KR102435753B1 - System for improving deviation of electroplating apparatus - Google Patents

Abstract

The present invention relates to a system for relieving deviation of electroplating equipment, which can insert a plurality of targets into an electrolytic chamber by being gripped by each hanger, and apply an electric current to the hangers through a rectifier, comprising: a sensor unit measuring each electric current of the hangers; and a control unit receiving the electric current value measured by the sensor unit, comparing the lowest electric current value with the electric current value outputted from the rectifier, transmitting the deviation value to the rectifier, and controlling the output of the rectifier. Accordingly, a sensor is installed on each of a plurality of hangers placed in the electroplating equipment, the electric current value of each hanger is measured, and a deviation value from the electric current value outputted from a rectifier is calculated to compensate the deviation value. Accordingly, a certain thickness of a plating layer is formed when plating by using the electroplating equipment, and the generation of product defects is minimized to improve productivity.

Description

SYSTEM FOR IMPROVING DEVIATION OF ELECTROPLATING APPARATUS

The present invention relates to a system for improving the deviation of an electroplating equipment, and more particularly, to a system for improving the deviation of an electrolytic plating equipment used for plating an object to a predetermined thickness during a plating operation through the electroplating equipment.

In general, electrolytic plating equipment is a method of plating a plate-shaped substrate such as a printed circuit board by supplying electricity while holding it in a hanger and immersing it in a plating bath, and then continuously transporting the substrate while maintaining the immersion state. .

A plurality of clamps are mounted on the hanger to grip the substrate.

The hanger arrives at the plating bath while moving along the rail serving as the power feeding means, and transmits the current supplied from the rail to the substrate, so that a plating layer is formed on the surface of the substrate.

However, in the conventional electroplating equipment, when the current is output through the rectifier, the current value output from the rectifier and the current value immediately applied to the hanger are different from each other, so there is a deviation.

There is a problem in that a product defect occurs because the plating layer is not formed uniformly because the plating thickness set by the above deviation is not reached.

In particular, it is difficult to determine the aging or replacement time of the rectifier and related parts, so production of defective products due to aging and production deterioration due to equipment non-operation are frequently occurring.

Korean Intellectual Property Office Registration No. 10-0256353 Korean Intellectual Property Office Registration No. 10-1879070 Korean Intellectual Property Office Registration No. 10-0146885

The present invention was devised to solve the above problems, and it is an object of the present invention to not only form a uniform plating layer during a plating operation through an electrolytic plating facility, but also to determine the deterioration and replacement time of the facility to prepare for it.

In order to achieve the above object, a system for improving deviation of an electrolytic plating facility according to a preferred embodiment of the present invention is that a plurality of objects are gripped by each hanger and inserted into the electrolytic cell, and a current is applied to the hanger through a rectifier. A system for improving deviation of electroplating equipment, comprising: a sensor unit for measuring each current of the hanger; and a control unit configured to receive the current value measured from the sensor unit, compare the lowest current value with the current value output from the rectifier, and transmit the compared deviation value to the rectifier to control the output of the rectifier.

In addition, the rectifier is characterized in that it receives the deviation value from the control unit and outputs the added current value according to the input value.

In addition, the control unit stores the current value received from the sensor unit and the current value output from the rectifier at a predetermined period, and outputs the stored information as a character or a graph through a display.

In addition, when the deviation value is out of a preset deviation value range, the controller stops the operation of the hanger.

In addition, the sensor unit is provided with a plurality of measurement modules for measuring the current of each of the hangers to transmit a current value to the control unit, the measurement module has a current sensor for measuring the current of the hanger and the current measured from the current sensor It is characterized in that a wireless transmission module for transmitting a value to the control unit is provided.

In addition, the wireless transmission module is characterized in that the output of the measured current value as an analog signal of 4 to 20 mA in a 50 ms cycle to the control unit.

According to the system for improving the deviation of the electroplating equipment according to the present invention, a sensor is installed on each of a plurality of hangers provided in the electroplating equipment, the current value of each hanger is measured, and the deviation value from the current value output from the rectifier is calculated. By compensating for the deviation value, it is possible to form a plating layer of a certain thickness during plating using an electrolytic plating facility, as well as to improve productivity by minimizing the occurrence of product defects.

In particular, when the deviation value calculated by the calculation unit exceeds the preset range, it is detected and the failure, deterioration, and replacement time of equipment are determined, and thus production loss can be minimized by quickly preparing for it. .

1 is a block diagram of a system for improving deviation of an electroplating equipment according to a preferred embodiment of the present invention.
2 is a block diagram of a sensor unit according to a preferred embodiment of the present invention.
3 is a block diagram of a measurement module according to a preferred embodiment of the present invention.
4 is a block diagram of a control unit according to a preferred embodiment of the present invention.
5 is a block diagram of a water level control unit according to a preferred embodiment of the present invention.
6 is a view showing a switch control unit according to a preferred embodiment of the present invention.
7 to 8 are operation diagrams of the angle adjusting unit according to a preferred embodiment of the present invention.

