KR101128615B1 - Jig for Electrolytic plating - Google Patents

Abstract

The present invention relates to a jig for electroplating.

Electrolytic plating jig of the present invention, the first substrate fixture having a latch on the upper end; A second substrate fixing tool hinged to an upper end of the first substrate fixing tool so as to be opened and closed; An insulating plate rotatably coupled between the first substrate fixture and the second substrate fixture; And fastening means mounted to the first substrate fixing tool to fix the second substrate fixing tool. The electroplating is simultaneously performed on one surface of the substrate exposed to both sides of the jig, thereby improving plating productivity.

Electroplating, Jig, Board Fixture, Insulation Plate, Plating Contact Surface

Description

Jig for Electrolytic plating

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electroplating jig, and more particularly, to an electroplating jig in which a plurality of substrates are mounted inside a jig and a plurality of substrates can be plated at the same time.

In recent years, with the rapid development of semiconductor technology, a package technology for electrically connecting a semiconductor chip and a printed circuit board (PCB) has been gradually developed. However, in performing the ultrafine pitch circuit and pattern forming process in the semiconductor technology, it is almost impossible to implement the fine pitch with the wire bonding technology.

As an alternative, solder bumps are formed on a substrate to which flip chips are applied using screen printing technology, but there is a limit to deal with gradually decreasing fine patterns.

To overcome this, bumps may be formed using metal posts through electroplating.

In the electroplating process for forming metal post bumps, a plating layer is generally formed only on one surface of a substrate on which a semiconductor chip is mounted, and on the opposite side, plating is not performed. Therefore, a current is applied to only one side when the substrate is submerged in the plating bath, and the reverse is performed. No current is applied to the surface.

As such, the electroplating method of applying a current to only one side of the substrate may cause an imbalance of the plating bath and the plating solution may be easily contaminated.

In addition, in this electroplating process, although Cu ²⁺ precipitation occurs in spite of the fact that there is no reaction at the electrode to which no current is applied, plating is performed on a part of the opposite surface, that is, the outer part of the substrate, in addition to one surface of the substrate. As a result, accurate plating area calculation is impossible, and when plating is performed on the jig fixing the substrate, there is a problem in that the plating thickness is varied as the thickness of the outer surface of the substrate is thin and the thickness of the center of the substrate is formed thick. .

On the other hand, in order to reduce the plating deviation between the center and the outside of the substrate, electroplating with low current should be performed, but in the process of plating one surface by one substrate mounted on one jig through the conventional electroplating jig. The disadvantage is that it takes quite a long time and the productivity is lowered.

Therefore, the present invention was devised to solve the above-mentioned disadvantages and problems that may occur in the conventional electroplating, and an insulating plate is provided and a pair of substrate fasteners are coupled to be opened and closed about a hinge, thereby providing a pair of substrates. An object of the present invention is to provide a jig for electroplating in which a plurality of substrates are mounted through a fixture and a plurality of substrates are plated simultaneously.

The object of the present invention, the first substrate fixture having a latch on the upper end; A second substrate fixing tool hinged to an upper end of the first substrate fixing tool so as to be opened and closed; An insulating plate rotatably coupled between the first substrate fixture and the second substrate fixture; And fastening means mounted to the first substrate fixing tool to fix the second substrate fixing tool.

The first substrate fixing tool includes a rectangular frame and a support part extending upward from both sides of the frame, and a latch for fixing a jig is mounted at an upper end of the support part.

In this case, the square frame of the first substrate fixing tool is a portion on which the substrate to be plated is mounted, and the plating contact surface is provided along the square frame.

In addition, the second substrate fixture is hinged to the upper end of the support portion of the first substrate fixture, the square frame of the same size as the square frame formed on the first substrate fixture is provided, the plated contact surface is formed on the contact area of the substrate do.

The insulating plate may be hinged to the upper end of the first substrate fixture, and may be hinged in the same manner as the second substrate fixture, to insulate the corresponding surfaces of the substrates mounted on the substrate fixtures, and not to contact each other.

In this case, the insulating plate is preferably formed in the same shape and size as the square frame formed on each substrate fixing sphere, it may be mainly composed of a PC (Polycarbonate) -based synthetic resin.

