KR20090032227A - Specimen making device that electroplate on nonconducting resin - Google Patents

Abstract

A specimen making device performing electroplating on nonconductive resin is provided to improve implementation of electroplating experiment by preventing current concentrating on the edge of a specimen with the simple manipulation. A specimen making device performing electroplating on nonconductive resin comprises a plating basin storing plating solution, a U-shaped main body(20) placed in the plating basin to move freely and having grooves(22) on the inner side walls for insertion of an anode(70), a specimen holder(30) having a protrusion(31) for holding a specimen(40), a rectifier inducing current to a cathode rack(60), and an agitator for mixing the plating solution in the plating basin.

Description

Specimen making device that electroplate on nonconducting resin

The present invention relates to an apparatus for producing a specimen by electroplating on non-conductive resins (ABS and PC-ABS resin), the three-dimensional structure of the cathode rack (Cathod) and the positive electrode that affects the specimen and plating by a simple operation of the device Even though the solution flows through the stirrer to maintain the distance, the cathode rack is firmly fixed so that the current is applied to the specimen without change, and the current is concentrated at the edge of the specimen by placing the auxiliary cathode at the outer edge of the specimen. The present invention relates to an apparatus for manufacturing a specimen by electroplating on a non-conductive resin that can prevent the electrical plating test to improve the reproducibility of the electroplating experiment.

In general, in order to manufacture a specimen electroplated on a non-conductive resin, the specimen is accommodated in a plating bath containing a plating solution, and placed in a cathode rack and an anode in the plating bath, and a current flows into the cathode rack and the anode through a rectifier. It was applied and the current plating was carried out using a mechanical stirrer or an air stirrer so that the plating solution was mixed well.

However, during the electroplating, since the agitator is used to mix the plating solution well, the flow of the plating solution occurs, and the negative electrode rack affecting the plating cannot be fixed and the position is continuously changed. Therefore, since the current density applied to the specimen in the cathode rack is continuously changed, the thickness of the plating is not constant, thereby reducing the reproducibility of the electroplating experiment.

In addition, in the case of multilayer plating, it is difficult to have reproducibility of the three-dimensional distance between the cathode and the anode during the plating solution and the anode replacement work because the plating solution and the anode must be replaced.

In addition, conventional rectangular specimens do not prevent current from concentrating on the edges of the specimen during electroplating, so that the edges of the specimens are thicker than other portions, and such specimens are not suitable for use in the data of the assay. There was a problem of somewhat lack of reproducibility.

The present invention has been proposed to solve the above problems, the purpose of which is to maintain the three-dimensional distance between the anode rack and the anode that affects the specimen and plating by a simple operation of the device to maintain the solution flow through the stirrer Even though the cathode rack is firmly fixed, the current is applied to the specimen without change, and the secondary cathode is placed on the outer edge of the specimen to prevent the current from being concentrated at the edge of the specimen, thereby increasing the reproducibility of the electroplating experiment. The present invention provides an apparatus for manufacturing a specimen by electroplating on a non-conductive resin.

Apparatus for producing a specimen by electroplating on a non-conductive resin according to the present invention for achieving the above object is a plating bath in which the plating solution is accommodated, accommodated in the plating bath, has a "c" shape, both sides and The front face is penetrated to allow the plating solution to flow freely, and a groove is formed vertically on both inner sides to have a positive electrode inserted therein, and has a quadrangular shape, and is vertically coupled to both inner sides of the body member. It is penetrated so that the plating solution is freely distributed, and the lower portion thereof is mounted on the specimen holder formed with a projection so that the specimen can be mounted, mounted on the specimen holder, the specimen having a rectangular shape, and mounted on the upper portion of the body member. The lower part has an insertion groove formed so that both sides of the main body member is inserted, the negative electrode rack fixing member formed with a through hole from the upper center to the lower part, Inserted into the through hole of the cathode rack fixing member and fixed, the current of the cathode (-) is applied, and the cathode current is transferred to the specimen in contact with the specimen, and the current is transmitted to one side and the specimen to which the current is applied. The outer portion of the part except the other side contacted for the purpose is coated with a non-conductive resin, a positive electrode to which the current of the positive electrode (+) is applied, a rectifier for applying a current to the positive electrode and the negative electrode rack, accommodated in the plating bath Characterized by consisting of a stirrer for mixing the plating solution well.

In addition, a portion of the specimen is extended to include an auxiliary cathode to form a border spaced apart from the specimen to the outside of the specimen, characterized in that the electric current is concentrated on the edge of the specimen during electroplating to prevent the plated thicker than other parts .

In addition, one side of the negative electrode rack fixing member having a first female screw portion formed through the insertion groove, a first male screw portion corresponding to the first female screw portion, and the front of the negative electrode rack fixing member And a second fixing screw having a second female screw portion formed through the through hole, and a second male screw portion corresponding to the second female screw portion, wherein the cathode rack fixing member is mounted to the main body member, It is characterized in that it is more firmly fixed through the rotation operation of the first fixing screw, the cathode rack is more firmly fixed through the rotation operation of the second fixing screw.

