JP5904669B2 - Processed grain product and method for producing the same - Google Patents

Processed grain product and method for producing the same Download PDF

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JP5904669B2
JP5904669B2 JP2012254195A JP2012254195A JP5904669B2 JP 5904669 B2 JP5904669 B2 JP 5904669B2 JP 2012254195 A JP2012254195 A JP 2012254195A JP 2012254195 A JP2012254195 A JP 2012254195A JP 5904669 B2 JP5904669 B2 JP 5904669B2
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JP2014100096A (en
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博之 三次
博之 三次
有美 松永
有美 松永
孝一 福原
孝一 福原
川端 兆宏
兆宏 川端
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T Hasegawa Co Ltd
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Description

本発明は、でんぷんをα化した穀物にさらに加工を施すことによって、適度な柔らかさを有しながら、つぶつぶ感、ぷりぷり感といったこれまでにない嗜好性の高い新食感が付加され、長期間安定に物性が保たれ、ヨーグルトなどの水分の多い食品に添加した場合にも溶解することなく、優れた付加価値を付与することのできる穀物加工品に関する。   The present invention, by further processing the starch that has been gelatinized starch, has a moderate softness, while adding an unprecedented new palatability, such as a crushing feeling and a feeling of crispness, The present invention relates to a processed cereal product that has stable physical properties and can give excellent added value without being dissolved even when added to foods with high water content such as yogurt.

米、麦、その他の雑穀などの穀物は脱穀後の生の状態で食用に供されることはまずない。その理由は人が生の穀物中のβでんぷんをほとんど消化できないためである。そこで、各民族は茹でる、炊く、焼く、蒸すなどの加熱処理を施すことにより、消化しやすいαでんぷん(いわゆる、α化)とする技術を獲得し、現在では一般化している。   Grains such as rice, wheat and other cereals are rarely used for food in the raw state after threshing. The reason is that one can hardly digest β starch in raw grains. Therefore, each ethnic group has acquired a technology for making α starch (so-called α conversion) that is easy to digest by performing heat treatment such as boiling, cooking, baking, and steaming, and it is now common.

より具体的には、米飯、雑穀粥、パン、麺類などとして食されるほか、餅や団子、餡類、ケーキ、クッキーなどの食品においてもα化は頻繁に使用されている。   More specifically, in addition to being eaten as cooked rice, millet rice cakes, breads, noodles, etc., pregelatinization is frequently used in foods such as rice cakes, dumplings, rice cakes, cakes and cookies.

一方、穀物は乾燥することにより、シリアルという製品に加工され、簡便で短時間の食事とされ、さらに繊維分を多く含む健康訴求が消費者に受け入れられ、最近ではダイエットにも取り入れられている。例えば、シリアルとヨーグルトを組み合わせて食する方法が一般的である。   On the other hand, cereals are dried to be processed into cereal products, a simple and short-term meal, and the health appeal that contains a high amount of fiber has been accepted by consumers, and has recently been incorporated into diets. For example, a method of eating by combining cereal and yogurt is common.

穀物のα化による利用は良いことずくめではあるが、不思議なことにこれまで穀物をα化したものをヨーグルトなど水分の多い食品に添加・混合した製品はなかった。   Although the use of cereals by alpha conversion is good, it has been mysterious that there has been no product that has been added to and mixed with foods with high moisture content such as yogurt.

その理由は、α化されたでんぷんはβでんぷんに戻る現象、すなわち、でんぷんの老化が起こるからである。米飯の例で言えば、炊きたての米飯は好ましい食感を与える適度な硬さであるが、時間が経つと冷えて固くなる、すなわち老化が起こる。米飯の場合は再加熱を行えば、α化が起こり、食することができるが、再加熱を行うことができない食品では、糖類、ショ糖脂肪酸エステル(ショ糖エステル)、グリセリン脂肪酸エステルなどの乳化剤、その他の成分を添加することによりα化を抑制することが一般的に行われている。   The reason is that the gelatinized starch returns to β starch, that is, aging of the starch occurs. In the case of cooked rice, freshly cooked cooked rice has a suitable hardness that gives a favorable texture, but with time it cools and hardens, that is, aging occurs. In the case of cooked rice, if it is reheated, pregelatinization occurs and it can be eaten, but in foods that cannot be reheated, emulsifiers such as sugars, sucrose fatty acid esters (sucrose esters), glycerin fatty acid esters, etc. In general, the addition of other components suppresses the pregelatinization.

一方、ヨーグルトなどに添加する果実加工品は保存安定性、形状の維持などを目的として糖類、酸類、増粘剤などを添加し、加熱殺菌し、プレザーブ化を行っている。しかしながら、穀物原料に糖類、酸類、増粘剤などを添加したプレザーブ化を行おうとすると、これらの成分はα化を抑制する性質があり、穀物原料をうまくプレザーブ化することができない。その結果、穀物原料をα化する一方で、α化を抑制しつつ、プレザーブ化するという技術的課題が生ずる。ところが、従来、この技術的課題を解決する技術は見出されていなかった。   On the other hand, processed fruit products to be added to yogurt and the like are preserved and sterilized by adding heat, sterilization, heat sterilization, etc. for the purpose of preservation stability and shape maintenance. However, when trying to preserve the grain raw material by adding saccharides, acids, thickeners, etc., these components have the property of suppressing alpha conversion, and the grain raw material cannot be successfully preserved. As a result, a technical problem arises in that the grain raw material is made alpha, while preserving it while suppressing the alpha production. However, no technology has been found to solve this technical problem.

穀物をヨーグルトなどに添加する技術としては、大麦原料を、歩留り約40%程度に搗精処理するとともに茹で加熱してα化し更に酵素アミラーゼを作用させて澱粉を糖に分解し水とともに糖液化した精白麦とし、前記精白麦をヨーグルト材料に添加して乳酸発酵させたことを特徴とする大麦入りヨーグルト(特許文献1)、イネ科植物から抽出されたβグルカンを配合したことを特徴とするヨーグルト類(特許文献2)があるが、穀物をα化し、ヨーグルトなどに添加してつぶつぶ感、ぷりぷり感といった食感を楽しむことのできる穀物加工品に関する提案ではない。   As a technique for adding cereals to yogurt, etc., barley raw material is refined to a yield of about 40%, heated with rice bran to become alpha, further activated by enzyme amylase to decompose starch into sugar and liquefy with water Yoghurts containing barley and yoghurt containing barley extracted from gramineous plants (patent document 1) characterized in that the above white wheat is added to yoghurt material and fermented with lactic acid. Although there is (Patent Document 2), it is not a proposal regarding a processed cereal product that can be added to yogurt or the like and enjoy a texture such as a crushed feeling or a crisp feeling.

特開2001−37414号公報JP 2001-37414 A 特開2003−274852号公報JP 2003-274852 A

本発明は、でんぷんをα化した穀物にさらに加工を施すことによって、適度な柔らかさを有しながら、つぶつぶ感、ぷりぷり感といったこれまでにない嗜好性の高い新食感が付加され、長期間安定に物性が保たれ、ヨーグルトなどの水分の多い食品に添加した場合にも溶解することなく、優れた付加価値を付与することのできる穀物加工品に関する。   The present invention, by further processing the starch that has been gelatinized starch, has a moderate softness, while adding an unprecedented new palatability, such as a crushing feeling and a feeling of crispness, The present invention relates to a processed cereal product that has stable physical properties and can give excellent added value without being dissolved even when added to foods with high water content such as yogurt.

本発明者らは、α化した穀物に糖類を添加混合して80〜100℃で加熱殺菌し、直ちに40℃以下に冷却することにより、つぶつぶ感、ぷりぷり感といったこれまでにない嗜好性の高い新食感が付加され、長期間安定に物性が保たれ、ヨーグルトなどの水分の多い食品に添加した場合にも溶解することなく、優れた付加価値を付与することのできる穀物加工品を見出し、本発明を完成させた。   The present inventors have added a saccharide to the pre-gelatinized grain, sterilized by heating at 80 to 100 ° C., and immediately cooled to 40 ° C. or less, thereby having an unprecedented high palatability such as a crushed feeling and a crisp feeling. A new texture is added, the physical properties are maintained stably for a long time, and even when added to foods with a lot of moisture such as yogurt, a processed grain product that can give excellent added value without dissolving, The present invention has been completed.

かくして、本発明は、以下のものを提供する。   Thus, the present invention provides the following.

(1)(a−1)α化した穀物種子、(b)糖類および(c)水、(d)酸味料および(e)増粘剤を混合して加熱する工程を含む穀物種子入りプレザーブの製造方法であって、穀物種子入りプレザーブ全体の質量に対して、(a−1)α化した穀物種子を12.2〜40質量%、(b)糖類を10〜25質量%、(c)水を35.0〜61.9質量%、(d)酸味料を0.01〜3質量%および(e)増粘剤を0.067〜0.5質量%含有し、下記の工程により製造されることを特徴とする穀物種子入りプレザーブの製造方法:(1) (a-1) a preservative containing cereal seeds comprising a step of mixing and heating (a-1) pregelatinized cereal seeds, (b) saccharides and (c) water, (d) acidulant and (e) thickener It is a manufacturing method, Comprising: (a-1) 12.2-40 mass% of gelatinized grain seeds, (b) 10-25 mass% of saccharides, (c) Contains 35.0-61.9% by weight of water, (d) 0.01-3% by weight of acidulant and (e) 0.067-0.5% by weight of thickener, and is manufactured by the following steps. A method for producing a cereal seed-containing preserve:
工程1:前記(a−1)、(b)、(c)、(d)および(e)を含有する混合物を得る工程、Step 1: obtaining a mixture containing the above (a-1), (b), (c), (d) and (e),
工程2:工程1で得られた混合物を、撹拌しながら、加熱を行い、55℃達温時に脱気を行い、常圧に戻した後、さらに加熱を続け、80〜100℃の範囲内の温度で加熱殺菌する工程、Step 2: The mixture obtained in Step 1 is heated with stirring, degassed when the temperature reaches 55 ° C., returned to normal pressure, and further heated to a temperature within the range of 80 to 100 ° C. A process of heat sterilization at a temperature,
工程3:工程2の加熱殺菌後、直ちに55℃以下に冷却し、最終的に40℃以下に冷却する工程。Process 3: The process of cooling to 55 degrees C or less immediately after the heat sterilization of process 2, and finally cooling to 40 degrees C or less.

