JP2019010020A - Fat composition - Google Patents

Abstract

To provide a fat composition that can suppress binding of food, even when used with a seasoning liquid containing salt or the like in high concentrations.SOLUTION: Disclosed is a fat composition that contains fat, which is liquid at room temperature, organic acid monoglycerol fatty acid ester, polyglycerol unsaturated fatty acid ester with a degree of polymerization of 2-10 and lecithin, and is in a liquid state. According to one embodiment, the fat composition further contains polyglycerol condensed ricinoleic acid ester.SELECTED DRAWING: None

Description

  The present invention relates to an oil and fat composition. In more detail, this invention relates to the fats and oils composition useful as a food modifier.

  In foods containing starch, there is a problem that the binding of foods occurs over time during manufacturing or cooking. For example, noodles such as boiled noodles and steamed noodles show good loosening properties immediately after production, but the noodle strings bind to each other due to the adhesiveness of the gelatinized starch on the surface of the noodle strings over time, resulting in a lump. , The looseness is impaired. In addition, in instant noodles such as non-fried noodles, gelatinized starch binds the noodles together during the drying process, and the looseness after reconstitution with hot water deteriorates. Moreover, also in the manufacture of cooked rice foods, there has been a problem that the cooked rice grains are bound together.

For example, the following oil / fat composition is known as a loosening agent for noodles and cooked rice:
An oil and fat composition containing a predetermined amount of edible oil and fat, diglycerin monolaurate and diglycerin monooleate (Patent Document 1);
Quality improver for noodles containing an oil-soluble substance which is liquid at room temperature, glycerin fatty acid ester and glycerin diacetyltartaric acid fatty acid ester (Patent Document 2);
Noodle quality improver comprising an organic acid monoglyceride and diacetyltartaric acid monoglyceride adsorption-treated gluten (Patent Document 3);
For edible fats and oils, select from lecithin, diglycerin fatty acid ester and monoglycerin fatty acid ester, polyglycerin fatty acid ester having a polymerization degree of 3-16, sucrose fatty acid ester, sorbitan fatty acid ester, organic acid monoglycerin fatty acid ester and propylene glycol fatty acid ester Noodle loosening improver comprising one or more emulsifiers A in a predetermined amount (Patent Document 4);
(A) sucrose fatty acid ester having an HLB value of 10 or more, (B) glycerin fatty acid ester, organic acid monoglyceride, polyglycerin fatty acid ester, sorbitan fatty acid ester, lecithin, (C) edible oil and fat, and (D) An emulsifier composition for rice cooking obtained by preparing an O / W emulsion containing a saccharide compound in a predetermined amount and spray-drying it (Patent Document 5); and polyglycerol fatty acid ester and organic acid monoglyceride as essential components Noodle quality improving agent characterized by containing as (patent document 6).

  In particular, when seasoning such as salty taste is performed in the production process of the food, the food is treated with a seasoning liquid such as an aqueous liquid (aqueous solution) in which seasoning components such as salt are dissolved. There is a need for a food modifier that can be used in combination with such a seasoning liquid and that can suppress the binding of food.

JP 2017-012167 A JP 2017-063619 A JP 2001-258490 A JP 2017-035024 A JP 2000-093098 A JP-A-10-215802

  The present invention has an object to solve the above problems, and the object of the present invention is to suppress the binding of food even when used together with a seasoning liquid containing a high concentration of salt and the like. An object of the present invention is to provide an oil and fat composition useful as a food modifier.

  The present invention provides an oil / fat composition that contains oil and fat that are liquid at room temperature, an organic acid monoglycerin fatty acid ester, a polyglycerin unsaturated fatty acid ester having a polymerization degree of 2 to 10 and lecithin, and is liquid.

  In one embodiment, the oil-and-fat composition is a non-emulsified product.

  In one embodiment, the said oil-fat composition further contains polyglycerin condensed ricinoleic acid ester.

  In one embodiment, the oil and fat composition is a binding inhibitor for food.

  The present invention further provides an oil-in-water emulsion composition comprising the oil composition and water.

  In one embodiment, the oil-in-water emulsion composition further contains a salt content.

  In one embodiment, the oil-in-water emulsion composition contains the salt content at 10 to 15% by weight.

  In one embodiment, the oil-in-water emulsion composition is a food binding inhibitor.

  The present invention also provides a food containing the oil composition and / or the oil-in-water emulsion composition.

  In one embodiment, the food product is a noodle product.

  In one embodiment, the food product is a cooked rice product.

The present invention also provides a method for producing a food product, the method comprising:
A step of treating the food material with the oil composition and / or the oil-in-water emulsion composition.

The present invention also provides a method for producing a noodle product, the method comprising:
A step of bringing the oil and fat composition and / or the oil-in-water emulsion composition into contact with steamed or boiled noodles.

