and is positioned between the two bidirectional telescopic devices; the linear driving mechanism comprises a limiting frame fixedly arranged on the upper surface of the lifting seat, a second rotary driving device fixedly arranged on one side of the limiting frame, a screw rod rotatably connected to the inner side of the limiting frame and a traction block rotatably connected to a thread path of the screw rod in a threaded manner; the second rotary driving device is coaxially connected with the screw rod.

In one embodiment, the screw rod is arranged along the length direction of the limiting frame, and the traction block movably slides in the limiting frame.

In one embodiment, the positioning mechanism comprises an assembling and processing frame fixedly arranged on the upper surface of the traction block, a lifting device fixedly arranged on the upper surface of the assembling and processing frame, a pressing plate arranged at the output end of the lifting device, a first anti-skid pad fixedly arranged on the lower surface of the pressing plate and a second anti-skid pad fixedly arranged on the lower surface of the inner side of the limiting frame; the assembly processing frame is in an Contraband-shaped structure, and the pressure plate is arranged in the assembly processing frame.

In one embodiment, the first non-slip mat and the second non-slip mat are located on the same vertical surface, and the anti-slip protrusions are arranged on the opposite surfaces of the first non-slip mat and the second non-slip mat.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, under the condition that the positioning mechanism provides stable position to be cut of the copper-clad plate, the linear driving mechanism drives the copper-clad plate on the positioning mechanism to be in transmission type contact cutting with the cutting mechanism, so that processing personnel can avoid indirect contact with the cutting mechanism to avoid processing danger; meanwhile, the positioning mechanism indirectly improves the cutting efficiency of the copper-clad plate under the condition that the positioning efficiency of the copper-clad plate is improved through automatic clamping.

2. According to the invention, the cutting blanking mechanism is matched with the cutting mechanism, the cutting mechanism realizes high efficiency of double-sided cutting of the copper-clad plate, the oblique side of the blanking plate is processed to provide the lower sliding surface for the waste, the copper-clad plate can be directly cut, the lower position of the waste is separated, and the influence of waste stacking and cutting areas on cutting stability and continuous processing efficiency is avoided.

3. According to the invention, the two cutting and blanking mechanisms can be moved by the bidirectional telescopic device and can be smoothly supported and guided by the linear guide rail, so that the two cutting and blanking mechanisms can be in a state of being far away from or close to each other, the distance between the two cutting mechanisms can be adjusted, the copper-clad plate can be used in different cutting widths, and the copper-clad plate cutting device is high in flexibility and wide in application range.

In conclusion, the processing and cutting integrated machine for the PCB copper-clad plate realizes that processing personnel does not indirectly contact the cutting mechanism, thereby avoiding the generation of processing danger; by realizing direct cutting of the copper-clad plate and lower separation of the waste, the waste cut from the copper-clad plate can be prevented from occupying the processing area because the waste is left on a processing table, and the processing and production efficiency of the copper-clad plate is effectively improved; the use of different cutting widths of the copper-clad plate can be met by realizing the adjustment of the transverse distance between the two cutting mechanisms.

Drawings

FIG. 1 is a schematic structural diagram of an integrated machine for processing and cutting a PCB (printed circuit board) copper-clad plate of the invention.

Fig. 2 is a schematic structural view of the cutting and blanking mechanism in fig. 1.

Fig. 3 is a schematic structural view of the base in fig. 1.

Fig. 4 is a plan perspective view of the linear drive mechanism of fig. 3.

Fig. 5 is a schematic structural diagram of the positioning mechanism in fig. 3.

Description of the main elements

In the figure: 1. a base; 2. a linear guide rail; 3. cutting and blanking mechanism; 31. a support frame; 32. processing a blanking plate; 4. a bidirectional telescopic device; 5. a cutting mechanism; 51. a first rotary drive device; 52. a cutting blade; 6. lifting the seat; 7. a linear drive mechanism; 71. a limiting frame; 72. a second rotary drive device; 73. a screw rod; 74. a traction block; 8. a positioning mechanism; 81. assembling a processing frame; 82. a lifting device; 83. pressing a plate; 84. a first non-slip mat; 85. and a second non-slip mat.

