JP2020058304A - Hot-water dough and method for producing the same - Google Patents

Abstract

To provide a method for producing hot-water dough in which while maintaining the moist and glutinous eat-texture which is a characteristic of the hot-water dough preparation, the tackiness (stickiness) of bakery dough which is a disadvantage is suppressed in order to improve the production workability of bakery products using the hot-water dough preparation.SOLUTION: In the method for producing hot-water dough, a hot-water dough containing a wheat flour, a vegetable protein other than the wheat flour, and water is used as a hot-water dough used in the hot-water dough preparation.SELECTED DRAWING: None

Description

  The present invention relates to a hot water type used for producing a bakery product or a noodle skin product, and a method for producing the same. Further, the present invention relates to a bakery dough and a bakery product using the hot water species, and a method for producing them.

  2. Description of the Related Art Conventionally, as a method for moisturizing bakery products such as breads to give a firm and unique texture, a method using hot water (also called hot water manufacturing method or kneading method) is known. For example, as to the method for producing a bakery product using a hot water seed, as described in Patent Documents 1 to 3, a yeast-free flour raw material is kneaded in the presence of high-temperature water to form a hot water dough, It is known that using this, a bakery dough is produced by various bread making methods such as a straight method and an intermediate seed method to produce a bakery product.

  However, it is known that the bakery dough containing the hot water species has increased tackiness (stickiness) and reduced elasticity depending on the blended amount of the hot water species. Therefore, since the dough easily adheres to the manufacturing equipment such as the mixer bowl, the workability is poor, and the mixing process is difficult to be constant, and the quality of the product is not stable.

  As a method of improving such a problem, a method of adding gluten when mixing bakery dough is known, but the elasticity of the dough is improved, but the tackiness (stickiness) is not improved. A method of adding hot water in several steps in the mixing process of bakery dough is also known (Patent Document 4), but it cannot be said to be a sufficient means for improving the tackiness.

Japanese Patent No. 3080368 JP, 2000-262205, A JP, 2002-034436, A JP, 2017-163929, A

  INDUSTRIAL APPLICABILITY The present invention improves manufacturing workability by suppressing stickiness (stickiness) of a bakery dough, which is a disadvantage, while maintaining a moist and firm texture which is a feature of the conventional hot water production method. The purpose is to Specifically, it is an object of the present invention to provide a hot water type which is preferably used for improving workability of the hot water type manufacturing method, and a hot water type composition as a raw material thereof. Moreover, it aims at providing the bakery dough and the bakery product which used the said hot water kind, and their manufacturing method.

  The present inventors have made extensive studies to solve the above problems, in producing a bakery product by a hot water production method, a hot water seed using a vegetable protein in addition to flour as a raw material of the hot water seed By using it, surprisingly, while maintaining the unique texture obtained by the hot water production method, it is possible to suppress the stickiness (stickiness) of the bakery dough, and as a result, it has been a long-standing problem of the hot water production method. It was found that the adhesion of the dough to the existing manufacturing machines and the like and the deterioration of workability due to it can be improved, and it was confirmed that a bakery product of stable quality can be efficiently manufactured.

  The present invention has been completed based on these series of findings, and has the following embodiments.

(I) Composition for hot-water seeds, hot-water seeds, and production method thereof (I-1) Wheat flour, and plant protein added separately from wheat flour (hereinafter, referred to as "externally added plant protein") The composition for hot-water seeds which contains these.
(I-2) The (I-1), wherein the vegetable protein is at least one selected from the group consisting of wheat protein, soybean protein, pea protein, and corn protein. A composition for hot water.
(I-3) A hot water type containing wheat flour, a vegetable protein added separately from the wheat flour, and water.
(I-4) The vegetable protein is at least one selected from the group consisting of wheat protein, soybean protein, pea protein, and corn protein, (I-3). Type of hot water to do.
(I-5) It has a step of kneading the composition for hot-water seeds described in (I-1) or (I-2) in the presence of water at a temperature not lower than the gelatinization start temperature of wheat flour (I-3). ) Or (I-4) the method for producing a hot water type.

(II) bakery dough, and the method for producing the same (II-1) The hot water type described in (I-3) or (I-4), or the hot water type obtained by the production method described in (I-5) is included. Bakery dough.
(II-2) The bakery dough according to (II-1), which further contains a starchy substance and yeast.
(II-3) To the hot water type described in (I-3) or (I-4) or the hot water type obtained by the production method described in (I-5), at least starchy substance, yeast and water are added. A bakery dough which has a step of kneading, or has a step of kneading a composition containing at least a starchy substance, yeast and water to produce a medium seed, and kneading the mixture with the hot water species, separately from the hot water seed. Manufacturing method.
(II-4) The bakery dough is at least one selected from the group consisting of bread, Western confectionery (eg, cake, waffle, crepe, donut, pie, pizza, biscuit, etc.), and Japanese confectionery (eg, dorayaki, etc.) The method for producing the bakery dough according to (II-1) or the bakery dough according to (II-3), which is the dough for the bakery product in (2).

