CN221141918U - Continuous copper plating homogenizing device - Google Patents

Abstract

The application relates to the technical field of copper plating, in particular to a continuous copper plating homogenizing device which comprises a shell, wherein the upper surface of the shell is fixedly connected with two supporting frames and two supporting rods, a rotating rod, a bent rod and a storage bin are arranged above the shell, the first gear, the second gear, the third gear, a bidirectional threaded rod and the like are arranged, the first gear is driven by the rotating rod to be meshed with the rack, the rack is driven to slide in a sliding groove, the bent rod is driven to move and simultaneously drive an extrusion barrel to move, a gap is formed between the bent rod and the supporting barrel, a motor is started to drive the second gear and the third gear to be meshed to drive the bidirectional threaded rod to rotate, a corresponding material plate is driven to relatively move by the bidirectional threaded rod, the discharge hole of the storage bin is adjusted, the effect that the device can adjust the gap between the extrusion barrel and the supporting barrel through the thickness of a steel belt is achieved, the discharge hole of the storage bin is adjusted through the width of the steel belt, copper plating efficiency is improved, and the steel belt with different thickness can be plated uniformly.

Description

Continuous copper plating homogenizing device

Technical Field

The application relates to the technical field of copper plating, in particular to a continuous copper plating homogenizing device.

Background

The first characteristic of the plating method is that the solution has certain deoiling and activating ability, and the second characteristic is that the plating solution uses cyanide with strong complexing ability to make complex ions not easy to discharge, so the cathode polarization of the bath solution is high, and the plating solution has excellent uniform plating ability and covering ability.

Through retrieving, chinese patent publication No. CN215328424U discloses a copper plating steel strip is with continuous copper plating homogenization device, which comprises a housin, the shell both sides are provided with the gyro wheel, shell one side is provided with first catch basin, the shell opposite side is provided with the second catch basin, the inside backing wheel that is provided with of shell, the shell outer wall is provided with the dwang, dwang one end rotates and is connected with and paints the shell, it is provided with servo motor to paint the shell outer wall, servo motor output is provided with the drive belt. According to the utility model, the servo motor is started through the transmission rod, so that the servo motor drives the transmission rod to rotate, and the transmission rod drives the smearing rod to rotate through the bevel gear, so that the bottom of the smearing rod is attached to the surface of the copper strip, thereby smearing cyanide plating solution on the surface of the copper strip, uniformly distributing the cyanide plating solution on the surface of the steel strip, and preventing the cyanide plating solution on the surface of the steel strip from being unevenly distributed to cause damage to the position of the steel strip, at which the cyanide plating solution is unevenly smeared in the using process.

With respect to the related art in the above, the inventors found that the following drawbacks exist: because in the actual operation, can appear the steel band of different thickness different width and carry out copper plating, when steel band width and discharge gate do not accord with, then can lead to efficiency reduction, and unnecessary material can't better contact steel band, when steel band thickness changes, the rotation in above-mentioned scheme is scraped and can be led to the material on steel band surface to appear the condition that thickness is different, and when two-way scraping, the accumulational scratch of material then can appear in the place of two scraping pieces mutual contact, leads to the material on steel band surface inhomogeneous, influences copper plating's homogeneity.

Disclosure of utility model

In order to ensure the effect that the device can uniformly copper the steel strip according to the difference of the width and the thickness of the steel strip, the application provides a continuous copper plating homogenizing device.

The application provides a continuous copper plating homogenizing device, which adopts the following technical scheme: the utility model provides a continuous copper plating homogenization device, includes the casing, the upper surface fixedly connected with of casing two support frames and two bracing pieces, the top of casing is equipped with dwang, bent lever and feed bin, the surface fixedly connected with of dwang two gears are first, every the inside of bracing piece all rotates with the surface of dwang to be connected, every the one side that the support frame is close to each other has all offered the sliding tray, every the equal sliding connection of inner wall of sliding tray has the rack, every the surface of rack all meshes with the surface of corresponding gear one, every the one side that the rack is close to each other all with the both ends fixed connection of bent lever, the surface rotation of bent lever is connected with the recipient, every the one side that the support frame is close to each other all with the front and the back fixed connection of feed bin, the inner wall sliding connection of feed bin has two flitch, the front fixedly connected with motor of feed bin, the output shaft fixedly connected with gear two, the outer surface looks meshing of gear two and gear three have the inner wall fixedly connected with rack, every two and the equal both-way threaded connection of gear three the inner wall of corresponding screw rod, every two-way connection of the threaded rod has the inside of the casing.

