JP3652799B2 - Production method of fresh tofu - Google Patents

Description

【００３０】
《実施例８〜１２》
糖類を用いず、ニガリに変えてスマシ粉を用い、豆乳濃度、凝固条件を表２の様にした以外は、実施例１と同様の方法で豆腐生揚げを製造した。その評価を同じく表２に示す。尚、表２の実施例８〜１２において、豆乳１リットル当たりのＴＧ量は、それぞれ０（実施例８）、１（実施例９）、１（実施例１０）、５（実施例１１）及び５（実施例１２）ユニットである。
【００３１】
【表２】

【００３２】
《比較例及び実施例１３〜１５》
糖類として表３の様にデンプンを使用した以外は、実施例１と同様の方法で豆腐生揚げを製造した。そのドリップ比を同じく表３に示す。なお、コントロールとして、デンプンおよびＴＧを添加してないものをドリップ１００として示す。
【００３３】
【表３】

【００３４】
ＴＧのみを使用した場合はドリップ比が６２．７と減少した。更にＴＧと生デンプンを併用した場合は３．１に、ＴＧと加工デンプンを併用した場合は０．４と大きく減少した。
【００３５】
【発明の効果】
トランスグルタミナーゼの作用により、豆乳中の大豆タンパクが緻密な三次元（編み目）架橋を形成し、これにより豆腐生地の保水力が向上し、うま味成分を含んだ「水」のドリップが無くなった。これにより、従来は冷蔵庫で豆腐生地を軽い重石で押さえながら数時間から一夜おこなうことが必要とされていた「水切り作業」を不要とすることができる。したがって自ずと生産量が制約され、製品コストにも限界があった水切り作業が大幅に短縮さたことにより、時間当たりの生産量が数倍になり、多大な合理化をもたらすことができるようになる。
また、うま味成分の他、ミネラル、イソフラボノイド、サポニンなど健康によい成分も含んだ「水」のドリップが無いため、健康に良く美味しい豆腐生揚げを作ることができる。
【００３６】
また、保水性が向上しドリップが無くなり豆腐生地中に、水分が保持されることにより、その切断面は、膨化しておらず、「す」がなく、キメが細かい粒の集まったような肌で、光沢のない切断面をしている。本発明の方法によれば組織が緻密なので、非常に滑らかで艶のある切断面になり、見栄えもよく商品価値が高い。
さらに、コリッとした食感を出すことが可能である。
【００３７】
また、従来の豆腐生揚げではかなり「す」が入り、煮物にすると型くずれするのが早かったが、本願発明の方法によれば、酵素（トランスグルタミナーゼ）によって大豆タンパク中に共有結合が起こり、豆腐生地の組織をより強固なものにすることができた。これは、デンプンによる増粘効果、ゲル化効果が相乗的に働いていることにもよる。これにより、特に鍋料理、煮物などの調理で、相当煮込んでも煮崩れしにくい。従来の絹生揚げを使った調理が極めて簡単になり、調理アイテムが広がるという利点を生む。
この豆腐生地の物理的強度の向上は、コリッとした食感や調理中の煮崩れの防止のみではなく、豆腐製造作業者が生地を取り扱う上で、生地の取り扱いが楽になり、フライにおいても型くずれしにくく大幅にロスを少なくできるという別の利点を生む。これは、機械化生産する上で生地の損壊に気をあまり使わず、量産できる安価なシステムを構築することを可能にする。
【００３８】
また、豆腐生地は、大豆中の糖分などをかなり抱き込んでいる生地のため、フライ中の褐変反応が起きやすいはずであるが、本発明の方法によって製造される豆腐生揚げはトランスグルタミナーゼによって、糖分がきめ細かい編み目に抱き込まれているので、反応しにくくなり、揚げ色が付き難くすることができる。
【００３９】
さらに、従来は、一定した原料品質、製造条件でおこなうことが必要とされていたが、本発明の方法では、今までは適さなかった大豆種類を選定して遜色のない製品を製造することが可能になった。たとえば、甘味はあるが、硬さが出ない大豆（外国産大豆、秋田大豆、大袖振、タチナガハ等）を使っても、品質のよい絹生揚げを製造することが可能になった。また従来油脂含量が多く豆腐にはあまり向かないと思われていた、安価な大豆を使用しても、比較的安定して良い品質の豆腐生揚げを生産することが可能で、原料コストの軽減を図ることが可能になった。
また大豆は収穫後、貯蔵中に油や蛋白質の酸化によって劣化し、それに応じて豆腐の品質が低下してくるが、本発明の方法では多少劣化した大豆でも、遜色のない絹生揚げを造ることが可能である。年間通しての製品変動を軽減できるようになった。
また製造水水質によっては硬さのでない生地になることもあったが、本発明の方法による豆腐生揚げでは、水質による影響をある程度補うことも可能になった。
【００４０】
豆腐づくりにおいては豆乳の煮沸装置や煮沸方法が異なるとその豆腐の物性（硬さ・保水性など）や味が異なることが知られていて、豆乳の品質によって凝固条件（凝固剤種類、凝固剤量、凝固温度、凝固攪拌等）などを大幅にしかも試行錯誤で調整する必要があった。しかし、本発明の方法によれば、品質がある程度の範囲にあれば、さほど条件調整せずとも、遜色のない絹生揚げを製造することが可能になった。たとえば炊き方が若炊きだと保水性が小さく、ドリップの出やすい製品になりやすいが、本発明の方法ではその保水性をトランスグルタミナーゼ又はトランスグルタミナーゼとデンプンで補うことができるようになった。