(III) Bakery product and production method thereof (III-1) Obtained by the bakery dough described in (II-1) or (II-2), or the production method described in (II-3) or (II-4). Bakery products made by heating bakery dough.
(III-2) The bakery dough described in (II-1) or (II-2), or the bakery dough obtained by the production method described in (II-3) or (II-4) is optionally used. A method for producing a bakery product, which comprises a step of heating after fermenting.
(III-3) The bakery product is at least one selected from the group consisting of bread, western confectionery (for example, cake, waffle, crepe, donut, pie, pizza, biscuit, etc.), and Japanese confectionery (for example, dorayaki, etc.) The method for producing a bakery product according to (III-1) or the bakery product according to (III-2), which is the bakery product according to 1.

(IV) Use of hot water type The hot water type described in (IV-1) (I-3) or (I-4) or the hot water type obtained by the production method described in (I-5) is used as a bakery product, Or a method used to make noodle skin products.
(IV-2) In the hot water production method, the hot water species described in (I-3) or (I-4) or the hot water species obtained by the production method described in (I-5) is used as a hot water species. A method of reducing the tackiness of a dough, which comprises preparing the dough.

  According to the present invention, by using a vegetable protein separately from wheat flour as one of the raw materials for the hot water seed, the characteristic of the hot water production method is moist, while the chewy texture remains the same as in the conventional hot water production method. It is possible to suppress the tackiness (stickiness) of the dough, which is a problem of. As a result, it is possible to improve the work efficiency due to the adhesion of the dough to the manufacturing equipment and the deterioration of the quality of the product due to the insufficient constant mixing and insufficient dough formation. As a result, according to the present invention, it becomes possible to mass-produce a stable product by the hot water production method.

(I) Hot-water composition, hot-water type, and method for producing the same
(I-1) Composition for hot-water seeds The composition for hot-water seeds targeted by the present invention is a composition used for preparing hot-water seeds. The composition for hot water seeds is characterized in that it additionally contains a vegetable protein in addition to wheat flour. The hot water type targeted in the present invention is an intermediate dough in which a part of the starch of wheat flour is gelatinized, which is used in a hot water type manufacturing method widely known as a method for manufacturing bakery products such as bread. . The hot water production method is a process in which wheat flour, which is used as one of the raw materials for bakery products, is kneaded with water etc. at a desired temperature to produce hot water (intermediate dough), and the resulting hot water is used as the remaining raw materials. It is a known method for producing a bakery product by kneading, fermenting, heating, etc. together with (starch, yeast, secondary raw materials).

  Examples of the plant protein (externally added plant protein) used in the present invention include edible protein derived from plants. In that respect, although not particularly limited, examples thereof include gluten as the wheat protein; soybean protein and pea protein as the legume protein; and zein (zein) as the corn protein. Preference is given to gluten, which is a wheat protein, and soybean protein. As the vegetable protein, it is not always necessary to use a purified product consisting of 100% protein, and a crude purified product can be used as long as it contains the protein. For example, kinako is a food material (vegetable protein-containing material) containing soybean protein in a proportion of about 35.5% by mass, and can be suitably used in the present invention. Such plant protein-containing materials are commercially available, and examples of food materials containing gluten include "A-glu G" (protein content 76% by mass) and "A-glu SS" ( Protein content 83.2% by mass (above, Glyconutrient Foods Co., Ltd.); As food materials containing soybean protein, Kinako (protein content 35.5% by mass), "Fresh Flower S55" (protein) Content 37.5% by mass), "Fresh RF" (protein content 46.3% by mass) (above, Showa Sangyo Co., Ltd.), and "Fujipro-F" (protein content 90.8% by mass) (above) , Fuji Oil Co., Ltd.); “PP-CS” (protein content 77% by mass) (above, manufactured by Organo Food Tech Co., Ltd.) and the like as food materials containing pea protein are exemplified without limitation. It is possible .

  The wheat flour used in the composition for hot-water seeds can be appropriately selected from strong flour, semi-strong flour, medium-strength flour, weak flour, whole grain flour, durum wheat flour and the like according to the type of bakery product to be produced.

  In the composition for hot water, the proportion of the externally added vegetable protein used in combination with the flour is such that the addition amount of the externally added vegetable protein is, for example, 65% by mass or less with respect to 100% by mass of the flour. Can be mentioned. It is preferably 50% by mass or less, and more preferably 20% by mass or less. Moreover, the addition amount of the externally added vegetable protein may be, for example, 0.2% by mass or more based on 100% by mass of wheat flour. It is preferably 0.5% by mass or more, and more preferably 2% by mass or more. In addition, "mass%" is a display by Bakers% here. Bakers% is a unit notation generally used in the field of bakery products, and represents the weight ratio of other components when the total weight of starchy substances (here, wheat flour) in the blended components is 100%.