In addition, the fastening means is in close contact with each substrate fixture, and the substrate mounted on the inside to be in close contact with the plated contact surface of each substrate fixture, and the degree of adhesion according to the thickness of the substrate can be adjusted by the screw screw method Preferably configured.

On the other hand, the first substrate fixing tool and the second substrate fixing tool may be prevented from performing plating on the frame itself during electroplating of the substrate, as portions except for the plating contact surface formed along the rectangular frame are each coated with insulation.

At this time, it is preferable that an insulating coating material of each substrate fixing tool is a coating material having excellent chemical resistance such as fron or knife.

As described above, in the electroplating jig according to the present invention, a plurality of substrates are mounted between a pair of substrate fixtures, and plating productivity is improved by electroplating simultaneously on one surface of the substrate exposed to both sides of the jig. There is an advantage to be improved.

In addition, according to the present invention, plating is performed only on the substrate as the plated contact surface formed on the rectangular frame of each substrate fixing tool except for the clasp is coated with an insulating material, thereby preventing the loss of plating on the outside of the substrate and plating on the center and the outside of the substrate. Since the height can be kept uniform, the effect of improving the plating quality can be exerted.

Matters concerning operational effects, including the technical configuration for the above object of the electroplating jig according to the present invention will be clearly understood by the following detailed description with reference to the drawings showing preferred embodiments of the present invention.

First, Figure 1 is a front view of an electroplating jig according to an embodiment of the present invention, Figure 2 is a side view of an electroplating jig according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention 4 is a side view of the substrate fixing tool opening of the electroplating jig according to the present invention. FIG. 4 is a front view showing the plated contact surface of the electroplating jig according to the exemplary embodiment of the present invention, and FIG. 5 is an electroplating method according to an exemplary embodiment of the present invention. It is sectional drawing of plating bath in which jig for dragon was installed.

As shown, the electroplating jig 100 according to the present embodiment is mounted between a pair of substrate fixtures 110 and 120 hinged to the upper end, and a pair of substrate fixtures 110 and 120. The insulating plate 130 and a pair of substrate fixing fixtures 110 and 120 may be configured to be fastened by fastening means 140.

The pair of substrate fixtures 110 and 120 may be divided into a first substrate fixture 110 and a second substrate fixture 120. Each of the square frames 111 and 121 on which the substrate B is mounted may be formed. It may be provided.

The first substrate fixing tool 110 has a pair of supporting parts 112 formed on both sides of the rectangular frame 111 on which the substrate can be mounted, and the latch 113 is provided on the upper ends of the supporting parts 112. At this time, the clasp 113 is to be fixed to the electrode bar (cathode bar, 210) of the plating bath 200 when the jig 100 itself is installed in the electroplating bath 200.

The second substrate holder 120 may have an upper end coupled to the support 112 of the first substrate holder 110, and the second substrate holder 120 may support 112 of the first substrate holder 110. It is hinged to be rotatable around.

In addition, the second substrate fixing tool 120 may be provided with a square frame 121 on which the substrate is mounted, similarly to the first substrate fixing tool 110, and when opened on the first substrate fixing tool 110, the second substrate fixing tool 120 may be opened. Substrates are mounted inside the substrate holders 110 and 120, respectively, and after mounting of the substrates, the substrate holders 120 are closed in the state as shown in FIG. 2, so that a plurality of substrates are provided in the substrate holders 110 and 120. To be fitted.

In this case, the first and second substrate fixtures 110 and 120 may be all coated with portions except for the rectangular frames 111 and 121 to which the substrate is coupled and the clasp 113. In addition, a plating contact surface 150 is formed inside the rectangular frames 111 and 121 on which the substrate is mounted, as shown in FIG. 4.

That is, since the substrate to be electroplated has to have an electrical element when it is mounted on the rectangular frame 111, a part of the substrate should be grounded to the plating contact surface 150 formed on the rectangular frame 111, thereby contacting the rectangular frame ( The inner surface of 111 is formed to be a plated contact surface 150 groundable with the plated electrode of the substrate.