【００４１】
近年の豆腐製品は食感や風味の良いことから、高濃度（豆乳固形分11〜12%wt）の豆乳を使用しており、豆腐生揚げの生地についても同様に高濃度指向で製造されていたが、豆乳濃度が高濃度になれば、大豆当たりの豆乳収率は下がり、大豆固形分の抽出は一層悪くなるので、製品収量は極端に悪くなっていた。しかし本発明の方法によれば、比較的低濃度（豆乳固形分11%wt以下）でも絹生揚げ生地を製造することができる。それによって大豆当たりの豆乳収率は上がり、経済的効果は絶大である。
【００４２】
以上のことをまとめると、本発明の豆腐生揚げ製造方法により、フライ・冷却後包装してからの離水がなく、比較的多くの労力と時間が費やされる「水切り作業」も不要で、出来上がる製品の味、外観、強度ともに問題がなく、広範囲の原材料・製造条件を適用することができるため、製造コストが低く、大量生産を目的とした機械化製造にも適用することができる。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method for producing fresh tofu.
[0002]
[Prior art]
Fresh tofu is produced by frying tofu dough that has been solidified by adding a coagulant to soy milk.
As the tofu dough for raw tofu, silk dough, cotton tofu or sliced tofu can be used. Conventional and known techniques are used for the production of the above-mentioned dough.
Now, as a coagulant to be added to soy milk, bittern (magnesium chloride, magnesium chloride-containing material), glucono delta lactone (GDL), pomace powder (calcium sulfate), etc. are generally used, especially bittern. Fresh tofu fried tofu dough has moderate sweetness and is delicious.
Further, in the step of frying the tofu dough, frying is performed after the moisture adhering to the dough surface or the moisture released inside is sufficiently removed before the frying. As the conditions for frying, 180 to 200 ° C. and 2 to 4 minutes are common.
[0003]
However, the conventional fried tofu and its manufacturing method have various problems.
For example, fresh tofu is packaged after being fried and cooled, and a considerable amount of water is dripped before it is displayed at the supermarket. The “water” discharged from the tofu dough by this drip contains a large amount of taste components (flavoring components such as sugars). For this reason, from the consumer's perspective, it was often said that “fried tofu has no taste”. In addition, when the separated water accumulates in the packaging pack, it may be misunderstood that it has been corrupted since it has been (manufactured) days after production. Yes.
[0004]
The following technologies have been studied as a countermeasure against such drip.
(1) Drain thoroughly.
(2) Increase soymilk concentration.