  The composition for hot-water seeds of the present invention may be composed of the wheat flour and an externally added vegetable protein, but as long as it does not impair the effects of the present invention, in addition to the above components, containing auxiliary raw materials You can also As secondary raw materials, starches other than wheat flour, fats and oils (shortening, lard, margarine, butter, liquid oil, powdered fats and oils), salt, sugars (trehalose, glucose, fructose, lactose, sugar, maltose, isomaltose, etc.) , Liquid or powdered sugars), sugar alcohols (liquid or powdered sugar alcohols such as sorbitol, maltitol, palatinit, reduced starch syrup), emulsifiers (lecithin, sucrose fatty acid ester, glycerin fatty acid ester, etc.), Enzymes, seasonings (amino acids, nucleic acids, etc.), flavors and the like can be exemplified without limitation. These auxiliary raw materials can be used alone or in admixture of two or more. The hot-water composition of the present invention may contain a starch material other than wheat flour, but preferably does not contain rice flour.

  In the present invention, the term "starch material" means an edible raw material containing starch prepared in powder form. Such starches include cereals and starches. Flours are, for example, wheat flour (strong flour, weak flour, semi-strong flour, medium flour, whole grain flour, durum wheat flour, wheat germ, bran, etc.), rice flour (upper flour, flour, rice cake flour, white rice flour, brown rice flour, etc.) , Barley flour, rye flour, corn flour, millet flour, hie flour, dough flour, buckwheat flour and the like. Examples of the starches include raw starches made from corn, corn corn, potato, kudzu, tapioca, sago and the like. In addition, processed starches obtained by subjecting these starches to raw materials and subjecting them to physical and / or chemical treatments (enzymatic treatment, moist heat treatment, α-formation, hydroxypropylation, crosslinking, etc.) are also included in the starches.

(I-2) Hot water type, and method for producing the same The hot water type of the present invention comprises the above-mentioned hot water type composition, that is, wheat flour, and an externally added vegetable protein, and optionally a mixture with an auxiliary raw material. It is produced by kneading under high temperature conditions in the presence (hereinafter, this step is also referred to as "hot water production step"). Here, "kneading under high temperature conditions" means kneading under conditions where the hot water species reaches a high temperature at least once during kneading. As the temperature condition to be reached (high temperature condition), a temperature condition equal to or higher than the temperature at which the starch of wheat flour starts gelatinization (gelatinization start temperature) can be mentioned. Such temperature conditions vary depending on the amount of water, but may be, for example, 50 ° C. or higher, preferably 55 ° C. or higher. The upper limit of the temperature is not limited as long as it does not interfere with gelatinization of starch, but may be, for example, about 100 ° C. or lower, preferably about 95 ° C. or lower, and more preferably about 90 ° C. or lower.

  As a method of kneading under such a high temperature condition, there can be exemplified a method of kneading a mixture of the above raw materials by using hot to hot water as the above water. The temperature of the hot water to the hot water is not particularly limited as long as it is above the gelatinization start temperature of the starch of wheat flour as described above, but is, for example, about 70 to 100 ° C, preferably about 80 to 100 ° C. be able to. The proportion of water used for producing the hot water type is, for example, 30 to 80% by mass, preferably 35 to 70% by mass, more preferably converted to the water content in the hot water type (100% by mass) to be produced. It is 40 to 70 mass%. As the water content, for example, 50 to 600 mass%, preferably 60 to 300 mass%, more preferably 70 to 300 mass%, as the water content with respect to 100% by mass of wheat flour (bakers%) used in the hot water type, Particularly preferably, 100 to 250 mass% can be mentioned, and it can be appropriately adjusted from such a range.

  As another method of kneading the composition for hot water seeds described above, that is, wheat flour, and an externally added vegetable protein, and optionally a mixture of the above-mentioned auxiliary raw materials under high temperature conditions in the presence of water as described above, for example, Using water at room temperature, the above mixture is kneaded while being heated by any method such as steam, open flame, microwave oven, oven, etc., so that the hot water species at least once during the kneading, the above high temperature state. There are ways to reach them. Here, the room temperature may be, for example, 20 ° C. ± 15 ° C. (5 to 35 ° C.), preferably 15 to 25 ° C.

  The kneading method (kneading method) is not particularly limited, and can be performed according to a standard method. Although not limited, a simple method is, for example, a method of kneading using a mixer such as a high speed mixer. By being kneaded in this way, the temperature for kneading the hot water species is preferably adjusted to, for example, 50 to 80 ° C, preferably 60 to 70 ° C.

  The ratio of the externally added vegetable protein to 100% by mass of wheat flour contained in the hot water type thus produced is as described above for the hot water type composition. The content of the externally added vegetable protein contained in 100 g of hot water is not limited, but may be, for example, 15 g or less. It is preferably 8 g or less, more preferably 6 g or less. The lower limit value is not limited, but may be, for example, 0.05 g or more. It is preferably 0.1 g or more, and more preferably 1 g or more. If the content of the externally added vegetable protein contained in the hot water is too large, the moist and firm texture is reduced, and the texture tends to be chewy.

