JP4326845B2 - Method for producing composite confectionery or composite bread - Google Patents

Description

【００７２】
そして、各チョコレートコーティングビスケットを２０℃と２８℃の温度帯に交互に入れて表面の状態の経時変化を1週間ごとに観察し、１０点評価法で評価を行い、その平均点（端数は四捨五入）を求めた（表中、×：１〜３点、△：４〜５点、○：６〜７点、◎：８〜１０点を表し、点数が高いほどより好ましいことを表す。以下の例においても同じ。）。評価に関しては、チョコレート表面は、ブルーム現象、菓子生地部分は、白色化現象を中心に観察を行った。その結果を併せて表２に示す。
【００７３】
【表２】

【００７４】
表２から、食品素材１及び３を添加したハードビスケットＡ、Ｂは、ハードビスケットＥに比べてチョコレート部分、菓子生地部分共に表面の状態が良好であると判断された。また、食品素材１又は３を薄めて塗布したハードビスケットＣ，ＤもハードビスケットＡ，Ｂよりは効果は弱いものの、ハードビスケットＥに比べて表面の状態が良好であると判断された。このことから、食品素材を使用したハードビスケットは、使用しないものに比べ経時変化が起こりにくくブルームや白色化現象が起こりにくいことがわかる。
【００７５】
そして、得られた各ハードビスケットを２０℃で１ヶ月間保存した後、表３に示す各項目について１５名のパネラーにより官能評価を行った。官能評価は１０点評価法で行い、その平均点（端数は四捨五入）を求めた（表中、×：１〜３点、△：４〜５点、○：６〜７点、◎：８〜１０点を表し、点数が高いほどより好ましいことを表す。以下の例においても同じ。）。その結果を合わせて表３に示す。
【００７６】
【表３】

【００７７】
表３から、食品素材１及び３を添加又は塗布したハードビスケットＡ〜Ｄは、ハードビスケットＥに比べて食感、風味等に優れ、経時変化等の保存性も非常に向上していることが分かる。
【００７８】
実施例１（菓子生地とクリームの複合菓子）
表４に示す配合割合で各原料を用いて、シュー生地とカスタードクリームを常法にしたがって調製し、生地にクリームを注入し複合菓子を作成した。
【００７９】
【表４】

【００８０】
各シュークリームを５℃の冷蔵庫に入れ、経時変化を５日後まで観察し、１０点評価法で評価を行い、その平均点（端数は四捨五入）を求めた。評価に関しては、クリーム部分は、離水の状態、菓子生地部分は、生地の軟化を中心に観察を行った。そして、各シュークリームを５℃で３日間保存したものについてそれぞれ、表５に示す各項目について１５名のパネラーにより官能評価を行った。官能評価は１０点評価法で行い、その平均点を求めた。これらの結果を合わせて表５に示す。
【００８１】
【表５】

【００８２】
表５から、食品素材１及び３を、生地とクリームのいずれにも添加したシュークリームＡ、Ｂは、シュークリームＥに比べて経時変化が少なく、官能検査でも良好な結果となっている。また、シュー生地のみに使用したＣ，クリームのみに使用したＤも、シュー生地Ｅに比べて経時変化、官能検査結果ともに良好であった。このことから、いずれもそれぞれの生地やクリームの中での水分の移行が起こりにくくなっていることがわかる。
【００８３】
実施例２（菓子生地とジャムの複合菓子）
表６に示す配合割合で各原料を用いて、ハードビスケット生地を常法にしたがって調製し、２枚のハードビスケットの間にジャムをサンドし複合菓子を作成した。なお、ジャムにも食品素材を配合したものをつくった。
【００８４】
【表６】

【００８５】
そして、各ジャムサンドビスケットを２０℃と２８℃の温度帯に交互に入れて２週間保存したものと、２０℃で１ヶ月間保存したものについてそれぞれ、表７に示す各項目について１５名のパネラーにより官能評価を行った。官能評価は１０点評価法で行い、その平均点を求めた。その結果を合わせて表７に示す。
【００８６】
【表７】

【００８７】
表７から、食品素材１及び３を添加したジャムサンドビスケットＡ、Ｂは、ジャムサンドビスケットＥに比べていずれの項目においても良好であり、またビスケット生地のみに使用したＣ，及びジャムのみに使用したＤも生地とジャムの両方に使用したものに比べると効果は劣るものの、無使用のジャムサンドビスケットＥに比べて良好な結果となり、効果が確認できた。このことから、通常ジャムからの水分がビスケット生地に移行して、ジャムが固くなり、食感が悪くなったり、ビスケット生地が湿気て食感が悪くなるのが、この食品素材を使用することにより、抑えられたと考えられる。また、このことから、ジャムやビスケット生地の風味を保持し、味が悪くなるのを抑える効果もあるものと考えられる。
【００８８】
実施例３（菓子生地とあんとの複合菓子）
表８に示す配合割合で各原料を用いて、まんじゅう生地を常法にしたがって調製し、更に表８に示す配合割合で各原料を用いて、餡を常法にしたがって調整し、生地で餡を包み、蒸して複合菓子を作成した。なお、餡にはオリゴ糖シラップとして、商品名「フジオリゴ＃４５０」を使用した。
【００８９】
【表８】

【００９０】
そして、各まんじゅうを２０℃３日保存したものと、５℃で１週間保存したものについてそれぞれ、表９に示す各項目について１５名のパネラーにより官能評価を行った。官能評価は１０点評価法で行い、その平均点を求めた。その結果を合わせて表９に示す。
【００９１】
【表９】

【００９２】
表９から、食品素材１及び２を生地に添加したまんじゅうＡ、Ｂは、まんじゅうＥに比べて常温保存、冷蔵保存共に良好な結果となっている。また食品素材１をまんじゅう生地に使用したまんじゅうＣは、生地だけではなく、あんの部分に関してもまんじゅうＥよりも良い結果となっていることから、生地に使用することにより餡からの水分移行が抑制され、あんの食感などが保持されたものと考えられる。同様に食品素材３をあんに使用したまんじゅうＤは、あんだけでなく生地に関してもまんじゅうＥより良い結果となった。これらのことから、生地及び／又はあんに食品素材を使用することにより、水分移行が起こりにくく、経時安定性が増し、外観、食感や風味、味が保持されることがわかった。
【００９３】
参考例２（クリームとチョコレートの複合菓子）
表１０に示す配合割合で各原料を用いて、クリームを内包したチョコレートの複合菓子を作成した。
【００９４】
【表１０】

