JP4114054B2 - Cleaning composition - Google Patents

Description

【００２４】
【表２】

【００２５】
【表３】

【００２６】
【表４】

【００２７】
上記表の結果から明らかなように、本発明である実施例１〜９の洗浄剤組成物は、高級脂肪酸塩のさっぱり感を向上させつつ、泡性能に優れることが判った。これに対して比較例１〜７は、泡性能が悪く、本発明の効果を達成できないことが判った。
【００２８】
以下に示す洗浄剤組成物を常法に従って製造した。得られた洗浄剤組成物は高級脂肪酸塩のさっぱり感を向上しつつ、泡性能に優れたものであった。
［実施例１０］ 液体洗浄剤組成物
ラウリン酸カリウム ９
ミリスチン酸カリウム ７
パルミチン酸カリウム ２
ステアリン酸カリウム １
ＰＯＥ（１０）ヤシ油脂肪酸モノエタノールアミド ２．５
（アミゼット１０Ｃ、川研ファインケミカル製）
ラウリルジメチルアミンオキシド ２
（アロモックスＤＭ１２Ｄ-Ｗ、ライオン化学製）
アクリル酸アルキル共重合体エマルション １．５
（レオアールＭＳ−１００、ライオン化学性）
塩化ジメチルジアリルアンモニウム・アクリルアミド共重合体液
（カヤクリルレジン Ｍ-５０、日本化薬製） １
プロピレングリコール ８
１，３−ブチレングリコール ３
ソルビトール ３
シリコーンエマルジョン ２
（ＢＹ２２−０５５、東レ・ダウコーニング・シリコーン製）
スチレン重合体エマルジョン ２
（サイビノールＰＥ-３、サイデン化学製）
ベントナイト ０．２
（クニピアＦ、クニミネ工業製）
塩化ナトリウム ０．１
エデト酸四ナトリウム四水塩 ０．２
ジブチルヒドロキシトルエン ０．１
メリッサエキス（メリッサ抽出液ＢＧ−５０、香栄興業製） １
ダービリアエキス（海藻エキス末、アルプス薬品工業製） １
シラカバエキス（シラカバ抽出液、丸善製薬製） １
グリチルリチン酸ジカリウム ０．１
香料 １
青色１号 適量
黄色４号 適量
水酸化カリウム ｐＨ１０に調整量
精製水 バランス
合計（％） １００．０
【００２９】
［実施例１１］ デオドラント及び殺菌用液体洗浄剤組成物
ラウリン酸カリウム ５
ミリスチン酸カリウム ４
ＰＯＥ（２）ラウリン酸モノエタノールアミド ２
（アミゼット２Ｌ−Ｙ、川研ファインケミカル製）
ラウリルジメチルアミンオキシド ２
（オバゾリンＬＢ−ＳＦ、東邦化学工業製）
アクリル酸アルキル共重合体エマルション ０．３
（レオアールＭＳ４００、ライオン化学製）
カチオン化セルロース ０．２
（レオガードＧＰ、ライオン化学製）
ポリアクリル酸 ０．２
（カーボポール９４０２、ＢＦグッドリッチ製）
ＰＯＥ（３）ラウリルエーテル硫酸ナトリウム ３
（サンノールＬＭＴ-１４３０、ライオン化学製）
ベンゲルＦＷ（豊順鉱業製） ０．２
塩化ナトリウム ０．５
ヘキシレングリコール ７
エタノール ３
メチルパラベン ０．２
プロピルパラベン ０．１
油溶性甘草エキス ２
（油溶性甘草エキスＰ−Ｔ４０Ｎ、丸善製薬製）
トリクロサン ０．２
ピロクトンオラミン ０．１
（オクトピロックス、クラリアント・ジャパン製）
ｌ−メントール ０．３
αオレフィンオリゴマー ２
シリコーンエマルジョン ２
（ＢＹ２２−０２０、東レ・ダウコーニング・シリコーン製）
１，３−ブチレングリコール ５
エチレングリコールジステアレート １
スチレン重合体エマルジョン液（３５％） １
（サイビノールＲＰＸ−１９６ ＰＥ−３、サイデン化学製）
香料 １
青色１号 適量
精製水 残部
合計（％） １００．０
【００３０】
［実施例１２］ クリーム状洗浄剤組成物
ミリスチン酸 １４
パルミチン酸 ４
ステアリン酸 ２
ＰＯＥ（２）ヤシ油脂肪酸モノエタノールアミド ２
ラウリルジメチルアミンオキシド ２．５
（オバゾリンＬＢ−ＳＦ、東邦化学工業製）
アクリル酸アルキル共重合体 ０．５
高重合ポリエチレングリコール ０．２
（ポリオックスＷＳＲ−Ｎ７５０、ユニオン・カーバイド製）
ＰＯＥ（１６）セチルエーテル ２
（ＥＭＡＬＥＸ１１６、日本エマルジョン製）
グリセリン １５
ＰＥＧ４０００ ５
ソルビトール ６
精製ラノリン（精製ラノリン、クローダジャパン製） ０．５
オレンジ油（オレンジ・スウィート・オイル、池田物産製 １
高重合メチルシロキサン ２
（ＳＨ−２００−１００００ｃｓ、東レ・ダウコーニング・シリコーン製）
ダービリアエキス（海藻エキス末、アルプス薬品工業製） １
シラカバエキス（シラカバ抽出液、丸善製薬製） １
ピロクトンオラミン １
（オクトピロックス、クラリアント・ジャパン製）
ポーラゲルＮＦ（アメリカンコロイド製） ０．３
酸化チタン（平均粒子径０．２５μｍ、ルチル型） １
グンジョウ（平均粒子径０．３〜２μｍ） ０．０５
ベンガラ（平均粒子径０．０３μｍ） ０．０５
ナイロン末（平均粒子径１００μｍ） ０．０５
エデト酸四ナトリウム四水塩 ０．３
水酸化カリウム ３．２
香料 １
精製水 残部
合計（％） １００．０
【００３１】
［実施例１３］ クレンジングジェル組成物
ミリスチン酸トリエタノールアミン ６
Ｎ−ラウロイル−Ｎ−メチル−β−アラニンカリウム ２
ＰＯＥ（５）ヤシ油脂肪酸モノエタノールアミド ２．５
（アミゼット５Ｃ、川研ファインケミカル製）
ラウリルジメチルアミンオキシド １
（アロモックスＤＭ１２Ｄ−Ｗ、ライオン化学製）
アクリル酸アルキル共重合体エマルション ０．２
（レオアールＭＳ２００、ライオン化学製）
ヒドロキシプロピルメチルセルロース ０．５
（メトローズＨＰＭＣ ６０ＳＨ４０００、信越化学工業製）
ＰＯＥ（３）ラウリルエーテル硫酸ナトリウム ４
ＰＯＥ（１０）ベヘニルエーテル ３
（エマレックス ＢＨＡ−１０、日本エマルジョン製）
ジメチルポリシロキサン １
（ＳＨ２００−３０ｃｓ、東レ・ダウコーニング・シリコーン製）
イソノナン酸イソノニル ２
プロピレングリコール ５
イソプロピルメチルフェノール ０．１
エラグ酸 ０．１
ラポナイトＸＬＧ（日本シリカ製） ０．３
ポリエチレン末（平均粒径１００μｍ） ０．３
香料 １
トリエタノールアミン ｐＨ８に調整量
精製水 残部
合計（％） １００．０
【００３２】
［実施例１４］ フォーマー容器充填用液体洗浄剤組成物＊
ラウリン酸カリウム ４
ヤシ油脂肪酸カリウム ８
ＰＯＥ（２）ラウリン酸モノエタノールアミド ２
（ナイミッドＭＬ−２０３、日本油脂製）
ラウリルジメチルアミンオキシド ２
