JP2017127249A - Powdery fat composition for noodles - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a powdery fat composition for noodles which is reduced in a production time and produces noodles that has luster and resilience, is smooth, and has good feeling of passing through the throat.SOLUTION: A powdery fat composition for noodles contains a powdery fat composition that satisfies condition (a): when the total content of triglyceride is 100 mass%, the fat composition contains 65-99 mass% of XXX-type triglyceride having a fatty acid residue X having a carbon number x at a 1-position and a 3-position and 35-1 mass% of one or more X2Y type triglyceride in which one fatty acid residue X of the XXX-type triglyceride is substituted with a fatty acid residue Y having a carbon number y, where the carbon number x is an integer selected from 8 to 20, and the carbon number y is each independently an integer selected from x+2 to x+12 and satisfies y≤22.SELECTED DRAWING: None

Description

  The present invention relates to a powdery fat composition for noodles for producing noodles having a shortened production time, a smooth elasticity, a smooth texture and a good texture. It also relates to noodles or premixes containing them, and methods for producing them.

  Noodles, depending on the raw materials and processing methods, there are various types such as udon, soba, Chinese noodles, spaghetti, macaroni, rice noodles, etc. Improvements in processing methods such as the noodle making method have been accumulated, and edible oils, edible fats and oils containing powders, and the like have been widely used during the production of noodles.

For example, a method of adding an oil composition for fried instant noodles containing diglycerin monofatty acid ester as an active ingredient is known (Patent Document 1). In addition, a method using an O / W type powdered oil containing an emulsifier is also known (Patent Document 2).
Thus, various methods for producing noodles having a strong texture and the like by adding edible oils or powdered fats and oils containing emulsifiers have been proposed so far, but in recent years consumer preferences have diversified.・ With increasing complexity, the previous method does not necessarily satisfy the needs of consumers, but another method for producing noodles that are more elastic and have a good texture in the throat Was demanded.

JP-A-9-275900 Japanese Patent Laid-Open No. 1-320961

  An object of the present invention is to provide a powdery fat composition for noodles for producing noodles having a shortened production time, a smooth elasticity, and a smooth and smooth texture.

  As a result of diligent research on a method for producing noodles having elasticity that is elastic by adding powdered fats and oils and having a good texture, by using a powdered fat composition satisfying specific conditions, Surprisingly, the present inventors have found that noodles having a shortened production time, a smooth elasticity, a smooth texture and a good texture can be obtained.

That is, according to one aspect of the present invention, a powdery fat composition for noodles containing a powdery fat composition that satisfies the following condition (a) can be provided.
(A) When the total triglyceride content is 100% by mass, 65 to 99% by mass of XXX type triglyceride having a fatty acid residue X having carbon number x at the 1st to 3rd positions, and the fatty acid residue of the XXX type triglyceride It is an oil and fat composition containing 35 to 1% by mass of one or more X2Y type triglycerides in which one of X is substituted with a fatty acid residue Y having carbon number y, and the carbon number x is selected from 8 to 20 The carbon number y is independently an integer selected from x + 2 to x + 12 and y ≦ 22.
Moreover, according to the preferable aspect of this invention, the said XXX type triglyceride contains 80-99 mass%, and the sum total of the said 1 or more types of X2Y type triglyceride contains 20-1 mass%, The said powdery fat composition for noodles Things can be provided.
According to a preferred aspect of the present invention, x is an integer selected from 10 to 18, y is independently an integer selected from x + 2 to x + 10, and y ≦ 22. The powder oil composition for noodles can be provided.
According to a preferred aspect of the present invention, x is an integer selected from 10 to 12, and y is independently an integer selected from x + 4 to x + 8, and y ≦ 22. The powder oil composition for noodles can be provided.
Moreover, according to the preferable aspect of this invention, the loose oil bulk density of the said noodles powder oil-fat composition which is 0.1-0.6 g / cm < ³ > can be provided.
Furthermore, according to 1 aspect of this invention, the noodles formed by containing the said powder oil-fat composition for noodles can be provided.
Moreover, according to the preferable aspect of this invention, the noodles formed by containing 0.5-15 mass% of the said powder oil-fat composition for noodles with respect to 100 mass% of flour can be provided.
Furthermore, according to one aspect of the present invention, it is possible to provide a premix for noodles comprising the above-mentioned powdered fat and oil composition for noodles.
Moreover, according to the preferable aspect of this invention, the premix for noodles which contains 0.5-15 mass% of the said powdered oil-fat composition for noodles with respect to 100 mass% of flour can be provided.
Furthermore, according to 1 aspect of this invention, the manufacturing method of noodles using the noodle dough obtained by mix | blending the said powder oil-fat composition for noodles can be provided.
Moreover, according to the preferable aspect of this invention, the manufacturing method of noodles using the noodle dough obtained by mix | blending 0.5-15 mass% of said powder oil-fat composition for noodles with respect to 100 mass% of flour is provided. be able to.
Furthermore, according to one aspect of the present invention, it is possible to provide a method for producing a premix for noodles, in which the powdered fat composition for noodles is blended in the raw material of the noodle dough.
Moreover, according to the preferable aspect of this invention, the manufacturing method of the premix for noodles which mix | blends 0.5-15 mass% with respect to 100 mass% of flour in the raw material of noodle dough for the said powdery fat composition for noodles. Can be provided.
Furthermore, according to one aspect of the present invention, it is possible to provide a noodles texture-improving agent comprising the above-described noodle powder oil composition as an active ingredient.

