JP5144862B2 - Konjac-added food and method for producing the same - Google Patents

Description

【００３５】
まず、すべての原料をミキサーで均一に混ぜ合せた後８５℃まで加温し、ホモジナイザーを通して均一な乳化液とした後５℃まで急冷した。アイスクリームフリーザに投入して１５分間撹拌冷却し、オーバーランを８０％にした。得られた組成物をカップに充填した後、冷凍した。
【００３６】
コンニャクゼリーを加えた実施例のアイスクリームは、微小の気泡を取り込み均一でオーバーランであり、保形性に優れており、ドライネスに優れており、かつ、フレーバーリリースに優れていた。
【００３７】
（実施例２） マヨネーズ風ドレッシングの製造
コンニャク粉２５ｇに炭酸ナトリウム０．１８％水溶液１０００ｍｌを加えて撹拌しながら膨潤させ、更に室温に２時間放置して完全に膨潤させた。このコンニャクゼリーを使用して表２の配合にてマヨネーズ風のドレッシングを製造した。
【００３８】
【表２】

【００３９】
調味料、食酢、鶏卵、コンニャクゼリーをミキサーで混合し、次に油脂を加え更にミキシングして予備乳化を行った。次にホモジナイザーを通して乳化してドレッシングを製造した。本発明にしたがってコンニャクゼリーを加えたため、低脂肪化しても適度の固さがあって、味だち、香りだちのよいドレッシングとなった。
【００４０】
（実施例３） ノンオイルドレッシングの製造
コンニャク粉２８ｇに０．１８％のリン酸３ナトリウム１０００ｍｌを加えて撹拌しながら膨潤させ、更に室温に２時間放置して完全に膨潤させた。このコンニャクゼリーを使用して、表３の配合にてノンオイルのドレッシングを製造した。
【００４１】
【表３】