【００９５】
２０℃と２８℃の温度帯に交互に入れて表面の状態の経時変化を1週間ごとに観察し、１０点評価法で評価を行い、その平均点（端数は四捨五入）を求めた。評価に関しては、チョコレート表面は、ブルーム現象、クリーム部分は、保湿性を中心に観察を行った。その結果を表１１に示す。
【００９６】
【表１１】

【００９７】
表１１から、食品素材２及び３を水あめと置換したチョコレートＡ、Ｂは、チョコレートＥに比べて表面の状態が良好であり、Ｂに関しては、クリームの状態も良好である。これは、チョコレートにとって大敵な水分がクリームの中に保持されているためにチョコレートの状態が保たれているものと考えられる。
【００９８】
また食品素材２又は３をそのまま添加したチョコレートＣ，ＤもチョコレートＥに比べて良好であるが、やはり水分が多くなるに従い、効果が低くなる傾向が見られる。これらのことから、水分をクリームの中に保持する能力が高いほど、ブルーム現象が起こりにくくなっていることがわかる。
【００９９】
そして、得られた各チョコレートを２０℃で３週間保存した後、表１２に示す各項目について１５名のパネラーにより官能評価を行った。官能評価は１０点評価法で行い、その平均点を求めた。その結果を合わせて表１２に示す。
【０１００】
【表１２】

【０１０１】
表１２から、食品素材２及び３を水あめと置換又は添加したチョコレートＡ〜Ｄは、チョコレートＥに比べて食感、風味等に優れ、経時変化等の保存性も向上し、保水効果が高いものほどその効果が顕著であることが分かる。
【０１０２】
実施例４（菓子生地とジャムとチョコレートの複合菓子）
表１３に示す配合割合で各原料を用いて、折りパイ生地を常法にしたがって調製し、焼成前のパイ生地の間に耐熱性のイチゴジャムをサンドし、焼成後のジャムサンドパイにエンローバー用のチョコレートをコーティングし複合菓子を作成した。
【０１０３】
なお、生地形成途中とは生地の折り作業の段階のことでこの時に表面に塗布したものは、１０％溶液にして所定量塗布した。
【０１０４】
【表１３】

【０１０５】
各チョコレートをコーティングしたジャムパイを２０℃に保存し、経時変化を１ヵ月後まで観察し、１０点評価法で評価を行い、その平均点（端数は四捨五入）を求めたそして、各チョコレートをコーティングしたジャムパイを２０℃で２週間保存したものについてそれぞれ、表１４に示す各項目について１５名のパネラーにより官能評価を行った。官能評価は１０点評価法で行い、その平均点を求めた。その結果を合わせて表１４に示す。
【０１０６】
【表１４】

