JP5593316B2 - Method for producing soymilk - Google Patents

Description

  The present invention relates to soy milk, a method for producing the same, and a soy milk processed food obtained by processing soy milk.

  Soy milk has long been used as a raw material for tofu and yuba in Japan. In addition, soy milk has not only been inferior in nutritional value compared with milk, but has also been found to be effective in lifestyle-related diseases. Soy milk is attracting attention not only in Japan but also overseas, and recently, it is often used as a functional food for drinking.

  Here, soy milk often has a peculiar taste and soybean odor derived from soybeans. For this reason, the need for flavor improvement for soy milk is high.

  In contrast, for example, by treating soy milk using the reducing power of conidia of microorganisms belonging to the genus Aspergillus, n-hexanal, among other various compounds that cause soybean odor, A method of deodorizing an aliphatic aldehyde or aromatic aldehyde has been proposed (see Patent Document 1).

  In addition, for example, a method for improving the flavor of a soybean product by bringing the soybean product into contact with a culture of Streptococcus thermophilus 3261 strain has been proposed (see Patent Document 2).

  In addition, for example, a method for improving unpleasant taste has been proposed by washing soybeans after crushing and washing them with water vapor, followed by high-temperature treatment in 150 to 200 ° C. superheated steam (see Patent Document 3). ).

Japanese Examined Patent Publication No. 45-9210 Japanese Patent No. 2871379 JP 2003-93008 A

  However, the methods described in Patent Document 1 and Patent Document 2 may cause an adverse effect on hygiene by planting bacteria on soy milk or the like. In addition, since a process for removing the bacteria is required, the production cost may increase.

  Moreover, since the soy milk obtained by the method described in Patent Document 3 has a unique flavor produced when roasting soybeans, it could only deal with specific tastes.

  Here, none of the above-described methods aims to remove unpleasant flavors, and does not improve the flavor of soy milk or adjust the flavor.

The first aspect of the present invention is a method for producing soy milk from germination-inducing soybeans as a first embodiment, wherein a specific amount of potassium salt is added and dissolved as immersion water in which soybeans are immersed in the immersion step. It aims at providing the manufacturing method of the soymilk which can adjust the flavor of the obtained soymilk by using made water.
Moreover, the present invention is a method for producing soy milk from germination-inducing soybeans as a second form, wherein the soaking water is used to soak soybeans in the soaking step, and a specific amount of phosphoric acid and / or It aims at providing the manufacturing method of the soymilk which can adjust the flavor of the obtained soymilk by using the water which added and dissolved the phosphate.

  The present invention is (A) immersion water in which a potassium salt is added and dissolved, wherein the soybeans are immersed in immersion water having a potassium ion concentration of 20 to 300 mmol / L derived from the added potassium salt. A soybean separation step for separating the soybeans soaked in the soaking step from the soaking water, and a gas containing oxygen in the soybeans during and / or after the soaking step. And (B) a grinding step of grinding the germination-inducing soybeans obtained in the germination-inducing treatment step to obtain kure, and (C) the grinding step. The present invention relates to a method for producing soymilk comprising a step of separating okara from kure obtained from the step or a step of homogenizing the obtained kure.

  Moreover, it is preferable that the said (A) process has a water contact process which makes soybeans contact with water or the said immersion water after the said soybean isolation | separation process.

  Moreover, in the said water contact process, while the said soybeans contact with water, it is preferable that the potassium ion adhering to the surface of soybeans is removed by this water.

  Further, the immersion water is an immersion water in which phosphoric acid and / or phosphate is further added and dissolved, and the concentration of phosphate ions derived from the added phosphoric acid and / or phosphate is 0.00. It is preferable that it is 1-10 mmol / L.

  Moreover, the said immersion water is the immersion water which further added and dissolved the sodium salt, and it is preferable that the density | concentration of the sodium ion derived from the added sodium salt is 50-220 mmol / L.

  The ratio of the molar amount of potassium ions derived from the added potassium salt to the molar amount of alkali metal ions derived from the potassium salt and sodium salt added to the immersion water (molar amount of potassium ions / mol of alkali metal ions) The amount is preferably 2/10 or more and less than 5/10.

  The present invention relates to a soymilk processed food obtained by processing soymilk obtained by the above-described method for producing soymilk.

  Moreover, it is preferable that the processed soymilk food is selected from tofu, yuba, and soymilk powder.

  The present invention includes (A) a soaking step in which soybeans are soaked in soaking water, a soy separating step in which soy beans soaked in the soaking step are separated from soaking water, and / or during the soaking step. After the soybean separation step, a gas contact step in which a gas containing oxygen is brought into contact with soybeans, and a germination induction treatment step including (B) the germination induction treatment soybeans obtained in the germination induction treatment step are ground. And (C) a homogenization treatment step for homogenizing the okara obtained by the okara separation step for removing okara from the kure obtained in the grinding step or the kure obtained by the grinding step; A method for adjusting the flavor of soy milk produced by the production method comprising the steps of: (A) In the immersion step included in the step (A), the immersion water is obtained by adding a potassium salt and dissolved therein. The concentration of the derived potassium ion is 20 to 300 mmol / L The use of certain soaking water, relates to a method for adjusting the taste of soy milk.

  Further, the immersion water is an immersion water in which phosphoric acid and / or phosphate is further added and dissolved, and the concentration of phosphate ions derived from the added phosphoric acid and / or phosphate is 0.00. It is preferable that it is 1-10 mmol / L.

  Moreover, the said immersion water is the immersion water which added and melt | dissolved the sodium salt further, Comprising: It is preferable that the density | concentration of the sodium ion derived from the added sodium salt is 50-220 mmol / L.

  The present invention is (A) immersion water in which a potassium salt is added and dissolved, wherein the soybeans are immersed in immersion water having a potassium ion concentration of 20 to 300 mmol / L derived from the added potassium salt. A soybean separation step for separating the soybeans soaked in the soaking step from the soaking water, and / or contacting the soybeans with oxygen-containing gas during and / or after the soaking step. A germination induction treatment step including a gas contact step; (B) a grinding step of grinding the germination induction soybeans obtained in the germination induction treatment step to obtain kure; and (C) the grinding step. It is related with the soymilk obtained by the manufacturing method including the okara separation process which removes okara from kure obtained by this, or the homogenization process process of homogenizing the kure obtained by this grinding process.

  Further, the immersion water is an immersion water in which phosphoric acid and / or phosphate is further added and dissolved, and the concentration of phosphate ions derived from the added phosphoric acid and / or phosphate is 0.00. It is preferable that it is 1-10 mmol / L.

  Moreover, the said immersion water is the immersion water which added and melt | dissolved the sodium salt further, Comprising: It is preferable that the density | concentration of the sodium ion derived from the added sodium salt is 50-220 mmol / L.

  The present invention is (D) immersion water in which phosphoric acid and / or phosphate is added and dissolved, and the concentration of phosphate ions derived from the added phosphoric acid and / or phosphate is 4 to 20 mmol. A soaking step in which soy beans are soaked in soaking water that is / L, a soy separating step in which soy beans soaked in the soaking step are separated from the soaking water, and / or during the soaking step. After the step, a germination induction treatment step comprising contacting a soybean-containing gas with oxygen-containing gas, and (E) germination induction treatment soybeans obtained in the germination induction treatment step And (F) a method for producing soymilk comprising a step for separating okara from kure obtained from the kneading step or a step for homogenizing the obtained kure. .

  Moreover, it is preferable that the said (D) process has a water contact process which makes soybeans contact with water or the said immersion water after the said soybean isolation | separation process.

  Moreover, in the said water contact process, while the said soybeans contact with water, it is preferable that the phosphate ion adhering to the surface of soybeans is removed by this water.

  The present invention relates to a soymilk processed food obtained by processing soymilk obtained by the above-described method for producing soymilk.

  Moreover, it is preferable that the processed soymilk food is selected from tofu, yuba, and soymilk powder.

