KR100777441B1 - Permanganic acid regenerator - Google Patents

Abstract

A permanganic acid regenerator is provided to increase an oxidation efficiency, regenerate permanganic acid efficiently, and improve productivity by removing impurities. A permanganic acid regenerator(100) includes: a body part(110) which comprises an upper fixing part(112) that fixes the upper part to regenerate permanganic acid, a lower fixing part(114) having inflow holes into which a permanganic acid solution flows, support bars(113) which unite the upper fixing part and lower fixing part, and a body(111) configured to fix the upper fixing part and the lower fixing part with support tools; a cathode part which comprises a cathode having a copper rod formed between the upper fixing part and the lower fixing part of the body part, wherein the copper rod has a tube with many tube holes formed on the outside thereof; and an anode part(130) which comprises an anode(131) having an insoluble mesh part(132) at the outer periphery side of the cathode part.

Description

Permanganic acid regenerator}

1 is a perspective view showing a permanganic acid regenerator according to the present invention.

2 is a front view showing a permanganic acid regenerator according to the present invention.

3 is a bottom view showing a permanganic acid regenerator according to the present invention.

Figure 4 is a partially cutaway perspective view showing a permanganic acid regenerator according to the present invention.

5 is a cross-sectional view showing a permanganic acid regenerator according to the present invention.

* Description of the symbols for the main parts of the drawings *

100: player 110: body portion

111: body 112: upper fixing part

113: support bar 114: lower fixing part

115: inlet hole 116: support

120: cathode portion 121: cathode

122: enclosed 123: tube

124: tube ball 130: anode part

131: anode 132: mesh part

The present invention relates to a permanganic acid regenerator.

In general, permanganic acid solutions are mainly used for etching printed circuit boards, even before metallization of fabricated parts made from plastics for sanitary appliances, automotive industry, precision machinery industry or accessory mounting.

As described above, the permanganate species which etch the surface of the plastic is mainly reduced to the manganese hydrochloride species, so that the manganese chloride species becomes uneven with the permanganese species and manganese dioxide on these ratios. During this reaction a significant amount of manganese dioxide sludge can be produced in the etch solution. The continuous operation by this method is not possible due to the consumption of permanganate. In addition, this method has a costly problem due to the addition of permanganate to the solution and the disposal of the waste permanently.

Thus, a method for regenerating a permanganic acid solution has been developed and disclosed in EP 0204399 A1. In this method, an oxidizing agent is added to the spent permanganate etchant to form permanganate by an amount sufficient to reoxidize the manganate species in the etchant having a manganese compound with oxidation number. As oxidants, inorganic bromates, hypochlorites, chlorites, chlorates, peroxodisulfates, monopersulfates and mixtures thereof are proposed. The oxidant is reduced during the regeneration reaction and is consumed due to this reduction reaction.

However, this method turned out to be complicated. In addition, due to the replenishment of the oxidant, another substance is formed in the etching solution. Therefore, this solution should be discarded. For this reason, electrochemical regeneration methods have been developed that do not discharge undesirable reaction products.

The regenerator of the prior art which regenerates permanganic acid by the electrochemical regeneration method was subjected to a reaction operation by electrolytic regeneration by installing an insoluble anode and a cathode inside or outside the chemical bath.

The permanganic acid regenerator of the prior art uses a stainless (SUS) or titanium (Ti) rod at the center and a perforated plate of stainless (SUS) or titanium (Ti) material at both sides. , There was a problem that the low current is generated in the rod itself, the efficiency of the oxidation reaction for over-manganese regeneration.

In order to overcome this problem, the efficiency of the oxidation reaction was improved by using a copper rod made of copper material that suppresses the generation of electric current, but the current density of the rod does not match the current density of the oxidation reaction. If not, the oxidation phenomenon is suddenly generated, when the current density decreases, the decomposition reaction of the hydroxyl group and water occurs, and there is a problem that the regeneration efficiency of permanganese is greatly reduced.