(3) Additives (starch and polysaccharides) are added (JP 51-62853, JP 61-139356, JP 4-166053, etc.).
(4) Place a moisture absorbing sheet on the bottom of the pack.
(5) Packing fresh silk fried together with water and solution (Japanese Patent Laid-Open No. 2-254552)
(6) The packaging pack is double-bottomed (Japanese Patent Laid-Open Nos. 56-6774, 63-1761, etc.).
(7) The bottom shape of the pack is corrugated (Japanese Patent Laid-Open No. 2-269654).
(8) An additive is adhered to the surface of the dough (Japanese Patent Laid-Open No. 7-70932).
[0005]
Among the above technologies, the draining of (1) is most commonly performed. Specifically, in the manufacturing method of tofu raw fried, for the purpose of avoiding the above-mentioned "drip", the "water draining work" is performed for several hours to overnight while pressing the silk-cured tofu dough with a light weight stone in the refrigerator before frying. is there. This not only avoids the above-mentioned “drip”, but is also caused by the free moisture contained in the tofu dough, “bad fried skin”, “hard to wear”, “prone to collapse during frying”, “ It is possible to avoid the problem that “it is easy to boil when cooking”.
However, a relatively large amount of labor and time is spent on this “draining operation”, so that the production volume is naturally limited, and the product cost is limited. Therefore, it has been said that if the above-mentioned “draining operation” can be significantly shortened, the production amount per hour will be several times greater, resulting in great rationalization.
[0006]
In addition, the “water” spouted from the tofu dough by the above “draining operation” includes many components that are good for health such as minerals, isoflavonoids, and saponins, in addition to taste components (flavoring components such as carbohydrates). It is. Therefore, discarding the “water” containing these active ingredients not only makes the manufactured product tasteless, but also loses the benefits of the tofu product, which is a representative health food. .
Furthermore, due to the discharge of the “water” described above, the tofu dough tissue is deficient in moisture, and a considerable amount of “su” is observed in the cross section, and the skin is rough and has fine grains gathered with no gloss. . In addition, its texture was crisp and unsavory. Furthermore, the strength of the tissue is weakened, and “collapse” is likely to occur during the frying process and cooking.
[0007]
In addition, in the method of increasing the soymilk concentration in order to avoid the above-mentioned “drip”, the yield of soymilk per unit soybean is lowered and the extraction of soybean solids is worsened, resulting in extremely poor product yield and economic Effect is extremely low.
None of the other methods can provide a sufficient effect to avoid “drip”.
[0008]
Furthermore, as another problem, in the frying process, the sugar contained in soybeans had a browning reaction due to a high temperature, and the fried color had a tendency to become reddish black. In recent years, light-colored foods are preferred as a general food, although it varies depending on personal preferences. For this reason, the tendency for the fried color to become red and black in this way is inconvenient for the acquisition of many consumers.
[0009]
Conventionally, it has been common knowledge to use soybeans suitable for tofu for the preparation of tofu dough. Especially when solidifying at 100% bittern, selection of soybeans was important. Soybeans are degraded by the oxidation of oil and protein during harvesting after harvesting. Correspondingly, the quality of soybeans changes. Moreover, when making tofu dough with a machine, the manufacturing conditions are systematized, and therefore, it is necessary to always supply raw soybeans with stable properties. However, the supply of crops such as soybeans is likely to fluctuate depending on the climate and the farmer's management policy, resulting in significant price fluctuations. The effect was significant in domestic soybeans suitable for tofu.
Moreover, not only the raw soybeans but also the quality of water for extracting soy milk affects the quality of tofu.
[0010]
In addition, in making tofu dough, it is known that the physical properties (hardness, water retention, etc.) and taste of the tofu dough differ when the soymilk boiling apparatus and boiling method are different. For example, if the method of cooking soybeans is young, there is a problem that the water retention is small and the product is easy to drip (drainage) after solidification. Therefore, it was necessary to adjust the coagulation conditions (coagulant type, coagulant amount, coagulation temperature, coagulation agitation, etc.) greatly by trial and error depending on the quality of soymilk.
This requires considerable skill and labor, and has been difficult to apply to mechanized manufacturing for mass production.
