CN110913597B - Full-automatic heavy copper production line of PCB - Google Patents

Abstract

The invention discloses a PCB full-automatic copper deposition production line which comprises a copper deposition process treatment system, wherein the copper deposition process treatment system comprises an automatic plate placing system, a first hanging basket lifting and transplanting system, a first hanging basket pushing system, a hanging basket returning system and a second hanging basket pushing system which are sequentially arranged. The full-automatic copper deposition production line for the PCB, disclosed by the invention, has the advantages that full-automatic production of PCB copper deposition production equipment is realized, the copper deposition effect is better, the efficiency is improved, and the labor intensity is reduced.

Description

Full-automatic heavy copper production line of PCB

Technical Field

The invention relates to the technical field of copper deposition production, in particular to a full-automatic copper deposition production line for a PCB (printed circuit board).

Background

The copper deposition is generally called chemical copper plating or hole plating and is an autocatalytic oxidation-reduction reaction, in the production process of the PCB, the copper deposition process is a key link of the production of the PCB, and the quality of the copper deposition is directly related to the performance of the PCB. The copper deposition process comprises the steps of placing a plurality of PCBs into a copper deposition hanging basket, placing the copper deposition hanging basket into a cylinder body filled with a copper deposition solution, and taking the copper deposition hanging basket out of the cylinder body.

The PCB is placed in and taken out of the existing production line in the production process, the copper deposition hanging basket and the carrying work of the hanging basket are completed by workers, the mode is low in working efficiency and high in labor intensity, the mode is not suitable for the rapid development requirements of modern and automatic production, and in order to solve the problems, the PCB full-automatic copper deposition production line is provided.

Disclosure of Invention

The invention mainly aims to provide a full-automatic copper deposition production line for a PCB (printed circuit board), which can effectively solve the problems in the background technology.

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

a PCB full-automatic copper deposition production line comprises a copper deposition process treatment system, wherein the copper deposition process treatment system comprises an automatic plate placing system, a first hanging basket lifting and transplanting system, a first hanging basket pushing system, a hanging basket returning system and a second hanging basket pushing system which are sequentially arranged;

first string basket lift transplantation system includes the crane, the inboard of crane is provided with the lift stand, the surface activity of lift stand is provided with the lift configuration sleeve pipe, lift configuration sheathed tube one side is installed and is hung basket location cylinder, tank chain groove is installed to the bottom of crane, one side that the bottom of crane is located a basket location cylinder is provided with the sideslip car locating part, the inductor fixed slot has been seted up to one side of the bottom sideslip car locating part of crane, the inside upper end of inductor fixed slot is provided with the inductor, the inboard one end of crane is provided with the rack fixing base, the outside of rack fixing base is provided with the rack.

Preferably, the automatic plate placing system comprises a mechanical arm, a sucker and a hanging basket, wherein the sucker is arranged at one end of the mechanical arm, the hanging basket is installed at one end of the sucker, the sucker is fixedly installed at one end of the mechanical arm, and the hanging basket is fixedly connected with the sucker.

Preferably, a first lifting bearing fixing seat is installed at the top end of the inner side of the lifting frame, a speed reducer fixing seat is arranged on one side of the first lifting bearing fixing seat at the top end of the inner side of the first lifting bearing fixing seat, a second lifting bearing fixing seat is arranged below the first lifting bearing fixing seat at the inner side of the lifting frame, a third lifting bearing fixing seat is arranged below the second lifting bearing fixing seat at the inner side of the lifting frame, and a lifting transmission assembly is installed at the rear end of the first lifting bearing fixing seat, the second lifting bearing fixing seat and the third lifting bearing fixing seat

Preferably, the upper end of the lifting frame is provided with a first bearing pad foot, one side of the upper end of the lifting frame, which is close to the first bearing pad foot, is fixedly provided with a second bearing pad foot, and the upper end of the lifting configuration sleeve is provided with a configuration sleeve fixing plate.

Preferably, first string basket advancing system is including drawing the tail to pass the skeleton, drawing the tail to pass push rod skeleton, draw the tail chain guide, the inboard welding that draws the tail to pass the skeleton has and draws the tail to pass push rod skeleton, the front end that draws the tail to pass push rod skeleton is provided with draws the tail chain guide, the rear end surface of drawing the tail chain guide and the front end fixed surface who draws the tail to pass push rod skeleton are connected.