  According to the present invention, by using the powdered oil composition satisfying specific conditions, the time until the noodle dough is kneaded and the time until the raw noodles are boiled up are short, and the noodle dough is easily stretched and cut. It is excellent in manufacturing characteristics such as being easy to be performed, and the effect of shortening the manufacturing time can be obtained. Furthermore, anyone can easily produce noodles with excellent quality that have a glossy surface with a smooth texture, a smooth texture, and a smooth texture. Thereby, it can respond to the demand of the people who were not satisfied with the conventional powdered fats and oils for noodles.

Hereinafter, the noodles of the present invention will be described in order.
<Noodles>
In the present invention, “noodles” are mainly produced using wheat flour as a main raw material, but produced using other flours other than wheat flour, such as barley flour, rice flour, buckwheat flour, corn flour, soybean flour, etc. May be. Other raw materials are added to flour such as wheat flour, mixed, mixed and kneaded, and the type of noodles is not particularly limited. For example, udon, kishimen, cold wheat, raw noodles, Chinese noodles, rice noodles, macaroni, spaghetti and the like can be mentioned. Moreover, the form of these noodles may be raw noodles, strawberry noodles, dry noodles, steamed noodles, instant noodles, freeze-dried noodles or frozen noodles. Among them, in the present invention, udon (boiled noodles) is particularly preferable.

<Oil composition>
In the present invention, when the total triglyceride content is 100% by mass, 65 to 99% by mass of one or more XXX type triglycerides having a fatty acid residue X having carbon number x at the 1st to 3rd positions, An oil and fat composition comprising 35 to 1% by mass of one or more X2Y type triglycerides obtained by substituting one fatty acid residue X of a XXX type triglyceride with a fatty acid residue Y having carbon number y, x is an integer selected from 8 to 20, and the carbon number y is independently an integer selected from x + 2 to x + 12 and y / 22. The oil and fat composition containing the two types of triglycerides in the above-described mass% easily becomes a powdery oil and fat composition without including additives such as emulsifiers and excipients. The oil and fat composition of the present invention and the powder and fat composition for noodles are described in detail as an oil and fat composition and a powder and fat composition in PCT / JP2015 / 070850 (Japanese Patent Application No. 2014-149168) filed earlier. I won't go into details here. The contents of the application are incorporated in the present specification. Hereinafter, the characteristics of the oil and fat composition of the present invention and the powdered oil and fat composition for noodles will be described in summary.

<XXX type triglyceride>
When the total triglyceride content is 100% by mass, the oil and fat composition of the present invention has a content of 65 to 99% by mass, single type or plural types, preferably a single type (single type) of XXX type triglycerides. including. The XXX type triglyceride is a triglyceride having a fatty acid residue X having x carbon atoms at the 1st to 3rd positions, and each fatty acid residue X is the same as each other. Here, the carbon number x is an integer selected from 8 to 20, preferably an integer selected from 10 to 18, more preferably an integer selected from 10 to 16, still more preferably selected from 10 to 12 Is an integer.
The fatty acid residue X may be a saturated or unsaturated fatty acid residue. Specific examples of the fatty acid residue X include residues such as caprylic acid, capric acid, lauric acid, myristic acid, palmitic acid, stearic acid, and arachidic acid, but are not limited thereto. As the fatty acid, capric acid, lauric acid, myristic acid, palmitic acid and stearic acid are more preferable, capric acid, lauric acid, myristic acid and palmitic acid are more preferable, and capric acid and lauric acid are particularly preferable. It is.
XXX type triglyceride is contained in an amount of 65 to 99% by mass when the total triglyceride in the oil / fat composition is 100% by mass. The content of the XXX type triglyceride is preferably 75 to 99% by mass, more preferably 80 to 99% by mass, still more preferably 83 to 98% by mass, and particularly preferably 85 to 98% by mass. Particularly preferred is 90 to 98% by mass.