【０１０７】
表１４から、食品素材１及び３を生地とジャムに添加したチョコレートコーティングしたジャムパイＡ、Ｂは、Ｅに比べて明らかに外観や食感、風味等において優れる結果となった。また食品素材３を生地のみに入れたＣでもＥよりも良好な結果となった。また生地形成途中に薄めて塗布したＤでもＥに比べて明らかに良い状態であった。このことから、チョコレートをコーティングしたジャムパイのように複雑な構成の複合菓子においても食品素材を添加することにより、水分や油脂の移行を防ぐことにより、経時変化しにくく、食感、風味が優れ、保存安定性が改善された。
【０１０８】
【発明の効果】
以上説明したように本発明によれば、グルコマンナンを含む水溶液中に、内相にアルカリ水溶液を含むＷ／Ｏ型エマルジョンが均一に分散したｐＨ４〜８の食品素材を、複合菓子類又は複合パン類に所定量配合することにより、水分、油脂の移行を防ぎ、物性、食感、風味等に優れ、保存安定性が効果的に改善された複合菓子類又は複合パン類を提供できる。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method for producing a composite confectionery or a composite bread having improved texture and physical properties by suppressing the transfer of fat and oil components and moisture.
[0002]
[Prior art]
Conventionally, various composite confectionery products obtained by joining confectionery materials such as biscuits and cookies and auxiliary raw materials made of fillings, creams, jams, potatoes and chocolates are known.
[0003]
In these composite confectionery, for example, in a combination of confectionery dough and chocolates, the liquid oil in the confectionery dough mixes with the chocolate cacao butter, the melting point of the chocolate decreases and the bloom phenomenon occurs, In some cases, white spots of fat and oil crystals were generated on the surface of the confectionery dough.
[0004]
In addition, in the combination of confectionery dough and auxiliary raw materials such as fillings, creams, jams, and potatoes, the moisture of the auxiliary raw material is caused by the difference in moisture between the confectionery dough and the auxiliary raw material. , The confectionery dough softens due to moisture, the moisture of secondary ingredients such as creams, jams, and potatoes decreases, and the smoothness is lost, resulting in deterioration of texture and flavor. was there.
[0005]
Similarly, various breads obtained by joining bread doughs such as confectionery bread and auxiliary raw materials made of fillings, creams, jams, strawberries, and chocolates are also known. In the present specification, these breads are referred to as composite breads. However, the composite breads have the same problems as the composite confectionery.
[0006]
As a method for suppressing such a phenomenon, the following Patent Document 1 discloses a technique for preventing fats and oils from being transferred to a confectionery dough by mixing the unsaturated fatty acid and the saturated fatty acid.
[0007]
Patent Document 2 listed below discloses a technique that uses a lipophilic emulsifier such as a sugar ester having an HLB value of 3 or less to prevent fat and oil transfer to confectionery dough.
[0008]
Patent Document 3 below discloses a technique that uses a lipophilic emulsifier to prevent moisture transfer to confectionery dough.
[0009]
[Patent Document 1]
JP 2002-65162 A
[Patent Document 2]
JP-A-5-284912
[Patent Document 3]
JP-A-60-224445
[0010]
[Problems to be solved by the invention]
The methods described in Patent Documents 1 and 2 described above include devising the fatty acid composition and manufacturing method of fats and oils during blending of confectionery doughs and creams, or suppressing the transition of liquid fats and oils to chocolate by blending emulsifiers, and crystals. All of them were able to suppress the Bloom phenomenon, but were not satisfactory in terms of mouth melting, texture, and flavor.
[0011]
The method described in Patent Document 3 is not satisfactory in terms of flavor because it is not sufficient to retain moisture in the auxiliary raw material rich in oil such as filling and sand material over a long period of time.
[0012]
Accordingly, an object of the present invention is to provide a composite confectionery produced by joining a pastry dough such as biscuits or cookies or a pastry dough such as pastry bread and an auxiliary material made of creams, jams, strawberries, chocolates or the like. In composite breads, it is now possible to suppress the deterioration of texture and flavor due to the transition of liquid fats and oils in confectionery dough or bread dough to chocolate, etc., and the transfer of moisture in the auxiliary raw material into confectionery dough or bread dough It is providing the manufacturing method of composite confectionery or composite bread.
[0013]
[Means for Solving the Problems]
To achieve the above object, the present invention provides a confectionery dough or bread dough, It is one selected from pasty foods and chocolates In the method for producing a composite confectionery or a composite bread produced by joining the auxiliary raw material, a W / O emulsion containing an alkaline aqueous solution in the inner phase is uniformly dispersed in an aqueous solution containing glucomannan, A food material having a pH of 4 to 8, To be 0.05 to 30% by mass in total, The confectionery dough or the bread dough and the auxiliary material Either The present invention provides a method for producing a composite confectionery or a composite bread characterized by blending.
[0014]
According to the present invention, in the aqueous solution containing glucomannan, the W / O type emulsion containing the alkaline aqueous solution in the inner phase is uniformly dispersed, and the food material having a pH of 4 to 8, the confectionery dough or the bread dough, With the auxiliary material Either When these doughs are added, for example, when the dough is heat-treated, the alkaline aqueous solution in the W / O type emulsion is leached, and glucomannan is gelled.
[0015]
Therefore, the gelled glucomannan prevents the liquid fats and oils in the confectionery dough or bread dough from being transferred to auxiliary materials such as chocolate, and the moisture in the auxiliary material to the confectionery dough or bread dough. Thus, the texture and flavor of the composite confectionery or composite bread can be prevented from being deteriorated, and a composite confectionery or composite bread excellent in storage stability can be provided.
[0016]
In the present invention, the confectionery dough or bread dough is sponges, cookies, biscuits, pies, butter cakes, shoes, waffles, crackers, snacks, meringue doughs, donuts, yeast doughs, Manju, liquid dough, momoka, and fried Japanese confectionery, the bread dough being confectionery bread, rolls, croissants, Danish, hard rolls, sandwiches, pizza It is preferable that it is 1 type chosen from the kind, fried bread, and steamed bread.
[0017]
In addition, the confectionery dough is a cake, waffle, cookie, biscuit, shoe skin, wafer, pie, cracker, pretzel, puff confectionery, macaroon, crepe, bun skin, Thai baked skin, doll baked skin, thigh skin More preferably, it is one selected from Karinto and Donut.
[0018]
Further, the auxiliary material is preferably one selected from pasty foods and chocolates, and one selected from fillings, creams, flower pastes, jams, potatoes and chocolates. It is more preferable that
[0019]
According to the combination of these fabrics, the effects of the present invention can be obtained satisfactorily.
Moreover, it is preferable that the said foodstuff material contains saccharides, and also it is preferable to contain starch further. According to this, there is an advantage that the moisture retention effect is further enhanced.
Moreover, it is preferable that pH of the said foodstuff material is 4.5-7.5.
[0020]
Furthermore, it is preferable that the oil / fat phase of the W / O emulsion comprises an oil / fat containing 50% by mass or more of an unsaturated fatty acid. According to this, when a food material is added to the dough and processed and cooked, the oil and fat phase is more easily disintegrated, and glucomannan can be uniformly gelled.
[0021]
Furthermore, it is preferable that the W / O type emulsion contains fats and oils, an emulsifier, and an alkaline aqueous solution. According to this, a stable W / O type emulsion can be formed.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
The food material used in the present invention is a mixture having a pH of 4 to 8, in which an aqueous solution containing glucomannan is uniformly dispersed with a W / O emulsion containing an alkaline aqueous solution in the inner phase.
[0023]
This food material delays gelation of glucomannan by dispersing an alkaline agent encapsulated with fats and oils in an aqueous solution containing glucomannan, so it has a low viscosity and is easily uniform with other ingredients. Can be mixed. And, when mixed with other food and beverage ingredients and processed and cooked, the encapsulated alkaline aqueous solution leaches out and glucomannan gels, so the texture and physical properties of the food and drink can be effectively improved, Desired physical properties can be imparted to the food or drink. Moreover, storage stability, such as chilled tolerance and freezing tolerance, can be improved effectively.
[0024]
Hereinafter, the food material will be described in more detail.
There is no restriction | limiting in particular as glucomannan, The normal konjac powder obtained by drying and pulverizing a konjac meal, the konjac fine powder which refine | purified the konjac powder, etc. can be used. In the present invention, deproteinized konjac flour is particularly preferably used in terms of flavor and color. Examples of such deproteinized konjac powder include “ROLEX RS” (trade name, manufactured by Shimizu Chemical Co., Ltd.).
[0025]
It is preferable that the aqueous solution containing glucomannan used for the food material further contains a saccharide. The sugar is not particularly limited, and sugars such as sugar, glucose, isomerized sugar, maltose, trehalose, sorbitol, maltitol, lactitol, erythritol, sugar alcohols, various oligosaccharides, and mixtures thereof can be used. . Examples of the oligosaccharide include maltooligosaccharide (preferably having a polymerization degree of 3 to 7), nigerooligosaccharide, isomaltoligosaccharide, panose oligosaccharide, gentiooligosaccharide, fructooligosaccharide, galactooligosaccharide, xylooligosaccharide, whey oligosaccharide, and syrup thereof. Can be mentioned. The saccharides can be appropriately selected and used according to the purpose. For example, malto-oligosaccharides or sugar alcohols can be used to improve the freezing tolerance of food and drink.
[0026]
Moreover, it is preferable that the aqueous solution containing the glucomannan used for the said foodstuff material contains starch further. By containing starch, it is possible to prevent the glucomannan gel from water separation when frozen and thawed. As the starch, for example, potato starch, wheat starch, tapioca starch, corn starch, waxy corn starch, high amylose corn starch, rice starch, lotus root starch, sweet potato starch, sago starch, etc., and modified starches among them are preferred. Wet heat-treated starch is particularly preferred. Specifically, hydroxypropylated crosslinked tapioca starch, acetylated crosslinked tapioca starch, wet heat-treated corn starch and the like can be mentioned.
