CN218873222U - Novel inner core plate scrapping device - Google Patents

Abstract

The utility model discloses a novel inner core plate scrapping device, which relates to the technical field of circuit board scrapping, and comprises a mounting plate, an upper template, a punching die component, a punching die guide component, a lower die guide component, a position adjusting component and a limiting component; the die assembly comprises a die driving device and a punch; the lower die assembly comprises a lower die driving device, a mounting seat, a base plate and a lower die plate; the lower die driving device drives the mounting seat, the base plate and the lower die plate to synchronously lift; the punch driving device drives the punch to descend and sequentially pass through the upper template and the lower template; the position adjusting component comprises an adjusting screw rod and an adjusting block; adopt this application to provide a novel inner core board to beat and scrap device makes can see out the scrapped product of inner core board from the outward appearance, can see out the scrapped PCS product quantity of this board and reduced the cost of destructive experiment from the outward appearance.

Description

Novel inner core plate beating and scrapping device

Technical Field

The utility model relates to a circuit board is beaten and is scrapped the field technique, especially indicates a novel inlayer core is beaten and is scrapped device.

Background

Printed circuit boards are classified according to the number of layers, and are generally classified into single-sided boards, double-sided boards, and multilayer boards; wherein the multiply wood is formed by the lamination of inlayer core through pressfitting, but the inlayer core often can appear PCS and scrap the phenomenon in inlayer figure transfer manufacturing process, and such PCS scraps the product and scrap and can directly increase manufacturing cost if direct whole board is scrapped, and such PCS scraps the product and flows to the back process if directly beating PCS and scrap the back procedure, from having following problem: firstly, the PCS waste products cannot be distinguished from qualified products and PCS waste products through lamination; secondly, each procedure cannot accurately count the scrapped data of the inner core plate; thirdly, in the production process of the product, when destructive experiments are carried out, qualified products are very easy to use for experiments, so that the experiment cost is increased, PCS scrapped products cannot be accurately used, and the experiment cost is reduced; at present, the inner-layer core board is generally scrapped in the PCB industry by adopting two modes, wherein the two modes are respectively as follows: firstly, manually blacking the scrapped PCS by using a black oily pen, and selecting the scrapped PCS product after the outer layer is etched; secondly, manually using an electric drill to drill and break the graphic lines on the scrapped PCS of the inner core plate for distinguishing, and selecting the graphic lines in an electrical logging process; in order to solve the problems, a novel inner core plate scrapping device is urgently needed to be developed so as to meet the requirement of actual use.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a novel inner core plate scrapping device, so as to see the scrapped products of the inner core plate from the appearance, the scrapped PCS products of the plate from the appearance and reduce the cost of destructive experiments; realized beating the punching press of inlayer core and scrapped to carry out the die direction at drift descending formula, carry out the lower mould direction when the lower bolster rises, adjust the position of lower bolster and injectd the lower bolster rising position, precision when having improved the punching press.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a novel inner core plate scrapping device comprises a mounting plate, an upper template, a punching die assembly for punching a scrapped product out of a model, a punching die guide assembly for guiding the punching die assembly, a lower die guide assembly for guiding the lower die assembly, a position adjusting assembly and a limiting assembly, wherein the upper template is arranged on the lower surface of the mounting plate; the die assembly comprises a die driving device and a punch, wherein the punch is arranged at the output end of the die driving device; the lower die assembly comprises a lower die driving device, a mounting seat, a base plate and a lower template, wherein the base plate is arranged on the upper surface of the mounting seat, the lower template is arranged on the upper surface of the base plate, the output end of the lower die driving device is connected with the lower surface of the mounting seat, and the lower die driving device drives the mounting seat, the base plate and the lower template to synchronously lift; the punch driving device drives the punch to descend and sequentially pass through the upper template and the lower template; the position adjusting assembly comprises an adjusting screw and an adjusting block, the adjusting block is slidably positioned on the upper surface of the base plate, the adjusting screw is matched with the adjusting block, the adjusting block is connected with the lower template, and the position of the lower template on the base plate is adjusted through the adjusting screw; this spacing subassembly includes butt post and lower butt post, and this last butt post sets up in the lower surface of mounting panel, and this lower butt post sets up in the upper surface of mount pad, but this lower butt post rising formula and last butt post looks butt.