Preferably, the basket pass-back system comprises a pushing transmission motor, a transmission shaft assembly and a transmission roller, wherein the transmission shaft assembly is arranged at one end of the pushing transmission motor, the transmission shaft assembly is fixedly connected with an output shaft of the pushing transmission motor, a gear transmission belt is arranged between the transmission roller and the transmission shaft assembly, and the transmission shaft assembly is movably connected with the transmission roller through the gear transmission belt.

Preferably, the second cradle pushing system comprises a slider pushing framework, a pushing driving shaft fixing frame is fixedly arranged at the upper end of the slider pushing framework, a transmission motor fixing frame is arranged at one side, close to the pushing driving shaft fixing frame, of the upper end of the slider pushing framework, a chain lead block is arranged at one side, close to the transmission motor fixing frame, of the upper end of the slider pushing framework, an inductor fixing frame and a driven shaft framework are arranged at the upper end of the slider pushing framework, the inductor fixing frame is located between the driven shaft framework and the chain lead block, a pushing framework is arranged at the rear end of the slider pushing framework, three pushing driving shafts are fixedly arranged on the inner side of the pushing framework, a first pushing driving shaft chain wheel, a second pushing driving shaft chain wheel and a third pushing driving shaft chain wheel are movably arranged on the outer surface of the pushing driving shaft, a pushing driven shaft is, the outer side of the pushing driven shaft is provided with a chain wheel blocking piece, the lower end of the pushing driving shaft is provided with a pushing transmission motor, and a transmission shaft bearing is arranged between the pushing driving shaft and the pushing driven shaft on the inner side of the pushing framework.

Preferably, the copper deposition process treatment system further comprises an automatic plate taking system and a second hanging basket lifting transplanting system, the structure of the automatic plate taking system is the same as that of the automatic plate placing system, the structure of the second hanging basket lifting transplanting system is the same as that of the first hanging basket lifting transplanting system, and the automatic plate placing system, the second hanging basket lifting transplanting system, the automatic plate taking system and the first hanging basket lifting transplanting system are respectively located on two sides of the copper deposition process treatment system.

Compared with the prior art, the invention has the following beneficial effects: the full-automatic copper deposition production line for the PCBs is characterized in that a plurality of PCBs are placed in a hanging basket for copper deposition, the hanging basket for copper deposition is placed in a cylinder body filled with a copper deposition solution through an automatic plate placing system, the hanging basket is shaken through a second hanging basket lifting transplanting system to enable the PCBs to be in full contact with the solution, the copper deposition solution fully penetrates through holes and plate surfaces of the PCBs in the hanging basket for copper deposition, the hanging basket is pushed to move into a hanging basket return system through a first hanging basket pushing system, the hanging basket is transmitted to a second hanging basket pushing system through the hanging basket return system, the hanging basket is pushed to a first hanging basket lifting transplanting system through the second hanging basket pushing system, the hanging basket is shaken through the first hanging basket lifting transplanting system, after a layer of thin copper is deposited on the hole wall and the plate surface of each through hole, the hanging basket is taken out of the cylinder body through an automatic plate taking system, full-automatic production of the PCB copper deposition production equipment is achieved, the copper deposition effect is good, efficiency is improved, intensity of labour is reduced, and the effect of use is better for traditional mode.

Drawings

FIG. 1 is an overall sectional schematic view of a PCB full-automatic copper deposition production line of the present invention;

FIG. 2 is a schematic sectional view of an automatic board placing system of a full-automatic copper deposition production line for PCBs according to the present invention;

FIG. 3 is a partial sectional schematic view of a first hanging basket lifting transplanting system of the PCB full-automatic copper deposition production line;

FIG. 4 is a partial sectional schematic view of a first hanging basket lifting transplanting system of the PCB full-automatic copper deposition production line;

FIG. 5 is a partial sectional schematic view of a first hanging basket lifting transplanting system of the PCB full-automatic copper deposition production line;

FIG. 6 is a schematic view of a partial cutaway of a first cradle pass-back system of the full-automatic copper deposition production line for PCBs according to the present invention;

FIG. 7 is a schematic partial sectional view of a basket pass-back system of the full-automatic copper deposition production line for PCB according to the present invention;

FIG. 8 is a schematic partial sectional view of a second cradle pushing system of the full-automatic copper deposition production line for PCBs of the present invention;

fig. 9 is a partially cut-away schematic view of a second cradle pushing system of the full-automatic copper deposition production line for PCBs according to the present invention.