【００４２】
すべての原料をミキサーで混合した後、ホモジナイザーにかけ均質化することによりノンオイルドレッシングを製造した。得られたノンオイルドレッシングは、長期にわたり分離や沈殿することもなく、野菜へのからまりもよく、糊感もなく良好なドレッシングであった。
【００４３】
（実施例４） 豚ロース肉ブロックへのインジェクション
コンニャク粉７ｇに０．１％リン酸塩製剤（日本ヘキスト製）１０００ｍｌを加え撹拌しながら膨潤させ、更に２時間放置して完全に膨潤させた。このコンニャクゼリーに、コハク酸モノグリセライド１．１ｇと、オレンジ皮より抽出した精油０．２ｇを綿実油５ｇに溶解して分散したものとを加えて混合し、インジェクション液を調製した。インジェクション液のコハク酸モノグリセリド、オレンジ精油、綿実油はコンニャク粉を膨潤する時に加えてもよい。
【００４４】
常法により豚ロース肉ブロックにコンニャクゼリーインジェクション液３０％を注入した。このインジェクション液は肉への浸透性がよく注入後のタンブリングを行なわなくても分散なじみがよかった。このロース肉を焼いたところ加熱による歩留りもよくジューシーでやわらかく豚肉独特の獣臭もなく良好であった。
【００４５】
【発明の効果】
本発明によれば、従来の増粘剤や乳化剤に代わり得る新たな添加剤を用いて食品を製造することができる。特に、適度な粘性や乳化安定性を付与した食品を簡便な方法で提供することができる。このため、本発明は広範な食品の製造に応用しうるものである。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a food containing konjac and a method for producing the same. More specifically, the present invention relates to a konjac-added food imparted with good viscosity and emulsion stability by adding konjac jelly exhibiting an appropriate gelling power and a method for producing the same.
[0002]
[Prior art]
Thickeners and emulsifiers are widely used in foods that require moderate viscosity and foods that require emulsion stability. For example, various thickeners and emulsifiers are added to ice cream, mayonnaise, dressing, cream sauce, cream soup, curry roux, and beverages. However, the viscosity and emulsification stability required for each food vary widely depending on the food concept, consumer preferences, and the like. For this reason, in order to meet a wide range of requirements for foods, it is required to develop an additive having a new function that can replace conventional thickeners and emulsifiers.
[0003]
For example, in the case of ice cream, it is ideal if a product that takes in minute bubbles and is excellent in shape retention, dryness, and flavor release can be provided. Moreover, if it is a dressing, even if there is little fat, it is preferable if it can provide the goods which have moderate hardness and are excellent in taste and aroma. Further, non-oil dressing is desirable if it can provide a product having excellent long-term storage stability, good tangling to vegetables and the like, and having no sticky feeling. It would be extremely useful if a new additive capable of imparting a function according to the concept of food could be developed.
[0004]
[Problems to be solved by the invention]
In view of such a situation, an object of the present invention is to produce a food using a new additive that can be used in place of a conventional thickener or emulsifier. In particular, it was an object to provide a food product with appropriate viscosity and emulsion stability and a method for producing the same.
[0005]
[Means for Solving the Problems]
As a result of intensive studies, the present inventors have found that if konjac jelly prepared using konjac flour as a raw material is added, a food with appropriate viscosity and emulsion stability can be produced, and the present invention has been achieved. .
[0006]
That is, the present invention is a method for producing a non-solid food comprising a step of adding a thickener or an emulsifier, wherein at least a part of the thickener or emulsifier is heated by adding water and alkali to konjac flour. There is provided a method for producing a non-solid food characterized by using konjac jelly swollen and reacted at pH 9.0 to 10.5 without adding a step of heating after adding the konjac jelly .
[0007]
In the production method of the present invention, co N'nyakuzeri further emulsifier, starch, oil, it may contain seasonings or flavors.
[0008]
Moreover, this invention also provides the semi-solid food manufactured using the said manufacturing method. According to the present invention, particularly excellent ice cream, mayonnaise, dressing, cream sauce, cream soup, curry roux and beverages can be provided.
[0009]
Furthermore, the present invention also provides a method for producing a solid food, which comprises injecting into a solid food an injection liquid of konjac jelly, which is swelled and reacted by adding water and alkali to konjac powder. As a solid food produced by this method, for example, meat can be exemplified.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the konjac-added food of the present invention and the production method thereof will be described in detail. In the present specification, “to” means a range including numerical values described before and after that as a minimum value and a maximum value, respectively.
[0011]
First, the konjac jelly used in the present invention will be described.
Konjac jelly is produced by adding water and alkali to konjac flour to cause swelling and reaction.
[0012]
The production area and type of konjac powder used here are not particularly limited. A powdered konjac koji may be used as it is, or a konjac koji powder that has been subjected to a purification process may be used. Moreover, the konjac powder does not necessarily have a uniform particle size.
[0013]
The alkali added to the konjac flour is appropriately selected from those that can be used for food. Preference is given to basic amino acids, basic salts or a mixture of both.
[0014]
As the basic amino acid, arginine, histidine, lysine, citrulline, ornithine or the like is usually used alone or in combination. Particularly preferred is arginine or lysine. The basic amino acid is preferably added at 1.25 to 20% by weight based on the konjac flour.
Basic amino acids have a high pH buffering property. For this reason, when a basic amino acid is used, a stable pH can be obtained, and a jelly having a stable quality can be obtained. Moreover, there is an advantage that a konjac jelly having a good taste without alkaline taste can be obtained.
[0015]
Basic substances include organic acid salts such as sodium citrate, sodium tartrate, sodium malate, sodium acetate, sodium lactate, sodium succinate, and sodium polyphosphate, sodium pyrophosphate, sodium metaphosphate, phosphoric acid. Phosphate such as 2-3 sodium, potassium polyphosphate, potassium pyrophosphate, potassium metaphosphate, 2-3 potassium phosphate, and carbonates such as sodium carbonate, sodium hydrogen carbonate, potassium carbonate, calcium carbonate, magnesium carbonate, And sulfates such as potassium sulfate, sodium sulfate, calcium sulfate and magnesium sulfate, and sodium hydroxide, potassium hydroxide and the like alone or in combination can be used. Thus, any basic food salt can be used as the basic salt of the present invention.
[0016]
In addition, in order to give a buffer effect, it is also possible to combine each acid or acidic salt, and finally to use it in a combination that makes the pH alkaline. In this case, citric acid, tartaric acid, malic acid, acetic acid, lactic acid, phosphoric acid, monosodium phosphate, monopotassium malate and the like can be used as acids and basic salts. The amount used is preferably 0.01 to 20% by weight based on konjac flour.
[0017]
If a basic amino acid and a basic salt are used in combination, the konjac jelly may be easily produced by well balancing the functions of both. That is, while basic amino acids have high pH buffering properties and a stable pH can be obtained, it is difficult to arbitrarily set the pH value, while basic salts have low pH buffering properties, There is an advantage that the pH can be arbitrarily adjusted by selecting one. For this reason, if the two are combined well, it becomes possible to make the pH setting easy and to suppress the fluctuation of the pH due to the raw material and the water used, and to produce a uniform konjac jelly.
[0018]
The pH was adjusted to 9.0 to 10.5, it is good preferable to adjust the 9.3 to 10.2. The konjac paste obtained by adding water or alkaline water to the konjac flour becomes konjac jelly by proceeding the reaction by adjusting the pH as described above. If the pH of the konjac paste is too low, the reaction does not proceed and the mere konjac paste tends to remain, whereas conversely, if the pH is too high, the reaction proceeds excessively and water separation or an alkaline odor may occur.