  The hot-water type produced in this manner may be used as it is as a material for producing a bakery dough, or may be subdivided as needed and stored at room temperature or refrigerated (chilled refrigerated storage and partial refrigerated storage. May be included) or frozen. The hot water types targeted by the present invention include such normal temperature hot water types, refrigerated hot water types, and frozen hot water types.

  The method of storing the hot water type at room temperature is not limited, but for example, a method of sealing the kneaded hot water type in an airtight film made of polyethylene or the like and storing the hot water type in a temperature range of 15 ° C to 25 ° C is used. Can be mentioned. As a method of refrigerating and storing the hot water species, for example, a method of sealing the kneaded hot water species in the airtight film or the like and storing it in a temperature range of -3 ° C to 5 ° C can be mentioned. As a method for freezing and storing, for example, the kneaded hot water species may be sealed in the airtight film or the like and stored in a temperature range of -40 ° C to -15 ° C, for example. The kind of hot water thus frozen and stored can be thawed and used as appropriate.

(II) Bakery dough, bakery product, and methods for producing the same
(II-1) Bakery dough and method for producing the same The hot water type of the present invention described above can be used as a material for a dough for producing a bakery product (referred to as "bakery dough" in the present invention).

  The bakery dough of the present invention is produced by kneading the hot water obtained by the above method, raw materials for producing the bakery dough (hereinafter, also referred to as "raw materials for dough production"), and optionally water. can do. Specifically, the bakery dough of the present invention can be produced by adding the hot water species of the present invention, the raw material for producing the dough, and optionally water to a mixer and kneading the mixture (straight method). In addition, the bakery dough of the present invention, in addition to the hot water seed obtained by the above method, knead the raw material for the dough production and a part of the water to produce a medium-sized dough that has been fermented, and this is the present invention. It can also be produced by kneading with the hot water seed, the remaining raw material powder for making the dough, and water (middle seed method). The method for producing the bakery dough of the present invention is not limited to these methods as long as the hot water type obtained by the above method is used, and for example, a method using a liquid type, a sweetening medium type method, an autories method. Any known method for producing bakery dough, such as, and a no-time method can be used. The manufacturing process of bakery dough by these methods is hereinafter also simply referred to as "dough manufacturing process".

  Raw materials for producing bakery dough (raw materials for making dough) include, but are not limited to, starch and yeast (baking yeast: raw yeast, dry yeast, instant dry yeast, etc.).

  In the production of bakery dough, one type of starch may be used alone, or two or more types may be used in combination. In the production of bakery dough, the starch quality preferably contains at least one selected from cereals. More preferably, it contains wheat flour.

  Although it depends on the type of bakery product, depending on the type of bakery product to be manufactured, salt or other salt (sodium chloride, potassium chloride, etc.) as necessary; yeast food (inorganic food, organic food, enzyme system) Foods, etc .; Fermented seeds (self-cultured fermented seeds, simple fermented seeds, liquor seeds, levan seeds, panetone seeds, yogurt seeds, sour seeds, etc.); fats and oils (solid or liquid fats (shortening, lard, margarine, butter, etc.) ), Liquid oil (olive oil, vegetable oil, etc.), powdered oil and fat, folded oil and fat); sugars (trehalose, glucose, fructose, lactose, sugar, maltose, isomaltose, honey, malt, etc., liquid or powdery sugars ); Sugar alcohols (sorbitol, maltitol, palatinit, reduced starch syrup, etc., liquid or Powdered sugar alcohols); dairy products (milk, powdered milk (including skim milk powder), creams, cheeses, yogurt, etc.); egg products; thickeners (xanthan gum, guar gum, alginate, pectin, tamarind seeds) Thickening polysaccharides such as gum, carrageenan, locust bean gum, gum arabic, galactomannan, gellan gum; carboxymethyl cellulose, hydroxypropyl methyl cellulose, etc .; swelling agents (baking soda, ammonium carbonate, baking powder, etc.); emulsifiers (lecithin, shore) It is also possible to use sugar fatty acid ester, glycerin fatty acid ester, sorbitan fatty acid ester, etc.), enzymes, bread improving agents, seasonings (amino acids, nucleic acids, etc.), preservatives, flavors and the like. Depending on your preference, dried fruits (raisins, dates, etc.), nuts (cashew nuts, hazelnuts, macadamia nuts, chestnuts, walnuts, pecan nuts, pistachio nuts, coconuts, etc.), seeds (pumpkin seeds, sunflower seeds, mustard seeds) , Sesame, etc.) can also be added.

  The proportion of the hot water of the present invention in the bakery dough is not limited, but is, for example, 2 to 50 mass%, preferably 5 to 40 mass%, more preferably 7 to 30 mass% in 100 mass% of the bakery dough. It can be illustrated. When this is shown as a proportion of the hot water species contained in the bakery dough and the total weight of the starchy substance not derived from the hot water species is 100 mass%, it is not limited, but is, for example, 4 to 110 mass%, preferably 10 to 100. The amount may be, for example, 15 to 90 mass%, more preferably 15 to 90 mass%.

