KR100247708B1 - Jig device for aging of aluminium electrolytic condenser - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a jig device for an aging process, which is performed to restore the damaged portion of an aluminum foil generated in the manufacturing process of an aluminum electrolytic capacitor. The present invention relates to a technique that solves a problem in which a failure occurs because any one of the capacitors inserted into the jig is not charged due to a voltage drop phenomenon when a short occurs. In order to implement this, in the present invention, at least two or more capacitors connected in parallel between a power supply voltage and a ground voltage, and connected between the power supply voltage and each capacitor connected in parallel, are connected to the capacitors when a current of 1 amp or more flows. An overvoltage interruption means for interrupting the flowing voltage was provided.

Description

Jig device for individual aging of aluminum electrolytic capacitor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a jig device for an aging process, which is carried out to restore a damaged portion of an aluminum foil generated in a manufacturing process of an aluminum (Al) electrolytic capacitor, in particular, inserted into a jig. Aluminum used ceramic switch element with built-in fuse control for current control to solve the problem that when one of the capacitors is shorted, a problem occurs when the other capacitor is not charged due to voltage drop phenomenon. A jig device for individual aging of an electrolytic capacitor.

In general, when the assembly of the aluminum electrolytic capacitors is completed by the manufacturing process of the aluminum (AL) electrolytic capacitor (Condenser), the aging (applicability) to apply voltage to the capacitor at a constant temperature and time according to the specifications of each capacitor. The process will be carried out.

At this time, the purpose of aging the capacitor is to apply a voltage while chemically treating the aluminum foil during the manufacturing process of the aluminum electrolytic capacitor, so that a large amount of foreign substances, etc., may be damaged on the aluminum foil in the process of moving to the next step. This is to restore the damaged area.

The aging capacitor can reduce leakage current as much as possible, can withstand the withstand voltage sufficiently, eliminate the gradient change in performance, improve the operating characteristics, and eliminate the unstable products in advance. .

Therefore, manufacturers of domestic and overseas aluminum electrolytic capacitors essentially perform the aging process when manufacturing the capacitor, each manufacturer had a common point and difference in the method of aging.

Common to the aging method is that the jig (JIG) device must be used, the difference is the circuit configuration of the jig (JIG) and the method of applying the voltage.

Here, the number of capacitors inserted into the jig JIG depends on the size of the capacitor.

Up to now, three methods of applying voltage to each jig have been common.

First, a method of simultaneously applying a voltage to all capacitors inserted into the jig,

Second, applying a voltage by attaching each resistor to a capacitor inserted in a jig;

Third, there was a method of applying a voltage by attaching a device called a Positive Temparature Coefficent Thermistor (PTC) to a capacitor inserted in a jig.

Then, the jig device for individual aging of the conventional aluminum electrolytic capacitor will be described with reference to the accompanying drawings.

1 is a circuit diagram of a jig device for individual aging of a conventional aluminum electrolytic capacitor for simultaneously applying a voltage to all capacitors inserted into a jig, wherein a load resistor R connected to a power supply voltage terminal V, The capacitor Cn is connected in parallel between the load resistor R and the ground voltage Ground.

However, in the aging jig device configured as described above, when a short occurs in any one of the capacitors Cn inserted into the jig JIG, all currents flow toward the shorted capacitor. There was a problem that the normal capacitor did not apply the voltage, so all of them were treated as defective and the work had to be reworked. Also, the load resistor R connected to the power supply voltage was a fixed resistor, and the JIG device was changed according to the power supply voltage. There was a problem to give.

FIG. 2 shows a jig device for individual aging of a conventional aluminum electrolytic capacitor for applying voltage by attaching respective resistors to a capacitor inserted in a jig JIG, and a load resistor R1 connected to a power supply voltage terminal V; And a capacitor Cn connected in parallel between the load resistor R1 and a ground voltage, and a load resistor R connected between the load resistor R1 and each capacitor Cn connected in parallel. It is composed.

However, even in this case, when a short occurs in any one of the capacitors inserted in the jig, most of the current flows to the shorted side, and only a minute voltage is applied to the normal product. Therefore, as in FIG. 1, the same defect occurs, and when such a short phenomenon lasts for a long time, the resistance is shorted or broken due to overheating, and thus a failure occurs because no voltage is applied.

In addition, in the jig device having the above-described configuration, there is a problem that the resistance value must be set and inserted in accordance with the voltage of the capacitor.

Fig. 3 is a circuit diagram of a jig device for individual aging of a conventional aluminum electrolytic capacitor for applying voltage by attaching a constant temperature characteristic thermistor element (PTC) to a capacitor inserted in a jig (JIG), respectively.

