JP6320889B2 - Cookies using whole fat soy flour - Google Patents

Description

  The present invention relates to cookies using a whole fat soybean powder having a specific particle size as a raw material.

  Full-fat soy flour has been added to various foods so far because it contains various nutrients. Full-fat soy flour has been used as a substitute for wheat flour as a raw material for cookies because of its powder shape (Patent Documents 1 and 2). In Example 4 of Patent Document 1, full fat soybean flour having a weight-based average particle size of 25 microns or less and a weight of 50 microns or less in weight of 90% or more is used as a raw material. Cookies were made, and the obtained cookies were delicious without worrying about the blue odor, and had the same feel as those made only from flour. In Example 1 of Patent Document 2, a cookie is made using soybean fine powder having a particle diameter of 80% by mass or more of the powder of 80 μm or less as a raw material, and the obtained cookie is crunchy and crispy. It was a cookie with a feeling.

JP-A-7-39336 JP 2004-236501 A

However, the cookies using full-fat soy flour described in Patent Documents 1 and 2 have not been evaluated at all for shape retention and mouth melting.
An object of the present invention is to provide cookies that not only have a crisp feeling when chewed, but also have shape-retaining properties (hard and difficult to collapse), and also melt well in the mouth.

  As a result of intensive studies, the present inventors use, as a raw material, a full fat soy flour having a specific particle size distribution different from the full fat soy flour described in Patent Documents 1 and 2. Thus, the present inventors have found that cookies that not only have a crisp feeling when chewed, but also have a shape retention property (hard and difficult to collapse), and are well meltable in the mouth, have been completed.

That is, in the first aspect of the present invention, the particle size (15% particle size) at a cumulative frequency of 15% from the finer side of the particle size distribution is 100 to 150 μm, and the cumulative frequency of 50% from the finer side of the particle size distribution. Cookies using full fat soy flour having a particle size (50% particle size) of 100 to 200 μm and a particle size (85% particle size) of 200 to 300 μm at a cumulative frequency of 85% from the finer side of the particle size distribution It is.
A second aspect of the present invention is the cookies according to the first aspect, wherein the blended amount of the full fat soybean powder is 5 to 75% by mass in the raw material.
A third aspect of the present invention is the cookies according to the first or second aspect, characterized by not containing flour.

  According to the present invention, it is possible to produce cookies that not only have a crisp feeling when chewed, but also have shape retention (hard and hard to collapse), and also melt well in the mouth.

It is a graph of the particle size distribution of classified whole fat soybean powder 1-5. It is a graph of the particle size distribution of classified full fat soybean powder 6-10. It is a graph of the particle size distribution of the whole fat soybean powder of Example 1, Comparative Example 1, and Reference Example. It is the graph showing the cumulative frequency of the particle size distribution of the whole fat soybean powder of Example 1, Comparative Example 1, and Reference Example.

The cookies of the present invention are biscuits and cookie dough Western confectionery, for example, hard biscuits, cookies, etc. with less oil and fat, and sub-layers with more oil and fat.
First, the full fat soy flour used for the raw material of the cookies of the present invention will be described.
The whole fat soy flour used in the present invention has a particle size at a cumulative frequency of 15% from the fine side of the particle size distribution (15% particle size) of 100 to 150 μm, and a particle size at the cumulative frequency of 50% from the fine side of the particle size distribution. (50% particle diameter = median particle diameter) is 100 to 200 μm, and the particle diameter (85% particle diameter) at a cumulative frequency of 85% from the finer side of the particle size distribution is 200 to 300 μm.
By using full-fat soy flour having such a particle size distribution as a raw material for cookies, it is possible to obtain cookies that have a crisp feeling and shape retention (hard and difficult to collapse) when chewed, and that melt well in the mouth. it can.

Here, the value of the 15% particle size is the particle size (μm) at a cumulative frequency of 15% from the finer side of the particle size distribution when the particle size of the whole fat soybean powder is measured by a volume reference distribution by the laser diffraction / scattering method. The value of 50% particle size (median particle size) is 50% cumulative from the finer side of the particle size distribution when the particle size of the whole fat soybean powder is measured with a volume reference distribution by laser diffraction / scattering method The particle diameter (μm) is a value at a frequency, and the value of 85% particle diameter is a value of the particle diameter (μm) at a cumulative frequency of 85% from the finer side of the particle size distribution.
As a laser diffraction / scattering type particle size distribution analyzer, for example, MicrotracMT3300EX2 manufactured by Nikkiso Co., Ltd. can be used.

