CN212983062U - Copper ball belt cleaning device - Google Patents

Abstract

The utility model discloses a copper ball cleaning device, which comprises a rotary screen with filter holes, wherein a conveying channel for allowing copper balls to pass through is arranged in the rotary screen, and the conveying channel is sequentially provided with a feeding cavity, a cleaning cavity and a screening cavity along the conveying direction of the copper balls; the cleaning cavity is arranged in a cleaning area, and the cleaning area cleans the copper balls entering the area by using cleaning liquid; the screening cavity at least comprises a large-hole screening cavity arranged far away from the cleaning cavity and a small-hole screening cavity arranged close to the cleaning cavity, a large ball discharge hole is formed in the large-hole screening cavity, and a small ball discharge hole is formed in the small-hole screening cavity; the rotary screen is provided with a power device for driving the rotary screen to rotate; the utility model provides a copper ball belt cleaning device aims at carrying out self-cleaning to the copper ball, and carries out automatic classification to the copper ball after the self-cleaning accomplishes.

Description

Copper ball belt cleaning device

Technical Field

The application relates to the field of printed circuit boards, in particular to a copper ball cleaning device.

Background

After the copper ball is used for a period of time in the electroplating of the printed circuit board, the anode mud generated by the copper ball is too fast due to high current density, so that the plating layer on the board is uneven up and down, the board is not completely etched in the etching process, and the product quality is reduced. Copper ball anode mud produces excessively, and when the upper and lower R value deviation exceeded 10um, the titanium basket that is equipped with the copper ball was carried out the titanium basket of watching copper ball anode mud situation, reached the middle part of titanium basket like anode mud, need wash the anode mud that the copper ball produced this moment, washd the anode mud that produces on its surface, could continue to use.

The traditional cleaning method is to pour the phosphorus-copper balls containing the sludge into a cleaning pool filled with sulfuric acid and hydrogen peroxide, on one hand, workers do not easily stir the copper balls because the copper balls are too heavy; on the other hand, workers need to drain the liquid medicine after cleaning, and then wash the liquid medicine for a plurality of times by using tap water, so that the liquid medicine and the sludge cannot be thoroughly washed, and the large and small copper balls are difficult to classify. In view of the above, it is desirable to provide a copper ball cleaning device to solve the above problems.

Disclosure of Invention

The utility model discloses mainly to above problem, provided a copper ball belt cleaning device, aim at carrying out self-cleaning to the copper ball, and carry out automatic classification to the copper ball after the self-cleaning is accomplished.

In order to achieve the purpose, the utility model provides a copper ball cleaning device, which comprises a rotary screen with filter holes, wherein a conveying channel for allowing copper balls to pass through is arranged in the rotary screen, and the conveying channel is sequentially provided with a feeding cavity, a cleaning cavity and a screening cavity along the conveying direction of the copper balls; the cleaning cavity is arranged in a cleaning area, and the cleaning area cleans the copper balls entering the area by using cleaning liquid; the screening cavity at least comprises a large-hole screening cavity arranged far away from the cleaning cavity and a small-hole screening cavity arranged close to the cleaning cavity, a large ball discharge hole is formed in the large-hole screening cavity, and a small ball discharge hole is formed in the small-hole screening cavity; and the rotary screen is provided with a power device for driving the rotary screen to rotate.

Further, the washing chamber includes an acid washing chamber which is washed with a liquid medicine and a water washing chamber which is washed with a clear water.

Further, the transfer passage also has a first compartment disposed between the pickling chamber and the water washing chamber.

Further, the conveying channel is also provided with a second separation cavity arranged between the water washing cavity and the small-hole screening cavity.

Furthermore, the copper ball cleaning device also comprises an acid washing liquid tank for receiving the liquid medicine and a cleaning liquid tank for receiving the clean water, wherein circulating water pumps for pumping all cleaning liquid into the cleaning area are respectively arranged in the acid washing liquid tank and the cleaning liquid tank.