The circuit configuration includes a load resistor R connected to a power supply voltage terminal V, a capacitor Cn connected in parallel between the load resistor R and a ground voltage, and the load resistor R1 and the parallel. It consists of the constant temperature characteristic thermistor element PTC connected between each connected capacitor Cn.

Here, the positive temperature characteristic thermistor element (PTC) is a device that has a characteristic that the resistance value increases rapidly when the temperature reaches a predetermined temperature value, and the switch element is used for resistance or temperature. to be.

For reference, the positive temperature characteristic thermistor element (PTC) operates as a switching element with high resistance when heat is generated by high current, and the resistance value can be changed from several ohms (Ω) to several kiloohms (KΩ). The Curie temperature can be up to 45 ° C to 260Ω.

The positive temperature characteristic thermistor element (PTC) is small, high in reliability, and long in life, and is widely used as an element for an overcurrent protection circuit, a DC motor protection circuit, various TVs, and various industrial equipment protection circuits.

In the conventional aging jig device using the positive temperature characteristic thermistor element PTC, when a short occurs in any one of the capacitors inserted in the jig, the voltage drop occurs. It is generated and the rated voltage is not applied to the capacitor (i.e., because the capacitor is not fully charged), which is a cause of failure and a major cause of quality deterioration.

If the positive temperature characteristic thermistor element PT is shorted, the capacitor inserted into the shorted positive temperature characteristic thermistor element PT will continue to fail, and the positive temperature characteristic thermistor element PTC will also be It should be set by the setting range.

In addition, the jig device for aging using the positive temperature characteristic thermistor element (PTC) should be used by dividing the use range of supply voltage into low pressure and high pressure, and when a defect occurs in the jig, a voltage drop phenomenon occurs. Due to the low pressure was not available, there was a problem that the load resistance should be changed according to the voltage of the capacitor.

In the conventional aging jig device of the aluminum electrolytic capacitor having such problems, the power supply voltage of the jig should be classified into low and high voltage according to the capacitor, and if any one of the capacitors is shorted, the short will be shorted. The rest of the normal capacitor is not treated as bad, and there are many problems such as the load resistance value to be determined according to the power supply voltage.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to provide a jig device for individual aging of an aluminum electrolytic capacitor which eliminates a voltage drop phenomenon caused by a bad capacitor inserted into a jig.

It is another object of the present invention to provide a jig device for individual aging of an aluminum electrolytic capacitor that can be commonly used for low pressure and high pressure.

1 is a circuit diagram of a jig device for individual aging of a conventional aluminum electrolytic capacitor

2 is a circuit diagram of a jig device for individual aging of another conventional aluminum electrolytic capacitor.

3 is a circuit diagram of a jig device for individual aging of another conventional aluminum electrolytic capacitor.

4 is a circuit diagram of a jig device for individual aging of an aluminum electrolytic capacitor according to a first embodiment of the present invention.

5 is a circuit diagram of a jig device for individual aging of an aluminum electrolytic capacitor according to a second embodiment of the present invention.

6 is a table of experimental results of each device according to the prior art and the present invention

Explanation of symbols on the main parts of the drawings

R; Resistor C: Condenser

PTC: Constant Temperature Thermistor Element

CS: Ceramic Switch Element

TNR: Tienal (originally called 'varistor' for overvoltage protection)

In order to achieve the above object, the jig device for individual aging of the aluminum electrolytic capacitor according to the present invention in the jig device for individual aging of the aluminum electrolytic capacitor,

At least two capacitors connected in parallel between the supply voltage and the ground voltage;

And an overvoltage cut-off means connected between the power supply voltage and each of the capacitors connected in parallel and for blocking a voltage flowing to the capacitor when a current equal to or greater than a first logic value flows.

The jig device for individual aging of the aluminum electrolytic capacitor according to the present invention is further provided with overvoltage protection means connected between the power supply voltage and the ground voltage.

The overvoltage protection means is a varistor as a switch element. The overvoltage blocking means is a switch element made of ceramic, and further includes a fuse control for controlling current and a resistor whose resistance is changed according to temperature.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

4 is a circuit diagram of a jig device for individual aging of an aluminum electrolytic capacitor according to a first embodiment of the present invention, and FIG. 5 is a circuit diagram of a jig device for individual aging of an aluminum electrolytic capacitor according to a second embodiment of the present invention.

Referring to FIG. 4, at least two or more capacitors Cn connected in parallel between a power supply voltage and a ground voltage, and between each of the capacitors Cn connected in parallel with the power supply voltage, are connected to each other by more than 1 amp A. It is provided with a ceramic switch element (CSn) for cutting off the voltage flowing to the capacitor (Cn) when the current flows.