<X2Y type triglyceride>
The oil and fat composition of the present invention contains one or more X2Y type triglycerides obtained by substituting one fatty acid residue X of the XXX type triglyceride with a fatty acid residue Y having y carbon number. Here, each fatty acid residue X contained in one X2Y type triglyceride is the same as each other, and is the same as the fatty acid residue X of the XXX type triglyceride. The carbon number y of the fatty acid residue Y contained in the one X2Y type triglyceride is an integer selected from the conditions of x + 2 to x + 12 and y ≦ 22. The carbon number y is preferably an integer selected from the conditions satisfying y = x + 2 to x + 10, more preferably satisfying y = x + 4 to x + 8. Further, the upper limit value of the carbon number y is preferably y ≦ 20, more preferably y ≦ 18. The oil and fat composition of the present invention may contain a plurality of, for example, 2 to 5 types, preferably 3 to 4 types of X2Y type triglycerides, and the definition of each X2Y type triglyceride in this case is as described above. The carbon number y of the fatty acid residue Y of each X2Y type triglyceride is independently selected for each X2Y type triglyceride from the above range. For example, when the oil and fat composition of the present invention is produced by transesterifying tricaprin and palm kernel stearin extremely hardened oil, x is commonly x = 10, but y is y = 12, 14, respectively. 4 types of X2Y type triglycerides which are 16 and 18.
The fatty acid residue Y may be a saturated or unsaturated fatty acid residue. Specific examples of the fatty acid residue Y include, but are not limited to, residues such as lauric acid, myristic acid, palmitic acid, stearic acid, arachidic acid, and behenic acid. More preferred as the fatty acid are myristic acid, palmitic acid, stearic acid, arachidic acid and behenic acid, and more preferred are myristic acid, palmitic acid and stearic acid.
The fatty acid residue Y of this X2Y type triglyceride may be arranged at any of the 1st to 3rd positions.
X2Y type triglyceride is contained in an amount of 35 to 1% by mass when the total triglyceride in the oil and fat composition is 100% by mass. As content of X2Y type triglyceride, it is 25-1 mass%, for example, Preferably it is 20-1 mass%, More preferably, it is 17-1 mass%, More preferably, it is 15-2 mass%. More preferably, it is 10 to 2% by mass. When a plurality of X2Y type triglycerides are contained in the oil and fat composition of the present invention, the amount of the X2Y type triglycerides is the total amount of the X2Y type triglycerides contained.

<Other triglycerides>
Unless the effect of this invention is impaired, the oil-fat composition of this invention may contain other triglycerides other than the said XXX type triglyceride and X2Y type triglyceride. The other triglycerides may be a plurality of types of triglycerides, and may be synthetic fats and oils or natural fats and oils. Examples of synthetic fats and oils include glyceryl tricaprylate and glyceryl tricaprate. Examples of natural fats and oils include cocoa butter, sunflower oil, rapeseed oil, soybean oil, and cottonseed oil. When the total triglyceride in the oil and fat composition of the present invention is 100% by mass, there is no problem even if other triglycerides are contained in an amount of 1% by mass or more, for example, about 5 to 30% by mass. The content of other triglycerides is, for example, 0 to 30% by mass, preferably 0 to 18% by mass, more preferably 0 to 15% by mass, and still more preferably 0 to 8% by mass.

<Other ingredients>
The oil and fat composition of the present invention may optionally contain other components such as emulsifiers, fragrances, skim milk powder, whole milk powder, cocoa powder, sugar and dextrin in addition to the above triglycerides. The amount of these other components can be any amount as long as the effects of the present invention are not impaired. For example, when the total mass of the oil and fat composition is 100% by mass, 0 to 70% by mass, preferably It is 0-65 mass%, More preferably, it is 0-30 mass%. 90% by mass or more of the other component is preferably a powder having an average particle diameter of 1000 μm or less, and more preferably a powder having an average particle diameter of 500 μm or less. In addition, the average particle diameter here is a value measured by a laser diffraction scattering method (ISO133201 and ISO9276-1).
However, it is preferable that the preferred oil / fat composition of the present invention consists essentially of oil / fat. Here, the fats and oils consist essentially of triglycerides. In addition, “substantially” means that the component other than the fat or oil contained in the oil or fat composition or the component other than the triglyceride contained in the fat or oil makes the oil or fat composition or fat and oil 100% by mass, for example, 0 to It means 15 mass%, preferably 0-10 mass%, more preferably 0-5 mass%.

<Powder oil composition for noodles>
The powdered fat and oil composition for noodles of the present invention is obtained by melting the triglyceride contained in the fat and oil composition to obtain the molten fat and oil composition, and cooling the fat and oil composition to pulverize spray, mill, etc. A powdery oil / fat composition (powder / fat composition for noodles) can be obtained without employing special processing means such as mechanical grinding by a machine. More specifically, the oil and fat composition containing the XXX type triglyceride and the X2Y type triglyceride is arbitrarily heated and melted to obtain a molten oil composition, and then cooled to be more molten than the molten oil composition. A solid is formed having voids of increased volume. A powder oil composition for noodles can be easily obtained by pulverizing the obtained solid matter by applying a light impact from the outside, such as by sieving. In the present invention, those having a low melting point (20 to 40 ° C.) are preferred.

<Physical properties of powdered oil and fat composition for noodles>
The powdery fat composition for noodles of the present invention is a powdery solid at ordinary temperature (20 ° C.).
The loose bulk density of the powdered fat and oil composition for noodles of the present invention is 0.1 to 0.6 g / cm ³ , preferably 0.15 to 0.5 g / cm ³ , for example, when it consists essentially of fats and oils. More preferably, it is 0.2 to 0.4 g / cm ³ . Here, the “loosened bulk density” is a packing density in a state where the powder is naturally dropped. The loose bulk density (g / cm ³ ) is measured by, for example, dropping an appropriate amount of the powdered fat / oil composition for noodles from about 2 cm above the upper opening end of the graduated cylinder into a graduated cylinder with an inner diameter of 15 mm × 25 mL. It can be determined by measuring the filled mass (g) and reading the volume (mL) and calculating the mass (g) of the powdered fat and oil composition for noodles per mL. The loose bulk density can also be calculated from the bulk specific gravity measured based on JIS K-6720 (or ISO 1060-1 and 2) using a bulk density measuring instrument of Kuramochi Scientific Instruments. Specifically, 120 mL of a sample is dropped into the receiver from a position 38 mm high from the upper opening of the receiver (100 mL cylindrical container having an inner diameter of 40 mm and a height of 85 mm). The sample swelled from the receiver is scraped off, the mass (Ag) of the sample corresponding to the internal volume (100 mL) of the receiver is weighed, and the loose bulk density can be obtained from the following equation.
Loose bulk density (g / mL) = A (g) / 100 (mL)
The measurement is preferably performed three times and the average value is taken.

