METHOD FOR CLEANING ELECTROPLATING DEVICE

Abstract

Disclosed in the present invention is a method for cleaning an electroplating device. When the electroplating device is cleaned, a partition is used for replacing an ionic membrane framework to separate a cathode chamber and an anode chamber, such that the cathode chamber and the anode chamber are independently cleaned. After an electroplating chamber is cleaned, an exhaust pipe is used for emptying the cleaning solution remaining in the anode chamber and in the liquid inlet channel arranged in a sidewall of the anode chamber, such that no cleaning solution remains after the electroplating chamber is cleaned, thereby eliminating the effect of the residual cleaning solution on the ionic concentration ratio of an electroplating solution in electroplating solution preparation procedures.

Claims

1. A method for cleaning an electroplating device, the electroplating device comprising an electroplating chamber which having a cathode chamber and an anode chamber, a liquid inlet channel being arranged in the sidewall of the anode chamber for supplying liquid to the cathode chamber, the method comprising the following steps: providing a partition, which is installed between the cathode chamber and the anode chamber to separate the cathode chamber and the anode chamber; supplying cleaning solution into the cathode chamber to clean the cathode chamber; supplying cleaning solution into the anode chamber to clean the anode chamber; after the cathode chamber and the anode chamber are cleaned, drain the cleaning solution in the cathode chamber and the anode chamber through their respective liquid outlets; removing the partition from between the cathode chamber and the anode chamber; providing a first exhaust pipe, one end of the first exhaust pipe being placed into the liquid inlet channel provided in the sidewall of the anode chamber, the other end being connected to a pump, draining the cleaning solution in the liquid inlet channel through the pump; providing a second exhaust pipe, one end of the second exhaust pipe being placed into the anode chamber, the other end being connected to a pump, draining the cleaning solution in the anode chamber through the pump.

2. The method for cleaning an electroplating device according to claim 1, wherein the electroplating device also comprises an ionic membrane framework arranged between the anode chamber and the cathode chamber, the method further comprises: taking out the ionic membrane framework from the electroplating chamber before installing the partition, and then installing the partition in the installation position of the ionic membrane framework.

3. The method for cleaning an electroplating device according to claim 2, further comprising: after pumping out the cleaning solution in the anode chamber and the liquid inlet channel, reinstall the ionic membrane framework between the anode chamber and the cathode chamber.

4. The method for cleaning an electroplating device according to claim 1, wherein the electroplating device includes a diffusion plate, the method further comprising: after the partition is installed and before the cleaning solution is supplied to the cathode chamber, install the diffusion plate on one side of the partition located in the cathode chamber, so that the diffusion plate and the cathode chamber are cleaned simultaneously.

5. The method for cleaning an electroplating device according to claim 1, wherein the partition is provided with through holes, when the partition is installed between the cathode chamber and the anode chamber, the liquid inlet of the through holes is connected to the liquid outlet of the liquid inlet channel, and the liquid outlet of the through holes is located in the cathode chamber for supplying cleaning solution to the cathode chamber.

6. The method for cleaning an electroplating device according to claim 1, wherein the electroplating device further comprises a cathode fluid tank connected to the cathode chamber through a pipeline, when the electroplating device is in cleaning mode, the cleaning solution is stored in the cathode fluid tank for supplying the cleaning solution to the cathode chamber, when the electroplating device is in electroplating mode, the electroplating solution is stored in the cathode fluid tank for supplying the electroplating solution to the cathode chamber.

7. The method for cleaning an electroplating device according to claim 1, wherein the electroplating device also includes an anode fluid tank connected to the anode chamber through a pipeline, when the electroplating device is in cleaning mode, the cleaning solution is stored in the anode fluid tank for supplying the cleaning solution to the anode chamber, when the electroplating device is in electroplating mode, the electroplating solution is stored in the anode fluid tank for supplying the electroplating solution to the anode chamber.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0023] FIG. 1 shows a schematic diagram of an electroplating device according to an embodiment of the present invention;

[0024] FIG. 2 illustrates a perspective view of a partition according to an embodiment of the present invention;

[0025] FIG. 3 illustrates another perspective view of the partition according to an embodiment of the present invention;

[0026] FIG. 4 shows a schematic diagram of an electroplating device after installing a partition according to an embodiment of the present invention;

[0027] FIG. 5 illustrates a schematic diagram of an electroplating device after installing a partition and a diffusion plate according to an embodiment of the present invention;

[0028] FIG. 6 is a sectional view showing an electroplating chamber of an electroplating device in the prior art;

[0029] FIG. 7 shows a sectional view in the A-A direction in FIG. 6.