（オバゾリンＬＢ−ＳＦ、東邦化学工業製）
アクリル酸アルキル共重合体エマルション ０．３
（レオアールＭＳ２００、ライオン化学製）
ラウリル硫酸ナトリウム ２
ベンゲルＦＷ（豊順鉱業製） ０．１
塩化ナトリウム ０．２
プロピレングリコール ２０
ローズマリーエキス（ローズマリー水、丸善製薬社製） １
ＰＯＥ（５）硬化ヒマシ油 １
（ＨＬＢ３、エマレックスＨＣ−５、日本エマルジョン製）
ホホバ油（精製ホホバ油、香栄興業製） ０．５
メチルパラベン ０．２
エデト酸四ナトリウム四水塩 ０．１
ヒドロキシエタンジホスホン酸 ０．１
香料 １
精製水 残部
合計（％） １００．０
＊ フォーマー容器（吉野工業社製）：特開平７−３１５４６３号公報の第２実施例とし て記載されたフォーマー容器
【００３３】
［実施例１５］ マイルド液体洗浄剤組成物
Ｎ−ラウロイル−Ｌ−グルタミン酸トリエタノールアミン １０
（アミソフトＬＴ−１２、味の素製）
ラウリン酸トリエタノールアミン ３
ＰＯＥ（５）ラウリン酸モノエタノールアミド ２
（アミゼット５Ｌ、川研ファインケミカル製）
ラウリルジメチルアミンオキシド ２
（オバゾリンＬＢ−ＳＦ、東邦化学工業製）
ポリアクリル酸 ０．３
（カーボポール９４０２、ＢＦグッドリッチ製）
カチオン化グアーガム ０．５
（ＪＡＧＵＡＲ Ｃ−１４Ｓ、三晶製）
ラウリル硫酸ナトリウム １
クニピアＦ（クニミネ工業製） ０．１
セスキオレイン酸ソルビタン ２
（ＨＬＢ５、エマレックスＳＰＯ−１５０、日本エマルジョン製）
シリコーンエマルジョン １．５
エチレングリコールジステアレート ２
ヘキシレングリコール １
ローズマリーエキス（ローズマリー水、丸善製薬製） １
安息香酸ナトリウム １
ヒドロキシエタンジホスホン酸 ０．１
クエン酸 ｐＨ５．４に調整
香料 １
精製水 残部
合計（％） １００．０
【００３４】
［実施例１６］ 固形石鹸組成物＊
ヤシ油脂肪酸エチルエステルスルホン酸ナトリウム ８
（ＥＬＦＡＮＡＴ−８４、ライオン化学製）
パーム／ヤシ油脂肪酸ナトリウム １５
（パーム/ヤシ油脂肪酸＝６５／３５）
パルミチン酸 ２
ＰＯＥ（２）ラウリン酸モノエタノールアミド ５
（アミゼット２Ｌ−Ｙ、川研ファインケミカル製）
ラウリルジメチルアミンオキシド ５
（アロモックスＤＭ１２Ｄ−Ｗ、ライオン化学製）
カチオン化セルロース １
（レオガードＧＰ、ライオン化学製）
高重合ポリエチレングリコール ０．５
（ポリオックスＷＳＲ−Ｎ７５０、ユニオン・カーバイド製）
ＰＯＥ（１０）グリセリルトリイソステアレート ４
（ＨＬＢ３、エマレックスＧＷＩＳ−１０、日本エマルジョン製）
クニピアＧ（クニミネ工業製） ０．５
ヒマワリ油（ヒマワリ油、日光ケミカル製） １
ジメチルポリシロキサン １
（ＳＨ２００−３０ｃｓ、東レ・ダウコーニング・シリコーン製）
ジブチルヒドロキシトルエン ０．１
エデト酸四ナトリウム四水塩 ０．１
ヒドロキシエタンジホスホン酸 ０．１
塩化ナトリウム ０．５
イソプロピルメチルフェノール ０．１
二酸化チタン ０．２
香料 １
精製水 残部
合計（％） １００．０
＊ 包装容器：ピロー包装（最内層ＬＤＰＥ：低密度ポリエチレン、最外層ＰＰ：ポリプロピレン）
【００３５】
［実施例１７］ 透明石鹸組成物＊
パーム油脂肪酸ナトリウム １６
パーム核油脂肪酸ナトリウム ７
ＰＯＥ（２）ヤシ油脂肪酸モノエタノールアミド ５
（アミゼット２Ｃ、川研ファインケミカル製）
ラウリルジメチルアミンオキシド ４．５
（オバゾリンＬＢ−ＳＦ、東邦化学工業製）
白糖 １０
グリセリン １０
プロピレングリコール ２
エタノール ５
ＰＯＥ（５）オクチルドデシルエーテル ５
（ＨＬＢ６、エマレックスＯＤ−５、日本エマルジョン製）
スクワラン １
エデト酸二ナトリウム ０．２
塩化ナトリウム ０．２
香料 １
精製水 残部
合計（％） １００．０
＊ 包装容器：ピロー包装（最内層ＬＤＰＥ：低密度ポリエチレン、中間層アルミニウム層、最外層ＰＰ：ポリプロピレン）
【００３６】
［実施例１８］ シート状洗浄剤＊
ラウリン酸カリウム ４
ヤシ油脂肪酸カリウム ４
ＰＯＥ（１０）ヤシ油脂肪酸モノエタノールアミド １．５
（アミゼット１０Ｃ、川研ファインケミカル製）
ラウリルジメチルアミンオキシド ２．５
（オバゾリンＬＢ−ＳＦ、東邦化学工業製）
ヒドロキシプロピルメチルセルロース ０．５
（メトローズＨＰＭＣ ６０ＳＨ１５、信越化学工業製）
ＰＯＥ（７）ヤシ油脂肪酸グリセリン ６
（セチオールＨＥ、ヘンケル製）
ホホバ油（精製ホホバ油、香栄興業製） ３
スクワラン ２
ジメチルポリシロキサン １
（ＳＨ２００−３０ｃｓ、東レ・ダウコーニング・シリコーン製）
イソノナン酸イソノニル ２
ピロクトンオラミン １
（オクトピロックス、クラリアント・ジャパン製）
メチルパラベン ０．３
エデト酸四ナトリウム四水塩 ０．１
ソルビット ２．５
プロピレングリコール ２０
ローズマリーエキス（ローズマリー水、丸善製薬製） １
エタノール ８
ヒドロキシエタンジホスホン酸 ０．１
香料 １
精製水 残部
合計（％） １００．０
＊ 包装容器：本組成物を特開２００１−３１４３４２号公報の実施例１〜１３に記載さ れたシートにシート質量の３倍量を含浸させる。これを更にピロー包装（最内層ＬＤ ＰＥ：低密度ポリエチレン、中間層アルミニウム層、最外層ＰＰ：ポリプロピレン） に収容する。
【００３７】
［実施例１９］ 食器用洗浄剤
ラウリン酸カリウム ３
ミリスチン酸カリウム ３
Ｎ−ラウロイル−Ｎ−メチル−β−アラニンカリウム ２
ＰＯＥ（５）ヤシ油脂肪酸モノエタノールアミド １．５
（マーポンＣ−５、松本油脂製薬製）
ラルリルジメチルアミンオキサイド ３
（アロモックスＤＭ１２Ｄ−Ｗ、ライオン化学製）
カチオン化セルロース ０．５
（レオガードＧＰ、ライオン化学製）
ＰＯＥ（３）ラウリルエーテル硫酸ナトリウム ７
（サンノールＬＭＴ−１４３０、ライオン化学製）
Ｃ１４α−オレフィンスルホン酸ナトリウム １０
ラウリン酸ジエタノールアミド ４．５
ＰＯＥ（１５）ラウリルエーテル ６
（エマレックス７１５、日本エマルジョン製）
クエン酸ナトリウム ０．４
ソルビトール ５
安息香酸ナトリウム １
パラトルエンスルホン酸 ３．５
香料 ０．２
精製水 残部
合計（％） １００．０
【００３８】
また実施例１〜１９の組成物及び比較例１〜７の組成物は、特に記載のない限り、以下に示す包装容器に収容し、品質に問題のないことを確認している。