Optionally, the inner bottom wall of the shell is fixedly connected with a blanking barrel, a first water storage tank and a second water storage tank, and cavities which are arranged at equal intervals are formed in the inner wall of the shell.

Optionally, the inner top wall of each cavity is fixedly connected with a spring, and the other end of each spring is fixedly connected with a connecting block.

Optionally, a roller and a limiting rod are arranged above the first water storage tank and the second water storage tank, and the outer surface of each connecting block is rotationally connected with two ends of the corresponding roller.

Optionally, two transition bars are embedded in the shell, and fixing pins which are arranged at equal intervals are fixedly connected to the upper surface of the shell.

Optionally, the inner wall of each stop lever is rotationally connected with the outer surface of the corresponding fixed pin, and the outer surface of each stop lever is contacted with the outer surface of the corresponding fixed pin.

Optionally, the draw-in groove has been seted up to the upper surface of casing, every the inner wall of draw-in groove all sliding connection has the fixture block.

In summary, the application has the following beneficial technical effects:

According to the device, the first gear, the rack, the second gear, the third gear, the bidirectional threaded rod and other parts are arranged, the first gear is driven by the rotating rod to be meshed with the rack, the rack is driven to slide in the sliding groove, the bent rod is driven to move and simultaneously drive the extrusion barrel to move, a gap is formed between the bent rod and the supporting barrel, the second gear and the third gear are driven by the starting motor to be meshed at the moment to drive the bidirectional threaded rod to rotate, the corresponding material plate is driven by the bidirectional threaded rod to relatively move, the discharge hole of the storage bin is regulated, the effect that the gap between the extrusion barrel and the supporting barrel can be regulated through the thickness of the steel belt is achieved, the discharge hole of the storage bin is regulated through the width of the steel belt, copper plating efficiency is improved, and steel belts with different thicknesses can be plated with copper uniformly.

According to the device, the fixing pin, the limiting rod, the clamping block, the clamping groove and other parts are arranged, one end of the limiting rod is lifted to drive the other end of the limiting rod to rotate with the fixing pin, the steel belt is placed under the limiting rod, the limiting rod is reset to be in contact with the corresponding fixing pin, the clamping block and the clamping groove are slid relatively to limit the limiting rod, the effect that the device can limit the steel belt through lifting and resetting the limiting rod is achieved, the step that a worker repeatedly places the steel belt in the first water storage groove and the second water storage groove is omitted, the chemical components in the grooves are prevented from damaging the worker, and meanwhile the limiting effect on the steel belt is increased.

Drawings

FIG. 1 is a schematic view of an overall three-dimensional structure in an embodiment of the application;

FIG. 2 is a schematic view of a rack in an embodiment of the application;

FIG. 3 is a schematic view of a bi-directional threaded rod according to an embodiment of the present application;

FIG. 4 is a schematic view of the structure of the hollow cavity in an embodiment of the present application.

Reference numerals: 1. a housing; 2. a support frame; 3. a support rod; 4. a rotating lever; 5. a first gear; 6. a sliding groove; 7. a rack; 8. bending a rod; 9. an extrusion cylinder; 10. a storage bin; 11. a material plate; 12. a motor; 13. a second gear; 14. a third gear; 15. a two-way threaded rod; 16. a clamping block; 17. a support cylinder; 18. a blanking barrel; 19. a first water storage tank; 20. a second water storage tank; 21. a cavity; 22. a spring; 23. a connecting block; 24. a roller; 25. a transition rod; 26. a fixing pin; 27. a limit rod; 28. a clamping groove.

Description of the embodiments

The application is described in further detail below with reference to fig. 1-4.