The present invention also provides a method for producing cooked rice products,
A step of cooking raw rice or steaming glutinous rice together with the oil composition and / or the oil-in-water emulsion composition is included.

  ADVANTAGE OF THE INVENTION According to this invention, the oil-fat composition which can be stably emulsified in the aqueous liquid containing water or salt is provided. Thereby, even if it is the case of the foodstuff manufacture using the seasoning liquid containing a high concentration salt, the foodstuff by which binding was suppressed can be manufactured.

It is a photograph which shows the state of each typical emulsification dispersion in the case where an evaluation standard is 2 and the case where it is 3 about the emulsion stability evaluation (Example 6) of an oil-and-fat composition.

  In the present specification, the “liquid oil composition” is a composition containing oil and fat and is liquid at room temperature. “Normal temperature” is, for example, 5 to 30 ° C., preferably 15 to 25 ° C. The oil / fat composition of the present invention comprises an oil / fat that is liquid at room temperature (hereinafter also referred to as “liquid oil / fat”), an organic acid monoglycerin fatty acid ester (hereinafter also referred to as “first component”), Glycerin unsaturated fatty acid ester (hereinafter also referred to as “second component”) and lecithin (hereinafter also referred to as “third component”). In one embodiment, the oil and fat composition of the present invention further includes a polyglycerin condensed ricinoleic acid ester (hereinafter also referred to as “fourth component”). In this specification, the first component, the second component, the third component, and the fourth component are also referred to as “emulsifier components”.

  In one embodiment, the oil and fat composition of the present invention is a non-emulsified product. “Non-emulsified” means that the emulsifier component is dissolved in the liquid oil.

  In the present specification, the “oil-in-water emulsion composition” is an oil / fat composition and water or an aqueous liquid (for example, a composition comprising an aqueous solution or a water suspension, and the oil / fat composition is used as an oil phase. Water or an aqueous liquid is used as an aqueous phase to form an oil-in-water (o / w) type emulsion.

  In the present specification, the “food modifier” refers to a substance that, when added to food, modifies the quality of the added food. In the present invention, the “food product” is preferably a food product containing starch. Examples of such foods include noodle products and cooked rice products.

  In the present specification, the “noodle products” includes noodles such as udon, soba, Chinese noodles, spaghetti, etc., but also includes products made of the same or similar materials as noodles such as wonton and dumpling skins. .

  In the present specification, the “cooked rice product” may further include ingredients such as vegetables, beans, and meat as long as it is a product mainly containing rice (eg, white rice, brown rice, germ rice). For example, white rice (for example, unseasoned rice), flavored rice (for example, cooked rice), red rice and the like can be mentioned.

  In the present specification, “quality” of food includes looseness, texture, flavor and the like of food.

  In the present specification, the term “fraying” means that the binding between the constituent parts of food (eg, noodle products or cooked rice products) (eg, noodle strings or skin of noodles or rice grains) is weakened, and the constituent parts are It means that they are easily separated from each other, or the constituent parts are separated. In the present specification, “disentangling” refers to the ease of unraveling between the constituent parts of food. The easier the components of the food are unraveled, the higher the unraveling property.

  Hereinafter, each component of the oil and fat composition of the present invention will be described.

  The liquid fat used in the present invention is not particularly limited as long as it is liquid at room temperature. In the present specification, for example, “oil and fat that is liquid at 20 ° C.” means liquid oil and fat that may contain 1% by weight or less of solid fat at 20 ° C. The solid fat content of fats and oils is measured according to the method described in “Solid fat content NMR method” of the Japan Oil Chemists' Society standard fat analysis method. Examples of the liquid oil include rapeseed oil, rice oil, corn oil, soybean oil, safflower oil, cottonseed oil, fish oil (eg, whale oil, coconut oil, and liver oil), and medium chain fatty acid oil. In the present invention, these liquid oils and fats may be used alone or in any combination of two or more. Preferably it is edible fat. Vegetable oil is preferred. Rapeseed oil, rice oil, corn oil or a combination of any two or more of these is preferable, and rapeseed oil is more preferable.

  Although content of liquid fats and oils is not specifically limited, For example, it is 70 to 99 weight% in 100 weight% of fats and oils compositions, Preferably, it is 80 to 98 weight%. By setting the content of the liquid fat in the fat composition within the above range, the balance of the content with the emulsifier component (first component, second component and third component, and (if included) fourth component) is achieved. The oil and fat composition is more easily and stably emulsified in water or an aqueous liquid (for example, an aqueous solution or a water suspension). Such content, when the fat composition is used in foods, the fat composition adheres sufficiently to the food and exhibits its reforming effect (eg, loosening improvement effect), and the food is eaten. Does not leave any oiliness.

