CN110670110A - Basket for containing anode materials and horizontal electroplating line - Google Patents

Abstract

The invention provides a basket for containing anode materials and a horizontal electroplating line, wherein the anode materials are loaded into an inner cavity of a basket body from a conveying port by a conveying component outside a tank body, the anode materials slide into the other end of an upper-layer containing cavity of the basket body under the guidance of an inclined guide frame, the anode materials are dissolved and consumed in a solution to reduce the size and fall into a lower-layer containing cavity from a communicating hole, and at the moment, the anode materials can be continuously added into the upper-layer containing cavity; or, when the anode material is initially added, the anode material is guided to one end far away from the conveying port through the guide frame and directly falls into the lower-layer accommodating cavity through the communicating hole at the position, after the anode material in the lower-layer accommodating cavity reaches a certain amount, the anode material is prevented from continuously falling, the subsequent anode material is sequentially stacked and stays on the supporting position of the guide frame, the stacking of the anode material at the conveying port cannot be caused through the guiding of the guide frame, the addition of the anode material cannot be influenced in the electroplating process, and the feeding mode is simple and efficient.

Description

Basket for containing anode materials and horizontal electroplating line

Technical Field

The invention relates to the technical field of electroplating equipment, in particular to a basket for containing anode materials and a horizontal electroplating line.

Background

The conventional coil electroplating process generally adopts vertical electroplating, an upper clamp vertically clamps the top of a plate to be electroplated, a lower clamp is arranged at the bottom of the plate, the upper clamp is driven by a moving mechanism to horizontally move, and the lower clamp passively slides in a track on a base frame under the drive of the plate; and in the moving process of the upper clamp, the plates are driven to sequentially pass through the treatment grooves with different required procedures. Because panel is at the removal in-process, goes up the top that anchor clamps drove panel and moves, and anchor clamps move in the track under the bottom drive of panel, makes the top and the bottom of panel at the removal in-process, and there is the hysteresis in the bottom of panel relative to the top of panel, when arousing easily that panel moves in the solution of the treatment tank of different processes, and the wrinkle phenomenon takes place on the panel surface, influences the electroplating process and the electroplating quality of panel.

In order to solve the technical problem, if a horizontal electroplating process is adopted to treat the plate, the plate is kept in a horizontal state and sequentially passes through treatment tanks of different procedures under the driving of a traction mechanism. Wherein in the electroplating process, anode materials need to be placed on two sides of a plate to be electroplated in an electroplating solution, namely, in the horizontal electroplating process, the anode materials need to be placed on the upper side and the lower side of the plate, because the anode materials are always immersed in the electroplating solution in the electroplating process, the anode basket positioned on the upper side of the plate can adopt a conventional basket structure to directly throw the anode materials from the upper side of the basket at any time, but the anode basket positioned on the lower side is always positioned below the plate and the liquid level, because the conventional anode basket structure is a basket body with an opening at the top, the basket body is directly placed in the electroplating bath, the on-line feeding of the anode material in the electroplating process can not be realized, because the plating line continuously works for a long time, the throwing amount of the anode material in the anode basket at the lower side needs to be ensured, therefore, there is a need for a basket structure that is suitable for dispensing sufficient anode material under the plate at any time during the continuous electroplating process.

Disclosure of Invention

Therefore, the technical problem to be solved by the invention is that the existing basket structure for placing the anode material cannot realize the on-line feeding of the anode material to the lower part of the plate in the continuous electroplating process.

To this end, the invention provides a basket for anode material comprising

The basket body is provided with an inner cavity and at least one mesh arranged on the wall surface of the inner cavity;

the guide frame is arranged in the inner cavity of the basket body and divides the inner cavity of the basket body into an upper layer of accommodating cavity and a lower layer of accommodating cavity which are arranged side by side;

the conveying opening is formed in the side wall of the basket body positioned in the upper-layer accommodating cavity;

the conveying component is connected with the conveying opening and is suitable for extending out of the groove body where the basket body is located;

the guide frame is arranged from the conveying port to the other end of the basket body opposite to the conveying port in a downward inclined mode; and the top surface of the guide frame forms a support position for placing anode materials;

at least one communication hole which is arranged on the first guide frame and communicates the upper layer accommodating cavity with the lower layer accommodating cavity of the basket body; the lower layer accommodating cavity is used for receiving the anode material falling through the communicating hole.

