KR20230096927A - Method for evaluating erosion resistance of coin cell type secondary battery electrode terminal - Google Patents

Abstract

Disclosed is a method for evaluating the corrosion resistance of an electrode terminal for a coin cell-type secondary battery. According to an aspect of the present invention, provided is the method for evaluating the corrosion resistance of an electrode terminal for a coin cell-type secondary battery, which comprises: a step of preparing an electrode terminal for a metal-coated coin cell-type secondary battery; a step of arranging the electrode terminal on an inspection line and transporting the electrode terminal; a step of measuring the gloss degree, roughness, and contact angle of the electrode terminal transported along the inspection line; a step of comparing the gloss degree of the electrode terminal with a preset gloss degree reference, or comparing the roughness of the electrode terminal with a preset roughness reference, or comparing the contact angle of the electrode terminal with a preset contact angle reference, thereby determining a quality electrode terminal; and a step of sorting the electrode terminal which has been determined as a quality electrode terminal by the previous step. Therefore, a quality electrode terminal meeting a reference of corrosion resistance can be determined and sorted.

Description

Electrode terminal corrosion resistance evaluation method for coin cell type secondary battery

The present invention relates to a method for evaluating corrosion resistance of an electrode terminal for a coin cell type secondary battery.

Along with semiconductors and displays, the secondary battery industry is in the limelight as a key component of IT devices. In recent years, its use has increased for applications such as electric bicycles, hybrid vehicles (HEV), electric vehicles (EV), plug-in hybrid vehicles (PHEV), and energy storage devices (ESS) in which large-capacity batteries are used.

An electrode terminal (a positive electrode terminal and a negative electrode terminal), which is one of the components of a general secondary battery, serves to electrically connect the current collector to the outside by being in contact with or connected to an end portion (ie, an electrode tab) of the current collector. One side of these electrode terminals is located inside the unit cell case of the secondary battery, and the other side is located outside the unit cell case. In order to prevent the electrolyte inside the unit cell from leaking through the joint between the electrode terminal and the case, an insulating film is placed. It is attached in the middle of this electrode terminal.

These electrode terminals usually use the same material as the current collector, and are plated with a corrosion-resistant metal to prevent corrosion by external air and foreign substances. Specifically, the positive electrode terminal and the positive electrode current collector may be made of aluminum, and the negative electrode terminal and the negative electrode current collector may be made of copper. Since the electrode terminal made of aluminum or copper is easily oxidized and is weak against corrosion, the surface thereof is coated with nickel. It is used by plating the back.

Republic of Korea Patent Registration No. 10-1521328 (Announced on May 18, 2015)

The present invention provides a method for evaluating corrosion resistance of electrode terminals for coin cell type secondary batteries, which determines and selects good electrode terminals that meet corrosion resistance standards based on the measured values of gloss and roughness of the electrode terminals for coin cell type secondary batteries coated with metal. is to do

According to one aspect of the present invention, preparing an electrode terminal for a coin cell type secondary battery coated with metal, a transfer step of disposing and transferring the electrode terminal on an inspection line, measuring the glossiness of the electrode terminal transferred by the inspection line Glossiness measurement step, a first judgment step of comparing the glossiness of the electrode terminals measured through the glossiness measurement step with a predetermined glossiness standard to determine the electrode terminal of a good product, and an electrode determined to be a good product through the first judgment step A first sorting step of selecting terminals, a roughness measuring step of measuring the roughness of the remaining electrode terminals selected through the first sorting step, and a comparison of the roughness of the electrode terminals measured through the roughness measuring step with a preset roughness standard to determine the quality of good products. A method for evaluating corrosion resistance of electrode terminals for a coin cell type secondary battery is provided, including a second judgment step of determining electrode terminals and a second selection step of selecting electrode terminals determined to be good products through the second judgment step.

In the first judgment step, when the glossiness of the electrode terminal is 90 to 110, it can be determined as a good product.

The method for evaluating the corrosion resistance of electrode terminals for coin cell type secondary batteries is, after the second screening step, the contact angle measuring step of measuring the contact angle of the remaining electrode terminals selected through the second screening step, and the contact angle of the electrode terminal measured through the contact angle measuring step. The method may further include a third judgment step of determining the electrode terminals of good products by comparing them with a predetermined contact angle standard, and a third screening step of selecting electrode terminals determined to be good products through the third judgment step.

The electrode terminal may be coated with a coating material containing chromium.

The electrode terminal may be made of a material including stainless steel (SUS).

