JPS62139900A - Electrolytic plating device - Google Patents
Electrolytic plating deviceInfo
- Publication number
- JPS62139900A JPS62139900A JP28182885A JP28182885A JPS62139900A JP S62139900 A JPS62139900 A JP S62139900A JP 28182885 A JP28182885 A JP 28182885A JP 28182885 A JP28182885 A JP 28182885A JP S62139900 A JPS62139900 A JP S62139900A
- Authority
- JP
- Japan
- Prior art keywords
- plating
- cathode
- pseudo
- anode
- tank
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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- Electroplating Methods And Accessories (AREA)
Abstract
Description
【発明の詳細な説明】
(産業上の利用分野)
本発明はめっき装置、特に電気鋳造法に使用する電解め
っき装置の改良に関するものである。DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an improvement in a plating apparatus, particularly an electrolytic plating apparatus used in an electroforming method.
(従来の技術)
めっきは、安価な金属の表面を他の金属で被覆し、すぐ
れた特性を持たせることができるため、また、物品の表
面を緻密に覆い、精密な形状模写ができるため、装飾、
防食1表面硬化、電鋳その他、多用途にわたって利用さ
れていが、めっきを成功させ物品の表面に良質の金属を
析出させるためには、めっき作業現場でのめっき液の管
理の良否が重要な要因となる。(Prior art) Plating can coat the surface of inexpensive metals with other metals to give them superior properties, and it also allows for precise shape reproduction by covering the surface of articles closely. decoration,
Corrosion Prevention 1 It is used for surface hardening, electroforming, and many other purposes, but in order for plating to be successful and high-quality metal to be deposited on the surface of the article, good management of the plating solution at the plating work site is an important factor. becomes.
即ち、めっき液中に所望の金属以外の不純金属イオンが
混入すればめっき表面にざらつき、ピンホール、光沢む
ら等が発生し、また、析出金属の脆化等の現象が発生し
良好なめっき品を得ることはできない。In other words, if impure metal ions other than the desired metal are mixed into the plating solution, roughness, pinholes, uneven gloss, etc. will occur on the plating surface, and phenomena such as embrittlement of the deposited metal will occur, resulting in poor quality of the plated product. cannot be obtained.
そこで、現場作業者は、めっきl夜の管理には充分の注
意を払っているが、不浄金属イオンはあらゆる経路から
侵入し、これを完全に防止することは極めて困難である
。Therefore, field workers pay sufficient attention to the management of plating, but impure metal ions enter from all routes and it is extremely difficult to completely prevent this.
そのため、現実には、一定期間毎に又は不良の発生があ
ればその都度、めっき作業を中止し、めっき槽内に電導
性の平板又は波板を設置し、問題の金属イオンを本来の
めっき作業においての電流密度よりも低い電流密度、あ
るいは高い電流密度で電解析出させ、除去する作業を行
っていた。Therefore, in reality, plating work is stopped at regular intervals or whenever a defect occurs, and a conductive flat plate or corrugated plate is installed in the plating tank to remove the problematic metal ions from the original plating process. Electrolytic deposition and removal work was carried out at a current density lower or higher than the current density used in the conventional method.
しかしながら、この作業は被めっき物と電導性平板等の
切り換えや除去作業に手間と時間を要すルモのであり、
特に電気鋳造のように一つのめっき作業に3日〜30日
もの長期間を要する場合においては、非常に困難な作業
であった。However, this work requires time and effort to switch and remove the plated object and the conductive plate, etc.
This is a very difficult task, especially when one plating operation requires a long period of 3 to 30 days, such as electroforming.
(発明が解決しようとする問題点)
本発明はかかる実状に着目し、めっき作業中、あるいは
作業休憩中にめっき液中の不純金属イオンを除去し、め
っき液の管理を容易にして、常に最高の状態でめっき作
業を行い得ることを可能ならしめ、良箕のめっきを施す
ことができる電解めっき’AMを提供することを目的と
する。(Problems to be Solved by the Invention) The present invention has focused on this actual situation, and removes impure metal ions from the plating solution during plating work or during work breaks, thereby making it easier to manage the plating solution and always keeping it at the highest level. An object of the present invention is to provide electrolytic plating 'AM' which enables plating work to be performed in the above conditions and which enables plating of good quality.