[0027]
Moreover, as an oil and fat used when forming a W / O type emulsion containing an alkaline aqueous solution in the inner phase, any oil and fat can be used as long as it is an edible oil and fat, but an oil and fat containing 50% by mass or more of an unsaturated fatty acid is preferable. Examples include safflower oil, rapeseed oil, olive oil, tea seed oil, and persimmon oil. By using such fats and oils, when the food material is mixed with other food and drink ingredients and processed and cooked, the fat and oil phase is more easily disintegrated, and glucomannan can be uniformly gelled.
[0028]
Furthermore, the alkaline aqueous solution is not particularly limited as long as it is an aqueous solution of an alkaline agent that is usually used in foods. Examples of such alkali agents include bases such as sodium carbonate, sodium bicarbonate, calcium carbonate, disodium phosphate, trisodium phosphate, dipotassium phosphate, tripotassium phosphate, sodium polyphosphate, sodium citrate, and sodium lactate. Salt.
[0029]
The W / O emulsion preferably further contains an emulsifier. By containing an emulsifier, the alkaline aqueous solution can be uniformly emulsified, and a highly stable emulsion can be obtained. As the emulsifier, those having an HLB of 5 or less are preferable, and examples thereof include polyglycerin fatty acid ester, diethyl glyceryl mono fatty acid ester, sorbitan fatty acid ester, sucrose fatty acid ester, monoglycerin fatty acid ester, diglycerin fatty acid ester, and the like. Fatty acid esters are preferably used.
[0030]
The food material can be obtained, for example, as follows.
(1) A glucomannan swelling liquid (I) is prepared by mixing glucomannan and water. For example, it can be prepared by adding 20 to 200 parts by mass of water to 1 part by mass of glucomannan and stirring to swell the glucomannan.
[0031]
(2) An alkaline aqueous solution is mixed with fats and oils to prepare W / O type emulsion (II). For example, with respect to 100 parts by mass of fats and oils, 10 to 400 parts by mass of alkaline aqueous solution, more preferably around 100 parts by mass is added, and other raw materials such as emulsifiers are added as appropriate, and homogenized by means such as a homomixer or a homogenizer. Can be prepared.
[0032]
The concentration of the alkaline aqueous solution is not particularly limited and can be appropriately selected depending on the amount of the alkaline aqueous solution used so that the final product (food material) has a pH of 4 to 8, but usually 0.5 to 20% by mass. preferable.
[0033]
If the blending ratio of the alkaline aqueous solution with respect to 100 parts by mass of fat is less than 10 parts by mass, the amount of W / O emulsion (II) added must be increased, the fat content in the final product becomes too high, and 400 parts by mass. If it is more than part, a stable emulsion cannot be obtained.
[0034]
In addition, although the addition amount of an emulsifier can be selected suitably, 0.05-1 mass part is preferable with respect to 100 mass parts of fats and oils, and 0.2-0.4 mass part is more preferable normally. If the amount of the emulsifier added relative to 100 parts by mass of the fat is less than 0.05 parts by mass, a stable emulsion cannot be obtained, and if it exceeds 1 part by mass, the flavor becomes poor.
[0035]
(3) The glucomannan swelling liquid (I) and the W / O emulsion (II) are mixed to prepare a W / O / W emulsion (III).
[0036]
For example, to 100 parts by mass of the glucomannan swelling liquid (I), 1 to 100 parts by mass of the W / O type emulsion (II) is added, and other ingredients such as starch are added as necessary, and a homomixer or the like It can prepare by mixing by the means of.
[0037]
When the blending ratio of the W / O type emulsion (II) to 100 parts by mass of the glucomannan swelling liquid (I) is less than 1 part by mass, it becomes difficult to sufficiently gel the glucomannan, and it exceeds 100 parts by mass. When it is, an alkaline agent will become excess and may have a bad influence on the flavor of food-drinks.
[0038]
(4) If necessary, other raw materials such as saccharides and starch are added to the W / O / W emulsion (III) to prepare a food material having a pH of 4 to 8.
[0039]
For example, when a saccharide is added, an aqueous solution of saccharide is used, and in the case of syrup, it can be used as it is. Although the density | concentration of a sugar liquid is not specifically limited, Usually, 50-85 mass% is preferable. When the concentration of the sugar solution is less than 50% by mass, the storage stability of the product is inferior, and when it exceeds 85% by mass, crystals are precipitated or the viscosity becomes high depending on the type of sugar, resulting in poor workability. In addition, when the aqueous solution (including syrup) of saccharides having a high pH (pH 6.0 to 7.5) such as sugar and lactose is used as the sugar solution, the glucomannan swelling solution (I) is prepared. Further, the sugar solution may be mixed.
[0040]
For example, the W / O / W type emulsion (III) is preferably added in an amount of 5 to 900 parts by mass, more preferably 5 to 250 parts by mass with respect to 100 parts by mass of the sugar solution, and the mixture is mixed by means such as a homogenizer. Can do. The food material obtained as described above has a pH of 4 to 8 even without pH adjustment.
[0041]
(5) When pH adjustment is required, a food acidulant can be used. Although the kind of acidulant is not limited, for example, citric acid, sodium citrate, acetic acid, sodium acetate, DL-tartaric acid, DL-sodium tartrate, L-tartaric acid, L-sodium tartrate, lactic acid, sodium lactate, calcium lactate, adipic acid , Malic acid, sodium malate and the like.
[0042]
The food material thus prepared is in a liquid or gelled state. By blending 0.05 to 30% by mass, preferably 0.1 to 20% by mass, with this food material in composite confectionery or composite bread, the texture and physical properties are effectively improved, and the desired physical properties are obtained. The composite confectionery or the composite bread of the present invention to which is given can be obtained.
[0043]
As the confectionery dough or bread dough in the present invention, sponges, cookies, biscuits, pies, butter cakes, shoes, waffles, crackers, snacks, meringue doughs, donuts, yeast doughs, manjus , Liquid seed dough, kamomono, and fried Japanese confectionery, and the bread dough is confectionery bread, roll bread, croissant, Danish, hard roll, sandwich, pizza, One type selected from fried breads and steamed breads.
[0044]
Especially as confectionery dough, for example, sponge cake, pound cake, hot cake, waffle, cookie, macaroon, crepe, pie, grilled bun skin, Thai grilled skin, doll grilled skin, red skin, steamed bun skin, Examples include, but are not limited to, garlic, donuts, etc., preferably those that can be stored for a long time with low moisture content, such as cookies, hard biscuits, soft biscuits, shoe skins, wafers, folded pie, kneaded pie, crackers, pretzel And the like.
[0045]
In addition, the auxiliary raw material in the present invention includes one selected from pasty foods and chocolates. In particular, one selected from fillings, creams, flower pastes, jams, strawberries and chocolates is preferred. Among them, creams, jams, potatoes, and the like that are stuffed into doughs of so-called confectionery doughs, squeezed on the surface, or pinched are particularly preferably used. Although it does not specifically limit as creams, For example, W / O emulsification type creams, such as butter cream, O / W emulsification type creams, such as chocolate cream, custard cream, and whipped cream, W / O / W emulsification Type creams, O / W / O emulsion type creams, pralines using nuts, and the like. Although it does not specifically limit as jams, For example, the preserve type which utilized the fruit, the jam hardened with pectin, the jam which provided heat resistance, etc. are mentioned. Examples of the potatoes include, but are not limited to, grain candy, rice cake candy, white candy, white rice candy, seasoned plum candy, and matcha candy.
[0046]
In the present invention, it is intended for all of the composite confectionery or composite bread produced by joining one or more of the confectionery dough or bread dough and one or more of the auxiliary raw materials, for example, Strawberries wrapped in straw, sand rolls with cream sand, doughnuts with icing, garlic sprinkled garlic, melon bread, etc. are also included in the composite confectionery doughs or composite breads of the present invention.
[0047]
Any of the confectionery dough or the bread dough and the auxiliary raw material so that the total amount of the food material is 0.05 to 30% by mass, preferably 0.1 to 20% by mass. By compounding, it is possible to obtain the composite confectionery or the composite bread of the present invention that prevents changes in physical properties and retains its texture and flavor.
[0048]
Hereinafter, although the preferable example which applied this invention to various composite confectionery or composite bread is demonstrated, this invention is not limited to these.
[0049]
(1) Composite of confectionery or bread dough and chocolate
The confectionery dough or bread dough in the present invention generally includes all confectionery or bread doughs made by baking, steaming, and frying, and particularly confectionery with a long shelf life and low moisture content is preferably applied. . Examples include, but are not limited to, cookies, hard biscuits, soft biscuits, shoe skins, wafers, folded pie, kneaded pie, crackers, pretzel, and peach skin.
[0050]
Such a confectionery dough or bread dough is coated, sandwiched, wrapped, or embedded in a confectionery confectionery or confectionery bakery with a change in the temperature of the confectionery or bakery at the time of manufacture, transportation or storage. Liquid fats and oils mixed with chocolate cacao butter, causing melting of the chocolate and melting, blooming, and white spotted oily crystals on the surface of confectionery or bread dough.
[0051]