Preferably, the basket for containing the anode material comprises at least two communication holes, and all the communication holes are sequentially distributed on the guide frame at intervals along the inclination direction of the guide frame.

Preferably, in the basket for containing the anode material, the guide frame is two guide bars, and the two guide bars are respectively fixed on two opposite side walls of the basket body;

and the communicating hole for communicating the upper layer accommodating cavity and the lower layer accommodating cavity of the basket body is formed between the two guide strips.

Preferably, in the basket for containing anode material, the distance between the two guide strips is gradually increased from one end of the conveying opening of the basket body to the other end of the conveying opening.

Preferably, in the basket for containing the anode material, the maximum distance between the two guide strips is not less than the straight line distance between the farthest two points on the surface of the anode material initially entering the upper layer containing cavity through the conveying opening.

Preferably, the bottom surface of the lower accommodating cavity of the basket body is inclined downwards from one end far away from the conveying opening to one end close to the conveying opening.

Preferably, in the basket for containing the anode material, a cleaning opening is formed at any end of the lower-layer containing cavity of the basket body;

and the sealing plate is detachably covered on the cleaning opening.

Preferably, the basket for containing the anode material is characterized in that the outer wall surface of the basket body is provided with an anode mud filter bag covering all the meshes.

Preferably, the basket for containing the anode material further comprises a dredging hole;

the dredging opening is formed in the conveying component and is suitable for being communicated with the upper-layer accommodating cavity of the basket body, and the dredging opening avoids the inlet arrangement of the conveying component.

Preferably, the above basket for holding the anode material, the conveying part is a conveying pipe.

The invention provides a horizontal plating line, comprising

At least one basket as described above for holding anode material.

The technical scheme of the invention has the following advantages:

1. the invention provides a basket for containing anode materials, which comprises a basket body, a guide frame, a conveying opening and a conveying part. The guide frame is arranged in the inner cavity of the basket body, the inner cavity of the basket body is divided into an upper layer of containing cavity and a lower layer of containing cavity which are arranged side by side, a conveying port is formed in the side wall of the basket body located in the upper layer of containing cavity, the conveying part is arranged outside the tank body and connected onto the conveying port, the guide frame is arranged by the conveying port in a manner that the conveying port inclines downwards towards the other end of the basket body opposite to the conveying port, a supporting position for placing anode materials is formed on the top surface of the guide frame, at least one communicating hole for communicating the upper layer of containing cavity and the lower layer of containing cavity of the basket body is formed in the guide frame, and the lower layer of containing cavity is. In the process that the anode material is loaded into the inner cavity of the basket body by the conveying component, the anode material slides into the other end of the upper accommodating cavity of the basket body under the guidance of the inclined guide frame, and the anode material is gradually dissolved and consumed in the solution so as to reduce the size and then falls into the lower accommodating cavity from the communicating hole, and at the moment, the anode material can be continuously added into the upper accommodating cavity; or, when the anode material is initially added, the anode material is guided to one end far away from the conveying port through the guide frame and directly falls into the lower-layer accommodating cavity through the communicating holes at the position, after the anode material in the lower-layer accommodating cavity reaches a certain amount, the communicating holes at the position are blocked, so that the subsequent anode material put in through the conveying port is sequentially stacked and stays on the supporting position of the guide frame, the conveying part is arranged outside the basket, the anode material entering the inner cavity of the basket can be distributed in the basket body under the guide of the guide frame, the stacking of the anode material at the conveying port cannot be caused, the addition of the anode material cannot be influenced in the electroplating process, and the putting mode is simple and efficient.

2. The invention provides a basket for containing anode materials, wherein a guide frame is composed of two guide strips, the two guide strips are respectively fixed on two opposite side walls of a basket body, and a communicating hole for communicating an upper layer containing cavity and a lower layer containing cavity of the basket body is formed between the two guide strips. The distance between the two guide strips is gradually increased from one end of the conveying opening of the basket body to the other end. The guide strips are simple in structure and low in cost, the distance between the guide strips is gradually increased, rolling assistance can be provided for the spherical anode material, the spherical anode material can be conveyed to the other end of the basket body more easily, and the filling efficiency of the anode material is improved.