(問題点を解決するための手段)
しかして、上述の目的に適合し、その問題点を解決する
ための本発明の特徴とするところは、その第1の発明は
、同一の電解めっき液を満たし、互いに配管接続された
主めっき槽と少なくとも1つの擬似めっき槽ならびに少
くとも1つの直流電源と、めっき液循環装置を含み、王
めっき槽内には陽極板と陰極たる被めっき物が、一方、
擬似めっき槽中には陽極板及び擬似陰極板がそれぞれ浸
漬され、直流電源がそれぞれの槽の陽極板、陰極たる被
めっき物、擬似陰極板に王めっき槽と擬似めっき槽の陰
極電流密度が異なるように接続された構成であり、今一
つは、第2の発明はより簡易な装置として電解めっき液
を満たしためっき槽中に、少なくとも1つの陽極板と、
陰極たる被めっき物及び擬似陰極板を浸漬し、直流電源
を槽中の陽極板、陰極板を被めっき物および擬似陰極板
に両者の陰極電流密度が異なるように夫々接続した構成
にある。(Means for Solving the Problems) Therefore, the feature of the present invention, which is compatible with the above-mentioned object and solves the problems, is that the first invention is characterized in that the same electrolytic plating solution is used. The primary plating tank includes a main plating tank and at least one pseudo plating tank, which are connected to each other by piping, as well as at least one DC power supply and a plating solution circulation device. ,
An anode plate and a pseudo cathode plate are each immersed in a pseudo plating tank, and a DC power supply is applied to each tank's anode plate, the object to be plated as a cathode, and the pseudo cathode plate. The second invention is a simpler device in which at least one anode plate is connected in a plating bath filled with an electrolytic plating solution, and
The object to be plated as a cathode and a pseudo cathode plate are immersed, and a DC power supply is connected to the anode plate and the cathode plate in the tank so that the cathode current densities of the two are different.
ここで、陰極電流密度が異なるとは、該密度に高低を存
していることであり、何れが高いか、又は低いかはめっ
き液と不純金属の組み合わせにより決まり、必ずしも特
定されるものではない。Here, the difference in cathode current density means that there are high and low densities, and which one is higher or lower depends on the combination of the plating solution and impure metal, and is not necessarily specified. .
(作用)
以上の如き本発明装置は何れのものも本来のめっきに使
用する電極以外の電極をめっき槽中に浸漬し、夫々互い
に異なる陰極電流密度で弱電解、あるいは強電解を行い
、めっき液中の不純金属イオンを除去するものであり、
第1の発明は、めっき槽とは別個に擬似めっき槽を設け
、両めっき検量のめっき液をめっき液循環装置で循環し
つつ、被めっき物にめっきを析出し、めっきを行う一方
、擬似めっき槽中で弱電解、あるいは強電解を行い、連
続してめっき液中の不純金属の除去を行うものである。(Function) In each of the devices of the present invention as described above, electrodes other than those used for the original plating are immersed in a plating bath, and weak electrolysis or strong electrolysis is performed at different cathode current densities, respectively, to form a plating solution. It removes impure metal ions in
The first invention provides a pseudo plating tank separate from the plating tank, and deposits plating on the object to be plated while circulating the plating solution for both plating calibrations in a plating solution circulation device. Impure metals in the plating solution are continuously removed by performing weak or strong electrolysis in a bath.
一方、第2の発明はめっき槽中に直接電極を浸漬して同
様の作用を行うものである。On the other hand, the second invention performs the same action by directly immersing the electrode in the plating bath.
(実施例)
以下、更に本発明の具体的な実施例について説明するが
、本発明は以下の実施例中の数値、材質に拘泥するもの
でないことは云うまでもない。(Examples) Specific examples of the present invention will be further described below, but it goes without saying that the present invention is not limited to the numerical values and materials in the following examples.