(2)(a)穀物種子、(b)糖類、(c)水、(d)酸味料および(e)増粘剤を混合して加熱する工程を含む穀物種子入りプレザーブの製造方法であって、穀物種子入りプレザーブ全体の質量に対して、(a)穀物種子を5〜10質量%、(b)糖類を10〜25質量%、(c)水を42.2〜74.1質量%、(d)酸味料を0.01〜3質量%および(e)増粘剤を0.067〜0.5質量%含有し、下記の工程により製造されることを特徴とする穀物種子入りプレザーブの製造方法:(2) A method for producing a cereal seed-containing preserve comprising the steps of mixing and heating (a) cereal seeds, (b) saccharides, (c) water, (d) acidulant and (e) a thickener. , (A) 5-10% by mass of cereal seeds, (b) 10-25% by mass of sugar, (c) 42.2-74.1% by mass of water, (D) A sour agent containing 0.01 to 3% by mass and (e) a thickener containing 0.067 to 0.5% by mass, manufactured by the following steps, Production method:
工程1:前記(a)および(c)を混合し、撹拌しながら、加熱を行い、55〜100℃の範囲の温度で加熱および殺菌を行った後、直ちに55℃以下に冷却し、α化した穀物種子を得る工程、Step 1: (a) and (c) are mixed, heated with stirring, heated and sterilized at a temperature in the range of 55 to 100 ° C., immediately cooled to 55 ° C. or lower, and converted to α. Obtaining cereal seeds,
工程2:工程1で得られたα化した穀物種子に、さらに前記(b)、(d)および(e)を添加・混合し、加熱を行い、55℃達温時に脱気を行い、常圧に戻した後、さらに加熱を続け、80〜100℃の範囲内の温度で加熱殺菌する工程、Step 2: (b), (d) and (e) are further added and mixed to the pregelatinized grain seed obtained in Step 1, heated, deaerated when the temperature reaches 55 ° C. After returning to pressure, further heating and sterilizing at a temperature within the range of 80 to 100 ° C.,
工程3:工程2の加熱殺菌後、直ちに55℃以下に冷却し、最終的に40℃以下に冷却する工程。Process 3: The process of cooling to 55 degrees C or less immediately after the heat sterilization of process 2, and finally cooling to 40 degrees C or less.

(3)工程1において、55℃以下に冷却する方法として0〜30℃の範囲内の温度の水を(a)および(c)の混合物に添加することを特徴とする、(2)の穀物種子入りプレザーブの製造方法。(3) Grain according to (2), characterized in that in step 1, water having a temperature in the range of 0 to 30 ° C is added to the mixture of (a) and (c) as a method of cooling to 55 ° C or lower. A method for producing seed preserves.

(3)(1)〜(3)のいずれかの製造方法で製造された穀物種子入りプレザーブを含有させる飲食品の製造方法。(3) The manufacturing method of the food / beverage products which contain the grain seeds preserved manufactured with the manufacturing method in any one of (1)-(3).

本発明によれば、ヨーグルト、プリン、アイスクリーム、洋菓子などの飲食品に使用することにより、穀物のつぶつぶ感、ぷりぷり感といったこれまでにない新食感を楽しむことができ、長期間の保存でも固くなることがなく、繊維質を多く含み消費者の健康志向に訴えることのできる新たなる商品開発が可能となる。   According to the present invention, it can be used for food and drink such as yogurt, pudding, ice cream, and Western confectionery, so that it can enjoy an unprecedented new texture such as crushed feeling and crispness of grains, and can be stored for a long time. It is possible to develop a new product that does not become hard and contains a lot of fiber and can appeal to the health of consumers.

本発明品1および4、比較品1および2の荷重−歪率曲線を示した図である。It is the figure which showed the load-distortion curve of this invention products 1 and 4, and the comparison products 1 and 2. FIG.

以下、本発明についてさらに詳細に説明する。   Hereinafter, the present invention will be described in more detail.

本発明で使用する穀物とは、植物から得られる食材の総称の1つで、澱粉質を主体とする種子を食用とするものを指す。具体的な例として、小麦、大麦、燕麦、烏麦、鳩麦、ライ麦、黒米、赤米、白米、緑米、小豆、大豆、ササゲ、インゲンマメ、ラッカセイ、エンドウ、ソラマメ、レンズマメ、ヒヨコマメ、粟(あわ)、稗(ヒエ)、黍(キビ)、ヒユ、蜀黍(もろこし)、ソバ、キヌアなどの雑穀類などを挙げることができるが、これらに限定されるわけではない。また、これらの穀物の部位のうち、米、麦類の籾殻および豆類の鞘などの非食用部分を除去した種子を用いる。場合によっては、物理的な処理を行って押し麦や引き割りなどのようにその形状、形態、物性を変えたものを使用することもできる。   The grain used in the present invention is one of the generic names of food materials obtained from plants, and refers to those that are edible seeds mainly composed of starch. Specific examples include wheat, barley, buckwheat, buckwheat, pigeon, rye, black rice, red rice, white rice, green rice, red beans, soybeans, cowpea, kidney beans, peanuts, peas, fava beans, lentils, chickpeas, rice bran ), Millet, millet, millet, cereals such as buckwheat, quinoa, and the like, but are not limited thereto. Also, among these grain parts, seeds from which non-edible parts such as rice, wheat husks and legumes are removed are used. Depending on the case, it is also possible to use a product that has been subjected to physical treatment and whose shape, form, and physical properties have been changed, such as pressed wheat or split.

本発明においてα化した穀物とは、上記の穀物中の澱粉を加熱することにより、βデンプンを全部または一部をαデンプンに変えたものを指し、さらに糖類等を添加し、加熱殺菌を行って得られる穀物加工品を人が飲食した段階に好ましく感じられる程度にα化したものであれば良い。   In the present invention, the pregelatinized cereal refers to a product obtained by heating the starch in the above cereal to convert all or part of the β starch into α starch, and further adding saccharides and sterilizing by heating. It is sufficient that the processed cereal product obtained in this way is made into an α-form so that it can be preferably felt when a person eats or drinks.

本発明においてα化した穀物を調製する方法であるが、穀物および水の混合物を加熱する場合、一般的には穀物および水の混合物を釜又は容器に仕込んで加熱を行う。その際、撹拌を行っても良い。加熱温度および加熱時間の組み合わせは、穀物および水の混合比率にもよるが、通常、55〜100℃の温度範囲で、10秒〜120分の加熱、好ましくは80〜100℃の温度範囲で1〜30分の加熱、より好ましくは、80〜100℃の温度範囲で1〜15分の加熱で上記のα化を行うことができる。また、圧力鍋、圧力釜などを使用し、加圧下、100〜135℃で加熱を行う場合には、同程度のα化に要する時間を短縮することができる。   In the present invention, the pregelatinized grain is prepared. When a mixture of grain and water is heated, generally, the mixture of grain and water is charged into a kettle or a container and heated. At that time, stirring may be performed. The combination of the heating temperature and the heating time depends on the mixing ratio of the grain and water, but is usually from 55 to 100 ° C. for 10 seconds to 120 minutes, preferably from 80 to 100 ° C. The above-mentioned pregelatinization can be performed by heating for ˜30 minutes, more preferably by heating for 1 to 15 minutes in a temperature range of 80 to 100 ° C. Moreover, when using a pressure cooker, a pressure cooker, etc. and heating at 100-135 degreeC under pressure, the time required for alpha conversion to the same extent can be shortened.

本発明において穀物および水の混合物を加熱する場合の穀物および水の混合比率であるが、穀物を1質量部とした時の水の量として0.5〜100質量部を挙げることができる。好ましくは0.5〜10質量部、より好ましくは、1〜5質量部を挙げることができる。100質量部を越える場合には、でんぷんがα化した後に、穀物が柔らかくなりなりすぎるか、糊化が始まるので好ましくない。また、0.5質量部未満ではα化の度合いが低く、穀物は芯が残った、固い状態であり、糖添加後の加熱を行っても、つぶつぶ感、ぷりぷり感などの好ましい食感が得られないので好ましくない。一般的な米飯は、穀物を1質量部とした時の水の量は1.2質量部程度である。   In the present invention, the mixing ratio of cereal and water in the case of heating a cereal and water mixture, 0.5 to 100 parts by mass can be mentioned as the amount of water when the cereal is 1 part by mass. Preferably 0.5-10 mass parts, More preferably, 1-5 mass parts can be mentioned. When the amount exceeds 100 parts by mass, the starch becomes too soft after gelatinization, or gelatinization starts, which is not preferable. In addition, if it is less than 0.5 parts by mass, the degree of pregelatinization is low, the cereal is in a hard state with a core remaining, and even after heating after addition of sugar, a favorable texture such as a crushed feeling or a crisp feeling is obtained. Since it is not possible, it is not preferable. In general cooked rice, the amount of water when the grain is 1 part by mass is about 1.2 parts by mass.

上記の加熱方法は、湯取法と呼ばれる方法、すなわち、水によく浸した米を、水を張った釜(鍋)に入れ、ある程度加熱してからザルなどに上げ、それを蒸籠などに移して蒸す方法を用いてα化した穀物を調製しても良い。   The above heating method is a so-called hot water method, that is, rice that has been well soaked in water is put in a pot filled with water, heated to some extent and then raised to a colander, etc. You may prepare the gelatinized grain using the steaming method.

本発明においてα化された穀物および水の混合物を、55〜100℃の範囲の温度で加熱し、α化した穀物を調製し、直ちに55℃以下に冷却する方法であるが、第1の方法は穀物および水の混合物を釜または容器中で加熱し、α化した穀物を調製し、該釜または該容器に付属する冷却器又は該釜または該容器以外の冷却器を用いて冷却する方法である。第2の方法は穀物および水の混合物を釜または容器中で加熱し、α化した穀物を調製し、これに水を直接添加することにより冷却する方法である。添加する水の温度範囲としては、0〜45℃、好ましくは0〜30℃、より好ましくは0〜20℃の温度範囲が好ましい。この方法を採用する場合は、α化した穀物に直接冷却の目的で添加する水の量を、α化した穀物を調製する際に使用する水および糖類を添加混合する際に使用する水のいずれか一方または両方からその分を差し引く。   In the present invention, the pregelatinized cereal and water mixture is heated at a temperature in the range of 55 to 100 ° C. to prepare the pregelatinized cereal and immediately cooled to 55 ° C. or lower. Is a method in which a mixture of cereal and water is heated in a kettle or container to prepare a pregelatinized grain and cooled using a cooler attached to the kettle or the container or a cooler other than the kettle or the container. is there. The second method is a method in which a mixture of cereal and water is heated in a kettle or container to prepare a pregelatinized cereal and cooled by adding water directly thereto. As a temperature range of the water to add, 0-45 degreeC, Preferably it is 0-30 degreeC, More preferably, the temperature range of 0-20 degreeC is preferable. When this method is adopted, the amount of water added to the pregelatinized grain for the purpose of direct cooling can be either the water used for preparing the pregelatinized grain or the water used for adding and mixing sugars. Subtract that amount from one or both.

