CN211210063U - Copper deposition equipment with vibration function - Google Patents

Abstract

The utility model discloses a heavy copper equipment with vibration function, it is including handling jar and frame basket, the frame basket is arranged in handling the jar, the frame basket includes first framework and second support frame, the second support frame is arranged in first framework, it can supply plate male the region of placing to have a plurality ofly in the second support frame, the fourth supporting part has been arranged respectively in the two relative outsides of first framework, the fifth supporting component who is used for vibration frame basket has been arranged respectively at the top of the two relative lateral walls of handling jar, the fifth supporting component includes fifth supporting seat and fifth driver, the shaping of fifth supporting seat has vertical U type groove, the top in U type groove is uncovered, the fourth supporting part is arranged in U type groove, the downside of the tip of fourth supporting part is withstood to the output of fifth driver, the fifth driver makes the frame basket rise in handling the jar through the jack-up fourth supporting part. The fifth driver jacks up the rack basket, and the rack basket falls down after the fifth driver retreats, so that the vibration is realized, the structure is simplified, and the device can be widely applied to the technical field of circuit board manufacturing.

Description

Copper deposition equipment with vibration function

Technical Field

The utility model relates to a circuit board manufacturing technology field, in particular to heavy copper equipment with vibration function.

Background

The copper deposition is a necessary process for manufacturing the PCB, and a thin layer of chemical copper is deposited on a drilled hole-wall base material which is not conductive by a chemical method and is used as a base for electroplating copper. In the copper deposition process, the plate is vertically inserted into a copper deposition frame, the copper deposition frame is soaked in a treatment cylinder, and a vibration frame basket is usually needed to ensure the copper deposition effect. However, the structure for realizing vibration is complex and the cost is high.

SUMMERY OF THE UTILITY MODEL

For solving above-mentioned technical problem, simplify vibrating structure, reduce cost, the utility model provides a heavy copper equipment with vibration function, the technical scheme of adoption as follows:

the utility model provides a heavy copper equipment with vibration function is including handling jar and frame basket, the frame basket is arranged in handling the jar, the frame basket includes first framework and second support frame, the second support frame is arranged in first framework, it can supply plate male region of placing to have a plurality ofly in the second support frame, the fourth supporting part has been arranged respectively in the two relative outsides of first framework, the fifth supporting component who is used for vibrating the frame basket has been arranged respectively at the top of the two relative lateral walls of handling jar, the fifth supporting component includes fifth supporting seat and fifth driver, the shaping of fifth supporting seat has vertical U type groove, the top in U type groove is uncovered, the fourth supporting part is arranged in U type groove, the downside of the tip of fourth supporting part is withstood to the output of fifth driver, the fifth driver makes the frame basket rise in handling the jar through jack-up fourth supporting part.

Further, the output end of the fifth driver is provided with a top supporting portion, and the width of the top supporting portion is not less than the width of the lower side of the end portion of the fourth supporting portion.

Furthermore, two side walls of the U-shaped groove are obliquely arranged, the width of the opening of the U-shaped groove is larger than that of the bottom end of the U-shaped groove, and the two side walls of the U-shaped groove are formed into arc-shaped guide walls at the opening.

Further, the second support frame comprises a second upper assembly and a second lower assembly, the second upper assembly comprises a plurality of second upper straight rods, the second upper straight rods are arranged in parallel, a groove body is formed between every two adjacent second upper straight rods, the second lower assembly comprises a plurality of second lower straight rods, the second lower straight rods are arranged in parallel, a groove body is formed between every two adjacent second lower straight rods, the second upper straight rods are parallel to the second lower straight rods, each groove body in the second upper assembly is in one-to-one correspondence with each groove body in the second lower assembly, and a space formed by the corresponding upper groove body and the corresponding lower groove body is a placement area.

Furthermore, a third partition assembly is arranged at the top of the first frame body and comprises a plurality of third straight rods, the third straight rods are arranged in parallel and are perpendicular to the second upper straight rod, and the distance between every two adjacent third straight rods is adjustable.

Furthermore, a first support frame is arranged at the bottom of the first frame body, a second support frame is positioned above the first support frame, the first support frame comprises a plurality of first support rods, the first support rods are arranged in parallel, and the first support rods are perpendicular to the second lower straight rod.

Furthermore, the axes of the upper and lower groove bodies forming the placing area are positioned on the same vertical plane or an inclined plane.

Furthermore, two first straight rods used for installing third straight rods are arranged at the top of the first frame body, two ends of each third straight rod are respectively installed on the first straight rods, third sleeves are arranged at the end parts of the third straight rods, and the first straight rods penetrate through the third sleeves.

Furthermore, a plurality of brushes are arranged on the side surface of the second upper straight rod.

Further, the side of the third straight rod is provided with an elastic pad.