略号：ＰＰ；ポリプロピレン、ＰＥ；ポリエチレン、ＰＥＴ；ポリエチレンテレフタレート、ＨＤＰＥ；高密度ポリエチレン、ＬＤＰＥ；低密度ポリエチレン、ＮＹ；ナイロン
容器１：ボトル（材質：最内層ＨＤＰＥ、最外層ＰＰ）、ポンプディスペンサー（材質：ＰＰ、ＰＥ）
容器２：ボトル（材質：ＰＥＴ）、ポンプディスペンサー（材質：ＰＰ、ＰＥ）
容器３：ボトル（材質：ＰＰ）、ポンプディスペンサー（材質：ＰＰ、ＰＥ）容器４：ボトル（材質：ＨＤＰＥ）、ポンプディスペンサー（材質：ＰＰ、ＰＥ）
容器５：ボトル（材質：軟質ガラス）、キャップ（材質：ＰＰ）
容器６：袋状容器（材質：最内層ＬＤＰＥ、中間層アルミニウム層、最外層ＰＥＴ）
容器７：袋状容器（材質：最内層ＬＤＰＥ、中間層アルミニウム蒸着層、最外層ＮＹ）
容器８：袋状容器（材質：ガラス蒸着）
【００３９】
【発明の効果】
本発明によれば、高級脂肪酸塩のさっぱり感を向上させつつ、泡立ちが非常に優れた洗浄剤組成物が提供される。[0001]
[Industrial application fields]
The present invention relates to a detergent composition having very high foaming in the field of detergents using higher fatty salts, that is, soaps.
[0002]
[Prior art]
In detergents, the amount of foam is an important quality that affects consumer preferences. Conventionally, in order to improve the amount of foaming, contrivance has been made such as using an anionic surfactant in combination with an amphoteric surfactant or a nonionic surfactant typified by alkanolamide, or adding a polymer. In addition, detergents mainly composed of higher fatty acid salts are preferred by consumers for a refreshing feeling after rinsing and washing, but in order to improve foaming properties, there is a problem in terms of mildness such as lauric acid. It was necessary to use a large amount of the low chain length fatty acid.
[0003]
Conventionally, there has been a detergent (Patent Document 1) in which an alkanolamide and a fatty acid are blended with a sulfate-based surfactant as a detergent that has improved foaming properties, but the effect of improving foaming has not been sufficient. In addition, the detergents mainly composed of fatty acid salts are designed to improve foaming properties by combining a specific amphoteric surfactant with a higher fatty acid salt to achieve both foaming and refreshing feeling ( Patent Document 2), a combination of a higher fatty acid salt, a fatty acid diethanolamide and a specific polymer (Patent Document 3), a combination of a higher fatty acid salt, a specific amphoteric surfactant and a fatty acid monoethanolamide (Patent Document 4) 5), but none of the foaming improvement effects were satisfactory. Furthermore, a fatty acid salt, an amide ether sulfate type anionic activator and an alkanolamide, a combination of nonionic polymers (Patent Document 6), a fatty acid mixture having a specific fatty acid ratio and a potassium salt thereof are used in combination at a specific ratio. Alternatively, a combination of a surfactant selected from a semipolar surfactant and a fatty acid amide derivative (see Patent Document 7) or a higher fatty acid salt containing a specific amphoteric surfactant and an alkanolamide and a polymer. There is a make-up removal material (see Patent Document 8) that improves foamability and detergency, but a material with higher foamability has been desired.