<The manufacturing method of the powder oil-fat composition for noodles>
The powdered fat composition for noodles of the present invention comprises the following steps:
(A) When the total triglyceride content is 100% by mass, 65 to 99% by mass of XXX type triglyceride having a fatty acid residue X having carbon number x at the 1st to 3rd positions, and the fatty acid residue of the XXX type triglyceride An oil and fat composition containing 35 to 1% by mass of an X2Y type triglyceride obtained by substituting one of X with a fatty acid residue Y having carbon number y, wherein the carbon number x is an integer selected from 8 to 20 A step of preparing an oil and fat composition, wherein the carbon numbers y are each independently an integer selected from x + 2 to x + 12 and y ≦ 22;
(B) Any step of heating the oil and fat composition and melting the triglyceride contained in the oil and fat composition to obtain the molten oil and fat composition,
(D) a step of cooling the molten fat composition to obtain a powdered fat composition for noodles;
It can manufacture by the method containing.
Moreover, between the said process (b) and (d), the arbitrary processes for accelerating | stimulating powder production as a process (c), for example, (c1) Seeding process, (c2) Tempering process, and / or (c3) A pre-cooling step may be included. Further, the powdered fat composition for noodles obtained in the step (d) is obtained by the step (e) of obtaining a powdery fat composition by grinding the solid obtained after cooling in the step (d). May be.

(A) Preparation step I of oil and fat composition
The oil and fat composition prepared in the step (a) contains the XXX type triglyceride (one or more) and the X2Y type triglyceride (one or more) as described above in the above-described mass%. is there. Specifically, for example, an XXX type triglyceride (one type or more) having a fatty acid residue X having a carbon number x at the 1st to 3rd positions, and a fatty acid residue Y having a carbon number y at the 1st to 3rd positions. YYY-type triglycerides (one or more) are separately obtained and mixed at a mass ratio of XXX-type triglycerides / YYY-type triglycerides at 90/10 to 99/1 to obtain a reaction substrate (wherein, The carbon number x is an integer selected from 8 to 20, and the carbon number y is an integer selected from x + 2 to x + 12 and y ≦ 22), and the reaction substrate is heated in the presence of a catalyst. Obtained through a step of transesterification.
(A) Preparation step II of oil and fat composition
Examples of the method for producing the oil and fat composition prepared in the step (a) of the present invention further include a method of simultaneously and directly synthesizing the XXX type triglyceride and the X2Y type triglyceride as shown below. That is, in this preparation step II, in order to produce XXX type triglyceride and X2Y type triglyceride, XXX type triglyceride and YYY type triglyceride are not separately synthesized and transesterified, but both triglycerides are produced. The raw materials (fatty acid or fatty acid derivative and glycerin) are charged into, for example, a single reaction vessel and synthesized simultaneously and directly.
(A) Preparation step III of oil and fat composition
The oil and fat composition further comprises an XXX type triglyceride outside the range of 65 to 99% by mass and / or an X2Y type triglyceride outside the range of 35 to 1% by mass, and then the XXX type triglyceride or X2Y. An oil and fat composition containing 65 to 99% by mass of XXX type triglyceride and 35 to 1% by mass of X2Y type triglyceride may be obtained by further adding type triglyceride (preparation of oil and fat composition by dilution). For example, after obtaining an oil and fat composition containing 50 to 70% by mass of XXX type triglyceride and 50 to 30% by mass of X2Y type triglyceride, a desired amount of XXX type triglyceride is added to 65 to 99% by mass of XXX type. You may obtain the oil-fat composition containing a triglyceride and 35-1 mass% X2Y type | mold triglyceride.

(B) The process of obtaining the said fat-and-oil composition of a molten state Before the said (d) process, when the fat-and-oil composition obtained by the said process (a) is in a molten state at the time of preparation, it is not heated. Although it is cooled as it is, when it is not in a molten state, it is heated arbitrarily to melt the triglyceride contained in the oil and fat composition to obtain a molten oil and fat composition.
Here, the heating of the oil / fat composition is performed at a temperature equal to or higher than the melting point of the triglyceride contained in the oil / fat composition, in particular, a temperature at which the XXX type triglyceride and the X2Y type triglyceride can be melted, for example, 70 to 200 ° C., preferably 75 to It is appropriate that the temperature is 150 ° C, more preferably 80 to 100 ° C. Moreover, it is appropriate that the heating is continued, for example, for 0.5 to 3 hours, preferably 0.5 to 2 hours, more preferably 0.5 to 1 hour.