Further, copper ball belt cleaning device is including being equipped with a plurality of loading attachment that separate the mouth.

Furthermore, the conveying channel comprises a plurality of partition plates connected with the inner wall of the rotary screen, the partition plates are spirally provided with a material guide plate along the conveying direction of the copper balls, the material guide plate is obliquely arranged along the feeding direction of the copper balls, and a notch is arranged on one oblique side.

Furthermore, a movable trolley used for receiving copper balls is arranged on the outer side of the screening cavity, the movable trolley at least comprises a first cavity box and a second cavity box which are respectively connected with a large ball discharge port and a small ball discharge port, the first cavity box and the second cavity box are respectively provided with a charging hole for containing the copper balls to fall out, and the first cavity box and the second cavity box are respectively provided with a charging pipe corresponding to each charging hole.

Furthermore, the movable trolley also comprises a supporting rack for placing the titanium basket, the supporting rack comprises a supporting part contacted with the end part of the titanium basket and a lifting part contacted with the peripheral wall of the titanium basket, and the distance between the supporting part and the lifting part is adjustable.

Further, a gate switch for closing the charging port is provided between the charging port and the charging pipe.

Compared with the prior art, the utility model provides a pair of copper ball belt cleaning device has following advantage:

1. the sludge phosphor copper balls can be automatically cleaned in a limited rotary screen space, and the sludge phosphor copper balls are automatically screened and classified;

2. the recycling of the liquid medicine and the tap water can be realized, the waste of the liquid medicine and the tap water is avoided, and the labor intensity of workers can be reduced;

3. the flexibly-used movable cart is matched and designed below the rotary screen, so that the cleaned copper balls can be automatically reloaded into the titanium basket, and the labor intensity is further reduced;

other advantages of the present invention are further clarified in the detailed description.

Drawings

FIG. 1 schematically depicts a front view configuration of a copper ball cleaning device according to one embodiment of the present disclosure.

FIG. 2 schematically depicts a copper ball cleaning device left view configuration according to one embodiment of the present disclosure.

FIG. 3 schematically depicts a front view configuration of a lower rotary screen according to one embodiment of the present disclosure.

FIG. 4 schematically depicts a perspective structure of a lower rotary screen according to one embodiment of the present disclosure.

Fig. 5 schematically depicts a connection structure of a lower separator plate and a guide plate according to an embodiment of the present disclosure.

Fig. 6 schematically depicts a perspective structure of a mobile cart according to one embodiment of the present disclosure.

FIG. 7 schematically depicts the structure of a lower charging device according to one embodiment of the present disclosure.

In the figure:

100. a frame;

200. rotating the screen; 20. a delivery channel; 21. a power plant; 22. an output shaft; 23. a separator plate; 24. a material guide plate; 25. a material guiding cover; 201. a feed cavity; 202. a pickling chamber; 203. a first compartment; 204. a water washing cavity; 205. a second compartment; 206. a small-bore screening chamber; 207. a macroporous screening chamber; 2001. Filtering holes; 2002. discharging the small balls; 2003. a large ball discharge hole; 2004. a notch;

300. a cleaning zone; 30. a pickling bath; 31. a cleaning liquid tank; 32. a water circulating pump; 33. a pod; 34. a liquid discharge pipe; 301. washing the spray head with water; 302. a pickling spray head;

400. a feeding device; 40. a dividing strip; 41. a sewage draining cover; 42. a vibration motor; 401. a separation port;

500. a movable cart; 50. a first cell; 51. a second cell; 52. a charging pipe; 53. a support stand; 54. a gate switch; 55. a deflector rod; 56. hanging a table; 501. a charging port; 502. a chute; 530. A holding portion; 531. a lifting part; 532. an adjustment mechanism;

600. a titanium basket; 700. a material receiving box.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings, wherein the technical solutions in the embodiments of the present invention are clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Disclosed herein is a copper ball cleaning apparatus, which may include balls, carbon balls, phosphor copper balls, solder balls, nickel blocks, and the like.

