JP6396660B2 - Method for producing fermented milk product and fermented milk product - Google Patents
Method for producing fermented milk product and fermented milk product Download PDFInfo
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- 238000004519 manufacturing process Methods 0.000 title claims description 31
- 235000014048 cultured milk product Nutrition 0.000 title claims description 26
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- JVTAAEKCZFNVCJ-UHFFFAOYSA-N lactic acid Chemical compound CC(O)C(O)=O JVTAAEKCZFNVCJ-UHFFFAOYSA-N 0.000 claims description 40
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- BECPQYXYKAMYBN-UHFFFAOYSA-N casein, tech. Chemical compound NCCCCC(C(O)=O)N=C(O)C(CC(O)=O)N=C(O)C(CCC(O)=N)N=C(O)C(CC(C)C)N=C(O)C(CCC(O)=O)N=C(O)C(CC(O)=O)N=C(O)C(CCC(O)=O)N=C(O)C(C(C)O)N=C(O)C(CCC(O)=N)N=C(O)C(CCC(O)=N)N=C(O)C(CCC(O)=N)N=C(O)C(CCC(O)=O)N=C(O)C(CCC(O)=O)N=C(O)C(COP(O)(O)=O)N=C(O)C(CCC(O)=N)N=C(O)C(N)CC1=CC=CC=C1 BECPQYXYKAMYBN-UHFFFAOYSA-N 0.000 description 7
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- 244000203593 Piper nigrum Species 0.000 description 1
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- HDSBZMRLPLPFLQ-UHFFFAOYSA-N Propylene glycol alginate Chemical compound OC1C(O)C(OC)OC(C(O)=O)C1OC1C(O)C(O)C(C)C(C(=O)OCC(C)O)O1 HDSBZMRLPLPFLQ-UHFFFAOYSA-N 0.000 description 1
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- Dairy Products (AREA)
- Jellies, Jams, And Syrups (AREA)
Description
本発明は、製造工程や設備を簡略化することが可能な発酵乳製品の製造方法及び発酵乳製品に関する。 The present invention relates to a method for producing a fermented milk product and a fermented milk product capable of simplifying the production process and equipment.
ヨーグルト等の発酵乳製品は、生乳や脱脂乳、豆乳などを乳酸菌により発酵させることで作られる。乳製品を乳酸発酵させると、乳酸菌により乳酸が生成され、pHが徐々に低下し酸性の度合いが強くなる。牛乳や豆乳に含まれる動物性たんぱく質(カゼイン)や植物性たんぱく質は、酸性域(pH4.5付近)で凝固する性質がある。ヨーグルト等が固まるのはこの凝固する性質に起因しており、ヨーグルトが固まったものをカード(ヨーグルトカード)と呼ぶ。
ヨーグルトの製造方法には、前発酵タイプと後発酵タイプがある。前発酵タイプは、発酵後に完成したヨーグルトを攪拌機などで適度な硬さに崩してから容器に充填するため半流動状態になり、ソフトヨーグルト、ドリンクヨーグルト、果肉やゼリーなどを添加したヨーグルトなどで使用される。一方、後発酵タイプは、乳酸菌を加え、容器に充填してから容器ごと発酵させることにより、硬い組織を作ることが出来、ハードヨーグルトやプレーンヨーグルトなどで使用される。ドリンクヨーグルトやヨーグルトドレッシングなどの液状製品の製造やフローズンヨーグルトなどを製造する場合は、多くは前発酵で製造される。通常、前発酵では、上記のように乳酸発酵により固まった発酵乳製品を攪拌機などで適度な硬さ、適度な粒径まで破壊してから使用するため、製造工程や設備が複雑になることが多い。また、一旦硬い組織を形成した発酵乳製品は、破壊されると離水が発生しやすくなり、飲料や調味料に加工した際に分離を起こすなど品質を安定に保つことが困難になる。
Fermented dairy products such as yogurt are made by fermenting raw milk, skim milk, soy milk, etc. with lactic acid bacteria. When a dairy product is subjected to lactic acid fermentation, lactic acid is produced by lactic acid bacteria, the pH gradually decreases, and the degree of acidity increases. Animal protein (casein) and vegetable protein contained in milk and soy milk coagulate in the acidic range (around pH 4.5). Yogurt or the like hardens due to this solidifying property, and the yogurt hardened is called a card (yogurt card).
There are two types of yogurt production methods: a pre-fermentation type and a post-fermentation type. The pre-fermentation type is a semi-fluid state because the yogurt completed after fermentation is broken down to a suitable hardness with a stirrer and then filled into a container, and it is used for yogurt with soft yogurt, drink yogurt, pulp or jelly added Is done. On the other hand, the post-fermentation type can form a hard tissue by adding lactic acid bacteria, filling the container and then fermenting the whole container, and is used in hard yogurt or plain yogurt. When manufacturing liquid products such as drink yogurt and yogurt dressing, and frozen yogurt, many are manufactured by pre-fermentation. Usually, in pre-fermentation, fermented dairy products hardened by lactic acid fermentation as described above are used after being destroyed to an appropriate hardness and an appropriate particle size with a stirrer, etc., which may complicate the manufacturing process and equipment. Many. In addition, once the fermented milk product that has formed a hard tissue is broken, water separation tends to occur, and it becomes difficult to maintain stable quality, such as separation when processed into a beverage or seasoning.