The full-fat soy flour having the above particle size can be produced by subjecting dried soybean (raw material) to dehulling treatment, heat deodorizing treatment, and then drying the dried soybean (raw material) and classifying it with a classifier after grinding treatment.
The pulverization treatment can be performed by impact pulverization, compression pulverization, shear pulverization, friction pulverization, or a combination of these two or more, and the pulverizer pulverizes soybean with a particle diameter of 2 to 600 μm. It is preferable to use a pulverizer that has the ability to do so. As the impact type pulverizer, for example, a machine “ACM Pulverizer Type A ACM-10A” manufactured by Hosokawa Micron Corporation can be used. In the case of ACM pulverizer A type ACM-10A, the size of the pulverized particles can be adjusted by appropriately adjusting the pulverization rotor rotation speed, the classification rotor rotation speed, and the air volume.
The classification can be performed by classification using gravity, classification using inertial force, classification using centrifugal force, classification using drag, or a combination of these two or more.
As a classifier using gravity and centrifugal force, for example, a machine “Micron Separator MS-1” manufactured by Hosokawa Micron Corporation can be used. In the case of the micron separator MS-1, the whole fat soybean powder can be classified into powders having different particle size distributions by appropriately adjusting the classification rotor rotation speed and the air volume.

  As the raw material for the full fat soy flour of the present invention, dried soybeans distributed in the market can be used. For example, domestic soybeans such as Enrei, Ryuhou, Toyohomare, Miyagi Shirome, and foreign soybeans such as IOM can be used, regardless of whether they are genetically modified or non-genetically modified. In addition, soybean can be used regardless of whether it has not germinated or germinated.

  The use amount of the whole fat soy flour of the present invention is preferably 5 to 75% by mass, more preferably 10 to 65% by mass, most preferably 20 to 55% by mass, most preferably in the raw materials of cookies. Preferably it is 40-50 mass%.

  The cookies of the present invention can use the raw materials usually used for cookies except for using the full fat soy flour having the specific particle size distribution described above. Non-powder flour, water, egg, sugar, sweetener, vegetable oil, confectionery oil, margarine, shortening, butter, milk, concentrated milk, fresh cream, skim milk powder, condensed milk, cheese, fruit, processed fruit products, cocoa, Cocoa powder, chocolates, nuts, liquors, baking powder, baking soda, fragrance, acidulant, salt, colorant, antioxidant, and the like can be used.

The cookies of the present invention can also use only the full fat soy flour of the present invention as flour. In this case, cookies that do not contain flour can be obtained.
The cookies of the present invention can also use flour such as wheat flour other than full fat soy flour. In this case, the amount of flour other than full fat soy flour is 100 parts by weight of full fat soy flour of the present invention. It is preferable that it is 70 mass parts or less, and it is more preferable that it is 1-50 mass parts.

The raw material other than the flour of the cookies of the present invention can be used in the amount normally used for cookies.
Moreover, the manufacturing method of the cookies of this invention can be manufactured with the manufacturing method of a normal cookie except using the full-fat soybean powder of this invention as a flour raw material.
Below, the manufacturing method of cookies is demonstrated.

The cookies of the present invention can be produced by a normal method for producing cookies except that full fat soybean powder having a specific particle size is used as a raw material.
If the example of a specific manufacturing method is given, the whole fat soybean powder of a specific particle diameter and other raw materials will be mixed with a mixer, and a dough will be made. The obtained dough is put together and aged at 3 to 10 ° C., then molded and baked in an oven.

For baking the dough, a batch-type fixed kiln, a continuous tunnel oven, a reel-type oven, a microwave oven, or the like can be used.
The baking temperature of the dough is preferably 160 to 190 ° C, and more preferably 170 to 180 ° C. The firing time varies depending on the size of the baking mold used and the oven used.

  EXAMPLES Next, although an Example is shown and this invention is demonstrated further in detail, this invention is not limited to a following example.