In the figure: 1. a copper deposition process treatment system; 2. an automatic board placing system; 21. a manipulator; 22. a suction cup; 23. hanging a basket; 3. an automatic plate taking system; 4. a first hanging basket lifting transplanting system; 41. a lifting frame; 42. lifting the upright post; 43. a lifting configuration sleeve; 44. a hanging basket positioning cylinder; 45. a tank chain groove; 46. a traverse car limit piece; 47. a sensor fixing groove; 48. an inductor; 49. a rack fixing seat; 410. a rack; 411. a first lifting bearing fixing seat; 412. a speed reducer fixing seat; 413. a second lifting bearing fixing seat; 414. a third lifting bearing fixing seat; 415. a lifting transmission assembly; 416. a first bearing pad; 417. a second bearing pad; 418. configuring a sleeve fixing plate; 5. a first cradle pushing system; 51. pulling the tail to push the framework; 52. pulling the tail to push the push rod framework; 53. guiding the tail pulling chain; 6. a cradle pass-back system; 61. a push transmission motor; 62. a driveshaft assembly; 63. a transmission roller; 7. a second cradle pushing system; 71. a slider pushes the framework; 72. pushing the driving shaft fixing frame; 73. a transmission motor fixing frame; 74. a chain wire block; 75. a sensor holder; 76. a driven shaft skeleton; 77. pushing the framework; 78. a first pushing drive shaft chain wheel; 79. pushing the driving shaft; 710. a second pushing drive shaft chain wheel; 711. a third pushing driving shaft chain wheel; 712. pushing the driven shaft; 713. a sprocket retaining piece; 714. a push transmission motor; 715. a drive shaft bearing; 8. and the second hanging basket lifting transplanting system.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-9, a full-automatic copper deposition production line for a PCB comprises a copper deposition process processing system 1, wherein the copper deposition process processing system 1 comprises an automatic plate placing system 2, a first hanging basket lifting and transplanting system 4, a first hanging basket pushing system 5, a hanging basket returning system 6 and a second hanging basket pushing system 7 which are sequentially arranged.

The automatic plate placing system 2 comprises a manipulator 21, a sucker 22 and a hanging basket 23, wherein the sucker 22 is arranged at one end of the manipulator 21, the hanging basket 23 is installed at one end of the sucker 22, the sucker 22 is fixedly installed at one end of the manipulator 21, and the hanging basket 23 is fixedly connected with the sucker 22.

First string of basket lift transplantation system 4 includes crane 41, crane 41's inboard is provided with lift stand 42, lift stand 42's surface activity is provided with lift configuration sleeve pipe 43, lift configuration sleeve pipe 43's one side is installed and is hung basket location cylinder 44, tank chain groove 45 is installed to crane 41's bottom, crane 41's bottom is located one side of hanging basket location cylinder 44 and is provided with sideslip car locating part 46, inductor fixed slot 47 has been seted up to crane 41's bottom sideslip car locating part 46's one side, inductor fixed slot 47's inside upper end is provided with inductor 48, crane 41's inboard one end is provided with rack fixing base 49, rack fixing base 49's the outside is provided with rack 410.

A first lifting bearing fixing seat 411 is installed at the top end of the inner side of the lifting frame 41, a speed reducer fixing seat 412 is arranged on one side of the first lifting bearing fixing seat 411 at the top end of the inner side of the first lifting bearing fixing seat 411, a second lifting bearing fixing seat 413 is arranged below the first lifting bearing fixing seat 411 at the inner side of the lifting frame 41, a third lifting bearing fixing seat 414 is arranged below the second lifting bearing fixing seat 413 at the inner side of the lifting frame 41, a lifting transmission component 415 is installed at the rear end of the first lifting bearing fixing seat 411, the second lifting bearing fixing seat 413 and the third lifting bearing fixing seat 414

The upper end of the lifting frame 41 is provided with a first bearing cushion foot 416, one side of the upper end of the lifting frame 41 close to the first bearing cushion foot 416 is fixedly provided with a second bearing cushion foot 417, and the upper end of the lifting configuration sleeve 43 is provided with a configuration sleeve fixing plate 418.

First string basket advancing system 5 is including drawing the tail to pass skeleton 51, drawing the tail to pass push rod skeleton 52, draw tail chain direction 53, draws the inboard welding of tail to pass skeleton 51 to have and draws the tail to pass push rod skeleton 52, draws the tail to pass the front end of push rod skeleton 52 and is provided with and draws tail chain direction 53, draws the rear end surface of tail chain direction 53 and draws the tail to pass the front end surface fixed connection of push rod skeleton 52.

Hang basket passback system 6 and include pushing transmission motor 61, transmission shaft subassembly 62, drive roller 63, and the one end of pushing transmission motor 61 is provided with transmission shaft subassembly 62, and transmission shaft subassembly 62 is connected with pushing transmission motor 61's output shaft is fixed, is provided with gear drive belt between drive roller 63 and the transmission shaft subassembly 62, and transmission shaft subassembly 62 passes through gear drive belt and drive roller 63 swing joint.