DETAILED DESCRIPTION OF EMBODIMENTS

[0030] To provide a detailed description of the technical content, structural features, achieved objectives and effects of the present invention, the following will be described in detail with reference to embodiments and accompanying diagrams.

[0031] Please refer to FIG. 1. An electroplating device proposed in an embodiment of the present invention has an electroplating chamber 100, a cathode fluid tank 200 and an anode fluid tank 300. The electroplating chamber 100 has a cathode chamber 110, an anode chamber 120, and an ionic membrane framework 130. The cathode chamber 110 surrounds the periphery of the anode chamber 120, and the ionic membrane framework 130 is provided with an ionic membrane between the cathode chamber 110 and the anode chamber 120. To be specific, the ionic membrane framework 130 is provided at the top of the anode chamber 120, which separates the cathode chamber 110 and the anode chamber 120 into two independent chambers.

[0032] The anode chamber 120 has a liquid inlet 121 and a liquid outlet 122, both of which are provided on the bottom wall of the anode chamber 120. Wherein, the liquid inlet 121 of the anode chamber 120 is used for supplying liquid to the anode chamber 120, and the liquid outlet 122 of the anode chamber 120 is used for emptying the liquid in the anode chamber 120.

[0033] The cathode chamber 110 has a liquid inlet channel 111 and a liquid outlet 112. Liquid inlet channel 111 is used for supplying liquid to the cathode chamber 110, and the liquid outlet 112 of the cathode chamber 110 is used to empty the liquid inside the chamber. Liquid inlet channel 111 is provided in the sidewall of the anode chamber 120, specifically, the liquid inlet channel 111 is a cavity provided in the sidewall of the anode chamber 120, and its cross-sectional shape is any shape such as arc, rectangle, ring, and so on. Typically, the ionic membrane framework 130 has a plurality of radial inlet branches 131, and each outlet of the liquid inlet channel 111 is connected to one of the liquid inlet branches 131 for supplying liquid to the cathode chamber 110.

[0034] In the present embodiment, as shown in FIG. 1, the cathode fluid tank 200 is connected to the liquid inlet channel 111 for supplying liquid to the cathode chamber 110 through the liquid supply line L1, and to the liquid outlet 112 of the cathode chamber 110 through the liquid return line L2, so that the liquid in the cathode fluid tank 200 circulates between the cathode chamber 110 and the cathode fluid tank 200. Similarly, the anode fluid tank 300 is connected to the liquid inlet 121 of the anode chamber 120 through the liquid supply line L3, and to the liquid outlet 122 of the anode chamber 120 through the liquid return line L4, thereby circulating the liquid in the anode fluid tank 300 between the anode chamber 120 and the anode liquid tank 300.

[0035] FIG. 2 and FIG. 3 are the structure diagrams of the partition used in cleaning the electroplating device of the present invention. Partition 400 comprises a plate body 410 and through holes 420 provided on the plate body 410. When the electroplating device is to be cleaned, partition 400 is mounted between cathode chamber 110 and anode chamber 120, more specifically, partition 400 is mounted at the mounting position of the ionic membrane framework 130. The partition 400 replaces the ionic membrane framework 130, separating the cathode chamber 110 and the anode chamber 120 into two separate chambers. In the present embodiment, the outline of the plate body 410 is circular, the peripheral edge has upward raised steps, and through holes 420 are processed into L-shaped ones at the steps. As shown in FIG. 4, when the partition 400 is installed between the cathode chamber 110 and the anode chamber 120, the liquid inlet of the through holes 420 is aligned with and connected to the liquid outlet of the liquid inlet channel 111 of the cathode chamber 110, and the liquid outlet of the through holes 420 is located within the cathode chamber 110, so that liquid can be supplied to the cathode chamber 110 via the liquid inlet channel 111 and the through holes 420. It can be understood that the plate body 410 of the partition 400 may also not set the through holes 420 connected to the liquid inlet channel 111 of the cathode chamber 110 in other embodiments. In other embodiments, the partition 400 is used merely to block the mutual flow of fluid between the cathode chamber 110 and the anode chamber 120. And when the partition 400 is mounted between the cathode chamber 110 and the anode chamber 120, it does not block the liquid outlet of the liquid inlet channel 111 that supplies liquid to the cathode chamber 110, which in turn does not affect the supply of liquid from the cathode fluid tank 200 to the cathode chamber 110.