Has the advantages that: the top design of handling the jar is used for the fifth supporting seat of support frame basket to through fifth driver with frame basket jack-up, the fifth driver moves back the after-poppet basket and falls, thereby realizes the vibration, the utility model discloses the structure is simplified, and the cost is lower, but wide application in circuit board manufacturing technical field.

Drawings

FIG. 1 is a front view of a basket;

FIG. 2 is a side view of the basket;

FIG. 3 is a top view of the basket;

FIG. 4 is a front view of the treatment cylinder;

fig. 5 is a side view of the treatment cylinder.

Detailed Description

The present invention will be further described with reference to fig. 1 to 5.

The utility model relates to a heavy copper equipment with vibration function, it includes treatment tank 20 and frame basket, and the plate is placed in the frame basket, and the frame basket is arranged in treatment tank 20, and the frame basket can vibrate from top to bottom in treatment tank 20.

The rack basket comprises a first frame body and a second support frame, wherein the second support frame is positioned in the first frame body, and a plurality of placing areas for inserting plates are formed in the second support frame.

The second support frame comprises a second upper assembly and a second lower assembly, the second upper assembly comprises a plurality of second upper straight rods 11, two ends of each second upper straight rod 11 are welded to the first frame body respectively, the second upper straight rods 11 are arranged in parallel, a groove body is formed between every two adjacent second upper straight rods 11, and each second upper straight rod 11 can be used for the middle upper portion of a plate to lean on. The second lower assembly comprises a plurality of second lower straight rods 12, two ends of each second lower straight rod 12 are respectively welded on the first frame body, the second lower straight rods 12 are arranged in parallel, a groove body is formed between every two adjacent second lower straight rods 12, and the middle lower parts of the plates can depend on the second lower straight rods 12.

The second upper straight rod 11 is parallel to the second lower straight rod 12, each groove body in the second upper assembly corresponds to each groove body of the second lower assembly one by one, a space formed by the corresponding upper groove body and the corresponding lower groove body is a placement area, and a plate is inserted into each placement area. The axes of the upper and lower groove bodies which form the placing area are positioned on the same vertical surface or an inclined surface. Therefore, the plate member can be placed upright or inclined.

The side surface of the second upper straight rod 11 is provided with a plurality of brushes which play a role in buffering and supporting between the second upper straight rod 11 and the plate. When the plate is inserted into the placement area, the brush can clean impurities on the surface of the plate, and when the plate is pulled out of the placement area, the brush can clean residual liquid on the surface of the plate.

The first support frame is arranged at the bottom of the first frame body, the second support frame is positioned above the first support frame, the first support frame comprises a plurality of first support rods 16, the first support rods 16 are arranged in parallel, the first support rods 16 are perpendicular to the second lower straight rod 12, and the first support rods 16 are used for supporting plates.

And a third partition component is arranged at the top of the first frame body and comprises a plurality of third straight rods 13, the third straight rods 13 are arranged in parallel, and the third straight rods 13 are perpendicular to the second upper straight rod 11, so that each placing area is divided into a plurality of sections of unit areas by the third straight rods 13 and used for placing a plurality of plates. The distance between two adjacent third straight bars 13 is adjustable, and the width of the unit area can be adjusted according to the width of the plate.

Two first straight rods 14 used for mounting the third straight rods 13 are arranged at the top of the first frame body, two ends of each third straight rod 13 are respectively mounted on the first straight rods 14, and two ends of each first straight rod 14 are respectively welded on the first frame body. And a third sleeve 15 is arranged at the end part of the third straight rod 13, the first straight rod 14 penetrates through the third sleeve 15, and the distance between every two adjacent third straight rods 13 is adjusted by moving the third sleeve 15 on the first straight rod 14.

The side wall of the third sleeve 15 is arranged with a locking screw to lock the position of the third straight bar 13.

The elastic pad is arranged on the side surface of the third straight rod 13, so that rigid collision between the edge of the plate and the third straight rod 13 is avoided.

The two opposite outer sides of the first frame body are respectively provided with a fourth supporting part 17, the baskets are placed in the processing cylinder 20, and the tops of the side walls of the processing cylinder 20 support the baskets through the fourth supporting parts 17.

The top of two relative lateral walls of processing cylinder 20 has arranged the fifth supporting component who is used for the vibration frame basket respectively, the fifth supporting component includes fifth supporting seat 21 and fifth driver 22, fifth supporting seat 21 shaping has vertical U type groove 23, the top in U type groove 23 is uncovered, fourth supporting part 17 is located U type groove 23, the downside of the tip of fourth supporting part 17 is withstood to the output of fifth driver 22, fifth driver 22 makes the frame basket rise in processing cylinder 20 through jacking fourth supporting part 17, the height that the frame basket rises should not exceed the degree of depth in U type groove 23, avoid fourth supporting part 17 to deviate from U type groove 23. The fifth driver 22 is a linear driver, and the output end of the fifth driver 22 is raised and lowered at a specific frequency, thereby causing the basket to vibrate up and down.