第2の方法は急速に冷却ができ、効率的かつ実用的であり、好ましい。また、得られる穀物加工品の食感も良くなる。また、ここで直ちにとは、α化された穀物が過度の加熱により、穀物粒表面あるいは穀物粒全体が柔らかくなりすぎ、つぶつぶ感、ぷりぷり感などの弾力ある、好ましい食感が失われない程度の時間内に急速に冷却を行うことであり、具体的には1〜30分以内、好ましくは3〜10分以内に55℃以下とすることを意味する。実際には5〜20℃の範囲内の水を使用すれば添加量にもよるが、3〜10分以内に10〜25℃の範囲内の温度に容易に冷却することができる。   The second method is preferable because it allows rapid cooling, is efficient and practical. In addition, the texture of the processed grain product is improved. In addition, the term “immediately” used herein means that the surface of the grain or the whole grain becomes excessively soft due to excessive heating, and the elasticity and favorable texture such as a feeling of crushing and squeezing is not lost. It means that the cooling is rapidly performed within a period of time, and specifically means that the temperature is 55 ° C. or less within 1 to 30 minutes, preferably within 3 to 10 minutes. Actually, if water in the range of 5 to 20 ° C. is used, it can be easily cooled to a temperature in the range of 10 to 25 ° C. within 3 to 10 minutes, depending on the amount added.

また、本発明でα化した穀物に糖類などを添加して加熱後、80〜100℃の範囲内の温度で約2〜約30分間加熱殺菌した後、直ちに55℃以下に冷却し、最終的に40℃以下に冷却し、穀物加工品を得る工程において最終的に40℃以下に冷却する場合、0〜40℃、好ましくは、3〜27℃程度の範囲内の温度に冷却する。ここで直ちに55℃以下に冷却するとは、前記のα化した穀物を冷却する場合と同様である。すなわち、具体的には1〜30分以内、好ましくは3〜10分以内に55℃以下とする。55℃以下に急速冷却した際に上記温度範囲内になるまで急速冷却するのが好ましいが、最終的に40℃以下に冷却するまでに要する冷却時間は、穀物加工品の物性および冷却器の能力にもよるが、冷却全体で5〜120分、好ましくは、5〜30分以内、より好ましくは、5〜15分以内で行う。   In addition, after adding sugars and the like to the pregelatinized grains in the present invention and heating, sterilization by heating at a temperature in the range of 80 to 100 ° C. for about 2 to about 30 minutes, immediately cooled to 55 ° C. or less, and finally When cooling to 40 ° C. or lower and finally cooling to 40 ° C. or lower in the step of obtaining a processed grain product, it is cooled to a temperature within the range of 0 to 40 ° C., preferably about 3 to 27 ° C. Here, immediately cooling to 55 ° C. or lower is the same as the case of cooling the pre-gelatinized grain. Specifically, the temperature is set to 55 ° C. or less within 1 to 30 minutes, preferably within 3 to 10 minutes. It is preferable to rapidly cool to 55 ° C. or less until the temperature falls within the above temperature range, but the cooling time required to finally cool to 40 ° C. or less depends on the physical properties of the processed grain product and the capacity of the cooler. Although it depends, it is performed within 5 to 120 minutes, preferably within 5 to 30 minutes, more preferably within 5 to 15 minutes in the whole cooling.

このようにして得られた穀物加工品は、4〜25℃の温度範囲で冷蔵または室温保存しても、つぶつぶ感、ぷりぷり感などの弾力ある、好ましい食感が損なわれることがなく、保存安定性に優れている。   The processed grain product thus obtained can be stored stably without losing its elastic and favorable texture such as crushing and crispness even when refrigerated or stored at room temperature in the temperature range of 4 to 25 ° C. Excellent in properties.

本発明において使用する糖類であるが、例えば、砂糖、異性化糖、ブドウ糖、果糖、乳糖、麦芽糖、和三盆、黒糖、三温糖などの糖類;フラクトオリゴ糖、マルトオリゴ糖などのオリゴ糖類;蜂蜜、メープルシロップ、廃糖蜜などの天然から得られる糖類;マルチトール、ソルビトール、キシリトール、ラクチトール、パラチニット、還元澱粉糖化物などの糖アルコール類などを挙げることができ、これらは単独でまたは2種以上組み合わせて使用することができる。糖類の配合割合は特に制限されるものではなく、使用する糖類の種類、所望する甘味度により異なり一概には言えないが、通常、穀物加工品に対して5〜40重量%、好ましくは10〜25重量%の範囲内を例示することができる。   Examples of sugars used in the present invention include sugars, isomerized sugars, glucose, fructose, lactose, maltose, Japanese sanbon, brown sugar, trisaccharide sugars; oligosaccharides such as fructooligosaccharides and maltooligosaccharides; honey, Examples include sugars obtained from nature such as maple syrup and molasses; sugar alcohols such as maltitol, sorbitol, xylitol, lactitol, palatinit, and reduced starch saccharified, and these may be used alone or in combination of two or more. Can be used. The blending ratio of saccharides is not particularly limited, and varies depending on the type of saccharide used and the desired sweetness level, but it cannot be generally stated, but is usually 5 to 40% by weight, preferably 10 to 10%, based on the processed grain product. A range of 25% by weight can be exemplified.

所望により、上記の糖類に加えて、その他の甘味料を添加しても良い。例えば、ステビア、甘草抽出物、羅漢果抽出物、ソーマチン、アスパルテーム、アセスルファムカリウム、スクラロース、サッカリン、サイクラミン酸などを挙げることができるがこれらに限定されるわけではない。   If desired, other sweeteners may be added in addition to the above sugars. For example, stevia, licorice extract, rahan fruit extract, thaumatin, aspartame, acesulfame potassium, sucralose, saccharin, cyclamic acid and the like can be mentioned, but are not limited thereto.

次に、本発明において使用する酸味料であるが、例えば、クエン酸、コハク酸、乳酸、リンゴ酸、酒石酸、グルコン酸、リン酸などの酸またはこれらの塩を挙げることができるが、これらに限定されるわけではない。その使用量は、使用する酸味料の種類などにより異なり一概には言えないが、通常、穀物加工品に対して0.01〜3重量%、好ましくは0.05〜0.5重量%の範囲内を例示することができる。   Next, examples of the acidulant used in the present invention include acids such as citric acid, succinic acid, lactic acid, malic acid, tartaric acid, gluconic acid, phosphoric acid, and salts thereof. It is not limited. The amount used varies depending on the type of acidulant used and cannot be generally specified, but is usually in the range of 0.01 to 3% by weight, preferably 0.05 to 0.5% by weight, based on the processed grain product. The inside can be illustrated.

本発明で使用される安定剤としては、果肉加工品などに通常使用されている広範囲の安定剤を使用することができ、例えば、ペクチン(LMペクチン、HMペクチンなど)、アルギン酸ナトリウム、グアガム、タマリンドシードガム、ローカストビーンガム、キサンタンガム、カラギーナン、ジェランガム、セルロース類、アルファー化澱粉類などが挙げられ、これらは、所望する粘性などの違いにより、適宜選択し、組み合わせて用いることもできる。その使用量は、使用する安定剤の種類などにより異なり一概には言えないが、通常、穀物加工品に対して0.01〜1重量%、好ましくは0.1〜0.5重量%の範囲内を例示することができる。   As the stabilizer used in the present invention, a wide range of stabilizers commonly used in processed pulp products can be used. For example, pectin (LM pectin, HM pectin, etc.), sodium alginate, guar gum, tamarind Examples thereof include seed gum, locust bean gum, xanthan gum, carrageenan, gellan gum, celluloses, pregelatinized starches, and the like, which can be appropriately selected and used in combination depending on a desired difference in viscosity. The amount used varies depending on the type of stabilizer used and cannot be generally specified, but is usually 0.01 to 1% by weight, preferably 0.1 to 0.5% by weight, based on the processed grain product. The inside can be illustrated.

果実などを糖類や酸味料と共に加熱加工した果実加工品は、一般にプレザーブと呼ばれ、ストロベリープレザーブ、アップルプレザーブなどと称される。本発明の穀物加工品は穀物プレザーブと呼ぶことができる。   Processed fruit products obtained by heating fruits and the like together with sugars and acidulants are generally referred to as “presaves”, and are referred to as strawberry preserves, apple presales, and the like. The processed grain product of the present invention can be referred to as a grain preserver.

本発明の穀物加工品(穀物プレザーブ)には、種々の果実および果汁、アロエ葉肉、ナタデココ、ナッツ類を、糖類添加混合時に添加しても良い。あるいは、穀物プレザーブとは別に種々の果実および果汁アロエ葉肉、ナタデココ等を含有するプレザーブを調製し、穀物プレザーブと混合するか、または、飲食品の喫食時に2つのプレザーブを併用しても良い。   Various processed fruits and fruit juices, aloe mesophyll, nata de coco, and nuts may be added to the processed cereal product of the present invention (cereal preserver) at the time of adding and mixing sugars. Alternatively, a preserve containing various fruits and fruit juice aloe mesophyll, natdecocco, etc. may be prepared separately from the grain preserve and mixed with the grain preserve, or two preserves may be used in combination when eating and drinking.

また、本発明の穀物加工品には、所望により、香料、調味料、香辛料、酒類、金属塩、抗酸化剤、色素、ビタミン類、消泡剤、その他の食品、天然原料または食品添加物など食品に使用可能な成分を適宜配合してもよい。   In addition, the processed grain product of the present invention includes, as desired, flavorings, seasonings, spices, alcoholic beverages, metal salts, antioxidants, pigments, vitamins, antifoaming agents, other foods, natural raw materials or food additives, etc. You may mix | blend suitably the component which can be used for a foodstuff.

本発明の穀物加工品を含有する飲食品としては、特に制限はないが、穀物加工品を含有することにより、飲食品の香味、食感などが改善され、より広い消費者の嗜好性に応えるものであればよい。具体的には、例えば、ヨーグルト、プリン、アイスクリーム、ゼリー、ババロア、パンナコッタ、その他の洋菓子類、高齢者用飲食品、乳幼児向け食品などを挙げることができるが、これらに限定されるわけではない。   The food / beverage products containing the processed grain product of the present invention are not particularly limited, but by containing the processed grain product, the flavor and texture of the food / beverage product are improved to meet wider consumer preferences. Anything is acceptable. Specific examples include, but are not limited to, yogurt, pudding, ice cream, jelly, bavaroa, panna cotta, other confectionery, food and drink for the elderly, food for infants, and the like. .