The second hanging basket pushing system 7 comprises a slider pushing framework 71, a pushing driving shaft fixing frame 72 is fixedly arranged at the upper end of the slider pushing framework 71, a transmission motor fixing frame 73 is arranged at one side, close to the pushing driving shaft fixing frame 72, of the upper end of the slider pushing framework 71, a chain wire block 74 is arranged at one side, close to the transmission motor fixing frame 73, of the upper end of the slider pushing framework 71, an inductor fixing frame 75 and a driven shaft framework 76 are arranged at the upper end of the slider pushing framework 71, the inductor fixing frame 75 is positioned between the driven shaft framework 76 and the chain wire block 74, a pushing framework 77 is arranged at the rear end of the slider pushing framework 71, three groups of pushing driving shafts 79 are fixedly arranged on the inner side of the pushing framework 77, a first pushing driving shaft sprocket 78, a second pushing driving shaft sprocket 710 and a third pushing driving shaft sprocket 711 are movably arranged on the outer surface of the pushing driving, a sprocket plate 713 is installed at an outer side of the pushing follower shaft 712, a pushing transmission motor 714 is installed at a lower end of the pushing drive shaft 79, and a transmission shaft bearing 715 is installed between the pushing drive shaft 79 and the pushing follower shaft 712 at an inner side of the pushing frame 77.

The copper deposition process treatment system 1 further comprises an automatic plate taking system 3 and a second hanging basket lifting transplanting system 8, the structure of the automatic plate taking system 3 is the same as that of the automatic plate placing system 2, the structure of the second hanging basket lifting transplanting system 8 is the same as that of the first hanging basket lifting transplanting system 4, and the automatic plate placing system 2, the second hanging basket lifting transplanting system 8, the automatic plate taking system 3 and the first hanging basket lifting transplanting system 4 are respectively located on two sides of the copper deposition process treatment system 1.

The invention is a full-automatic copper deposition production line for PCB, a user places a plurality of PCB boards in a hanging basket 23 for copper deposition, then places the hanging basket 23 for copper deposition into a cylinder body filled with copper deposition solution through an automatic board placing system 2, shakes the hanging basket 23 through a second hanging basket lifting and transplanting system 8 to make the PCB boards fully contact with the solution, so that the copper deposition solution fully penetrates through holes and board surfaces on the PCB boards in the hanging basket for copper deposition, pushes the hanging basket 23 to move into a hanging basket pass-back system 6 through a first hanging basket pushing system 5, transmits the hanging basket 23 to the second hanging basket pushing system 7 through the hanging basket pass-back system 6, pushes the hanging basket 23 to a first hanging basket lifting and transplanting system 4 through the second hanging basket pushing system 7, shakes the hanging basket 23 through the first hanging basket lifting and transplanting system 4, after a layer of thin copper is deposited on the hole walls and the board surfaces, takes out the hanging basket 23 from the cylinder body through an automatic board taking system 3, can accomplish the heavy copper of PCB board, surpass traditional heavy copper production line in the use prospect, improve efficiency, reduce intensity of labour.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a full-automatic heavy copper production line of PCB, includes heavy copper technology processing system (1), its characterized in that: the copper deposition process treatment system (1) comprises an automatic plate placing system (2), a first hanging basket lifting and transplanting system (4), a first hanging basket pushing system (5), a hanging basket returning system (6) and a second hanging basket pushing system (7) which are sequentially arranged;

the first hanging basket lifting transplanting system (4) comprises a lifting frame (41), a lifting upright post (42) is arranged on the inner side of the lifting frame (41), the outer surface of the lifting upright post (42) is movably provided with a lifting configuration sleeve (43), a hanging basket positioning cylinder (44) is arranged at one side of the lifting configuration sleeve (43), a tank chain groove (45) is arranged at the bottom end of the lifting frame (41), a traverse car limiting part (46) is arranged at one side of the bottom end of the lifting frame (41) which is positioned on the hanging basket positioning cylinder (44), one side of the bottom end transverse moving vehicle limiting part (46) of the lifting frame (41) is provided with an inductor fixing groove (47), the upper end of the inside of the inductor fixing groove (47) is provided with an inductor (48), a rack fixing seat (49) is arranged at one end of the inner side of the lifting frame (41), and a rack (410) is arranged on the outer side of the rack fixing seat (49).