The present invention is described in further detail with reference to the drawings and the detailed description.

Detailed Description

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

Referring to fig. 1-5, the embodiment provides an integrated machine for processing and cutting a PCB copper-clad plate, which comprises a base 1;

the PCB copper-clad plate processing and cutting integrated machine further comprises two linear guide rails 2, two cutting and blanking mechanisms 3, two bidirectional telescopic devices 4, two cutting mechanisms 5, a lifting seat 6, a linear driving mechanism 7 and a positioning mechanism 8.

Wherein, every linear guide 2 all is fixed mounting on base 1.

Wherein, the two cutting and blanking mechanisms 3 are movably connected between the two linear guide rails 2; each cutting and blanking mechanism 3 comprises a supporting frame 31 and a processing blanking plate 32 fixedly arranged on the upper part of the supporting frame 31;

the lower surface of the supporting frame 31 is provided with a chute matched with the linear guide rail 2, and the processing blanking plate 32 is connected with the linear guide rail 2 in a sliding manner through the supporting frame 31;

the interior angle of the machined blanking plate 32 is set at 135 degrees. The 135 degree angle makes the processing blanking plate 32 have a down-sliding surface, so that the copper-clad plate cutting waste can slide down.

Wherein, the two bidirectional stretching devices 4 are arranged between the two supporting frames 31; each bidirectional telescopic device 4 is fixedly connected with the upper surface of the base 1; the bidirectional expansion device 4 in this embodiment employs a bidirectional cylinder.

When the output shaft of the bidirectional telescopic device 4 extends out, the two cutting and blanking mechanisms 3 move away from each other on the basis of the linear guide rail 2;

or when the output shaft of the bidirectional telescopic device 4 contracts, the cutting and blanking mechanisms 3 of the chain move close to each other on the basis of the linear guide rail 2.

Referring to fig. 2, each cutting mechanism 5 is disposed on each processing blanking plate 32; each cutting mechanism 5 comprises a first rotary driving device 51 fixedly arranged on the horizontal lower surface of each processing blanking plate 32 and a cutting blade 52 arranged at the output end of the first rotary driving device 51; the cutting blade 52 extends to the upper surface of the bent part of the lower material plate 32; the first rotation driving device 51 in the present embodiment employs a rotating electric machine.

A through groove for extending the cutting blade 52 is formed in the upper surface of the bent part of the blanking plate 32 in a penetrating manner; the through slots can provide access for the cutting blades 52 to extend to the upper surface of the processing blanking plate 32 to facilitate contact of the copper clad plates.

Specifically, drive two cutting unloading mechanisms 3 through two-way telescoping device 4 and realize keeping away from each other or the state that is close to each other, so realized the regulation of two 5 transverse spacing of cutting mechanism to satisfy the use of the different cutting width of copper-clad plate.

It is worth explaining that the side of the processing blanking plate 32 obliquely arranged provides a sliding surface for the waste, when the copper-clad plate is processed and cut, the cutting waste can directly fall to an area far away from the processing through the sliding surface, and the influence of the waste stacking cutting area on the cutting stability and the continuous processing efficiency is avoided. In this embodiment, a collection box may be added at a position corresponding to the lower sliding surface of the processing blanking plate 32 to collect the waste materials.

Wherein, the lifting seat 6 is fixedly arranged on the upper surface of the base 1; the lifting seat 6 is arranged in a T shape, and the lifting seat 6 is positioned between the two bidirectional telescopic devices 4.