本発明の穀物加工品をヨーグルト、ゼリー、洋菓子などの飲食品に添加することにより、適度な柔らかさを有しながら、つぶつぶ感、ぷりぷり感といったこれまでにない嗜好性の高い穀物の新食感を付与することができるとともに、長期間安定に物性が保たれ、水分の多い食品中でも溶解することがないので、食品開発の応用可能性を著しく改善することができる。   By adding the processed cereal product of the present invention to foods and drinks such as yogurt, jelly, and Western confectionery, the new texture of unprecedented cereals such as crushing and crispness while having moderate softness Can be imparted, and the physical properties can be stably maintained for a long period of time, and it does not dissolve even in foods with a high water content, so that the applicability of food development can be remarkably improved.

以下、本発明を実施例および比較例によりさらに具体的に説明するが、これらに限定されるわけではない。   EXAMPLES Hereinafter, although an Example and a comparative example demonstrate this invention further more concretely, it is not necessarily limited to these.

[実施例1]大麦押麦入りプレザーブの調製−本発明品1
ガラス製丸底フラスコ(容量2000ml)に、大麦押麦105g、水315gを入れ、テフロン(デュポン社、登録商標)翼(直径13cm半円形、厚さ2mm)で毎分60回転の速度で攪拌しながら80℃、5分間の加熱を行った。加熱後直ちに、4℃の水463gを添加したところ、穀物同士が緩くブロック状の塊を形成したので、5分間の撹拌を行ったところ、穀物粒は容易に分離し、水中に分散した(約25℃)。
[Example 1] Preparation of a preservative containing barley oats-Product 1 of the present invention
A glass round-bottom flask (volume: 2000 ml) is charged with 105 g of barley oats and 315 g of water and stirred with a Teflon (DuPont, registered trademark) wing (diameter 13 cm, semicircular, thickness 2 mm) at a rate of 60 revolutions per minute. Heating was performed at 80 ° C. for 5 minutes. Immediately after the heating, 463 g of water at 4 ° C. was added, and the grains loosely formed a block lump. Therefore, when stirring was performed for 5 minutes, the grains were easily separated and dispersed in water (about approx. 25 ° C.).

この混合物にビートグラニュー糖164g、クエン酸2.5g、グアガム0.7g、キサンタンガム0.3gを添加し、毎分60回転の速度で攪拌を行いながら5分間加熱した。55℃達温時に0.02MPaまで減圧し、脱気を行い、常圧に戻した後、90〜95℃、10分間加熱殺菌の後、500ml入りガラス瓶に分注して密栓した。これを氷水に入れて約10分間で4℃まで冷却し、大麦入りプレザーブ(本発明品1)を調製した。   To this mixture, 164 g of beet granulated sugar, 2.5 g of citric acid, 0.7 g of guar gum, and 0.3 g of xanthan gum were added and heated for 5 minutes while stirring at a speed of 60 revolutions per minute. When the temperature reached 55 ° C., the pressure was reduced to 0.02 MPa, deaeration was performed, and the pressure was returned to normal pressure. After sterilization by heating at 90 to 95 ° C. for 10 minutes, the solution was dispensed into a 500 ml glass bottle and sealed. This was placed in ice water and cooled to 4 ° C. in about 10 minutes to prepare a barley-containing preservative (present product 1).

[実施例2]大麦押麦入りプレザーブの調製−本発明品2
ガラス製丸底フラスコ(容量2000ml)に、大麦押麦105g、水315gを入れ、テフロン(デュポン社、登録商標)翼(直径13cm半円形、厚さ2mm)で毎分60回転の速度で攪拌しながら80℃、5分間の加熱を行った。加熱後直ちに、氷水に容器全体を浸すことにより約15分間で4℃に冷却した。
[Example 2] Preparation of a preservative containing barley oats-Invention product 2
A glass round-bottom flask (volume: 2000 ml) is charged with 105 g of barley oats and 315 g of water and stirred with a Teflon (DuPont, registered trademark) wing (diameter 13 cm, semicircular, thickness 2 mm) at a rate of 60 revolutions per minute. Heating was performed at 80 ° C. for 5 minutes. Immediately after heating, the whole vessel was cooled to 4 ° C. in about 15 minutes by immersing it in ice water.

この混合物にビートグラニュー糖164g、クエン酸2.5g、グアガム0.7g、キサンタンガム0.3gと水463gが混合された分散液を添加し、毎分60回転の速度で攪拌を行いながら5分間加熱した。55℃達温時に0.02MPaまで減圧し、脱気を行い、常圧に戻した後、90〜95℃、10分間加熱殺菌の後、500ml入りガラス瓶に分注して密栓した。これを氷水に入れて約10分間で4℃まで冷却し、大麦入りプレザーブ(本発明品2)を調製した。   To this mixture was added a dispersion of 164 g of beet granulated sugar, 2.5 g of citric acid, 0.7 g of guar gum, 0.3 g of xanthan gum and 463 g of water, and heated for 5 minutes while stirring at a speed of 60 revolutions per minute. did. When the temperature reached 55 ° C., the pressure was reduced to 0.02 MPa, deaeration was performed, and the pressure was returned to normal pressure. After sterilization by heating at 90 to 95 ° C. for 10 minutes, the solution was dispensed into a 500 ml glass bottle and sealed. This was put into ice water and cooled to 4 ° C. in about 10 minutes to prepare a barley-containing preservative (present product 2).

[実施例3]大麦押麦入りプレザーブの調製−本発明品3
ガラス製丸底フラスコ(容量2000ml)に、大麦押麦105g、水126gを入れ、撹拌を行わずに、80℃、10分間加熱した。加熱後直ちに、4℃に冷却した水647gを添加したところ、穀物同士が緩くブロック状の塊を形成したので、5分間の撹拌を行ったところ、穀物粒は容易に分離し、水中に分散した(約23℃)。
[Example 3] Preparation of a preservative containing barley oats-Product 3 of the present invention
A glass round-bottom flask (volume: 2000 ml) was charged with 105 g of barley oats and 126 g of water, and heated at 80 ° C. for 10 minutes without stirring. Immediately after heating, when 647 g of water cooled to 4 ° C. was added, the grains loosely formed a block-like lump. Therefore, when stirring was performed for 5 minutes, the grains were easily separated and dispersed in water. (About 23 ° C.).

この混合物にビートグラニュー糖164g、クエン酸2.5g、グアガム0.7g、キサンタンガム0.3gを添加し、毎分60回転の速度で攪拌を行いながら5分間加熱した。55℃達温時に0.02MPaまで減圧し、脱気を行い、常圧に戻した後、90〜95℃、10分間加熱殺菌の後、500ml入りガラス瓶に分注して密栓した。これを氷水に入れて約10分間で4℃まで冷却し、大麦入りプレザーブ(本発明品3)を調製した。   To this mixture, 164 g of beet granulated sugar, 2.5 g of citric acid, 0.7 g of guar gum, and 0.3 g of xanthan gum were added and heated for 5 minutes while stirring at a speed of 60 revolutions per minute. When the temperature reached 55 ° C., the pressure was reduced to 0.02 MPa, deaeration was performed, and the pressure was returned to normal pressure. After sterilization by heating at 90 to 95 ° C. for 10 minutes, the solution was dispensed into a 500 ml glass bottle and sealed. This was put into ice water and cooled to 4 ° C. in about 10 minutes to prepare a barley-containing preservative (Product 3 of the present invention).

[実施例4]鳩麦入りプレザーブの調製−本発明品4
ガラス製丸底フラスコ(容量2000ml)に、鳩麦105g、水315gを入れ、テフロン(デュポン社、登録商標)翼(直径13cm半円形、厚さ2mm)で毎分60回転の速度で攪拌しながら80℃、5分間の加熱を行った。加熱後直ちに、氷水に容器全体を浸すことにより約15分間で4℃に冷却した。
[Example 4] Preparation of a preservative containing pigeons-Product 4 of the present invention
A glass round bottom flask (volume: 2000 ml) is charged with 105 g of pigeon and 315 g of water, and stirred with a Teflon (DuPont, registered trademark) wing (diameter 13 cm semicircular, thickness 2 mm) at a speed of 60 revolutions per minute. Heating was performed at 5 ° C. for 5 minutes. Immediately after heating, the whole vessel was cooled to 4 ° C. in about 15 minutes by immersing it in ice water.

この混合物にビートグラニュー糖164g、クエン酸2.5g、グアガム0.7g、キサンタンガム0.3gと水463gが混合された分散液を添加し、毎分60回転の速度で攪拌を行いながら5分間加熱した。55℃達温時に0.02MPaまで減圧し、脱気を行い、常圧に戻した後、90〜95℃、10分間加熱殺菌の後、500ml入りガラス瓶に分注して密栓した。これを4℃まで冷却し、鳩麦入りプレザーブ(本発明品4)を調製した。   To this mixture was added a dispersion of 164 g of beet granulated sugar, 2.5 g of citric acid, 0.7 g of guar gum, 0.3 g of xanthan gum and 463 g of water, and heated for 5 minutes while stirring at a speed of 60 revolutions per minute. did. When the temperature reached 55 ° C., the pressure was reduced to 0.02 MPa, deaeration was performed, and the pressure was returned to normal pressure. After sterilization by heating at 90 to 95 ° C. for 10 minutes, the solution was dispensed into a 500 ml glass bottle and sealed. This was cooled to 4 ° C., and a preservative containing pigeon wheat (Invention product 4) was prepared.

[実施例5]黒米入りプレザーブの調製−本発明品5
ガラス製丸底フラスコ(容量2000ml)に、黒米105g、水315gを入れ、テフロン(デュポン社、登録商標)翼(直径13cm半円形、厚さ2mm)で毎分60回転の速度で攪拌しながら80℃、5分間の加熱を行った。加熱後直ちに、氷水に容器全体を浸すことにより約15分間で4℃に冷却した。
[Example 5] Preparation of black rice containing preserve-Invention product 5
A glass round bottom flask (volume 2000 ml) was charged with 105 g of black rice and 315 g of water, and stirred with a Teflon (DuPont, registered trademark) wing (diameter 13 cm semicircular, thickness 2 mm) at a rate of 60 revolutions per minute. Heating was performed at 5 ° C. for 5 minutes. Immediately after heating, the whole vessel was cooled to 4 ° C. in about 15 minutes by immersing it in ice water.