In some embodiments, a copper ball cleaning device for use in electroplating of printed circuit boards is provided, as shown in fig. 1 to 7, the steel ball cleaning device may include a frame 100 provided with a rotary screen 200, the frame 100 is provided with a power device 21 for driving the rotary screen 200 to rotate, the rotary screen 200 may include a rotary screen 200 having a circular cylinder with multiple filtering holes 2001, or may be a rotary screen 200 having a multi-face structure with multiple filtering holes 2001, a conveying channel 20 for copper balls to pass through is provided in the rotary screen 200, and the conveying channel 20 may sequentially provide a feeding cavity 201, a cleaning cavity and a screening cavity along a conveying direction of the copper balls.

In some embodiments, the feeding cavity 201 is open to one side to allow copper balls to enter therethrough; meanwhile, in some embodiments, the above-mentioned washing chamber may include a plurality of pickling chambers 202 washed with a sulfuric acid solution and a plurality of washing chambers 204 washed with clean water, where the pickling chambers 202 and the washing chambers 204 may be arranged side by side in the same type, or may be arranged in a cross manner, and further, a first separation chamber 203 may be arranged between the pickling chambers 202 and the washing chambers 204, a second separation chamber 205 may be arranged between the washing chambers 204 and the screening chambers, and the first separation chamber 203 and the second separation chamber 205 may separate water to prevent mixing, and of course, a user may also combine at will, wash the entering copper balls first, then wash the copper balls, and the protection range of this embodiment is not limited thereto.

In some embodiments, the screening chamber may include at least a large-pore screening chamber 207 disposed far from the washing chamber and a small-pore screening chamber 206 disposed near the washing chamber, the large-pore screening chamber 207 is provided with a large ball discharge port 2003, the small-pore screening chamber 207 is provided with a small ball discharge port 2002, and the screening chamber may further include a plurality of medium-pore screening chambers located between the large-pore screening chamber 207 and the small-pore screening chamber 206, so that the copper ball washing apparatus in this embodiment can wash and sort more copper balls of different sizes or different types.

As shown in fig. 1, a cleaning area 300 is arranged on the frame 100, wherein the acid washing chamber 202 flushed by using liquid medicine and the water washing chamber 204 flushed by using clear water are both arranged in the cleaning area 300, and copper balls entering the area, including copper balls entering the rotary screen 200, can be cleaned by using different types of cleaning liquids in the cleaning area 300; it can be understood that, after copper ball got into feed cavity 201, washing shower nozzle 301 and pickling shower nozzle 302 on the purge zone 300 spout washing liquid and pickle respectively, get into washing cavity 204 and pickling cavity 202 that gyratory sieve 200 corresponds from filtration pore 2001, in order to avoid liquid medicine and running water to mix, can set up the baffle in position between the two, set up between pickling cavity 202 and washing cavity 204 and separate the chamber, like this can furthest avoid causing secondary pollution when copper ball passes through from transfer passage 20, be favorable to saving liquid medicine, the water economy resource.

In some embodiments, the foregoing copper ball cleaning apparatus may further include a diversion cover 33 and a drain pipe 34 for respectively diverting different cleaning solutions flowing out from the filtering holes 2001 into the pickling solution tank 30 and the cleaning solution tank 31, a circulating water pump 32 for pumping each cleaning solution into the cleaning area 300 is respectively disposed in the pickling solution tank 30 and the cleaning solution tank 31, and a filtering mechanism (not shown) is disposed in the pickling solution tank 30 and the cleaning solution tank 31 for filtering impurities in sludge after cleaning.