そのような問題点を解決するために、従来、発酵乳製品の安定剤としてペクチンや水溶性ヘミセルロース、カルボキシメチルセルロース(CMC)又はその塩、アルギン酸プロピレングリコールエステルなどが使用されている(特許文献1乃至3)。 In order to solve such problems, conventionally, pectin, water-soluble hemicellulose, carboxymethylcellulose (CMC) or a salt thereof, propylene glycol alginate, and the like are used as stabilizers for fermented milk products (Patent Documents 1 to 5). 3).
しかしながら、上記のように安定剤を使用する場合でも、形成された硬い組織を崩して使用することは変わらず、製造工程や設備を簡略化することは不可能であった。 However, even when a stabilizer is used as described above, the use of the formed hard structure is not changed, and it is impossible to simplify the manufacturing process and equipment.
本発明は、上記問題点に鑑みてなされたものであり、一度形成された組織を破壊する工程を必要とせず、製造工程や設備を簡略化することが可能な発酵乳製品の製造方法及び発酵乳製品を提供することを目的とする。 The present invention has been made in view of the above problems, and does not require a step of destroying a once formed tissue, and can provide a method for producing a fermented dairy product and fermentation that can simplify the manufacturing process and equipment. The purpose is to provide dairy products.
本発明者らは、以上の目的を達成するために、鋭意検討した結果、発酵時に、原料乳と、熱可逆性を有し加熱凝固するハイドロコロイドとを共存させることにより、乳酸発酵が進行しても発酵乳製品が凝固せず、均一な液体の状態を維持することができ、製造工程において一度形成された組織を破壊する工程を必要とせず、製造工程や設備を簡略化することが可能であることを見出し、本発明に至った。 As a result of intensive studies to achieve the above object, the present inventors have made lactic acid fermentation progress by allowing raw milk and hydrocolloid that has thermoreversibility and heat coagulation to coexist during fermentation. However, fermented dairy products do not coagulate, can maintain a uniform liquid state, do not require a process to destroy the tissue once formed in the manufacturing process, and can simplify the manufacturing process and equipment. As a result, the present invention was reached.
すなわち、本発明は、原料乳を含む原料混合物を発酵処理する発酵処理工程において、前記原料混合物に、熱可逆性を有し加熱凝固するハイドロコロイドを含有させることを特徴とする発酵乳製品の製造方法に関する。 That is, the present invention provides a method for producing a fermented milk product, characterized in that, in a fermentation treatment step of fermenting a raw material mixture containing raw material milk, the raw material mixture contains a hydrocolloid that is thermally reversible and heat-coagulated. About.
また、本発明は、上記製造方法によって得られた発酵乳製品に関する。 Moreover, this invention relates to the fermented milk product obtained by the said manufacturing method.
以上のように、本発明によれば、一度形成された組織を破壊する工程を必要とせず、製造工程や設備を簡略化することが可能な発酵乳製品の製造方法及び発酵乳製品を提供することができる。 As described above, according to the present invention, there is provided a method for producing a fermented milk product and a fermented milk product capable of simplifying the manufacturing process and equipment without requiring a step of destroying the tissue once formed. be able to.
本発明に係る発酵乳製品の製造方法は、一例として、少なくとも原料乳、及び熱可逆性を有し加熱凝固するハイドロコロイドを含む原料混合物(原料乳ミックス)を得る原料混合工程と、前記原料混合物にスターターを添加し、原料混合物を発酵処理して発酵乳を得る発酵処理工程と、前記発酵処理された発酵乳を冷却する冷却工程と、前記冷却された発酵乳を容器に充填し、発酵乳製品を得る充填工程とを有することが好ましい。 The method for producing a fermented dairy product according to the present invention includes, as an example, a raw material mixing step for obtaining a raw material mixture (raw raw milk mix) containing at least raw milk and a hydrocolloid that has thermoreversibility and heat-coagulates; A starter is added, a fermented processing step of fermenting the raw material mixture to obtain fermented milk, a cooling step of cooling the fermented milk that has been fermented, a container filled with the cooled fermented milk, and fermented milk products Preferably having a filling step.
(原料混合工程)
本発明において、発酵乳製品の原料として用いられる原料乳は、牛乳、ヤギ乳、その他家畜の生乳や豆乳、これらの殺菌乳、調整乳、混合乳などが挙げられる。
さらに、原料混合物(原料乳ミックス)は、水、脱脂乳、全脂粉乳、脱脂粉乳、練乳、バターミルク、バター、クリーム、乳蛋白、砂糖などの糖質、食塩、及び果汁などの発酵乳製品の製造において常用される成分や、安定剤、乳化剤、酸味料、pH調整剤、着香料、着色料、風味調整剤、及び酸化防止剤などを適宜使用し、調整することができる。
(Raw material mixing process)
In the present invention, examples of raw milk used as a raw material for fermented milk products include cow milk, goat milk, other domestic raw milk and soybean milk, sterilized milk, adjusted milk, mixed milk, and the like.