  The present invention includes (D) a soaking step in which soybeans are soaked in soaking water, a soy separating step in which soy beans soaked in the soaking step are separated from soaking water, and / or during the soaking step. After the soybean separation step, a gas contact step in which a gas containing oxygen is brought into contact with soybeans, and a germination induction treatment step comprising (E) grinding the germination induction treatment soybeans obtained in the germination induction treatment step. And (F) a homogenization treatment step for homogenizing the okara obtained from the kure obtained by the grinding step or the okara separation step for removing the okara from the kure obtained by the grinding step. A method for adjusting the flavor of soymilk produced by a production method comprising: dipping water in which phosphoric acid and / or phosphate is added and dissolved in the dipping step included in step (D) , Concentration of phosphate ions derived from added phosphate and / or phosphate By using the soaking water is 4~20mmol / L, to a method of adjusting the flavor of soybean milk.

  The present invention is (D) immersion water in which phosphoric acid and / or phosphate is added and dissolved, and the concentration of phosphate ions derived from the added phosphoric acid and / or phosphate is 4 to 20 mmol. / L soaking the soybeans in the immersion water that is / L, the soy separating step that separates the soybeans soaked in the soaking step from the soaking water, and / or during the soaking step Then, a gas contact step for contacting soybeans with oxygen-containing gas, and a germination induction treatment step comprising: (E) grinding the germination induction treatment soybeans obtained in the germination induction treatment step to Production comprising: a grinding step to be obtained; and (F) a homogenization treatment step of homogenizing the okara obtained from the kure obtained by the grinding step or the okara separation step of removing the okara from the kure It relates to soy milk obtained by the method.

According to the present invention, as a first form, a method for producing soymilk from germination-inducing soybeans, wherein a specific amount of potassium salt is added as immersion water for immersing soybeans in an immersion step. By using the dissolved water, it is possible to provide a method for producing soymilk that can adjust the flavor of the obtained soymilk.
Moreover, according to the present invention, as a second form, a method for producing soymilk from germination-inducing soybeans, wherein the soaking water in which the soybeans are soaked in the soaking step is a specific amount of phosphoric acid and It is possible to provide a method for producing soymilk that can adjust the flavor of the obtained soymilk by using water dissolved by adding phosphate.

  Hereinafter, a first embodiment of the present invention will be described. The present invention is not limited to the following embodiments, and can be implemented with appropriate modifications within the scope of the object of the present invention. In addition, although description may be abbreviate | omitted suitably about the location where description overlaps, the meaning of invention is not limited.

First, the manufacturing method of the soymilk in this embodiment is demonstrated.
The method for producing soymilk in the present embodiment includes at least step (A) [a germination induction treatment step for inducing germination treatment of soybeans] and step (B) [grinding to obtain a kure by grinding germination induction soybeans. Step] and (C) step [okara separation step excluding okara from kure or homogenization step for homogenizing kure].

  Here, soybeans indicate beans of the genus Soybean. Examples of soybeans of the genus soybean include fully-ripened soybeans (mature soybeans, whole soybeans, sometimes simply called soybeans), and green soybeans. Examples of fully-ripened soybeans include commercially available dried soybeans, black soybeans, and green soybeans.

  As soybeans belonging to the genus Soybean, for example, Japanese soybeans such as Enrei, Ryuhou, Toyohomare, and Miyagi Shirome, foreign soybeans such as US soybeans such as IOM, genetically modified soybeans, and non-genetically modified soybeans can be used. Specific examples of foreign soybeans include products sold by Nisshin Oillio Group, Inc .: landmarks and the like.

Hereinafter, the process (A), the process (B), and the process (C) will be described.
First, step (A) will be described.
The germination induction treatment step (A) includes a dipping step, a soybean separation step, and a gas contact step. The germination induction treatment step preferably includes a water contact step after the soybean separation step.

First, the immersion process will be described.
The soaking step is a step of soaking soybeans in soaking water in which potassium salt is added and dissolved. Specifically, the dipping step is dipping water in which potassium salt is added and dissolved, and the soybeans are dipped in dipping water in which the concentration of potassium ions derived from the added potassium salt is 20 to 300 mmol / L. It is a process to make.

The immersion water is an amount such that the concentration of potassium ions derived from the potassium salt is 20 to 300 mmol / L, preferably 50 to 150 mmol / L, more preferably 80 to 120 mmol / L. It is obtained by adding and dissolving.
For example, in order to obtain immersion water in which the concentration of potassium ions derived from the added potassium salt is 100 mmol / L, when potassium nitrate is used as the potassium salt, 10.1 g of potassium nitrate is added to 1 liter of tap water. Is done.

  By soaking soybeans in soaking water in which potassium salt is added and dissolved, soy milk and processed soy milk products obtained from germination-inducing soybeans described later have a strong sense of richness. Therefore, the richness of soymilk and processed soymilk can be adjusted by adjusting the amount of potassium salt added to the immersion water. When the concentration of added potassium salt-derived potassium ions is more than 300 mmol / L, the flavor of soy milk and processed soy milk products has a strong feeling, but tends to have a strong bitter taste. Moreover, the flavor of soymilk and processed soymilk tends to have an unpleasant taste such as a metallic taste.

  Here, in addition to a potassium salt, 1 type, or 2 or more types chosen from phosphoric acid, a phosphate, a sodium salt, a magnesium salt, and a calcium salt are suitably added to immersion water, and are melt | dissolved. In addition to potassium salt, soy milk and processed soy milk products are flavored by using immersion water in which one or more of phosphoric acid, phosphate, sodium salt, magnesium salt, and calcium salt are added and dissolved. It is possible to adjust in a wide range.

In addition to potassium salt, when adding phosphoric acid and / or phosphate as dissolution water, the added phosphoric acid and / or phosphate is derived from the added phosphoric acid and / or phosphate. It is added in such an amount that the concentration of phosphate ions is 0.1 to 10 mmol / L, preferably 1 to 7 mmol / L, more preferably 2 to 4 mmol / L.
For example, in order to obtain immersion water in which the concentration of phosphate ions derived from added phosphoric acid and / or phosphate is 3 mmol / L, when using phosphoric acid, the phosphoric acid is 1 liter of tap water. 0.294 g is added to water.

  Soy milk and processed soy milk products obtained from germination-inducing soybeans described later are concentrated by immersing soybeans in immersion water in which potassium salt and phosphoric acid and / or phosphate are added and dissolved. A feeling becomes strong and sweetness is also increased. Therefore, by adjusting the amount of phosphoric acid and / or phosphate added to the immersion water, the balance between richness and sweetness in the flavor of soymilk and processed soymilk is adjusted.

When the sodium salt is further added and dissolved in the immersion water in addition to the potassium salt, the sodium salt to be added is preferably in an amount such that the concentration of sodium ions derived from the added sodium salt is 50 to 220 mmol / L. Is added in an amount of 140 to 200 mmol / L, more preferably 140 to 160 mmol / L.
For example, in order to obtain immersion water having a sodium ion concentration of 150 mmol / L derived from the added sodium salt, when sodium chloride is used as the sodium salt, the sodium chloride is added to 8 liters of tap water. 8g is added.

  Soymilk and soymilk processed products obtained from germination-inducing soybeans described later by soaking soybeans in immersion water in which potassium salt and sodium salt are added and dissolved are those with a refreshing aftertaste. Become. Therefore, by adjusting the amount of sodium salt added to the immersion water, the balance between the richness of the soymilk and the processed soymilk and the refreshing feeling of the aftertaste is adjusted.

  In addition, soymilk and soymilk processing obtained from germination-inducing soybeans described later by immersing soybeans in immersion water in which potassium salt, phosphoric acid and / or phosphate, and sodium salt are added and dissolved As for the flavor in the product, the increase in bitterness is suppressed, the richness becomes stronger, the sweetness increases, and the aftertaste is refreshed. Therefore, by adjusting the amount of potassium salt, phosphoric acid and / or phosphate, and sodium salt added to the immersion water, soymilk and processed soymilk products with a refreshing aftertaste can be obtained while having a rich feeling and sweetness. It is done.