  The “first component” organic acid monoglycerin fatty acid ester is a compound in which an organic acid is further ester-bonded to a monoester of glycerin and a fatty acid (also referred to as “monoglyceride”) (also referred to as “organic acid monoglyceride”). Although it does not specifically limit as a fatty acid to comprise, The fatty acid originating in the edible animal and vegetable oil and fat is preferable. Examples of the constituent fatty acids include linear saturated fatty acids having 6 to 24 carbon atoms (for example, caproic acid, caprylic acid, capric acid, lauric acid, myristic acid, palmitic acid, stearic acid, arachidic acid, behenic acid, lignoceric acid. And unsaturated fatty acids (for example, palmitooleic acid, oleic acid, elaidic acid, linoleic acid, γ-linolenic acid, α-linolenic acid, arachidonic acid, ricinoleic acid, condensed ricinoleic acid, etc.), preferably Examples thereof include unsaturated fatty acids having 16 to 22 carbon atoms (for example, oleic acid, linoleic acid, linolenic acid, elaidic acid, erucic acid, etc.). More preferred is oleic acid. The organic acid monoglyceride is not particularly limited, and examples thereof include diacetyltartaric acid monoglyceride, succinic acid monoglyceride, citric acid monoglyceride, and lactic acid monoglyceride. The HLB (Hydrophilic-Lipophilic Balance) value is, for example, 3 to 10, preferably 6 to 9. When the HLB value of the first component is within the above range, emulsifiability in water or an aqueous solution can be facilitated. Organic acid monoglycerides that are available as food additives can also be used.

  Although content of a 1st component is not specifically limited, For example in 0.1 weight% of fats and oils composition, 0.1-20 weight%, Preferably, it is 0.25-10 weight%, More preferably, it is 0.5-5 % By weight. By setting the content of the first component in the oil / fat composition within the above range, the oil / fat composition can be more easily and stably emulsified in water or an aqueous liquid. Such content can help adhesion of the oil / fat composition to the food in the use of the oil / fat composition in foods, and can suppress binding of components of the food.

  The “second component” polyglycerin unsaturated fatty acid ester having a polymerization degree of 2 to 10 refers to an ester bond of a polyglycerin having a polymerization degree of 2 to 10 and an unsaturated fatty acid. The degree of polymerization of polyglycerol is preferably 4-10. Although the unsaturated fatty acid to comprise is not specifically limited, The fatty acid derived from edible animal and vegetable fats and oils is preferable. For example, unsaturated fatty acids having 6 to 24 carbon atoms (for example, palmitooleic acid, oleic acid, elaidic acid, linoleic acid, γ-linolenic acid, α-linolenic acid, arachidonic acid, ricinoleic acid, condensed ricinoleic acid, etc.) Preferred examples include unsaturated fatty acids having 16 to 22 carbon atoms (for example, oleic acid, linoleic acid, linolenic acid, elaidic acid, erucic acid, etc.). More preferred is oleic acid. The HLB value is, for example, 3 to 9, preferably 6 to 8. When the HLB value of the second component is within the above range, emulsifiability in water or an aqueous solution can be facilitated. Polyglycerin unsaturated fatty acid esters having a degree of polymerization of 2 to 10 can also be used as food additives.

  The content of the second component is not particularly limited, but is, for example, 0.3 to 20% by weight, preferably 0.5 to 10% by weight, more preferably 1 to 10% by weight, in 100% by weight of the oil and fat composition. It is. By setting the content of the first component in the oil / fat composition within the above range, the oil / fat composition can be more easily and stably emulsified in water or an aqueous liquid. Such content can help adhesion of the oil / fat composition to the food in the use of the oil / fat composition in foods, and can suppress binding of components of the food.

  The “third component” lecithin is a mixture of phospholipids such as phosphatidylcholine, phosphatidylethanolamine, phosphatidylinositol, phosphatidic acid, phosphatidylserine, and the like. Examples of lecithin include plant lecithin (for example, soybean lecithin, sunflower lecithin, etc.), egg yolk lecithin, etc., and a combination of two or more kinds may be used. Preferably it is soybean lecithin. As lecithin, those available as food additives can also be used.

  The content of the third component is not particularly limited, but is, for example, 0.3 to 10% by weight, preferably 0.5 to 5% by weight, and more preferably 1 to 3% by weight in 100% by weight of the oil and fat composition. It is. By making content of the 3rd component in an oil-fat composition into the said range, an oil-fat composition can emulsify more easily and stably in water or an aqueous liquid. Such content can help adhesion of the oil / fat composition to the food in the use of the oil / fat composition in foods, and can suppress binding of components of the food.