第1図は本発明の第1の発明に係るものでありワット浴
による光沢ニッケルめっきに応用した場合である。同第
1図において、(1)はゴムライニング鋼板製の王めっ
き槽であり、例えば下記の如き組成、即ち、
硫酸ニッケル 350 g/(1
塩化ニツケル 7 Q g / i2硼酸
30g/II
光沢剤 2 g / i2ビット防止剤
0.1g/β
からなる組成(ワット浴)のニッケルめっき液(2)が
満たされており、該液中にはチタンバスケット(3)中
に挿入したニッケル陽極(4)が浸漬され、かつ陰極た
る被めっき吻(5)が通常の、引っ掛け(6)により吊
り下げ保持されていると共に、液温を保つためのヒータ
(7)が挿入されている。FIG. 1 shows the first aspect of the present invention, which is applied to bright nickel plating using a Watt bath. In FIG. 1, (1) is a plating tank made of rubber-lined steel plate, and has the following composition, for example: nickel sulfate 350 g/(1 nickel chloride 7 Q g/i2 boric acid)
The titanium basket (3) is filled with a nickel plating solution (2) having a composition (Watt bath) consisting of 30 g/II brightener 2 g/i2 bit inhibitor 0.1 g/β. The plated nickel anode (4) is immersed therein, and the cathode to be plated (5) is suspended and held by a hook (6), and a heater (7) is inserted to maintain the temperature of the liquid. There is.
一方、(8)はゴムライニング鋼板製の擬似めっき槽で
あり、前記組成と同じ組成のめっき液が満たされ、該め
っき液(2)中にはポリブロピレンアノードバソグ(9
)に挿入したニッケル陽極(l[I+及び曲げ角度90
で波の一辺100 *vである鋼製の波板(11)が鋼
製引っ掛け(12)に吊り下げられ浸漬されている。On the other hand, (8) is a pseudo plating tank made of rubber-lined steel plate, filled with a plating solution having the same composition as the above, and the plating solution (2) contains a polypropylene anode bathog (9
) inserted into a nickel anode (l[I+ and bending angle 90
A steel corrugated plate (11) with a wave length of 100 *v is suspended and immersed in a steel hook (12).
そして、上記主めっき槽(11と擬似めっき槽(8)は
中間にポンプ等のめっき液循環装置(13)及びフィル
タ(14)を有する送り配管(15)と、中間にポンプ
等のめっき液循環装置(16)を有する戻り配管(27
)によりめっき液の交換が可能なように互いに配管され
ている。The main plating tank (11) and the pseudo-plating tank (8) have a feed pipe (15) having a plating solution circulation device (13) such as a pump and a filter (14) in the middle, and a plating solution circulation device such as a pump in the middle. Return pipe (27) with device (16)
) are connected to each other so that the plating solution can be exchanged.
しかして、上記の如き構成において、両めっき槽には夫
々、直流電m (17)と(18)が付設されていて、
主めっき槽(11側の直/N、電tx (17)の陽極
、陰極 −は夫々玉めっき槽(1)のニッケル陽極(
4)及び陰極たる被めっき物(5)に陰極電流密度が2
.5A〜5A/dm”になるように調整接続され、一方
、擬似めっき槽(8)側の直流電源(18)の陽極、陰
極は擬似めっき槽(8)のニッケル陽極QOI及び波板
(11)に陰極電流密度が上述の主めっき槽(1)側の
陰極たる被めっき物(5)の電流密度と異なる値、例え
ば0.2A〜0.3A/dm2になるように調整接続さ
れている。Therefore, in the above configuration, both the plating baths are provided with DC currents m (17) and (18), respectively.
The anode and cathode of the main plating tank (11 side direct/N, electric tx (17)) are the nickel anode (1) of the ball plating tank (1), respectively.
4) and the cathode to be plated (5) has a cathode current density of 2.
.. On the other hand, the anode and cathode of the DC power supply (18) on the side of the pseudo plating tank (8) are connected to the nickel anode QOI of the pseudo plating tank (8) and the corrugated plate (11). The cathode current density is adjusted and connected to a value different from the current density of the cathode to be plated (5) on the side of the main plating tank (1), for example, 0.2 A to 0.3 A/dm2.