[0004]
[Patent Document 1]
JP-A-57-83597 (2nd page)
[Patent Document 2]
JP2002-146392 (2nd page)
[Patent Document 3]
JP 2002-53455 (2nd page)
[Patent Document 4]
JP 59-58100 (2nd page)
[Patent Document 5]
JP-A-11-166198 (page 3)
[Patent Document 6]
JP 10-158686 (2nd page)
[Patent Document 7]
JP-A-9-157154 (2nd page)
[Patent Document 8]
JP-A-8-217634 (2nd page)
[0005]
[Problems to be solved by the invention]
The present invention has been made in view of such problems of the prior art, and has improved foam performance (foaming properties, foam quality, foam amount) while improving the refreshing feeling of higher fatty acids. The purpose is to provide goods.
[0006]
[Means for Solving the Problems and Embodiments]
  As a result of earnest research to achieve the above object, the present inventor has found that 8 to 25% by mass of a higher fatty acid salt and an ethylene oxide adduct (fatty acid addition number 1 to 10) of a fatty acid monoethanolamide type nonionic surfactant, The present invention has been completed by combining a semipolar surfactant to obtain a detergent composition satisfying the above-mentioned characteristics and combining a water-soluble polymer.
That is, the present invention includes the following components (A) to (C); (A) 8 to 25% by mass of a higher fatty acid salt, and (B) an ethylene oxide adduct of a fatty acid monoethanolamide type nonionic surfactant (added mole number). 1 to 10), (C) a semipolar surfactant, and preferably (D) a detergent composition containing a water-soluble polymer.
[0007]
  In the present invention, (A): higher fatty acids include, for example, C12 to C18 saturated and unsaturated fatty acids, as well as coconut oil fatty acids, hydrogenated coconut oil fatty acids, palm oil fatty acids, hydrogenated palm oil fatty acids, and beef tallow fatty acids. , Potassium salts such as hardened beef tallow fatty acid, sodium salts, fatty acid soaps such as triethanolamine salts, ammonium salts, alkyl ether carboxylates, N-acyl sarcosine salts, N-acyl glutamates, etc. Examples thereof include potassium laurate, potassium myristate, potassium stearate, sodium lauryl ether carboxylate, sodium N-lauroyl sarcosine, sodium N-lauroyl glutamate, N-lauroylmethyl-β-alanine triethanolamine, and the like. The higher fatty acid salt may be blended with itself, or may be used by neutralizing a fatty acid and an alkali separately in the detergent composition. Moreover, it is suitable when the compounding quantity in a cleaning composition is 8-25 mass% with respect to the whole composition, Preferably it is 10-20 mass%.
[0008]
The ethylene oxide adduct of the fatty acid monoethanolamide type nonionic surfactant that can be used in the cleaning composition of the present invention (B) is not particularly limited as long as it is used in ordinary cleaning agents. A saturated or unsaturated hydrocarbon group having 5 to 19 carbon atoms, that is, an acyl group having 6 to 20 carbon atoms, such as a caproyl group, a lauroyl group, a myristoyl group, a stearoyl group, an oleyl group And fatty acid amides having a ricinoleyl group, a beef tallow fatty acid acyl group, a coconut oil fatty acid acyl group, and the like. Specific examples include lauric acid monoethanolamide, coconut oil fatty acid monoethanolamide, and the like, and the number of moles of ethylene oxide added is preferably 1 to 10, and more preferably 2 to 5.
Moreover, although the compounding quantity in a cleaning composition is not restrict | limited in particular, It is 0.1-8 mass% normally with respect to the whole composition, Furthermore, it is preferable that it is 0.5-5 mass%.
[0009]
(C): A semipolar surfactant that can be used in the cleaning composition of the present invention is not particularly limited as long as it is used in a normal cleaning agent. For example, acyl tertiary amine oxide, acyl tertiary Grade phosphine oxide and the like can be used. Examples of the acyl tertiary amine oxide include lauryl dimethylamine oxide, POE coconut oil alkyl dimethylamine oxide, and dihydroxyethyl lauryl amine oxide. Examples of the acyl tertiary phosphine oxide include lauryl dimethyl phosphine oxide. Can be mentioned. Of these, acyl tertiary amine oxides are preferable from the viewpoint of foaming properties, and desalted ones are preferable from the viewpoint of stability. Moreover, the compounding quantity in a cleaning composition is although it does not restrict | limit in particular, It is preferable when it is 0.1-8 mass% normally with respect to the whole composition, and also 0.5-5 mass%.
[0010]
Can be used in the cleaning composition of the present invention (D); the water-soluble polymer is not particularly limited as long as it is used in a normal cleaning agent, and is a cationic polymer, an anionic polymer, or a nonionic polymer. Molecules and amphoteric polymers can be used. Examples of the cationic polymer include cationized cellulose, vinylpyrrolidone / methylvinylimidazolium chloride copolymer, dimethyldiallylammonium chloride / acrylamide copolymer, and acrylamide / acrylic acid / dimethyldiallylammonium chloride copolymer. It is done. Examples of the anionic polymer include, for example, carrageenan, xanthan gum, sodium alginate, potassium alginate, propylene glycol alginate, and hyaluronic acid as natural polymer compounds, and carboxyvinyl polymer, polyacrylic acid, maleic acid copolymer as synthetic polymer compounds. Examples thereof include a copolymer, a maleic acid / diisobutylene copolymer, and a methacrylic acid / acrylic acid ester copolymer. Examples of the methacrylic acid / acrylic acid ester copolymer include methacrylic acid / methyl acrylate copolymer, methacrylic acid / ethyl acrylate copolymer, methacrylic acid / propyl acrylate copolymer, methacrylic acid / butyl acrylate. Copolymer, methacrylic acid / methyl acrylate / ethyl acrylate copolymer, methacrylic acid / methyl acrylate / propyl acrylate copolymer, methacrylic acid / methyl acrylate / butyl acrylate copolymer, methacrylic acid / acrylic Ethyl acid / propyl acrylate copolymer, methacrylic acid / ethyl acrylate / butyl acrylate copolymer, methacrylic acid / propyl acrylate / butyl acrylate copolymer, methacrylic acid / methyl acrylate / ethyl acrylate / acrylic Acid propyl copolymer, methacrylic acid Methyl crylate / ethyl acrylate / butyl acrylate copolymer, methacrylic acid / methyl acrylate / propyl acrylate / butyl acrylate copolymer, methacrylic acid / methyl acrylate / ethyl acrylate / propyl acrylate copolymer -A butyl acrylate copolymer etc. are mentioned. Examples of the nonionic polymer include polyvinyl alcohol, polyvinyl methyl ether, polyvinyl pyrrolidone, methyl cellulose, ethyl cellulose, hydroxymethyl cellulose, hydroxyethyl cellulose, hydroxypropyl cellulose, and hydroxypropyl methyl cellulose. Further, the amphoteric polymer refers to a polymer having both cationic and anionic properties in the polymer structure, such as methacryloylethyldimethylbetaine / methacryloylethyltrimethylammonium chloride / methoxypolyethyleneglycol methacrylate copolymer, Examples include dimethylallyl quaternary salt / acrylic acid acrylamide, N-methacryloyloxyethylene N, N-dimethylammonium-α-N-methylcarboxybetaine / methacrylic acid alkyl ester copolymer, and the like. Moreover, the compounding quantity in a cleaning composition is although it does not restrict | limit in particular, Usually, 0.1-5 mass% with respect to the whole composition, More preferably, it is 0.1-3 mass%.