この混合物にビートグラニュー糖164g、クエン酸2.5g、グアガム0.7g、キサンタンガム0.3gと水463gが混合された分散液を添加し、毎分60回転の速度で攪拌を行いながら5分間加熱した。55℃達温時に0.02MPaまで減圧し、脱気を行い、常圧に戻した後、90〜95℃、10分間加熱殺菌の後、500ml入りガラス瓶に分注して密栓した。これを氷水に入れて約10分間で4℃まで冷却し、黒米入りプレザーブ(本発明品5)を調製した。   To this mixture was added a dispersion of 164 g of beet granulated sugar, 2.5 g of citric acid, 0.7 g of guar gum, 0.3 g of xanthan gum and 463 g of water, and heated for 5 minutes while stirring at a speed of 60 revolutions per minute. did. When the temperature reached 55 ° C., the pressure was reduced to 0.02 MPa, deaeration was performed, and the pressure was returned to normal pressure. After sterilization by heating at 90 to 95 ° C. for 10 minutes, the solution was dispensed into a 500 ml glass bottle and sealed. This was put into ice water and cooled to 4 ° C. in about 10 minutes to prepare a black rice preserve (Product 5 of the present invention).

[実施例6]赤米入りプレザーブの調製−本発明品6
ガラス製丸底フラスコ(容量2000ml)に、赤米105g、水315gを入れ、テフロン(デュポン社、登録商標)翼(直径13cm半円形、厚さ2mm)で毎分60回転の速度で攪拌しながら80℃、5分間の加熱を行った。加熱後直ちに、氷水に容器全体を浸すことにより約15分間で4℃に冷却した。
[Example 6] Preparation of red rice-containing prasab-product 6 of the present invention
A glass round bottom flask (volume: 2000 ml) is charged with 105 g of red rice and 315 g of water, and stirred with a Teflon (DuPont, registered trademark) wing (diameter 13 cm, semicircular, thickness 2 mm) at a rate of 60 revolutions per minute. Heating was performed at 80 ° C. for 5 minutes. Immediately after heating, the whole vessel was cooled to 4 ° C. in about 15 minutes by immersing it in ice water.

この混合物にビートグラニュー糖164g、クエン酸2.5g、グアガム0.7g、キサンタンガム0.3gと水463gが混合された分散液を添加し、毎分60回転の速度で攪拌を行いながら5分間加熱した。55℃達温時に0.02MPaまで減圧し、脱気を行い、常圧に戻した後、90〜95℃、10分間加熱殺菌の後、500ml入りガラス瓶に分注して密栓した。これを氷水に入れて約10分間で4℃まで冷却し、赤米入りプレザーブ(本発明品6)を調製した。   To this mixture was added a dispersion of 164 g of beet granulated sugar, 2.5 g of citric acid, 0.7 g of guar gum, 0.3 g of xanthan gum and 463 g of water, and heated for 5 minutes while stirring at a speed of 60 revolutions per minute. did. When the temperature reached 55 ° C., the pressure was reduced to 0.02 MPa, deaeration was performed, and the pressure was returned to normal pressure. After sterilization by heating at 90 to 95 ° C. for 10 minutes, the solution was dispensed into a 500 ml glass bottle and sealed. This was put into ice water and cooled to 4 ° C. in about 10 minutes to prepare a red rice-containing pleave (invention product 6).

[実施例7]複数種穀物入りミックスフルーツプレザーブの調製−本発明品7
ガラス製丸底フラスコ(容量2000ml)に、大麦12.6g、キビ12.6g、アワ12.6g、ヒエ7.35g、ヒユ7.35g、水75gを入れ、テフロン(デュポン社、登録商標)翼(直径13cm半円形、厚さ2mm)で毎分60回転の速度で攪拌しながら80℃、5分間の加熱を行った。
[Example 7] Preparation of mixed fruit preserves containing multiple types of grains-Product 7 of the present invention
Place 12.6 g of barley, 12.6 g of millet, 12.6 g of millet, 7.35 g of millet, 7.35 g of millet, 75 g of water in a glass round bottom flask (capacity 2000 ml), and Teflon (DuPont, registered trademark) wing. Heating was performed at 80 ° C. for 5 minutes while stirring at a speed of 60 revolutions per minute (diameter 13 cm semicircular, thickness 2 mm).

加熱後直ちに、氷水に容器全体を浸すことにより約15分間で4℃に冷却した。この混合物にビートグラニュー糖14g、クエン酸3gと水100gが混合された分散液を添加し、これに市販のシロップ入りリンゴ缶詰を12mmにダイスカットを行ったもの315g、市販のシロップ入り黄桃缶詰を12mmにダイスカットを行ったもの315g、水64g、ビートグラニュー糖100g、乳酸カルシウム1g、グアガム0.5g、キサンタンガム0.2g、スクラロース0.05gを加え、毎分60回転の速度で攪拌を行いながら5分間加熱した。   Immediately after heating, the whole vessel was cooled to 4 ° C. in about 15 minutes by immersing it in ice water. To this mixture was added a dispersion of 14 g of beet granulated sugar, 3 g of citric acid and 100 g of water, and then 315 g of a canned apple with a commercially available syrup cut to 12 mm, a canned yellow peach with a commercially available syrup 315g, 12g of water, 64g of water, 100g of beet granulated sugar, 1g of calcium lactate, 0.5g of guar gum, 0.2g of xanthan gum, 0.05g of sucralose, and stirred at a speed of 60 revolutions per minute For 5 minutes.

55℃達温時に0.02MPaまで減圧し、脱気を行い、常圧に戻した後、リンゴ香料5gを添加、90〜95℃、10分間加熱殺菌の後、500ml入りガラス瓶に分注して密栓した。これを氷水に入れて約10分間で4℃まで冷却し、複数種穀物入りミックスフルーツプレザーブ(本発明品7)を調製した。   Depressurize to 0.02 MPa when the temperature reaches 55 ° C., deaerate, return to normal pressure, add 5 g of apple flavor, sterilize by heating at 90 to 95 ° C. for 10 minutes, and dispense into a 500 ml glass bottle. Sealed. This was put into ice water and cooled to 4 ° C. in about 10 minutes to prepare a mixed fruit preserve (multi-type cereal) 7 according to the present invention.

[実施例8]複数種穀物入りミックスフルーツプレザーブの調製−本発明品8
ステンレス製丸底タンク(容量500l)に、大麦12.6kg、キビ12.6kg、アワ12.6kg、ヒエ7.35kg、ヒユ7.35kg、水75kgを入れ、テフロン(デュポン社、登録商標)翼(直径40cm半円形、厚さ8mm)で毎分60回転の速度で攪拌しながら80℃、5分間の加熱を行った。
[Example 8] Preparation of mixed fruit preserves containing multiple grains-Product 8 of the present invention
Put 12.6 kg of barley, 12.6 kg of millet, 12.6 kg of millet, 7.35 kg of millet, 7.35 kg of millet, 75 kg of water in a stainless steel round bottom tank (capacity 500 l), and Teflon (DuPont, registered trademark) wing Heating was performed at 80 ° C. for 5 minutes while stirring at a speed of 60 revolutions per minute (diameter 40 cm semicircular, thickness 8 mm).

加熱後直ちに、氷水に容器全体を浸すことにより約25分間で4℃に冷却した。この混合物にビートグラニュー糖14kg、クエン酸3kgと水100kgが混合された分散液を添加し複数種穀物混合物を調製した。   Immediately after heating, the entire vessel was cooled to 4 ° C. in about 25 minutes by immersing it in ice water. To this mixture was added a dispersion in which 14 kg of beet granulated sugar, 3 kg of citric acid and 100 kg of water were mixed to prepare a multi-grain mixture.

これとは別に、市販のシロップ入りリンゴ缶詰を12mmにダイスカットを行ったもの315kg、市販のシロップ入り黄桃缶詰を12mmにダイスカットを行ったもの315kg、水64kg、ビートグラニュー糖100kg、乳酸カルシウム1kg、グアガム0.5kg、キサンタンガム0.2kg、スクラロース0.05kgを入れたステンレス製丸底タンク(容量2000l)に、上記の複数種穀物混合物を添加し、毎分60回転の速度で攪拌を行いながら5分間加熱した。   Separately, 315 kg of canned apples with syrup cut to 12 mm, 315 kg of canned peaches with syrup cut to 12 mm, 64 kg of water, 100 kg of beet granulated sugar, calcium lactate The above-mentioned multi-grain mixture is added to a stainless steel round bottom tank (capacity 2000 l) containing 1 kg, 0.5 kg of guar gum, 0.2 kg of xanthan gum and 0.05 kg of sucralose, and stirred at a speed of 60 revolutions per minute. For 5 minutes.

55℃達温時に0.02MPaまで減圧し、脱気を行い、常圧に戻した後、リンゴ香料5kgを添加、90〜95℃、10分間加熱殺菌の後、500ml入りガラス瓶に分注して密栓した。これを氷水に入れて約10分間で4℃まで冷却し、複数種穀物入りミックスフルーツプレザーブ(本発明品8)を調製した。   Depressurize to 0.02 MPa when the temperature reaches 55 ° C., deaerate, return to normal pressure, add 5 kg of apple flavor, sterilize by heating at 90-95 ° C. for 10 minutes, and dispense into a 500 ml glass bottle. Sealed. This was put in ice water and cooled to 4 ° C. in about 10 minutes to prepare a mixed fruit preserve (multi-type cereal) 8 according to the present invention.

[比較例1]大麦入りプレザーブの調製−比較品1
ガラス製丸底フラスコ(容量2000ml)に、大麦押麦105g、水778g、ビートグラニュー糖164g、クエン酸2.5g、グアガム0.7g、キサンタンガム0.3gを入れ、テフロン(デュポン社、登録商標)翼(直径13cm半円形、厚さ2mm)で毎分60回転の速度で攪拌しながら80℃、5分間の加熱を行った。
[Comparative Example 1] Preparation of barley-containing plazab-Comparative product 1
A glass round bottom flask (capacity: 2000 ml) is charged with 105 g of barley oats, 778 g of water, 164 g of beet granulated sugar, 2.5 g of citric acid, 0.7 g of guar gum, 0.3 g of xanthan gum, and Teflon (registered trademark) wing. Heating was performed at 80 ° C. for 5 minutes while stirring at a speed of 60 revolutions per minute (diameter 13 cm semicircular, thickness 2 mm).