そこで、今、叙上のようなめっきHでヒータ(7)によ
り液温を略一定に保ち、めっき液循環装置(13) (
16)を運転して両槽(11(81間のめっき液を循環
しつつ主めっき槽(1)及び擬似めっき槽(8)の陽極
(4)0ω、陰極(51(11)に通電すると、一方の
陰極である被めっき物(5)には正常なめっきを析出さ
せながら他方の擬似めっき槽(8)で不純金属イオンの
除去を行うことができ、しかも、途中のフィルタ(14
)で不溶解金属を除去することもでき、良好なめっき作
業が可能となる。Therefore, in plating H as described above, the temperature of the solution is kept approximately constant using the heater (7), and the plating solution circulation device (13) (
16) and circulating the plating solution between both tanks (11 (81), the anode (4) 0Ω and cathode (51 (11) of the main plating tank (1) and pseudo plating tank (8) are energized. Impure metal ions can be removed in the other pseudo plating tank (8) while normal plating is deposited on the object to be plated (5), which is one of the cathodes.
) can also remove undissolved metal, allowing for better plating work.
特に、この場合、フィルタに活性炭フィルタを使用すれ
ば溶解不純有機物も除去でき、より効果的である。Particularly in this case, if an activated carbon filter is used as the filter, dissolved impurity organic matter can also be removed, which is more effective.
又、めっき液の状態によってはめっき作業のみを、ある
いは不純金属イオンの除去作業のみを行うこともできる
。Further, depending on the condition of the plating solution, only the plating work or only the removal work of impure metal ions can be performed.
なお、上記本発明における擬似めっき槽(8)の陰極電
流密度はめっき液と、不純金属の種類により選択される
ものであるが、本実施例の場合は主として不純金属が銅
あるいは金属カドミウムである場合に通するものが用い
られる。The cathode current density of the pseudo plating tank (8) in the present invention is selected depending on the plating solution and the type of impure metal, but in this example, the impure metal is mainly copper or metal cadmium. The one that fits the case is used.
これ以外、例えば鉄、亜鉛などの場合は0.2A〜0.
5A/dm2程度が好適である。Other than this, for example, in the case of iron, zinc, etc., it is 0.2A to 0.
Approximately 5 A/dm2 is suitable.
又、めっき液と不純金属の組み合わせによっては、被め
っき物の陰極電流密度よりも、擬似めっき槽の陰極電流
密度の方が高い状態にしなければならない場合もある。Further, depending on the combination of plating solution and impure metal, the cathode current density of the pseudo plating bath may have to be higher than the cathode current density of the object to be plated.
なお、擬似めっき槽は1個に限らず、数個設置して夫々
異なる陰極電流密度に設定し、数種の不純金属を連続し
て除去することも可能である。Note that the number of pseudo-plating tanks is not limited to one, but it is also possible to install several tanks and set different cathode current densities to successively remove several types of impure metals.
又、上記実施例では王めっき槽+11と擬似めっき槽(
8)の間に2個のめっき液循環装置(13) (16)
を設け、めっ′き液を循環するが、本装置の設置場所の
条件が許せば、主めっき槽と擬似めっき槽を高低差のあ
る位置に設置し、重力差を設けてパルプ操作により、又
はオーバーフロー管を利用してめっき液を循環しめっき
液循環装置の一つを省略することもできる。In addition, in the above embodiment, the royal plating tank +11 and the pseudo plating tank (
8) Two plating solution circulation devices (13) (16)
If the conditions of the installation location of this equipment permit, the main plating tank and the pseudo plating tank should be installed at different heights to create a gravity difference and use the pulp operation to circulate the plating solution. Alternatively, it is also possible to circulate the plating solution using an overflow pipe and omit one of the plating solution circulation devices.
更に複数個の主めっき槽に対して、1個の擬似めっき槽
を並列に配管接続し配管切り換えにより1個の擬似めっ
き槽で、不純金属除去作業を賄うこともでき、あるいは
、擬似めっき槽、ポンプ。Furthermore, by connecting one pseudo plating tank in parallel to multiple main plating tanks and switching the piping, one pseudo plating tank can cover the work of removing impure metals. pump.
フィルタ及び配管をユニット化し、持ち運び可能として
多数の主めっき槽に対応することも工業上有利である。It is also industrially advantageous to make the filter and piping into a unit and make it portable so that it can accommodate a large number of main plating tanks.