The main object of the present invention, which is intended to solve the problem, is provided with a Teflon tube formed of a tube formed with a tube hole on the outer peripheral side of the enclosed bar installed in the center to reproduce the permanganic acid, and a metallic mesh with the outer peripheral edge of the cathode Forming the anode in the form of a mesh to increase the current density and the efficiency of the oxidation reaction according to the oxidation reaction while filtering various foreign substances in the mesh portion to improve the productivity by removing impurities while efficiently regenerating permanganic acid.

As such, the permanganic acid regenerator of the present invention devised to achieve the object forms an upper fixing part for fixing the upper part to regenerate permanganic acid, and forms a lower fixing part with an inlet hole through which the permanganic acid solution is introduced to the lower side. Both sides of the fixing part and the lower fixing part are fixed to the support bar, and the body part is formed so as to be fixed to the back of the upper fixing part and the lower fixing part by the support, between the upper fixing part and the lower fixing part of the body part. A cathode having a cathode having a copper rod formed on the outside of the tube having a plurality of tube holes, and an anode having an anode having an insoluble mesh-shaped mesh on the outer circumferential side of the cathode; do.

In addition, the cathode portion is characterized in that the tube having a plurality of tube holes on the outside of the rod formed of Teflon material to suppress the oxidation of the rod.

As described above, a preferred embodiment of the permanganic acid regenerator of the present invention will be described with reference to the accompanying drawings.

First, in the drawings, the same components or parts are to be noted that the same reference numerals as possible. In describing the present invention, detailed descriptions of related well-known functions or configurations are omitted in order not to obscure the subject matter of the present invention.

1 is a perspective view showing a permanganic acid regenerator according to the present invention, Figure 2 is a front view showing a permanganic acid regenerator according to the present invention, Figure 3 is a bottom view showing a permanganic acid regenerator according to the present invention, Figure 4 is according to the present invention A partially cutaway perspective view showing a permanganic acid regenerator, and FIG. 5 is a cross-sectional view showing a permanganic acid regenerator according to the present invention.

As shown in Figures 1 to 5, the permanganic acid regenerator 100 of the present invention is fixed to the upper and lower parts to regenerate permanganic acid and the body 111 having an inlet hole 115 through which the permanganic acid solution is introduced The formed body portion 110, the cathode portion 120 is formed to form a cathode 121 so that the oxidation reaction flowing into the inlet hole 115 of the body portion 110, the outer periphery of the cathode portion 120 It comprises an anode portion 130 formed with an anode 131 which is oxidized reaction with the cathode 121 to the side.

The body portion 110 forms an upper fixing part 112 for fixing the upper part to regenerate permanganic acid, and forms a lower fixing part 114 having an inlet hole 115 into which the permanganic acid solution is introduced into the lower side. Both sides of the upper fixing part 112 and the lower fixing part 114 are fixed to the support bar 113, and are fixed to the rear of the upper fixing part 112 and the lower fixing part 114 by the support 116. It is configured to form the body 111 to.

The cathode part 120 is provided between the upper fixing part 112 and the lower fixing part 114 of the body part 110, the tube 123 having a plurality of tube holes 124 is provided with an outer rod formed on the outside. The cathode 121 is configured to be formed.

Here, the cathode portion 120 is preferably configured to form a tube 123 having a plurality of tube holes 124 on the outer side of the copper rod 122 of Teflon material to suppress oxidation of the copper rod 122.

The anode portion 130 is configured to form an anode 131 having an insoluble mesh-shaped mesh portion 132 on the outer circumferential side of the cathode portion 120.

Thus, look at the action of the permanganic acid regenerator of the present invention configured as follows.

First, the upper part is fixed to the upper fixing part 112 so that the lower fixing part 114 having the inlet hole 115 is located to the side where the solution containing permanganic acid is supplied, and the rear part is supported by the supporting bar 113. Body portion 110 is installed to support the body 111 formed to support the support 116 formed in the.