As shown in fig. 3-5, the conveying channel 20 includes several partitions 23 connected to the inner wall of the rotary screen 200 to form a washing chamber, a first compartment 203, a second compartment 205 and a screening chamber in the above embodiment, the partitions 23 are provided with material guiding plates 24 spirally arranged along the conveying direction of the copper balls, the material guiding plates 24 are arranged obliquely along the feeding direction of the copper balls, and a notch 2004 is provided at one oblique side, an output shaft 22 of the power device 21 extends into the rotary screen 200, passes through each partition 23 and each partition 23, is fixedly connected with each partition 23 through a bolt, the output shaft 22 rotates to directly drive the whole rotary screen 200 to synchronously move, the copper balls entering from the feeding chamber 201 are continuously turned over under the action of the material guiding plates 24 to fully contact with the liquid medicine and tap water, and finally, under the combination of gravity and the material guiding plates 24, the notch 2004 enters the next pickling chamber 202 or the first compartment 203 or the pickling chamber 204, when the copper balls reach the screening cavity, the small copper balls flow out from the small ball outlet 2002, the medium or large copper balls continuously turn over and enter the medium-hole screening cavity and the large-hole screening cavity 207 in sequence, wherein the filtering holes 2001, the small ball outlet 2002 and the large ball outlet 2003 are uniformly distributed along the circumferential direction of the cylinder wall of the rotary screen 200 and slightly inclined towards the rotation direction of the rotary screen 200, so that the cleaning liquid in the rotary screen can be better discharged, and the copper balls with different sizes can be screened.

In some embodiments, when the copper balls respectively flow out of the respective discharge ports, the guiding hoods 25 are respectively arranged to guide the flowing copper balls, and the operator can place the matching movable cart 500 at the ball receiving position at this time or before the cleaning is started; as shown in fig. 6, the movable cart 500 may include at least a first chamber 50 and a second chamber 51, and the first chamber 50 and the second chamber 51 respectively correspond to the material guide covers 25 to receive copper balls as a large ball storage area and a small ball storage area.

In practical use, considering that the anode bag is not directly attached to the surface of the anode, the anode bag is sleeved outside the copper ball which is filled in a titanium basket; in this regard, in order to make the cleaned copper balls directly enter the titanium basket to complete the basket loading, the present embodiment provides a support rack 53 on which the titanium basket 600 can be placed and a charging tube 52 for automatically loading the copper balls.

Specifically, the first chamber 50 and the second chamber 51 may be provided with inclined bottom surfaces facing one position, so that copper balls entering the inclined bottom surfaces are stacked on one side under gravity, the side surfaces corresponding to the inclined bottom surfaces are respectively provided with a charging port 501 through which the copper balls can flow out of the chamber, a charging pipe 52 butted with the charging port 501 is provided outside the charging port 501, a gap is left between the charging port 501 and the charging pipe 52, a chute 502 may be provided on the side wall, a shutter switch 54 capable of closing the gap is mounted on the chute 502, and a lever 55 is provided on the shutter switch 54 in order to facilitate the movement of the shutter switch 54.

Specifically, the supporting rack 53 includes a supporting portion 530 contacting with an end of the titanium basket 600 and a lifting portion 531 contacting with a peripheral wall of the titanium basket 600, a distance between the supporting portion 530 and the lifting portion 531 is adjustable by providing an adjusting mechanism 532, and the supporting rack 53 is disposed on the movable cart 500 in an inclined manner, for example, in the embodiment shown in fig. 6.

It can be understood that, in use, an operator can place the titanium basket 600 obliquely, and by adjusting the distance between the supporting part 530 and the lifting part 531, the receiving port of the titanium basket 600 is butted with the charging pipe 52, and charging is performed after the gate switch 54 is opened; after the titanium basket 600 is full, an operator can toggle the shift lever 55 to enable the gate switch 54 to close the charging opening 501, and the full titanium basket 600 can be hung on the hanging platform 56 of the movable cart 500 to be fully dried and stored.