  Those skilled in the art can appropriately set the amounts of raw materials for producing dough other than the type of hot water and starch and the amount of water within the range in which a bakery dough can be produced according to the conventionally known conditions for hot water production.

(II-2) Bakery product and method for producing the bakery product Using the bakery dough thus produced, a bakery product can be produced according to a standard method depending on the type of the bakery product. The bakery product targeted by the present invention is a processed food produced by subjecting a starchy material as a main raw material to heat treatment such as baking, steaming, steaming, fried oil, and microwave cooking, and is not limited. However, for example, Western confectionery such as bread, cake, waffle, crepe, donut, pie, pizza, and biscuit, and Japanese confectionery such as Dorayaki can be mentioned. As bread, meal bread (for example, bread, rye bread, French bread, dry bread, variety red, roll bread, etc.), cooked bread (for example, hot dog, hamburger, pizza pie, etc.), sweet bread (for example, bread bread, ampan bread, cream bread, Examples include raisin bread, melon bread, sweet roll, croissant, brioche, Danish, corone, etc., steamed bread (eg meat bun, Chinese bun, bean bun, etc.), special bread (grisini, English muffin, nan, etc.) and the like. Examples of the cake include steam cake, sponge cake, butter cake, roll cake, hot cake, busse, baumkuchen, pound cake, cheese cake, snack cake and the like. In addition to the above, Western confectionery includes castella, cookie, sable, and the like. In addition to the above, Japanese confectionery also includes buns, taiyaki, and rotisserie.

  As a method for producing a bakery product, for example, when the bakery product is bread, a dough fermentation process and a heating process are performed after the above-mentioned dough production process. Specifically, for example, when bread is produced by the straight method, following the dough production process, a fermentation process (floor), a dividing process, a rounding process, a beating process (bench) process, a molding process, a roasting furnace (final: final) It can be manufactured by performing a fermentation step and a heating step. Also, when bread is produced by the medium seed method, a step of producing the medium seed with a part of the ingredients, fermenting (first fermentation), then adding and kneading the medium seed after fermentation and the remaining ingredients, and then the second step After performing fermentation (a relatively short fermentation process of about 30 minutes), perform a dividing process, a rounding process, a shaving (bench) process, a molding process, a roaster (proofing: final fermentation) process, and a heating process. Can be manufactured in. The operations and conditions adopted in the conventional baking process are adopted as the operations and conditions performed in each of these steps. The heating step can be performed by a method such as baking, steaming, steaming, frying, and microwave cooking, depending on the type of bakery product.

(III) Uses of hot water type (III-1) Use in production of bakery products, etc. According to the hot water type of the present invention described above, when a conventional hot water type prepared without separately adding a vegetable protein is used Compared with, the stickiness (stickiness) of the dough produced by the hot water production method is suppressed or reduced, and as a result, it is possible to improve the poor workability which has been a problem in the conventional hot water production method. it can. The problem in the hot water production method and the improvement effect thereof according to the present invention are not limited to the bakery products described above, and are applicable to all processed foods produced by the hot water production method. Therefore, the hot water type of the present invention is not only used for the production of bakery products, but also various starchy products produced by using the hot type production method, for example, udon, buckwheat, Chinese noodles, pasta, somen, cold wheat, gyoza. And so on, noodles such as raw noodles, dry noodles, semi-raw noodles, boiled noodles, steamed noodles, LL (long life) noodles, frozen noodles, instant noodles (JP2013-223461A, JP2016-127814A). ).

(III-2) Method for reducing tackiness of dough The present invention provides a method for reducing tackiness of a dough using a hot water seed in a hot water production method.

  The method uses, as the hot water species used in the hot water production method, the hot water species of the present invention described above, that is, a hot water species containing a plant protein (externally added plant protein) in addition to wheat flour and water. Can be implemented in. Examples of the externally added vegetable protein include at least one selected from the group consisting of wheat protein, soybean protein, pea protein, and corn protein. The hot water species can be specifically produced through a step of kneading a composition containing wheat flour and an externally added vegetable protein in the presence of water at a temperature of the gelatinization initiation temperature of the flour starch or higher. . In the hot water type, the content ratio of the externally added plant protein is as described in (I) above, and can be incorporated here. Further, the types of wheat flour used for the production of hot water, the auxiliary raw materials, and the method for producing the same are as described in (I) above, and can be similarly incorporated herein.

  According to the method of the present invention, stickiness (stickiness) is suppressed or reduced, as compared with a dough using a hot water type produced without blending a vegetable protein separately from wheat flour, and as a result, conventional It is possible to improve poor production workability and / or deterioration of product quality due to insufficient dough formation, which has been a problem in the hot water production method. The degree of stickiness (stickiness) of the dough using the hot water type is determined by the adhesion of the dough using the hot water type to the wall of the mixer bowl, or the finger when confirming the texture. It can be evaluated from the adhesiveness to. Compared to the dough prepared using a control hot water type prepared without adding vegetable protein separately from wheat flour, the adhesiveness to the wall of the mixer bowl and / or the adhesiveness to the finger when confirming the texture is When suppressed or reduced, the hot water type used in the preparation of the dough has the effect of reducing the tackiness of the dough, and it can be determined that the hot water type can be suitably used in the method of the present invention. it can.