[0011]
In addition, the composition of the present invention is not particularly defined, but surfactants (anionic surfactants, nonionic surfactants) that are usually used for cleaning agents other than the present invention from the viewpoint of the function as a cleaning agent. , Amphoteric surfactants, etc.) are more effective in terms of foaming properties.
[0012]
The anionic surfactant is not particularly limited as long as it is used for a normal cleaning agent, and for example, a sulfonate type, a sulfate ester type, an alkyl phosphate ester type and the like can be used. More specifically, examples of the sulfonate type include N-acylaminosulfonate, polyoxyethylene sulfosuccinate, and the like. More specifically, for example, N-cocoylmethyl taurate sodium, polyoxyethylene Examples include sodium ethylene alkylsulfosuccinate. Examples of the sulfate ester salt type include higher alkyl sulfates and polyoxyethylene alkyl ether sulfates. Furthermore, examples of the alkyl phosphate ester salt type include monolauryl phosphate triethanolamine, monolauryl phosphate dipotassium, and the like. Moreover, said anionic surfactant can be used individually or in combination of 2 or more types.
[0013]
Further, the nonionic surfactant is not particularly limited as long as it is used for a normal cleaning agent. For example, polyoxyalkylene addition type nonionic surfactant, sugar-based nonionic surfactant, glycerin-based nonionic surfactant A surfactant or the like can be used. The polyoxyalkylene addition-type nonionic surfactant includes one type of polyoxyalkylene addition type and two or more types of polyoxyalkylene addition types, and any of them can be suitably used. Specifically, the former includes, for example, polyoxyethylene lauryl ether, polyoxyethylene sorbitan monooleate, polyethylene glycol fatty acid ester, polyoxyethylene hydrogenated castor oil, and the latter includes, for example, polyoxypropylene / polyoxyethylene lauryl ether. Can be mentioned. Examples of the sugar-based nonionic surfactant include sugar ether-based alkyl saccharides, sugar amides, sorbitan fatty acid esters, and sucrose fatty acid esters. More specifically, examples of the sugar amide nonionic surfactant include N-methylalkylglucamide such as N-methyllaurylglucamide, and the sorbitan fatty acid ester nonionic surfactant. More specific examples include sorbitan monoisostearate and sorbitan monooleate. More specific examples of the sucrose fatty acid ester nonionic surfactant include lauric acid sucrose ester, sucrose monostearate, POP sucrose monolaurate, and the like. Examples of the glycerin-based nonionic surfactant include monoglycerin fatty acid ester-based nonionic surfactants such as glyceryl sesquioleate and polyoxyethylene glyceryl monostearate, and fatty acid ester-type polyglycerin-based nonions such as polyglyceryl monoisostearate. Surfactants, alkyl ether type polyglycerin-based nonionic surfactants such as polyglyceryl / polyoxybutylene stearyl ether, and the like. Moreover, said nonionic surfactant can be used individually or in combination of 2 or more types.
[0014]
The amphoteric surfactants that can be blended are not particularly limited as long as they are used in ordinary detergents. For example, imidazoline type (amidoamine type), amide amino acid salt, carbobetaine type (alkylbetaine, alkylamidobetaine) , Sulfobetaine type (alkyl sulfobetaine, alkylhydroxysulfobetaine), phosphobetaine type, and the like can be used. Examples of the imidazoline type include coconut oil alkyl-N-hydroxyethyl imidazolinium betaine. Examples of the alkyl betaine include lauryl dimethylaminoacetic acid betaine. Examples of the alkyl amide betaine include coconut oil fatty acid amide propyl betaine. Examples of the alkylsulfobetaine include coconut oil fatty acid dimethylsulfopropylbetaine; examples of the alkylhydroxysulfobetaine include lauryldimethylaminohydroxysulfobetaine; examples of the phosphobetaine type include laurylhydroxyphosphobetaine. Among the amphoteric surfactants, carbobetaine type is preferable from the viewpoint of foaming property, and desalted from the viewpoint of stability. Moreover, said amphoteric surfactant can be used individually or in combination of 2 or more types.
[0015]
The blending amount of the surfactant in the cleaning composition in the present invention is not particularly limited, but is usually 5 to 90% by mass, preferably 10 to 90% by mass, and more preferably 10 to 90% by mass with respect to the entire composition. More preferably, it is 30% by mass. If the amount is less than 5% by mass, the foamability may not be sufficient, and if it exceeds 90% by mass, the operability during production of the cleaning composition may be deteriorated. Note that this is not the case with a solid detergent composition.
[0016]
Moreover, the cleaning composition of this invention can mix | blend suitably the arbitrary component normally used for a cleaning composition in the range which does not prevent the effect of this invention in addition to the said component. Examples of such optional components include oils, silicones, alcohols such as lower / higher alcohols, lanolin derivatives, protein derivatives, acrylic resin dispersions, drugs such as vitamins, bactericides, preservatives, pH adjusters, oxidation Examples thereof include water-insoluble polymer powders such as inhibitors, metal sequestering agents, ultraviolet absorbers, animal and plant extracts or derivatives thereof, dyes, fragrances, pigments, inorganic powders, clay minerals, nylon and polyethylene. In addition, the addition amount of these arbitrary components can be mix | blended normal amount in the range which does not prevent the effect of this invention.