  The oil and fat composition of the present invention may contain a polyglycerol condensed ricinoleic acid ester as a “fourth component”. The polyglycerin-condensed ricinoleic acid ester can be produced by reacting ricinoleic acid (castor oil fatty acid) with heat and polyglycerin. As polyglycerin condensed ricinoleic acid esters, those available as food additives can also be used. The oil and fat composition can further improve the emulsifiability in water or an aqueous liquid by further including the fourth component. When the fourth component is contained, the content of the fourth component in the oil / fat composition is not particularly limited, but in 100% by weight of the oil / fat composition, for example, 0.3 to 10% by weight, preferably 0.5 to 5%. % By weight, more preferably 1 to 3% by weight. By making content of the 4th component in an oil-fat composition into the said range, the emulsion stability in the water or aqueous liquid of an oil-fat composition can be improved further. Such content can help adhesion of the oil / fat composition to the food and further enhance the binding-suppressing effect of the food in the use of the oil / fat composition for food.

  The oil and fat composition of the present invention contains the first component, the second component and the third component, and the fourth component (when included) in a weight ratio of 1: 1 to 6: 1 to 3: 1 with respect to the liquid oil. obtain. By satisfy | filling such a ratio, the emulsification stability in the water or aqueous liquid of an oil-fat composition can be improved. In addition, when used in foods, the oil / fat composition is sufficiently adhered to the foods, and when the foods are eaten while suppressing the binding of the foods, the oily flavor ("oiliness") is not left. .

  In the oil and fat composition of the present invention, the first component, the second component, the third component, and the fourth component (when included) are 0.5 to 5: 1 to 10: 1 to 3: 1 as each component weight ratio. ~ 3. By satisfying such a ratio, it is possible to improve the emulsification stability of the oil and fat composition of the present invention in water or an aqueous liquid, and when the composition is used for food, it is sufficiently adhered and bound to the surface of the food. Can be improved.

  In one embodiment, the oil and fat composition of the present invention is a non-emulsified product. The oil / fat composition of the present invention preferably becomes liquid by dissolving the emulsifier components (that is, the first component, the second component, the third component, and the fourth component (if included)) in the liquid oil. By having such a configuration, the oil and fat composition of the present invention can be stably emulsified and dispersed in water or an aqueous liquid, and can also be stably used for application at high temperatures. .

  The oil and fat composition of the present invention can be stably emulsified and dispersed in water or an aqueous liquid to form an oil-in-water emulsion composition. The oil-in-water emulsion composition of the present invention is an emulsion containing the oil / fat composition of the present invention and water. The oil-in-water emulsified composition can further contain a solute such as salt (eg, salt). The oil-in-water emulsion composition may contain a solute such as salt in an amount of, for example, 0.2 to 20 wt%, 1 to 15 wt%, 10 to 15 wt%, or 10 to 14 wt%. When the oil-in-water emulsion composition is used in foods, the aqueous liquid (for example, aqueous solution) containing salt that constitutes the oil-in-water emulsion composition may be a seasoning liquid. In addition to salt, the seasoning liquid is soy sauce, miso, fish soy, sugar, sucrose, liquid sugar, fructose, mirin, sweetener, livestock meat extract, seafood extract, vegetable extract, sodium glutamate, sodium inosinate, sodium succinate , Sodium guanylate, amino acids, acetic acid, citric acid, malic acid, lactic acid, tartaric acid, pigments, spices, etc., and is not particularly limited to the solid content therein, and is appropriately adjusted according to the purpose obtain.

  The oil / fat composition depends on its use (for example, application to food), the type of food to be applied, and the type or amount of solute (for example, salinity) in the aqueous liquid, but in 100 parts by weight of water or the aqueous liquid. On the other hand, the oil-and-fat composition is mixed in, for example, 0.01 to 10 parts by weight, preferably 0.1 to 5 parts by weight, more preferably 0.3 to 3 parts by weight. Can be generated. When the oil and fat composition is less than 0.01 parts by weight, there is a risk of insufficient adhesion to the surface of the food when used for food, and when it exceeds 10 parts by weight, the oil or fat composition is water or aqueous. There is a risk of impairing the emulsion stability in the liquid.

  In one embodiment, the oil and fat composition and the oil-in-water emulsion composition of the present invention can be used as a food modifier. Such a food modifier has an effect of suppressing the binding of food and can be used as a binding inhibitor for food. A food modifier (a food binding inhibitor) can suppress food binding and improve the looseness of the food. A food to which such a food modifier is applied includes, for example, an oil composition and / or an oil-in-water emulsion composition on the surface thereof, and thus includes either or both of these compositions. obtain.