As described above, the plated contact surface 150 may be configured in the form of a surface contact of a 'ㅁ' shape along the shape of the rectangular frame 111, and the upper and lower left and right outer portions of the substrate may be used as electrodes.

At this time, it is preferable that an insulating coating material of each substrate fixing tool 110 and 120 is a coating material having excellent chemical resistance such as fron or knife.

Meanwhile, the substrate is mounted on the square frames 111 and 121 of the first and second substrate fixing tools 110 and 120, and the electroplating jig 100 having the substrate is mounted as shown in FIG. 5. When it is installed inside, when plating is performed by the application of the electrode, the portion except the plating contact surface 150 which is in contact with the substrate is insulated coating, so the insulating coating portion of the jig is not plated at the time of plating. Plating can be concentrated to improve the plating efficiency and obtain a uniform plating surface.

An insulating plate 130 that is rotated together with the second substrate holder 120 on the support 111 of the first substrate holder 110 is coupled between the first substrate holder 110 and the second substrate holder 120.

The insulating plate 130 may be in contact with each other when the substrates mounted on the first substrate fixture 110 and the second substrate fixture 120 are in close contact with each other, and the pads may be damaged by mutual contact of the substrates. In order to prevent and to insulate each substrate without electrical contact, it is preferable that the substrate is formed to have the same size as the shape of the substrate and the size of the square frames 111 and 121 on which the substrate is mounted.

In addition, the insulating plate 130 is preferably formed with a relatively thin thickness as interposed between the plurality of substrates, it may be mainly formed of an insulating material of a thickness of less than 1mm. Therefore, the insulating plate 130 is preferably made of a polycarbonate (PC) -based insulating material.

On the other hand, in the electroplating jig 100 of the present embodiment, the second substrate fixing tool 120 is rotated around the hinge coupling portion on the support part 112 of the first substrate fixing tool 110 and opened and closed, respectively. In mounting, a plurality of fastening means 140 may be provided to fix the substrate mounted in each substrate fixing tool 110 and 120 and to prevent opening of the substrate fixing tool 110 and 120.

The fastening means 140 may be disposed around the square frame 111 of the first substrate fixture 110, and may be combined in consideration of the fact that substrates having various thicknesses may be mounted in each substrate fixture 110 or 120. A screw coupling method that is fastened by a screw method for easy adjustment of the width may be employed.

The electroplating jig 100 of the present embodiment configured as described above may be installed in the electrolytic plating bath 200 as shown in FIG. 5 by mounting a plurality of substrates B in each substrate fixing tool 110, 120, and plating. When installed in the tank 200, the electrodes A may be disposed on both sides of the jig 100 so that one surface of the substrate B exposed on both sides of the jig 100 may be electroplated.

The process of mounting the substrate on the electroplating jig 100 of the present embodiment having the above configuration will be described in more detail with reference to FIGS. 6 to 9 as follows.

6 is a cross-sectional view of a state in which a first substrate is mounted on a jig of the present invention, FIG. 7 is a cross-sectional view of a state in which an insulating plate is interposed in a jig of the present invention, and FIG. 8 is a view of attaching a second substrate to a jig of the present invention. It is sectional drawing of a state, and FIG. 9 is sectional drawing of the state in which the some board | substrate was attached to the jig | tool of this invention.

First, as shown in FIG. 6, the first substrate fixing tool 110 is opened by rotating the insulating plate 130 and the second substrate fixing tool 120 upward from the first substrate fixing tool 110. The first substrate B1 to be plated is mounted on the square frame 111 of the opened first substrate fixing tool 110. At this time, the outer edge portions of the first substrate B1 are engaged with and contacted with the plating contact surface 150 formed on the rectangular frame 111.

Thereafter, the insulating plate 130 hinged to the upper portion of the first substrate fixing tool 110 is rotated so that one surface of the first substrate B1 is covered as shown in FIG. 7, and the insulating plate 130 as shown in FIG. 8. The second substrate B2 is mounted in close contact with the second substrate B2.