In recent years, a technology has been reported in which transglutaminase, an enzyme that forms an ε- (γ-Glu) -Lys crosslink between a glutamine residue and a lysine residue in a protein or peptide chain, is used in processed soybean products. ing.
For example, a method for producing retort tofu, fried tofu, frozen tofu and the like by adding transglutaminase and a coagulant to soy milk has been reported. (See JP-A-2-69155, JP-A-2-100767, JP-A-6-217729).
[0011]
[Problems to be solved by the invention]
Therefore, an object of the present invention is to solve the above-mentioned conventional problems in a method for producing fresh tofu.
Specifically, there is no water separation after packaging after frying and cooling, and there is no need for “draining work”, which requires a relatively large amount of labor and time, and there is no problem in the taste, appearance, and strength of the finished product. Therefore, the present invention provides a method for producing deep-fried tofu, which can be applied to mechanized production for mass production because of its low production cost.
[0012]
[Means for Solving the Problems]
The above conventional drawbacks are solved by the following configuration. That is, the present invention
(1) In a method for producing tofu raw fried food, which is prepared by adding a coagulant to soymilk and coagulating to prepare a tofu dough, adding at least transglutaminase and a coagulant for tofu to the soymilk and coagulating at a temperature of 80 ° C. or less A method for producing fresh tofu, characterized by aging, and
(2) The method for producing fresh tofu according to (1) above, wherein a saccharide is added together with transglutaminase and a coagulant for tofu.
[0013]
By using the present invention, it is possible to produce fresh tofu that does not miss the taste of the soybean itself and the taste of the coagulant, is delicious, and has a beautiful appearance such as fried skin and color.
This is due to the action of transglutaminase, soy protein in soy milk forms a dense three-dimensional (knitted) crosslink, which improves the water retention of tofu dough and eliminates the drip of “water” containing umami ingredients This is probably because of this.
In general, fried tofu is a dough that contains a considerable amount of sugar in soybeans, so browning reaction in the fried food should occur easily. However, it is considered that the tofu raw fried produced by the method of the present invention is less likely to react and less likely to have a deep fried color due to the transglutaminase in which the sugar is embraced in a fine stitch.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
The additives used in the method of the present invention are described below.
a) Transglutaminase
In addition to transglutaminase alone, it contains transglutaminase (hereinafter also simply referred to as TG), in addition to “sugars such as starch and dextrin” and “inorganic salts such as sodium chloride, phosphate, calcium sulfate, magnesium chloride” A preparation containing “proteins such as soybean powder, isolated soybean protein, sodium caseinate” can also be used.
[0015]
There are two types of transglutaminase, calcium-independent and calcium-dependent. Examples of the former include those derived from microorganisms (for example, see JP-A No. 1-27471). Examples of the latter include those derived from guinea pig liver (see Japanese Patent Publication No. 1-50382), those derived from animal blood (also referred to as Factor XII1), those derived from fish (for example, Nobuo Seki et al., Japanese Society of Fisheries Science, Vol. 56). No. 1, pages 125-132, 1990). In addition, any transglutaminase can be used, such as those produced by gene recombination (see JP-A-1-3000889, JP-A-5-199883, JP-A-6-225775). It is not limited to a manufacturing method. However, from the viewpoint of functionality and economy, a calcium-independent one is preferable. For example, the above-mentioned microorganism-derived transglutaminase (Japanese Patent Laid-Open No. 1-27471) satisfies all the conditions and can be said to be optimal at present.
The amount of TG added can be appropriately changed according to the dough and product quality, but is usually 0.1 to 100 U (unit), preferably 1 to 10 U (unit) per liter of soy milk.
[0016]
・ Measurement of transglutaminase activity
The activity unit of transglutaminase referred to in the present invention is measured and defined as follows.