  As described above, in the present specification, the terms “including” and “containing” include the meanings of “consisting of” and “consisting essentially of”.

Hereinafter, the present invention will be described using experimental examples in order to help understanding of the configuration and effects of the present invention. However, the present invention is not limited to these experimental examples. The following experiments were performed at room temperature (25 ± 5 ° C.) and atmospheric pressure unless otherwise stated. In addition, "%" means% by mass unless otherwise specified.
And

Experimental Example 1 Effect of hot water type by blending vegetable protein Using various types of hot water blended with vegetable protein (wheat protein [gluten], soybean protein), bread was produced by the hot water production method, and workability was improved. (Adhesiveness (stickiness) of the dough), dough formability (extendability and elasticity of the dough), appearance (volume) of the bakery product after baking, and texture (moisturizing, moist feeling) were evaluated. In addition, these evaluations were performed by a specialized panel of 5 persons who have experience in bread making and who have been trained in the sensory evaluation test of bakery products.

(1) Hot-water production process Gluten which is wheat protein [Gluten 1: Trade name "A Glu G" manufactured by Glyconutritive Foods Co., Ltd. (protein content: 76%) and gluten 2: Product name "A Guru SS" manufactured by Glico Nutrition Foods Co., Ltd. (protein content: 83.2%)] and soybean protein (Product name "Fujipro-F" manufactured by Fuji Oil Co., Ltd., protein content: 90.8%) was used to prepare hot water according to the formulation shown in Table 1.

  Wheat flour (strong flour or soft flour) and gluten 1, gluten 2 or soybean protein in the above proportions are put into a mixer bowl, and hot water (98 ° C) is put into this, and the mixture is stirred and kneaded for 3 minutes to give a kneading temperature of 65. A hot water type of ℃ was prepared. Each of the obtained hot water types was transferred to a vat and allowed to cool to room temperature. After allowing to cool, 300 g of each kind of hot water was divided into vinyl bags and frozen in a freezer at -25 ° C.

(2) Baking process (straight method)
Breads (Reference Examples, Comparative Examples 1 to 3 and Examples 1 to 4) were produced according to the formulations in Table 2 using the hot water types (Comparative Examples A to B and Examples A to D) prepared above. As the hot water type, the above frozen product was thawed and used.

  Specifically, all the raw materials other than shortening were put into a mixer bowl at the ratio shown in Table 2 above, and kneaded (low speed stirring 4 minutes + medium speed stirring 6 minutes). After shortening was added, further kneading (low speed stirring) 3 minutes + medium speed stirring 4 minutes) to prepare a bakery dough having a forging temperature of 27 ° C. The stirring speed of the low speed stirring was 150 rpm, and the stirring speed of the medium speed stirring was 250 rpm. The resulting bakery dough is fermented for 60 minutes as floor time (temperature 28 ° C, relative humidity 80%), then divided into 80g, rounded, and allowed to rest for 20 minutes at room temperature as bench time, and then rolled. Molded. This was fermented by a proofer (temperature 38 ° C., relative humidity 85%) for 60 minutes and then baked at 200 ° C. for 10 minutes to produce a roll-shaped bakery product (roll bread).

(3) Evaluation Regarding various rolls (reference examples, comparative examples 1 to 3, and examples 1 to 4) manufactured by the above method, 5 specialized panels were given workability (adhesiveness (stickiness) of dough), dough The formability (extendability and elasticity of the dough), the appearance (volume) of the bakery product after baking, and the texture (moisturized, moist feeling) were evaluated based on the criteria shown in Table 3. Among the workability evaluations, "adhesion to fingers when checking the texture" refers to the adhesion of the dough to the fingers when tearing a part of the bakery dough and stretching it with both hands to spread it into a film. evaluated. The dough formability (doughness and elasticity of the dough) was evaluated based on the stretch feeling (thinness of the dough) and resistance when the bakery dough was spread in a film shape in the above "confirmation of the dough feeling". The adhesiveness of the dough, the dough formability (extendability and elasticity), and the volume of the baked bakery product have the following relationships. If the dough is sticky (sticky), the dough will stick to the manufacturing equipment, etc., and the mixing will not be successful. Therefore, since the dough is not sufficiently formed and gluten is not connected, the dough is apparently very well expanded (excessive extensibility), but the elasticity is very weak. For this reason, it is necessary to evaluate the fabric formability by both the extensibility and the elasticity. In addition, if the dough is not sufficiently formed and gluten is not connected, for example, like a balloon, it is difficult to get the volume after baking because the balloon film has many holes. When hot water is used, the volume and texture of the bakery product after baking have the following relationship. When the volume is small, the texture is “not moist or easy to harden”: The fact that the volume is standard is the result of moderate dough formation, and the texture is “moisturized and moist”; It tends to have a "dry texture".