(D) Step of cooling the melted fat and oil composition to obtain a powdered fat and oil composition for noodles The melted fat and oil composition obtained in the above step (a) or (b) is further cooled to obtain a powder for noodles An oil and fat composition is formed.
Here, “cooling the molten oil composition” means maintaining the molten oil composition at a temperature lower than the melting point of the oil composition. The “temperature lower than the melting point of the oil and fat composition” means, for example, a temperature that is 1 to 30 ° C. lower than the melting point, preferably 1 to 20 ° C. lower than the melting point, more preferably 1 to 15 ° C. lower than the melting point. is there. Cooling of the fat and oil composition in the molten state is, for example, when x is 8 to 10, the final temperature is preferably 10 to 30 ° C, more preferably 15 to 25 ° C, and further preferably 18 to 22 ° C. Is done by cooling. For example, when x is 11 or 12, the final temperature in the cooling is preferably 30 to 40 ° C, more preferably 32 to 38 ° C, still more preferably 33 to 37 ° C, and when x is 13 or 14, Preferably it is 40-50 degreeC, More preferably, it is 42-48 degreeC, More preferably, it is 44-47 degreeC, When x is 15 or 16, Preferably it is 50-60 degreeC, More preferably, it is 52-58 degreeC, Furthermore, Preferably, it is 54 to 57 ° C. When x is 17 or 18, it is preferably 60 to 70 ° C, more preferably 62 to 68 ° C, still more preferably 64 to 67 ° C, and when x is 19 or 20. Is preferably 70 to 80 ° C, more preferably 72 to 78 ° C, still more preferably 74 to 77 ° C. At the above final temperature, for example, it is appropriate to stand for preferably 2 hours or longer, more preferably 4 hours or longer, still more preferably 6 hours to 2 days. In some cases, for example, in the case where the carbon number x of the fatty acid residue X of the XXX type triglyceride is 8 to 12, such as those that require a relatively long time for pulverization, It may be necessary to leave for 2 to 8 days, specifically 3 to 7 days, more specifically about 6 days.

(C) Powder production promotion step Furthermore, between the above steps (a) or (b) and (d), (c) As an optional step for promoting powder production, the molten state used in step (d) The oil / fat composition may be treated by the seeding method (c1), the tempering method (c2) and / or the (c3) precooling method.
Here, the (c1) seeding method is a method in which a small amount of a component that becomes a powder core (seed) is added at the time of cooling an oil-and-fat composition in a molten state to promote powdering. Specifically, for example, in the oil and fat composition in the molten state obtained in the step (b), XXX type triglyceride having the same carbon number as that of the XXX type triglyceride in the oil and fat composition is preferably 80% by mass or more. Preferably, an oil and fat powder containing 90% by mass or more is prepared as a component serving as a nucleus (seed). At the time of cooling the fat / oil composition that is the core of the fat / oil powder, the temperature of the fat / oil composition reaches, for example, the final cooling temperature ± 0 to + 10 ° C., preferably +5 to + 10 ° C. Thus, 0.1 to 1 part by mass, preferably 0.2 to 0.8 part by mass is added to 100 parts by mass of the oil and fat composition in the molten state, thereby promoting the powdering of the oil and fat composition. It is.
(C2) The tempering method refers to a temperature lower than the cooling temperature in step (d), for example, a temperature lower by 5 to 20 ° C., before being allowed to stand at the final cooling temperature in cooling the fat composition in a molten state, Preferably, by cooling to a temperature lower by 7 to 15 ° C., more preferably by about 10 ° C., preferably by cooling for about 10 to 120 minutes, more preferably about 30 to 90 minutes, by a method of promoting powdering of the oil and fat composition. is there.
(C3) The pre-cooling method refers to the step (a) or (b) before the molten oil composition obtained in the step (a) or (b) is cooled in the step (d). In this method, the temperature is preliminarily cooled at a temperature lower than the temperature in the molten state and higher than the cooling temperature in the step (d). The temperature higher than the cooling temperature of the step (d) is, for example, a temperature 2 to 40 ° C. higher than the cooling temperature of the step (d), preferably a temperature higher by 3 to 30 ° C., more preferably a temperature higher by 4 to 30 ° C., More preferably, the temperature may be as high as about 5 to 10 ° C. The lower the temperature for the preliminary cooling, the shorter the main cooling time at the cooling temperature in the step (d). That is, unlike the seeding method or the tempering method, the pre-cooling method is a method that can promote the pulverization of the oil / fat composition by simply lowering the cooling temperature stepwise, and has a great advantage in industrial production.

(E) Step of obtaining a powdery fat composition for noodles by pulverizing solids The step of obtaining a powdery fat composition for noodles by cooling in the above step (d) is more specifically by cooling in step (d). You may perform by the process (e) which grind | pulverizes the obtained solid substance and obtains the powder oil-fat composition for noodles.
More specifically, first, a fat composition containing the XXX type triglyceride and the X2Y type triglyceride is melted to obtain a molten fat composition, and then cooled to increase the volume as compared with the molten fat composition. A solid having a void is formed. The fat and oil composition that has become a solid having voids can be pulverized by applying a light impact, and the solid is easily disintegrated into a powder form.
Here, a means for applying a light impact is not particularly specified, but a method of lightly applying vibration (impact) and pulverizing (raising) by shaking, sieving, etc. is simple and preferable.