Ratio of molar amount of potassium ion derived from added potassium salt to molar amount of alkali metal ion derived from potassium salt and sodium salt added to the immersion water (molar amount of potassium ion / molar amount of alkali metal ion) Is preferably 2/10 or more and less than 5/10, more preferably 3/10 or more and less than 5/10, and most preferably 3/10 or more and 4/10 or less.
When the ratio of the molar amount of potassium ions derived from the added potassium salt to the molar amount of alkali metal ions derived from the potassium salt and sodium salt added to the immersion water is within the above range, a soy milk having a good flavor is obtained. It is done.

Here, the alkali metal ions particularly mean potassium ions and sodium ions. By adjusting the addition amount of sodium salt and the addition amount of potassium salt to the immersion water, the ratio of the molar amount of potassium ions to the molar amount of alkali metal ions is adjusted to the above range.
For example, 10.1 g of potassium nitrate and 8.8 g of sodium chloride are added and dissolved in 1 liter of tap water, and added to the added potassium salt and the molar amount of alkali metal ions derived from the sodium salt. The ratio of the molar amount of potassium ions derived from the potassium salt and the sodium salt is adjusted to 4/10. That is, the ratio of the molar amount of the potassium ion to the molar amount of the alkali metal ion is 4/10 by adjusting the amount of potassium nitrate to be added and the amount of sodium chloride to the above amounts, respectively. Is obtained.

  As water used for immersion water, tap water, river water, industrial water, ion exchange water, etc. can be used, for example. The immersion water can be prepared, for example, by adding and dissolving the above-mentioned salt such as potassium or phosphoric acid in tap water. When the added salt is dissolved, stirring may be performed as necessary.

Examples of the potassium salt include potassium chloride, potassium nitrate, potassium carbonate, potassium dihydrogen phosphate and the like.
Examples of phosphoric acid and phosphate include phosphoric acid, sodium dihydrogen phosphate, potassium dihydrogen phosphate, and calcium phosphate.
Examples of the sodium salt include sodium chloride and sodium dihydrogen phosphate. Examples of the magnesium salt include magnesium chloride, magnesium nitrate, and magnesium carbonate. Examples of the calcium salt added to the immersion water include calcium chloride, calcium nitrate, and calcium carbonate.
In addition, the salt which has both potassium and phosphoric acid, for example, potassium dihydrogen phosphate etc., can be used as a potassium salt and can also be used as a phosphate. Similarly, salts having both sodium and phosphoric acid, such as sodium dihydrogen phosphate, can be used as the sodium salt and can also be used as the phosphate.

Immersion (treatment) can be performed by, for example, storing soybeans in a tank of a predetermined capacity, injecting immersion water into the tank, and holding the same under the following immersion conditions.
The temperature of the immersion water is preferably 10 to 40 ° C, more preferably 15 to 35 ° C, and most preferably 20 to 30 ° C.
The immersion time is preferably 0.5 to 36 hours, more preferably 1 to 10 hours, and most preferably 1 to 5 hours.

Next, the soybean separation process will be described.
The soybean separation step is a step for separating the soaked soybeans from the immersion water.
In the soybean separation step, for example, the immersion water stored together with soybeans in a tank with a predetermined capacity is removed from the tank, or the soybeans immersed in immersion water stored in a tank with a predetermined capacity are taken out of the tank. Then, the soybeans are separated from the immersion water.
In the soybean separation step, soybeans are separated from the immersion water containing potassium ions.

Next, the gas contact process will be described.
The gas contact step is a step of bringing soybeans into contact with a gas containing oxygen.
The gas contact step may be either during the immersion step and / or after the separation step. That is, the gas contact treatment may be performed during the dipping process, may be performed after the soybean separation process, or may be performed both during the dipping process and after the separation process.

When the gas contact process is in the immersion process, that is, when the gas contact process in the gas contact process is performed in the immersion process, as the gas contact process method, for example, a gas containing oxygen in the immersion water (for example, air or oxygen) A method of bringing a gas containing oxygen into contact with soybeans can be exemplified by bubbling and blowing.
Here, it is preferable that the blowing amount of the gas containing oxygen is 50 ml / min to 3000 ml / min with respect to 100 g of soybeans before the dipping step. Moreover, the gas containing oxygen can be blown continuously or intermittently.

When the gas contact process is after the immersion process, that is, when the gas contact process in the gas contact process is performed after the immersion process, as the gas contact treatment method, for example, a gas containing oxygen in soybeans separated by the soybean separation process A method of contacting (for example, air or oxygen) can be exemplified.
Here, the contact time with the gas is preferably 8 to 30 hours, preferably 8 to 25 hours, and more preferably 8 to 22 hours.

Then, a water contact process is demonstrated.
In the present embodiment, the step (A) may include a water contact step after the soybean separation step.
A water contact process is a process which contacts the soybeans isolate | separated from the immersion water in the soybean separation process with water or immersion water. In the water contact step, germination in soybeans is promoted by contacting the soybeans with water or immersion water.

  Specifically, the water contact treatment in the water contact step is performed by immersing soybeans separated from the immersion water in the soybean separation step into water or immersion water, or separated from the immersion water in the soybean separation step. It can carry out by sprinkling water or immersion water to soybeans.

  Moreover, it is preferable that a water contact process is implemented several times alternately with a gas contact process. Specifically, the water contact step is preferably repeated alternately with the gas contact step every 2 to 4 hours. For example, it is preferable to repeat a water contact treatment for immersing in a tank filled with water or the like for 2 to 4 hours and a gas contact treatment for taking soybeans out of the tank and holding them in the atmosphere for 2 to 4 hours. Moreover, for example, it is preferable to spray the separated soybeans every 2 to 4 hours.

  Water used in the water contact step includes tap water, river water, industrial water, ion exchange water, and the like. Further, in the water contact step, the immersion water in the present embodiment can be used in addition to water. Here, the immersion water may be the immersion water separated in the separation step, or may be newly prepared immersion water.

  Here, in the water contact step, by bringing water into contact with the separated soybeans, potassium ions and the like attached to the surface of the soybeans are removed. That is, in the water contact step, the soybeans are washed by bringing water into contact with the separated soybeans. The water contact process also functions as a cleaning process. That is, potassium ions contained in the immersion water do not substantially transfer to soy milk or the like in soy milk or the like obtained from soybeans whose surface has been washed with water in the water contact step.

In the first embodiment, “germination-inducing treated soybeans” refers to soybeans obtained through the germination-inducing treatment step, which is the step (A) described above. In the second embodiment to be described later, “germination-inducing soybean” refers to soybeans obtained through the germination-inducing treatment step (D) of the second embodiment.
Here, “germination-inducing treated soybeans” in the first embodiment does not indicate only germinated soybeans. As described above, the “germination-inducing soybean” may be any soybean that has undergone the germination-inducing treatment process (A), and soybeans that have not actually germinated but have germinated in seeds. It includes the kind.
Hereinafter, “germination rate”, which is the proportion of soybeans that have actually germinated, is used as an index, but “germination-inducing soybeans” in the first embodiment are not limited to those that satisfy the following “germination rate”.

Here, germination means that plant buds, pollen, seeds, or spores start to grow and develop ("Ojirin", 2nd edition, Sanseido), growth of each organ of embryos differentiated in seeds (Masuda) Yoshio, “Plant Physiology”, Rev. 14th edition, Baifukan, October 2001, P51-57), and the like, “germination” in this embodiment means “bud in soybean, or "The state where the roots broke through the epidermis."
And the germination rate in this embodiment refers to the proportion of beans that have been arbitrarily sprouted out of 50 soybeans that have been arbitrarily extracted.