The embodiment of the application discloses a continuous copper plating homogenizing device. As shown in fig. 1, fig. 2, fig. 3 and fig. 4, a continuous copper plating homogenizing device comprises a shell 1, wherein the upper surface of the shell 1 is fixedly connected with two support frames 2 and two support rods 3, a rotating rod 4, a bent rod 8 and a storage bin 10 are arranged above the shell 1, the outer surface of the rotating rod 4 is fixedly connected with two first gears 5, the inside of each support rod 3 is rotationally connected with the outer surface of the rotating rod 4, one side of each support frame 2, which is close to each other, is provided with a sliding groove 6, the inner wall of each sliding groove 6 is slidingly connected with a rack 7, the outer surface of each rack 7 is meshed with the outer surface of the corresponding first gear 5, one side of each rack 7, which is close to each other, is fixedly connected with the two ends of the bent rod 8, the outer surface of the bent rod 8 is rotationally connected with an extrusion cylinder 9, one side of each support frame 2, which is close to each other, is fixedly connected with the front surface and the back of the storage bin 10, the inner wall of the stock bin 10 is slidingly connected with two material plates 11, the front surface of the stock bin 10 is fixedly connected with a motor 12, the output shaft of the motor 12 is fixedly connected with a gear II 13, the outer surface of the gear II 13 is meshed with a gear III 14, the inner walls of the gear II 13 and the gear III 14 are fixedly connected with bidirectional threaded rods 15, the outer surface of each bidirectional threaded rod 15 is in threaded connection with the inner wall of the corresponding material plate 11, the outer surface of each bidirectional threaded rod 15 is rotationally connected with the inside of the stock bin 10, the inner wall of the shell 1 is rotationally connected with two supporting cylinders 17, the supporting frame 2 and the supporting rod 3 are positioned through the shell 1, the rotating rod 4 and the supporting rod 3 are placed to rotate, the gear I5 is fixed through the rotating rod 4, the rack 7 is placed in the sliding groove 6, the sliding groove 6 is positioned through the supporting frame 2, the gears I5 and the racks 7 are meshed, guarantee rack 7 can slide in the inside of sliding tray 6, fix bent rod 8 and recipient 9 through rack 7, still can carry out even copper plating's effect to it through the difference of steel band thickness through adjusting the gap realization between recipient 9 and the support section of thick bamboo 17, fix feed bin 10 through support frame 2, and fix feed bin 10 to flitch 11, place motor 12 and fix gear two 13, with gear three 14 and gear two 13 meshing, and fix bi-directional threaded rod 15 through gear two 13 and gear three 14, set up bi-directional threaded rod 15 and flitch 11 into threaded connection, two bi-directional threaded rod 15 are reverse to be placed, guarantee that bi-directional threaded rod 15 can make flitch 11 relative movement simultaneously, adjust the discharge gate size of feed bin 10.

Referring to fig. 1, 3 and 4, a blanking barrel 18, a first water storage tank 19 and a second water storage tank 20 are fixedly connected to the inner bottom wall of the shell 1, cavities 21 are formed in the inner wall of the shell 1 and are equidistantly arranged, the blanking barrel 18, the first water storage tank 19 and the second water storage tank 20 are positioned through the shell 1, chemical liquid is placed in the first water storage tank 19 and the second water storage tank 20 and used for soaking steel strips, and materials flowing down from the storage bin 10 are collected in the blanking barrel 18, so that materials can be saved.

Referring to fig. 4, the inner top wall of each cavity 21 is fixedly connected with a spring 22, the other end of each spring 22 is fixedly connected with a connecting block 23, the springs 22 are fixed by opening the cavities 21, and the connecting blocks 23 are fixed by the springs 22, so that the springs 22 are ensured to always tightly prop up the connecting blocks 23.

Referring to fig. 1 and 4, a roller 24 and a limit rod 27 are arranged above the first water storage tank 19 and the second water storage tank 20, the outer surface of each connecting block 23 is rotationally connected with two ends of the corresponding roller 24, the roller 24 and the limit rod 27 are positioned through the first water storage tank 19 and the second water storage tank 20, and the connecting blocks 23 and the roller 24 are connected together, so that the roller 24 is ensured to compress the steel belt all the time, and the flatness of the steel belt is ensured.

Referring to fig. 4, two transition rods 25 are embedded in the shell 1, fixing pins 26 are fixedly connected to the upper surface of the shell 1 and are equidistantly arranged, the transition rods 25 are placed and rotated with the interior of the shell 1, when the roller 24 is pressed down, the steel belt is pressed to the upper surface of the transition rods 25, and the flatness of the steel belt is ensured by the extrusion of the transition rods 25 and the roller 24.

Referring to fig. 4, the inner wall of each stop lever 27 is rotatably connected to the outer surface of the corresponding fixing pin 26, and the outer surface of each stop lever 27 contacts with the outer surface of the corresponding fixing pin 26, so that one end of the stop lever 27 is lifted up by rotation between the stop lever 27 and the fixing pin 26 to drive the stop lever 27 to rotate around the fixing pin 26.

Referring to fig. 4, a clamping groove 28 is formed in the upper surface of the housing 1, the inner wall of each clamping groove 28 is slidably connected with a clamping block 16, the clamping groove 28 is formed, the clamping block 16 is placed in the clamping groove 28, the reset limiting rod 27 is limited, and the limiting rod 27 is guaranteed to always press down the steel belt.