As a preferred embodiment: the punch is detachably arranged at the output end of the die driving device, and a digital upper model is arranged at the lower end of the punch; the lower template is detachably arranged on the substrate, the lower template is movably positioned on the upper surface of the substrate, and a plurality of digital lower models are arranged on the lower template; the lower template can movably correspond the digital lower model with the digital upper model.

As a preferred embodiment: the base plate is provided with a longitudinal guide rail, the lower surfaces of the adjusting block and the lower template are respectively provided with a groove matched with the longitudinal guide rail, and the plurality of digital lower models are longitudinally arranged on the lower template; the position of the digital lower model is adjusted by the adjusting screw rod.

As a preferred scheme: the die guide assembly comprises a first guide pillar and a first guide sleeve, and the first guide pillar is positioned in the first guide sleeve in a lifting manner; the first guide pillar is arranged on the upper template in a lifting manner, the first guide sleeve is fixedly arranged on the base plate, and the first guide pillar is positioned beside the punch; the first guide post is connected with the output end of the die driving device, and the die driving device drives the first guide post to descend and be positioned in the first guide sleeve.

As a preferred embodiment: the lower die guide assembly comprises a second guide pillar and a second guide sleeve, and the second guide pillar is positioned in the second guide sleeve in a lifting manner; the second guide pillar is fixedly arranged on the mounting seat, the second guide sleeve is fixedly arranged on the mounting plate, and the lower die driving device drives the second guide pillar to ascend and be positioned in the second guide sleeve.

As a preferred embodiment: the upper surface of the mounting plate is provided with a connecting block, and the connecting block is provided with a connecting hole; the connecting block is provided with a yielding opening for yielding the die driving device.

As a preferred embodiment: the punch die driving device comprises a punch die driving cylinder, and the punch is mounted at the shaft end of the punch die driving cylinder; the lower die driving device comprises a lower die driving cylinder, and the shaft end of the lower die driving cylinder is connected with the lower surface of the mounting seat.

Compared with the prior art, the novel inner core plate scrapping device has obvious advantages and beneficial effects, and particularly, according to the technical scheme, the scrapped products of the inner core plate can be seen from the appearance, the scrapped PCS product quantity of the plate can be seen from the appearance, and the cost of destructive experiments is reduced; the punching and scrapping of the inner core plate are realized by adopting the upper template, the lower die assembly, the stamping die guide assembly, the lower die guide assembly, the position adjusting assembly and the limiting assembly, the stamping die is guided in a descending mode of the punch, the lower die is guided when the lower template ascends, the position of the lower template is adjusted, the ascending position of the lower template is limited, and the precision in punching is improved; the position of the lower template is adjusted by adopting the position adjusting assembly, and the position of the lower template corresponds to the position of the upper template, so that the stamping accuracy is improved, and the defective rate is reduced; the abdicating opening is adopted to abdicate the stamping die driving device, so that position interference is avoided, and the whole structure is compact.

To illustrate the structural features and functions of the present invention more clearly, the following detailed description is given with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic view of a first-view perspective three-dimensional structure of a novel inner core plate scrapping device of the present invention;

fig. 2 is a schematic view of a second perspective three-dimensional structure of a novel inner core plate scrapping device of the present invention;

fig. 3 is a schematic view of a third perspective three-dimensional structure of a novel inner core plate scrapping device of the present invention;

fig. 4 is a schematic view of a fourth perspective three-dimensional structure of the novel inner core plate scrapping device of the present invention.

The attached drawings indicate the following:

in the figure: 10. mounting a plate; 11. connecting blocks; 12. connecting holes; 13. a abdication opening is formed; 20. mounting a template; 30. a die assembly; 31. a punch; 40. a die guide assembly; 41. a first guide post; 42. a first guide sleeve; 50. a lower die assembly; 51. a mounting seat; 52. a substrate; 53. a longitudinal guide rail; 54. a lower template; 60. a lower die guide assembly; 61. a second guide post; 62. a second guide sleeve; 70. a position adjustment assembly; 71. adjusting the screw rod; 72. a regulating block; 73. a groove; 80. a limiting component; 81. an upper abutment post; 82. a lower abutment post.