3. According to the basket for containing the anode materials, the cleaning opening is formed in any end of the lower-layer containing cavity of the basket body, and the sealing plate is detachably covered on the cleaning opening. The anode mud deposited on the bottom surface of the lower accommodating cavity can be cleaned through the cleaning port.

4. According to the basket for containing the anode materials, the dredging hole is arranged to avoid the inlet of the conveying part and is communicated with the upper-layer containing cavity, when the anode materials are added into the upper-layer containing cavity, the anode materials can be blocked on the guide frame in the middle of the basket body under the influence of friction resistance, and the anode materials can be pushed inwards to be dredged by extending the dredging rod bodies such as the dredging rod into the upper-layer containing cavity from the dredging hole.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a first schematic structural view of a basket for holding anode material according to the present invention;

FIG. 2 is a second schematic structural view of a basket for holding anode material according to the present invention;

FIG. 3 is a schematic view of the structure of the guide bars in the basket for holding anode material according to the present invention;

fig. 4 is a partial cross-sectional view of a basket for holding anode material according to the present invention.

Description of reference numerals:

a 1-basket body; a 11-delivery port; a 12-cleaning port; a 13-fixing plate ribs;

a 2-guide bar; a 3-conveying pipe; a 31-dredging holes; a 4-sealing plate.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

This embodiment provides a basket for holding anode material, the basket adopts titanium material, as shown in fig. 1, including basket body a1, guide frame and conveyor means, in this embodiment, basket body a1 wholly is the cuboid structure, set up at least one mesh (not shown in the figure) on basket body a 1's the wall, can supply the inner chamber that the solution in the coating bath got into the basket, with dissolve anode material, the mesh is favorable to anode material to dissolve remaining anode mud to discharge equally, in this embodiment, basket body a 1's lateral wall and top surface all are covered with the mesh, and all mesh outsides all cover and establish anode mud filter bag (not shown in the figure), filter and the anode mud of keeping in storage through the filter bag, avoid anode mud to mix and influence the electroplating in the solution.

As shown in fig. 1, the fixing plate ribs a13 are uniformly distributed on the inner walls of two opposite sides of the basket body a1, the guide frame is fixed on the fixing plate ribs a13 on two sides, and the fixing plate ribs a13 are beneficial to improving the overall stability of the titanium basket structure, as shown in fig. 4, the guide frame divides the inner cavity of the basket body a1 into an upper accommodating chamber and a lower accommodating chamber which are arranged side by side, a delivery port a11 is formed in the side wall of the basket body a1 located in the upper accommodating chamber, and a delivery part is arranged outside the tank and is hermetically connected to the delivery port 483a 11.

As shown in fig. 2, the guide frame is arranged from the delivery port a11 to incline downwards towards the other end of the basket body a1 opposite to the delivery port a11, the top surface of the guide frame forms a support position for placing the anode material, the guide frame is provided with at least one communication hole for communicating the upper and lower accommodating chambers of the basket body a1, and the lower accommodating chamber is used for receiving the anode material falling through the communication hole. In this embodiment, as shown in fig. 3, the guiding frame is two guiding bars a2, the two guiding bars a2 are respectively fixed on two opposite side walls of the basket body a1, and a communication hole for communicating the upper and lower accommodating cavities of the basket body a1 is formed between the two guiding bars a 2.

In this embodiment, the distance between the two guide bars a2 is equal to and smaller than the linear distance between the farthest points on the surface of the anode material, the anode material loaded from the delivery pipe a3 slides or rolls from the delivery port a11 to the other end of the upper receiving cavity under the guidance of the inclined guide bar a2, in this embodiment, the anode material is copper balls, the linear distance between the farthest points on the surface of the copper balls is the diameter of the copper balls, because the diameter of the copper balls is larger than the distance between the two guide bars a2, when the copper balls are initially added, the copper balls are sequentially arranged on the supporting positions formed by the two guide bars a2 and located in the upper receiving cavity, as the copper balls are dissolved and consumed, the diameter of the copper balls gradually decreases, when the diameter of the copper balls is smaller than the distance between the two guide bars a2, the copper balls fall into the lower receiving cavity, at this time, the copper balls can be continuously added from the delivery pipe a3, the newly added copper balls are sequentially arranged on the supporting position formed by the two guide strips a2 and are positioned in the upper layer accommodating cavity, and the copper balls positioned in the upper layer accommodating cavity and the copper balls positioned in the lower layer accommodating cavity are dissolved and consumed at the same time. The consumption of copper ball layer by layer adds again and is favorable to controlling the quantity of copper ball, adds excessive copper ball simultaneously, and the more that copper ball dissolves, the more that produces anode mud, the worse the effect of filter bag filtration anode mud, the more that mix in the solution anode mud, just influence electroplating quality more easily.