According to another aspect of the present invention, an inspection line for transferring metal-coated coin cell type secondary battery electrode terminals, a glossiness measurement unit installed in the inspection line and measuring the glossiness of electrode terminals transferred along the inspection line, a predetermined A first sorting unit that judges and sorts good products according to the glossiness of the electrode terminals measured by the glossiness measuring unit on the basis of glossiness, is installed in the inspection line, and is sorted by the first sorting unit and remains along the inspection line Coin cell type secondary battery including an illuminance measurement unit for measuring the illuminance of the electrode terminal to be transferred and a second sorting unit for determining and sorting good products according to the illuminance of the electrode terminal measured by the illuminance measurement unit based on the preset illuminance An electrode terminal corrosion resistance evaluation device is provided.

The first sorting unit may determine that the product is good when the glossiness of the electrode terminal is 90 to 110.

An electrode terminal corrosion resistance evaluation device for a coin cell type secondary battery is installed in an inspection line, and a contact angle measurement unit for measuring the contact angle of an electrode terminal that is selected by a second sorting unit and transferred along the inspection line, and a predetermined contact angle is used as a basis. It may further include a third sorting unit that determines and selects a good product according to the contact angle of the electrode terminal measured by the contact angle measurement unit.

The electrode terminal may be coated with a coating material containing chromium.

The electrode terminal may be made of a material including stainless steel (SUS).

According to the present invention, it is possible to determine and select good electrode terminals that satisfy the corrosion resistance standard based on the measured values of glossiness and roughness of the metal-coated coin cell type secondary battery electrode terminals.

1 is a flowchart illustrating a method for evaluating corrosion resistance of a coin cell electrode terminal for a secondary battery according to an embodiment of the present invention.
2 is a view showing an apparatus for evaluating corrosion resistance of a coin cell electrode terminal for a secondary battery according to an embodiment of the present invention.
3 to 5 are scanning electron microscope (SEM) photographs of coin cell electrode terminals for secondary batteries.

Since the present invention can apply various transformations and have various embodiments, specific embodiments will be illustrated in the drawings and described in detail in the detailed description. However, it should be understood that this is not intended to limit the present invention to specific embodiments, and includes all transformations, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the present invention, if it is determined that a detailed description of related known technologies may obscure the gist of the present invention, the detailed description will be omitted.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. These terms are only used for the purpose of distinguishing one component from another.

Terms used in this application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, the terms "include" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

In addition, coupling does not mean only the case of direct physical contact between each component in the contact relationship between each component, but another configuration intervenes between each component so that the component is in the other configuration. It should be used as a concept that encompasses even the case of contact with each other.

Hereinafter, an embodiment of a method and apparatus 100 for evaluating corrosion resistance of an electrode terminal for a coin cell type secondary battery according to the present invention will be described in detail with reference to the accompanying drawings. In the description with reference to the accompanying drawings, the same or corresponding configuration Elements are assigned the same reference numerals and overlapping descriptions thereof will be omitted.

According to one embodiment of the present invention, a preparation step of preparing a metal-coated coin cell type secondary battery electrode terminal, a transfer step of arranging and transferring the electrode terminal on the inspection line 110, and transfer by the inspection line 110 A gloss measurement step of measuring the glossiness of the measured electrode terminal, and a first step of comparing the glossiness of the electrode terminal measured through the gloss measurement step with a predetermined glossiness standard to determine a non-defective electrode terminal that meets the corrosion resistance standard. Determination step, a first selection step of selecting electrode terminals determined to be good products through the first determination step, an illuminance measurement step of measuring the illuminance of the remaining electrode terminals selected through the first selection step, and an illuminance measurement step. A second judgment step of comparing the roughness of the electrode terminals with a predetermined roughness standard to determine electrode terminals of non-defective products that meet the corrosion resistance criteria, and a second screening step of selecting electrode terminals determined to be non-defective products through the second judgment step. A method for evaluating corrosion resistance of an electrode terminal for a coin cell type secondary battery is proposed.

According to this embodiment, it is possible to determine and select good electrode terminals that meet the corrosion resistance criteria by comparing the measured values of glossiness and illuminance of the metal-coated coin cell type secondary battery electrode terminals with preset gloss and illuminance standards. there is.

Hereinafter, with reference to FIGS. 1 to 5 , each configuration of a method and apparatus for evaluating corrosion resistance of an electrode terminal for a coin cell type secondary battery according to the present invention will be described.

As shown in FIG. 1, the preparation step (S110) is a step of preparing a metal-coated coin cell type secondary battery electrode terminal, wherein the metal coating refers to forming a chromate layer on the electrode terminal.