  The food to which the food modifier is applied is not particularly limited, but is any food containing starch. Examples of such food include noodle products and cooked rice products as described above. Examples of noodle products include instant noodles (non-fried noodles and fried noodles) and boiled noodles. As the types of cooked rice products, cooked white rice, brown rice, germed rice, etc. using white rice cooked with water (for example, unseasoned rice) or seasoning liquid (including salt, salt, soy sauce, etc.) Examples include cooked rice (for example, cooked rice) and red rice obtained by steaming glutinous rice. The food may be a retort food, a frozen food, or the like.

  The oil-and-fat composition of the present invention and / or the oil-in-water emulsion composition can be provided as a food material in the process of producing food. “Ingredients” for foods refers to intermediates (for example, instant noodle products) that are produced from the raw material of the noodles before the finished product (eg, non-fried noodles or red rice) is boiled. The resulting boiled noodle strings (non-fried or before frying) and glutinous rice steamed after coloring for red rice products) are also included.

  The food is produced by the normal production process of the food except that the food material is treated with the liquid oil composition of the present invention or the oil-in-water emulsion composition in the production process of the food. Can be done. The material to be treated is preferably a food material (for example, noodle strings or rice grains) whose binding is to be suppressed. For example, the treatment can be performed by contacting the food material with the liquid oil composition of the present invention or the oil-in-water emulsion composition. Examples of contact include dipping, spraying, application (for example, brush coating), and the like. The timing of the treatment is a food material (eg, steamed noodles or starch) in which at least the starch on the surface is pregelatinized even before gelatinization (pregelatinization) of the starch of the food material occurs (eg, raw rice after washing with water). Noodle strings of boiled noodles, and sticky rice steamed after coloring). As a result, the oil / fat composition is adhered to the surface of the food material (for example, noodle strings or rice grains), and the produced food has improved looseness by suppressing binding during storage and / or cooking. Can be.

  Hereinafter, for the sake of illustration, a method for producing noodle products and cooked rice products will be described.

  In the production of noodle products, the oil composition and / or the oil-in-water emulsion composition can be brought into contact with steamed or boiled noodles. When the production process includes a seasoning process, the liquid oil composition or the oil-in-water emulsion composition is steamed or boiled noodles according to the contact with the seasoning liquid used in the seasoning process (for example, the noodle strings thereof) ). The contact may be performed, for example, by immersing steamed or boiled noodles in an oil-in-water emulsion composition prepared by mixing a seasoning liquid and a liquid oil composition, or emulsifying the steamed or boiled noodles. This is done by spraying or applying the composition directly. Thereby, the seasoning of noodles and a looseness improvement process can be performed in one process. When seasoning is not required, contact can be performed by the same procedure using water instead of the seasoning liquid. The amount of the fat composition and / or the oil-in-water emulsion composition (or both) added to the food material (eg, steamed or boiled noodles) depends on the type or form of the product, but the weight of the fat composition For example, the fat and oil composition may be 10 to 100 parts by weight, and the food material may be, for example, 100 to 2000 parts by weight.

  For example, instant non-fried noodle products are prepared by immersing steamed noodles or boiled noodles in an oil-in-water emulsion composition prepared by mixing a seasoning liquid or water with a liquid oil composition (necessary) Depending on whether the emulsion composition is directly sprayed or applied to steamed noodles or boiled noodle strings, the emulsion composition is dried with hot air. Instant fried noodle products can be produced by oil treatment instead of hot air drying. Boiled noodle products were boiled in cold water with boiled noodle products, and the noodle strings were soaked in an oil-in-water emulsion composition prepared by mixing a seasoning liquid or water with a liquid oil composition (necessary) Or after spraying or applying the emulsified composition directly to steamed noodles or boiled noodle strings, sealed in a heat-resistant bag and sterilized by heating with steam (or hot water). It can be manufactured by processing.

  In the production of cooked rice products, cooking raw rice or steaming raw glutinous rice can be performed together with the oil composition and / or the oil-in-water emulsion composition. Thereby, the material of cooked rice products can be processed with an oil-and-fat composition or the oil-in-water emulsion composition. The amount of the oil / fat composition or the oil-in-water emulsified composition (or both) added to the food material (raw rice, etc.) depends on the type or form of the product, but the oil / fat is based on the weight of the oil / fat composition. The food material may be, for example, 100 to 1000 parts by weight with respect to 1 part by weight of the composition.

  For example, white rice can be produced by dispersing an oil and fat composition in water used when cooking cooked raw rice and cooking it. Sex can be improved. The cooked rice can be produced by cooking the cooked raw rice by dispersing the oil and fat composition in the seasoning liquid added for the purpose of seasoning and cooking the cooked rice. Well, the looseness of the rice can be improved. Red rice is treated by spraying or immersing the simmered water (seasoning liquid containing salt) in which the oil and fat composition is dispersed in steamed glutinous rice when the washed glutinous rice is colored with steamed bean broth and then steamed. The red rice that can be produced can improve the looseness of the rice.