That is, after reacting with benzyloxycarbonyl-L-glutaminylglycine and hydroxylamine as substrates, the resulting hydroxamic acid was formed into an iron complex in the presence of trichloroacetic acid, and then the absorbance at 525 nm was measured to determine the amount of hydroxamic acid. Is determined from the calibration curve, and the activity is detected (see Japanese Patent Laid-Open No. 1-27471)
[0017]
b) sugars
Examples of the saccharide include monosaccharides such as glucose, xylose, galactose and fructose, disaccharides such as sucrose, lactose and trehalose, oligosaccharides composed of the monosaccharides, polysaccharides such as cellulose, starch, starch hydrolysate and cyclodextrin Sugars having water retention properties such as sugar alcohol (sorbitol) can be used. As those suitable for deep-fried tofu, those that are difficult to cause coloring (browning reaction) during frying and those with low sweetness are selected. However, it can also be made into a reddish product by blending sugars that easily cause coloration according to taste. The sugar addition amount for demonstrating the water retention of the tofu dough is preferably about 1 to 10% with respect to the soy milk, and if the sweetness is strong, the taste of the tofu and the coagulant is hidden, so that the sweetness is low. To be elected.
Therefore, in practice, oligosaccharides (stachyose, raffinose, trehalose), starch hydrolysates, and sugar alcohols can be preferably used.
As specific examples of Denbun, raw starch such as potato starch, sweet potato starch, tapioca starch, corn starch, wheat starch, and processed starch (purified / heated / decomposed etc.) such as edible starch are used. be able to.
[0018]
c) Tofu coagulant
As the coagulant for tofu as used in the present invention, coagulants generally used for tofu production such as bittern (magnesium chloride, containing magnesium chloride), smash powder (calcium sulfate), GDL (glucono delta lactone) can be used. In particular, GDL reinforces the hardness of the raw silk dough, but the fried color is red, so it has been difficult to use in the past. However, according to the present invention, the TG's elasticity and hardness reinforcement action has made it possible to produce white silk that is deeply lifted even with GDL.
The appropriate temperature of bittern is 60-70 ° C, while GDL is 80-90 ° C. Therefore, when using conventional bitumen and GDL at the same time, it is naturally biased to either condition, and the other effect is There was a problem that could not be demonstrated. On the other hand, TG reacts at 70 ° C. or less in soy milk, and particularly reacts well at 60 to 65 ° C., so that it is most compatible with bittern. In general, the use of a solidification temperature around 60 ° C. rather than a high temperature around 80-90 ° C. is the basis for making delicious tofu. Therefore, in a sense, TG can be said to be a “coagulant” suitable for making tofu dough and freshly fried than GDL.
The addition amount of the coagulant for tofu can be appropriately changed within the range of the amount applied to conventional tofu production according to the dough and product quality.
[0019]
d) "Soy milk"
The soy milk used in the method of the present invention is not particularly problematic as long as it is a normal soy milk for tofu, and includes an emulsifier (including an antifoaming agent such as glycerin fatty acid ester and sucrose fatty acid ester) or a pH adjuster (carbonic acid). It may contain a quality improving agent such as calcium.
The concentration of soy milk is preferably 12.0 to 14.0% brix (10.5 to 12.5% in solid content). If the soymilk concentration is 12.0% brix or less, the clothes are easily peeled off and drip increases, which is not preferable. On the other hand, if it exceeds 14.0% brix, the yield of soy milk per unit soybean will be reduced, and the production cost will deteriorate.
[0020]
The temperature of soy milk may be 80 ° C. or lower when TG and tofu additives are added and solidified. This may be achieved by adding TG and tofu additives to soy milk at 80 ° C. or lower, and adding TG and tofu additives to low-temperature soy milk as in filling tofu. It can also be heated to 80 ° C. or less later.
The temperature at which the TG and the tofu additives are added to the soymilk and solidified may be in a range not exceeding 80 ° C. Since the coagulation reaction by the conventional tofu additive hardly occurs at a low temperature, the coagulation reaction is usually performed at a temperature of 60 ° C. or higher. However, since it is well known to those skilled in the art that the coagulation reaction occurs when TG is not frozen, the reaction can be performed at a considerably low temperature (for example, 5 ° C.).