第2図は前記実施例に対し本発明の第2の発明に係る電
解めっきHKの1例である。FIG. 2 shows an example of electrolytic plating HK according to the second aspect of the present invention in contrast to the above embodiment.
図中、(19)はゴムライニング鋼板製電解めっき槽で
あり、前述の実施例におけると同様組成のめっき?&、
(20)が満たされ、該/&(20)中に多数のチタン
バスケット(21A) (21B)・・・・中に挿入し
たニソケル陽極(22A) (22B)・・・と陰極た
る被めっき物(23)及び擬似陰極たる鋼製の波板(2
4)が夫々吊り金具(図示せず)を用いて浸漬されてい
る。In the figure, (19) is an electrolytic plating tank made of rubber-lined steel plate, and has the same composition as in the previous example. &,
(20) is filled, a large number of titanium baskets (21A) (21B)... are inserted into the /& (20), and Nisokel anodes (22A) (22B)... and the object to be plated as a cathode are filled. (23) and a steel corrugated plate (2
4) are respectively immersed using hanging fittings (not shown).
そして、直流電源(25)の陽極、陰極が夫々めっき槽
(19)内のニッケル陽極(22A)及び陰極たる被め
っき物(23)に、陰極電流密度が2.5A〜5A/
d m 2に調整接続され、又、直流電源(26)の陽
極。Then, the anode and cathode of the DC power supply (25) are applied to the nickel anode (22A) and cathode to be plated (23) in the plating tank (19), respectively, at a cathode current density of 2.5A to 5A/2.
d m2 and also the anode of the DC power supply (26).
陰極が夫々ニッケル陽極(21B)及び陰極たる波板(
24)に陰極電流密度がO,LA/dm”に調整されて
いる。The cathode is a nickel anode (21B) and a corrugated plate (21B) as a cathode, respectively.
24), the cathode current density was adjusted to O, LA/dm''.
そして、これら両電極に通電することにより、被めっき
物(23)にめっきが析出され、擬似陰極たる波板(2
4)には、不純金属が析出されることは「述の実施例で
述べたと同様である。By supplying electricity to both of these electrodes, plating is deposited on the object to be plated (23), and the corrugated plate (23) serving as a pseudo cathode is deposited.
In 4), the fact that impure metals are deposited is the same as that described in the previous example.
(発明の効果)
本発明の電解めっき装置は以上の如き構成からなり、め
っき液中に擬似陰極を浸清し、めっき作業休止中は勿論
のこと、めっき作業中でもめっき作業を継続したままで
めっき液中の不純金属イオンの析出除去を行うことがで
き、めっき液の不純金属イオンに対する管理を容易に、
かつ迅速になし、常に良好なめっき液の状態でめっき作
業を行うことを可能ならしめ、良質のめっきを析出生産
することができる効果を有する。(Effects of the Invention) The electrolytic plating apparatus of the present invention has the above-mentioned configuration, and the pseudo cathode is immersed in the plating solution, and plating can be performed not only during suspension of plating work but also during plating work while continuing plating work. Impure metal ions in the plating solution can be precipitated and removed, making it easy to manage impure metal ions in the plating solution.
Moreover, it has the effect of making it possible to perform plating work quickly and always with a good plating solution, and producing high-quality plating by precipitation.
特に、電気鋳造の場合、めっき作業を長期間にわたって
片時も休止できないので、本発明の電解めっきを使用す
る効果は極めて大である。In particular, in the case of electroforming, the plating operation cannot be stopped even for a moment for a long period of time, so the effect of using the electrolytic plating of the present invention is extremely large.