  The oil and fat composition of the present invention can be stably emulsified in an aqueous liquid (aqueous solution) containing a solute such as water or salt. This oil-and-fat composition has a high concentration of solutes such as salt, which has been considered difficult in the past (for example, 10 to 15% by weight, preferably 10 to 14% by weight, based on the weight of the entire oil-in-water emulsion composition). Even when mixed with the aqueous liquid contained in the above, it can be easily emulsified and dispersed to produce a highly stable oil-in-water emulsion. Further, such an oil-in-water emulsion can exhibit excellent emulsion stability even at high temperatures.

  The oil and fat composition and the oil-in-water emulsified composition of the present invention can be used for the production of foods using a seasoning liquid containing a high concentration of salt, and improve foods (for example, improvement of loosening properties and foods) It is useful for improving the feeling and flavor. By using an oil-in-water emulsion composition containing an aqueous liquid (for example, seasoning liquid) containing a high concentration of solute (for example, salt), both properties of the solute and the fat and oil composition can be utilized. For example, by using an oil-in-water composition in which an oil and fat composition is emulsified in a seasoning liquid containing a high concentration of salt, in the production of instant noodles, both the seasoning treatment for noodles and the loosening action treatment for noodles are more It can be carried out efficiently with few steps, preferably in one step.

  Hereinafter, the present invention will be described in detail by way of examples. However, the present invention is not limited to these.

(Preparation of oil and fat composition: Examples 1 to 5 and Comparative Examples 1 to 7)
Based on the component composition (unit: wt%) shown in Table 1 so that the total amount of the oil / fat composition is 300 g, the raw materials are put into a 500 mL glass beaker and heated to about 80 ° C. while stirring with a spatula. And mixed and dissolved. The obtained solution was cooled to room temperature to prepare an oil and fat composition.

The following ingredients were used:
Liquid oil: rapeseed white squeezed oil (J-Oil Mills Co., Ltd.);
Diacetyltartaric acid monoglycerin oleate (HLB value: 7): PANODAN AB-100 (Danisco);
Polyglycerin oleate (degree of polymerization 10) (HLB value: 8): Ryoto Polygly O-50D (Mitsubishi Chemical Foods);
Lecithin: Lecithin DX (Nisshin Oillio Group, Inc.);
Polyglycerin condensed ricinoleic acid ester: SY Glister CRS-75 (Sakamoto Pharmaceutical Co., Ltd.);
Polyglycerin stearic acid ester (degree of polymerization 4) (HLB value: 8.4): SY Glister MS-3S (Sakamoto Pharmaceutical Co., Ltd.);
Diglycerin oleate (HLB value: 7.4): Poem DO-100V (Riken Vitamin Co., Ltd.);
Diglycerin laurate (HLB value: 9.4): Poem DL-100V (Riken Vitamin Co., Ltd.).

(Example 6)
(Preparation and evaluation of seasoning liquid containing oil and fat composition)
To 196 g of the seasoning liquid, which is an aqueous solution containing 10% by weight of sodium chloride, 4 g of the oil and fat composition was mixed and stirred for 1 minute to be emulsified and dispersed. Next, gentle stirring was continued for 1 hour in a 60 ° C. water bath. Thereafter, the state of the emulsified dispersion was returned to room temperature and allowed to stand for 1 hour, and the emulsion stability was evaluated according to the following evaluation criteria. The results are shown in Table 1.

  Similarly, the stability of the emulsion was evaluated in the same manner as above except that 4 g of the oil / fat composition was mixed with 196 g of water not containing sodium chloride and emulsified and dispersed. The results are also shown in Table 1.

Evaluation Criteria 4: The emulsified dispersion is uniformly dispersed throughout and is clouded.
3: The emulsified dispersion produces a cream-like layer on the surface layer, and the others are uniformly dispersed and show a cloudy state.
2: The emulsified dispersion produces a cream-like layer on the surface layer, and the others are uniformly dispersed, but show a state of low white turbidity.
1: The emulsified dispersion produces a cream-like layer on the surface layer, and the others are transparent.

  As shown in Table 1, the oil and fat compositions of the examples showed good emulsion stability compared to the oil and fat compositions of the comparative examples. The photograph which shows each typical emulsification dispersion liquid when the evaluation criteria are 2 and 3 is shown in FIG. As shown in FIG. 1, the evaluation standard 3 has a higher degree of white turbidity than the evaluation standard 2 and the surface creamy layer is thin, and thus shows a more uniform degree of dispersion. there were. Moreover, the oil-fat composition of an Example showed the uniform dispersion | distribution compared with the oil-fat composition of the comparative example also in the seasoning liquid containing salt concentration as high as 10 weight%. In particular, the oil and fat composition of Example 5 showed much better emulsion stability.