  Table 4 below shows the results of evaluation of the reference example (bread produced by an ordinary production method without using any kind of hot water) based on the evaluation criteria described in Table 3 above. Comparative Examples 1 to 3 and Examples 1 to 4 were evaluated in comparison with the results of this reference example. The tackiness (stickiness) of the dough with respect to workability was comprehensively evaluated based on both the presence or absence of the dough adhered to the wall surface of the mixer bowl and the adherence to the finger when confirming the feeling of the dough. The results are shown in Table 4. In addition, each numerical value shown in Table 4 is a rating determined by consulting after unifying the evaluation criteria by 5 specialist panels.

表４に示すように、従来の湯種（植物性たん白質非外添：比較例Ａ）を用いて、ストレート法により製造したベーカリー生地（比較例１）は、参考例と比較して、粘着性（べたつき）が強くて、製造工程での作業性は悪く、また伸展性が強い一方で弾力性は弱く、生地形成が充分になされていない状態であった。しかし、この生地から製造されたパンは、湯種製法の特徴である食感（もっちり、しっとり感）を充分に備えていた。また、従来の湯種（植物性たん白質非外添）に加えて、小麦たん白であるグルテンを別添加して製造したベーカリー生地（比較例２）は、上記比較例１よりは改善されているものの、依然として粘着性（べたつき）が強く、製造工程での作業性はよくなく、また伸展性と弾力性のバランスが悪く、生地形成状態が不均一で、べたつく部分が残されていた。しかし、この生地から製造したパンも、湯種製法の特徴である食感（もっちり、しっとり感）を充分に備えていた。また、湯種の調製に使用する小麦粉として薄力粉を用いて製造したベーカリー生地（比較例３）は、強力粉を用いたベーカリー生地（比較例１）と同様に粘着性（べたつき）が強く、湯種製法の特徴である食感を備えていたが、もっちり、しっとり感は、比較例１よりもやや劣っていた。

As shown in Table 4, the bakery dough (Comparative Example 1) produced by the straight method using the conventional hot water type (non-external addition of vegetable protein: Comparative Example A) was It was strong (sticky), workability in the manufacturing process was poor, and stretchability was strong, but elasticity was weak, and the fabric was not sufficiently formed. However, the bread produced from this dough had a sufficient texture (tightness and moistness), which is a characteristic of the hot water production method. Further, the bakery dough (Comparative Example 2) produced by separately adding gluten, which is wheat protein, in addition to the conventional hot water type (non-external addition of vegetable protein) is improved as compared with Comparative Example 1 above. However, the stickiness (stickiness) was still strong, the workability in the manufacturing process was not good, the stretchability and elasticity were poorly balanced, and the dough formation was uneven, leaving sticky parts. However, the bread produced from this dough also had a sufficient texture (tightness and moistness) that is characteristic of the hot water production method. In addition, the bakery dough (comparative example 3) produced by using the weak flour as the wheat flour used for preparing the hot water type has strong stickiness (stickiness) like the bakery dough using the strong flour (comparative example 1), and Although it had a texture that is a characteristic of the production method, it was slightly inferior to Comparative Example 1 in moisturizing and moisturizing feeling.

  On the other hand, the bakery dough (Examples 1 to 4) produced by the straight method using a hot water type prepared by mixing the externally added vegetable protein (wheat protein, soybean protein) is a comparative example. It was confirmed that, as compared with Nos. 1 to 3, tackiness (stickiness) was significantly suppressed and workability was significantly improved. The extensibility and elasticity were also close to the standard (reference example), which confirmed that the mixing was sufficiently performed and the dough formation was at the same level as the standard state. Moreover, the bread produced from this dough had a sufficient texture (moisturized, moist feeling) which is a characteristic of the hot water production method.

  From the above, by using a hot water type containing an externally added vegetable protein in the hot water type manufacturing method, the bakery that has been a conventional problem while maintaining the texture (moisturized and moist feeling) peculiar to the hot water type manufacturing method It was confirmed that the tackiness (stickiness) of the dough was suppressed and the manufacturing workability could be improved. In the present experiment, when wheat protein gluten and soybean protein were used as the externally added vegetable protein, the same results were obtained in all cases. It is considered that corn syrup (zein) can be similarly used as a vegetable protein.

  On the other hand, as an externally added protein, instead of a vegetable protein, a bread was produced by a hot water production method using a hot water blended with a milk protein corresponding to an animal protein, but the disadvantages of the hot water species The stickiness (stickiness) of the bakery dough was not suppressed. From this, it can be said that the effect of suppressing stickiness (stickiness) of the bakery dough in the hot water production method of the present invention is a unique effect obtained by using a hot water species to which a vegetable protein is added as an externally added protein. I can say.

Experimental Example 2 Blending amount of vegetable protein in hot water type Content of externally added vegetable protein in hot water type used in hot water production method, workability (stickiness of dough (stickiness of dough)), dough forming property ( The influence on the extensibility and elasticity of the dough), the appearance (volume) of the bakery product after baking, and the texture (moisturized, moist feeling) were examined. In addition, each evaluation was performed based on the same criteria by five expert panels as in Experimental Example 1.