When the germination rate of the germination-inducing soybean is 40% to 100%, the flavor of the obtained soymilk and processed soymilk is preferably improved.
In addition, when the germination rate is 40% to 80%, which is a case where germination-inducing soybeans that are not actually germinated but have germination activity in the seeds are contained, the obtained soymilk and processed soymilk are similarly obtained. This is preferable because the flavor is improved.
Here, as described above, the germination-inducing soybeans in the present embodiment are not limited to soybeans that satisfy the germination rate.

Next, step (B) will be described.
The grinding process which is (B) process is a process which grinds the germination induction processing soybeans obtained at the germination induction treatment process, and obtains kure. As an apparatus to grind, a mascolloider and a grinder can be illustrated.
The grinding process in the grinding process is performed, for example, by grinding the germination-induced treated soybeans with water added thereto (while pouring water).
In addition, for example, first, 1 to 5 times, preferably 1.5 to 3 times, more preferably 1.5 to 2 times the mass of water is added to the mass of germination-inducing soybeans. . The water added to soybeans is preferably 5 to 90 ° C, more preferably 5 to 20 ° C.
Next, the grinding process is performed by grinding 1-2 times while adjusting the slit width with a mass collider.
As described above, kure is produced by grinding the germination-inducing soybeans in the presence of water.

Next, step (C) will be described.
(C) A process includes an okara separation process or a homogenization process.
(C) A process may include only an okara separation process, and may include only a homogenization process process. In the step (C), the liquid from which the okara is separated in the okara separation step may be further homogenized.
Here, in the case of commercially available soy milk, okara is often separated by okara separation treatment. Soy milk that has been homogenized (also referred to as homogenization) without being separated from okara is called so-called whole-grain soy milk.

The okara separation process is a process of removing okara from kure obtained in the grinding process.
Okara is removed from Kure by centrifuging the Kure obtained in the grinding process.
Specifically, okara is removed from the kure by performing a centrifugal separation process at 500 rpm, preferably 1000 rpm, more preferably 1500 rpm by a predetermined centrifugal separator.

Okara is removed from the kure by filtering the kure obtained in the grinding process with a filter press. Specifically, okara is removed from the kure by filtering the kure with a filter press at a pressure of 0.01 to 0.05 MPa.
Here, for the purpose of facilitating the solidification of soybean protein, Kure may be heat-treated at around 100 ° C. immediately before the separation process in the okara separation process.
(C) When a process includes only a grinding process, the liquid from which okara was removed from Kure becomes the soymilk in this embodiment.

The homogenization treatment step is a step of homogenizing the kure obtained in the grinding step.
The homogenization treatment can be performed using, for example, a (high pressure) homogenizer. The pressure condition during the homogenization treatment is preferably 5 to 50 MPa, more preferably 10 to 40 MPa, and most preferably 15 to 30 MPa.
(C) When a process includes only a homogenization process, the liquid which homogenized Kure becomes the soymilk in this embodiment.

  (C) When the step includes an okara separation step and a homogenization step, the liquid (soy milk) obtained by separating okara from kure is, for example, under a pressure condition of 5 to 50 MPa using a homogenizer, Further, homogenization processing (homogenization processing) is performed.

  The soy milk in this embodiment may be unadjusted soy milk or adjusted soy milk. Unadjusted soy milk is a soy milk that does not contain sugar, juice juice, vegetable oil, salt, maltodextrin, emulsifier, carrageenan, fragrance, potassium citrate, etc. Adjust the taste.

  Moreover, the soymilk in this embodiment is suitably filled in a container as needed. The material, shape, etc. of the container to be filled are not particularly limited.

  The soy milk in the present embodiment is used as a raw material for various foods and processed to become a soy milk processed food. Here, the processing refers to a heat treatment, a cooling treatment, a drying treatment, a powdering treatment, etc. performed when manufacturing food.

  Examples of the soy milk processed food include beverages, soups, prepared dishes, processed soybean foods, processed meat foods, processed wheat foods, processed fats and oils, dairy products, and soy milk powder. In particular, tofu, yuba, and soy milk powder using soy milk as the main raw material can exhibit the effects of the present invention more.

  Examples of processed soybean foods include tofu, yuba, gandou, tofu, soy sauce, and miso. Examples of processed meat foods include ham and sausage. Examples of processed flour foods include bread, cakes, snacks, noodles, pasta, and cereals. Examples of the processed oil and fat food include dressings and acidic oil-in-water emulsions. Examples of dairy products include cheese, yogurt, and pudding.

Here, in particular, when using the soy milk whose flavor is adjusted in this embodiment as a raw material for tofu, yuba, gandou, tofu, soy sauce, and miso, which are processed soybean foods, The flavor is improved. For this reason, a soybean processed food can be mentioned as a suitable example as a processed soymilk processed food of the soymilk in this embodiment.
In particular, tofu and yuba, which are directly affected by the flavor of soy milk, can be cited as particularly preferred examples.
Here, tofu and yuba can be produced by a known method except that the soy milk of the present invention is used as a raw material.

  For example, tofu is added to the soy milk (stored at 3 to 5 ° C.) in this embodiment so that the magnesium chloride content is 0.3 to 0.5% by mass, stirred well, and then put in a steamer to ignite. Can be produced by steaming and solidifying for 2 to 4 minutes at low heat for 13 to 17 minutes on low heat.

  As for the flavor of tofu obtained by the above-mentioned production method, a rich feeling is improved as in the case of soy milk. The flavor in tofu has the same characteristics as in soy milk.

  For example, yuba is formed on the surface of soy milk by pouring the soy milk in this embodiment into a flat bat and heating it in a 500 W microwave oven for about 3 minutes. After the yuba membrane formed on the surface is drawn up, it is heated in a 500 W microwave oven for about 1 minute, and the yuba membrane formed on the surface is drawn up again. Thereafter, a plurality of yuba can be obtained by repeating the same operation every minute.

  As for the flavor of yuba obtained by the above-mentioned manufacturing method, a rich feeling is improved like soybean milk. The flavor in Yuba has the same characteristics as soy milk.

  According to the present embodiment, a method for producing soy milk from germination-inducing soybeans, wherein water is obtained by adding a specific amount of potassium salt and dissolving as soaking water in which soybeans are soaked in the soaking step. Can be used to provide a method for producing soy milk that can adjust the flavor of the obtained soy milk.

  Specifically, soy milk with a strong richness can be produced by using immersion water in which a specific amount of potassium salt is added and dissolved. In addition, when soaking water in which a specific amount of potassium salt and phosphoric acid and / or phosphate are added and dissolved is used, soy milk with a stronger richness and increased sweetness can be produced. In addition, when using immersion water in which a specific amount of potassium salt, phosphoric acid and / or phosphate, and sodium salt are added and dissolved, without increasing bitterness, the richness is increased and sweetness is increased. Soy milk with a clean aftertaste can be produced.

  Furthermore, by using the obtained soymilk as a raw material and processing it, a processed soymilk food with an increased richness and sweetness can be produced.

  Next, a second embodiment of the present invention will be described. In the description of the second embodiment, the description of the same part as the first embodiment will be omitted as appropriate, and the description will focus on the points that are different from the first embodiment.

First, the manufacturing method of the soymilk in this embodiment is demonstrated.
The method for producing soymilk in the present embodiment includes at least step (D) [a germination induction treatment step for inducing germination treatment of soybeans] and step (E) [grinding to obtain germs by grinding germination induction treatment soybeans. Process] and (F) process [okara separation process excluding okara from okara, or homogenization process for homogenizing kure].

Hereinafter, the step (D), the step (E), and the step (F) will be described.
First, step (D) will be described.
(D) The germination induction treatment process, which is a process, includes an immersion process, a soybean separation process, and a gas contact process. The germination induction treatment step preferably includes a water contact step after the soybean separation step. In addition, since it is the same as that in the (A) process of 1st embodiment already demonstrated about the soybean separation process and a gas contact process, description here is abbreviate | omitted.

