JP2009261369A - Method for producing raw noodle for long-term preservation - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide raw noodles for long-term preservation, preservable for a long term and having excellent palate feeling even after reheating when eating. <P>SOLUTION: A method for producing the raw noodles for long-term preservation has a process of making noodle dough using a continuous granule mixing apparatus which comprises continuously introducing liquid into a sealed fixed cylindrical casing away from a casing central axis line when mixing granules with liquid while moving to the axial direction with a wing rotating in the casing, and scattering liquid toward a casing inner wall in the casing by applying to the edge of a granule scattering wing which is attached at a right angle to a shaft extending in the axial direction so as to mix liquid with granules near the casing inner wall. Furthermore, the method has a process of making noodle strips by extruding the noodle dough under reduced pressure, a process of making noodle ribbons from the noodle strips, and a process of heating at normal pressure the noodle ribbons thus made and/or a process of heating under pressure. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a method for producing raw noodles for long-term storage.

Boiled noodles and frozen boiled noodles are marketed and consumed by consumers because of the convenience of eating, but these require temperature control using a refrigeration / freezer when stored. As what does not require such temperature control, there are raw noodles for long-term storage such as retort sterilized noodles and long-life noodles (LL noodles) that can be stored for a long time even at room temperature.
However, since retort sterilized noodles are sterilized by high-temperature and high-pressure heat treatment, and long-life noodles are heat-treated under acidic conditions, these noodles have a problem that the texture and flavor of the noodles during eating are not so good.
Therefore, in order to maintain storability while relaxing the conditions of sterilization treatment, noodles containing a preservative, for example, Chinese noodles in a long-term storage jar containing prostamine, ε-polylysine and oxalic acid have been proposed ( Patent Document 1) tends to favor consumers with no preservative added or reduced amounts, and therefore, long-term storage raw noodles with a low preservative addition and high preservability are desired.
However, the conventional raw noodles that can be stored for a long period of time tend to be deteriorated in quality and texture due to sterilization treatment such as acid treatment and heat treatment, and the actual condition is that satisfactory products have not been obtained yet.
Japanese Patent Laid-Open No. 6-38699

  The present invention has been made in view of such conventional problems and conditions, and provides a raw noodle for long-term storage that can be stored for a long period of time and has a good texture even after being reheated at the time of eating. And

  The present inventor made various studies to solve the above problems, and as a result, after preparing a noodle dough using a specific continuous powder mixing device, the noodle dough was extruded under reduced pressure to form a noodle band. After preparing the noodle band from the noodle band, and then heating at normal pressure and / or under pressure, the raw noodles obtained can have a very good shelf life and texture at the time of eating. The present invention has been completed.

  That is, according to the present invention, when the powder particles are mixed in the axial direction by the blades rotating in the fixed cylindrical casing and mixed with the liquid, the liquid is continuously introduced into the casing away from the casing central axis. , A continuous type in which it is scattered toward the inner wall of the casing in the casing by being applied to the tip of the granular material dispersing blade attached at right angles to the shaft extending in the axial direction, and mainly mixed with the granular material near the inner wall of the casing A step of producing a noodle dough using a powder mixing device, a step of extruding the noodle dough under reduced pressure to produce a noodle strip, a step of producing a noodle strip from the noodle strip, and the produced noodle The above-described problems are solved by a method for producing raw noodles for long-term storage, which comprises a step of heating a wire at normal pressure and / or a step of heating under pressure.

  The raw noodles obtained by the production method of the present invention are highly preserved and have a good texture even when reheated during eating. In particular, if the raw noodles are packaged in a packaging container, they can be stored for a long time even at room temperature.

  In the present invention, the noodle dough is produced by mixing the liquid with the liquid while moving the powder particles in the axial direction by the blades rotating in the fixed cylindrical casing. In this case, a continuous powder mixing device is used which is dispersed toward the inner wall of the casing in the casing by being continuously introduced to the tip of the dispersion blade and mixed with the powder mainly near the inner wall of the casing. However, as such a mixing apparatus, for example, a mixing apparatus described in Japanese Patent Publication No. 61-21663 is preferably used.

  The structure of the mixing device is as shown in FIG. 1, and a cylindrical casing 1 having a powder supply port near one end and a powder outlet 4 mixed near the other end, and this A shaft 2 extending in the axial direction at the center of the casing 1 and capable of rotating at high speed, and a set of powder dispersion blades 5 and powder attached to the shaft 2 near the powder supply port 3 at right angles A plurality of sets of powder mixture blades 6 and powder feed blades 8 attached to the shaft 2 at a right angle on the downstream side of the dispersion blade 5, and the powder particles in a relatively upstream portion of the cylindrical casing 1. At least one set of liquid dispersion blades 7 is attached to the downstream side of the body dispersion blades 5 at right angles to the shaft 2, and the central axis of the casing 1 extends from the position on the inner wall of the casing 1 corresponding to the liquid dispersion blades 7 to the inside of the casing 1. Liquid introduction for The powder dispersion blade 5 is provided so that the gap between the liquid dispersion blade 7 and the inner wall of the cylindrical casing 1 is made as small as possible in the radial direction from the surface of the shaft 2 of the liquid dispersion blade 7. The lengths of the powder body feed blade 8 and the powder body mixing blade 6 are shorter.