Chromate refers to coating electrode terminals using a coating material containing chromium, and coating electrode terminals having poor corrosion resistance using a chromium coating material having strong corrosion resistance.

Since the coating quality of electrode terminals may change depending on the material, environment, and process of coating the electrode terminals, it is necessary to evaluate the coating quality of the electrode terminals before manufacturing and selling secondary batteries.

Also, in the present embodiment, in the electrode terminal, the positive terminal and the positive current collector may be made of a material containing aluminum (AL), and the negative terminal and the negative current collector may be made of a material containing stainless steel (SUS).

Therefore, in this embodiment, the corrosion resistance of the coin cell type secondary battery electrode terminal can be evaluated by measuring glossiness, roughness, and contact angle at each electrode terminal.

As shown in FIGS. 1 and 2 , the transfer step ( S120 ) refers to a step of disposing the electrode terminal on the inspection line 110 and transferring it along the inspection line 110 .

More specifically, by disposing the electrode terminals on the inspection line 110, the electrode terminals are transferred along the inspection line 110 so that glossiness, roughness and contact angle to be described later can be measured, based on which the corrosion resistance criteria are met. Goods can be selected.

For example, the inspection line 110 is made of an endless track and can continuously transfer a plurality of electrode terminals.

As shown in FIGS. 1 and 2 , the glossiness measurement step ( S130 ) refers to a step of measuring the glossiness of the electrode terminal transferred by the inspection line 110 through the glossiness measurement unit 120 .

Here, the glossiness is shown by comparing the amount of reflected light with respect to the amount of incident light by incident light, and the coating quality can be judged according to the glossiness of the coated surface of the electrode terminal, and corrosion resistance can be evaluated through this. there is.

As shown in FIGS. 1 and 2 , the first determination step (S140) is to compare the glossiness of the electrode terminals measured through the glossiness measuring step with a predetermined glossiness standard to determine the electrode terminals of the good product. say

The first determination step may be performed by the first sorting unit 130, and the good quality of the electrode terminal may be determined based on a preset gloss level.

Here, the predetermined glossiness standard may be set in the range of 90 to 110. Therefore, if the glossiness of the electrode terminal measured through the glossiness measuring step is within a predetermined glossiness range, it may be determined as a good product, and if it exceeds the predetermined glossiness range, it may be determined as a defective product.

More specifically, the predetermined glossiness range may refer to glossiness in the range of 90 to 110G, and the lower the glossiness of the electrode terminal, the better the corrosion resistance, and this glossiness may have an inverse relationship with the corrosion resistance. .

Meanwhile, FIG. 3 is a scanning electron microscope (SEM) picture of a secondary battery electrode terminal having a glossiness in the range of 90 to 110 GU, FIG. 4 is a SEM picture of a secondary battery electrode terminal having a glossiness in the range of 180 to 200 GU, and FIG. 5 is a It is a SEM picture of the secondary battery electrode terminal in the range of glossiness 350 to 380GU. Here, since the secondary battery electrode terminal can be judged as a good product as the glossiness is lower, among the secondary battery electrode terminals of FIGS. 3 to 5 described above, the glossiness of FIG. A secondary battery electrode terminal in the range of can be determined as a good product.

Subsequently, as shown in FIGS. 1 and 2 , the first sorting step (S150) refers to a step of sorting the electrode terminals determined to be good products through the first judging step by the first sorting unit 130, Depending on the selection step, the electrode terminal of the good product may be separately selected and the roughness measurement step and the contact angle measurement step may not be performed.

As shown in FIGS. 1 and 2 , the illuminance measurement step ( S160 ) refers to a step of measuring the illuminance of the remaining electrode terminals selected through the first selection step through the illuminance measurement unit 140 .

Here, the roughness is a numerical value indicating the degree of roughness and smoothness of the surface, and may be a criterion for determining the coating quality of the electrode terminal.

As shown in FIGS. 1 and 2, the second determination step (S170) refers to a step of determining the electrode terminal of a non-defective product by comparing the illuminance of the electrode terminal measured through the illuminance measurement step with a preset illuminance standard. 2 may be performed by the sorting unit 150.

In this embodiment, if the illuminance of the electrode terminal measured through the illuminance measurement step is formed within a preset illuminance range, it may be determined as a good product, and if it is less than or exceeds the preset illuminance range, it may be determined as a defective product.