2. The full-automatic copper deposition production line of the PCB according to claim 1, characterized in that: automatic put board system (2) including manipulator (21), sucking disc (22), string basket (23), the one end of manipulator (21) is provided with sucking disc (22), the one end of sucking disc (22) is installed and is hung basket (23), sucking disc (22) fixed mounting is in the one end of manipulator (21), hang basket (23) and sucking disc (22) fixed connection.

3. The full-automatic copper deposition production line of the PCB according to claim 1, characterized in that: first lift bearing fixing base (411) is installed on the inboard top of crane (41), one side of the first lift bearing fixing base (411) in inboard top of first lift bearing fixing base (411) is provided with speed reducer fixing base (412), the below of the first lift bearing fixing base (411) in inboard of crane (41) is provided with second lift bearing fixing base (413), the below of the inboard second lift bearing fixing base (413) of crane (41) is provided with third lift bearing fixing base (414), lift transmission subassembly (415) is installed to the rear end of first lift bearing fixing base (411), second lift bearing fixing base (413), third lift bearing fixing base (414).

4. The full-automatic copper deposition production line of the PCB according to claim 1, characterized in that: the upper end of crane (41) is provided with first bearing pad foot (416), one side fixed mounting that the upper end of crane (41) is close to first bearing pad foot (416) has second bearing pad foot (417), the upper end of lift configuration sleeve pipe (43) is installed and is configured sleeve pipe fixed plate (418).

5. The full-automatic copper deposition production line of the PCB according to claim 1, characterized in that: first string basket advancing system (5) pass skeleton (51), draw the tail to pass push rod skeleton (52), draw tail chain direction (53) including drawing the tail, the inboard welding that draws tail to pass skeleton (51) has and draws the tail to pass push rod skeleton (52), the front end that draws tail to pass push rod skeleton (52) is provided with draws tail chain direction (53), the rear end surface of drawing tail chain direction (53) and the front end surface fixed connection that draws tail to pass push rod skeleton (52).

6. The full-automatic copper deposition production line of the PCB according to claim 1, characterized in that: hang basket passback system (6) including pushing transmission motor (61), transmission shaft subassembly (62), drive roller (63), the one end of pushing transmission motor (61) is provided with drive shaft subassembly (62), drive shaft subassembly (62) and the output shaft fixed connection who pushes transmission motor (61), be provided with gear drive belt between drive roller (63) and drive shaft subassembly (62), drive shaft subassembly (62) pass through gear drive belt and drive roller (63) swing joint.

7. The full-automatic copper deposition production line of the PCB according to claim 1, characterized in that: the second hanging basket pushing system (7) comprises a puller pushing framework (71), a pushing driving shaft fixing frame (72) is fixedly arranged at the upper end of the puller pushing framework (71), a transmission motor fixing frame (73) is arranged on one side, close to the pushing driving shaft fixing frame (72), of the upper end of the puller pushing framework (71), a chain wire block (74) is arranged on one side, close to the transmission motor fixing frame (73), of the upper end of the puller pushing framework (71), an inductor fixing frame (75) and a driven shaft framework (76) are arranged at the upper end of the puller pushing framework (71), the inductor fixing frame (75) is located between the driven shaft framework (76) and the chain wire block (74), a pushing framework (77) is arranged at the rear end of the puller pushing framework (71), and three sets of pushing driving shafts (79) are fixedly arranged on the inner side of the pushing framework (77), the outer surface activity of advancing driving shaft (79) is provided with first lapse driving shaft sprocket (78), second and passes driving shaft sprocket (710), third and passes driving shaft sprocket (711), the inside one side that is located lapse driving shaft (79) of lapse skeleton (77) is provided with and passes driven shaft (712), it installs sprocket separation blade (713) to pass the outside of driven shaft (712), the lower extreme of lapse driving shaft (79) is provided with and passes drive motor (714), it installs between driving shaft (79) and the lapse driven shaft (712) to pass the inboard of skeleton (77).

8. The full-automatic copper deposition production line of the PCB according to claim 1, characterized in that: the copper deposition process treatment system (1) further comprises an automatic plate taking system (3) and a second hanging basket lifting transplanting system (8), the structure of the automatic plate taking system (3) is the same as that of the automatic plate placing system (2), the structure of the second hanging basket lifting transplanting system (8) is the same as that of the first hanging basket lifting transplanting system (4), and the automatic plate placing system (2), the second hanging basket lifting transplanting system (8), the automatic plate taking system (3) and the first hanging basket lifting transplanting system (4) are respectively located on two sides of the copper deposition process treatment system (1).

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