JP5081664B2 - Dry type anti-fog cloth - Google Patents

Description

The present invention relates to a dry type anti-fogging cloth that imparts an anti-fogging effect to a surface of glass or plastic, represented by eyeglass lenses.

In recent years, various types of eyeglass care products such as cleaner-related products, moisture wiping-related products, and anti-fogging-related products have been developed.

These are often required in different situations, and products that are specialized for each function will be used differently. However, when multiple effects are expected at the same time, multiple products can be used together. It has a problem that it is complicated and undesirable.
Moreover, with the recent diversification of the materials of eyeglass lenses, the amount of water droplets and dirt remaining on the lens surface is also different, and it is necessary to use a suitable product for each change of glasses.

As the anti-fogging cloth having a cleaning effect, for example, a technique such as Patent Document 1 has been developed, but this is a so-called wet type, and not only requires a separate drying or wiping operation after the treatment. Also, the cleaning effect and the anti-fogging effect were not always satisfactory.

In addition, some dry-type anti-fog cloths are also available, but this does not require wiping after treatment, but it is not capable of exerting a cleaning effect, and because it is a dry type, it is a type in which water droplets hardly remain. In the case of the glass or plastic surface, there was a risk of damaging the surface (Patent Document 2 etc.).

On the other hand, glasses cleaner-related products include a type that cleans spectacle lenses and then rinses them with water, but this has been desired to be improved because water drops must be removed after cleaning (Patent Document) 3 etc.).

Japanese Patent Laid-Open No. 2001-162421 JP-A-8-245950 Japanese Patent Application No. 2006-346821

As the inventors of the present invention have made various studies on spectacles cloths that remove water-cleaning spectacle cleaners, certain cloths can not only provide antifogging effect simultaneously with the removal of water droplets on spectacle lenses, but also the same. Even if there are no water droplets on the lens, the cloth will not damage the lens, but will also remove dirt and provide an anti-fogging effect, so it can be a product that meets the diverse demands of lens processing. The headline has led to the completion of the present invention, the purpose of which is to remove the moisture in the presence of moisture on the glass or plastic surface, and if not, can exhibit a cleaning effect, The glass or plastic surface can also be given anti-fogging effect, and can provide multiple anti-fogging effects at once. To provide a nest.

The above-described object is achieved by the following first to sixth inventions.
<First invention>
In the anti-fogging cloth in which a nonwoven fabric is impregnated with a chemical solution, at least a part of the nonwoven fabric is a nonwoven fabric having the following configuration (1), and at least a part of the chemical solution is a chemical solution containing the following component (2): A dry type anti-fog cloth that features
(1) Non-woven fabric containing split fibers and non-split fibers as constituent components (2) Chemical solution containing a cationic fluorosurfactant and a nonionic fluorosurfactant

<Second invention>
The dry type anti-fogging cloth according to the first invention, wherein the nonwoven fabric of (1) is split fiber: non-split fiber = 2: 8 to 8: 2 (mass ratio).

<Third invention>
The dry type anti-fogging cloth according to the first invention or the second invention, wherein at least a part of the split fibers has lipophilicity.

<Fourth Invention>
In the chemical solution of (2), any one of the first to third inventions, wherein the cationic fluorine surfactant: nonionic fluorine surfactant = 1: 19 to 19: 1 (mass ratio) Dry type anti-fog cloth described in 1.

<Fifth invention>
The dry type anti-fogging cloth according to any one of the first to fourth inventions, wherein the mass of the whole nonwoven fabric is 5 times or more of the mass of the chemical solution.

<Sixth invention>
The dry type anti-fogging cloth according to any one of the first to fifth inventions, wherein the surface of the nonwoven fabric impregnated with the chemical is 1/2 or less.

The dry type anti-fogging cloth of the present invention removes dirt without damaging the surface while removing moisture when moisture remains on the surface of glass or plastic, etc. However, some have the advantage of being able to impart an anti-fogging effect.

[Nonwoven fabric used for anti-fogging cloth of the present invention]
The non-woven fabric used in the present invention is a non-woven fabric having at least a part of the following configuration (1) (hereinafter sometimes referred to as “(1) non-woven fabric”).

(1) Nonwoven fabric containing split fibers and non-split fibers as constituent components

<< Divided fibers used for the nonwoven fabric of (1) >>
Some of the split fibers are obtained by splitting a single type of fiber, and some are split into two or more types of fibers. The splitting method uses a composite fiber formed by simultaneously spinning a plurality of components,
(A) a method of dissolving some components after spinning,
(B) Various known methods such as a method of peeling each component by applying heat or force from the outside using a difference in properties of each component can be used.