[0017]
The dosage form of the cleaning composition of the present invention is not particularly limited, and can be, for example, a paste, a gel, a liquid, a solid, or the like. Moreover, a solubilization system, an emulsification system, a powder dispersion system, etc. are mentioned. Furthermore, the said cleaning composition can apply a normal container, for example, a pump container, a tube, a former container, a bag-like container, etc. are mentioned. When using a former container, the viscosity of the detergent composition is preferably adjusted to 100 mPa · s or less, more preferably 50 mPa · s or less at 5 ° C. from the viewpoint of foam formation. Further, the former container is not particularly limited to either a pump type or a squeeze type, but the porous body that allows the contents to pass through to form foam is 100 mesh or more, preferably 100 to 400 mesh, more preferably 200 to 350 mesh. The number is preferably 2 or more from the viewpoint of foam formation. More specifically, the former container described in JP-A-7-315463 and JP-A-8-230961 can be preferably used.
[0018]
Moreover, the cleaning composition of the present invention can be prepared according to the conventional method of the cleaning composition, and as a device for preparing the cleaning composition of the present invention, a plurality of stirrings that can be mixed with a shearing force can be used. A stirrer equipped with blades, for example, a propeller, a turbine, a disper, etc. is desirable, and particularly preferred is an ajihomo mixer, a backflow mixer, a hive rod mixer, and the like.
[0019]
The cleaning composition of the present invention can improve the refreshing feeling and improve the foaming at the time of cleaning by using the cleaning composition of the present invention, for example, as a cleaning agent for skin and a cleaning agent for hair in a normal dosage and cleaning method. . Therefore, the cleaning agent of the present invention is particularly suitable for body cleaning.
[0020]
【Example】
EXAMPLES Hereinafter, the present invention will be described more specifically with reference to examples and comparative examples, but the present invention is not limited to these examples. In the following examples, “%” represents “% by mass”, and all component amounts described in the examples are in terms of pure matter.
[0021]
[Examples 1 to 19 and Comparative Examples 1 to 7]
Cleaning compositions were prepared according to conventional methods with the blending compositions shown in Tables 1 to 4 below, and cleaning compositions of Examples 1 to 9 and Comparative Examples 1 to 7 were obtained. Foam performance (foaming properties, foam quality, foam amount evaluation) and skin feel (comprehensive evaluation for ease of rinsing / no stickiness during washing, refreshing feeling after towel drying) of each detergent composition Evaluation was made by the following method. The results are also shown in Tables 1 to 4 below. In addition, the fragrance | flavor raw material of the fragrance | flavor composition used by an Example and a comparative example is a part of indication of this specification by quoting the list | wrist described in [0027]-[0045] of Japanese Patent Application No. 2000-361917. It is said.
[0022]
<Foam performance evaluation test>
After 10 panelists cleaned the skin and / or hair using the cleaning compositions of Examples and Comparative Examples, foam performance (total evaluation of foamability, foam quality, foam volume) based on the following evaluation criteria Was subjected to sensory evaluation, and an average value was obtained.
<Evaluation criteria>
5: Very good
4: Good
3: Slightly good
2: Bad
1: Very bad
<Skin feel evaluation test>
After 10 panelists cleaned the skin and / or hair using the cleaning compositions of the examples and comparative examples, the skin feels (ease of rinsing and no stickiness during cleaning, towel drying) Sensory evaluation of the overall evaluation of the subsequent refreshing feeling was performed to obtain an average value.
<Evaluation criteria>
5: Very good
4: Good
3: Slightly good
2: Bad
1: Very bad
[0023]
[Table 1]

[0024]
[Table 2]

[0025]
[Table 3]

[0026]
[Table 4]

[0027]
As is clear from the results in the above table, the detergent compositions of Examples 1 to 9 according to the present invention were found to be excellent in foam performance while improving the refreshing feeling of the higher fatty acid salt. On the other hand, it was found that Comparative Examples 1 to 7 had poor foam performance and could not achieve the effects of the present invention.
[0028]
The cleaning composition shown below was produced according to a conventional method. The obtained detergent composition was excellent in foam performance while improving the refreshing feeling of the higher fatty acid salt.
[Example 10] Liquid detergent composition
Potassium laurate 9
Potassium myristate 7
Potassium palmitate 2
Potassium stearate 1
POE (10) Palm oil fatty acid monoethanolamide 2.5
(Amidette 10C, manufactured by Kawaken Fine Chemicals)
Lauryldimethylamine oxide 2
(Aromox DM12D-W, manufactured by Lion Chemical)
Alkyl acrylate copolymer emulsion 1.5
(Leoar MS-100, Lion Chemical)
Dimethyldiallylammonium chloride / acrylamide copolymer solution
(Kayacrill Resin M-50, Nippon Kayaku) 1
Propylene glycol 8
1,3-butylene glycol 3
Sorbitol 3
Silicone emulsion 2
(BY22-055, made by Toray Dow Corning Silicone)
Styrene polymer emulsion 2
(Cybinol PE-3, made by Seiden Chemical)
Bentonite 0.2
(Kunipia F, manufactured by Kunimine Industries)
Sodium chloride 0.1
Edetate tetrasodium tetrahydrate 0.2