The embodiment of the application provides a continuous copper plating homogenizing device, which has the implementation principle that: the steel belt passes through a gap between the roller 24 and the transition rod 25, the limiting rod 27 is lifted to rotate with the fixing pin 26, then the steel belt is placed below the roller, the limiting rod 27 is reset to contact with the corresponding fixing pin 26, the clamping block 16 is placed to slide with the clamping groove 28, the steel belt is pressed down to the inside of the first water storage tank 19 through the limiting rod 27, the steel belt is in contact with internal liquid, at the moment, the steel belt is in contact with the upper surface of the corresponding second water storage tank 17, the motor 12 is started according to the width of the steel belt to drive the gear II 13 to be meshed with the gear III 14 to drive the bidirectional threaded rod 15 to rotate, the bidirectional threaded rod 15 drives the material plate 11 to relatively move in the inside of the storage bin 10, the size of a discharge hole of the storage bin 10 is adjusted, then the rotating rod 4 is screwed to drive the gear I5 to be meshed with the rack 7 to drive the rack 7 to slide in the inside of the sliding groove 6, the bent rod 8 is driven by the rack 7 to drive the extrusion cylinder 9 to move at the same time, the gap between the extrusion cylinder 9 and the supporting cylinder 17 is adjusted to the required thickness of the steel belt, at the moment, the steel belt enters the inside of the corresponding second water storage tank 20 through the upper surface of the supporting cylinder 17, the corresponding limiting rod 27 is pressed down to pass through the gap between the corresponding steel belt 24 and the transition rod 25.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (7)

1. A continuous copper plating homogenization device, comprising a shell (1), characterized in that: the utility model discloses a rotary press is characterized in that two support frames (2) and two support rods (3) are fixedly connected to the upper surface of a shell (1), a rotary rod (4), a bent rod (8) and a bin (10) are arranged above the shell (1), two first gears (5) are fixedly connected to the outer surface of the rotary rod (4), each support rod (3) is rotatably connected to the outer surface of the rotary rod (4), a sliding groove (6) is formed in one side, close to each support frame (2), of each support frame, racks (7) are slidably connected to the inner wall of each sliding groove (6), the outer surfaces of the racks (7) are meshed with the outer surfaces of corresponding first gears (5), one side, close to each rack (7), of each bent rod (8) is fixedly connected with two ends of the bent rod (8), an extrusion cylinder (9) is rotatably connected to the outer surface of each support frame (2), one side, close to each support frame is fixedly connected to the front surface and the back surface of the bin (10), a motor (11) is slidably connected to the inner wall of the bin (10), two output shafts (12) are fixedly connected to the front surface (12) of the bin (12), the inner walls of the gear II (13) and the gear III (14) are fixedly connected with bidirectional threaded rods (15), the outer surfaces of the bidirectional threaded rods (15) are in threaded connection with the inner walls of the corresponding material plates (11), the outer surfaces of the bidirectional threaded rods (15) are in rotary connection with the inside of the storage bin (10), and the inner wall of the shell (1) is in rotary connection with two supporting cylinders (17).

2. The continuous copper plating homogenization apparatus of claim 1, wherein: the blanking barrel (18), the first water storage tank (19) and the second water storage tank (20) are fixedly connected to the inner bottom wall of the shell (1), and cavities (21) which are arranged at equal intervals are formed in the inner wall of the shell (1).

3. The continuous copper plating homogenization apparatus of claim 2, wherein: the inner top wall of each cavity (21) is fixedly connected with a spring (22), and the other end of each spring (22) is fixedly connected with a connecting block (23).

4. A continuous copper plating homogenization apparatus according to claim 3, wherein: the upper parts of the first water storage tank (19) and the second water storage tank (20) are respectively provided with a roller (24) and a limiting rod (27), and the outer surface of each connecting block (23) is rotationally connected with two ends of the corresponding roller (24).

5. The continuous copper plating homogenization apparatus of claim 4, wherein: two transition rods (25) are embedded in the shell (1), and fixed pins (26) which are arranged at equal intervals are fixedly connected to the upper surface of the shell (1).

6. The continuous copper plating homogenization apparatus of claim 5, wherein: the inner wall of each limiting rod (27) is rotationally connected with the outer surface of the corresponding fixing pin (26), and the outer surface of each limiting rod (27) is contacted with the outer surface of the corresponding fixing pin (26).

7. The continuous copper plating homogenization apparatus of claim 1, wherein: the upper surface of casing (1) has seted up draw-in groove (28), and the inner wall of every draw-in groove (28) all sliding connection has fixture block (16).