Referring to fig. 4, the linear driving mechanism 7 is disposed on the elevation base 6; the linear driving mechanism 7 comprises a limit frame 71 fixedly arranged on the upper surface of the lifting seat 6, a second rotary driving device 72 fixedly arranged on one side of the limit frame 71, a screw rod 73 rotatably connected to the inner side of the limit frame 71 and a traction block 74 rotatably connected to the thread path of the screw rod 73 in a threaded manner; the second rotary driving device 72 is coaxially connected with the screw rod 73; the screw rod 73 is arranged along the length direction of the limiting frame 71, and the traction block 74 movably slides in the limiting frame 71. The second rotary drive device 72 in the present embodiment also employs a rotary electric machine.

Referring to fig. 5, the positioning mechanism 8 includes an assembling and processing frame 81 fixedly mounted on the upper surface of the traction block 74, a lifting device 82 fixedly mounted on the upper surface of the assembling and processing frame 81, a pressing plate 83 mounted on the output end of the lifting device 82, a first anti-skid pad 84 fixedly mounted on the lower surface of the pressing plate 83, and a second anti-skid pad 85 fixedly mounted on the lower surface of the inner side of the limiting frame 71; the lifting device 82 in this embodiment employs a lifting motor.

The assembling and processing frame 81 is in an Contraband-shaped structure, and the pressure plate 83 is arranged in the assembling and processing frame 81; the first non-slip mat 84 and the second non-slip mat 85 are located on the same vertical surface, and the opposite surfaces of the first non-slip mat 84 and the second non-slip mat 85 are provided with non-slip protrusions. The anti-skid bumps can increase the friction contact area of the copper-clad plate and provide positioning stability.

Specifically, before cutting the copper-clad plate, the copper-clad plate can be placed in the middle on the second anti-slip pad 85 in the assembly processing frame 81, the first anti-slip pad 84 under the pressing plate 83 is driven by the lifting device 82 to clamp the copper-clad plate between the first anti-slip pad 84 and the second anti-slip pad 85, so that the stability of the cutting position of the copper-clad plate can be stabilized, then the traction block 74 on the screw rod 73 is driven to rotate by the axial direction of the second rotary driving device 72, under the limitation of the position of the traction block 74 by the limiting frame 71, the traction block 74 can be converted into reciprocating linear motion from reciprocating rotary motion to drive the positioning mechanism 8 to move along the length direction of the processing blanking plate 32, when the copper-clad plate is in contact with the cutting blade 52, the automatic cutting processing of the copper-clad plate can be realized, and the danger of increasing the processing due to the fact that personnel approach the area of the cutting blade 52 is avoided. It should be noted that the copper-clad plate assembly processing frame 81 in this embodiment may be centered by laser positioning or other calibration tools.

In conclusion, the processing and cutting all-in-one machine for the PCB copper-clad plate of the embodiment has the following advantages compared with the existing cutting all-in-one machine: according to the PCB copper-clad plate processing and cutting integrated machine, processing personnel do not indirectly contact the cutting mechanism 5, and therefore processing danger is avoided; by realizing direct cutting of the copper-clad plate and lower separation of the waste, the waste cut from the copper-clad plate can be prevented from occupying the processing area because the waste is left on a processing table, and the processing and production efficiency of the copper-clad plate is effectively improved; the use of different cutting widths of the copper-clad plate can be met by realizing the adjustment of the transverse distance between the two cutting mechanisms 5.

The foregoing is illustrative of the preferred embodiments of this invention, and it is to be understood that the invention is not limited to the precise form disclosed herein and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the concept as disclosed herein, either as described above or as apparent to those skilled in the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A PCB copper-clad plate processing and cutting integrated machine comprises a base (1);

its characterized in that, the cutting all-in-one still includes:

the two linear guide rails (2), each linear guide rail (2) is fixedly arranged on the base (1);

the cutting and blanking mechanism comprises two cutting and blanking mechanisms (3) movably connected between two linear guide rails (2), wherein each cutting and blanking mechanism (3) comprises a supporting frame (31) and a processing blanking plate (32) fixedly installed at the upper part of the supporting frame (31);

two bidirectional telescopic devices (4) arranged between the two support frames (31); each bidirectional telescopic device (4) is fixedly connected with the upper surface of the base (1);

the cutting mechanism (5) is arranged on each processing blanking plate (32);

the lifting seat (6), the lifting seat (6) is fixedly arranged on the upper surface of the base (1); a linear driving mechanism (7) is arranged on the lifting seat (6); and

and the positioning mechanism (8) is arranged on the linear driving mechanism (7) and is used for clamping the copper-clad plate.