[0021]
d) “Technology”
Conventionally known methods are used for the mold box, the stirring method, the aging and the like used in the “alignment (solidification)” step. However, in aging, although depending on the aging time, in order to react with TG at the beginning, the temperature is set to a slightly low temperature of 70 ° C. or lower, and the TG is deactivated at a later stage at a slightly high temperature of 70 to 90 ° C. Is preferred. By inactivating the TG enzyme in this way, quality changes can be suppressed during product storage and distribution.
Even if the TG enzyme is not sufficiently deactivated in the ripening process, heating such as steam heating, boil heating, energizing heating, microwave heating, etc. is performed after the aging process, or the enzyme deactivation is performed by the subsequent frying process. It can also be made.
In addition, as a tofu dough at the time of making the tofu raw fried by the method of the present invention, any of dough in the form of silken tofu, cotton tofu or sliced tofu can be used.
[0022]
e) "Fly"
In the frying process, conventional and commonly used techniques and conditions can be applied. Usually at a constant temperature between 80-220 ° C., 1-30 min. Being fried. However, if the purpose is also to inactivate the TG enzyme as described above, in order to sufficiently apply heat to the inside of the dough, it is necessary to set a temperature zone or a temperature gradient of 2 to several stages and fly (for example, It is preferable to fly at a temperature lower than usual for a long time (for example, 160 ° C., 15 min.) After 110 ° C., 15 min. When it is performed at a low temperature for a long time, an automatic continuous frying device takes a large installation area. However, if the frying temperature can be lowered, there is a cost merit that oil replacement time becomes longer.
It is well known to those skilled in the art that it is necessary to remove moisture from the surface of the tofu dough before frying.
[0023]
【Example】
EXAMPLES Hereinafter, although an Example demonstrates this invention further in detail, this invention is not limited by this Example.
Example 1
[Preparation of TG additive solution]
In 1 liter of water, 4 g of TG preparation (containing 1% of TG) (0.02% of TG preparation with respect to soy milk, equivalent to 2 units with respect to 1 liter of soy milk) was stirred well and dissolved.
[Preparation of starch additive solution]
In the TG addition solution, 600 g of starch preparation (3% with respect to soy milk) was added and well dispersed with a whisk or the like. Moreover, it was well dispersed again immediately before adding to soy milk.
[Coagulant for tofu]
160 g of bittern stock solution (containing magnesium chloride) (0.8% based on soy milk) was used.
[0024]
(Tofu dough creation)
Weigh 20 liters of soymilk with a concentration of 13% brix (solid content of 11.5% wt) at 65 ° C into a mold box (flat box 400 x 400 x 160) and stir it using a screw agitation method. A starch mixture (redispersed well immediately before) was added and stirred at 0 to 120 rpm for several seconds until it was sufficiently uniform (for the method using screw stirring, see also the specification of Japanese Patent Application No. 7-158109) obtain). Next, while stirring as it was, 160 g of the bittern stock solution was added and solidified at 62 ° C., and then aged at 62 ° C. for 45 minutes. After aging, the TG was deactivated by incubating for 20 minutes in a boil tank at 80 ° C.
[Fried tofu dough]
After deactivation of TG, the tofu dough was cut, placed on the plate for a while (several minutes to several hours), and after the surface water was sufficiently removed, it was fried at 180 ° C. for 2 minutes while watching the fried color.
[0025]
[Evaluation of fresh tofu quality]
The deep-fried tofu obtained in this Example 1 has moderate sweetness such as soy umami and bittern, no fried water, light fried color, good appearance of fried skin, cross-section, etc., and has moderate elasticity and texture. It was a thing.
[0026]
Example 2
Here, TG preparation and coagulant are added to low-temperature soy milk and heated in a water bath or steamer to solidify and mature to make a tofu dough. An example of raw fried food is shown.
[Preparation of TG additive solution]
In 400 ml of water, 20 g of TG preparation (containing 1% TG) (0.02% TG preparation with respect to soy milk, equivalent to 2 units with respect to 1 liter of soy milk) was stirred well and dissolved.
[Preparation of starch additive solution]
In 5 liters of water, 3 kg of starch preparation (3% with respect to soy milk) was added and well dispersed with a whisk or the like. Immediately before addition to the soymilk, it was well dispersed again.