<Other components contained in powdered fat and oil composition for noodles>
The powdered fat and oil composition for noodles of the present invention may optionally contain other components such as an emulsifier, protein, starch, and antioxidant. For example, the dispersibility to the aqueous system of the powdered fats and oils composition for noodles can be improved by adding what has an emulsifying effect with respect to the powdered fats and oils composition for noodles. The amount of these other components can be any amount as long as the effects of the present invention are not impaired. For example, when the total mass of the powdered fat and oil composition for noodles is 100% by mass, 0 to 70% by mass. , Preferably 0 to 65% by mass, more preferably 0 to 30% by mass.
However, it is preferable that the preferred powdered oil / fat composition for noodles of the present invention consists essentially of oil / fat. Here, the fats and oils consist essentially of triglycerides. In addition, “substantially” means that the component other than the fat or oil contained in the powdered fat and oil composition for noodles or the component other than the triglyceride contained in the fat or oil is 100% by mass of the fat or oil composition or the fat or oil. 0 to 15% by mass, preferably 0 to 10% by mass, more preferably 0 to 5% by mass.

<Content of Powdered Oil Composition for Noodles>
The noodles of the present invention contain 0.5 to 15% by mass of the above-mentioned powdered fat and oil composition for noodles with respect to 100% by mass of flour in the noodle dough. That is, the content of the powdered fat and oil composition for noodles of the present invention is 0.5 to 15% by mass, preferably 1 to 10% by mass, more preferably 1 to 5% by mass, based on the powder. is there.
When the above-mentioned powdered fat and oil composition for noodles exceeds 15% by mass on the basis of powder, the noodle dough becomes poorly organized and difficult to mold, and the noodles are too soft and lack elasticity. On the other hand, if the powdered fat composition for noodles is less than 0.5% by mass on the basis of powder, the desired effect cannot be obtained.
The content of the powdered fat and oil composition for noodles is the same for the premix for noodles. However, in the premix for noodles, it mix | blends with respect to 100 mass% of flour in the raw material of noodle dough.

<Wheat flour contained in noodles>
The flour used in the noodles of the present invention mainly means wheat flour (strong flour, medium flour, thin flour), but besides this, barley flour, rice flour, buckwheat flour, corn flour, soybean flour, starch, etc. 1 type or 2 types or more can be mixed and used.

<Other ingredients contained in noodles>
In the noodles of the present invention, raw materials generally blended with noodles can also be used. Specifically, for example, water, salt, brine, soybean / wheat protein, thickening polysaccharide, emulsifier, seasoning, spice, fragrance, coloring agent, and the like can be used. The amount of these other components can be any amount as long as the effects of the present invention are not impaired.

<Method of manufacturing noodles>
A known method is used as a method for producing the noodles of the present invention. For example, using a mixer, blender or kneader, etc., flour, barley flour, rice flour, buckwheat flour, etc. or flour mixed with two or more of these, the powdered fat composition for noodles of the present invention is added, water, Saline, brackish water or other raw materials as necessary are added and mixed to knead to make a noodle dough. The dough is made into a noodle band with a multifunction machine, rolled, and a noodle string can be obtained with a cutting blade. And using this noodle string, raw noodles, strawberry noodles, dry noodles, steamed noodles, instant noodles, freeze-dried noodles or frozen noodles can be produced by a conventional method.

<Premix for noodles>
With the premix for noodles of the present invention, flour or other flour is mixed with all or part of dried eggs, fats and oils (powder fats and oils), thickening polysaccharides, emulsifiers, seasonings, spices, flavorings, coloring agents, and the like. A powder prepared to make noodles easily just by adding water, saline, brackish water or other substances as necessary, kneading kneading, noodle making, heat treatment (boiled, steamed, fried, etc.) A generic term. The advantages of using a premix are, for example, (1) high quality products can be easily achieved, (2) quality uniformity can be ensured, (3) cumbersome work can be reduced, time, place and labor. Can be saved. The powdered fat / oil composition for noodles of the present invention can be used as a part of the material (oil / fat content) for making such a premix for noodles.

<Method for producing premix for noodles>
The method for producing the premix for noodles of the present invention can be produced by blending the powdered fat composition for noodles of the present invention in the raw materials for the noodle dough and kneading with a machine such as a mixer, blender or kneader. it can.