  The dipping process in the present embodiment is a process in which soybeans are dipped in dipping water in which phosphoric acid and / or phosphate is added and dissolved. Specifically, the dipping step is dipping water in which phosphoric acid and / or phosphate is added and dissolved, and the concentration of phosphate ions derived from the added phosphoric acid and / or phosphate is 4 This is a step of immersing soybeans in immersion water of ˜20 mmol / L. The step (D) in the present embodiment is different from the step (A) in the first embodiment in that the phosphate ion having the above concentration is included in the immersion water as an essential component.

The immersion water is an amount such that the concentration of phosphate ions derived from phosphoric acid and / or phosphate is 4 to 20 mmol / L, preferably 5 to 10 mmol / L. More preferably, it is obtained by adding and dissolving an amount of 6 to 8 mmol / L.
For example, in order to obtain immersion water in which the concentration of added phosphate and / or phosphate ions derived from phosphate is 7 mmol / L, when using phosphate as phosphate and / or phosphate Phosphoric acid is added in an amount of 0.69 g per liter of tap water.

  By soaking soybeans in soaking water in which phosphoric acid and / or phosphate is added and dissolved, soy milk and processed soy milk products obtained from germination-inducing soybeans described later have a strong sense of richness. Sweetness increases. Therefore, by adjusting the amount of phosphoric acid and / or phosphate added to the immersion water, the richness and sweetness of soymilk and soymilk processed products can be adjusted, and the balance between the richness and sweetness can be adjusted. It is. Here, when the concentration of the phosphate ions derived from the added phosphoric acid and / or phosphate is less than 4 mmol / L, the thick feeling of the obtained soymilk is not improved, which is not preferable. Further, the concentration of phosphate ions derived from the added phosphoric acid and / or phosphate can be higher than 20 mmol / L, but even if higher than 20 mmol / L, further effects can be obtained. difficult.

  Here, in addition to phosphoric acid and / or a phosphate, 1 type, or 2 or more types chosen from a sodium salt, a magnesium salt, and a calcium salt are suitably added to immersion water, and are dissolved. In addition to phosphoric acid and / or phosphate, one or two or more of sodium salt, magnesium salt, and calcium salt are added and dissolved, soy milk and processed soy milk are It is possible to adjust in a wide range.

Examples of phosphoric acid and phosphate include phosphoric acid, sodium dihydrogen phosphate, potassium dihydrogen phosphate, and calcium phosphate.
Examples of the sodium salt include sodium chloride and sodium dihydrogen phosphate. Examples of the magnesium salt include magnesium chloride, magnesium nitrate, and magnesium carbonate. Examples of the calcium salt added to the immersion water include calcium chloride, calcium nitrate, and calcium carbonate.
In addition, the salt which has both sodium and phosphoric acid, for example, sodium dihydrogen phosphate, can be used as a sodium salt, and can also be used as a phosphate.

  The soybeans that have undergone the dipping process are subjected to a soybean separation process and a gas contact process, as in the process (A) of the first embodiment described above. In the soybean separation step, soybeans are separated from the immersion water containing phosphate ions.

Then, a water contact process is demonstrated.
Also in this embodiment, like the (A) process of the above-mentioned first embodiment, the (D) process may include a water contact process after the soybean separation process. A water contact process is implemented in the procedure similar to the above-mentioned 1st embodiment. Therefore, in the following description, the description of the overlapping content will be omitted, and the description will focus on the different parts.

  In the water contact step of the present embodiment, phosphate ions attached to the surface of soybeans are removed by bringing water into contact with the separated soybeans. That is, in the water contact step, the soybeans are washed by bringing water into contact with the separated soybeans. The water contact process also functions as a cleaning process. That is, in the soy milk obtained from the soybeans whose surface has been washed with water in the water contact step, phosphate ions contained in the immersion water are not substantially transferred to the soy milk.

In the second embodiment, “germination-inducing treated soybeans” refers to soybeans obtained through the germination-inducing treatment step, which is the step (D) described above.
Here, the “germination-inducing treated soybeans” in the second embodiment does not indicate only germinated soybeans. As described above, the “germination-inducing soybean” may be any soybean that has undergone the germination-inducing treatment process (D), and soybeans that have not actually germinated but have germinated in seeds. It includes the kind.
Hereinafter, “germination rate”, which is the proportion of soybeans that have actually germinated, is used as an index. However, “germination-inducing soybeans” in the second embodiment are not limited to those satisfying the “germination rate” shown below.

Here, germination means that plant buds, pollen, seeds, or spores start to grow and develop ("Ojirin", 2nd edition, Sanseido), growth of each organ of embryos differentiated in seeds (Masuda) Yoshio, “Plant Physiology”, Rev. 14th edition, Baifukan, October 2001, P51-57), and the like, “germination” in this embodiment means “bud in soybean, or "The state where the roots broke through the epidermis."
And the germination rate in this embodiment refers to the proportion of beans that have been arbitrarily sprouted out of 50 soybeans that have been arbitrarily extracted.

In this embodiment, when the germination rate of the germination-inducing soybeans is 60% to 100%, the flavor of the obtained soymilk and processed soymilk is preferably improved.
In addition, when the germination rate is 60% to 90%, including 70% to 90%, which is a case of including germination-inducing soybeans that are not actually germinated but have germination activity in seeds, Similarly, the flavor of the obtained soy milk and processed soy milk is preferably improved, so that it is preferable.
Here, as described above, the germination-inducing soybeans in the present embodiment are not limited to soybeans that satisfy the germination rate.

  The germination induction-treated soybeans that have undergone the step (D) are then subjected to the steps (E) and (F). The step (E) in the present embodiment is the same as the step (B) in the first embodiment, and the step (F) in the present embodiment is the same as the step (C) in the first embodiment. Therefore, in the description of this embodiment, the description of the step (E) and the step (F) is omitted. By going through the steps (E) and (F), soy milk is obtained from the germination-inducing soybeans. The obtained soymilk may be made as unprepared soymilk or adjusted soymilk, and further processed into a soymilk processed food, as in the first embodiment.

  According to this embodiment, a method for producing soy milk from germination-inducing soybeans, wherein a specific amount of phosphoric acid and / or phosphate is added as immersion water in which soybeans are immersed in the immersion step By using the water dissolved in this manner, a method for producing soymilk that can adjust the flavor of the obtained soymilk can be provided.

Specifically, by using immersion water in which a specific amount of phosphoric acid and / or phosphate is added and dissolved, soy milk with a strong richness and increased sweetness can be produced.
Furthermore, by using the obtained soymilk as a raw material and processing it, a processed soymilk food with an increased richness and sweetness can be produced.

  EXAMPLES Hereinafter, although an Example demonstrates this invention further in detail, this invention is not limited to these Examples.

[Examples 1 to 5, Comparative Examples 1 to 7]
400 g of soybean (Nisshin Shokai Co., Ltd., trade name “Enray”) was immersed in 1 L of various immersion waters listed in Table 1 for 2 hours (immersion water temperature: 30 ° C.) to obtain immersion soybean (immersion process). The immersion water used was prepared by adding potassium nitrate and phosphoric acid to tap water and dissolving them so that the concentration of potassium ions and phosphate ions was a predetermined amount. For example, in the case of immersion water used in Example 3, it was prepared by adding 10.1 g of potassium nitrate and 0.294 g of phosphoric acid to 1 L of tap water and dissolving.
For comparison, the same experiment was conducted using potassium nitrate and tap water to which phosphoric acid was not added as immersion water to obtain immersion soybean (Comparative Example 1).
In Table 1, the concentration of added potassium ions or phosphate ions is shown as the molar concentration (mmol / L) of potassium ions or phosphate ions per liter.