When the distance between the two guide bars a2 gradually increases from one end of the delivery opening a11 of the basket body a1 to the other end and the maximum distance is smaller than the straight-line distance between the farthest two points on the surface of the anode material, that is, the maximum distance is smaller than the diameter of the copper ball, since the object always moves from the high point to the low point under the gravity action in the normal state, that is, the center of gravity moves downward, when the copper ball is placed on the two guide bars a2, the center of gravity of the copper ball is above the central axis of the orbit plane formed by the two guide bars a2, the center of gravity of the copper ball will move downward due to the gravity action, because the distance between the two guide bars a2 gradually increases, that is, the distance of the two guide bars a2 from the central axis of the orbit is gradually increased, the distance of the center of gravity of the copper ball from the orbit plane is gradually decreased, and the copper ball stops moving against the inner wall of the basket body a 36, the center of gravity of the copper ball is now closest to the orbital plane. Because the guide strips a2 are obliquely arranged in the inner cavity of the basket, the copper ball tends to roll downwards only along the inclined surface, and the distance between the two guide strips a2 is gradually increased, so that the copper ball rolling acceleration is facilitated, and particularly in a solution, the resistance of liquid is more conveniently overcome, and the purpose of quickly adding the copper ball is achieved.

When the number of the communicating holes on the guide frame is at least two, all the communicating holes are sequentially distributed on the guide frame at intervals along the inclination direction of the guide frame. That is, when the distance between the two guide bars a2 gradually increases from one end of the delivery opening a11 of the basket body a1 to the other end and the maximum distance is greater than or equal to the linear distance between the farthest points on the surface of the anode material, that is, the maximum distance is greater than or equal to the diameter of the copper ball, at this time, two communication holes are formed between the two guide bars a2, that is, from the starting end, the communication hole formed between two guide bars a2 having a distance smaller than the diameter of the copper ball is the first communication hole, the communication hole formed between two guide bars a2 having a distance greater than or equal to the diameter of the copper ball is the second communication hole, and the first communication hole and the second communication hole are sequentially distributed on the rolling path of the copper ball along the inclined direction of the guide bar a 2. Copper balls are put into the lower accommodating cavity from the conveying port a11 and then roll to the second communicating hole along the guide strip a2 and fall into the lower accommodating cavity from the second communicating hole, the copper balls are distributed on the bottom surface of the lower accommodating cavity, in the embodiment, the bottom surface of the basket body a1 is a horizontal plane, after the copper balls in the lower accommodating cavity reach a certain number, the copper balls below the second communicating hole are gradually stacked and block the second communicating hole, so that the subsequent copper balls put into the lower accommodating cavity through the conveying port a11 are sequentially stacked and stay on the support position of the guide strip a2 in the upper accommodating cavity, and as the copper balls in the lower accommodating cavity are only stacked below the second communicating hole, and the guide strip a2 is obliquely arranged, a certain accommodating space is still left in the lower accommodating cavity below the first communicating hole, and as the copper balls are consumed, the copper balls in the upper accommodating cavity still can fall into the accommodating space.

Of course, in order to increase the amount of the copper balls initially added, the bottom surface of the lower accommodating chamber may be inclined downward from the end far away from the delivery port a11 to the end near the delivery port a11, so that the copper balls entering the lower accommodating chamber from the second communication hole roll along the inclined surface and quickly fill the lower accommodating chamber.

As shown in fig. 1 or fig. 2, a dredging hole a31 is formed in the delivery pipe a3 at a position avoiding the inlet, the dredging hole a31 is communicated with the upper-layer accommodating cavity, when the anode material is blocked in the moving process of the guide frame, the anode material can be extended into the dredging hole a31 through a dredging rod (not shown) or other stick parts and pushed inwards to be dredged, a sealing cover is arranged on the dredging hole a31 and is in threaded fit with the outer edge of the dredging hole a31, and the sealing cover is screwed and sealed on the dredging hole a31 in a normal state.