As described above, according to the apparatus for producing a specimen by electroplating on the non-conductive resin according to the present invention, the stirrer is fixed so that the three-dimensional distance between the cathode rack and the anode affecting the specimen and the plating is maintained by a simple operation of the apparatus. Even though the solution flows through, the cathode rack is firmly fixed so that the current is applied to the specimen without change, and the secondary cathode is placed on the outer edge of the specimen to prevent the current from being concentrated at the edge of the specimen. There is an effect that can increase the reproducibility.

An apparatus for producing a specimen by electroplating on a nonconductive resin according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4 show an apparatus for manufacturing a specimen by electroplating on a non-conductive resin according to an embodiment of the present invention, Figure 1 is a specimen by electroplating on a non-conductive resin according to an embodiment of the present invention 2 is an exploded perspective view of a device for manufacturing a specimen by electroplating on the non-conductive resin shown in Figure 1, the negative electrode rack and the negative electrode rack fixing member of the device for producing a specimen, Figure 3 is shown in Figure 1 4 is a perspective view showing an embodiment of a device for producing a specimen by electroplating on a non-conductive resin, Figure 4 is a device for manufacturing a specimen by electroplating on a non-conductive resin according to another embodiment of the present invention A perspective view is shown respectively.

As shown in the drawings, the apparatus 100 for producing a specimen by electroplating on a non-conductive resin according to an embodiment of the present invention is a plating bath 10, the body member 20, and the specimen holder 30 ), A specimen 40, a negative electrode rack fixing member 50, a negative electrode rack 60, a positive electrode 70, a rectifier 80, and a stirrer.

The plating bath 10, the rectifier 80, and the stirrer (not shown) used in the preferred embodiment of the present invention will be briefly described as being commonly used.

The plating bath 10 accommodates the plating solution 11.

As shown in Figure 4, since the apparatus 100 for producing a specimen by electroplating on a non-conductive resin according to the present invention is small in size it is also possible to use a beaker (10a) in place of the plating bath 10 It is possible.

The body member 20 is accommodated in the plating bath 10, and has a "c" shape, the both sides and the front is penetrated so that the plating solution 11 is freely distributed, the groove vertically long on both inner sides ( 22 is formed so that the anode 70 is inserted.

As shown in FIG. 1, the main body member 20 according to the embodiment of the present invention forms three through holes 21a on both sides thereof, and the front face is penetrated through a rectangular shape 21b. Grooves 22 formed on both inner sides are formed in the vicinity of the front, but is not limited to the above structure.

The specimen holder 30 has a rectangular shape, is vertically coupled to both inner side surfaces of the body member 20, and penetrated in a square shape at the front so that the plating solution 11 is freely distributed, and a lower portion thereof is a specimen ( A protrusion 31 is formed to allow 40 to be mounted.

The specimen 40 is mounted on the specimen holder 30 and has a rectangular shape.

As shown in FIG. 2, the negative electrode rack fixing member 50 is mounted to an upper portion of the main body member 20, and a lower portion of the negative electrode rack fixing member 50 is inserted into both side portions of the main body member 20. And the through-hole 52 is formed from the upper center to the lower portion.

The negative electrode rack fixing member 50 used in the embodiment of the present invention has a substantially rectangular shape, but is not limited to the above rectangular shape.

The negative electrode rack 60 is inserted into and fixed to the through hole 52 of the negative electrode rack fixing member 50, a current of the negative electrode (−) is applied, and the negative electrode current is brought into contact with the specimen 40 to provide a specimen ( 40), but the outer side of the portion except for the other side in contact with the current to be applied to the current to the specimen 40 is coated with a non-conductive resin (61).

In addition, the negative electrode rack 60 supplies current to the specimen through the rack made of stainless steel wire, the outside is coated with a non-conductive resin (61) is plated with a negative electrode rack (60) during the electroplating experiment Prevent the phenomenon.

The negative electrode rack 60 used in the embodiment of the present invention has a "b" shape.

In addition, the negative electrode rack fixing member 50 into which the negative electrode rack 60 is inserted is disposed such that the lower end of the negative electrode rack 60 is in contact with the specimen 40 when the negative electrode rack fixing member 50 is mounted to the body member 20. To ensure a stable supply of current.

The anode 70 is made of one selected from nickel (Ni), copper (Cu), and lead (Pb), so that a current of the positive electrode (+) is applied.

The rectifier 80 is a device for applying a current to the cathode rack 60 and the anode 70.

The stirrer is a device for mixing well the plating solution 11 accommodated in the plating bath (10).

In addition, as shown in FIG. 1, a portion of the specimen 40 extends to include an auxiliary cathode 41 forming an edge spaced apart from the specimen 40 to the outside of the specimen 40. When plating, the current is concentrated at the edges of the specimen 40, thereby preventing the plating from being thicker than other portions.

It is preferable that the specimen 40 and the auxiliary cathode 41 can be easily separated by hand.