[Coagulant for tofu]
800 g of bittern stock solution (containing magnesium chloride) (0.8% based on soy milk) was used.
[0027]
(Tofu dough creation)
100 liters of soy milk (heated) cooled to 15 ° C. with a concentration of 13% brix (solid content: 11.5% wt) is weighed into a suitable jacket-type tank, and the TG additive solution is first added and mixed uniformly. . The mixture was allowed to stand while stirring in room temperature or a constant temperature bath, and when the viscosity of soy milk increased to some extent, the starch additive solution was added and stirred sufficiently. Next, 800 g of bittern stock solution was added and stirred thoroughly. Soymilk containing these additives was filled and packaged in a conventional tofu method, solidified at a boiling tank temperature of 65 ° C., and then aged at the same temperature for 60 minutes. Thereafter, the mixture was further matured at 85 ° C. for 30 minutes while deactivating TG. After ripening, it was cooled and shipped.
[0028]
The product of the present embodiment can be marketed in the form of “fresh tofu dough that can be fried at home”. When cooking, remove the dough (tofu) from the pack, cut it appropriately, place it on a plate for a while, drain the surface, and see the fried color at 160-180 ° C like a normal fried dish Can fly while. In this way, it has become possible to easily produce fresh tofu without having to bother draining the tofu for business purposes such as homes and restaurants, and to taste the freshly fried taste.
<< Examples 3 to 7 >>
Fresh tofu was produced in the same manner as in Example 1 except that no sugar was used and the soymilk concentration and coagulation conditions were as shown in Table 1. The evaluation is also shown in Table 1. In Examples 3 to 7 of Table 1, the amount of TG per liter of soy milk is 0 (Example 3), 1 (Example 4), 1 (Example 5), 5 (Example 6) and 5 (Example 7).
[0029]
[Table 1]

[0030]
<< Examples 8 to 12 >>
Fresh tofu was produced in the same manner as in Example 1, except that sugar was used instead of sugar and smash powder was used and the soymilk concentration and coagulation conditions were as shown in Table 2. The evaluation is also shown in Table 2. In Examples 8 to 12 in Table 2, the amount of TG per liter of soy milk is 0 (Example 8), 1 (Example 9), 1 (Example 10), 5 (Example 11) and 5 (Example 12).
[0031]
[Table 2]

[0032]
<< Comparative Examples and Examples 13-15 >>
Fresh tofu was produced in the same manner as in Example 1 except that starch was used as shown in Table 3 as the saccharide. The drip ratio is also shown in Table 3. In addition, the thing which does not add starch and TG is shown as a drip 100 as control.
[0033]
[Table 3]

[0034]
When only TG was used, the drip ratio decreased to 62.7. Furthermore, when TG and raw starch were used in combination, it decreased to 3.1, and when TG and modified starch were used in combination, it greatly decreased to 0.4.
[0035]
【The invention's effect】
Due to the action of transglutaminase, soy protein in soy milk forms a dense three-dimensional (knitted) crosslink, which improves the water retention of tofu dough and eliminates “water” drip containing umami components. As a result, it is possible to eliminate the “draining operation” that has conventionally been required to be performed for several hours to overnight while holding the tofu dough with a light weight in a refrigerator. Therefore, the amount of production per hour is increased several times due to the drastic reduction of the draining operation, which is naturally limited in production volume and limited in product cost, and can be greatly rationalized.
In addition, since there is no “water” drip containing umami ingredients, minerals, isoflavonoids, saponins and other healthy ingredients, it is possible to make healthy and delicious fresh tofu.
[0036]
In addition, the water retention is improved, the drip is eliminated, and moisture is retained in the tofu dough, so that the cut surface is not expanded, there is no “soil”, and the skin is like a fine grain gathered With a glossy cut surface. According to the method of the present invention, since the structure is dense, the cut surface is very smooth and glossy, and it has a good appearance and high commercial value.
Furthermore, it is possible to produce a crispy texture.