Furthermore, the raw material mixture (raw milk mix) is fermented milk products such as water, skim milk, whole milk powder, skim milk powder, condensed milk, buttermilk, butter, cream, milk protein, sugars such as sugar, salt, and fruit juice. The components, stabilizers, emulsifiers, acidulants, pH adjusters, flavoring agents, colorants, flavor adjusters, antioxidants and the like that are commonly used in the production of can be adjusted as appropriate.
また、本発明においては、上記原料混合物中に、熱可逆性を有し加熱凝固するハイドロコロイドを含有させることを特徴とする。通常、加熱凝固するハイドロコロイドは、官能基間の疎水性相互作用によってゲル化が起こると考えられている。つまり、温度の上昇とともに、疎水基に結合している水分子が解離し、疎水基が会合して架橋領域を形成し、三次元的な網目構造を形成することによってゲル化が起こると考えられる。発酵時に、熱可逆性を有し加熱凝固するハイドロコロイドを原料乳と共存させると、上記ハイドロコロイドの疎水性相互作用によってゲル化が起こる性質により、発酵は進むにもかかわらず、乳製品中のたんぱく質(カゼイン)の凝集を抑えることができる。 In the present invention, the raw material mixture contains a hydrocolloid which has thermoreversibility and heat-coagulates. Normally, hydrocolloids that heat and coagulate are considered to be gelled by hydrophobic interactions between functional groups. In other words, as the temperature rises, water molecules bound to the hydrophobic group dissociate, the hydrophobic group associates to form a crosslinked region, and gelation occurs due to the formation of a three-dimensional network structure. . During fermentation, when hydrocolloid, which has thermoreversibility and heat coagulation, coexists with raw milk, the protein in the dairy product despite the progress of fermentation due to the property of gelation due to the hydrophobic interaction of the hydrocolloid ( Casein) aggregation can be suppressed.
熱可逆性を有し加熱凝固するハイドロコロイドとしては、メチルセルロース又はヒドロキシプロピルメチルセルロースが好ましい。たんぱく質の凝集を抑える点から、特にメチルセルロースが好ましい。
また、熱可逆性を有し加熱凝固するハイドロコロイドの添加量は、原料乳を含む原料混合物に対し0.02〜5.0重量%が好ましく、0.05〜1.0重量%がより好ましく、0.1〜1.0重量%が特に好ましい。0.02重量%より少ないとたんぱく質の凝集が抑制できず、5.0重量%より多いとホエイとたんぱく質が分離してしまう傾向がある。
As the hydrocolloid which has thermoreversibility and heat-coagulates, methylcellulose or hydroxypropylmethylcellulose is preferable. From the viewpoint of suppressing protein aggregation, methyl cellulose is particularly preferable.
In addition, the amount of hydrocolloid that has thermoreversibility and is heat-coagulated is preferably 0.02 to 5.0% by weight, more preferably 0.05 to 1.0% by weight, based on the raw material mixture including raw milk. 0.1 to 1.0% by weight is particularly preferred. If the amount is less than 0.02% by weight, protein aggregation cannot be suppressed. If the amount is more than 5.0% by weight, whey and protein tend to separate.
さらに、使用するハイドロコロイドの粘度は、2〜70000cPs(2%,20℃)が好ましく、ハイドロコロイドがメチルセルロースの場合には、2〜10000cPsがより好ましく、400〜8000cPsであることが特に好ましい。また、ハイドロコロイドがヒドロキシプロピルメチルセルロースの場合には、2〜10000cPsがより好ましく、4〜1000cPsであることが特に好ましい。粘度が2cPs未満では、たんぱく質の凝集抑制効果が弱く、70000cPsより高いとホエイとたんぱく質の分離を起こしたり、食感に影響を与える可能性がある。 Furthermore, the viscosity of the hydrocolloid used is preferably 2 to 70000 cPs (2%, 20 ° C.). When the hydrocolloid is methylcellulose, 2 to 10000 cPs is more preferable, and 400 to 8000 cPs is particularly preferable. When the hydrocolloid is hydroxypropylmethylcellulose, 2 to 10000 cPs is more preferable, and 4 to 1000 cPs is particularly preferable. If the viscosity is less than 2 cPs, the protein aggregation-inhibiting effect is weak, and if it is higher than 70000 cPs, whey and protein may be separated or the texture may be affected.
原料混合工程における混合は、公知の装置を用い、通常の原料乳ミックスを調製する工程と同様に公知の温度、湿度、圧力、及び時間をかけて行えばよい。なお、各原料は、攪拌しながら添加しても、攪拌せずに添加してもよいが、攪拌しながら添加することが好ましい。 The mixing in the raw material mixing step may be carried out using a known device, using a known temperature, humidity, pressure, and time in the same manner as the step of preparing a normal raw material milk mix. In addition, although each raw material may be added with stirring or may be added without stirring, it is preferable to add while stirring.