Dibutylhydroxytoluene 0.1
Melissa extract (Melissa extract BG-50, manufactured by Koei Kogyo) 1
Davilia extract (seaweed extract powder, manufactured by Alps Pharmaceutical Co., Ltd.) 1
Birch extract (birch extract, manufactured by Maruzen Pharmaceutical) 1
Dipotassium glycyrrhizinate 0.1
Fragrance 1
Blue No.1 appropriate amount
Yellow No. 4
Potassium hydroxide adjusted to pH 10
purified water balance
Total (%) 100.0
[0029]
[Example 11] Deodorant and sterilizing liquid detergent composition
Potassium laurate 5
Potassium myristate 4
POE (2) lauric acid monoethanolamide 2
(Amidette 2L-Y, manufactured by Kawaken Fine Chemicals)
Lauryldimethylamine oxide 2
(Obazoline LB-SF, manufactured by Toho Chemical Industries)
Alkyl acrylate copolymer emulsion 0.3
(Leoir MS400, manufactured by Lion Chemical)
Cationized cellulose 0.2
(Leoguard GP, manufactured by Lion Chemical)
Polyacrylic acid 0.2
(Carbopol 9402, manufactured by BF Goodrich)
POE (3) sodium lauryl ether sulfate 3
(Sannor LMT-1430, manufactured by Lion Chemical)
Wenger FW (made by Toyshun Mining) 0.2
Sodium chloride 0.5
Hexylene glycol 7
Ethanol 3
Methylparaben 0.2
Propylparaben 0.1
Oil-soluble licorice extract 2
(Oil-soluble licorice extract P-T40N, manufactured by Maruzen Pharmaceutical)
Triclosan 0.2
Piroctone olamine 0.1
(Octopirox, made by Clariant Japan)
l-Menthol 0.3
α-olefin oligomer 2
Silicone emulsion 2
(BY22-020, made by Toray Dow Corning Silicone)
1,3-butylene glycol 5
Ethylene glycol distearate 1
Styrene polymer emulsion liquid (35%) 1
(Cybinol RPX-196 PE-3, manufactured by Seiden Chemical)
Fragrance 1
Blue No.1 appropriate amount
purified water The rest
Total (%) 100.0
[0030]
[Example 12] Creamy detergent composition
Myristic acid 14
Palmitic acid 4
Stearic acid 2
POE (2) Palm oil fatty acid monoethanolamide 2
Lauryldimethylamine oxide 2.5
(Obazoline LB-SF, manufactured by Toho Chemical Industries)
Alkyl acrylate copolymer 0.5
Highly polymerized polyethylene glycol 0.2
(Polyox WSR-N750, manufactured by Union Carbide)
POE (16) cetyl ether 2
(EMALEX116, manufactured by Japan Emulsion)
Glycerin 15
PEG4000 5
Sorbitol 6
Purified lanolin (Purified lanolin, manufactured by CRODA JAPAN) 0.5
Orange oil (Orange Sweet Oil, Ikeda Bussan 1
Highly polymerized methylsiloxane 2
(SH-200-10000cs, made by Toray Dow Corning Silicone)
Davilia extract (seaweed extract powder, manufactured by Alps Pharmaceutical Co., Ltd.) 1
Birch extract (birch extract, manufactured by Maruzen Pharmaceutical) 1
Pirocton Olamine 1
(Octopirox, made by Clariant Japan)
Polar gel NF (American colloid) 0.3
Titanium oxide (average particle size 0.25 μm, rutile type) 1
Gunjo (average particle size 0.3-2 μm) 0.05
Bengala (average particle size 0.03 μm) 0.05
Nylon powder (average particle size 100 μm) 0.05
Edetate tetrasodium tetrahydrate 0.3
Potassium hydroxide 3.2
Fragrance 1
purified water The rest
Total (%) 100.0
[0031]
[Example 13] Cleansing gel composition
Myristic acid triethanolamine 6
N-lauroyl-N-methyl-β-alanine potassium 2
POE (5) Palm oil fatty acid monoethanolamide 2.5
(Amidette 5C, manufactured by Kawaken Fine Chemicals)
Lauryldimethylamine oxide 1
(Aromox DM12D-W, manufactured by Lion Chemical)
Alkyl acrylate copolymer emulsion 0.2
(Leoir MS200, manufactured by Lion Chemical)
Hydroxypropyl methylcellulose 0.5
(Metroze HPMC 60SH4000, manufactured by Shin-Etsu Chemical)
POE (3) sodium lauryl ether sulfate 4
POE (10) behenyl ether 3
(Emalex BHA-10, manufactured by Japan Emulsion)
Dimethylpolysiloxane 1
(SH200-30cs, manufactured by Toray Dow Corning Silicone)
Isononyl isononanoate 2
Propylene glycol 5
Isopropylmethylphenol 0.1
Ellagic acid 0.1
LAPONITE XLG (made by Nippon Silica) 0.3
Polyethylene powder (average particle size 100 μm) 0.3
Fragrance 1
Triethanolamine pH adjusted to 8
purified water The rest
Total (%) 100.0
[0032]
[Example 14] Liquid detergent composition for filling a former container *
Potassium laurate 4
Palm oil fatty acid potassium 8
POE (2) lauric acid monoethanolamide 2
(Nymid ML-203, manufactured by Nippon Oil & Fats)
Lauryldimethylamine oxide 2
(Obazoline LB-SF, manufactured by Toho Chemical Industries)
Alkyl acrylate copolymer emulsion 0.3
(Leoir MS200, manufactured by Lion Chemical)
Sodium lauryl sulfate 2
Wenger FW (manufactured by Toyshun Mining) 0.1
Sodium chloride 0.2
Propylene glycol 20
Rosemary extract (rosemary water, manufactured by Maruzen Pharmaceutical Co., Ltd.) 1
POE (5) hydrogenated castor oil 1
(HLB3, Emalex HC-5, manufactured by Nippon Emulsion)
Jojoba oil (refined jojoba oil, Koei Kogyo Co., Ltd.) 0.5
Methylparaben 0.2
Edetate tetrasodium tetrahydrate 0.1
Hydroxyethane diphosphonic acid 0.1
Fragrance 1
purified water The rest
Total (%) 100.0
* Former container (manufactured by Yoshino Kogyo Co., Ltd.): Former container described as the second embodiment of JP-A-7-315463
[0033]
[Example 15] Mild liquid detergent composition
N-lauroyl-L-glutamic acid triethanolamine 10
(Amisoft LT-12, made by Ajinomoto)
Lauric acid triethanolamine 3
POE (5) lauric acid monoethanolamide 2
(Amidette 5L, manufactured by Kawaken Fine Chemicals)
Lauryldimethylamine oxide 2
(Obazoline LB-SF, manufactured by Toho Chemical Industries)
Polyacrylic acid 0.3
(Carbopol 9402, manufactured by BF Goodrich)
Cationized guar gum 0.5
(JAGUAR C-14S, manufactured by Sanki)
Sodium lauryl sulfate 1
Kunipia F (Kunimine Kogyo) 0.1
Sorbitan sesquioleate 2
(HLB5, EMALEX SPO-150, manufactured by Nippon Emulsion)
Silicone emulsion 1.5
Ethylene glycol distearate 2
Hexylene glycol 1
Rosemary extract (rosemary water, manufactured by Maruzen Pharmaceutical) 1
Sodium benzoate 1
Hydroxyethane diphosphonic acid 0.1