In some embodiments, as shown in fig. 1 or fig. 7, the copper ball cleaning device may include a feeding device 400 having a plurality of partition openings 401, where the partition openings 401 are formed by partition strips 40 arranged at intervals, the partition strips 40 form a slope surface for facilitating the copper balls to enter the feeding cavity 201, and the partition strips 40 on both sides of the partition openings 401 may increase a fall distance in a range of 1-5 mm along the slope surface, so as to ensure that the poured copper balls are not jammed by abutting against each other at the middle position of the elongated partition openings 401; in addition, can also set up vibrating motor 42 on loading attachment 400, be favorable to the unloading of rolling of copper ball on the one hand, on the other hand is beating and is rolling the in-process at the copper ball, can separate copper ball, mud and tiny copper ball.

Preferably, a pollution discharge cover 41 is arranged at the lower end of the separation port 401, and a material receiving box 700 is placed at the outlet position of the lower end of the pollution discharge cover 41 and used for collecting sludge and fine copper balls.

The present invention is not limited to the above embodiments, and any embodiments mentioned in the description fall within the scope of the present invention.

It is right to have used specific individual example above the utility model discloses expound, only be used for helping to understand the utility model discloses, not be used for the restriction the utility model discloses. To the technical field of the utility model technical personnel, the foundation the utility model discloses an idea can also be made a plurality of simple deductions, warp or replacement.

Claims (10)

1. The copper ball cleaning device is characterized by comprising a rotary screen with filter holes, wherein a conveying channel for allowing copper balls to pass through is arranged in the rotary screen, and a feeding cavity, a cleaning cavity and a screening cavity are sequentially arranged in the conveying channel along the conveying direction of the copper balls; the cleaning cavity is arranged in a cleaning area, and the cleaning area cleans the copper balls entering the area by using cleaning liquid; the screening cavity at least comprises a large-hole screening cavity arranged far away from the cleaning cavity and a small-hole screening cavity arranged close to the cleaning cavity, a large ball discharge hole is formed in the large-hole screening cavity, and a small ball discharge hole is formed in the small-hole screening cavity; and the rotary screen is provided with a power device for driving the rotary screen to rotate.

2. The copper ball cleaning device according to claim 1, wherein the cleaning chambers comprise an acid washing chamber which is flushed with a liquid medicine and a water washing chamber which is flushed with clear water.

3. The copper ball washing apparatus as claimed in claim 2, wherein the transfer passage further comprises a first compartment disposed between the pickling chamber and the water washing chamber.

4. The copper ball washing device as claimed in claim 3, wherein the conveying passage further comprises a second compartment disposed between the water washing chamber and the small-hole screening chamber.

5. The copper ball cleaning device according to claim 2, further comprising a pickling liquid tank for receiving the chemical liquid and a cleaning liquid tank for receiving the clean water, wherein the pickling liquid tank and the cleaning liquid tank are respectively provided with a circulating water pump for pumping each cleaning liquid into the cleaning area.

6. The copper ball cleaning device according to claim 4, wherein the copper ball cleaning device comprises a feeding device provided with a plurality of separation openings.

7. The copper ball cleaning device according to claim 1, wherein the conveying channel comprises a plurality of partition plates connected with the inner wall of the rotary screen, the partition plates are provided with guide plates spirally arranged along the conveying direction of the copper balls, the guide plates are obliquely arranged along the feeding direction of the copper balls, and a notch is arranged on one oblique side.

8. The copper ball cleaning device according to claim 1, wherein a movable cart for receiving the copper balls is arranged outside the screening chamber, the movable cart comprises at least a first chamber box and a second chamber box which are respectively connected with a large ball discharge port and a small ball discharge port, the first chamber box and the second chamber box are respectively provided with a charging port for allowing the copper balls to fall out, and the first chamber box and the second chamber box are respectively provided with a charging pipe corresponding to each charging port.

9. The copper ball cleaning device according to claim 8, wherein the movable cart further comprises a support rack for placing the titanium basket, the support rack comprises an abutting part contacting with the end part of the titanium basket and a lifting part contacting with the peripheral wall of the titanium basket, and the distance between the abutting part and the lifting part is adjustable.

10. The copper ball cleaning device according to claim 8, wherein a shutter for closing the charging port is provided between the charging port and the charging pipe.

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