加熱後直ちに、氷水に容器全体を浸すことにより約15分間で4℃に冷却した後、再び加熱を開始し、55℃達温時に0.02MPaまで減圧し、脱気を行い、常圧に戻した後、90〜95℃、10分間加熱殺菌の後、500ml入りガラス瓶に分注して密栓した。これを氷水に入れて約10分間で4℃まで冷却し、大麦入りプレザーブ(比較品1)を調製した。   Immediately after heating, the whole vessel is immersed in ice water, cooled to 4 ° C in about 15 minutes, then heated again, depressurized to 0.02 MPa when the temperature reaches 55 ° C, deaerated, and returned to normal pressure. After sterilization by heating at 90 to 95 ° C. for 10 minutes, the solution was dispensed into a 500 ml glass bottle and sealed. This was placed in ice water and cooled to 4 ° C. in about 10 minutes to prepare a barley-containing preserve (Comparative Product 1).

[比較例2]鳩麦入りプレザーブの調製−比較品2
ガラス製丸底フラスコ(容量2000ml)に、鳩麦105g、水778g、ビートグラニュー糖164g、クエン酸2.5g、グアガム0.7g、キサンタンガム0.3gを入れ、テフロン(デュポン社、登録商標)翼(直径13cm半円形、厚さ2mm)で毎分60回転の速度で攪拌しながら80℃、5分間の加熱を行った。
[Comparative Example 2] Preparation of a preservative containing pigeons-Comparative product 2
A glass round bottom flask (volume 2000 ml) is charged with 105 g of pigeon wheat, 778 g of water, 164 g of beet granulated sugar, 2.5 g of citric acid, 0.7 g of guar gum and 0.3 g of xanthan gum, and a Teflon (DuPont, registered trademark) wing ( The sample was heated at 80 ° C. for 5 minutes while stirring at a speed of 60 revolutions per minute in a semicircular diameter of 13 cm and a thickness of 2 mm.

加熱後直ちに、氷水に容器全体を浸すことにより約15分間で4℃に冷却した後、再び加熱を開始し、55℃達温時に0.02MPaまで減圧し、脱気を行い、常圧に戻した後、90〜95℃、10分間加熱殺菌の後、500ml入りガラス瓶に分注して密栓した。これを氷水に入れて約10分間で4℃まで冷却し、鳩麦入りプレザーブ(比較品2)を調製した。   Immediately after heating, the whole vessel is immersed in ice water, cooled to 4 ° C in about 15 minutes, then heated again, depressurized to 0.02 MPa when the temperature reaches 55 ° C, deaerated, and returned to normal pressure. After sterilization by heating at 90 to 95 ° C. for 10 minutes, the solution was dispensed into a 500 ml glass bottle and sealed. This was put into ice water and cooled to 4 ° C. in about 10 minutes to prepare a preservative containing pigeon (Comparative product 2).

[比較例3]黒米入りプレザーブの調製−比較品3
ガラス製丸底フラスコ(容量2000ml)に、黒米105g、水778g、ビートグラニュー糖164g、クエン酸2.5g、グアガム0.7g、キサンタンガム0.3gを入れ、テフロン(デュポン社、登録商標)翼(直径13cm半円形、厚さ2mm)で毎分60回転の速度で攪拌しながら80℃、5分間の加熱を行った。
[Comparative Example 3] Preparation of Prezabu with black rice-Comparative product 3
In a glass round bottom flask (capacity: 2000 ml), 105 g of black rice, 778 g of water, 164 g of beet granulated sugar, 2.5 g of citric acid, 0.7 g of guar gum, 0.3 g of xanthan gum are placed, and a Teflon (DuPont, registered trademark) wing ( The sample was heated at 80 ° C. for 5 minutes while stirring at a speed of 60 revolutions per minute in a semicircular diameter of 13 cm and a thickness of 2 mm.

加熱後直ちに、氷水に容器全体を浸すことにより約10分間で4℃に冷却した後、再び加熱を開始し、55℃達温時に0.02MPaまで減圧し、脱気を行い、常圧に戻した後、90〜95℃、10分間加熱殺菌の後、500ml入りガラス瓶に分注して密栓した。これを氷水に入れて約10分間で4℃まで冷却し、黒米入りプレザーブ(比較品3)を調製した。   Immediately after heating, the whole container is immersed in ice water and cooled to 4 ° C. in about 10 minutes. Then, heating is started again, the pressure is reduced to 0.02 MPa when the temperature reaches 55 ° C., deaeration is performed, and the pressure is returned to normal pressure. After sterilization by heating at 90 to 95 ° C. for 10 minutes, the solution was dispensed into a 500 ml glass bottle and sealed. This was put into ice water and cooled to 4 ° C. in about 10 minutes to prepare a black rice preserve (Comparative Product 3).

[比較例4]赤米入りプレザーブの調製−比較品4
ガラス製丸底フラスコ(容量2000ml)に、赤米105g、水778g、ビートグラニュー糖164g、クエン酸2.5g、グアガム0.7g、キサンタンガム0.3gを入れ、テフロン(デュポン社、登録商標)翼(直径13cm半円形、厚さ2mm)で毎分60回転の速度で攪拌しながら80℃、5分間の加熱を行った。
[Comparative Example 4] Preparation of red rice-containing prazabe-Comparative product 4
A glass round bottom flask (capacity: 2000 ml) is charged with 105 g of red rice, 778 g of water, 164 g of beet granulated sugar, 2.5 g of citric acid, 0.7 g of guar gum, and 0.3 g of xanthan gum, and a Teflon (registered trademark) wing Heating was performed at 80 ° C. for 5 minutes while stirring at a speed of 60 revolutions per minute (diameter 13 cm semicircular, thickness 2 mm).

加熱後直ちに、氷水に容器全体を浸すことにより約15分間で4℃に冷却した後、再び加熱を開始し、55℃達温時に0.02MPaまで減圧し、脱気を行い、常圧に戻した後、90〜95℃、10分間加熱殺菌の後、500ml入りガラス瓶に分注して密栓した。これを氷水に入れて約10分間で4℃まで冷却し、赤米入りプレザーブ(比較品4)を調製した。   Immediately after heating, the whole vessel is immersed in ice water, cooled to 4 ° C in about 15 minutes, then heated again, depressurized to 0.02 MPa when the temperature reaches 55 ° C, deaerated, and returned to normal pressure. After sterilization by heating at 90 to 95 ° C. for 10 minutes, the solution was dispensed into a 500 ml glass bottle and sealed. This was put into ice water and cooled to 4 ° C. in about 10 minutes to prepare a red rice containing preserve (Comparative Product 4).

[比較例5]複数種穀物入りミックスフルーツプレザーブの調製−比較品5
ガラス製丸底フラスコ(容量2000ml)に、大麦12.6g、キビ12.6g、アワ12.6g、ヒエ7.35g、ヒユ7.35g、市販のシロップ入りリンゴ缶詰を12mmにダイスカットを行ったもの315g、市販のシロップ入り黄桃缶詰を12mmにダイスカットを行ったもの315g、水239g、ビートグラニュー糖114g、クエン酸3g、乳酸カルシウム1g、グアガム0.5g、キサンタンガム0.2g、スクラロース0.05gを入れ、テフロン(デュポン社、登録商標)翼(直径13cm半円形、厚さ2mm)で毎分60回転の速度で攪拌しながら80℃、5分間の加熱を行った。
[Comparative Example 5] Preparation of mixed fruit prasab with multiple grains-Comparative product 5
A glass round bottom flask (capacity 2000 ml) was diced to 12.6 g of barley, 12.6 g of millet, 12.6 g of millet, 7.35 g of millet, 7.35 g of millet and 12 cans of commercially available canned apples containing syrup. 315 g, 315 g of a commercially available canned yellow peach with syrup cut to 12 mm, 239 g of water, 114 g of beet granulated sugar, 3 g of citric acid, 1 g of calcium lactate, 0.5 g of guar gum, 0.2 g of xanthan gum, 0.2% of sucralose 05 g was added and heated at 80 ° C. for 5 minutes while stirring with a Teflon (DuPont, registered trademark) blade (diameter 13 cm, semicircular, thickness 2 mm) at a rate of 60 revolutions per minute.

加熱後直ちに、氷水に容器全体を浸すことにより約15分間で4℃に冷却した後、再び加熱を開始し、55℃達温時に0.02MPaまで減圧し、脱気を行い、常圧に戻した後、リンゴ香料5gを添加、90〜95℃、10分間加熱殺菌の後、500ml入りガラス瓶に分注して密栓した。これを氷水に入れて約10分間で4℃まで冷却し、複数種穀物入りミックスフルーツプレザーブ(比較品5)を調製した。   Immediately after heating, the whole vessel is immersed in ice water, cooled to 4 ° C in about 15 minutes, then heated again, depressurized to 0.02 MPa when the temperature reaches 55 ° C, deaerated, and returned to normal pressure. Thereafter, 5 g of apple flavor was added, and after heat sterilization at 90 to 95 ° C. for 10 minutes, it was dispensed into a 500 ml glass bottle and sealed. This was placed in ice water and cooled to 4 ° C. in about 10 minutes to prepare a mixed fruit preserve (multiple product 5) containing multiple grains.

[比較例6]複数種穀物入りミックスフルーツプレザーブの調製−比較品6
ステンレス製丸底タンク(容量500リットル)に、大麦12.6kg、キビ12.6kg、アワ12.6kg、ヒエ7.35kg、ヒユ7.35kg、市販のシロップ入りリンゴ缶詰を12mmにダイスカットを行ったもの315kg、市販のシロップ入り黄桃缶詰を12mmにダイスカットを行ったもの315kg、水239kg、ビートグラニュー糖114kg、クエン酸3kg、乳酸カルシウム1kg、グアガム0.5kg、キサンタンガム0.2kg、スクラロース0.05kgを入れ、テフロン(デュポン社、登録商標)翼(直径40cm半円形、厚さ8mm)で毎分60回転の速度で攪拌しながら80℃、5分間の加熱を行った。
[Comparative Example 6] Preparation of mixed fruit purezab with multiple grains-Comparative product 6
Dice cut barley 12.6kg, millet 12.6kg, millet 12.6kg, millet 7.35kg, millet 7.35kg, canned apples with syrup on a stainless steel round bottom tank (capacity 500 liters) 315 kg, 315 kg of canned yellow peach with canned syrup, 315 kg of water, 239 kg of water, 114 kg of beet granulated sugar, 3 kg of citric acid, 1 kg of calcium lactate, 0.5 kg of guar gum, 0.2 kg of xanthan gum, 0 sucralose .05 kg was charged and heated at 80 ° C. for 5 minutes while stirring with a Teflon (DuPont, registered trademark) blade (diameter 40 cm, semicircular, thickness 8 mm) at a rate of 60 revolutions per minute.