なお、原料混合工程の後に、適宜、均質化工程を施してもよい。均質化工程は、発酵乳の脂肪分が分離することや浮上することを防止するために、原料乳ミックスを高圧条件にさらすことなどで、原料乳ミックス中に含まれる脂肪を細かく砕くための任意の工程である。均質化工程においては、発酵乳製品の製造方法に用いられる公知の装置を用い、公知の温度、湿度、気圧、時間などの条件を採用すればよい。 In addition, you may give a homogenization process suitably after a raw material mixing process. The homogenization process is optional for finely breaking fat contained in the raw milk mix by, for example, subjecting the raw milk mix to high-pressure conditions to prevent the fat content of the fermented milk from separating or floating. It is this process. In the homogenization step, a known apparatus used in the method for producing a fermented milk product may be used and conditions such as a known temperature, humidity, atmospheric pressure, and time may be employed.
(発酵処理工程)
上述のようにして調製した原料乳ミックスは、加熱殺菌して発酵温度周辺まで冷却する。その後、スターターを添加し、発酵処理を行う。スターターは、発酵乳製造に一般的に用いられている乳酸菌・ビフィズス菌等を使用した市販品(乳酸菌等を純粋培養して濃縮凍結又は乾燥したもの等)などが使用でき、有用乳酸菌のみ(乳酸菌スターター)、又は、有用乳酸菌及びその他有用微生物(酵母など)が生菌として含まれているもの等が例示されるが、特に限定されない。また、スターターとして、市販のヨーグルト等を使用することもできる。スターターを添加した原料乳ミックスは、容器充填後、密封して発酵を開始する。
(Fermentation process)
The raw material milk mix prepared as described above is sterilized by heating and cooled to around the fermentation temperature. Then, a starter is added and a fermentation process is performed. For the starter, commercially available products using lactic acid bacteria, bifidobacteria, etc. that are generally used for fermented milk production (such as those obtained by pure culture of lactic acid bacteria, concentrated frozen or dried, etc.) can be used, and only useful lactic acid bacteria (lactic acid bacteria) Starter), or those containing useful lactic acid bacteria and other useful microorganisms (such as yeast) as live bacteria, but are not particularly limited. Moreover, a commercially available yogurt etc. can also be used as a starter. The raw milk mix to which the starter has been added is sealed after the container is filled, and fermentation is started.
発酵温度は、乳酸菌等の菌が効率よく増殖する範囲であればよく、通常30〜50℃程度、好ましくは35〜43℃程度である。発酵処理は、乳酸菌が十分に増殖するまで行えばよく、通常、原料乳ミックスのpHが5.0以下になるまで、好ましくは、4.8以下になるまで、さらに好ましくは、4.2〜4.8程度になるまで行えばよい。発酵時間としては、35〜43℃程度の培養温度の場合、3〜12時間程度、好ましくは3〜6時間程度が目安となる。 Fermentation temperature should just be a range in which bacteria, such as lactic acid bacteria, grow efficiently, and is usually about 30-50 ° C, preferably about 35-43 ° C. The fermentation treatment may be performed until the lactic acid bacteria are sufficiently grown. Usually, the pH of the raw milk mix is 5.0 or less, preferably 4.8 or less, more preferably 4.2. This may be done until it reaches about 4.8. The fermentation time is about 3 to 12 hours, preferably about 3 to 6 hours in the case of a culture temperature of about 35 to 43 ° C.
乳酸発酵が進行し、発酵乳のpHが4.5付近となると、通常は、発酵乳中のカゼインミセルの表面が疎水性となって、ミセルが凝集しカードを形成するが、本発明のように、加熱凝固するハイドロコロイドを併用した発酵乳製品は、凝固せず均一な液体の状態を維持することができる。それは、原料乳ミックスの発酵によりpHが低下することに伴い、カゼインミセルの表面が疎水性となりミセルの凝集が起こる条件において、疎水性相互作用によりゲルを形成するハイドロコロイドを添加することによって、ハイドロコロイドの疎水基とカゼインミセルの疎水基とが作用し、カゼインミセルの凝集が抑制されて、原料乳ミックスの発酵は進行するにもかかわらず、カードの形成は起こらなくなるためと考えられる。また、加熱凝固するハイドロコロイドは、発酵乳を製造する発酵処理工程及びそれらを保存する温度帯においてはゾル状態であることから、カード形成を抑制しながら、発酵乳の均一な溶液の状態を維持することができる。 When lactic acid fermentation progresses and the pH of fermented milk is around 4.5, the surface of casein micelles in the fermented milk becomes hydrophobic and the micelles aggregate to form a card. In addition, the fermented milk product combined with the hydrocolloid that coagulates by heating can maintain a uniform liquid state without coagulation. This is because the hydrocolloid forms a gel by hydrophobic interaction under the condition that the surface of the casein micelle becomes hydrophobic and the micelles agglomerate as the pH decreases due to fermentation of the raw milk mix. This is probably because the hydrophobic group and the hydrophobic group of the casein micelle act to suppress aggregation of the casein micelle and the fermentation of the raw milk mix proceeds, but the formation of curd does not occur. In addition, the hydrocolloid that is coagulated by heating is in a sol state in the fermentation treatment process for producing fermented milk and the temperature zone in which they are stored, and thus maintains a uniform solution state of fermented milk while suppressing curd formation. be able to.