[0037]
In addition, in the conventional fried tofu, quite a bit of “su” entered, and when it was boiled, it quickly lost its shape, but according to the method of the present invention, a covalent bond occurs in the soy protein by the enzyme (transglutaminase), and the tofu dough It was possible to strengthen the organization. This is due to the synergistic effect of the thickening effect and gelling effect of starch. Thereby, it is hard to be crumbled even if it simmers considerably, especially by cooking, such as pot cooking and boiled food. Cooking using conventional raw silk fried foods is extremely easy, creating the advantage of a wide range of cooking items.
The improvement in the physical strength of the tofu dough not only prevents a crispy texture and prevents crumble during cooking, but also makes it easier for the tofu producer to handle the dough and causes the mold to become deformed. Another advantage is that it is difficult to perform and greatly reduces loss. This makes it possible to construct an inexpensive system that can be mass-produced without much concern for the damage of the fabric in mechanized production.
[0038]
In addition, since the tofu dough is a dough that considerably embraces the sugar content in soybeans, browning reaction in the fried food should occur easily, but the tofu fried food produced by the method of the present invention has a sugar content by transglutaminase. Since it is embraced by finely knitted stitches, it becomes difficult to react and it is difficult to add fried color.
[0039]
Furthermore, in the past, it was necessary to carry out with a constant raw material quality and production conditions, but in the method of the present invention, it is possible to produce a product that is inferior by selecting a soybean type that was not suitable so far. It became possible. For example, it has become possible to produce high-quality silk fried using soybeans that are sweet but not firm (foreign soybeans, Akita soybeans, Osode shake, Tachinagaha, etc.). In addition, it is possible to produce raw fried tofu that is relatively stable and of good quality even when using cheap soybeans, which have been considered to be not suitable for tofu with a high fat content. It became possible to plan.
In addition, soybeans are deteriorated by the oxidation of oil and protein during storage after harvesting, and the quality of tofu decreases accordingly. Is possible. Product fluctuations throughout the year can be reduced.
Further, depending on the quality of the produced water, the dough may be hard, but the tofu fried by the method of the present invention can compensate for the water quality to some extent.
[0040]
In tofu making, it is known that the physical properties (hardness, water retention, etc.) and taste of tofu differ depending on the soymilk boiling equipment and boiling method. Depending on the quality of soymilk, the coagulation conditions (coagulant type, coagulant) Volume, solidification temperature, solidification stirring, etc.) must be adjusted by trial and error. However, according to the method of the present invention, if the quality is within a certain range, it is possible to produce a fresh silk fried without much adjustment of conditions. For example, if the cooking method is young cooking, the water retention is small and the product tends to be drip easily. However, in the method of the present invention, the water retention can be supplemented with transglutaminase or transglutaminase and starch.
[0041]
Tofu products in recent years have high texture (soy milk solid content 11-12% wt) soy milk because it has a good texture and flavor, and the dough of fresh tofu was also manufactured with high concentration orientation. However, if the soymilk concentration becomes high, the yield of soymilk per soybean decreases, and the extraction of soybean solids becomes worse, resulting in extremely poor product yield. However, according to the method of the present invention, raw silk fried dough can be produced even at a relatively low concentration (soymilk solid content of 11% wt or less). As a result, the yield of soy milk per soybean increases and the economic effect is enormous.
[0042]
To summarize the above, according to the method for producing fresh tofu of the present invention, there is no water separation after packaging after frying and cooling, and there is no need for `` draining work '' that consumes a relatively large amount of labor and time. There is no problem in taste, appearance, and strength, and since a wide range of raw materials and manufacturing conditions can be applied, the manufacturing cost is low, and it can also be applied to mechanized manufacturing for mass production.

Claims (2)

In a method for producing fresh tofu, which is prepared by adding a coagulant to the soymilk and coagulating to prepare the tofu dough, adding at least transglutaminase and a coagulant for tofu to the soymilk, coagulating at a temperature of 80 ° C. or less and aging A method for producing fresh tofu. The method for producing fried tofu according to claim 1, wherein a saccharide is added together with the transglutaminase and the coagulant for tofu.