加熱後直ちに、氷水に容器全体を浸すことにより約25分間で4℃に冷却した後、再び加熱を開始し、55℃達温時に0.02MPaまで減圧し、脱気を行い、常圧に戻した後、リンゴ香料5kgを添加、90〜95℃、10分間加熱殺菌の後、500ml入りガラス瓶に分注して密栓した。これを氷水に入れて約10分間で4℃まで冷却し、複数種穀物入りミックスフルーツプレザーブ(比較品6)を調製した。   Immediately after heating, the whole vessel is immersed in ice water, cooled to 4 ° C in about 25 minutes, then heated again, depressurized to 0.02 MPa when the temperature reaches 55 ° C, deaerated, and returned to normal pressure. After that, 5 kg of apple fragrance was added, sterilized by heating at 90 to 95 ° C. for 10 minutes, and dispensed into a 500 ml glass bottle and sealed. This was put into ice water and cooled to 4 ° C. in about 10 minutes to prepare a mixed fruit preserve (multiple product 6) containing multiple grains.

〔評 価〕
本発明品1〜8、および比較品1〜6について、10名の良く訓練されたパネルにより、外観観察及び官能評価を行った。結果を表1に示す。
[Evaluation]
Appearance observation and sensory evaluation were performed on the inventive products 1 to 8 and the comparative products 1 to 6 by 10 well-trained panels. The results are shown in Table 1.

Figure 0005904669
Figure 0005904669

本発明品1および3は加熱後、水添加時に緩いブロック状の塊が形成するも撹拌により穀物粒は容易に分離し、水中に分散した。実施例2、4〜8は加熱後、冷却時に穀物粒の結着がなく、良好に分離していた。   Inventive products 1 and 3 formed a loose block-like lump upon addition of water after heating, but the grains were easily separated by stirring and dispersed in water. In Examples 2, 4 to 8, there was no cereal grain binding at the time of cooling after heating, and they were well separated.

また、官能評価の結果、10名全員が本発明品1〜6のプレザーブは、穀物粒の一つ一つが、ぷりぷりとした、好ましい新食感を有し、満足感があると評価した。   In addition, as a result of sensory evaluation, all 10 persons evaluated that the preserves of the products 1 to 6 of the present invention had a favorable new texture with each grain being satisfying and satisfying.

さらに、異なる穀物粒および果実を含有する本発明品7および8のプレザーブは、穀物粒の一つ一つが、弾力のある、好ましい新食感を有し、異なる穀物の複雑な香味がリンゴと桜桃の食感との対比が好ましく、満足感があると評価した。   Furthermore, the preserves of the products 7 and 8 of the present invention containing different cereal grains and fruits each have an elastic and favorable new texture, and the complex flavors of different cereals are apple and cherry peach. The food texture was preferably compared with the food texture and evaluated as satisfactory.

一方、比較品1〜6はα化が不十分で膨潤不足から、55℃脱気工程後に撹拌しても穀物が沈殿していた。また、官能評価でも、比較品1は大麦粒の中心部に硬さが残り、固く、違和感のある食感であった。比較品2は全体的に固く、食用に供する状態ではなかった。また、比較品3および4は生米の固い食感であり、食用に供する状態ではなかった。さらに比較品5および6は穀物粒の中心部に硬さが残り、固く、違和感のある食感であった。   On the other hand, comparative products 1 to 6 were insufficiently pregelatinized and insufficiently swollen, so that grains were precipitated even after stirring at the 55 ° C. degassing step. Moreover, also in sensory evaluation, the comparative product 1 was hard in the center part of the barley grain, and it was hard and was uncomfortable. Comparative product 2 was generally hard and not in an edible state. In addition, Comparative products 3 and 4 had a hard texture of raw rice, and were not in a state of being edible. Further, Comparative products 5 and 6 had a hard texture in the center of the grain and were hard and uncomfortable.

以上の結果より、大麦、鳩麦、黒米、赤米、黍(キビ)、粟(アワ)、稗(ヒエ)、ヒユなどを原料に本発明の方法により調製されたプレザーブは、穀物粒の一つ一つが、ぷりぷりとした、好ましい新食感を有し、満足感があり、十分なα化が行えるとともに作業的にも十分、工業的製法として使用しうるものであることが確認された。   Based on the above results, the preserves prepared by the method of the present invention using barley, pigeon, black rice, red rice, millet, millet, millet, hail, etc. as a raw material are one of the grain grains. It was confirmed that one of them had a crisp and favorable new texture, was satisfactory, was able to be sufficiently pregelatinized, and could be used as an industrial production method sufficiently in terms of work.

さらに、本発明品1〜8のプレザーブを4℃にて1ヶ月間保存し、外観観察、官能評価を行ったが、いずれも外観の変化なく、官能評価においても製造直後と遜色のない良好な食感が維持されていることが確認された。このような優れた物性と食感を有する穀物加工品はこれまでなく、本願発明の穀物加工品は新たな付加価値が付与されたプレザーブであることが確認された。   Furthermore, the preserves of the products 1 to 8 of the present invention were stored at 4 ° C. for 1 month, and appearance observation and sensory evaluation were performed. However, none of the appearance changes and the sensory evaluation is not inferior to that immediately after production. It was confirmed that the texture was maintained. There has never been a processed grain product having such excellent physical properties and texture, and it has been confirmed that the processed grain product of the present invention is a preserve with a new added value.

結論として、本願発明の穀物加工品は、好ましい新食感と長期間安定な優れた物性と食感を生かして、種々の加工食品に対して広く応用が可能であり、嗜好性と健康志向を兼ね備えた極めて良好な食品素材を提供することができることが確認された。   In conclusion, the processed grain product of the present invention can be widely applied to various processed foods by taking advantage of the favorable new food texture and excellent physical properties and texture stable for a long period of time. It was confirmed that it was possible to provide a very good food material that had both.

[実施例9]
本発明品1および比較品1の大麦プレザーブ、本発明品4および比較品2の4品についてそのテクスチャーを測定した。
[Example 9]
The texture of the barley plazab of the present invention product 1 and comparative product 1 and the texture of 4 products of the present invention product 4 and comparative product 2 were measured.

[測定方法]
レオメータ(山電社製:RHEONERII RE2−33005S)を用い、表2に示す条件にてテクスチャーを測定した。測定結果を図1に示す。
[Measuring method]
The texture was measured under the conditions shown in Table 2 using a rheometer (manufactured by Yamaden Co., Ltd .: RHEONER II RE2-30005S). The measurement results are shown in FIG.

Figure 0005904669
Figure 0005904669

図1に示したように、本発明品1の大麦プレザーブは最大荷重2100g(歪率95%時)であるのに対し、比較品1は最大荷重3300g(歪率95%時)であり、かつ、α化が不足しているために固く、本発明品1に比べ最大荷重も大きかった。   As shown in FIG. 1, the barley plaza of the product 1 of the present invention has a maximum load of 2100 g (when the strain rate is 95%), whereas the comparative product 1 has a maximum load of 3300 g (when the strain rate is 95%), and Further, it was hard due to the lack of pregelatinization, and the maximum load was larger than that of the product 1 of the present invention.

一方、本発明品4のハト麦プレザーブは最大荷重8300g(歪率85%時)であるのに対し、比較品2は最大荷重14400g(歪率85%時)であり、かつ、α化が不足しているために非常に固く、本発明品4に比べ最大荷重もかなり大きかった。   On the other hand, the product 4 of the present invention has a maximum load of 8300 g (when the strain rate is 85%), while the comparative product 2 has a maximum load of 14400 g (when the strain rate is 85%) and lacks alpha. Therefore, the maximum load was considerably larger than that of the product 4 of the present invention.

なお、穀物プレザーブにおいて、つぶつぶ感、ぷりぷり感などの好ましい食感を与える最大荷重の範囲は、穀物の種類により異なるので、固すぎず、柔らかすぎず、好ましい範囲とすればよい。   It should be noted that the range of the maximum load that gives a favorable texture such as a crushing feeling and a feeling of squeezing in a grain pleasing differs depending on the type of grain, so it is not too hard and not too soft, and may be in a preferred range.

[実施例10] 穀物プレザーブ入りヨーグルト
市販のプレーンヨーグルト70部に本発明品1〜3、比較品1の大麦入りプレザーブをそれぞれ30部配合し、専門パネラー10名による官能評価を行った。
[Example 10] Yogurt with cereal prabes 30 parts of the present invention products 1 to 3 and comparative product 1 with barley prabes were blended with 70 parts of commercially available plain yogurt, and sensory evaluation was conducted by 10 professional panelists.

その結果を表3に示した。   The results are shown in Table 3.

Figure 0005904669
Figure 0005904669

表3から明らかなように、専門パネラー10名全員が、本発明品1〜3の大麦押麦入りプレザーブを配合したヨーグルトは、穀物粒の一つ一つがぷりぷりとした好ましい新食感があり、ヨーグルト中で独特の存在感を感じさせ、滑らかなヨーグルトとの相性も良く、ヨーグルトの嗜好性を向上させていると評価した。また、比較品1の大麦押麦プレザーブを配合したヨーグルトは穀物粒の中心に硬さが残るか、全体的に固く、食用に供するには不十分であると評価した。   As can be seen from Table 3, all 10 expert panelists blended the preservatives with barley oats of the products 1 to 3 of the present invention had a preferable new texture with each grain of grains being fresh, and yogurt It was evaluated that it had a unique presence in it, had good compatibility with smooth yogurt, and improved the taste of yogurt. Moreover, it was evaluated that the yogurt blended with the barley oat prazabe of the comparative product 1 remained hard at the center of the grain or was hard as a whole and insufficient for serving.

[実施例11] 穀物プレザーブ入りココナッツミルクプリン
水180mlに粉ゼラチン20gを入れ、膨潤させ、電子レンジで500W、20秒加熱し、溶解させゼラチン溶液を調製した。次に鍋に市販ココナッツミルク600mlおよび牛乳400mlを入れ良く撹拌した後、上白糖150gを加え、溶解し、加熱し、沸騰直前で加熱を止め、ゼラチン溶液を加え、混合溶解した(ココナッツプリン基材)。
[Example 11] Coconut milk pudding with cereal prasebue 20 g of powdered gelatin was placed in 180 ml of water, swollen, heated in a microwave oven at 500 W for 20 seconds, and dissolved to prepare a gelatin solution. Next, after putting 600 ml of commercially available coconut milk and 400 ml of milk into a pan and stirring well, 150 g of white sucrose was added, dissolved and heated, the heating was stopped immediately before boiling, the gelatin solution was added and mixed and dissolved (coconut pudding base material ).