In the present invention, the above food material is mixed in an amount of 0.05 to 30% by mass, preferably 0.1 to 20% by mass with respect to the confectionery dough or bread dough, thereby suppressing the transfer of liquid fats and oils in the confectionery dough or bread dough. Thus, the physical properties of the composite confectionery or the composite bread can be prevented from changing, and the texture and flavor thereof can be maintained. In addition, the food material may be applied as it is or before being baked, or during baking, at any time after baking, or applied to the boundary portion of the composite confectionery or the composite bread. However, the same effect can be obtained.
[0052]
(2) Composite of confectionery or bread dough and cream
Examples of the creams in the present invention include whipped cream, fresh cream, butter cream, custard cream, and flower paste, but are not limited thereto. For example, a pastry dough or bread dough squeezed, sandwiched, or wrapped in a confectionery confectionery such as a pie shoe is produced by the difference in moisture between the confectionery dough and the cream at the time of manufacture, transportation, or storage. The moisture of the cream is transferred to the confectionery dough, the confectionery dough is softened by moisture, the moisture of the cream is reduced and the smoothness is lost, and furthermore the texture of each due to the difference in moisture between the pie dough and the shoe dough There is a problem that the texture, flavor, and taste of the composite confectionery are lost.
[0053]
In the present invention, the food material, In total, 0.05 to 30% by mass, preferably 0.1 to 20% by mass, Confectionery or bread dough and cream Anyway By combining, it is possible to suppress the transfer of the moisture of the cream to the confectionery dough or bread dough, thereby preventing changes in physical properties of the composite confectionery or composite bread, and maintaining the texture, flavor, and the like. In addition, the food material may be applied as it is or after being baked, steamed, fried, etc. before baking, steaming, frying, etc. Or the same effect can be acquired even if it adds after manufacture or it apply | coats to the boundary part of composite confectionery or composite bread.
[0054]
(3) Composite of confectionery or bread dough and jam
Examples of the jams in the present invention include, but are not limited to, a preserved type using fruits, jams hardened with pectin, and jams imparted with heat resistance. For example, an apple pie-like composite confectionery or composite bread, such as apple pie, which has been squeezed, pinched or wrapped in the confectionery or bread dough described above, is a confectionery dough or bread dough at the time of manufacture, transportation or storage. However, there is a problem that the moisture of the jam is transferred to the confectionery dough or the bread dough due to the difference in moisture from the jam, and the texture, flavor, and taste are deteriorated.
[0055]
In the present invention, the food material, In total, 0.05 to 30% by mass, preferably 0.1 to 20% by mass, Confectionery or bread dough and jam Anyway By combining, it is possible to suppress the transfer of jam moisture to the confectionery dough or bread dough, thereby preventing changes in physical properties of the composite confectionery or the composite bread, and maintaining the texture, flavor, and the like. In addition, the food material may be applied as it is or diluted before baking the confectionery dough or bread dough, or during or after baking, or may be added during or after the manufacture of jam. The same effect can be obtained by applying to the boundary part of the bread or the composite bread.
[0056]
(4) Composite of confectionery or bread dough and bean paste
Examples of the moss in the present invention include, but are not limited to, grain candy, rice bran candy, white candy, white rice candy, seasoned plum candy, and matcha candy. The confectionery or bread dough is squeezed, pinched, or wrapped in the confectionery dough or bread dough. Due to the difference in moisture between the dough or bread dough and the koji, there was a problem that the moisture of the koji was transferred to the confectionery dough or bread dough, resulting in deterioration of texture, flavor and taste.
[0057]
In the present invention, the food material, In total, 0.05 to 30% by mass, preferably 0.1 to 20% by mass, Between confectionery or bread dough and strawberries Either By mix | blending, the transfer to the confectionery dough or bread dough of the water | moisture content of a candy can be suppressed, and thereby the physical property change of composite confectionery or composite bread can be prevented, and the food texture, flavor, etc. can be hold | maintained. In addition, the food material may be applied as it is or after being baked, before or after baking the confectionery dough or bread dough, or added at the time of or after manufacture of the candy, or a composite confectionery. The same effect can be obtained by applying to the boundary part of the bread or the composite bread.
[0058]
(5) Composite of confectionery dough, bread dough and / or cream, and chocolates The confectionery dough or bread dough as described above is coated, squeezed, pinched, wrapped, embedded. Bread confectionery or bread, for example, confectionery or bread with chocolate creamed biscuits or chocolate eclairs, or chocolate with cream in bonbon chocolate Such complex confectionery can be transferred to the confectionery dough or bread dough at the time of manufacture, transportation, storage, or the difference in moisture between the confectionery dough or bread dough and the cream, chocolate, or cream and chocolate. The fats and oils of confectionery dough or bread dough move to chocolate, And if confectionery or appearance and mouthfeel of composite bread, there is a problem flavor deterioration occurs.
[0059]
In the present invention, the above-mentioned food material is mixed in a total amount of 0.05 to 30% by mass, preferably 0.1 to 20% by mass, with respect to the confectionery dough, bread dough and / or cream. By suppressing the transition to confectionery dough or bread dough, changes in physical properties of the composite confectionery can be prevented, and a product that retains its texture and flavor can be obtained. In addition, the food material may be applied as it is or after being baked, before or after baking the confectionery dough or bread dough, or added during or after the production of the cream. Or the same effect can be acquired even if it apply | coats to the boundary part of composite bread.
[0060]
(6) Composite of confectionery dough, bread dough and / or jams and chocolates
In the pastry dough or bread dough, the jam and the chocolate are squeezed, sandwiched or wrapped, for example, a composite confectionery such as a chocolate pie or a composite bread, or jam in the center of chocolate Compound confectionery such as chocolate with fruit is made into confectionery dough or bread dough by the difference in moisture between the confectionery dough or bread dough and jam, chocolate, or jam and chocolate at the time of manufacture, transportation, and storage. There is a problem that the appearance and texture of the composite confectionery or the composite bread, and the deterioration of the flavor occur due to the transfer or the fats and oils of the confectionery or bread dough transfer to the chocolate.
[0061]
In the present invention, the food material, In total, 0.05 to 30% by mass, preferably 0.1 to 20% by mass, Confectionery or bread dough and jams Anyway By combining, it is possible to suppress the transfer of moisture of jams to confectionery dough or bread dough, thereby preventing changes in physical properties of composite confectionery or composite breads, and maintaining the texture, flavor, etc. it can. In addition, the above-mentioned food material can be applied as it is or before being baked, during baking, or after baking, as it is or after being baked, or added during or after the manufacture of jam. The same effect can be obtained even when applied to the boundary portion of confectionery or composite bread.
[0062]
【Example】
Hereinafter, the present invention will be specifically described with reference to examples. In the following examples, “Fuji Oligo # 360” (trade name, manufactured by Nippon Shokuhin Kako Co., Ltd.) was used as the oligosaccharide syrup unless otherwise specified.
[0063]
Production Example 1
Glucomannan was swollen with water by a conventional method to prepare a glucomannan swelling solution (concentration: 3% by mass).
[0064]
120 g of 5% by weight sodium polyphosphate aqueous solution and 0.8 g of an emulsifier were added to 100 g of safflower oil, and mixed and homogenized with a homomixer to prepare a W / O type emulsion.
[0065]
20 g of the W / O type emulsion was added to 400 g of the glucomannan swelling solution, and the mixture was homogenized with a homomixer to obtain a W / O / W type emulsion. Then, 300 g of the above W / O / W type emulsion was added to 700 g of oligosaccharide syrup and uniformly mixed with a homomixer to obtain a food material 1.
[0066]
Production Example 2
In the same manner as in Production Example 1, a glucomannan swelling liquid (concentration 3% by mass) and a W / O type emulsion were prepared.
[0067]
20 g of the W / O emulsion was added to 400 g of the glucomannan swelling solution, 5 g of acetylated crosslinked waxy starch was further added, and the mixture was homogenized by a homomixer to obtain a W / O / W emulsion. Then, 300 g of the above W / O / W emulsion was added to 700 g of oligosaccharide syrup and mixed uniformly with a homomixer to obtain food material 2.
[0068]
Production Example 3
In the same manner as in Production Example 1, a glucomannan swelling liquid (concentration 3% by mass) and a W / O type emulsion were prepared.
[0069]
20 g of the W / O type emulsion was added to 400 g of the glucomannan swelling solution, and the mixture was homogenized with a homomixer to obtain a W / O / W type emulsion. The pH of this W / O / W emulsion was adjusted with lactic acid to obtain food material 3.
[0070]
Reference example 1 (Composite confectionery of confectionery dough and chocolate)
A hard biscuit dough was prepared according to a conventional method using each raw material at the blending ratio shown in Table 1, and a chocolate for enrobing was coated on the surface half to prepare a composite confectionery. In addition, what apply | coated to the surface in the middle of baking made a 10% solution, and apply | coated predetermined amount.
[0071]
[Table 1]