(Example 7)
(Production and evaluation of instant non-fried Chinese noodles)
The amount of instant non-fried Chinese noodles was as follows:
Wheat flour (protein amount 10.8%, ash content 0.35%) 80 parts by weight, processed starch (derived from tapioca) 20 parts by weight, water 35 parts by weight, cane flour (sodium carbonate: potassium carbonate = 40: 60 (weight ratio) )) 0.5 parts by weight, 1 part by weight of salt.

  800 parts by weight of wheat flour, 200 parts by weight of processed starch, 350 parts by weight of water, 5 parts by weight of cane flour, and 10 parts by weight of sodium chloride were mixed with a horizontal mixer. The obtained mixture was molded into a strip shape using a roll-type noodle making machine. Next, ripening was performed to produce linear raw Chinese noodles having a noodle cross-section with a noodle thickness of 1.1 mm, a noodle width of 1.8 mm, and a noodle length of 30 cm.

  300 parts by weight of raw Chinese noodles were heat-treated for 4 minutes in a steamer containing 0.02 Mpa of steam to obtain steamed Chinese noodles. Next, 300 parts by weight of steamed Chinese noodles were soaked in 1000 parts by weight of a seasoning liquid containing 10 parts by weight of an oil / fat composition, 100 parts by weight of sodium chloride and 10 parts by weight of seasoning, and then drained. The drained Chinese noodles were put into a punched stainless steel mold having a diameter of 120 mm and a height of 60 mm, and dried for 40 minutes with hot air at a wind speed of 10 m / S and 90 ° C. to obtain instant non-fried Chinese noodles. .

  Non-fried noodles were put into a container, 400 g of hot water was poured, the lid was covered and left for 4 minutes, and then the noodles were loosened with chopsticks. When the noodles were lifted with chopsticks after the start of loosening the noodles, the time until the lump due to adhesion of the noodles was not observed (the loosening time) was measured, and the noodle loosening properties were evaluated according to the following criteria. Table 2 shows the results of noodle loosening evaluation together with the component composition (unit:% by weight) of each oil and fat composition.

(Feeling evaluation criteria)
5: The loosening time is less than 10 seconds 4: The loosening time is 10 seconds or more and less than 20 seconds 3: The loosening time is 20 seconds or more and less than 30 seconds 2: The loosening time is 30 seconds or more It is less than 40 seconds 1: The loosening time is 40 seconds or more

  As shown in Table 2, in the non-fried Chinese noodles produced using the seasoning containing a high concentration of salt, the oil and fat compositions of the examples have higher noodle loosening properties than the oil and fat compositions of the comparative examples, Good noodle loosening effect was shown. In particular, the oil and fat composition of Example 5 showed a further excellent noodle loosening effect.

(Example 8)
(Sensory evaluation using boiled Chinese noodles)
Boiled Chinese noodles were blended as follows: wheat flour (protein amount 10.8%, ash content 0.35%) 80 parts by weight, processed starch (derived from tapioca) 20 parts by weight, water 35 parts by weight, canned flour (Sodium carbonate: potassium carbonate = 40: 60 (weight ratio)) 2 parts by weight, 1 part by weight of sodium chloride.

  800 parts by weight of wheat flour, 200 parts by weight of processed starch, 350 parts by weight of water, 20 parts by weight of cane flour and 10 parts by weight of sodium chloride were mixed with a horizontal mixer. The obtained mixture was molded into a strip shape using a roll-type noodle making machine. Next, aging was carried out to produce linear raw Chinese noodles having a cross section of 1.5 mm square and a noodle length of 30 cm.

  300 parts by weight of raw Chinese noodles were boiled with 3000 parts by weight of hot water for 3 minutes and then washed with cold water for 60 seconds. Next, 200 parts by weight of boiled Chinese noodles were put into 1000 parts by weight of a solution containing 10 parts by weight of an oil and fat composition, then drained and placed in a cup-shaped resin container. Chinese noodles were refrigerated and stored in a bowl placed in a container.

  After 24 hours of refrigerated storage, sensory evaluation of the texture and flavor of the noodle strings was performed according to the criteria shown below. This sensory evaluation was performed by 10 subjects, and the determination results were scored according to the following evaluation criteria and obtained by majority vote of these subjects. The results are shown in Table 3 below together with the component composition (unit: wt%) of each oil and fat composition.

(Evaluation criteria for texture)
A: Moderately hard and sticky B: Softened and soft

(Flavor evaluation standard)
C: Do not feel oiliness derived from fat when eaten D: Feel oiliness derived from fat when eaten

  As shown in Table 3, the fat and oil composition of Example 5 showed good results in the texture and flavor of the noodle strings. On the other hand, in the fat and oil compositions of Comparative Examples 5, 6 and 7, the noodle strings became soft due to softening, and the oiliness remained when eaten.