2. The PCB copper-clad plate machining and cutting integrated machine according to claim 1, wherein a sliding groove matched with the linear guide rail (2) is formed in the lower surface of the supporting frame (31), and the machining blanking plate (32) is connected with the linear guide rail (2) in a sliding mode through the supporting frame (31).

3. The integrated machine for processing and cutting the PCB (printed circuit board) copper-clad plate according to claim 2, wherein when the output shaft of the bidirectional telescopic device (4) extends out, the two cutting and blanking mechanisms (3) move away from each other based on the linear guide rail (2);

or when the output shaft of the bidirectional telescopic device (4) contracts, the cutting and blanking mechanisms (3) of the chain move close to each other on the basis of the linear guide rail (2).

4. The PCB copper-clad plate processing and cutting integrated machine according to claim 1, wherein the inner angle of the processed blanking plate (32) is 135 degrees.

5. The PCB copper-clad plate machining and cutting integrated machine according to claim 1, wherein each cutting mechanism (5) comprises a first rotary driving device (51) fixedly installed on the horizontal lower surface of each machining blanking plate (32) and a cutting blade (52) installed at the output end of the first rotary driving device (51); the cutting blade (52) extends to the upper surface of the bending part of the processing blanking plate (32).

6. The PCB copper-clad plate machining and cutting integrated machine according to claim 5, wherein a through groove for extending the cutting blade (52) is formed in the upper surface of the bent part of the machining blanking plate (32) in a penetrating manner.

7. The integrated machine for processing and cutting the PCB (printed circuit board) copper-clad plate according to claim 1, wherein the lifting seat (6) is arranged in a T shape, and the lifting seat (6) is positioned between the two bidirectional telescopic devices (4);

the linear driving mechanism (7) comprises a limiting frame (71) fixedly arranged on the upper surface of the lifting seat (6), a second rotary driving device (72) fixedly arranged on one side of the limiting frame (71), a screw rod (73) rotatably connected to the inner side of the limiting frame (71) and a traction block (74) rotatably connected to a thread path of the screw rod (73); the second rotary drive device (72) is coaxially connected with the screw rod (73).

8. The PCB copper-clad plate processing and cutting integrated machine according to claim 7, wherein the screw rod (73) is arranged along the length direction of the limiting frame (71), and the traction block (74) movably slides in the limiting frame (71).

9. The integrated machine for processing and cutting the PCB (printed circuit board) copper-clad plate according to claim 7, wherein the positioning mechanism (8) comprises an assembling and processing frame (81) fixedly arranged on the upper surface of the traction block (74), a lifting device (82) fixedly arranged on the upper surface of the assembling and processing frame (81), a pressing plate (83) arranged at the output end of the lifting device (82), a first anti-skid pad (84) fixedly arranged on the lower surface of the pressing plate (83) and a second anti-skid pad (85) fixedly arranged on the lower surface of the inner side of the limiting frame (71);

the assembling and processing frame (81) is in an Contraband-shaped structure, and the pressing plate (83) is arranged in the assembling and processing frame (81).

10. The PCB copper-clad plate processing and cutting integrated machine according to claim 9, wherein the first anti-slip pad (84) and the second anti-slip pad (85) are positioned on the same vertical surface, and anti-slip protrusions are arranged on the opposite surfaces of the first anti-slip pad (84) and the second anti-slip pad (85).

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