JPH10168410A - Self-adhesive tape wound around electrolytic capacitor element - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a self-adhesive tape which is wound around an electrolytic capacitor element, has a sufficient heat resistance, and does not corrode metallic materials constituting the element by using a syndiotactic polystyrene film having a specified halide ion content as the substrate of the same. SOLUTION: This tape is wound around the periphery of an electrolytic capacitor element having a structure wherein an anode foil and a cathode foil are rolled together with an electrolytic paper held between them. The syndiotactic polystyrene film used as the substrate has a halide ion content (measured by pure-water boiling and extraction method) of 10ppm or lower, pref. 0-1ppm, in order to avoid the corrosion of metallic materials constituting the capacitor. A self-adhesive for forming a self-adhesive layer on one side of the substrate may be one suitably selected from currently used self-adhesives.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a pressure-sensitive adhesive tape for winding electrolytic capacitor elements.

[0002]

2. Description of the Related Art In an electrolytic capacitor, an outer periphery of an electrolytic capacitor element in which an anode foil and a cathode foil are wound via electrolytic paper is fixed by winding the outer periphery of the element with an adhesive tape (hereinafter referred to as "winding stopper"). After being impregnated with the liquid, it is sealed in an aluminum case.

[0003] Conventionally, as an adhesive tape wound around the outer periphery of an electrolytic capacitor element (hereinafter referred to as an adhesive tape for fastening), a polypropylene film or a polyethylene terephthalate film has been used as a base material. Has proposed a material based on polyphenylene sulfide. (For example, JP-A-2-277215)

[0004]

However, when a polypropylene film or a polyethylene terephthalate film is used as the base material of the pressure-sensitive adhesive tape for winding, heat resistance is not sufficient, and when an electrolytic capacitor is mounted on a circuit board, reflow occurs. There has been a problem that the heat of the furnace melts or shrinks the adhesive tape. Also,
Some of the adhesive tapes for winding using polyphenylene sulfide as a base material cause corrosion of a metal material such as a metal foil, an electrode, and a case constituting an electrolytic capacitor.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and has as its object to provide an electrolytic capacitor having sufficient heat resistance when used for winding of an electrolytic capacitor element. An object of the present invention is to provide a winding adhesive tape which does not cause corrosion of a constituent metal material.

[0006]

Means for Solving the Problems The inventors of the present invention have studied to solve the above problems, and as a result, as a base material of a pressure-sensitive adhesive tape for winding, a syndiotactic catalyst having a halide ion content of a specific amount or less. By using a polystyrene film having a tic structure, it has been found that the heat resistance required for the pressure-sensitive adhesive tape for winding and the corrosion resistance to the metal material constituting the electrolytic capacitor can be achieved, and the present invention has been achieved. .

That is, in order to achieve the above-mentioned object, the present invention provides an adhesive tape for fixing an electrolytic capacitor element in which an anode foil and a cathode foil are wound via electrolytic paper, wherein the base of the adhesive tape is a halide. It is a polystyrene-based film having a syndiotactic structure having an ion content of 10 ppm or less, and has a configuration in which an adhesive layer is provided on one surface of a substrate.

In another aspect of the present invention, the base material comprises a laminate of a polystyrene film having a syndiotactic structure having a halide ion content of 10 ppm or less and another plastic film, and the pressure-sensitive adhesive layer comprises the syndiotactic material. The polystyrene-based film having a tic structure is provided such that the side of the adhesive tape is on the back side.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings. FIG. 1 is a cross-sectional view of a pressure-sensitive adhesive tape for winding according to the present invention. A pressure-sensitive adhesive layer 2 is provided on one surface of a polystyrene film 1 having a syndiotactic structure and having a halide ion content of 10 ppm or less.

FIG. 2 is a cross-sectional view showing another example of the pressure-sensitive adhesive tape for winding according to the present invention. The polystyrene film 1 having a syndiotactic structure and having a halide ion content of 10 ppm or less is provided on one side with another plastic. The film 3 is laminated to form a pressure-sensitive adhesive tape base material A, the pressure-sensitive adhesive layer 2 is provided on the surface of another plastic film 3, and the polystyrene-based film 1 having a syndiotactic structure serves as the back surface of the pressure-sensitive adhesive tape. Have been.

FIG. 3 is a schematic view showing a state in which the pressure-sensitive adhesive tape of the present invention is used for winding an electrolytic capacitor element. The electrolytic capacitor element B is formed by winding an anode foil and a cathode foil through electrolytic paper. Adhesive tape 4 for winding according to the present invention
It is stopped by.