[0019]
The order of adding water and alkali to konjac flour is not particularly limited. For example, water may be added to konjac powder to cause it to swell and dissolve, and then alkali may be added and mixed, or water added with alkali may be added to konjac powder to cause swelling and reaction simultaneously. Alternatively, the konjac powder may be mixed with an alkali and then added with water to swell and dissolve. These methods may be appropriately combined. Alternatively, water containing a basic amino acid may be first added to konjac powder, and then water containing a basic salt may be added. Any method can be employed as a konjac jelly manufacturing method as long as the swelling with water and the reaction with alkali proceed.
[0020]
As a preferred specific example, a method of first adding 20 to 100 times water to konjac powder to swell and dissolve, adding basic amino acids, basic salts or a mixture of both to the obtained konjac paste and mixing well. Can be mentioned. Another preferred specific example is a method in which a basic amino acid, a basic salt or a mixture of both is mixed and dissolved in water 20 to 100 times as much as konjac powder, and the konjac powder is swollen and dissolved in this solution. it can. Still another preferred specific example is a method in which basic amino acids, basic salts or a mixture of both are premixed in konjac powder, and then 20 to 100 times as much water as konjac powder is added and mixed to swell and dissolve. it can.
[0021]
After adding water or alkali to the konjac flour, it is preferable to allow it to swell and react sufficiently by leaving it at room temperature. For example, it can be sufficiently swollen and reacted by allowing it to stand at room temperature for about 2 hours. The standing time and conditions can be appropriately determined depending on the ratio of konjac powder and alkali, addition method, pH, the type of target food, and the like. Generally, when the pH is high, the standing time may be short, and when the pH is low, it is preferable to lengthen the standing time.
[0022]
The konjac jelly used in the present invention may contain food ingredients and additives unless the effects of the present invention are excessively impaired. For example, emulsifiers, starches, fats and oils, seasonings or fragrances may be appropriately contained. The type and amount can be determined according to the type of food, the production conditions, the storage environment, and the like.
[0023]
The konjac jelly used in the present invention is different from a so-called konjac (konjac gel) obtained by heating by adding an alkali. Konjac is gelled with konnyaku grated or konjac paste that has been swollen with water added with an alkaline coagulant. Konjac mannan, which is a component of konjac, has the property of forming an irreversible gel by reaction with strong alkali, and has completely different properties from other gelling polysaccharides, agar, carrageenan, xanthan gum and the like. For this reason, konjac gel obtained by coagulating konjac powder with a strong alkali is rarely used for foods other than so-called konjac. The konjac jelly used in the present invention is not a coagulated gel, so it can be mixed with other food ingredients, and the konjac mannan has the gelling power of konjac mannan. Can be made.
[0024]
In addition, the konjac jelly used in the present invention is different from the konjac paste obtained by simply swelling the konjac powder with water. Konjac glue shows strong thickening, but the addition of a small amount causes a glue state and limits the range of use. The konjac jelly used in the present invention does not have such problems and has excellent usability.
[0025]
Thus, the konjac jelly used in the present invention has an intermediate property between konjac gel and konjac paste. For this reason, this konjac jelly has an appropriate viscosity, and can be mixed with other food ingredients as it is or diluted with water, or added to the food itself.
[0026]
When producing semi-solid foods using konjac jelly, it is preferable to go through a step of stirring and mixing konjac jelly and other food ingredients. At this time, the konjac jelly may be mixed with the food ingredient at once, or may be mixed with the food ingredient in a plurality of times. Moreover, when using a several foodstuff component, you may mix all with a konjac jelly at once, and may divide and mix in multiple times.
[0027]
Konjac jelly can be used as at least a part of the thickener or emulsifier in a method for producing a non-solid food including a step of adding a thickener or an emulsifier. The type of semi-solid food to be produced is not particularly limited, and preferred examples include ice cream, mayonnaise, dressing, cream sauce, cream soup, carrero and beverages.
[0028]
For example, if an ice cream is produced using konjac jelly, fine bubbles can be taken in, and therefore, a product excellent in shape retention, dryness, and flavor release can be provided. In addition, if a dressing is produced using konjac jelly, it is possible to provide a product that has a moderate hardness and excellent taste and aroma even if it contains a small amount of fat. In addition, if a non-oil dressing is produced using konjac jelly, it is possible to provide a product that has excellent long-term storage stability, good tangling to vegetables, etc., and no sticky feeling.
[0029]
In the case of producing a solid food using konjac jelly, a solid food containing konjac jelly can be produced by injecting konjac jelly as an injection. The konjac jelly to be injected at this time is required to have an appropriate fluidity. Therefore, the concentration is adjusted by adding a liquid as necessary. The liquid added at this time is not necessarily water, and may be an aqueous solution in which a seasoning is dissolved, for example.
[0030]
The type of solid food produced by the method of the present invention is not particularly limited, and examples thereof include meat. It is particularly preferable to inject konjac jelly into meat before cooking. By injecting konjac jelly into the meat block, it is possible to provide grilled meat that is juicy and soft and has no animal odor when baked.
[0031]
Thus, if a foodstuff is manufactured using a konjac jelly according to this invention, the function according to the concept of foodstuff can be provided. When producing semi-solid foods, the konjac jelly can be used instead of the emulsifiers and thickeners used in the conventional production methods, so the production method is simple. In addition, when producing a solid food, it is very simple because it is only necessary to inject. Therefore, the present invention can be applied to a wide variety of food production methods.
[0032]
【Example】
The features of the present invention will be described more specifically with reference to the following examples. The materials, amounts used, ratios, processing details, processing procedures, and the like shown in the following examples can be changed as appropriate without departing from the spirit of the present invention. Therefore, the scope of the present invention should not be construed as being limited by the specific examples shown below.
[0033]
Example 1 Production of Ice Cream To 30 g of konjac powder, 1000 ml of a 0.22% solution of sodium carbonate was added and allowed to swell with stirring, and then allowed to stand at room temperature for 2 hours to completely swell. Using this konjac jelly, an ice cream was produced according to the formulation shown in Table 1.
[0034]
[Table 1]