Adjust to citric acid pH 5.4
Fragrance 1
purified water The rest
Total (%) 100.0
[0034]
Example 16 Bar Soap Composition *
Palm oil fatty acid ethyl ester sodium sulfonate 8
(ELFANAT-84, manufactured by Lion Chemical)
Palm / coconut oil fatty acid sodium 15
(Palm / coconut oil fatty acid = 65/35)
Palmitic acid 2
POE (2) lauric acid monoethanolamide 5
(Amidette 2L-Y, manufactured by Kawaken Fine Chemicals)
Lauryldimethylamine oxide 5
(Aromox DM12D-W, manufactured by Lion Chemical)
Cationized cellulose 1
(Leoguard GP, manufactured by Lion Chemical)
Highly polymerized polyethylene glycol 0.5
(Polyox WSR-N750, manufactured by Union Carbide)
POE (10) glyceryl triisostearate 4
(HLB3, Emarex GWIS-10, manufactured by Nippon Emulsion)
Kunipia G (Kunimine Kogyo) 0.5
Sunflower oil (sunflower oil, manufactured by Nikko Chemical) 1
Dimethylpolysiloxane 1
(SH200-30cs, manufactured by Toray Dow Corning Silicone)
Dibutylhydroxytoluene 0.1
Edetate tetrasodium tetrahydrate 0.1
Hydroxyethane diphosphonic acid 0.1
Sodium chloride 0.5
Isopropylmethylphenol 0.1
Titanium dioxide 0.2
Fragrance 1
purified water The rest
Total (%) 100.0
* Packaging container: Pillow packaging (innermost layer LDPE: low density polyethylene, outermost layer PP: polypropylene)
[0035]
[Example 17] Transparent soap composition *
Palm oil sodium fatty acid 16
Palm kernel oil fatty acid sodium 7
POE (2) Palm oil fatty acid monoethanolamide 5
(Amidette 2C, manufactured by Kawaken Fine Chemicals)
Lauryldimethylamine oxide 4.5
(Obazoline LB-SF, manufactured by Toho Chemical Industries)
Sucrose 10
Glycerin 10
Propylene glycol 2
Ethanol 5
POE (5) octyldodecyl ether 5
(HLB6, Emarex OD-5, manufactured by Nippon Emulsion)
Squalane 1
Edetate disodium 0.2
Sodium chloride 0.2
Fragrance 1
purified water The rest
Total (%) 100.0
* Packaging container: Pillow packaging (innermost layer LDPE: low density polyethylene, intermediate layer aluminum layer, outermost layer PP: polypropylene)
[0036]
[Example 18] Sheet cleaning agent *
Potassium laurate 4
Palm oil fatty acid potassium 4
POE (10) Palm oil fatty acid monoethanolamide 1.5
(Amidette 10C, manufactured by Kawaken Fine Chemicals)
Lauryldimethylamine oxide 2.5
(Obazoline LB-SF, manufactured by Toho Chemical Industries)
Hydroxypropyl methylcellulose 0.5
(Metroze HPMC 60SH15, manufactured by Shin-Etsu Chemical Co., Ltd.)
POE (7) Palm oil fatty acid glycerin 6
(Cetiol HE, made by Henkel)
Jojoba oil (refined jojoba oil, manufactured by Koei Kogyo) 3
Squalane 2
Dimethylpolysiloxane 1
(SH200-30cs, manufactured by Toray Dow Corning Silicone)
Isononyl isononanoate 2
Pirocton Olamine 1
(Octopirox, made by Clariant Japan)
Methylparaben 0.3
Edetate tetrasodium tetrahydrate 0.1
Sorbit 2.5
Propylene glycol 20
Rosemary extract (rosemary water, manufactured by Maruzen Pharmaceutical) 1
Ethanol 8
Hydroxyethane diphosphonic acid 0.1
Fragrance 1
purified water The rest
Total (%) 100.0
* Packaging container: The composition is impregnated with the sheet described in Examples 1 to 13 of JP-A No. 2001-314342 in an amount of 3 times the sheet mass. This is further accommodated in pillow packaging (innermost layer LD PE: low density polyethylene, intermediate layer aluminum layer, outermost layer PP: polypropylene).
[0037]
[Example 19] Tableware detergent
Potassium laurate 3
Potassium myristate 3
N-lauroyl-N-methyl-β-alanine potassium 2
POE (5) Palm oil fatty acid monoethanolamide 1.5
(Marpon C-5, manufactured by Matsumoto Yushi Seiyaku)
Laryldimethylamine oxide 3
(Aromox DM12D-W, manufactured by Lion Chemical)
Cationized cellulose 0.5
(Leoguard GP, manufactured by Lion Chemical)
POE (3) sodium lauryl ether sulfate 7
(Sannor LMT-1430, manufactured by Lion Chemical)
Sodium C14α-olefin sulfonate 10
Lauric acid diethanolamide 4.5
POE (15) lauryl ether 6
(Emalex 715, manufactured by Japan Emulsion)
Sodium citrate 0.4
Sorbitol 5
Sodium benzoate 1
P-Toluenesulfonic acid 3.5
Fragrance 0.2
purified water The rest
Total (%) 100.0
[0038]
Moreover, unless otherwise indicated, the composition of Examples 1-19 and the composition of Comparative Examples 1-7 are accommodated in the packaging container shown below, and it has confirmed that there is no problem in quality.
Abbreviations: PP; Polypropylene, PE; Polyethylene, PET; Polyethylene terephthalate, HDPE; High density polyethylene, LDPE; Low density polyethylene, NY; Nylon
Container 1: Bottle (Material: innermost layer HDPE, outermost layer PP), Pump dispenser (Material: PP, PE)
Container 2: Bottle (Material: PET), Pump Dispenser (Material: PP, PE)
Container 3: Bottle (Material: PP), Pump Dispenser (Material: PP, PE) Container 4: Bottle (Material: HDPE), Pump Dispenser (Material: PP, PE)
Container 5: Bottle (material: soft glass), cap (material: PP)
Container 6: Bag-shaped container (Materials: innermost layer LDPE, intermediate layer aluminum layer, outermost layer PET)
Container 7: bag-like container (materials: innermost layer LDPE, intermediate layer aluminum vapor deposition layer, outermost layer NY)
Container 8: Bag-shaped container (Material: Glass vapor deposition)
[0039]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, the detergent composition excellent in foaming is provided, improving the refreshing feeling of a higher fatty acid salt.

Claims (2)

A cleaning composition comprising the following components (A), (B) and (C).
(A) 8 to 25% by mass of a higher fatty acid salt,
(B) an ethylene oxide adduct of fatty acid monoethanolamide type nonionic surfactant (addition mole number 1 to 10),
(C) Semipolar surfactant   Further, (D) a cleaning composition containing a water-soluble polymer.