[0072]
And each chocolate coating biscuits are put alternately in the temperature zone of 20 ° C and 28 ° C, and the change of the surface condition with time is observed every week and evaluated by the 10-point evaluation method, and the average score (rounded off) (In the table, x: 1 to 3 points, Δ: 4 to 5 points, ◯: 6 to 7 points, 点: 8 to 10 points, and the higher the score, the more preferable it is.) The same applies to the example.) Regarding the evaluation, the chocolate surface was observed focusing on the bloom phenomenon, and the confectionery dough portion was mainly observed for the whitening phenomenon. The results are also shown in Table 2.
[0073]
[Table 2]

[0074]
From Table 2, it was determined that the hard biscuits A and B to which the food materials 1 and 3 were added had better surface states than the hard biscuits E in both the chocolate portion and the confectionery dough portion. Moreover, although the hard biscuits C and D which thinly apply | coated the food material 1 or 3 were weaker than the hard biscuits A and B, it was judged that the surface state was favorable compared with the hard biscuits E. From this, it can be seen that hard biscuits using food materials are less likely to change over time than those not using, and thus bloom and whitening phenomenon are unlikely to occur.
[0075]
And after storing each obtained hard biscuit at 20 degreeC for 1 month, sensory evaluation was performed by 15 panelists about each item shown in Table 3. FIG. Sensory evaluation was performed by a 10-point evaluation method, and the average score (rounded off) was obtained (in the table, x: 1 to 3 points, Δ: 4 to 5 points, ○: 6 to 7 points, ◎: 8 to 8) It represents 10 points, and the higher the score, the more preferable it is. The results are shown in Table 3.
[0076]
[Table 3]