Detailed Description

As shown in fig. 1 to 4, the utility model relates to a novel inner core plate scrapping device, which comprises a mounting plate 10, an upper die plate 20, a die assembly 30 for punching out a model of scrapped products, a die guide assembly 40 for guiding the die assembly 30, a lower die assembly 50, a lower die guide assembly 60 for guiding the lower die assembly 50, a position adjusting assembly 70 and a limiting assembly 80, wherein;

the upper mold plate 20 is disposed on the lower surface of the mounting plate 10; the die assembly 30 includes a die driver and a punch 31, the punch 31 being mounted to an output of the die driver; the lower die assembly 50 comprises a lower die driving device, a mounting seat 51, a base plate 52 and a lower template 54, wherein the base plate 52 is arranged on the upper surface of the mounting seat 51, the lower template 54 is arranged on the upper surface of the base plate 52, the output end of the lower die driving device is connected with the lower surface of the mounting seat 51, and the lower die driving device drives the mounting seat 51, the base plate 52 and the lower template 54 to synchronously lift; the die driving means drives the punch 31 to pass through the upper die plate 20 and the lower die plate 54 in a descending manner.

The upper die plate 20, the lower die assembly 50, the die assembly 30, the die guide assembly 40, the lower die guide assembly 60, the position adjusting assembly 70 and the limiting assembly 80 are adopted to realize the punching and scrapping of the inner core plate, the punch 31 is descended to perform die guide, the lower die is guided when the lower die plate 54 ascends, the position of the lower die plate 54 is adjusted, and the ascending position of the lower die plate 54 is limited, so that the precision in punching is improved, and the defective rate is reduced.

The technical scheme adopted by the prior art aiming at the problems that the inner core plate can not distinguish and report the question of waste products and qualified products, can not accurately count the scrapped data of the inner core plate and can not accurately reduce the experimental cost is as follows: when the PCS of the inner layer is scrapped and the quality is scrapped during printing, a black oil pen is coated on the scrapped PCS, so that the outer layer is selected after being etched; the other method is that an electric drill is adopted to cut off the circuit of the scrapped PCS; the two scrapping methods for the inner-layer core plate can not identify the waste products and the qualified products in all the working procedures from the pressing to the etching of the outer layer.

The lower die driving device drives the mounting seat 51, the base plate 52 and the lower template 54 to ascend synchronously, the inner core plate is placed on the lower template 54, and the lower template 54 ascends to ascend the inner core plate to the lower surface of the upper template 20; the die driving device drives the punch 31 to descend to punch the inner core plate out of the mold.

The position adjusting assembly 70 includes an adjusting screw 71 and an adjusting block 72, the adjusting block 72 is slidably located on the upper surface of the base plate 52, the adjusting screw 71 is matched with the adjusting block 72, the adjusting block 72 is connected with the lower template 54, and the position of the lower template 54 on the base plate 52 is adjusted through the adjusting screw 71.

The adjusting screw adjusts the adjusting block 72 and the lower template 54, so that the position of the lower template 54 moves to enable the lower template 54 to correspond to the position of the upper template 20, and when the position moves in place, the lower template 54 is fixed by bolts to prevent the position from moving in the stamping process; the position of the lower template 54 is adjusted by adopting the position adjusting assembly 70, the position of the lower template 54 corresponds to the position of the upper template 20, the stamping precision is improved, and the defective rate is reduced.

This spacing subassembly 80 includes upper butt post 81 and lower butt post 82, and this upper butt post 81 sets up in the lower surface of mounting panel 10, and this lower butt post 82 sets up in the upper surface of mount pad 51, but this lower butt post 82 rising formula and upper butt post 81 looks butt.

The lower die driving device drives the mounting seat 51, the base plate 52 and the lower die plate 54 to ascend synchronously, the lower abutting column 82 ascends along with the ascending of the mounting seat 51, and the ascending is stopped when the lower abutting column 82 abuts against the upper abutting column 81, which indicates that the lower abutting column is ascended to the right position; the limit of the rising position of the lower template 54 is realized by adopting the limiting assembly 80, and the stamping precision is improved.