After soaking the soaked soybeans from the soaking water and draining them (soybean separation process, gas contact process), soaking soaked from soaking water to remove potassium ions and phosphate ions from the soaking water from the soaking water surface. Soybeans were washed with tap water (water contact process). Thereafter, the soaked soybean was transferred to a dark place and allowed to stand at 30 ° C. for 20 hours while contacting water so that the surface of the soybean was not dried, thereby obtaining a germination-inducing treated soybean.
About 50 beans were arbitrarily extracted from the obtained germination-inducing soybean, and the ratio of the germinated beans, that is, the germination rate was examined. As a result, germination rates were 73% (Example 1), 76% (Example 2), 67% (Example 3), 80% (Example 4), 50% (Example 5) and 67% (respectively). Comparative Example 1), 72% (Comparative Example 2), 70% (Comparative Example 3), 69% (Comparative Example 4), 20% (Comparative Example 5), 8% (Comparative Example 6), 0% (Comparative Example) 7).
Next, 1.2 L of water was added to 800 g of the obtained germination-inducing treated soybean, and grinding was performed by a tabletop soymilk maker (manufactured by Tokyo Unicom Co., Ltd., type CL-010) to produce kure ( Grinding process). The obtained kure was filtered with a filter press, and then the portion was removed using a 70-mesh sieve to obtain unsterilized soymilk (okara separation step). The unsterilized soymilk was autoclaved at 105 ° C. for 15 minutes to produce the soymilk of Comparative Examples 1-7 and Examples 1-5.

[Taste evaluation]
Taste evaluation was performed by a 5-point method for each item of sweetness, bitterness, and richness when 4 panelists ate 10 ml of each of the soy milks of Comparative Examples 1 to 7 and Examples 1 to 5. Specifically, with respect to the flavor evaluation of each sample when the evaluation value of Comparative Example 1 is 3 points, a score is assigned based on the following evaluation criteria, and the average value of the evaluation scores of all panelists is calculated. It went by. The results are shown in Table 2.
In the flavor evaluation of the present invention, when the sweetness evaluation score was the same as or higher than the bitterness evaluation score and the richness was greater than 3.0, it was determined that the flavor was good.
(Evaluation criteria for sweetness, bitterness, and richness)
5 points; felt significantly stronger than Comparative Example 1 4 points; felt stronger than Comparative Example 1 3 points; equivalent to Comparative Example 1 2 points; felt weaker than Comparative Example 1 1 point; Comparative Example 1 Feels much weaker than

As shown in Table 2, it is found that soy milk having a strong richness and increased sweetness can be obtained by using soaking water in which a specific amount of potassium salt and phosphoric acid is added and dissolved as soaking water for soybeans. It was. Moreover, when the addition amount of potassium salt was increased and the potassium ion density | concentration in immersion water was made high, the tendency for the thick feeling and sweetness of the obtained soymilk to increase was seen. However, when the potassium ion concentration by addition became 500 mmol / L or more, bitterness increased and the overall flavor tended to decrease.
From this, it is possible to change the flavor (concentration, sweetness) of the soy milk obtained by changing the amount of potassium salt added to the immersion water in which the soybean is immersed when producing the germination-inducing soybean. I understand that.

[Examples 6 to 9, Comparative Example 8]
The soaking milk of Examples 6-9 and Comparative Example 8 was manufactured from the germination induction-treated soybean obtained using the various immersion waters described in Table 3 and the germination-inducing soybean. In addition, Example 5 in Table 3 is the same as that in Table 1, and Comparative Example 8 in Table 3 produces germination-inducing treated soybeans using the same immersion water as Comparative Example 1 in Table 1. Soy milk is produced from the germination-inducing soybean obtained. The soy milk of Examples 6 to 9 and Comparative Example 8 was prepared in the same manner as the soy milk of Comparative Examples 1 to 7 and Examples 1 to 5 except that the various components contained in the immersion water were those shown in Table 3. Manufactured.
About 50 beans were arbitrarily extracted from the obtained germination-inducing soybean, and the ratio of the germinated beans, that is, the germination rate was examined. As a result, germination rates were 49% (Example 6), 50% (Example 5), 41% (Example 7), 40% (Example 8), 46% (Example 9), 75% ( Comparative Example 8).

[Taste evaluation]
About the flavor of the soy milk of Examples 6-9 when the evaluation value of Comparative Example 8 is 3 points, the evaluation is performed in the same manner as the soy milk evaluation method of Examples 1-5 and Comparative Examples 1-7. went. The results are shown in Table 4. In addition, Example 5 in Table 4 is the same as that in Table 2.

As shown in Table 4, it is found that soy milk with a strong richness and increased sweetness can be obtained when soaking water in which specific amounts of potassium salt and phosphoric acid are added and dissolved is used as soaking water for soybeans. It was. Moreover, when the added phosphate ion concentration was 3 mmol / L, the sweetest soy milk was obtained.
From this, it is possible to change the flavor (concentration, sweetness) of the soy milk obtained by changing the amount of phosphoric acid added to the immersion water in which the soybean is immersed when producing the germination-inducing soybean. I understand that.

[Examples 10 to 12, Comparative Example 9]
The soaking milk of Examples 10-12 and Comparative Example 9 was manufactured from the germination induction-treated soybean obtained using the immersion water containing various components described in Table 5 and the germination induction-treated soybean obtained. In Comparative Example 9 in Table 5, germination-inducing soybeans were produced using the same immersion water as in Comparative Example 1 in Table 1, and soy milk was produced from the germination-inducing soybeans obtained. The soy milk of Examples 10 to 12 and Comparative Example 9 was prepared in the same manner as the soy milk of Examples 1 to 5 and Comparative Examples 1 to 7 except that the various components contained in the immersion water were those shown in Table 5. Manufactured. In addition, sodium chloride was used as a sodium (Na) source in the immersion water.
Here, the molar amount of the potassium ion derived from the added potassium salt with respect to the molar amount of the alkali metal ion derived from the potassium salt and sodium salt added in the immersion water used in Examples 10 to 12 and Comparative Example 9 The ratios were 3.3 / 10 (Example 10), 4/10 (Example 11), 3.3 / 10 (Example 12), and 0 (Comparative Example 9), respectively.

[Taste evaluation]
About the flavor of the soymilk of Examples 10-12 when the value of evaluation of Comparative Example 9 is 3 points, the evaluation is performed in the same manner as the evaluation method of the soymilk of Examples 1-5 and Comparative Examples 1-7. went. The results are shown in Table 6.

As shown in Table 6, when soaking water in which specific amounts of potassium salt, phosphoric acid, and sodium salt are added and dissolved as soaking water for soybeans, the richness is enhanced without increasing the bitterness. It was found that sweetness can be increased and soymilk with a better flavor balance can be obtained. Moreover, when the sodium salt was added to the immersion water, the aftertaste of soy milk became clear.
Therefore, when producing germination-inducing soybeans, the flavor of soymilk (richness, sweetness, refreshing, and so on) can be changed by changing the amount of potassium salt, phosphoric acid, and sodium salt added to the soaking water. It can be seen that it is possible to change the feeling).