[0077]
From Table 3, the hard biscuits A to D to which the food materials 1 and 3 are added or applied are superior in texture and flavor to the hard biscuits E, and the storage stability such as changes over time is also greatly improved. I understand.
[0078]
Example 1 (Composite confectionery of confectionery dough and cream)
Using each raw material at the blending ratio shown in Table 4, shoe dough and custard cream were prepared according to a conventional method, and cream was injected into the dough to create a composite confectionery.
[0079]
[Table 4]

[0080]
Each cream puff was put in a refrigerator at 5 ° C., and the change with time was observed until 5 days later. Evaluation was performed by a 10-point evaluation method, and the average score (rounded off) was obtained. Regarding the evaluation, the cream part was observed mainly in the state of water separation, and the confectionery dough part was mainly observed for softening the dough. And each sensory evaluation was performed by 15 panelists about each item shown in Table 5 about what stored each cream puff at 5 degreeC for 3 days, respectively. The sensory evaluation was performed by a 10-point evaluation method, and the average score was obtained. These results are shown together in Table 5.
[0081]
[Table 5]

[0082]
From Table 5, the cream puffs A and B in which the food materials 1 and 3 are added to both the dough and the cream are less changed with time than the puff cream E, and the sensory test also shows good results. Also, C used only for shoe dough and D used only for cream were better than shoe dough E in both temporal changes and sensory test results. From this, it can be seen that moisture transfer is less likely to occur in each dough and cream.
[0083]
Example 2 (Composite confectionery with confectionery dough and jam)
Hard biscuit dough was prepared according to a conventional method using each raw material at the blending ratio shown in Table 6, and a composite confectionery was prepared by sandwiching jam between two hard biscuits. In addition, we made a jam containing food ingredients.
[0084]
[Table 6]

[0085]
Each of the jam sandwich biscuits stored in the temperature zone of 20 ° C. and 28 ° C. for two weeks and stored for one month at 20 ° C., 15 panelists for each item shown in Table 7. The sensory evaluation was performed. The sensory evaluation was performed by a 10-point evaluation method, and the average score was obtained. The results are shown in Table 7.
[0086]
[Table 7]

[0087]
From Table 7, Jam Sand Biscuits A and B to which food ingredients 1 and 3 are added are better in all items than Jam Sand Biscuits E, and used only for C and Jam used only for biscuit dough. D was also less effective than those used for both the fabric and jam, but the results were better than the unused jam sand biscuit E, confirming the effect. Because of this, the moisture from the normal jam is transferred to the biscuit dough, the jam becomes hard and the texture becomes bad, or the biscuit dough becomes damp and the texture becomes bad. It is thought that it was suppressed. Moreover, from this fact, it is considered that there is an effect of maintaining the flavor of jam and biscuits and suppressing the deterioration of the taste.
[0088]
Example 3 (Composite confectionery with confectionery dough and Anto)
Using each raw material at the blending ratio shown in Table 8, prepare the bun dough according to the usual method, and further adjust the straw according to the usual method using each raw material at the blending ratio shown in Table 8, Wrapped and steamed to make a composite confectionery. In addition, the brand name “Fuji Oligo # 450” was used as the oligosaccharide syrup for the straw.
[0089]
[Table 8]

[0090]
And about each item shown in Table 9, sensory evaluation was performed by 15 panelists about what stored each steamed bun at 20 degreeC for 3 days, and what was stored at 5 degreeC for 1 week, respectively. The sensory evaluation was performed by a 10-point evaluation method, and the average score was obtained. The results are shown in Table 9.
[0091]
[Table 9]

[0092]
From Table 9, the manju A and B added with the food materials 1 and 2 to the dough have better results in both room temperature storage and refrigeration storage than the manju E. In addition, Manju C, which uses food material 1 for manju dough, has better results than manju E for not only the dough but also the portion of the manju. It is thought that the texture of that was preserved. Similarly, Manju D, which used food material 3 so much, gave better results than Manju E, not only for the dough but also for the dough. From these facts, it was found that by using a food material in the dough and / or anemone, moisture transfer hardly occurs, stability with time increases, and appearance, texture, flavor and taste are maintained.
[0093]
Reference example 2 (Composite confectionery of cream and chocolate)
Using each raw material at the blending ratio shown in Table 10, a chocolate composite confectionery containing cream was prepared.
[0094]
[Table 10]