The punch 31 is detachably arranged at the output end of the die driving device, and the lower end of the punch 31 is provided with a digital upper model; the lower template 54 is detachably mounted on the substrate 52, the lower template 54 is movably positioned on the upper surface of the substrate 52, and a plurality of digital lower models are arranged on the lower template 54; the lower platen 54 is movable to correspond the digital lower model to the digital upper model.

The application provides a novel inner core plate scrapping device which is designed with an upper template 20, a lower die assembly 50 and a die assembly 30, wherein a digital upper model is arranged at the lower end of a punch 31, the digital upper model is a font of 0, 1, 2, 3, 4, 5, 6, 7, 8 and 9, the font of the digital upper model is solid, the height of the font appearance is 10MM, the width of the font appearance is 8MM, and the width and the shape trace of the font are 2MM; in addition, the digital lower model is a hollow font of 0, 1, 2, 3, 4, 5, 6, 7, 8 and 9, and the width of the font of the hollow font is 3MM; when scrapping is carried out, a corresponding number is punched out of scrapped products in a punch press mode, wherein the size of the number represents the scrapped PCS number of the whole plate.

According to the method, the product is scrapped by punching through a punch, the digital upper model is designed to be 2MM in width, the scrapping mode of the inner core plate is subjected to lamination, the scrapping position is not filled with the laminated PP glue, and the scrapped product and the qualified product can be scrapped respectively in appearance after lamination; thereby avoiding the problem that the common operation method can not identify the waste products and the qualified products after lamination.

The product is scrapped by punching a punch, the corresponding digital upper model and the digital lower model are confirmed according to the scrapped PCS number of the product, and the scrapped position and the scrapped PCS number of the plate can be seen from the appearance after lamination, so that the scrapped number is convenient to count, and the problem that the scrapped number cannot be counted because a common operation method cannot identify the scrapped products and the qualified products after lamination is solved.

The product is scrapped by punching a punch, the digital upper model is designed to be 2MM wide, the scrapping mode of the inner core plate is laminated, the laminated PP glue does not fill the scrapping position, and the scrapped product and the qualified product can be scrapped respectively in appearance after lamination; therefore, when a destructive experiment is carried out in the process, a scrapped area experiment is used, and the experiment cost is reduced.

Thereby the following beneficial effects are obtained: firstly, after lamination, a scrapped product can be seen from the appearance; secondly, the number of the scrapped PCS products of the plate can be seen from the appearance after the plate is pressed; thirdly, counting the scrapped quantity, and adopting scrapped products to perform experiments when performing destructive experiments in the production process, so that the experiment cost is reduced.

The base plate 52 is provided with a longitudinal guide rail 53, the lower surfaces of the adjusting block 72 and the lower template 54 are both provided with grooves 73 matched with the longitudinal guide rail 53, and the plurality of digital lower models are longitudinally arranged on the lower template 54; the position of the digital lower model is adjusted by the adjusting screw 71.

The punch 31 with the corresponding numerical upper model is selected according to the requirement, and the punch 31 is detachably arranged, so that the operation is simpler; the adjusting screw 71 is rotated, so that the position of the lower template 54 moves, and the digital lower model on the lower template 54 corresponds to the digital upper model; after the position adjustment is completed, the lower die plate 54 is fixed by bolts, and the punching operation is performed.

The die guiding assembly 40 comprises a first guide pillar 41 and a first guide sleeve 42, wherein the first guide pillar 41 is arranged in the first guide sleeve 42 in a liftable manner; the first guide post 41 is arranged on the upper die plate 20 in a lifting manner, the first guide sleeve 42 is tightly arranged on the base plate 52, and the first guide post 41 is positioned beside the punch 31; the first guide post 41 is connected to the output of a die drive which drives the first guide post 41 down in the first guide sleeve 42.