The ceramic switch device CSn is a switch device made by focusing only on the shortcomings of the ceramic constant temperature characteristic thermistor (PTC) device, and has a fuse for controlling current in the ceramic switch. Therefore, it maintains a certain resistance value at the specified current and changes to high resistance when it reaches the limit current value, and acts as a switching element, and finally the circuit and product to be protected when the characteristics of the ceramic switch are changed for any reason. High reliability switching element with protection function

Looking at the operation by the above configuration, if any one of the capacitors inserted in the jig (JIG) is short (short) occurs when a large amount of current flows into the shorted capacitor, the ceramic element is detected by the inflow of voltage To prevent voltage drop.

Therefore, even if at least one of the capacitors inserted into the jig made of the ceramic switch element CSn is short, there is no voltage drop. Therefore, the rated voltage is applied to the normal capacitor to affect the product quality. Does not give at all.

If the current value is shorter than 1 [A] in the ceramic switch (short), the voltage is cut off within 10 seconds, so that there is no effect on other devices and capacitors.

As can be seen from the above configuration, another feature of the present invention does not require a load resistance can be used in common from low voltage to high voltage.

FIG. 5 is a circuit diagram of a jig device for individual aging of an aluminum electrolytic capacitor according to a second embodiment of the present invention, which is connected between the power supply voltage and the ground voltage to block an overcurrent that flows instantaneously upon application of the power supply voltage. The overvoltage protection means (TNR) is further provided in FIG.

Tienal (TNR) of the over-voltage protection means is called "TNR" as the name of the product in Markon Co., Ltd., the original name is varistor (Varistor). Its role is to attach to the power supply input for overvoltage protection.

Accordingly, in the present invention, in order to prevent arc generation occurring when voltage is applied to the input terminal of the jig, a TNR is attached to prevent damage of the jig and the device or the capacitor generated by the arc. Can be.

6 is an experimental result table of each device according to the prior art and the present invention.

The experimental data according to the conventional and present invention shown here will be described with reference to <Table 1> below.

As shown in FIG. 6 and Table 1 below, in the individual aging jig apparatus of the conventional aluminum electrolytic capacitor using a resistance or positive temperature characteristic thermistor (PTC), the power supply voltage of the jig is changed to low and high voltage depending on the capacitor. If any one of the capacitors is shorted, the entire capacitor that is not shorted is treated as bad, and the load resistance value has to be determined according to the power supply voltage. However, in the individual aging jig device of the aluminum electrolytic capacitor of the present invention using a ceramic switch element, it is possible to eliminate the voltage drop caused by the bad capacitor inserted in the jig to improve the quality of the product, and also to share the low voltage and high pressure. Can be.

Item Individual resistor Use PTC Use ceramic switch Jig Voltage Range (6.3V to 550V) Low, medium and high pressure classification Use of low and high pressure classification Use for low and high pressure Impact of regular product on defective jig Voltage cannot be applied to the entire jig Unavailable at low pressure due to voltage drop No voltage drop from low to high voltage Use load resistor Need to change resistance according to voltage Need to change resistance according to voltage Do not use Jig PCB Breakage Breakage due to overheating of load and individual resistor Damage due to changes in load resistance and PTC over time No damage due to built-in fuse resistance

As described above, according to the jig device for the individual aging of the aluminum electrolytic capacitor according to the present invention, the voltage drop phenomenon caused by the defective capacitor inserted in the jig is removed by using a ceramic switch element with a built-in fuse for controlling current. In addition, it can improve the quality and productivity of the product, and also has a very good effect that can be used in common for low pressure and high pressure.

In addition, preferred embodiments of the present invention are disclosed for the purpose of illustration, those skilled in the art will be able to various modifications, changes, additions, etc. within the spirit and scope of the present invention, such modifications and modifications belong to the scope of the claims You will have to look.

Claims (5)

A jig device for individual aging of an aluminum electrolytic capacitor, comprising: at least two or more capacitors connected in parallel between a power supply voltage and a ground voltage, and a current equal to or greater than a predetermined logic value connected between the power supply voltage and each capacitor connected in parallel; Jig device for individual aging of the aluminum electrolytic capacitor, characterized in that it comprises an over-voltage blocking means for cutting off the voltage flowing to the capacitor when flowing. 2. The individual aging of the aluminum electrolytic capacitor according to claim 1, further comprising an overvoltage protection means connected between the power supply voltage and the ground voltage to block an overcurrent that flows instantaneously upon application of the power supply voltage. Jig device. The jig device for individual aging of an aluminum electrolytic capacitor according to claim 2, wherein said overvoltage protection means is a varistor. The jig device for individual aging of an aluminum electrolytic capacitor according to claim 1, wherein said overvoltage blocking means is a switch element made of ceramic. 5. The jig device for individual aging of an aluminum electrolytic capacitor according to claim 4, wherein the switch element is a current control fuse resistor that cuts off the overcurrent and changes the resistance value according to the temperature.

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