[Manufacture of full fat soybean flour]
After molting North American soybean, it was deodorized by heating to the extent that the blue odor of soybean was removed and dried. Next, the obtained beans are pulverized by a pulverizer with a classification mechanism (manufactured by Hosokawa Micron Corporation, machine name: ACM Pulverizer A type ACM-10A), and the pulverized product is classified by a classifier (manufactured by Hosokawa Micron Corporation, machine name: Classification was performed with a micron separator MS-1) to obtain classified full fat soybean powders 1 to 10 having different particle size distributions. Tables 1 and 2 show the conditions of pulverization and classification. The classification mechanism attached to the ACM pulverizer A type ACM-10A is classification for the purpose of sizing (classification for re-grinding coarse particles). Like micron separator MS-1, small particles and large particles It is not a classification function that separates
Further, the particle size distribution of the obtained classified whole fat soybean powder was measured with a laser diffraction / scattering type particle size distribution meter “Microtrac MT3300EX2” manufactured by Nikkiso Co., Ltd. The numerical values of the measurement results are shown in Tables 3 to 6, and the graphs of the measurement results are shown in FIGS.
Next, the obtained classified full fat soy flour 1 was used as the full fat soy flour of Example 1, and the classified full fat soy flour 10 was used as the full fat soy flour of Comparative Example 1. The particle size distribution of the whole fat soybean powder of Example 1 and Comparative Example 1 was measured with a laser diffraction / scattering particle size distribution meter “Microtrac MT3300EX2” manufactured by Nikkiso Co., Ltd. The numerical values of the measurement results are shown in Table 7 and Table 8, and the measurement results in graph form are shown in FIG.
In addition, using the whole fat soy flour (trade name: Alpha Plus HS-600) sold by Nisshin Oilio Group Co., Ltd. as reference examples, the numerical values of the particle size distribution measurement results are shown in Table 7 and Table 8, and the measurement results are shown. A graph is shown in FIG.
From the results in Table 7 and Table 8, the maximum frequency (%) of the particle size distribution of each full-fat soybean flour was determined.
Further, the cumulative frequency of the particle size distribution of the whole fat soybean flour of Example 1, Comparative Example 1, and Reference Example was determined by a laser diffraction / scattering particle size distribution meter “Microtrac MT3300EX2” manufactured by Nikkiso Co., Ltd. The results are shown in Table 9, and a graph of the results is shown in FIG.
In addition, arbitrary% particle diameter is a value of the particle diameter in arbitrary accumulation frequency from the fine side of a particle size distribution when the particle diameter of full-fat soybean powder is measured by a volume reference distribution by a laser diffraction / scattering method.

  From the results of Tables 7 and 8, the maximum frequency of the particle size distribution of the whole fat soybean flour of Example 1, Comparative Example 1 and Reference Example is 9.62%, 5.76% and 5.88%, respectively. I understood it.

  From the results of Table 9, the particle size at 15% cumulative frequency (15% particle size) from the finer side of the particle size distribution is 100 to 150 μm, and the particle size at 50% cumulative frequency from the finer side of the particle size distribution (50% particle size). ) Is 100 to 200 μm, and the particle size (85% particle size) at a cumulative frequency of 85% from the fine side of the particle size distribution is defined as 200 to 300 μm, so that the whole fat of Example 1, Comparative Example 1 and Reference Example It was found that soybean powder can be distinguished from the numerical value obtained from the particle size distribution.

[Manufacture of cookies (Example 2, Comparative Example 2)]
Using the whole fat soybean flour of Example 1 and Comparative Example 1 obtained, cookies having the composition shown in Table 10 were produced. First, margarine and sugar were put in a mixer bowl, and mixed at a second speed for 3 minutes using a beater in a Hobart mixer. Then, whole egg and water were added and mixed for 1 minute at 2nd speed, and after addition of whole fat soybean powder, it was mixed for 40 seconds at 1st speed to make a dough. The obtained dough was put together and aged for 1 hour in the refrigerator. After aging, the dough was molded into a thickness of 5 mm and a diameter of 4.3 cm, and baked in an oven (170 ° C., 13 minutes).
In addition, the Nisshin Oillio Group Co., Ltd. product, Nisshin Royal Wide 100 was used for the margarine.

[Sensory evaluation of cookies]
The flavor and texture of the manufactured cookies were evaluated by 10 panelists using the evaluation criteria shown in Table 11, and the average score was calculated. The results are shown in Table 12.

  As can be seen from the results of Table 12, the cookies of Example 2 are the same as those of Comparative Example 2 (the full fat soy flour of Comparative Example 1 having the same particle size distribution as that of the commercially available full fat soy flour of the Reference Example). Compared to the above, the shape retention, the crispness when chewed, and the mouth melting were all excellent.

  The cookies of the present invention can be widely used in the food field.

Claims (3)

  The particle size at 15% cumulative frequency (15% particle size) from the finer side of the particle size distribution is 100 to 150 μm, and the particle size at 50% cumulative frequency (50% particle size) from the finer side of the particle size distribution is from 100 to 150 μm. Cookies using full fat soy flour having a particle size (85% particle size) of 200 to 300 μm at a cumulative frequency of 85% from the finer side of the particle size distribution.   The cookie according to claim 1, wherein a blending amount of the full fat soybean powder is 5 to 75% by mass in the raw material.   The cookies according to claim 1 or 2, wherein the cookies do not contain flour.

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