(Material of split fiber)
The material of the split fiber is polyester such as polyethylene terephthalate (PET), polybutylene terephthalate (PBT), polyethylene (PE), polypropylene (PP), nylon (NY), ethylene / vinyl acetate copolymer resin (EVA), etc. Can be mentioned.

(Characteristics of split fibers)
The split fibers used in the anti-fogging cloth of the present invention preferably have a lipophilic property in that a chemical solution having an anti-fogging effect can be uniformly applied to the surface of glass or plastic, Having lipophilicity includes, for example, a case where some or all of the plurality of fibers constituting the split fiber are fibers made of a lipophilic component, and at least a part of the split fibers is lipophilic. Anything that can be demonstrated is acceptable.

In addition, it is preferable that the ratio of the fiber having lipophilicity is 50% or more from the viewpoint that a necessary chemical solution can be applied uniformly, more preferably 80% or more, and more preferably 95% or more.

(Components of split fibers)
Specific examples of the fiber composed of a lipophilic component include PET, PBT, PE, PP, nylon, and the like, and preferably PET, PE, PP, and the like.

(Combination of split fibers)
And as a combination in case a division | segmentation fiber is a combination of 2 or more types of fiber, PET / PE and PET / PP are preferable at the point that required chemical | medical solution can be apply | coated uniformly, maintaining a transparent feeling.

(Shape of split fiber cross section)
As the cross-sectional shape of the split fiber, various known ones can be used. For example, a circular composite fiber cross-section is divided into two or more parallel layers, or is radially divided (fan-shaped or triangular, etc.) ), Petal-like, wedge-shaped, etc., but those that are radially divided (fan-shaped or triangular, etc.) are easy to apply a chemical solution thinly and evenly on the application surface, glass and plastic surfaces Since it is excellent in visibility through, it is used as a preferable one.

(Number of split fibers)
There is no particular limitation on the number of divisions, and for example, those of 2 to 24 divisions can be used, but those of 8 divisions or 16 divisions can absorb chemicals and remove dirt, and evenly and uniformly distribute chemicals. It is more preferable from the viewpoint of compatibility between the properties that can be applied and the strength of the anti-fogging cloth.

(Fineness of split fibers)
The fineness of the divided individual fibers is preferably less than 1.0 denier, and particularly preferably 0.1 to 0.3 denier.

(Effect of split fibers)
By using the above-described split fibers, it is possible to scrape excess chemical solution out of the chemical solution transferred from the anti-fogging cloth to glass, plastic, etc., and to impart a sense of transparency to the surface.

<< Non-Divided Fiber Used for Nonwoven Fabric of (1) >>
Non-divided fibers refer to general fibers other than the above-described divided fibers.

(Material of non-split fiber)
Non-split fiber materials include hydrophilic fibers such as rayon, acrylic and cotton, as well as polyesters such as polyethylene terephthalate (PET) and polybutylene terephthalate (PBT), polyethylene (PE), polypropylene (PP), nylon, Lipophilic materials such as the above can also be used.

(Nature fiber properties)
However, since the split fibers are preferably lipophilic, the non-split fibers are preferably hydrophilic. Non-split fibers have different properties from split fibers, so that anti-fogging cloth tends to exhibit contradictory performances in terms of cleaner properties (removal of dirt) and anti-fogging properties (addition of anti-fogging agents). Because.

(Fineness of undivided fiber)
The fineness of the non-divided fibers is preferably 0.5 to 10 denier, and particularly preferably 1.0 to 4.0 denier.

<< (1) Nonwoven Fabric >>
(Divided fiber: Ratio of non-divided fiber)
The ratio of the split fiber and the non-split fiber in the nonwoven fabric of (1) is preferably a split ratio: non-split fiber = 2: 8 to 8: 2 (mass ratio), particularly preferably split fiber. : Undivided fiber = 4: 6 to 6: 4 (mass ratio).
This is because the transparency is good when the ratio of the split fibers is 2: 8 or more, and the anti-fogging effect is more excellent when the ratio of the split fibers is 8: 2 or less.

(Type of (1) non-woven fabric (production method))
Examples of the non-woven fabric of (1) include a bonded binder-bonded fabric, a spunbonded fabric, a needlelaced fabric, a spunlaced fabric such as a cross-layer spunlace, a spray fiber fabric, or a stitchbonded fabric. However, in terms of having a soft texture and not damaging the lens surface or the like, in addition to the spunbond cloth, a needle punch cloth, a spunlace cloth, or the like is preferable.
In particular, spunlace is a non-woven fabric that combines soft texture and drape like cloth and homogeneity like paper because fibers are entangled with a high-pressure water stream, so glass and plastic are not damaged. Particularly suitable for these anti-fogging cloths.

(Weight of non-woven fabric of (1))
The basis weight of the nonwoven fabric (1) is preferably, for example, about 3 to 200 g / m ² , more preferably 10 to 150 g / m ² .