一方、一般的な冷却凝固するハイドロコロイドは、加熱により溶解し、冷却によりゲル化するという特性を有する。冷却凝固するハイドロコロイドの分子は、高温下ではランダムコイルであり、温度の低下に伴ってヘリックスに転移し、さらにヘリックスが凝集することによってゲルを形成すると考えられている。つまり、冷却凝固するハイドロコロイドの多くは、ヘリックスが水素結合により会合して架橋領域を形成し、三次元的な網目構造を形成することによってゲル化が生じる。そのため、冷却凝固するハイドロコロイドでは、カゼインミセルの凝集を抑えることが出来ず、カードの形成を抑制することは困難と考えられる。さらに、通常発酵乳を製造する発酵処理工程の温度は、冷却凝固するハイドロコロイドの凝固点に近いため、作業性や工程管理の面でも冷却凝固するハイドロコロイドは使用することは困難である。 On the other hand, a general hydrocolloid that cools and solidifies has a property of dissolving by heating and gelling by cooling. It is believed that hydrocolloid molecules that cool and solidify are random coils at high temperatures, transition to helices as the temperature decreases, and further form a gel by aggregating the helices. That is, in many of the hydrocolloids that solidify by cooling, gelation occurs when the helix associates by hydrogen bonding to form a crosslinked region and a three-dimensional network structure is formed. Therefore, with hydrocolloids that cool and solidify, aggregation of casein micelles cannot be suppressed, and it is considered difficult to suppress card formation. Furthermore, since the temperature of the fermentation treatment process for producing fermented milk is close to the freezing point of the hydrocolloid that is cooled and solidified, it is difficult to use the hydrocolloid that is cooled and solidified in terms of workability and process control.
(冷却工程)
発酵処理工程の終了後、発酵乳を10℃以下、好ましくは4℃前後に冷却して発酵を停止させ、一晩程度安定化させることが好ましい。
(Cooling process)
After completion of the fermentation treatment step, it is preferable to cool the fermented milk to 10 ° C. or less, preferably around 4 ° C. to stop the fermentation, and stabilize it for about one night.
冷却後の発酵乳の粘度は、好ましくは2〜50mPa・s、さらに好ましくは2〜30mPa・sである。本発明において、粘度は、B型粘度計(芝浦システム社製)を用いて常法により測定される値として定義することができる。 The viscosity of the fermented milk after cooling is preferably 2 to 50 mPa · s, more preferably 2 to 30 mPa · s. In the present invention, the viscosity can be defined as a value measured by a conventional method using a B-type viscometer (manufactured by Shibaura System).
(充填工程)
本発明に係る製造方法の充填工程では、上記冷却された発酵乳を、攪拌しカードを破壊する工程を経ることなく容器に充填し、発酵乳製品を得ることができる。したがって、発酵乳を攪拌する製造工程や設備を省略し、簡略化することができる。また、熱可逆性を有し加熱凝固するハイドロコロイドを併用して製造した発酵乳製品は、一度形成された組織を破壊する工程を必要としないため、離水などが見られず、保存中に液固分離することもない。
(Filling process)
In the filling step of the production method according to the present invention, the cooled fermented milk can be filled into a container without going through the step of stirring and destroying the card to obtain a fermented milk product. Therefore, the manufacturing process and equipment for stirring the fermented milk can be omitted and simplified. In addition, fermented dairy products manufactured using a hydrocolloid that has thermoreversibility and heat-coagulates do not require a step of destroying the tissue once formed. There is no separation.
なお、本発明に係る発酵乳製品の製造方法は、上記以外にも公知の発酵乳製品の製造方法に関する条件や工程を適宜採用することができる。 In addition, the manufacturing method of the fermented milk product which concerns on this invention can employ | adopt suitably the conditions and process regarding the manufacturing method of well-known fermented milk products besides the above.
以上のように、本発明に係る発酵乳製品の製造方法によれば、ソフトヨーグルト、ヨーグルトドリング等、前発酵(容器充填前に発酵を行い、発酵後に発酵乳を攪拌機などで適度な硬さに崩してから容器に充填・密封する方法)により製造されるヨーグルトについて、一度形成された組織を破壊する工程を必要とせず、容器に充填・密封することができるため、製造工程や設備を簡略化することができる。また、後発酵(容器に原料乳ミックスを充填・密封させた後に発酵させる方法)で製造される発酵乳製品(ハードヨーグルト、プレーンヨーグルト)についても、本発明によれば、非常に口当たりがなめらかで、さっぱりとした食感の製品を得ることができる。 As described above, according to the method for producing a fermented milk product according to the present invention, pre-fermentation such as soft yogurt, yogurt dodling, etc. The yogurt produced by breaking and filling the container) can be filled and sealed in the container without the need to destroy the once formed tissue, simplifying the production process and equipment. can do. Moreover, according to the present invention, fermented milk products (hard yogurt, plain yogurt) manufactured by post-fermentation (method of fermenting after filling and sealing the raw milk mix in the container) are very smooth according to the present invention. A product with a refreshing texture can be obtained.