The polystyrene-based film having a syndiotactic structure (hereinafter, referred to as an SPS film) used as a substrate in the pressure-sensitive adhesive tape for winding according to the present invention has a highly three-dimensional syndiotactic structure,
That is, a film was formed using various polystyrene-based polymers having a steric structure in which phenyl groups or substituted phenyl groups, which are side chains, are alternately located in opposite directions to a main chain formed from carbon-carbon bonds as a main material. Things. Examples of the polystyrene-based polymer constituting the SPS film include polystyrene, poly (p-, m- or o-methylstyrene), poly (2,4-, 2,5-, 3,4- or 3,5- Poly (alkylstyrene) such as dimethylstyrene), poly (p-tert-butylstyrene), poly (p-, m- or o-methoxystyrene), poly (p-, m- or o-ethoxystyrene) Poly (alkoxystyrene), poly (carboxyalkylstyrene) such as poly (p-, m- or o-carboxymethylstyrene), poly (alkyl ether styrene) such as poly (p-vinylbenzylpropyl ether), poly (p -
Examples thereof include poly (alkylsilylstyrene) such as trimethylsilylstyrene, and poly (vinylbenzyldimethoxyphosphite). The SPS film used in the present invention may be a film made of only the polystyrene-based polymer having the above-mentioned advanced syndiotactic structure, or the above-mentioned polystyrene-based polymer may contain other thermoplastic resin, rubber, inorganic A film formed from a composition in which various additive components such as fine particles, an antioxidant, an antistatic agent, a colorant, and a plasticizer are appropriately blended can also be used.

Further, the SPS film used in the present invention needs to have a halide ion content such as chloride ion of 10 ppm or less from the viewpoint of corrosion resistance to the metal material constituting the electrolytic capacitor. ,
Preferably, the halide ion content is 1 ppm or less,
Most preferably, it is desirable to be 0 ppm. The halide ion content defined in the present invention means a value measured by a pure water boiling extraction method described later.
If the halide ion content in the SPS film measured by such a measuring method exceeds 10 ppm, corrosion of metal materials such as a metal foil, an electrode, and a case constituting the electrolytic capacitor is likely to occur. Therefore, the pressure-sensitive adhesive tape for winding of the present invention can more reliably prevent corrosion of the metal material used in the electrolytic capacitor by using the SPS film whose halide ion content is adjusted as described above. .

Further, in the present invention, the base material of the pressure-sensitive adhesive tape for winding may be a laminate of the SPS film and another plastic film. In this case, in order to maintain the heat resistance of the adhesive tape for winding and to prevent corrosion of the metal material used for the electrolytic capacitor, the adhesive layer provided on the laminated base material should be such that the SPS film side is the adhesive tape back side. Provided. SP for adhesive tape base for winding
By forming a laminate of the S film and another plastic film, the mechanical strength of the substrate can be improved.

The plastic film to be laminated on the SPS film is not particularly restricted but includes, for example, a polyethylene terephthalate film, a polymethylpentene film, a polypropylene film and a polyethylene film.

As a method for laminating the SPS film and another plastic film, a lamination method using an isocyanate-based or polyester-based adhesive or the like is used.

The thickness of the substrate is preferably from 2 to 150 μm from the viewpoint of workability of winding on the electrolytic capacitor element,
75 μm is more preferred. When the substrate is a laminate, the thickness of each layer is preferably 1 to 75 μm, and 5 to 50 μm.
m is more preferred.

In the pressure-sensitive adhesive tape for winding according to the present invention, the pressure-sensitive adhesive provided on one side of the base material is such that the pressure-sensitive adhesive property does not change within the range of heat resistance required for the electrolytic capacitor, and the pressure-sensitive adhesive is changed by the electrolytic solution. There is no particular limitation as long as it does not cause deterioration and deterioration, and a pressure-sensitive adhesive that has been conventionally used for a pressure-sensitive adhesive tape for winding can be appropriately selected and used. Specific examples of the adhesive include an acrylic adhesive, a rubber adhesive, and a silicone adhesive.

The adhesive includes a tackifier, a crosslinking agent, a plasticizer,
Known additives such as an antioxidant, a stabilizer, a filler, a pigment, and an antioxidant may be blended.

The thickness of the pressure-sensitive adhesive layer is usually 2 to 100 μm
Is preferable, and 5 to 50 μm is more preferable.

As a method for producing the pressure-sensitive adhesive tape for winding according to the present invention, an ordinary method for producing a pressure-sensitive adhesive tape can be used. For example, using a coating device such as a roll coater, a reverse coater, a gravure coater, and a bar coater, a pressure-sensitive adhesive is directly applied to a substrate, and a method of drying, and a pressure-sensitive adhesive is applied on a release liner and dried. There is a transfer method for transferring the image to a post-substrate.

In the pressure-sensitive adhesive tape for winding according to the present invention,
A release agent layer composed of a silicone polymer or the like is provided on the opposite surface of the substrate on which the pressure-sensitive adhesive layer is formed, and is wound in a roll shape, or the pressure-sensitive adhesive layer is covered with a release liner and wound in a roll shape. Or you can.

The pressure-sensitive adhesive tape for winding according to the present invention is used by being wound around the outer periphery of an electrolytic capacitor element having a structure in which an anode foil and a cathode foil are wound via electrolytic paper.

[0024]

EXAMPLES The present invention will be described below with reference to specific examples, but the present invention is not limited to these examples.