(Specific example of nonwoven fabric of (1))
The non-woven fabric of (1) is specifically purchased as Daiwabo Polytech Co., Ltd. LM-62 (PET / PE split fiber: rayon = 6: 4, cross layer, basis weight 62 g / m ² ), etc. Can do.
The above-mentioned PET / PE split fibers are radial (fan-shaped) split into eight (four PET / PE).

(Other non-woven fabrics)
The dry type anti-fog cloth used in the present invention may be a nonwoven fabric in which at least a part of the nonwoven fabric has the configuration of (1) above, and in addition to the nonwoven fabric of (1), another nonwoven fabric is further stacked. A two-layer structure can be used, or it can be used as a single layer in contact with other nonwoven fabrics.

The other nonwoven fabric may be a generally known nonwoven fabric and may have the same configuration as (1).

(Nonwoven fabric lamination / joining method)
As a method for laminating and joining these nonwoven fabrics, known methods such as entanglement processing by means such as needle punch, water needle, ultrasonic sealing, or heat fusion processing by hot embossing rolls, adhesive bonding, etc. Is mentioned.

In addition, it is preferable that the chemical solution is impregnated in the nonwoven fabric of (1) from the viewpoint of coexistence of the moisture wiping effect or the cleaning effect and the anti-fogging effect.

[Chemical solution used for anti-fogging cloth of the present invention]
The dry type anti-fogging cloth of the present invention is characterized in that at least a part of the chemical solution is a chemical solution containing the following component (2).

(2) Chemical solution containing a cationic fluorine surfactant and a nonionic fluorine surfactant

<< Cationic fluorosurfactant used in (2) >>
Examples of the cationic fluorine surfactant include quaternary ammonium salt type compounds such as fluoroalkyltrimethylammonium iodide (C ₂₂ H ₂₀ F ₁₇ IN ₂ O ₂ ).

The above-mentioned quaternary ammonium salt type cationic fluorine surfactants include “Factent 300” and “Factent 310” (fluoroalkyltrimethylammonium iodide (C ₂₂ H ₂₀ F ₁₇ IN ₂ O ₂ ), CAS. no. 59493-72-0) (both manufactured by Neos Co., Ltd.).

<< Nonionic fluorosurfactant used in (2) >>
Examples of nonionic fluorine surfactants include perfluoroalkyl group-containing polyoxyethylene ethers.

Perfluoroalkylethylene oxide adducts can be obtained as “MegaFuck” series (Dainippon Ink Chemical Co., Ltd.) etc., “MegaFuck F-444”, “MegaFuck F-445” (CAS no. 58228-15-2), “Megafuck F-446”, etc., among which “Megafuck F-445” is preferable.

<< Ratio of surfactant in chemical solution (2) >>
In the chemical solution (2), it is preferable that the cationic fluorine surfactant: nonionic fluorine surfactant = 1: 19 to 19: 1 (mass ratio), particularly preferably 5: 1 to 1: 5. It is.
When the ratio of the cationic fluorosurfactant is 1:19 or more, the fixability of the chemical solution, that is, the durability of the antifogging effect is particularly good, and when the ratio of the cationic fluorosurfactant is 19: 1 or less. This is because the anti-fogging effect is particularly excellent.

<Type of anti-fogging cloth>
The anti-fogging cloth of the present invention is of a so-called dry type. The dry type refers to a state in which the moisture of the impregnating chemical solution is almost evaporated, and is distinguished from a commonly-known wet type.
Specifically, the mass of the nonwoven fabric of (1) is preferably 5 times or more, particularly preferably 10 times or more with respect to the mass of the chemical solution.

《Impregnation area of chemical solution》
The chemical solution may be impregnated on the entire surface of the anti-fogging cloth of the present invention, but it is preferable to impregnate only a part of the surface. This is because when there are water droplets or the like on the object to be anti-fogged, the portion without the chemical solution is excellent in absorbing moisture remaining on the glass or plastic surface.

《Impregnated area of chemical solution》
As the area impregnated with the chemical solution, 1/2 or less of the anti-fogging cloth surface is sufficient, but 1/10 or more is preferable.
In the case where the anti-fogging cloth is laminated or bonded to a nonwoven fabric other than (1), the impregnation area is 1/10 or more and 1/2 or less based on the nonwoven fabric of (1). It is preferable.

The portion impregnated with the chemical solution may be biased, but is preferably evenly dispersed.

<Method of impregnating chemicals>
The method of dispersing and impregnating is not particularly limited, and can be used as long as it is a method of impregnating a nonwoven fabric with a solution. For example, a printing method, an ink jet method, a hole is formed in the side of a pipe through which a chemical solution is passed, The method of discharging and spraying a chemical | medical solution from there is mentioned.