<Noodle texture improvement agent>
By the way, as described above, the powdered fat and oil composition for noodles used in the present invention modifies the noodles to have a smooth and smooth texture, so that the present invention is a powder for noodles. The present invention also relates to a food texture improving agent for noodles comprising an oil and fat composition as an active ingredient. As shown below, by blending the texture improver for noodles of the present invention into noodles, to achieve a texture improvement effect that makes the noodles have a smooth, smooth texture and a smooth texture Can do.
The texture improving agent for noodles of this invention contains the above-mentioned powdered fats and oils composition. The noodles texture-improving agent of the present invention exhibits the effect in a small amount, and therefore preferably contains 60% by mass or more, more preferably 80% by mass or more, and still more preferably 100% of the above powdered fat composition. Contains at least mass%.
In addition, the noodle texture improvement agent of the present invention only needs to contain the above-described powdered fat and oil composition for noodles as an active ingredient, and in addition, the quality is improved within the range not impairing the effects of the present invention. It may contain other components such as an agent.
However, it is preferable that the preferred noodles texture-improving agent of the present invention consists essentially of the powdery fat composition. In addition, “substantially” means that the ingredients other than the powdery fat composition contained in the noodle texture improver, when the noodle texture improver is 100 mass%, for example, 0 to 15 mass%, It means preferably 0 to 10% by mass, more preferably 0 to 5% by mass.

  EXAMPLES Next, although an Example, a comparative example, and a reference example are given and this invention is demonstrated in more detail, this invention is not restrict | limited at all to these. Also. In the following, “%” indicates mass% unless otherwise specified.

<Raw oil and fat>
(1) Powdered oil composition for noodles (melting point: about 28 ° C.):
[X = 10, y = 14, seeding method]
In a 500 mL four-necked flask equipped with a stirrer, thermometer, nitrogen gas blowing tube and water separator, 44.4 g (0.482 mol) of glycerin (Sakamoto Pharmaceutical Co., Ltd.) and myristic acid (Palmac 98-14 (Acid Chem) 25.6 g (0.112 mol) and 265.6 g (1.541 mol) of capric acid (Palmac 99-10 (Acid Chem)) were charged and reacted at a temperature of 250 ° C. for 15 hours under a nitrogen stream. . Excess capric acid was distilled off at 190 ° C. under reduced pressure, followed by decolorization, filtration and deodorization to obtain 186 g of a light yellow liquid reaction product at 50 ° C. (XXX type: 80.6% by mass, X2Y type) : 17.0% by mass). 80 g of the resulting reaction product and 120 g of tricaprin (manufactured by Nisshin Oillio Group Co., Ltd.) were mixed to obtain a raw oil (XXX type: 91.9% by mass, X2Y type: 6.8% by mass). After cooling the raw fats and oils in a 27 temperature chamber until the product temperature reaches 27 ° C., the above tricaprin (Nisshin Oillio Group Co., Ltd.) is cooled and solidified with liquid nitrogen and pulverized with a freeze pulverizer (Azuwan Co., Ltd.). 0.1% by mass of the oil / fat powder is added to the raw oil / fat, and left in a thermostatic bath at 20 ° C. for 6 hours to form a solid having voids with increased volume, and then loosened to form a powder. A crystalline composition was obtained (loose bulk density: 0.2 g / cm ³ , average particle size 75 μm). The powder oil composition for noodles thus produced was used in the following examples.
(2) Oil powder (melting point: about 47 ° C.):
Fat oil powder (loose bulk density: 0.5 g / cm ³ , average particle size 162 μm) was obtained by spray cooling with a spray cooler using palm oil hardened oil as a raw material.
Here, the loose bulk density was calculated from the bulk specific gravity measured based on JIS K-6720 (or ISO 1060-1 and 2) using a bulk density measuring instrument of Kuramochi Scientific Instruments. Specifically, 120 mL of a sample was dropped onto the receiver from a position 38 mm high from the upper opening of the receiver (100 mL cylindrical container having an inner diameter of 40 mm and a height of 85 mm). Subsequently, the sample swelled from the receiver was scraped off, and the mass (Ag) of the sample corresponding to the internal volume (100 mL) of the receiver was weighed, and the loose bulk density was determined from the following equation.
Loose bulk density (g / mL) = A (g) / 100 (mL)
The measurement was performed three times, and the average value was taken as the measured value.
Here, the average particle diameter was measured based on the laser diffraction scattering method (ISO133201, ISO9276-1) with Nikkiso Co., Ltd. Microtrac MT3300ExII).

<Other raw materials>
In the examples, commercially available medium-strength flour and salt, which are a part of raw materials for noodles, were used.

[Example 1]
<Manufacturing method and evaluation of udon>
According to the recipe shown in Table 1 below, the udon of Example 1, Comparative Example 1 and Reference Example 1 were produced according to a conventional method. Specifically, first, salt was added to water having the composition shown below and mixed to prepare a salt solution. Next, the powdered fat composition for noodles or the fat powder was mixed with the medium flour or the medium flour, respectively, and the salt solution was added thereto to knead the dough. Next, the dough was kneaded at room temperature for 45 minutes, then lightly kneaded again and then kneaded at room temperature for 10 minutes. The dough was stretched with a rolling pin and cut into a width of about 3 mm to obtain raw udon. The raw udon was put in boiling water and boiled to produce boiled udon (boiled noodles).

<Evaluation of udon>
The udon produced in Example 1, Comparative Example 1 and Reference Example 1 were evaluated according to the following evaluation methods, and the evaluation results are shown in Table 2.

<Udon Evaluation Method>
(1) Dough kneading time: The time (min) from the addition of saline to the kneading of the dough was measured.