[0035]
First, all the raw materials were uniformly mixed with a mixer, then heated to 85 ° C., made into a uniform emulsion through a homogenizer, and then rapidly cooled to 5 ° C. The mixture was put into an ice cream freezer and stirred and cooled for 15 minutes to make the overrun 80%. The obtained composition was filled in a cup and then frozen.
[0036]
The ice cream of the example to which konjac jelly was added incorporated fine bubbles, was uniform and overrun, had excellent shape retention, excellent dryness, and excellent flavor release.
[0037]
(Example 2) Production of mayonnaise-style dressing To 25 g of konjac powder, 1000 ml of a 0.18% aqueous solution of sodium carbonate was added and allowed to swell with stirring, and then allowed to stand at room temperature for 2 hours to completely swell. Using this konjac jelly, a mayonnaise-style dressing was produced with the composition shown in Table 2.
[0038]
[Table 2]

[0039]
Seasoning, vinegar, chicken egg, and konjac jelly were mixed with a mixer, then added with fats and oils, and further mixed to perform preliminary emulsification. Next, it was emulsified through a homogenizer to produce a dressing. Since konjac jelly was added according to the present invention, the dressing had a moderate hardness even with a reduced fat content, and had a good taste and aroma.
[0040]
(Example 3) Production of non-oil dressing To 28 g of konjac powder, 1000 ml of 0.18% trisodium phosphate was added and allowed to swell with stirring, and then allowed to stand at room temperature for 2 hours to swell completely. Using this konjac jelly, a non-oil dressing with the formulation shown in Table 3 was produced.
[0041]
[Table 3]