EXAMPLES Hereinafter, although an Example is given and this invention is demonstrated, this invention is not limited to these.

Prior to Examples, test methods for confirming the performance of the foam cleaner composition of the present invention will be described below.

[Glasses lens used in the test]
The following eyeglass lenses were used for the test.

Super water-repellent plastic lens with special coating treatment mainly composed of fluorocarbon resin

[Test method for wet surface]
Wash normal glasses with a cleaning agent to completely remove dirt on the surface, and then wash with water to completely remove cleaning components. As a result, water droplets are attached to the surface of the super water-repellent plastic lens. By wiping this with a non-woven fabric (impregnated with an anti-fogging agent), the moisture wiping property and the finished feeling are visually confirmed.
Then, 350 ml of 80 ° C. hot water is put into a 500 ml beaker. Put the glasses wiped with a non-woven cloth on the mouth of the beaker and observe the condition of the lens surface after 5 seconds to confirm the anti-fogging effect.

The evaluation criteria for each test result are as follows.

[Moisture wiping evaluation criteria]
Good thing ○
A little left △
What remains bad and clear ×

[Finished (transparency) evaluation criteria]
What becomes clear ○
Something left unwieldy △
A lens surface that is left unwiped and the lens surface becomes white.

[Anti-fogging effect evaluation criteria]
No cloudiness after 5 seconds ○
Some cloudy △
Cloudy all over ×

[Test method for dry surfaces]
After the eyeglass lens is wiped dry with a nonwoven fabric, the lens is visually observed to check for scratches.
Use jojoba oil instead of artificial sebum, drop 0.01g on the lens surface and evenly spread on the lens surface with gauze. (Because the lens used in the test is a lens processed with fluorine, the lens surface cannot be uniformly applied and becomes fine oil droplets.) This is wiped with a non-woven fabric, and then IR absorption of jojoba oil on the lens surface by FT-IR Check if there is any.

Thereafter, the anti-fogging effect is confirmed by a method similar to the test method for wet surfaces.
The anti-fogging test method and the evaluation method are the same as in the case of the above test on the wet surface.

The evaluation criteria for the above test results are as follows.

Dirt removal on dry lens surface When there is no IR absorption of jojoba oil ○
When jojoba oil absorbs IR ×

The chemical solutions used for the various anti-fogging cloths to be tested are exemplified in Table 1 below.

Details of the components in the table are shown below.

Footage 310: Cationic fluorine surfactant (quaternary ammonium salt)
MegaFuck F445: Nonionic fluorine surfactant (perfluoroalkylethylene oxide adduct)

Nonwoven fabrics used for various anti-fogging cloths to be tested are exemplified in Table 2 below.
In addition, the kind of these nonwoven fabrics is a cross layer spunlace.

In the table, the fineness of the split fibers indicates the individual fineness after splitting.
The fineness of the non-divided fibers of H indicates the total fineness of acrylic and PET.

Test results

From Table 3, when the dry type anti-fogging cloth of the present invention has moisture remaining on the surface of the super water-repellent plastic lens that has been specially coated with a fluorocarbon resin, remove the moisture. While the anti-fogging effect can be imparted, it is confirmed that the anti-fogging effect can be imparted while removing the dirt without damaging the surface even when the surface of the super water-repellent plastic lens is dry. did it.

In addition, when the anti-fogging cloth (Example) of the present invention was used, the lens surface was not scratched as a result of the test on the dry surface.

The dry type anti-fogging cloth of the present invention removes dirt without damaging the surface while removing moisture when moisture remains on the surface of glass or plastic. However, some have the advantage of being able to impart an anti-fogging effect.

Claims (5)

The anti- fogging cloth, which is used for a surface subjected to a coating treatment with a fluorocarbon-based resin and impregnated with a chemical solution, is a non-woven fabric having the following configuration (1). A dry type anti-fogging cloth, wherein at least a part of the chemical is a chemical containing the following component (2).
(1) Nonwoven fabric containing split fibers and non-split fibers in split fibers: non-split fibers = 2: 8 to 8: 2 (mass ratio) (2) including a cationic fluorosurfactant and a nonionic fluorosurfactant Medicinal solution At least a portion of the split fibers, is characterized in that it has lipophilic, cross defogging of dry type according to claim 1 Symbol placement. In the chemical solution of (2), the cationic fluorine surfactant: nonionic fluorine surfactant = 1: 19 to 19: 1 (mass ratio), characterized in that the dry type of the dry type according to claim 1 or 2 Anti-fog cross. The dry type anti-fogging cloth according to any one of claims 1 to 3 , wherein the mass of the whole nonwoven fabric is 5 times or more of the mass of the chemical solution. Among the nonwoven surface area chemical is impregnated, 1/2, wherein the less, dry-type demisting cloth according to any one of claims 1 to 4.