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the technical field to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, the present invention will be described with reference to the drawings for explaining a system for improving deviation of an electroplating equipment according to embodiments of the present invention.

1 is a block diagram of a system for improving deviation of an electroplating equipment according to a preferred embodiment of the present invention, FIG. 2 is a block diagram of a sensor unit according to a preferred embodiment of the present invention, and FIG. 3 is a measurement according to a preferred embodiment of the present invention A block diagram of a module, FIG. 4 is a block diagram of a control unit according to a preferred embodiment of the present invention, FIG. 5 is a block diagram of a water level control unit according to a preferred embodiment of the present invention, and FIG. 6 is a switch according to a preferred embodiment of the present invention 7 to 8 is an operation diagram of the angle adjusting unit according to a preferred embodiment of the present invention.

Referring to these drawings, the system for improving the deviation of the electroplating equipment according to the present embodiment calculates the deviation of the current value applied to the hanger compared to the current value of the rectifier and compensates for the deviation, so that plating of a certain thickness is possible.

In the system 100 for improving deviation of the electroplating equipment according to the present embodiment that can provide such an effect, a plurality of objects are gripped by each hanger 13 and inserted into the electrolytic cell 11, and through the rectifier 12 In the system for improving the deviation of the electroplating equipment for applying a current to the hanger (13), it includes a sensor unit (110) and a control unit (120).

The sensor unit 110 measures each current of the hanger 13 , and a measurement module 111 installed in each of the hangers 13 is provided.

The measurement module 111 includes a current sensor 111a and a wireless transmission module 111b.

Specifically, the current sensor 111a generates a current value by measuring the current of the corresponding hanger 13 directly coupled to the current sensor 111a.

The wireless transmission module 111b receives each of the current values measured from the current sensor 111a and transmits them wirelessly.

For example, the wireless transmission module 111b preferably outputs the current value measured from the current sensor 111a as an analog signal with a period of 4 to 20 mA for 50 ms.

Of course, the wireless transmission module 111b can transmit not only wirelessly but also by wire, but it is preferable to transmit wirelessly due to the structure of the electrolytic plating facility 10 .

The control unit 120 receives the current value measured from the sensor unit 110, compares the lowest current value with the current value output from the rectifier 12, and transmits the compared deviation value to the rectifier 12. By controlling the output of the rectifier 12, a wireless receiving module 121, a calculation unit 122, an output unit 123, a state determination unit 124, a stop unit 125, and a water level control unit 126. includes

The wireless reception module 121 converts the current value of the analog signal output from the wireless transmission module 111b into a digital signal and receives it.

For example, the wireless receiving module 121 preferably converts an analog signal into a digital signal through an ADC converter.

The calculation unit 122 calculates a deviation value based on the current value received from the sensor unit 110 , and receives the current value output from the rectifier 12 , and receives the current received from the sensor unit 110 . The deviation value is calculated by comparing with the value, and the calculated deviation value is transmitted to the rectifier 12 .

At this time, the rectifier 12 adds the deviation value transmitted from the calculator 122 to the current value according to the input value previously input, and outputs it.

The output unit 123 stores the current value received from the sensor unit 110 , the current value transmitted from the rectifier 12 , and the deviation value calculated from the calculation unit 122 at regular intervals and separate Output as text or graph through the display.

At this time, the output unit 123 stores the current value received from the sensor unit 110 , the current value transmitted from the rectifier 12 , and the deviation value calculated from the calculation unit 122 at a cycle of 1 minute. It is preferable to do

The state determination unit 124 generates a state abnormal signal when the deviation value calculated by the calculator 122 is out of a preset deviation value range.

Here, it is preferable that the output unit 123 receives the abnormal state signal when the state determination unit 124 generates it and alerts it through a display or a separate LED or speaker.

The stop unit 125 receives the abnormal state signal when the state determination unit 124 generates the signal to stop the operation of the hanger 13 .

The water level control unit 126 is to prevent the aqueous solution contained in the electrolytic cell 11 from evaporating to lower the water level and increase the concentration, and includes a water level sensor 126a, a humidity control unit 126b and an angle control unit ( 126c).

The water level sensor 126a is installed on one side of the electrolytic cell 11 to measure the water level of the electrolytic cell 11 .

The humidity control unit 126b is a humidifier, and is installed at the upper end of one side of the electrolytic cell 11 to moisten or slightly cool the upper part of the electrolytic cell 11 during operation so that the aqueous solution contained in the electrolytic cell 11 evaporates. to minimize

For example, it is preferable that the humidifier is operated by an ultrasonic method rather than a heating type.

This is to slightly cool the temperature of the aqueous solution accommodated in the electrolytic cell 11 through the moisture discharged from the humidity control unit 126b.