[0042]
After mixing all the raw materials with a mixer, the mixture was homogenized and homogenized to produce a non-oil dressing. The obtained non-oil dressing was a good dressing that did not separate or settle for a long period of time, had a good entanglement with vegetables, and had no sticky feeling.
[0043]
(Example 4) Injection into pork loin block 7 ml of 0.1% phosphate preparation (manufactured by Nippon Hoechst) was added to 7 g of konjac flour and allowed to swell with stirring and allowed to stand for 2 hours to swell completely. To this konjac jelly, 1.1 g of succinic acid monoglyceride and 0.2 g of essential oil extracted from orange peel were dissolved and dispersed in 5 g of cottonseed oil and mixed to prepare an injection solution. The succinic acid monoglyceride, orange essential oil, and cottonseed oil in the injection liquid may be added when the konjac powder is swollen.
[0044]
By a conventional method, 30% of konjac jelly injection solution was injected into pork loin block. This injection solution had good permeability to meat and was well-dispersed even without tumbling after injection. When this roast meat was baked, the yield by heating was good, and it was succulent and soft, and it was good without the unique animal odor of pork.
[0045]
【Effect of the invention】
According to the present invention, food can be produced using a new additive that can replace conventional thickeners and emulsifiers. In particular, foods imparted with appropriate viscosity and emulsion stability can be provided by a simple method. For this reason, this invention is applicable to manufacture of a wide range of foodstuffs.

Claims (9)

A method for producing a non-solid food comprising a step of adding a thickener or an emulsifier, wherein at least part of the thickener or emulsifier is added with konjac powder and water and left to stand without heating. And using a konjac jelly sufficiently swollen and reacted at a pH of 9.0 to 10.5, and a method for producing a non-solid food, which does not include a step of heating after adding the konjac jelly.   The method for producing a non-solid food according to claim 1, wherein the swelling / reaction is performed at room temperature.   The method for producing a non-solid food according to claim 1 or 2, wherein the pH is 9.3 to 10.2.   The said konjac jelly further contains an emulsifier, starch, fats and oils, a seasoning, or a fragrance | flavor, The manufacturing method of the non-solid foodstuff in any one of Claims 1-3 characterized by the above-mentioned.   A non-solid food produced by the production method according to claim 1.   6. The non-solid food according to claim 5, wherein the non-solid food is selected from the group consisting of ice cream, mayonnaise, dressing, cream sauce, cream soup, curry roux and beverage. Addition of water and alkali to konjac flour, leave without heating, and inject solid konjac jelly injection solution, which is fully swollen and reacted at pH 9.0 to 10.5, into solid food A method for producing food.   A solid food produced by the production method according to claim 7.   It is meat, The solid foodstuff of Claim 8 characterized by the above-mentioned.