[0095]
Alternating changes were made in the temperature range of 20 ° C. and 28 ° C., and the change of the surface state with time was observed every week. Evaluation was performed by a 10-point evaluation method, and the average score (rounded off) was obtained. Regarding the evaluation, the chocolate surface was observed with a bloom phenomenon, and the cream portion was observed with a focus on moisture retention. The results are shown in Table 11.
[0096]
[Table 11]

[0097]
From Table 11, chocolate A and B in which food materials 2 and 3 are replaced with starch candy have a better surface condition than chocolate E, and with respect to B, the cream condition is also good. This is considered to be the state of chocolate because moisture that is the enemy of chocolate is retained in the cream.
[0098]
Moreover, although chocolate C and D which added the food material 2 or 3 as it is are also favorable compared with chocolate E, the tendency for an effect to become low is also seen as water increases. From these facts, it can be seen that the higher the ability to retain moisture in the cream, the less likely the Bloom phenomenon occurs.
[0099]
And after storing each obtained chocolate at 20 degreeC for 3 weeks, sensory evaluation was performed by 15 panelists about each item shown in Table 12. FIG. The sensory evaluation was performed by a 10-point evaluation method, and the average score was obtained. The results are shown in Table 12.
[0100]
[Table 12]

[0101]
From Table 12, the chocolates A to D in which the food materials 2 and 3 are replaced or added with starch candy are superior to the chocolate E in texture, flavor and the like, have improved storability such as changes over time, and have a high water retention effect. It turns out that the effect is so remarkable.
[0102]
Example 4 (Composite confectionery with confectionery dough, jam and chocolate)
Folded pie dough is prepared according to a conventional method using each raw material at the blending ratio shown in Table 13, and heat-resistant strawberry jam is sandwiched between the pie dough before baking, and the enrober is added to the jam sand pie after baking. A composite confectionery was made by coating with chocolate for use.
[0103]
In the middle of forming the dough, the dough is folded, and what was applied to the surface at this time was applied as a 10% solution in a predetermined amount.
[0104]
[Table 13]

[0105]
Jam pie coated with each chocolate was stored at 20 ° C., the change with time was observed until one month later, the evaluation was performed by the 10-point evaluation method, and the average score (rounded off) was obtained. Each of the jam pie preserved at 20 ° C. for 2 weeks was subjected to sensory evaluation by 15 panelists for each item shown in Table 14. The sensory evaluation was performed by a 10-point evaluation method, and the average score was obtained. The results are shown in Table 14.
[0106]
[Table 14]

[0107]
From Table 14, the chocolate-coated jam pies A and B in which the food materials 1 and 3 were added to the dough and jam clearly showed superior results in terms of appearance, texture, and flavor as compared with E. In addition, even in the case where the food material 3 was put only in the dough, a better result was obtained than in the case of E. In addition, D, which was thinly applied during the formation of the dough, was clearly better than E. From this, by adding food ingredients even in complex confectionery such as chocolate coated jam pie, by preventing the transfer of moisture and fat, it is difficult to change over time, texture, flavor is excellent, Storage stability was improved.
[0108]
【The invention's effect】
As described above, according to the present invention, a food material having a pH of 4 to 8 in which a W / O emulsion containing an alkaline aqueous solution in the inner phase is uniformly dispersed in an aqueous solution containing glucomannan is used as a composite confectionery or a composite bread. By adding a predetermined amount to the confectionery, it is possible to provide a composite confectionery or a composite bread that is excellent in physical properties, texture, flavor, etc., and has improved storage stability effectively, preventing the transfer of moisture and fats and oils.

Claims (9)

In a method for producing a composite confectionery or a composite bread produced by joining a confectionery dough or a bread dough and an auxiliary raw material that is one kind selected from pasty foods and chocolates, in an aqueous solution containing glucomannan, W / O type emulsion containing an aqueous alkali solution in the inner phase is uniformly dispersed, and the food material having a pH of 4 to 8 is mixed with the confectionery dough or the bread dough so that the total amount is 0.05 to 30% by mass. A method for producing a composite confectionery or a composite bread, which is blended with any of the auxiliary raw materials.   The confectionery dough or bread dough is sponges, cookies / biscuits, pies, butter cakes, chows, waffles, crackers, snacks, meringue doughs, donuts, yeast doughs, manjus, liquid species One kind selected from doughs, momonos and fried Japanese confectionery, and the bread dough is confectionery breads, roll breads, croissants, Danish, hard rolls, sandwiches, pizzas, fried breads The method for producing a composite confectionery or a composite bread according to claim 1, which is one kind selected from steamed bread.   The confectionery dough is cake, waffle, cookie, biscuit, shoe skin, wafers, pie, cracker, pretzel, puff confectionery, macaroon, crepe, bun skin, Thai baked skin, doll baked skin, peach skin, karinto The method for producing a composite confectionery according to claim 1, which is one kind selected from donuts. The production of the composite confectionery or the composite bread according to any one of claims 1 to 3 , wherein the auxiliary raw material is selected from fillings, creams, flower pastes, jams, strawberries, and chocolates. Method. The method for producing a composite confectionery or a composite bread according to any one of claims 1 to 4 , wherein the food material further contains a saccharide. The method for producing a composite confectionery or a composite bread according to any one of claims 1 to 5 , wherein the food material further contains starch. The method of producing a composite confectionery or composite bread according to any one of claims. 1 to 6 pH is 4.5 to 7.5 of the food material. The method for producing a composite confectionery or a composite bread according to any one of claims 1 to 7 , wherein the oil / fat phase of the W / O emulsion comprises an oil / fat containing 50% by mass or more of an unsaturated fatty acid. The method for producing a composite confectionery or a composite bread according to any one of claims 1 to 8 , wherein the W / O type emulsion comprises an oil and fat, an emulsifier, and an alkaline aqueous solution.