本発明に係る発酵乳製品の製造方法は、特に、ドリンクヨーグルトや乳酸菌飲料などの飲料、ヨーグルトドレッシングなどの調味料、フローズンヨーグルトなどの冷菓などの製造に好適に用いることができる。本発明の製造方法によって得られた発酵乳製品を利用して、ドリンクヨーグルトなどの飲料やヨーグルトドレッシングなどの調味料を製造した場合、たんぱく質の凝固が阻害されているため、非常に口当たりがなめらかで、さっぱりとした食感の製品を得ることができる。 The method for producing a fermented milk product according to the present invention can be suitably used particularly for producing beverages such as drink yogurt and lactic acid bacteria beverages, seasonings such as yogurt dressing, and frozen desserts such as frozen yogurt. When fermented dairy products obtained by the production method of the present invention are used to produce beverages such as drink yogurt and seasonings such as yogurt dressing, the coagulation of the protein is inhibited, so the mouthfeel is very smooth. A product with a refreshing texture can be obtained.
以下、本発明を実施例に基づいて具体的に説明するが、これらは本発明の目的を限定するものではない。なお、以下、特に記載のない限り、%は重量%を示す。 EXAMPLES Hereinafter, although this invention is demonstrated concretely based on an Example, these do not limit the objective of this invention. Hereinafter, unless otherwise indicated, “%” represents “% by weight”.
(乳酸発酵試験1)
下記に示した水と牛乳の混合溶液を撹拌機で撹拌し、その中に脱脂粉乳、下記表1に示す増粘多糖類又はハイドロコロイドの粉体混合物を加え、沸騰させた。その溶液を約40℃まで冷却した後、スターターを添加し、次に37℃の恒温器にて一晩(約12時間)発酵させ、冷蔵庫内で冷却しヨーグルトを調製した。
(Lactic acid fermentation test 1)
The mixed solution of water and milk shown below was stirred with a stirrer, and the powdered mixture of skim milk powder, thickening polysaccharide shown in Table 1 below or hydrocolloid was added and boiled. The solution was cooled to about 40 ° C., a starter was added, and then fermented overnight (about 12 hours) in a 37 ° C. incubator, and cooled in a refrigerator to prepare yogurt.
牛乳(無脂肪固形分) 70%
脱脂粉乳 3%
スターター 2%
(市販ヨーグルト:明治ブルガリア プレーンタイプ)
増粘多糖類 下記表1に示す。
水 残部
70% milk (non-fat solids)
Nonfat dry milk 3%
Starter 2%
(Commercial yogurt: Meiji Bulgaria plain type)
Thickening polysaccharides are shown in Table 1 below.
Water balance
調製したヨーグルトについて、ヨーグルトカードの形成、食感について評価した。結果を表1に示す。なお、評価基準は以下のとおりである。
市販のハードタイプのヨーグルトと同等の固さの固体である 3
弱い固形状又は粘性の高い固形状である 2
液状であるが弱いゲル化が見られる又は粘性がある状態である 1
液状でカードの形成が弱く、分離も見られない 0
About the prepared yogurt, formation of a yogurt card | curd and food texture were evaluated. The results are shown in Table 1. The evaluation criteria are as follows.
It is a solid with the same hardness as a commercially available hard type yogurt 3
It is a weak solid or a highly viscous solid 2
It is liquid but weak gelation is seen or it is in a state with viscosity 1
Liquid form with weak card formation and no separation 0
また、調整したヨーグルトの菌数に関して、培養後のヨーグルトをリン酸緩衝液(pH7.2)に懸濁・希釈し、無菌シャーレ上に調整したBCP加プレートカウントアガール(日水製薬社製)に播種し、好気性下で37℃にて72時間静置後、形成されたコロニー数を計測して測定した。結果を表1に示す。 In addition, regarding the adjusted number of yogurt bacteria, the cultured yogurt was suspended and diluted in a phosphate buffer (pH 7.2), and then adjusted to a BCP-added plate count agar (manufactured by Nissui Pharmaceutical Co., Ltd.) on a sterile petri dish. After seeding and allowing to stand at 37 ° C. for 72 hours under aerobic condition, the number of colonies formed was counted and measured. The results are shown in Table 1.