The angle control unit 126c is for adjusting the angle of the humidity control unit 126b, and adjusts the angle of the humidity control unit 126b according to the water level value measured by the water level sensor 126a.

Specifically, the angle adjusting unit 126c includes a rail 126d, a moving member 126e and an inclined plate 126f.

The rail 126d is installed on one side of the upper end of the electrolytic cell 11 .

The moving member 126e is movably coupled to the rail 126d, and is moved along the rail 126d by driving a motor.

For example, the rail 126d and the moving member 126e are movably coupled to each other through gear meshing.

The rail 126d is formed as a rack gear, and a rotating gear is coupled to one side of the moving member 126e to move in the longitudinal direction of the rack gear according to the driving of the rotating gear.

Here, it is preferable that the upper end of the movable member 126e in direct contact with the inclined surface of the inclined plate 126f, which will be described later, is formed to be convex.

This is to press or support the inclined plate at various positions and angles with the inclined surface of the inclined plate 126f according to the movement of the moving member 126e.

The inclined plate (126f) is coupled to the lower end of the humidity control unit (126b), one end is hinged rotatably with one end of the rail (126d).

In addition, the inclined plate 126f is formed to be inclined upward from one side to the other.

Here, the inclination of the inclined plate 126f is formed such that when the moving member 126e is positioned on the other side of the rail 126d, the humidity control unit 126b is disposed parallel to the rail 126d.

At this time, when the water level value measured by the water level sensor 126a is smaller than a preset water level value, the moving member 126e has one side so that the humidity control unit 126b discharges moisture to the water surface of the electrolytic cell 11 . If it is moved to or is larger than a preset water level value, it is moved to the other side so as to be positioned parallel to the water surface of the electrolytic cell 11 .

Accordingly, it is possible to minimize the evaporation of the aqueous solution in the electrolytic cell 11 by controlling the humidity through the humidity control unit (126b).

According to the system for improving the deviation of the electroplating equipment according to the present invention, a sensor is installed on each of a plurality of hangers provided in the electroplating equipment, the current value of each hanger is measured, and the deviation value from the current value output from the rectifier is calculated. By compensating for the deviation value, it is possible to form a plating layer of a certain thickness during plating using an electrolytic plating facility, as well as to improve productivity by minimizing the occurrence of product defects.

In particular, when the deviation value calculated by the calculation unit exceeds the preset range, it is detected and the failure, deterioration, and replacement time of equipment are determined, and thus production loss can be minimized by quickly preparing for it. .

Those of ordinary skill in the art to which the present invention pertains will understand that the present invention may be embodied in other specific forms without changing the technical spirit or essential features thereof. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. The scope of the present invention is indicated by the claims described below rather than the above detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts are included in the scope of the present invention. should be interpreted

10: electroplating equipment 11: electrolytic cell
12: rectifier 13: hanger
100: deviation improvement system 110: sensor unit
111: measurement module 111a: current sensor
111b: wireless transmission module 120: control unit
121: wireless receiving module 122: calculation unit
123: output unit 124: state judgment unit
125: stop 126: water level control unit
126a: water level sensor 126b: humidity control unit
126c: angle adjustment unit 126d: rail
126de: movable member 126f: inclined plate

Claims (6)

In the system for improving deviation of electroplating equipment, a plurality of objects are gripped by each hanger and inserted into the electrolytic cell, and a current is applied to the hanger through a rectifier,
a sensor unit for measuring each current of the hanger; and
A control unit for receiving the measured current value from the sensor unit, comparing the lowest current value with the current value output from the rectifier, and transmitting the compared deviation value to the rectifier to control the output of the rectifier;
The rectifier receives the deviation value from the control unit and outputs it by adding it to the current value according to the input value previously input,
The control unit stores the current value received from the sensor unit and the current value output from the rectifier at a constant cycle, and outputs it as a character or a graph through the stored information through a display,
The control unit stops the operation of the hanger when the deviation value is out of a preset deviation value range,
The sensor unit is provided with a plurality of measurement modules that measure the current of each of the hangers and transmit the current value to the control unit,
The measurement module is provided with a current sensor for measuring the current of the hanger and a wireless transmission module for transmitting the current value measured from the current sensor to the control unit,
The wireless transmission module outputs the measured current value as an analog signal of 4 to 20 mA at a 50 ms cycle and transmits it to the control unit,
A humidity control unit for preventing evaporation of the aqueous solution by measuring the level of the aqueous solution in the electrolyzer and controlling the humidity according to the water level is provided,
The humidity control unit is angle controlled by the angle control unit,
The angle adjustment unit,
Rails installed on one side of the electrolytic cell,
a moving member movably coupled to the rail; and
It is coupled to the lower end of the humidity control unit, and one side is rotatably coupled to the rail, and the lower surface is supported by the moving member and includes an inclined plate whose angle is adjusted according to the movement of the moving member,
The system for improving the deviation of the electroplating equipment, characterized in that the moving member is formed with a convex top.
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