[Examples 13 and 14, Comparative Example 10]
By adding potassium nitrate, phosphoric acid and sodium chloride to tap water and dissolving, Comparative Example 1 (potassium ion 0 mmol / L, phosphate ion 0 mmol / L, sodium ion 0 mmol / L), Example 3 (potassium ion 100 mmol) / L, phosphate ion 3 mmol / L, sodium ion 0 mmol / L), and each of the same components used in Example 11 (potassium ion 100 mmol / L, phosphate ion 3 mmol / L, sodium ion 150 mmol / L) Immersion water was prepared.
In 1 L of each immersion water, 400 g of soybean (Nisshin Shokai Co., Ltd., trade name “Enrei”) was immersed for 2 hours (immersion water temperature: 30 ° C.) to obtain immersion soybean (immersion process). After separating the soaked soybeans from the soaking water and draining them (soybean separation process, gas contact process), they are separated from the soaking water in order to remove potassium ions, phosphate ions and sodium ions from the soaking water from the surface of the soaking soybeans. The soaked soybeans were washed with tap water (water contact process). Thereafter, the soaked soybeans were transferred to a dark place and germinated at 30 ° C. for 20 hours while contacting with water so that the surface of the soybeans was not dried to obtain germination-inducing treated soybeans.
Next, 1.2 L of water was added to 800 g of the obtained germination-inducing treated soybean, and grinding was performed by a tabletop soymilk maker (manufactured by Tokyo Unicom Co., Ltd., type CL-010) to produce kure ( Grinding process). The obtained kure was filtered with a filter press, and then the portion was removed using a 70-mesh sieve to obtain unsterilized soymilk (okara separation step). The unsterilized soymilk was autoclaved at 105 ° C. for 15 minutes to produce soymilk.
The obtained soymilk was used as a raw material and processed to produce tofu, which is a processed soymilk food.
Specifically, first, bittern was added to 100 g of soymilk so that the magnesium chloride content was 0.4 mass%, and the mixture was well stirred. The mixture was placed in a steamer and heated for 3 minutes with high heat, and then heated for 15 minutes with low heat to solidify tofu. Tofu obtained from soy milk produced using the same component immersion water as Comparative Example 1 was used as Tofu of Comparative Example 10, and tofu obtained from soy milk produced using the same component immersion water as Example 3 was carried out. Tofu obtained from soy milk produced using soaking water having the same components as in Example 11 was used as Tofu in Example 13.

[Taste evaluation]
Taste evaluation was performed by the 5-point method for each item of sweetness, bitterness, and richness when 10 panelists ate the tofu of Examples 13 and 14 and Comparative Example 10. Specifically, with respect to the flavor evaluation of each sample when the evaluation value of Comparative Example 10 is 3 points, the score is given based on the following evaluation criteria, and the average value of the evaluation scores of all panelists is calculated. It went by. The results are shown in Table 7.
In the flavor evaluation of the present invention, when the sweetness evaluation score was the same as or higher than the bitterness evaluation score and the richness was greater than 3.0, it was determined that the flavor was good.
(Evaluation criteria for sweetness, bitterness, and richness)
5 points; felt considerably stronger than Comparative Example 10 4 points; felt stronger than Comparative Example 10 3 points; equivalent to Comparative Example 10 2 points; felt weaker than Comparative Example 10 1 point; Feels much weaker than

  As is apparent from Table 7, the tofu (Example 13 and Example 14) produced using the soymilk of the present invention was produced from the soymilk produced from the normal germination-inducing soybean (Comparative Example). The sweetness and richness increased more than 10). From this, it was shown that the soymilk processed food of the present invention also has a good flavor as compared with the conventional product, similar to the soymilk of the present invention.

[Examples 15 and 16, Comparative Example 11]
By adding potassium nitrate, phosphoric acid and sodium chloride to tap water and dissolving, Comparative Example 1 (potassium ion 0 mmol / L, phosphate ion 0 mmol / L, sodium ion 0 mmol / L), Example 3 (potassium ion 100 mmol) / L, phosphate ion 3 mmol / L, sodium ion 0 mmol / L), and each of the same components used in Example 11 (potassium ion 100 mmol / L, phosphate ion 3 mmol / L, sodium ion 150 mmol / L) Immersion water was prepared.
Soy milk was produced in the same manner as in Examples 13 and 14 and Comparative Example 10 using each immersion water. By using the obtained soymilk as a raw material and processing it, yuba, which is a soymilk processed food, was produced.
Specifically, first, 100 g of soy milk was put into a flat bat and heated in a 500 W microwave for 3 minutes. After the formed yuba film was drawn up with chopsticks, the remaining soy milk was heated in a 500 W microwave oven for 1 minute to draw up the formed yuba film again. Thereafter, the same operation was repeated every minute to obtain yuba. The yuba obtained from the soy milk produced using the same component immersion water as in Comparative Example 1 was used as the Yuba of Comparative Example 11, and the yuba obtained from the soy milk produced using the same component immersion water as in Example 3 was used. The yuba obtained from soy milk produced using the same components as in Example 11 was used as the yuba in Example 15.

[Taste evaluation]
Taste evaluation was performed by the 5-point method for each item of sweetness, bitterness, and richness when 10 panelists ate the yuba of Examples 15 and 16 and Comparative Example 11. Specifically, for the flavor evaluation of each sample when the evaluation value of Comparative Example 11 is 3 points, the score is given based on the following evaluation criteria, and the average value of the evaluation scores of all panelists is calculated. It went by. The results are shown in Table 8.
In the flavor evaluation of the present invention, when the sweetness evaluation score was the same as or higher than the bitterness evaluation score and the richness was greater than 3.0, it was determined that the flavor was good.
(Evaluation criteria for sweetness, bitterness, and richness)
5 points; felt considerably stronger than Comparative Example 11 4 points; felt stronger than Comparative Example 11 3 points; equivalent to Comparative Example 11 2 points; felt weaker than Comparative Example 11 1 point; Feels much weaker than

  As is apparent from Table 8, yuba (Example 15 and Example 16) produced using the soy milk of the present invention was produced from soy milk produced from normal germination-inducing soybean (comparative example). The sweetness and richness increased more than 11). From this, it was shown that the soymilk processed food of the present invention also has a good flavor as compared with the conventional product, similar to the soymilk of the present invention.

[Examples 17 to 19, Comparative Examples 12 to 14]
400 g of soybean (Nisshin Shokai Co., Ltd., trade name “Enray”) was immersed in 1 L of various immersion waters listed in Table 9 for 2 hours (immersion water temperature: 30 ° C.) to obtain immersion soybeans (immersion process). The immersion water used was prepared by adding and dissolving phosphoric acid in tap water so that the concentration of phosphate ions would be a predetermined amount. For example, in the case of immersion water used in Example 18, 0.685 g of phosphoric acid was added and dissolved in 1 L of tap water.
For comparison, the same experiment was performed using tap water to which phosphoric acid had not been added as immersion water to obtain immersion soybean (Comparative Example 12).
In Table 9, the concentration of added phosphate ions is shown as the molar concentration of phosphate ions per liter (mmol / L).

After separating the soaked soybeans from the soaking water and draining them (soybean separation process, gas contact process), the soaked soy beans separated from the soaking water are treated with tap water in order to remove phosphate ions from the soaking water from the surface of the soaking soybeans. (Water contact process). Thereafter, the soaked soybeans were transferred to a dark place and germinated at 30 ° C. for 20 hours while contacting with water so that the surface of the soybeans was not dried to obtain germination-inducing treated soybeans.
About 50 beans were arbitrarily extracted from the obtained germination-inducing soybean, and the ratio of the germinated beans, that is, the germination rate was examined. As a result, the germination rates were 75% (Example 17), 81% (Example 18), 81% (Example 19), 79% (Comparative Example 12), 88% (Comparative Example 13), 71% ( Comparative Example 14).
Next, 1.2 L of water was added to 800 g of the obtained germination-inducing treated soybean, and grinding was performed by a tabletop soymilk maker (manufactured by Tokyo Unicom Co., Ltd., type CL-010) to produce kure ( Grinding process). The obtained kure was filtered with a filter press, and then the portion was removed using a 70-mesh sieve to obtain unsterilized soymilk (okara separation step). The unsterilized soymilk was autoclaved at 105 ° C. for 15 minutes to produce the soymilk of Examples 17 to 19 and Comparative Examples 12 to 14.

[Taste evaluation]
Taste evaluation was performed by a five-point method for each item of sweetness, bitterness, and richness when four panelists ate 10 mL of each of the soy milk of Examples 17 to 19 and Comparative Examples 12 to 14. Specifically, with respect to the flavor evaluation of each sample when the evaluation value of Comparative Example 12 is 3 points, the score is assigned based on the following evaluation criteria, and the average value of the evaluation scores of all panelists is calculated. It went by. The results are shown in Table 10.
In the flavor evaluation of the present invention, when the sweetness evaluation score was the same as or higher than the bitterness evaluation score and the richness was greater than 3.0, it was determined that the flavor was good.
(Evaluation criteria for sweetness, bitterness, and richness)
5 points; felt considerably stronger than Comparative Example 12 4 points; felt stronger than Comparative Example 12 3 points; equivalent to Comparative Example 12 2 points; felt weaker than Comparative Example 12 1 point; Comparative Example 12 Feels much weaker than

From the results in Table 10, it was found that when the amount of phosphoric acid added to the immersion water was increased, the sweetness of soy milk increased and the richness became stronger.
From this, it is possible to change the flavor (concentration, sweetness) of the soy milk obtained by changing the amount of phosphoric acid added to the immersion water in which the soybean is immersed when producing the germination-inducing soybean. I understand that.