The noodle dough is produced, for example, as follows using the above mixing apparatus.
First, the rotating shaft 2 of the mixing device is rotated at a high speed of about 1000 to 3000 rotations per minute, and the granular material is supplied from the granular material supply port 3. The supplied granular material is dispersed by the dispersing blade 5 and with the assistance of the mixing blade 6 provided as necessary, and is transported downstream in a layered manner on the inner wall of the casing 1. On the other hand, liquid is continuously supplied into the casing 1 from the liquid supply nozzle 9, but this liquid is struck by the tip of the liquid dispersion blade 7 that rotates at high speed before reaching the rotating shaft 2. It is scattered toward the inner wall. The scattered liquid is transported downstream while being mixed with the granular material transported in a layered manner along the inner wall of the casing, mainly near the inner wall. The powder and liquid are gradually mixed by the combination of the mixing blade 6 and the feeding blade 8 and transferred downstream, and the noodle dough is continuously taken out from the mixture outlet 4. The mixing time of the powder and liquid at this time is preferably 3 to 15 seconds.

  The flour (powder granules) that is the raw material of the noodle dough supplied to the mixing device is not particularly limited, and examples thereof include strong flour, semi-strong flour, medium strength flour, thin flour, durum wheat flour, and oat flour. Depending on the type of noodle, these flours can be used alone or in combination of two or more. For example, durum wheat can be used for pasta, quasi-strong flour for Chinese noodles, udon, somen for medium noodles.

  In addition to the above flour, as optional ingredients, salt, sodium carbonate, potassium carbonate, calcium lactate, potassium polyphosphate, kansui; animal and vegetable oils such as soybean oil, rapeseed oil, butter, margarine; emulsifiers such as glycerin fatty acid ester; corn starch, Raw starches such as tapioca starch and modified starches such as phosphate cross-linked; dietary fiber; egg products such as egg white; skim milk powder and other dairy products; protein fortifiers such as wheat flour gluten; guar gum, xanthan gum, carrageenan, etc. Thickeners; sugars such as sucrose; acidulants such as citric acid and acetic acid; nutrient enhancers such as vitamins, minerals and amino acids; preservatives; enzyme agents; pH adjusters; These optional components can be used alone or in combination of two or more.

  Moreover, as for the compounding quantity of the water (liquid) supplied to the said mixing apparatus, 20-35 mass parts is preferable with respect to 100 mass parts of flour.

  The noodle dough produced by supplying these raw materials to the above mixing device is free of streaks due to uneven mixing on the surface of the noodle band and rich in elasticity with stretchability compared to the case of using a conventional mixing device. Raw noodles can be obtained.

In the present invention, the step of producing the noodle strip is performed by extruding the noodle dough taken out from the mixing device under reduced pressure using a reduced pressure extruder.
The decompression condition is preferably −0.06 MPa (gauge pressure) or less, particularly under reduced pressure with a higher degree of vacuum from the viewpoint of obtaining raw noodles with high elasticity.

  In the present invention, the step of producing the noodle strings is performed by cutting out the produced noodle strip using a cutting blade.

Furthermore, after preparing the noodle strings, it is preferable to attach fats and oils from the viewpoint of flavor improvement and ease of loosening of the noodles at the time of eating, and when the noodle strings are heat-treated, it is preferable to adhere to the drained noodle strings. . Examples of the adhesion method include coating, spraying, and dipping. In particular, a method of spraying oil and fat on the noodle strings after filling the packaging containers with the noodle strings is preferable.
0.05-7 mass parts is preferable with respect to 100 mass parts of noodle strings, and, as for the usage-amount of the said fats and oils, 0.1-5 mass parts is more preferable, and 0.3-5 mass parts is especially preferable.

  The oils and fats may be any vegetable and animal edible oils and fats that are usually used in foods, such as soybean oil, rapeseed oil, cottonseed oil, rice oil, corn oil, sesame oil, peanut oil, palm oil, palm kernel oil, Vegetable oils such as coconut oil, olive oil, cacao butter, sunflower oil; animal fats such as beef tallow, pork tallow, milk fat, whale oil, herring and sardine fish oil; processed products of these fats such as margarine, shortening, butter However, soybean oil, rapeseed oil, and corn oil are preferred from the viewpoint of particularly good storage stability. Moreover, these fats and oils can be used individually or in combination of 2 or more types.