しかも、第1の発明については、主めっき槽と擬似めっ
き槽に分割し、めっき析出部と、不純金属析出部が完全
に分離されているので、作業性が高く、かつ擬似めっき
槽の陽極、擬似陰極を操作する際に、被めっき物に対し
て何の悪影響も与えることがない利点を存し、更にフィ
ルタを利用すればめっき液中の不溶解金属等の除去をも
同時に行うことができるのみならず、活性炭フィルタを
採用すれば、不純存機吻の除去も可能である利点を有す
る。Moreover, the first invention is divided into a main plating tank and a pseudo-plating tank, and the plating deposit part and the impure metal deposit part are completely separated, so workability is high, and the anode of the pseudo-plating tank is When operating the pseudo cathode, it has the advantage of not having any adverse effects on the object to be plated, and furthermore, by using a filter, it is possible to remove insoluble metals etc. from the plating solution at the same time. In addition, if an activated carbon filter is used, it is possible to remove impurities.
又、並列配管、あるいは擬似めっき槽をユニット化する
ことにより、多数の主めっき槽に対してめっき液の管理
を行うことができる効果もある。Furthermore, by using parallel piping or unitizing the pseudo plating tanks, it is possible to manage the plating solution for a large number of main plating tanks.
又、第2の発明のめっき装置は、特に構造が簡単であり
、工業上、頗る有用である。Furthermore, the plating apparatus of the second invention has a particularly simple structure and is extremely useful industrially.
第1図は本発明の第1の発明に係る電解めっき装置の概
要図、第2図は本発明の第2の発明に係る電解めっき装
置の平面概要図である。
(1)・・・王めっき槽、(2)・・・めっき液。
(4) (10) ・・・ニッケル陽極。
(5)・・・陰極たる被めっき物。
(8)・・・擬似めっき槽、 (11) ・・・擬
似陰極。
(13) (16)・・・めっき液循環装置。
(14)・・・フィルタ、 (15) ・・・配管
。
(17) (1B)・・・直流電源、 (19)
・・・めっき槽。
(20)・・・めっき7夜、(22八) (22B)
・・・ニッケル。
(23)・・・陰極たる被めっき物。
(24)・・・擬似陰極、 (25) (26)
・・・直流電源。FIG. 1 is a schematic diagram of an electrolytic plating apparatus according to a first aspect of the present invention, and FIG. 2 is a schematic plan view of an electrolytic plating apparatus according to a second aspect of the present invention. (1)... King plating tank, (2)... Plating solution. (4) (10) ...Nickel anode. (5)...An object to be plated as a cathode. (8)...pseudo plating tank, (11)...pseudo cathode. (13) (16)...Plating solution circulation device. (14)...Filter, (15)...Piping. (17) (1B)...DC power supply, (19)
...Plating tank. (20)...7 nights of plating, (228) (22B)
···nickel. (23)...An object to be plated as a cathode. (24)...pseudo cathode, (25) (26)
...DC power supply.
Claims (1)
た主めっき槽と少なくとも1つの擬似めっき槽ならびに
少なくとも1つの直流電源と前記両めっき槽の間に配設
されためっき液循環装置よりなり、主めっき槽内には、
陽極板と、陰極たる被めっき物が、一方、擬似めっき槽
内には陽極板及び擬似陰極板が夫々浸漬保持され、かつ
前記直流電源が、それぞれの槽の陽極板、陰極たる被め
っき物、擬似陰極板に主めっき槽と擬似めっき槽の各陰
極電流密度が異なるように接続されていることを特徴と
する電解めっき装置。 2、めっき液循環装置が、途中にフィルタを有している
特許請求の範囲第1項記載の電解めっき装置。 3、陰極板が波板である特許請求の範囲第1項又は第2
項記載の電解めっき装置。 4、電解めっき液を満たしためっき槽中に、少なくとも
1つの陽極板と、陰極たる被めっき物及び擬似陰極板を
浸漬保持し、かつ、槽中の陽極板と陰極たる被めっき物
及び擬似陰極板に、両者の陰極電流密度が異なるように
直流電源を接続してなることを特徴とする電解めっき装
置。 5、擬似陰極板が波板である特許請求の範囲第4項記載
の電解めっき装置。[Claims] 1. A main plating tank and at least one pseudo plating tank filled with the same electrolytic plating solution and connected to each other by piping, and a plating tank disposed between at least one DC power supply and both of the plating tanks. It consists of a liquid circulation device, and inside the main plating tank,
On the other hand, the anode plate and the pseudo-cathode plate are respectively immersed and held in a pseudo plating tank, and the DC power supply is connected to the anode plate and the cathode of the respective tank, An electrolytic plating apparatus characterized in that a main plating tank and a pseudo plating tank are connected to a pseudo cathode plate so that cathode current densities of the main plating tank and the pseudo plating tank are different. 2. The electrolytic plating apparatus according to claim 1, wherein the plating solution circulation device has a filter in the middle. 3. Claim 1 or 2 in which the cathode plate is a corrugated plate