As shown in fig. 1, a cleaning opening a12 is further formed at one end of the lower accommodating cavity, so that anode mud deposited on the bottom surface can be conveniently cleaned out from the cleaning opening a12 when the titanium basket is cleaned. The sealing plate a4 is detachably covered on the cleaning opening a12, in this embodiment, a slot (not shown) is provided on the inner wall surface of the basket body a1 at one side of the cleaning opening a12, and the sealing plate a4 is inserted and fixed in the slot.

As a first alternative embodiment of example 1, the guide frame may be configured as a flat plate, a plurality of communicating holes are uniformly formed on the flat plate along the moving direction of the anode material, the size of the communicating holes is larger than that of the initially-placed anode material, the anode material rolls along the inclined flat plate and is sequentially arranged in the communicating holes, and the anode material gradually consumes less in the solution and then falls into the lower layer accommodating chamber from the communicating holes.

As a second alternative embodiment of example 1, the guiding frame may be a guiding strip a2, the guiding strip a2 is fixed on the fixing plate rib a13 of one side wall of the basket body a1 in an inclined manner, and a communicating hole for communicating the upper and lower accommodating cavities of the basket body a1 is formed between the guiding strip a2 and the other opposite side wall surface.

Example 2

This example provides a horizontal plating line comprising the basket for holding anode material of example 1.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (11)

1. A basket for holding anode material, comprising:

a basket body (a1) having an inner cavity and at least one mesh provided on a wall surface thereof;

the guide frame is arranged in the inner cavity of the basket body (a1) and divides the inner cavity of the basket body (a1) into an upper layer of accommodating cavity and a lower layer of accommodating cavity which are arranged side by side;

the conveying opening (a11) is formed in the side wall of the basket body (a1) positioned in the upper layer accommodating cavity;

a conveying component connected with the conveying opening (a11) and suitable for extending out of the tank body where the basket body (a1) is positioned;

the guide frame is arranged in a manner of being inclined downwards from the delivery port (a11) towards the other end of the basket body (a1) opposite to the delivery port (a 11); and the top surface of the guide frame forms a support position for placing anode materials;

at least one communication hole which is arranged on the guide frame and communicates the upper and lower accommodating cavities of the basket body (a 1); the lower layer accommodating cavity is used for receiving the anode material falling through the communicating hole.

2. The basket for holding anode materials as claimed in claim 1, wherein the number of the communication holes is at least two, and all the communication holes are sequentially spaced on the guide frame along the inclined direction of the guide frame.

3. The basket for anode material according to claim 1, wherein said guide frame is two guide bars (a2), two said guide bars (a2) being fixed on two opposite side walls of said basket body (a1), respectively;

the communicating hole for communicating the upper and lower accommodating cavities of the basket body (a1) is formed between the two guide strips (a 2).

4. The basket for holding anode material as claimed in claim 3, wherein the distance of the interval between the two guide bars (a2) is gradually increased from one end of the delivery port (a11) of the basket body (a1) to the other end.

5. The basket for anode material containing according to claim 4, wherein the maximum distance of the interval between the two guide strips (a2) is not less than the straight line distance between the farthest points on the surface of the anode material initially entering the upper layer containing cavity through the delivery opening (a 11).

6. The basket for anode material according to claim 5, wherein the bottom surface of the lower receiving cavity of the basket body (a1) is inclined downwards from the end far away from the delivery port (a11) towards the end near the delivery port (a 11).

7. The basket for holding anode material as claimed in any one of claims 1 to 5, wherein the basket body (a1) is provided with cleaning ports (a12) at either end of the lower layer receiving cavity;

and a sealing plate (a4) detachably covering the cleaning opening (a 12).

8. The basket for anode material as claimed in claim 7, wherein said basket body (a1) has an outer wall surface provided with anode mud filter bags covering all said meshes.

9. The basket for containing anode material according to any one of claims 1 to 5, further comprising a venting opening (a 31);

the dredging opening (a31) is arranged on the conveying component and is suitable for communicating with the upper accommodating cavity of the basket body (a1), and the dredging opening (a31) is arranged to avoid the inlet of the conveying component.

10. Basket for anode material according to claim 9, characterized in that said conveying means are conveying pipes (a 3).

11. A horizontal plating line is characterized by comprising

At least one basket for anode material according to any one of claims 1 to 10.

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