Thus, when the permanganic acid solution is introduced into the inlet hole 115 of the lower fixing part 114 in the state in which the body 111 of the body part 110 is installed, a plurality of tube holes to the outside of the cathode 121 to which the negative electrode is connected. An anode 131 formed at the outer circumferential side of the cathode 121 is connected to a copper rod 122 of the same material having the Teflon tube 123 and the positive electrode is oxidized to a polarity according to the current density. To regenerate permanganate.

At this time, the tube 123 having the tube hole 124 is formed of a Teflon material on the outer side of the rod 122 of the cathode 120 to reduce the current density of the rod 122 to approach the optimum density of the oxidation reaction. In order to improve the efficiency of the oxidation reaction.

As described above, when the operation of regenerating permanganic acid is carried out while the impurities such as epoxy fine powder or liquid copper are adsorbed to the mesh portion 132 formed on the anode 131 in the form of an insoluble network to the inside of the permanganic acid solution, and the regeneration operation is performed. Perform.

Accordingly, the Teflon tube 123 having a plurality of tube holes 124 is formed outside the copper rod 122 in the permanganic acid solution to suppress oxidation of the copper rod 122 to improve the efficiency of the oxidation reaction, and to mesh The anode 131 having the portion 132 is adsorbed and removed during regeneration to efficiently proceed with regeneration of permanganic acid.

As described above, the permanganic acid regenerator of the present invention includes a cathode having a Teflon tube with a tube hole formed on the outer circumferential side of the enclosed bar installed to regenerate the permanganic acid, and a mesh part is formed in the form of a metallic mesh with the outer periphery of the cathode Forming an anode increases the current density according to the oxidation reaction and the efficiency of the oxidation reaction, while filtering various foreign substances in the mesh portion to provide an effect of improving the productivity by removing impurities while efficiently regenerating permanganic acid.

In addition, the permanganic acid regenerator of the present invention forms an upper fixing part at the top to fix the drug tank, and forms a lower fixing part having an inlet hole through which the permanganic acid solution is introduced into the lower side, and both sides of the upper fixing part and the lower fixing part are formed. It is connected to the support bar and fixed to the rear of the upper and lower fixing parts, the body is formed to form a support body, and the tube is provided with a plurality of tube holes between the upper and lower fixing parts of the body portion A cathode having a cathode having an enclosed bar formed on an outer side thereof, and comprising an anode having an anode having a mesh portion of an insoluble mesh form on the outer circumferential side of the cathode, thereby having a polarity to deliver permanganic acid; In order to improve the regeneration efficiency by suppressing the oxidation of the enclosed rod at the proper current density and maximizing the efficiency of the oxidation reaction It provides the effect.

The permanganic acid regenerator of the present invention has an effect of improving the regeneration efficiency by suppressing oxidation of the enclosed bar by forming a tube provided outside the enclosed cathode part of the electrode part having different polarity by electrolytic reaction of the permanganic acid solution introduced into the inlet hole. To provide.

In addition, the permanganic acid regenerator of the present invention forms an insoluble mesh portion in the anode reacting the permanganic acid solution with the cathode to adsorb foreign substances such as epoxy fine powder or liquid copper generated by reduction of permanganic acid by oxidation reaction in the mesh portion to filter permanganic acid. By forming, the foreign matter generated during regeneration of permanganic acid is removed, thereby improving the quality of the regenerated permanganic acid, thereby providing an effect of improving productivity.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary and will be understood by those of ordinary skill in the art that various modifications and variations can be made therefrom. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Claims (2)

Forming an upper fixing part for fixing the upper part to regenerate permanganic acid, forming a lower fixing part with an inlet hole into which the permanganic acid solution flows into the lower side, and fixing both sides of the upper fixing part and the lower fixing part with a support bar, A body part which forms a body to be fixed to the rear of the upper fixing part and the lower fixing part by a support, A cathode part having a cathode having a copper rod formed on an outer side of a tube having a plurality of tube holes between the upper fixing part and the lower fixing part of the body part; And an anode portion including an anode having an insoluble mesh-shaped mesh portion on the outer circumferential side of the cathode portion. The method of claim 1, And the cathode portion is formed of a Teflon material tube having a plurality of tube holes on the outer side of the rod to suppress oxidation of the rod.

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