(1) Hot water seed manufacturing process Gluten (wheat protein) was used as a vegetable protein, and hot water seeds were manufactured according to the prescription of Table 5. In Table 5, Comparative Example D is a hot water type having the same formulation as that of Comparative Example A and Example A described above (see Table 1).

  Wheat flour and gluten were added to the mixer bowl in the above proportions, hot water (98 ° C.) was added thereto, and the mixture was kneaded and kneaded for 3 minutes to prepare a hot water seed having a kneading temperature of 65 ° C. The obtained hot water type was transferred to a vat and allowed to cool to room temperature. Next, each 300 g of hot water was divided into plastic bags and frozen in a freezer at -25 ° C.

(2) Baking process (straight method)
Rolls (Comparative Examples 4 to 5, Example 1, and Examples 5 to 11) were produced in the same manner as in Experimental Example 1 according to the formulation shown in Table 6 using each of the hot water types prepared above. As the hot water type, the above frozen product was thawed and used.

[Production conditions]
Mixing: low speed stirring 4 minutes → medium speed stirring 6 minutes → oil / fat → low speed stirring 3 minutes → medium speed stirring 4 minutes Kneading temperature: 27 ° C
Floor time (28 ℃, rh80%): 60 minutes Divided weight: 80g
Bench time: 20 minutes Molding: Roll forming proof (38 ℃, rh85%): 60 minutes Firing: 200 ℃, 10 minutes

(3) Evaluation For various rolls (Comparative Examples 4 to 5 and Examples 5 to 11) produced by the above method, in the same manner as in Experimental Example 1, five specialized panels were given workability (adhesiveness (stickiness) of dough). ), Dough formability (extendability and elasticity of the dough), appearance (volume) of the bakery product after baking, and texture (moisturized, moist feeling) were evaluated based on the criteria shown in Table 3. The results are shown in Table 7. In addition, each numerical value shown in Table 7 is a rating determined by consultation with 5 specialist panels.

  As shown in Table 7, the bakery dough (Comparative Examples 4 and 5) produced by the hot water production method (straight method) using the conventional hot water species (non-external addition of vegetable protein) was compared with the reference example. The adhesiveness (stickiness) was strong, the workability in the manufacturing process was poor, and the extensibility was strong, but the elasticity was weak, and the dough was not sufficiently formed. However, the bread produced from this dough had a sufficient texture (tightness and moistness), which is a characteristic of the hot water production method.

  On the other hand, the bakery dough (Examples 5 to 11) produced by the hot water seed manufacturing method (straight method) using the hot water seed prepared by mixing the externally added vegetable protein (wheat protein) was compared. It was confirmed that in comparison with Examples 4 and 5, tackiness (stickiness) was significantly suppressed and workability was significantly improved. Further, the extensibility and elasticity approached the standard (reference example), and it was confirmed that the dough was formed to the same degree as in the standard state. Moreover, the bread produced from this dough had a sufficient texture (moisturized, moist feeling) which is a characteristic of the hot water production method. It was also confirmed from the results of this experiment that the effects of the present invention are exhibited when the hot water species contains an externally added plant protein. Although not limited, it was confirmed that the effect of the present invention is more suitably exerted when the content of the externally added vegetable protein contained in 100 g of the hot water species is 0.09 g or more.

Claims (11)

  A composition for hot-water seeds containing wheat flour and a vegetable protein added separately from the wheat flour.   The hot water composition according to claim 1, wherein the vegetable protein is at least one selected from the group consisting of wheat protein, soybean protein, pea protein, and corn protein.   A hot water type containing wheat flour, and vegetable protein and water added separately from the wheat flour.   The method for producing a hot water seed according to claim 3, which has a step of kneading the composition for hot water seed according to claim 1 or 2 in the presence of water at a temperature not lower than the gelatinization start temperature of wheat flour.   A bakery dough containing the hot water type according to claim 3 or the hot water type obtained by the manufacturing method according to claim 4.   The bakery dough according to claim 5, further comprising starch and yeast.   A method for producing a bakery dough, comprising: a step of adding at least starchy substance, yeast and water to the hot water species according to claim 3 or the hot water species obtained by the production method according to claim 4, and a step of kneading the mixture.   A bakery product obtained by heating the bakery dough according to claim 5 or 6, or the bakery dough obtained by the manufacturing method according to claim 7.   A method for producing a bakery product, which comprises a step of heating the bakery dough according to claim 5 or 6, or the bakery dough obtained by the production method according to claim 7, after fermenting as necessary.   A method of using the hot water type according to claim 3 or the hot water type obtained by the manufacturing method according to claim 4 for manufacturing a bakery product or a noodle skin product.   In the method for producing hot water, the dough is prepared by using the hot water species according to claim 3 or the hot water species obtained by the manufacturing method according to claim 4 as a hot water species, which reduces stickiness of the dough. how to.