The output end of the fifth actuator 22 is provided with a top supporting portion 24, and the width of the top supporting portion 24 is not less than the width of the lower side of the end of the fourth supporting portion 17, so that the top supporting portion 24 has a sufficient supporting surface to jack up the fourth supporting portion 17.

Two side walls of the U-shaped groove 23 are obliquely arranged, the width of the opening of the U-shaped groove 23 is larger than the width of the bottom end of the U-shaped groove 23, and the two side walls of the U-shaped groove 23 are formed into arc-shaped guide walls at the opening. When the basket falls, the fourth support portion 17 may fall along the guide wall in the corresponding U-shaped groove 23. The opening is designed into an arc shape, so that the fourth supporting part 17 can be prevented from being separated from the U-shaped groove 23 when being lifted up and stopping on the upper side surface of the fifth supporting seat 21, and can slide along the arc edge.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. Heavy copper equipment with vibration function, its characterized in that: the plate vibration frame comprises a processing cylinder (20) and a frame basket, wherein the frame basket is arranged in the processing cylinder (20), the frame basket comprises a first frame body and a second support frame, the second support frame is positioned in the first frame body, the second support frame is provided with a plurality of placement areas for plate insertion, fourth supporting portions (17) are arranged on two opposite outer sides of the first frame body respectively, fifth supporting assemblies for vibrating the frame basket are arranged on the tops of two opposite side walls of the processing cylinder (20) respectively, each fifth supporting assembly comprises a fifth supporting seat (21) and a fifth driver (22), the fifth supporting seat (21) is formed with a vertical U-shaped groove (23), the top end of the U-shaped groove (23) is open, the fourth supporting portions (17) are positioned in the U-shaped grooves (23), the output end of the fifth driver (22) abuts against the lower side of the end portion of the fourth supporting portion (17), and the fifth driver (22) enables the frame basket to rise in the processing cylinder (20) through jacking of the fourth supporting portions (17).

2. The copper deposition apparatus with vibration function according to claim 1, wherein: the output end of the fifth driver (22) is provided with a top supporting part (24), and the width of the top supporting part (24) is not less than the width of the lower side of the end part of the fourth supporting part (17).

3. The copper deposition apparatus with vibration function according to claim 1, wherein: two side walls of the U-shaped groove (23) are obliquely arranged, the width of the opening of the U-shaped groove (23) is larger than the width of the bottom end of the U-shaped groove (23), and the two side walls of the U-shaped groove (23) are formed into arc-shaped guide walls at the opening.

4. The copper deposition apparatus with vibration function according to claim 1, wherein: the second support frame comprises a second upper assembly and a second lower assembly, the second upper assembly comprises a plurality of second upper straight rods (11), each second upper straight rod (11) is arranged in parallel, a groove body is formed between every two adjacent second upper straight rods (11), the second lower assembly comprises a plurality of second lower straight rods (12), each second lower straight rod (12) is arranged in parallel, a groove body is formed between every two adjacent second lower straight rods (12), each second upper straight rod (11) is parallel to each second lower straight rod (12), each groove body in the second upper assembly and each groove body in the second lower assembly correspond to each other one by one, and a space formed by the corresponding upper groove body and the corresponding lower groove body is a placement area.

5. The copper deposition apparatus with vibration function according to claim 4, wherein: the third partition assembly is arranged at the top of the first frame body and comprises a plurality of third straight rods (13), the third straight rods (13) are arranged in parallel, the third straight rods (13) are perpendicular to the second upper straight rod (11), and the distance between every two adjacent third straight rods (13) is adjustable.

6. The copper deposition apparatus with vibration function according to claim 4, wherein: the bottom of the first frame body is provided with a first support frame, the second support frame is positioned above the first support frame, the first support frame comprises a plurality of first support rods (16), the first support rods (16) are arranged in parallel, and the first support rods (16) are perpendicular to the second lower straight rod (12).

7. The copper deposition apparatus with vibration function according to claim 4, wherein: the axes of the upper and lower groove bodies which form the placing area are positioned on the same vertical surface or an inclined surface.

8. The copper deposition apparatus with vibration function according to claim 5, wherein: two first straight rods (14) used for mounting third straight rods (13) are arranged at the top of the first frame body, two ends of each third straight rod (13) are respectively mounted on the first straight rods (14), third sleeves (15) are arranged at the end parts of the third straight rods (13), and the first straight rods (14) penetrate through the third sleeves (15).

9. The copper deposition apparatus with vibration function according to claim 4, wherein: the side surface of the second upper straight rod (11) is provided with a plurality of brushes.

10. The copper deposition apparatus with vibration function according to claim 5, wherein: the side surface of the third straight rod (13) is provided with an elastic pad.

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