[0036] The method for cleaning an electroplating device proposed by the present invention comprises the following steps: [0037] Step 1, if the ionic membrane framework 130 has been installed in the electroplating chamber 100, remove the ionic membrane framework 130 from the electroplating chamber 100, clean the ionic membrane framework 130 separately, and perform Step 2; if the ionic membrane framework 130 has not been installed in the electroplating chamber 100, then perform Step 2; [0038] Step 2, provide the partition 400, install the partition 400 between the cathode chamber 110 and the anode chamber 120, isolating the cathode chamber 110 from the anode chamber 120, as shown in FIG. 4; [0039] Step 3, store the cleaning solution in the cathode fluid tank 200, which can be acid, lye or ultra-pure water. The cathode fluid tank 200 supplies the cleaning solution to the cathode chamber 110 to clean the chamber. Typically, the cathode chamber 110 is cleaned multiple times by acid, lye and ultra-pure water in sequence, respectively; [0040] Step 4, store the cleaning solution in the anode fluid tank 300, which can be acid, lye or ultra-pure water. The anode fluid tank 300 supplies the cleaning solution to the anode chamber 120 to clean the chamber. Typically, the anode chamber 120 is cleaned multiple times by acid, lye and ultra-pure water in sequence, respectively; [0041] Step 5, when the cathode chamber 110 and the anode chamber 120 are cleaned completely, the cleaning solution of the cathode chamber 110 is drained through the liquid outlet 112 of the cathode chamber 110, and returned to the cathode fluid tank 200 through the liquid return line L2, and then the returned cleaning solution is drained form the cathode fluid tank 200; the cleaning solution in the anode chamber 120 is drained through the liquid outlet 122 of the anode chamber 120, and returned to the anode fluid tank 300 through the liquid return line L4, and then the returned cleaning solution is drained from the anode fluid tank 300; [0042] Step 6, remove the partition 400 from between the cathode chamber 110 and the anode chamber 120; [0043] Step 7, provide a first exhaust pipe (the figure is not shown), one end of the first exhaust pipe is placed into the liquid inlet channel 111 provided in the sidewall of the anode chamber 120, the other end is connected to a pump (the figure is not shown), and the cleaning solution in the liquid inlet channel 111 is pumped out through the pump; [0044] Step 8, similar to Step 7, provide a second exhaust pipe (the figure is not shown), one end of the second exhaust pipe is placed into the anode chamber 120, the other end is connected to a pump (the figure is not shown), and the cleaning solution in the anode chamber 120 is pumped out through the pump; [0045] Step 9, after pumping out the cleaning solution in the anode chamber 120 and the liquid inlet channel 111, reinstall the ionic membrane framework 130 between the cathode chamber 110 and the anode chamber 120.

[0046] The electroplating device further comprises a diffusion plate 140, which can be cleaned individually. Alternatively, as shown in FIG. 4, after installing the partition 400 and before supplying the cleaning solution to the cathode chamber 110, install the diffusion plate 140 on one side of the partition 400 located in the cathode chamber 110, and clean the diffusion plate 140 and the cathode chamber 110 at the same time.

[0047] In the foregoing method for cleaning an electroplating device, Step 3 and Step 4 are carried out simultaneously, that is, after the cathode chamber 110 and the anode chamber 120 are separated by the partition 400, the two chambers are cleaned independently at the same time. After the cleaning of above-described electroplating device, when the electroplating device is to be used for electroplating the substrate, the cathode fluid tank 200 empties the cleaning solution for storing the electroplating solution and supplies the electroplating solution to the cathode chamber 110. The anode fluid tank 300 empties the cleaning solution for storing the electroplating solution and supplies the electroplating solution to the anode chamber 120.

[0048] In the present invention, when cleaning the electroplating device, the cathode chamber 110 and the anode chamber 120 are separated by using the partition 400 instead of the ionic membrane framework 130, so that the two chambers are cleaned independently. And after the electroplating chamber 100 is cleaned, an exhaust pipe is used to empty the residual cleaning solution in the anode chamber 120 and the liquid inlet channel 111 arranged in the sidewall of the anode chamber 120, so that there is no cleaning solution residue after the electroplating chamber is cleaned, thereby eliminating the effect of the cleaning solution residue on the ionic concentration ratio of the electroplating solution in the electroplating solution preparation procedures.

[0049] In conclusion, the present invention has disclosed the relevant technology specifically and in detail through the above-described embodiments and related diagrams, so that those skilled in the art can implement it accordingly. However, the above description is intended only to explain the present invention, and should not be considered as limiting the present invention. The protection scope of the present invention should be defined by the attached claims. And various details in this specification can also be modified or changed in various ways based on different viewpoints and applications without departing from the spirit of the present invention.