(2) Dispersion of material and state of dough: Evaluation method of dispersion of saline in dough and kneading state of dough Comprehensive evaluation was performed according to the following criteria.
A: Dispersion of saline in the dough is very good, and the dough is very easy to knead and is easy to bundle.
○: Dispersion of the saline solution in the dough is good, the dough is easy to knead and is easy to bundle.
Δ: The salt solution is dispersed in the dough, but the dough is difficult to knead and hard to be organized.
X: The salt solution is difficult to disperse into the dough, the dough is difficult to knead, and is liable to be fooled.

(3) Easiness of forming noodles: Evaluation method of the state of forming / cutting raw udon The evaluation was comprehensive according to the following criteria.
○: The fabric is easy to stretch and easy to cut.
Δ: The dough stretches and can be cut.
X: The fabric is difficult to stretch and difficult to cut.

(4) Boil-up time: The time (min) until raw udon was boiled was measured.

(5) Boiled noodle state (gloss): Method for evaluating the surface state of boiled udon noodles were evaluated comprehensively by five skilled panelists according to the following criteria.
A: Smooth and quite glossy.
○: There is gloss.
Δ: Less glossy.
X: It is not glossy.

(6) Texture of crab noodle (elasticity, smooth throat texture): Evaluation method of texture of boiled udon noodles were evaluated comprehensively by five skilled panelists according to the following criteria.
A: It is elastic, smooth and smooth.
○: Elasticity but low smoothness and weak throat.
Δ: Slightly lacking elasticity, no smoothness and weak throat.
X: There is no elasticity, it is hard, and throat is bad.

(7) Adhesiveness of crab noodles: Method for evaluating the adhesion state of boiled noodles Cut boiled noodles into 10cm lengths, place the cut 15 pieces side by side, place them in three rows, and stack at three levels. The adhesion state after 30 minutes was comprehensively evaluated by five skilled panelists according to the following criteria.
○: Noodles and noodles are attached, but peel off immediately.
Δ: Noodles and noodles are attached and hardly peeled off.
X: Noodles and noodles are attached and do not peel off.

As is clear from the results in Table 2, the time required for the dough to knead in the udon produced using the powdered fat and oil composition for noodles of the present invention was compared with that produced using the usual fat and oil powder. And it took a short time to boil the raw udon. Further, the dispersion of saline in the dough was good, and the dough was easy to stretch and cut, and it was excellent in manufacturing characteristics. Therefore, it was found that the production time of udon can be shortened.
In addition, it was found that the udon made from boiled was supple and elastic, and had a smooth texture. It was also found that boiled udon was less likely to adhere to each other. From the above points, it became clear that the powdered fat and oil composition for noodles of the present invention is a very useful substance even for mass production of noodles.

Claims (14)

A powdery fat composition for noodles containing a powdery fat composition satisfying the following condition (a).
(A) When the total triglyceride content is 100% by mass, 65 to 99% by mass of XXX type triglyceride having a fatty acid residue X having carbon number x at the 1st to 3rd positions, and the fatty acid residue of the XXX type triglyceride It is an oil and fat composition containing 35 to 1% by mass of one or more X2Y type triglycerides in which one of X is substituted with a fatty acid residue Y having carbon number y, and the carbon number x is selected from 8 to 20 The carbon number y is independently an integer selected from x + 2 to x + 12 and y ≦ 22.   The powdered fat composition for noodles according to claim 1, wherein the XXX type triglyceride contains 80 to 99% by mass and the total of the one or more X2Y type triglycerides is 20 to 1% by mass.   3. The noodles according to claim 1, wherein x is an integer selected from 10 to 18 and y is independently an integer selected from x + 2 to x + 10 and y ≦ 22. Powdered fat composition.   The x is an integer selected from 10 to 12, and the y are each independently an integer selected from x + 4 to x + 8 and y ≦ 22. The powder fat composition for noodles described in 1. The powder fat composition for noodles of any one of Claims 1-4 whose loose bulk density is 0.1-0.6 g / cm < ³ >.   Noodles comprising the powdered fat and oil composition for noodles according to any one of claims 1 to 5.   The noodles of Claim 6 formed by containing 0.5-15 mass% of the said powdered fats and oils composition for noodles with respect to 100 mass% of flour.   The premix for noodles containing the powdered fats and oils composition for noodles of any one of Claims 1-5.   The premix for noodles of Claim 8 formed by containing 0.5-15 mass% of the said powdered fats and oils composition for noodles with respect to 100 mass% of flour.   The manufacturing method of noodles using the noodle dough obtained by mix | blending the powder oil-fat composition for noodles of any one of Claims 1-5.   The manufacturing method of the noodles of Claim 10 using the noodle dough obtained by mix | blending 0.5-15 mass% with respect to 100 mass% of flours for the said powdered fats and oils composition for noodles.   The manufacturing method of the premix for noodles which mix | blends the powder oil-fat composition for noodles of any one of Claims 1-5 in the raw material of noodle dough.   The manufacturing method of the premix for noodles of Claim 12 which mix | blends the said powder fat composition for noodles 0.5-15 mass% with respect to 100 mass% of flour in the raw material of noodle dough.   The noodles texture improving agent which uses the powdered fats and oils composition for noodles of any one of Claims 1-5 as an active ingredient.