Claims (21)

The manufacturing method of soymilk including the process of following (A) (B) and (C).
(A) Immersion water in which potassium salt is added and dissolved, and an immersion step of immersing soybeans in immersion water having a potassium ion concentration of 20 to 300 mmol / L derived from the added potassium salt; A soybean separation step for separating soybeans immersed in the immersion step from the immersion water, and a gas contact step for contacting a gas containing oxygen in the soybeans during and / or after the soybean separation step. And a germination-inducing treatment step (B) including a germination-inducing treatment soy beans obtained in the germination-inducing treatment step to obtain kure by grinding (C) from the kure obtained in the grinding step. Homogenization process to homogenize the kure obtained in the okara separation process or the grinding process   The said (A) process is a manufacturing method of the soymilk of Claim 1 which has a water contact process which makes soybeans contact with water or the said immersion water after the said soybean isolation | separation process. In the water contact step,
The method for producing soymilk according to claim 2, wherein the soybeans come into contact with water, and potassium ions attached to the surface of the soybeans are removed by the water.   The immersion water is an immersion water in which phosphoric acid and / or phosphate is further added and dissolved, and the concentration of phosphate ions derived from the added phosphoric acid and / or phosphate is 0.1 to 0.1. It is 10 mmol / L, The manufacturing method of the soymilk of any one of Claim 1 to 3.   The immersion water is an immersion water in which a sodium salt is further added and dissolved, and the concentration of sodium ions derived from the added sodium salt is 50 to 220 mmol / L. The method for producing soymilk according to 1.   The ratio of the molar amount of potassium ions derived from the added potassium salt to the molar amount of alkali metal ions derived from the potassium salt and sodium salt added to the immersion water is 2/10 or more and less than 5/10. The method for producing soymilk according to 5.   The soymilk processed food obtained by processing the soymilk obtained by the method for producing soymilk according to any one of claims 1 to 6.   The soymilk processed food according to claim 7, wherein the processed soymilk is selected from tofu, yuba, and soymilk powder. It is a method for adjusting the flavor of soy milk produced by the production method comprising the following steps (A), (B) and (C), and in the immersion step included in the step (A), a potassium salt is added. The method of adjusting the flavor of soymilk by using the immersion water which is dissolved immersion water and the density | concentration of the potassium ion derived from the added potassium salt is 20-300 mmol / L.
(A) Soaking step in which soybeans are soaked in soaking water, soy separating step in which soy beans soaked in the soaking step are separated from soaking water, and / or after the soy separating step A gas contact step in which a gas containing oxygen is brought into contact with soybeans, and a germination induction treatment step comprising (B) grinding to obtain kure by grinding the germination induction treatment soybeans obtained in the germination induction treatment step Step (C) Okara separation step for removing okara from kure obtained in the grinding step or homogenization treatment step for homogenizing the kure obtained in the grinding step   The immersion water is an immersion water in which phosphoric acid and / or phosphate is further added and dissolved, and the concentration of phosphate ions derived from the added phosphoric acid and / or phosphate is 0.1 to 0.1. The method for adjusting the flavor of soymilk according to claim 9, wherein the flavor is 10 mmol / L.   The soaking milk according to claim 9 or 10, wherein the soaking water is a soaking water in which a sodium salt is further added and melted, and a concentration of sodium ions derived from the added sodium salt is 50 to 220 mmol / L. How to adjust the flavor. Soy milk obtained by a production method including the following steps (A), (B) and (C).
(A) Immersion water in which potassium salt is added and dissolved, and an immersion step of immersing soybeans in immersion water having a potassium ion concentration of 20 to 300 mmol / L derived from the added potassium salt; A soybean separation step for separating the soybeans immersed in the immersion step from the immersion water, and a gas contact step for contacting the oxygen-containing gas with the soybeans during and / or after the soybean separation step. A germination induction treatment step including (B) A germination induction treatment soybean obtained in the germination induction treatment step is ground to obtain kure (C) A kara from the kure obtained in the grinding step Homogenization process to homogenize the kure obtained in the okara separation process or the grinding process   The immersion water is an immersion water in which phosphoric acid and / or phosphate is further added and dissolved, and the concentration of phosphate ions derived from the added phosphoric acid and / or phosphate is 0.1 to 0.1. The soy milk according to claim 12, which is 10 mmol / L.   14. The soy milk according to claim 12, wherein the immersion water is immersion water in which a sodium salt is further added and melted, and a concentration of sodium ions derived from the added sodium salt is 50 to 220 mmol / L. The manufacturing method of soymilk including the process of following (D) (E) and (F).
(D) Immersion water in which phosphoric acid and / or phosphate is added and dissolved, and the concentration of phosphate ions derived from the added phosphoric acid and / or phosphate is 4 to 20 mmol / L A soaking step soaking soybeans in soaking water, a soy separating step in which soy beans soaked in the soaking step are separated from the soaking water, and during and / or after the soy separating step, soy beans A gas contact step in which a gas containing oxygen is contacted, and a germination induction treatment step including (E) a grinding step of grinding the germination induction treated soybeans obtained in the germination induction treatment step to obtain kure ( F) A homogenization treatment step of homogenizing the okara obtained by the okara separation step excluding okara from the kure obtained in the grinding step or the kure obtained by the grinding step   The said (D) process is a manufacturing method of the soymilk of Claim 15 which has a water contact process which makes soybeans contact with water or the said immersion water after the said soybean isolation | separation process. In the water contact step,
The method for producing soymilk according to claim 16, wherein the soybeans come into contact with water and phosphate ions attached to the surface of the soybeans are removed by the water.   A soymilk processed food obtained by processing soymilk obtained by the method for producing soymilk according to any one of claims 15 to 17.   The soymilk processed food according to claim 18, wherein the soymilk processed food is selected from tofu, yuba, and soymilk powder. (D) A method for adjusting the flavor of soy milk produced by the production method including the steps (E) and (F), wherein in the dipping step included in the step (D), phosphoric acid and / or phosphorus By using immersion water in which acid salt is added and dissolved, and the concentration of phosphate ions derived from the added phosphoric acid and / or phosphate is 4 to 20 mmol / L, soy milk To adjust the flavor.
(D) Soaking step of immersing soybeans in immersion water, soybean separation step of separating soybeans immersed in the immersion step from the immersion water, and / or after the soybean separation step A gas contact step of contacting soybeans with a gas containing oxygen, and a germination induction treatment step comprising (E) grinding to obtain a kure by grinding the germination induction treatment soybeans obtained in the germination induction treatment step Step (F) Okara separation step for removing okara from kure obtained in the grinding step or homogenization treatment step for homogenizing kure obtained in the grinding step Soymilk obtained by the manufacturing method including the following steps (D), (E) and (F).
(D) Immersion water in which phosphoric acid and / or phosphate is added and dissolved, and the concentration of phosphate ions derived from the added phosphoric acid and / or phosphate is 4 to 20 mmol / L Soaking step for immersing soybeans in soaking water, soy separating step for separating soybeans soaked in soaking step from soaking water, and soy beans during and / or after soy separating step A gas contact step in which a gas containing oxygen is brought into contact, and a germination induction treatment step (E) including a germination induction treatment soybean obtained in the germination induction treatment step to obtain kure (F) ) Okara separation step for removing okara from kure obtained in the grinding step or homogenization treatment step for homogenizing kure obtained in the grinding step