Moreover, you may heat-process the produced noodle strings before the said oil-fat adhesion process. After the heat treatment, the noodle strings are preferably cooled to 15 to 40 ° C. from the viewpoint of the extension of the noodles.
Further, the heat treatment method may be any method that can generally alphalize the noodle strings by a heat treatment that can be eaten, and examples thereof include boiled, steamed, microwave heating using a microwave oven, and the like.
The case where “boiled” is used as an example of the heat treatment method will be described below.
The prepared noodle strings may be boiled under the following conditions, then treated with cold water and drained.
Boiled temperature and time depend on each noodles. For example, in the case of spaghetti, 95-100 ° C, 30 seconds to 10 minutes are preferable, and in the case of udon, 95-100 ° C, 2-18 minutes are preferable. In this case, 95 to 100 ° C. and 30 seconds to 7 minutes are preferable.

  In the present invention, as the step of heating the noodle strings at normal pressure and / or the step of pressurizing and heating the noodle strings, either one of the steps may be performed, or both from the viewpoint of improving the storage stability of raw noodles. These steps may be used in combination, and when used together, the prepared noodle strings may be heated under normal pressure and then heated under pressure, or the prepared noodle strings may be pressurized and heated. Then, it may be performed by heating at normal pressure.

In the present invention, the step of heating the noodle strings under normal pressure is performed by heating the prepared noodle strings under normal pressure.
Here, the normal pressure refers to a state where no pressure reduction or pressurization is performed, and refers to about 1 atm.
Examples of the normal pressure heating method include a method of heating with hot air, a method of immersing in hot water, a method of heating with electromagnetic waves, a method of heating with water vapor, etc. It is a method of heating.
As conditions for the normal pressure heating, the normal pressure heating temperature is preferably 90 to 105 ° C., more preferably 95 to 105 ° C. from the viewpoint of improving the storage stability of raw noodles. From the point of improvement of feeling, 1 to 60 minutes is preferable, and 20 to 50 minutes is more preferable.

In the present invention, the step of pressurizing and heating the noodle strings is performed by pressurizing and heating the prepared noodle strings.
Examples of the pressure heating method include a method of immersing in hot water under pressure, a method of heating with water vapor under pressure, and the like, but preferably a method of directly heating the noodle strings with water vapor. is there.
The pressurizing and heating conditions are 1 atm or more, preferably 1 to 5 atm, and more preferably 1.5 to 5 atm from the point of storage stability of raw noodles. 100-160 degreeC is preferable and the temperature of pressurization heating has more preferable 110-150 degreeC. The pressure heating time is preferably 1 to 180 seconds, more preferably 5 to 90 seconds.

By the above process, raw noodles for long-term storage are produced.
The type of raw noodles for long-term storage is not particularly limited, and examples include spaghetti, udon, hiyagigi, somen, flat noodles, Japanese soba noodles, Chinese noodles, etc., but spaghetti from the point of good texture, Udon and Chinese noodles are preferred.
The prepared raw noodles for long-term storage improve the storage stability of raw noodles, and when reheated by microwave oven, boil, steaming, etc. at the time of eating, a good texture such as elasticity can be obtained.

  Moreover, when packaging the above-mentioned raw noodles for long-term storage, the opening of the packaging container may be sealed under aseptic conditions immediately after filling the packaging container with the noodle strings. From the viewpoint of easy handling and prevention of adhesion of various germs to the noodle strings, the packaging container is preferably sealed under aseptic conditions after the normal pressure heating and / or pressure heating process.

Examples of the shape of the packaging container include a bag shape, a cup shape, a tray shape, and the like. These may be used in appropriate combinations, or may be appropriately used as a push lid, a cover lid, a pillar lid, etc. In order to maintain long-term storage, a highly airtight material is preferable.
Moreover, as a raw material of a packaging container, what is necessary is just the raw material normally used for the packaging container of foodstuffs, For example, a polyethylene terephthalate, a crystallized polyethylene terephthalate, a polypropylene, polyethylene, a polystyrene, aluminum, and these composite materials are mentioned. Among these materials, polypropylene is preferable from the viewpoint of heat resistance and microwave resistance.

  EXAMPLES Hereinafter, although an Example and a comparative example are given and this invention is demonstrated further more concretely, this invention is not limited at all by the following examples.