The electrolytic plating apparatus described in Section 1. 4. At least one anode plate, the object to be plated as a cathode, and a pseudo cathode plate are immersed and held in a plating tank filled with an electrolytic plating solution, and the anode plate, the object to be plated as a cathode, and the pseudo cathode plate are held in the tank. An electrolytic plating apparatus characterized in that a DC power source is connected to the plate so that the cathode current densities of the two plates are different. 5. The electrolytic plating apparatus according to claim 4, wherein the pseudo cathode plate is a corrugated plate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP28182885A JPS62139900A (en) | 1985-12-13 | 1985-12-13 | Electrolytic plating device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP28182885A JPS62139900A (en) | 1985-12-13 | 1985-12-13 | Electrolytic plating device |
Publications (1)
Publication Number | Publication Date |
---|---|
JPS62139900A true JPS62139900A (en) | 1987-06-23 |
Family
ID=17644566
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP28182885A Pending JPS62139900A (en) | 1985-12-13 | 1985-12-13 | Electrolytic plating device |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS62139900A (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2011017064A (en) * | 2009-07-10 | 2011-01-27 | Fujitsu Semiconductor Ltd | Plating treatment method and method for manufacturing semiconductor device |
JP2016145383A (en) * | 2015-02-06 | 2016-08-12 | 栗田工業株式会社 | Surface treatment method for aluminum or aluminum alloy, and surface treatment device |
JP2016145381A (en) * | 2015-02-06 | 2016-08-12 | 栗田工業株式会社 | Porous film, and method and device for producing the same |
JP2020020034A (en) * | 2018-07-24 | 2020-02-06 | 富士ゼロックス株式会社 | Plating apparatus and manufacturing method of plated parts |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS4883043A (en) * | 1972-02-07 | 1973-11-06 | ||
JPS49106927A (en) * | 1973-02-17 | 1974-10-11 | ||
JPS5145628A (en) * | 1974-10-16 | 1976-04-19 | Nippon Steel Corp | |
JPS52149105A (en) * | 1976-06-07 | 1977-12-12 | Hitachi Ltd | Preparation of magnetic disc with high recording density |
JPS5322829A (en) * | 1976-08-16 | 1978-03-02 | Suzuki Motor Co | Method of removing impurities in composite plating solution |
-
1985
- 1985-12-13 JP JP28182885A patent/JPS62139900A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS4883043A (en) * | 1972-02-07 | 1973-11-06 | ||
JPS49106927A (en) * | 1973-02-17 | 1974-10-11 | ||
JPS5145628A (en) * | 1974-10-16 | 1976-04-19 | Nippon Steel Corp | |
JPS52149105A (en) * | 1976-06-07 | 1977-12-12 | Hitachi Ltd | Preparation of magnetic disc with high recording density |
JPS5322829A (en) * | 1976-08-16 | 1978-03-02 | Suzuki Motor Co | Method of removing impurities in composite plating solution |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2011017064A (en) * | 2009-07-10 | 2011-01-27 | Fujitsu Semiconductor Ltd | Plating treatment method and method for manufacturing semiconductor device |
JP2016145383A (en) * | 2015-02-06 | 2016-08-12 | 栗田工業株式会社 | Surface treatment method for aluminum or aluminum alloy, and surface treatment device |
JP2016145381A (en) * | 2015-02-06 | 2016-08-12 | 栗田工業株式会社 | Porous film, and method and device for producing the same |
JP2020020034A (en) * | 2018-07-24 | 2020-02-06 | 富士ゼロックス株式会社 | Plating apparatus and manufacturing method of plated parts |
CN110777421A (en) * | 2018-07-24 | 2020-02-11 | 富士施乐株式会社 | Plating apparatus and method for manufacturing plated member |
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