Subsequently, as shown in FIGS. 1 and 2 , the second selection step (S180) refers to a step of selecting electrode terminals determined to be good products through the second determination step, and is performed by the second selection unit 150. can

If the electrode terminals of good products are sorted in the second sorting step, the remaining electrode terminals can be continuously transported along the inspection line 110 .

As shown in FIGS. 1 and 2 , the contact angle measurement step ( S190 ) refers to a step of measuring the contact angle of the remaining electrode terminals after being selected through the second selection step using the contact angle measurement unit 160 .

Here, the contact angle refers to the angle between the liquid-gas interface and the liquid-solid interface when a liquid drop exists on a solid, and can be used as an index to determine the coating quality of the electrode terminal, through which the corrosion resistance of the electrode terminal can be evaluated.

In other words, the contact angle refers to the angle formed by a liquid droplet on the surface of a solid when the surface tension of the liquid is greater than that of the solid surface. This contact angle may increase as the roughness of the surface increases. Therefore, it is possible to evaluate the corrosion resistance of the electrode terminal for a secondary battery by finding out the surface roughness of the electrode terminal through the contact angle.

As shown in FIGS. 1 and 2, the third determination step (S200) refers to the step of determining the electrode terminal of a good product by comparing the contact angle of the electrode terminal measured through the contact angle measurement step with a preset contact angle standard. 3 can be performed by the sorting unit 170.

More specifically, in the third determination step, when the contact angle of the electrode terminal is between the first contact angle and the second contact angle, it may be determined that the product is good.

In other words, if the contact angle of the electrode terminal measured in the contact angle measuring step is formed within a predetermined contact angle range, the product may be determined as a good product, and if the product is less than or exceeds the predetermined contact angle range, it may be determined as a defective product.

Subsequently, as shown in FIGS. 1 and 2 , the third selection step (S210) refers to a step of selecting electrode terminals determined to be good products through the third determination step, and is performed by the third selection unit 170. can

The gloss measurement unit 120, the roughness measurement unit 140, and the contact angle measurement unit 160 described above are installed on the inspection line 110, and the electrode terminals are glossy while the electrode terminals move along the inspection line 110. Degree, roughness and contact angle can be measured.

In addition, a step of selecting good electrode terminals is included between the processes of measuring gloss, roughness, and contact angle, respectively, and if they pass the gloss standard, they are separately selected, and the remaining electrode terminals that do not meet the gloss standard is secondarily selected if it passes the roughness criterion, and the remaining electrode terminals that do not meet the roughness criterion can be sorted thirdly based on the contact angle.

Therefore, the method and apparatus for evaluating the corrosion resistance of electrode terminals for a coin cell type secondary battery of this embodiment can select a better quality electrode terminal by evaluating the corrosion resistance using the glossiness, roughness, and contact angle of the electrode terminal as factors through these three-step measurement inspection. can

Although one embodiment of the present invention has been described above, those skilled in the art can add, change, delete, or add components within the scope not departing from the spirit of the present invention described in the claims. The present invention can be variously modified and changed by the like, and this will also be said to be included within the scope of the present invention.

100: electrode terminal corrosion resistance evaluation device for secondary battery
110: inspection line
120: gloss measurement unit
130: first sorting unit
140: illuminance measurement unit
150: second sorting unit
160: contact angle measurement unit
170: third sorting unit

Claims (4)

Preparing an electrode terminal for a metal-coated coin cell type secondary battery;
arranging and transferring the electrode terminal on an inspection line;
measuring glossiness, roughness, and contact angle of the electrode terminal transferred along the inspection line;
Determining the electrode terminal of a good product by comparing the glossiness of the electrode terminal with a predetermined glossiness standard, comparing the illuminance of the electrode terminal with a predetermined roughness standard, or comparing the contact angle of the electrode terminal with a predetermined contact angle standard ; and
An electrode terminal corrosion resistance evaluation method for a coin cell type secondary battery comprising the step of selecting the electrode terminal determined to be a good product through the step of determining the electrode terminal of the good product.
According to claim 1,
The step of determining the electrode terminal of the good product,
A method for evaluating corrosion resistance of an electrode terminal for a coin cell type secondary battery, which is judged to be a good product when the glossiness of the electrode terminal is 90 to 110.
According to claim 1,
The electrode terminal is coated with a coating material containing chromium, a method for evaluating corrosion resistance of an electrode terminal for a coin cell type secondary battery.
According to claim 1,
The electrode terminal is made of a material containing stainless steel (SUS), a coin cell type secondary battery electrode terminal corrosion resistance evaluation method.

Images