Example 9
(Manufacture of instant fried Chinese noodles)
The amount of instant fried Chinese noodles was as follows: wheat flour (protein amount 10.8%, ash content 0.35%)) 80 parts by weight, processed starch (derived from tapioca) 20 parts by weight, water 35 parts by weight, Cane powder (sodium carbonate: potassium carbonate = 40: 60 (weight ratio)) 0.5 part by weight, salt 1 part by weight.

  Steamed Chinese noodles were prepared in the same manner as in Example 7. Next, 300 parts by weight of steamed Chinese noodles were soaked in 1000 parts by weight of a seasoning liquid containing 10 parts by weight of an oil / fat composition, 100 parts by weight of sodium chloride and 10 parts by weight of seasoning, and then drained. The drained Chinese noodles are put into a punched stainless steel mold with a diameter of 120 mm and a height of 60 mm, put into palm oil heated to 150 ° C., oil-treated for 90 seconds, and instant fried Chinese noodles Got.

(Example 10)
(Manufacture and evaluation of white rice)
To 500 parts by weight of washed rice, 700 parts by weight of water containing 4 parts by weight of an oil / fat composition was added to obtain cooked white rice.

  The looseness of cooked rice was evaluated according to the following criteria. The results are shown in Table 4 together with the component composition (unit:% by weight) of each oil and fat composition.

(Feeling evaluation criteria)
E: Overall binding between rice grains is suppressed and easy to loosen F: Overall loosening is easy, but there are some lumps G: Overall binding between rice grains is strong and difficult to loosen

(Example 11)
(Manufacture and evaluation of red rice)
500 parts by weight of washed glutinous rice, 500 parts by weight of boiled bean soup (100 parts by weight of bean soup in 1000 parts by weight of water containing 1 part by weight of baking soda, and heated) ) For 15 minutes and colored. The colored glutinous rice was steamed for 20 minutes in a steamer containing 0.2 Mpa steam. Next, 1000 parts by weight of the seasoning liquid containing 1 part by weight of the oil and fat composition and 10 parts by weight of sodium chloride was sprayed evenly on the steamed glutinous rice, and then in a steamer containing 0.2 Mpa of steam. Steamed for a minute to get red rice.

  The looseness of cooked rice was evaluated according to the same criteria as in Example 10. The results are also shown in Table 4.

  As shown in Table 4, the oil and fat compositions of Examples 1 and 5 have high rice rice looseness compared to the oil and fat composition of Comparative Example in both white rice and red rice, and thus have a good rice grain loosening effect. Indicated. In particular, the oil and fat composition of Example 5 showed an even better rice grain loosening effect.

(Example 12)
(Manufacture of taste rice)
To 500 parts by weight of washed rice, 750 parts by weight of a seasoning liquid containing 8 parts by weight of an oil and fat composition and 80 parts by weight of soy sauce base seasoning was added to obtain cooked rice.

  The present invention is useful, for example, in the fields of food production and cooking and food additive production.

Claims (14)

  An oil and fat composition comprising a fat and oil which is liquid at normal temperature, an organic acid monoglycerin fatty acid ester, a polyglycerin unsaturated fatty acid ester having a polymerization degree of 2 to 10 and lecithin, and which is liquid.   The fat composition according to claim 1, which is a non-emulsified product.   The oil and fat composition according to claim 1 or 2, further comprising a polyglycerin condensed ricinoleic acid ester.   The oil and fat composition according to any one of claims 1 to 3, which is a food binding inhibitor.   An oil-in-water emulsified composition comprising the oil and fat composition according to any one of claims 1 to 4 and water.   The oil-in-water emulsion composition according to claim 5, further comprising a salt content.   The oil-in-water emulsion composition according to claim 6, comprising 10 to 15% by weight of the salinity.   The oil-in-water emulsion composition according to any one of claims 5 to 7, which is a food binding inhibitor.   A food comprising the oil / fat composition according to any one of claims 1 to 4 and / or the oil-in-water emulsion composition according to any one of claims 5 to 8.   The food according to claim 9, wherein the food is a noodle product.   The food according to claim 9, wherein the food is a cooked rice product. A method for producing food,
A method comprising treating the food material with the oil / fat composition according to any one of claims 1 to 4 and / or the oil-in-water emulsion composition according to any one of claims 5 to 8. A method for producing noodle products,
A method comprising the step of contacting the oil-and-fat composition according to any one of claims 1 to 4 and / or the oil-in-water emulsion composition according to any one of claims 5 to 8 with steamed or boiled noodles. . A method for producing cooked rice products,
A step of cooking raw rice or steaming glutinous rice together with the oil / fat composition according to any one of claims 1 to 4 and / or the oil-in-water emulsion composition according to any one of claims 5 to 8, Method.