以上より、発酵後の菌数は実施例、比較例を問わず同程度であるにもかかわらず、メチルセルロース及びヒドロキシプロピルメチルセルロースは、発酵が進みpH4.2以下になってもカードの形成は行われず、ゆるい液状の状態のままであった。一方、その他の多糖類はpH低下につれてカードを形成して完全に固形化するか、発酵過程中に分離してしまい均一なヨーグルトを製造できなかった。 From the above, despite the fact that the number of bacteria after fermentation is about the same regardless of the Examples and Comparative Examples, methylcellulose and hydroxypropylmethylcellulose do not form a card even when fermentation proceeds to pH 4.2 or lower. It remained in a loose liquid state. On the other hand, other polysaccharides formed curds as the pH decreased and were completely solidified, or separated during the fermentation process, making it impossible to produce uniform yogurt.
(乳酸発酵試験2)
下記に示した水と牛乳の混合溶液を撹拌機で撹拌し、その中に脱脂粉乳、下記表2に示す、2%,20℃のときの粘度が異なるメチルセルロース又はヒドロキシプロピルメチルセルロースの粉体混合物を加え、沸騰させた。その溶液を約40℃まで冷却した後、スターターを添加し、次に37℃の恒温器にて一晩(約12時間)発酵させ、冷蔵庫内で冷却しヨーグルトを調製した。
(Lactic acid fermentation test 2)
Stir the mixed solution of water and milk shown below with a stirrer, and then mix the skim milk powder, and the powder mixture of methylcellulose or hydroxypropylmethylcellulose with different viscosities at 2% and 20 ° C shown in Table 2 below. In addition, boiled. The solution was cooled to about 40 ° C., a starter was added, and then fermented overnight (about 12 hours) in a 37 ° C. incubator, and cooled in a refrigerator to prepare yogurt.
牛乳(無脂肪固形分) 70%
脱脂粉乳 3%
スターター 2%
(市販ヨーグルト:森永ビヒダス プレーンヨーグルト)
増粘多糖類 下記表2に示す。
水 残部
70% milk (non-fat solids)
Nonfat dry milk 3%
Starter 2%
(Commercially available yogurt: Morinaga Bidas plain yogurt)
Thickening polysaccharides are shown in Table 2 below.
Water balance
調製したヨーグルトについて、ヨーグルトカードの形成、食感について評価した。結果を表2に示す。なお、評価基準は以下のとおりである。
市販のハードタイプのヨーグルトと同等の固さの固体である 3
弱い固形状又は粘性の高い固形状である 2
液状であるが弱いゲル化が見られる又は粘性がある状態である 1
液状でカードの形成が弱く、分離も見られない 0
About the prepared yogurt, formation of a yogurt card | curd and food texture were evaluated. The results are shown in Table 2. The evaluation criteria are as follows.
It is a solid with the same hardness as a commercially available hard type yogurt 3
It is a weak solid or a highly viscous solid 2
It is liquid but weak gelation is seen or it is in a state with viscosity 1
Liquid form with weak card formation and no separation 0
以上より、粘度が4cPs以下になるとやや固さが出るが溶液状態を維持していた。また、粘度が10000cPsよりも高い場合は弱い分離が見られるが、溶液状態でカードの形成は見られなかった。 From the above, when the viscosity was 4 cPs or less, the solution state was maintained although it was slightly hard. When the viscosity was higher than 10,000 cPs, weak separation was observed, but no card formation was observed in the solution state.
(乳酸発酵試験3)
下記に示した水と牛乳の混合溶液を撹拌機で撹拌し、その中に脱脂粉乳、下記表3に示す割合でメチルセルロース又はヒドロキシプロピルメチルセルロースの粉体混合物を加え、沸騰させた。その溶液を約40℃まで冷却した後、スターターを添加し、次に37℃の恒温器にて一晩(約12時間)発酵させ、冷蔵庫内で冷却しヨーグルトを調製した。
(Lactic acid fermentation test 3)
A mixed solution of water and milk shown below was stirred with a stirrer, and skim milk powder, a powder mixture of methylcellulose or hydroxypropylmethylcellulose was added to the mixture at a ratio shown in Table 3 below, and boiled. The solution was cooled to about 40 ° C., a starter was added, and then fermented overnight (about 12 hours) in a 37 ° C. incubator, and cooled in a refrigerator to prepare yogurt.
牛乳(無脂肪固形分) 70%
脱脂粉乳 3%
スターター 2%
(市販ヨーグルト:明治ブルガリア プレーンタイプ)
増粘多糖類 下記表3に示す。
水 残部
70% milk (non-fat solids)
Nonfat dry milk 3%
Starter 2%
(Commercial yogurt: Meiji Bulgaria plain type)
Thickening polysaccharides are shown in Table 3 below.
Water balance
調製したヨーグルトについて、ヨーグルトカードの形成、食感について評価した。結果を表3に示す。なお、評価基準は以下のとおりである。
市販のハードタイプのヨーグルトと同等の固さの固体である 3
弱い固形状又は粘性の高い固形状である 2
液状であるが弱いゲル化が見られる又は粘性がある状態である 1
液状でカードの形成が弱く、分離も見られない 0
About the prepared yogurt, formation of a yogurt card | curd and food texture were evaluated. The results are shown in Table 3. The evaluation criteria are as follows.