得られたココナッツプリン基材をステンレス製ボウルに移し、回りを氷水で冷やしながら、撹拌したもの250mlを360ml入りガラス容器に充填した。   The obtained coconut pudding base material was transferred to a stainless steel bowl, and while being cooled with ice water, 250 ml of the stirred material was filled into a 360 ml glass container.

充填直後のまだ、緩い状態で本発明品1および4、比較品1および2のプレザーブを60g添加混合し、冷蔵庫にて冷却し、穀物プレザーブ入りココナッツミルクプリンを調製した。   In a loose state immediately after filling, 60 g of the prabes of the products 1 and 4 of the present invention and the comparative products 1 and 2 were added and mixed, cooled in a refrigerator, and a coconut milk pudding containing a cereal blazer was prepared.

得られた穀物プレザーブ入りココナッツミルクプリンに対して専門パネラー10名による官能評価を行った。その結果を表4に示した。   The obtained coconut milk pudding containing the grain plaza was subjected to sensory evaluation by 10 expert panelists. The results are shown in Table 4.

Figure 0005904669
Figure 0005904669

表4の結果から明らかなように、本発明品1および4の大麦押麦プレザーブを混合したココナッツミルクプリンは大麦押麦のぷりぷりとした、好ましい新食感および香味がココナッツプリンの口当たりとの相性が良く、満足感を与えたとの評価であった。   As is apparent from the results in Table 4, the coconut milk pudding mixed with the barley pressed oats of the present invention products 1 and 4 has a good fresh texture and flavor that is compatible with the taste of coconut pudding. It was evaluation that gave satisfaction.

一方、比較品1は、大麦押麦粒の中心部に硬さが残り、違和感のある食感であり、比較品2は全体的に固く、食用に供する状態ではなかった。   On the other hand, the comparative product 1 has a texture which remains uncomfortable with the hardness remaining at the center of the barley oat grain, and the comparative product 2 is generally hard and not in an edible state.

[実施例12] 穀物プレザーブ混合アイスクリーム
市販アイスクリーム200gに対して、本発明品2、5、6、比較品1、3、4のプレザーブを25g加え、市販メープルシロップ10gを掛け、専門パネラー10名による官能評価を行った。その結果を表5に示した。
[Example 12] Grain blazer mixed ice cream 25 g of the present invention products 2, 5, 6, comparative products 1, 3, 4 are added to 200 g of commercially available ice cream, and 10 g of commercially available maple syrup is added to the panel 10 Sensory evaluation by name was performed. The results are shown in Table 5.

Figure 0005904669
Figure 0005904669

表5の結果から明らかなように、本発明品2のプレザーブを混合したバニラアイスクリームは、大麦押麦粒のぷりぷりとした、好ましい新食感がバニラアイスとの相性も良く、大麦押麦のプレーンな香味にメープルシロップの風味が加わり、単調なバニラアイスに複雑さを与え、満足感が得られたとの評価であった。   As is clear from the results in Table 5, the vanilla ice cream mixed with the prasab of the product 2 of the present invention has a good fresh texture that is good with the vanilla ice cream and is a plain barley pressed oat. It was evaluated that the flavor of maple syrup was added to the flavor, adding complexity to the monotonous vanilla ice cream and satisfying.

また、本発明品5のプレザーブを混合したバニラアイスクリームは、黒米粒のぷりぷりとした、好ましい新食感はバニラアイスとの相性も良く、黒米の力強い香味にメープルシロップの風味が加わり、単調なバニラアイスに複雑さを与え、満足感が得られたとの評価であった。   In addition, the vanilla ice cream mixed with the preservative of the product 5 of the present invention is a black rice grain, and the preferred new texture is well-matched with vanilla ice, and the flavor of maple syrup is added to the strong flavor of black rice, making it monotonous. It was evaluated that the vanilla ice cream was complicated and satisfied.

また、本発明品6のプレザーブを混合したバニラアイスクリームは、赤米粒のぷりぷりとした、好ましい新食感はバニラアイスとの相性も良く、赤米の野性的な香味にメープルシロップの風味が加わり、単調なバニラアイスに複雑さを与え、満足感が得られたとの評価であった。   In addition, the vanilla ice cream mixed with the prazabu of the product 6 of the present invention is a red rice grain, and the preferred new texture is well-matched with vanilla ice, and the flavor of maple syrup is added to the wild flavor of red rice. It was evaluated that the monotonous vanilla ice cream was complicated and satisfied.

一方、比較品1のプレザーブを混合したバニラアイスクリームは、黒米の固い食感が残り、食用に供する状態ではなく、比較品3のプレザーブを混合したバニラアイスクリームは、赤米の固い食感が残り、食用に供する状態ではなく、比較品4のプレザーブを混合したバニラアイスクリームは、穀物粒の中心部に硬さが残り、固く、違和感のある食感で食用に供する状態ではなかったとの評価であった。   On the other hand, the vanilla ice cream mixed with the prazabe of the comparative product 1 has a hard texture of black rice, and is not in a state to be used for food, but the vanilla ice cream mixed with the prazabu of the comparative product 3 has a hard texture of red rice. The remaining vanilla ice cream mixed with the preservative of comparative product 4 is not in a state of being used for edible, evaluation that it was not in a state of being used for edible with a hard and uncomfortable texture, with the hardness remaining in the center of the grain Met.

Claims (4)

(a−1)α化した穀物種子、(b)糖類および(c)水、(d)酸味料および(e)増粘剤を混合して加熱する工程を含む穀物種子入りプレザーブの製造方法であって、穀物種子入りプレザーブ全体の質量に対して、(a−1)α化した穀物種子12.2〜40質量%、(b)糖類を1025質量%、(c)水を35.0〜61.9質量%、(d)酸味料を0.01〜3質量%および(e)増粘剤を0.0670.5質量%含有し、下記の工程により製造されることを特徴とする穀物種子入りプレザーブの製造方法:
工程前記(a−1)、(b)、(c)、(d)および(e)を含有する混合物を得る工程、
工程2:工程1で得られた混合物を、撹拌しながら、加熱を行い、55℃達温時に脱気を行い、常圧に戻した後、さらに加熱を続け、80〜100℃の範囲内の温度で加熱殺菌する工程、
工程3:工程2の加熱殺菌後、直ちに55℃以下に冷却し、最終的に40℃以下に冷却する工程。
(A-1) a method for producing a preservative containing a grain seed , comprising a step of mixing and heating (a-1) pregelatinized grain seed , (b) sugar and (c) water, (d) acidulant and (e) thickener. And (a-1) 12.2 to 40% by mass of pregelatinized cereal seeds , (b) 10 to 25 % by mass of saccharide, and (c) 35 of water with respect to the mass of the whole grain seed preserve. .0~61.9 wt%, (d) an acidulant contains 0.01 to 3% by weight and (e) a thickener from 0.067 to 0.5% by weight, produced by the following steps A method for producing a cereal seed-containing preserve :
Step 1: The (a-1), (b ), (c), to obtain a mixture containing (d) is your and (e),
Step 2: The mixture obtained in Step 1 is heated with stirring, degassed when the temperature reaches 55 ° C., returned to normal pressure, and further heated to a temperature within the range of 80 to 100 ° C. A process of heat sterilization at a temperature ,
Process 3: The process of cooling to 55 degrees C or less immediately after the heat sterilization of process 2 , and finally cooling to 40 degrees C or less.
(a)穀物種子、(b)糖類、(c)水、(d)酸味料および(e)増粘剤を混合して加熱する工程を含む穀物種子入りプレザーブの製造方法であって、穀物種子入りプレザーブ全体の質量に対して、(a)穀物種子を5〜10質量%、(b)糖類を1025質量%、(c)水を42.274.1質量%、(d)酸味料を0.01〜3質量%および(e)増粘剤を0.0670.5質量%含有し、下記の工程により製造されることを特徴とする穀物種子入りプレザーブの製造方法
工程1:前記(a)および(c)を混合し、撹拌しながら、加熱を行い、55〜100℃の範囲の温度で加熱および殺菌を行った後、直ちに55℃以下に冷却し、α化した穀物種子を得る工程
工程2:工程1で得られたα化した穀物種子に、さらに前記(b)、(d)および(e)を添加・混合し、加熱を行い、55℃達温時に脱気を行い、常圧に戻した後、さらに加熱を続け、80〜100℃の範囲内の温度で加熱殺菌する工程、
工程3:工程2の加熱殺菌後、直ちに55℃以下に冷却し、最終的に40℃以下に冷却する工程。
(A) Grain seeds, (b) sugars, (c) water, a (d) acidulant and (e) method for producing cereal seeds containing Preserve comprising heating a mixture of thickener, cereal seeds against incoming Preserve total weight, (a) a cereal seeds 5-10 wt%, (b) a saccharide 10 to 25 wt%, (c) water 42.2 to 74.1 wt%, (d) A method for producing a cereal seed-containing preserve comprising 0.01 to 3% by mass of a sour agent and 0.067 to 0.5 % by mass of a thickener (e) and produced by the following steps:
Step 1: The mixture of (a) Contact and (c), with stirring, subjected to heat, after the heating and sterilization at a temperature in the range of 55 to 100 ° C., and immediately cooled to 55 ° C. or less, alpha Obtaining cereal seeds ,
Step 2: α phased cereal seeds obtained in step 1, further wherein (b), was added and mixed (d) is your and (e), performing heat performs degassing at 55 ° C. ItaruAtsushi, After returning to normal pressure, further heating and sterilizing at a temperature in the range of 80 to 100 ° C. ,
Process 3: The process of cooling to 55 degrees C or less immediately after the heat sterilization of process 2 , and finally cooling to 40 degrees C or less.
工程1において、55℃以下に冷却する方法として0〜30℃の範囲内の温度の水を(a)および(c)の混合物に加することを特徴とする、請求項2に記載の穀物種子入りプレザーブの製造方法In step 1, characterized in that added pressure to the mixture of the temperature of the water in the range of 0 to 30 ° C. The method of cooling the 55 ° C. or less (a) Contact and (c), according to claim 2 A method for producing a preservative with grain seeds . 請求項1〜のいずれか1項に記載の製造方法で製造された穀物種子入りプレザーブを含有させる飲食品の製造方法 Manufacturing process food or beverage producing method of letting containing cereal seeds containing Preserve produced in according to any one of claims 1-3.
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