The second substrate fixture 120 is rotated on the upper portion of the first substrate fixture 110 so that the plating target surface of the second substrate B2 is exposed, and the second substrate fixture 120 is connected to the first substrate fixture 110. ), The substrate holders 110 and 120 are fixed using the plurality of fastening means 140 provided in the first substrate holder 110.

In this case, when the first and second substrate fixtures 110 and 120 are integrally coupled, the surface to be plated of the first substrate B1 and the second substrate B2 may be positioned on opposite surfaces, and the substrate fixtures 110 It is coupled to be exposed to the outside through the square frame 111, 112 of the (120).

As described above, the plurality of substrates B1 and B2 are mounted in the jig 100 including the first and second substrate fixing tools 110 and 120, and the jig 100 is installed in the plating bath 200 as shown in FIG. 5. Then, plating may be simultaneously performed on the plurality of substrates B1 and B2 mounted on the jig 100 by applying power through electrodes disposed at both sides of the jig 100.

That is, since plating is simultaneously performed on the plating target surfaces of the substrates B1 and B2 exposed on both sides of the jig 100, the plating productivity can be significantly improved.

Preferred embodiments of the present invention described above are disclosed for the purpose of illustration, and various substitutions, modifications, and changes within the scope without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains. It will be possible, but such substitutions, changes and the like should be regarded as belonging to the following claims.

1 is a front view of the jig for electroplating according to an embodiment of the present invention.

Figure 2 is a side view of the jig for electroplating according to an embodiment of the present invention.

Figure 3 is a side view of the substrate fixture opening of the jig for electroplating according to an embodiment of the present invention.

Figure 4 is a front view showing the plated contact surface of the jig for electrolytic plating according to an embodiment of the present invention.

5 is a cross-sectional view of the plating bath is installed jig for electroplating according to an embodiment of the present invention.

6 is a cross-sectional view of a state in which a first substrate is attached to a jig of the present invention.

7 is a cross-sectional view of a state in which an insulating plate is interposed in the jig of the present invention.

8 is a cross-sectional view of a state in which a second substrate is attached to a jig of the present invention.

9 is a cross-sectional view of a state in which a plurality of substrates are mounted on the jig of the present invention.

<Explanation of symbols for the main parts of the drawings>

110. First substrate fixing slot 111, 121. Square frame

120. Second substrate fixing device 130. Insulation plate

140. Fastening means 150. Plating contact surface

Claims (10)

A first substrate fixture provided with a clasp on the upper end; A second substrate fixing tool hinged to an upper end of the first substrate fixing tool so as to be opened and closed; An insulating plate rotatably coupled between the first substrate fixture and the second substrate fixture; And Fastening means mounted to the first substrate fixture to fix the second substrate fixture; Jig for electroplating comprising a. The method of claim 1, The first substrate fixing tool, the rectangular frame and the support portion extending from both sides thereof is formed, the jig for electroplating jig provided with a latch on the upper end of the support portion. 3. The method of claim 2, The square frame is a jig for electroplating provided with a contact surface of the 'ㅁ' shape along the edge. 3. The method of claim 2, The second substrate fixture is provided with a square frame having the same size as the square frame formed on the first substrate fixture, the jig for electroplating plating is formed on the contact portion of the substrate of the square frame plated contact surface. The method of claim 1, The insulating plate is hinged to the upper end of the first substrate fixture, the hinge is rotated in the same manner as the second substrate fixture, the jig for electroplating to insulate the corresponding surface of the substrate mounted on the first, second substrate fixture. The method according to claim 2 or 4, The insulating plate is an electroplating jig formed in the same shape and size as the square frame formed on the first and second substrate fixing tool. The method of claim 6, The insulating plate is an electroplating jig composed of a PC (Polycarbonate) -based synthetic resin. The method of claim 1, The fastening means is an electroplating jig configured in a screw screw method so that the degree of adhesion can be adjusted according to the thickness of the substrate interposed between the first, second substrate fixing tool. 3. The method of claim 2, Each of the first substrate fixing tool and the second substrate fixing tool is an electroplating jig having an insulating coating except for the plating contact surface formed along the rectangular frame. 10. The method of claim 9, The insulating coating material of the first substrate fixture and the second substrate fixture is an electroplating jig composed of a coating material of the fron or knife.

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