It is a solid with the same hardness as a commercially available hard type yogurt 3
It is a weak solid or a highly viscous solid 2
It is liquid but weak gelation is seen or it is in a state with viscosity 1
Liquid form with weak card formation and no separation 0
以上より、濃度が0.02%以下になると発酵が進むにつれてカードの形成が見られ、若干の固さが見られた。一方、濃度が0.05%から5.0%では、発酵が進んでも溶液の状態を維持していた。濃度が5.0%以上になると弱い分離が見られた。 From the above, when the concentration was 0.02% or less, curd formation was seen as fermentation progressed, and some firmness was seen. On the other hand, at a concentration of 0.05% to 5.0%, the state of the solution was maintained even when fermentation progressed. When the concentration was 5.0% or more, weak separation was observed.
(ドリンクヨーグルトの調製)
水、牛乳中に、撹拌機で撹拌しながら脱脂粉乳、下記表4に示す増粘多糖類又はハイドロコロイドの粉体混合物を加え、沸騰まで加熱し蒸発水を補正した。その液体を約40℃まで冷却した後、スターターを添加し、次に37℃の恒温器にて一晩(約10時間)発酵させ、冷蔵庫内で冷却しヨーグルトを調製した。調製したヨーグルト用いて、ドリンクヨーグルトを作製した。
(Preparation of drink yogurt)
While stirring with a stirrer, water and milk were mixed with skim milk powder, a thickened polysaccharide or hydrocolloid powder mixture shown in Table 4 below, and heated to boiling to correct evaporated water. The liquid was cooled to about 40 ° C., a starter was added, and then fermented overnight (about 10 hours) in a 37 ° C. incubator, and cooled in a refrigerator to prepare yogurt. Drink yogurt was produced using the prepared yogurt.
牛乳(無脂肪固形分) 70%
砂糖 7%
脱脂粉乳 3%
スターター 2%
(市販ヨーグルト:明治ブルガリア プレーンタイプ)
増粘多糖類 下記表4に示す。
水 残部
70% milk (non-fat solids)
7% sugar
Nonfat dry milk 3%
Starter 2%
(Commercial yogurt: Meiji Bulgaria plain type)
Thickening polysaccharides are shown in Table 4 below.
Water balance
実施例24,25の調整ヨーグルトは、カードを形成せず、なめらかで均一であったため加工を一切加えずそのままの状態でドリンクヨーグルトとして摂食することができた。一方で、比較例16〜18の調整ヨーグルトは、完全にカードを形成していたため、撹拌工程及び濾過工程を施した後、充填しドリンクヨーグルトを得なければならなかった。 The adjusted yogurts of Examples 24 and 25 did not form a card and were smooth and uniform, so that they could be fed as drink yogurts as they were without any processing. On the other hand, the adjusted yogurts of Comparative Examples 16 to 18 completely formed a curd, and therefore, after the stirring step and the filtration step, they were filled to obtain a drink yogurt.
(ヨーグルトドレッシングの調製)
ドリンクヨーグルトと同様の処方により調整ヨーグルトを得た。その後、調整ヨーグルトと下記調味料を混ぜ合わせることによりヨーグルトドレッシングを得た。
(Preparation of yogurt dressing)
Adjusted yogurt was obtained according to the same formulation as drink yogurt. Then, yogurt dressing was obtained by mixing adjusted yogurt and the following seasonings.
調製したヨーグルト 60g
オリーブオイル 16g
レモン果汁 18g
食塩 3g
砂糖 1.5g
黒胡椒 1.5g
60g of prepared yogurt
16g olive oil
Lemon juice 18g
3g of salt
1.5g sugar
Black pepper 1.5g
実施例24,25の調整ヨーグルトは、カードを形成せず、なめらかで均一であったため加工を加えることなく調味料と混合しヨーグルトドレッシングを得た。一方で、比較例16〜18の調整ヨーグルトは、完全にカードを形成していたため、撹拌工程及び濾過工程を施した後、調味料と混合しヨーグルトドレッシングを得なければならなかった。 The adjusted yogurts of Examples 24 and 25 did not form a card and were smooth and uniform, so they were mixed with seasonings without any processing to obtain a yogurt dressing. On the other hand, the adjusted yogurts of Comparative Examples 16 to 18 completely formed a curd, and therefore, after the stirring step and the filtration step, they were mixed with the seasoning to obtain a yogurt dressing.
Claims (3)
前記ハイドロコロイドの添加量が0.02〜5.0重量%であり、
前記ハイドロコロイドがメチルセルロース及びヒドロキシプロピルメチルセルロースより選ばれる1以上であることを特徴とする発酵乳製品の製造方法。 In the fermentation treatment step of fermenting a raw material mixture containing raw milk, the raw material mixture is a method for producing a fermented milk product containing hydrocolloid that has thermoreversibility and heat coagulation ,
The amount of the hydrocolloid added is 0.02 to 5.0% by weight,
The method for producing a fermented milk product, wherein the hydrocolloid is at least one selected from methylcellulose and hydroxypropylmethylcellulose .
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