The lower die guide assembly 60 comprises a second guide post 61 and a second guide sleeve 62, and the second guide post 61 is located in the second guide sleeve 62 in a lifting manner; the second guide post 61 is tightly fixed on the mounting base 51, the second guide sleeve 62 is tightly fixed on the mounting plate 10, and the lower die driving device drives the second guide post 61 to be located in the second guide sleeve 62 in an ascending manner.

Confirming the number of scrapped inner core plates needing to be scrapped by punching PCS (process control system), and conveniently confirming punches 31 with corresponding digital upper models used in scrapping; after confirming the number of the whole plates which need to be punched with PCS to be scrapped, arranging a punch 31 with a corresponding digital upper model at the output end of the die driving device; placing the PCS of which the plate needs to be scrapped on the corresponding position of the lower template 54, and ensuring that the PCS cannot be inclined to the side to avoid other scrappings; the inner core plate is placed on the upper surface of the lower template 54; the mounting plate 10, the base plate 52, the lower template 54 and the second guide posts 61 ascend relative to the second guide sleeves 62 to attach the lower template 54 to the lower surface of the upper template 20, and the inner core plate is fastened between the upper template 20 and the lower template 54; the punch 31 and the first guide post 41 are driven by the punch driving device to descend relative to the first guide sleeve 42, and the punch 31 penetrates through the upper template 20 and the lower template 54 from top to bottom to punch the inner core plate out of the model; the mounting plate 10, the base plate 52 and the lower die plate 54 are lowered and reset, and the punch 31 is raised and reset; finishing the scrapping operation of the inner core plate; circularly operating the steps to scrap a plurality of inner-layer core plates; and after the inner core plate is scrapped, conveying the inner core plate to press for lamination.

The upper surface of the mounting plate 10 is provided with a connecting block 11, and the connecting block 11 is provided with a connecting hole 12; the connecting block 11 is provided with a yielding opening 13 for yielding the die driving device; the mounting plate 10 can be fixed by arranging the connecting block 11 and can be fixed on a workbench; the abdicating opening 13 is adopted for abdicating the punching die driving device, so that the position interference is avoided, and the whole structure is compact.

The die driving device comprises a die driving cylinder, wherein the punch 31 is arranged at the shaft end of the die driving cylinder; the lower die driving device comprises a lower die driving cylinder, and the shaft end of the lower die driving cylinder is connected with the lower surface of the mounting seat 51.

The using method and the principle of the novel inner core plate scrapping device are as follows:

determining the number of scrapped inner core plates needing to be scrapped by punching PCS (process control system), so that punches with corresponding digital upper models used in scrapping can be conveniently determined; after confirming the number of scrapped plates of the whole plate needing to be printed with PCS, installing a punch with a corresponding digital upper model at the output end of a die driving device; placing the PCS of which the plate needs to be scrapped on the corresponding position of the lower template, wherein the PCS must be ensured not to be inclined to one side, so as to avoid other scrappings; the inner core plate is arranged on the upper surface of the lower template; the mounting plate, the base plate, the lower template and the second guide post ascend relative to the second guide sleeve to enable the lower template to be attached to the lower surface of the upper template, and the inner core plate is fastened between the upper template and the lower template; the punch head and the first guide post are driven by the punch die driving device to descend relative to the first guide sleeve, and the punch head penetrates through the upper template and the lower template from top to bottom to punch the inner core plate out of the die; the mounting plate, the base plate and the lower template are descended and reset, and the punch is ascended and reset; finishing the scrapping operation of the inner core plate; circularly operating the steps to scrap a plurality of inner-layer core plates; and after the inner core plate is scrapped, conveying the inner core plate to press for lamination.

The design of the utility model is mainly characterized in that the scrapped products of the inner core plate can be seen from the appearance, the scrapped PCS product quantity of the plate can be seen from the appearance and the cost of destructive experiments can be reduced by adopting the novel inner core plate scrapping device provided by the application; the punching and scrapping of the inner core plate are realized by adopting the upper template, the lower die assembly, the stamping die guide assembly, the lower die guide assembly, the position adjusting assembly and the limiting assembly, the stamping die is guided in a descending mode of the punch, the lower die is guided when the lower template ascends, the position of the lower template is adjusted, the ascending position of the lower template is limited, and the precision in punching is improved; the position of the lower template is adjusted by adopting the position adjusting assembly, and the position of the lower template corresponds to the position of the upper template, so that the stamping accuracy is improved, and the defective rate is reduced; the abdicating opening is adopted to abdicate the punching die driving device, so that position interference is avoided, and the overall structure is compact.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modification, equivalent change and modification made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (7)