In addition, as shown in FIG. 2, one side or both sides of the negative electrode rack fixing member 50 penetrates into the insertion groove 51 and a first female screw portion 53 and the first female screw portion ( A first fixing screw 54 having a first male screw portion corresponding to 53), a second female screw portion 54 formed through the through hole 52 in the front of the negative electrode rack fixing member 50, and And a second fixing screw 56 having a second male screw portion corresponding to the second female screw portion 55. The negative rack fixing member 50 is mounted on the body member 20 and the first fixing portion is fixed. It is characterized in that it is more firmly fixed through the rotation operation of the screw 54, the cathode rack is more firmly fixed through the rotation operation of the second fixing screw.

Apparatus 100 for producing a specimen by electroplating on a non-conductive resin according to an embodiment of the present invention having the above configuration is used as follows.

As shown in FIG. 1, first, the anode 70 is inserted into the groove 22 of the body member 20, the specimen 40 is mounted with the specimen holder 30, and the cathode rack 60 is inserted therein. The negative electrode rack fixing member 50 is mounted on the upper portion of the body member 20.

At this time, the negative electrode rack fixing member 50 is mounted so that the end of the lower portion of the negative electrode rack 60 is in contact with the specimen 40, when the mounting is completed is located on the side of the negative electrode rack fixing member 50 The cathode rack fixing member 50 and the body member 20 are firmly fixed by the rotation operation of the fixing screw 54.

In addition, the cathode rack 60 is firmly fixed through the rotation of the second fixing screw 56.

Then, as shown in FIG. 3, the body member 20 is accommodated in the plating bath 10 in which the plating solution 11 is accommodated.

Then, the agitator is operated so that the plating solution 11 contained in the plating bath 10 is mixed well, and the specimen rack 40 is manufactured by applying a current through the rectifier to the cathode rack 60 and the anode 70. Electroplating is carried out for.

When the electroplating is complete, take out the main body member 20 from the plating bath 10 and dismantle the negative rack fixing member 50, and then take out the specimen 40 from the main body member 20, electroplating experiment Used for data.

Although the present invention has been described with reference to the embodiments shown in the accompanying drawings, it is intended to be illustrative, and those skilled in the art will understand that various modifications and equivalent embodiments are possible from this. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1 is an exploded perspective view of an apparatus for manufacturing a specimen by electroplating on a non-conductive resin according to an embodiment of the present invention

Figure 2 is an exploded perspective view of the negative electrode rack and the negative electrode rack holding member of the apparatus for producing a specimen by electroplating on the non-conductive resin shown in FIG.

3 is a perspective view showing an embodiment of the use of the apparatus for producing a specimen by electroplating on the non-conductive resin shown in FIG.

4 is a perspective view of an apparatus for manufacturing a specimen by electroplating on a non-conductive resin according to another embodiment of the present invention

<Description of Symbols for Main Parts of Drawings>

10. Plating bath 20. Body member

30. Psalm holder 40. Psalm

50. Cathode rack fixing member 60. Cathode rack

70. Anode 80. Rectifier

100. Apparatus for manufacturing specimens by electroplating on non-conductive resin

Claims (3)

A plating bath in which a plating solution is accommodated; A main body member accommodated in the plating bath, having a “c” shape, and having both sides and a front surface thereof penetrating therein, and allowing the plating solution to flow freely, and having a groove formed vertically on both inner sides thereof so that an anode is inserted; It has a rectangular shape, is vertically coupled to both inner sides of the body member, penetrated in the front is freely passed through the plating solution, the lower portion of the specimen holder is formed with a projection so that the specimen can be mounted; A specimen mounted on the specimen holder and having a rectangular shape; Mounted to the upper portion of the body member, the lower portion of the insertion groove formed so that both sides of the body member is inserted, the negative electrode rack fixing member formed with a through hole from the upper center to the lower; Inserted into the through hole of the cathode rack fixing member and fixed, the current of the cathode (-) is applied, and the cathode current is transferred to the specimen in contact with the specimen, to transfer the current to one side and the specimen to which the current is applied. Cathode rack coated with a non-conductive resin on the outside of the portion except the other side in contact; An anode to which an anode current is applied; A rectifier for applying current to the anode and cathode racks; And Apparatus for producing a specimen by electroplating on a non-conductive resin comprising a; stirrer for mixing the plating solution accommodated in the plating bath well. The method of claim 1, A portion of the specimen is extended to include an auxiliary cathode to form a border spaced apart from the specimen to the outside of the specimen, when electroplating non-conductive characterized in that the current is concentrated in the corner of the specimen thicker than other parts Apparatus for producing specimens by electroplating on resin. The method of claim 1, A first fixing screw having a first female screw portion formed through one side of the negative electrode rack fixing member and a first male screw portion corresponding to the first female screw portion; And a second fixing screw having a second female screw portion formed through the through hole and a second male screw portion corresponding to the second female screw portion on a front surface of the cathode rack fixing member. Mounting the negative electrode rack holding member to the main body member and more firmly fixed through the rotation operation of the first fixing screw, it characterized in that the negative electrode rack is more firmly fixed through the rotation operation of the second fixing screw. Apparatus for producing specimens by electroplating on non-conductive resins.

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