Example 1 An acrylic pressure-sensitive adhesive was applied to one side of a 25 μm thick polystyrene film having a syndiotactic structure so as to have a thickness of 30 μm after drying, and the pressure-sensitive adhesive tape for winding according to the present invention was used. I got

Example 2 A polystyrene film having a syndiotactic structure having a thickness of 12 μm and a polyethylene terephthalate film having a thickness of 12 μm were adhered to each other with an isocyanate-based adhesive. 30μm thick
The adhesive tape for winding of the present invention was obtained.

Comparative Example 1 A 25 μm-thick polyphenylene sulfide film (trade name: TORELINA 30) was used as a substrate.
40, manufacturer name: Toray Industries, Inc.), except that adhesive tape for stopping was obtained in the same manner as in Example 1.

Comparative Example 2 An adhesive tape for winding was obtained in the same manner as in Example 1 except that a polypropylene film having a thickness of 25 μm was used as a substrate.

The following evaluations were made on the pressure-sensitive adhesive tapes for winding obtained in Examples and Comparative Examples.

[Halide ion content (pure water boiling extraction method)] Pretreatment The base materials used in Examples and Comparative Examples were each 100 cm.
^The sample was cut into a size of ² and used as a measurement sample. 50 measurement samples
of pure water (ion-exchanged water having a conductivity of 1 μS or less) in a polypropylene container with a lid (washed thoroughly with pure water). After closing the lid, the container was immersed in boiling pure water. Extraction treatment was performed in a boiling water bath for 30 minutes. Measurement extract to Including halide ion (Cl ^-, B
r ^{-, F} -, I ^- ion chromatography concentration) -
Measured using Apparatus: DX-AQ1110 (DIONEX) Eluent: 2.7 mM-Na ₂ CO ₃ , 0.3 mM-Na
HCO ₃ separation column: AS12 Guard column: AG12

[Electrolytic Capacitor Corrosion Test] An outer periphery of an electrolytic capacitor element in which an anode foil and a cathode foil made of high-purity aluminum foil were wound via electrolytic paper was wrapped with the adhesive tape obtained in each of Examples and Comparative Examples. This element was impregnated with ethylene glycol as an electrolytic solution. The electrolytic capacitor element was sealed in a cylindrical aluminum case to prepare an electrolytic capacitor for evaluation. The electrolytic capacitor for evaluation was subjected to a high temperature humidification condition of 60 ° C. × 90% RH.
After leaving for 000 hours, the electrolytic capacitor was disassembled and the state of corrosion was observed.

[Heat resistance test] After leaving the electrolytic capacitor for evaluation using the pressure-sensitive adhesive tape obtained in Examples and Comparative Examples at 200 ° C for 1 hour, the electrolytic capacitor was disassembled and closed. The state of the adhesive tape was observed.

Table 1 shows the evaluation results.

[0034]

[Table 1]

When the adhesive tape for winding according to the present invention is used, even if the electrolytic capacitor is left under severe conditions such as high temperature and high humidity, corrosion of the metal material constituting the electrolytic capacitor does not occur. Further, since the pressure-sensitive adhesive tape substrate has heat resistance, the pressure-sensitive adhesive tape does not melt even when the electrolytic capacitor is left at a high temperature.

[0036]

The pressure-sensitive adhesive tape for winding according to the present invention uses a syndiotactic polystyrene film having a halide ion content of 10 ppm or less as the base material of the pressure-sensitive adhesive tape. When the electrolytic capacitor using the adhesive tape is exposed to high temperature conditions such as in a reflow furnace, the adhesive tape does not melt and shrink, and can maintain the function of winding the electrolytic capacitor element. Corrosion of a metal material such as an electrode and a case constituting the capacitor can be prevented. Therefore, by using the pressure-sensitive adhesive tape for winding according to the present invention, it is possible to improve the reliability of the electrolytic capacitor.

[Brief description of the drawings]

FIG. 1 is a sectional view of a pressure-sensitive adhesive tape for winding according to the present invention.

FIG. 2 is a sectional view showing another example of the pressure-sensitive adhesive tape for element winding of the present invention.

FIG. 3 is a schematic view showing a state in which the adhesive tape for winding according to the present invention is used for winding an electrolytic capacitor element.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Polystyrene-type film of a syndiotactic structure 2 Adhesive layer 3 Other plastic films 4 Adhesive tape for winding A A adhesive tape base material B Electrolytic capacitor element

 ──────────────────────────────────────────────────の Continued on the front page (72) Inventor Toshimitsu Okuno 1-2-1, Shimohozumi, Ibaraki-shi, Osaka Nitto Denko Corporation

Claims (2)

[Claims] An adhesive tape for winding around an outer periphery of an electrolytic capacitor element in which an anode foil and a cathode foil are wound via electrolytic paper, wherein the adhesive tape has a halide ion content. Is a polystyrene film having a syndiotactic structure of 10 ppm or less,
An adhesive tape for winding an electrolytic capacitor element, wherein an adhesive layer is provided on one surface of a substrate. 2. The adhesive tape base material is a laminate of a polystyrene film having a syndiotactic structure having a halide ion content of 10 ppm or less and another plastic film, wherein the adhesive layer has the syndiotactic structure. An adhesive tape for winding an electrolytic capacitor element, wherein the adhesive tape is provided so that the polystyrene-based film side having the above is the back surface of the adhesive tape.