1. A novel inner core plate scrapping device is characterized in that a core plate is arranged in a core plate groove; the stamping die comprises a mounting plate, an upper template, a stamping die assembly for stamping a model for a scrapped product, a stamping die guide assembly for guiding the stamping die assembly, a lower die guide assembly for guiding the lower die assembly, a position adjusting assembly and a limiting assembly, wherein the upper template is arranged on the lower surface of the mounting plate; the die assembly comprises a die driving device and a punch, wherein the punch is arranged at the output end of the die driving device; the lower die assembly comprises a lower die driving device, a mounting seat, a base plate and a lower template, wherein the base plate is arranged on the upper surface of the mounting seat, the lower template is arranged on the upper surface of the base plate, the output end of the lower die driving device is connected with the lower surface of the mounting seat, and the lower die driving device drives the mounting seat, the base plate and the lower template to synchronously lift; the punch driving device drives the punch to descend and sequentially pass through the upper template and the lower template; the position adjusting assembly comprises an adjusting screw and an adjusting block, the adjusting block is slidably positioned on the upper surface of the base plate, the adjusting screw is matched with the adjusting block, the adjusting block is connected with the lower template, and the position of the lower template on the base plate is adjusted through the adjusting screw; this spacing subassembly includes butt post and lower butt post, and this last butt post sets up in the lower surface of mounting panel, and this lower butt post sets up in the upper surface of mount pad, but this lower butt post rising formula and last butt post looks butt.

2. The novel inner core plate scrapping device as claimed in claim 1, wherein; the punch is detachably arranged at the output end of the die driving device, and a digital upper model is arranged at the lower end of the punch; the lower template is detachably arranged on the substrate, the lower template is movably positioned on the upper surface of the substrate, and a plurality of digital lower models are arranged on the lower template; the lower template can movably correspond the digital lower model with the digital upper model.

3. The new inner core plate scrapping device as claimed in claim 2, wherein; the base plate is provided with a longitudinal guide rail, the lower surfaces of the adjusting block and the lower template are respectively provided with a groove matched with the longitudinal guide rail, and the plurality of digital lower models are longitudinally arranged on the lower template; the position of the digital lower model is adjusted by the adjusting screw rod.

4. The novel inner core plate scrapping device as claimed in claim 1, wherein; the die guide assembly comprises a first guide pillar and a first guide sleeve, and the first guide pillar is positioned in the first guide sleeve in a lifting manner; the first guide pillar is arranged on the upper template in a lifting manner, the first guide sleeve is fixedly arranged on the substrate, and the first guide pillar is positioned beside the punch; the first guide post is connected to the output end of the die driving device, and the die driving device drives the first guide post to descend and locate in the first guide sleeve.

5. The novel inner core plate scrapping device as claimed in claim 1, wherein the inner core plate scrapping device comprises a frame; the lower die guide assembly comprises a second guide pillar and a second guide sleeve, and the second guide pillar is positioned in the second guide sleeve in a lifting manner; the second guide pillar is tightly arranged on the mounting seat, the second guide sleeve is tightly arranged on the mounting plate, and the lower die driving device drives the second guide pillar to ascend and be positioned in the second guide sleeve.

6. The novel inner core plate scrapping device as claimed in claim 1, wherein the inner core plate scrapping device comprises a frame; the upper surface of the mounting plate is provided with a connecting block, and the connecting block is provided with a connecting hole; the connecting block is provided with a yielding opening for yielding the die driving device.

7. The novel inner core plate scrapping device as claimed in claim 1, wherein; the punch die driving device comprises a punch die driving cylinder, and the punch is mounted at the shaft end of the punch die driving cylinder; the lower die driving device comprises a lower die driving cylinder, and the shaft end of the lower die driving cylinder is connected with the lower surface of the mounting seat.

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