Example 1
Using a powder mixing device (Nisshin Engineering Co., Ltd.) having the configuration of the above continuous powder mixing device, 100 parts by weight of durum flour and 30 parts by weight of water are kneaded at a rotation speed of 1000 rpm, a mixing time of 10 seconds. A spaghetti noodle dough was obtained.
The noodle band (width 200 mm, thickness 30 mm) was extruded from the noodle dough with an extruder (Kishinsha) at a degree of vacuum (−0.098 MPa (gauge pressure)).
Next, this noodle strip was continuously rolled with a noodle making roll and cut into noodle strings with a cutting blade (noodle wire thickness 1.8 mm). This noodle string is boiled for 1.5 minutes at 95-100 ° C. (yield 150% to 180% with boil), washed with water, cooled, divided into individual meals with a ball remover, drained, and then 40 minutes at 100 ° C. Direct steam heating (normal pressure heating) was performed. After steam heating, it was sealed under aseptic conditions, cooled to room temperature, and a container-packed raw spaghetti for long-term storage was obtained.

Example 2
Long-term storage in a container-packaged manner, carried out in the same manner as in Example 1 except that pressure heating was performed before normal pressure heating (boiled, drained noodle strings were pressure heated and then normal pressure heated). A fresh spaghetti was obtained. The pressure heating was performed with a pressure sterilizer (Shinwa Machinery Co., Ltd.), and the vapor pressure was 4.0 (KG / CM ² ), the heating was 140 ° C., and the treatment time was 40 seconds.

Example 3
After boiled and drained, the noodle strings that had been drained were filled in 120 g in a packaging container (made of polypropylene), and then heated in the same manner as in Example 2 except that they were heated under normal pressure without being heated at normal pressure, and the containers were packaged. A raw spaghetti for long-term storage was obtained.

Example 4
After boiling, the drained noodle strings were filled in 120 g in a packaging container (made of polypropylene) and then sprayed with 2 g of rapeseed oil to obtain a container-packaged raw spaghetti for long-term storage.

Example 5
After boiled, drained noodle strings were filled in 120 g in a packaging container (made of polypropylene) and then sprayed with 2 g of rapeseed oil to obtain a raw spaghetti for long-term storage that was packaged in a container. .

Example 6
After boiled, drained noodle strings were filled in 120 g in a packaging container (made of polypropylene) and then sprayed with 2 g of rapeseed oil to obtain a raw spaghetti for long-term storage that was packaged in a container. .

Comparative Example 1
The raw material was mixed using a pin mixer apparatus (Tokyo Menki Co., Ltd.) at a shaft rotation speed of 40-80 rpm and a mixing time of 10 minutes without using the above continuous powder and particle mixing apparatus, except that a noodle dough was prepared. This was carried out in the same manner as in Example 1 to obtain a raw spaghetti for long-term storage that was packaged in a container.

Comparative Example 2
Except that the noodle dough was prepared using the pin mixer device without using the continuous powder and particle mixer, the same procedure as in Example 2 was performed to obtain a container-packaged raw spaghetti for long-term storage.

Comparative Example 3
Except that the noodle dough was prepared using the pin mixer device without using the continuous powder and particle mixer, the same procedure as in Example 3 was performed to obtain a container-wrapped raw spaghetti for long-term storage.

Evaluation test example 1
The container-wrapped raw spaghetti for long-term storage obtained in Examples 1 to 6 and Comparative Examples 1 to 3 was tested for storage stability at 25 ° C. for 7 days, and each was evaluated according to the evaluation criteria shown below.
In addition, the raw spaghetti for long-term storage packed in these containers is reheated together with the packaging container in a microwave oven (500 W, 90 seconds), and the texture after opening is performed using 10 panelists, respectively, according to the evaluation criteria shown below. Evaluated.
The average value of the evaluation results of 10 panelists was as shown in Table 1 below.
The raw spaghetti obtained in Examples 1 to 6 had an excellent texture even when stored for a long period of time compared to those obtained in Comparative Examples 1 to 3.

Criteria for evaluation of texture 5 points: Very rich in elasticity and excellent hardness.
4 points: Rich in elasticity and hard.
3 points: Neither brittle nor soft.
2 points: Slightly brittle and slightly soft.
1 point: brittle and soft.

It is a cross-sectional side view which shows a partially broken continuous powder and particle mixer used in the present invention.

Explanation of symbols

1: Cylindrical casing 2: Rotating shaft 3: Powder supply port 4: Mixture outlet 5: Powder dispersion blade 6: Powder mixture blade 7: Liquid dispersion blade 8: Powder feed blade 9: Liquid Supply port

Claims (2)

  A shaft extending in the axial direction by continuously introducing the liquid into the casing away from the central axis of the casing in order to mix with the liquid while moving the granular material in the axial direction by the blade rotating in the fixed cylindrical casing. A continuous powder mixing device that scatters toward the inner wall of the casing in the casing by being applied to the tip of the powder dispersion blade attached at a right angle to the casing and mainly mixes with the powder near the inner wall of the casing. A step of producing a noodle dough, a step of extruding the noodle dough under reduced pressure to produce a noodle strip, a step of producing a noodle strip from the noodle strip, and heating the produced noodle strand at normal pressure A method for producing raw noodles for long-term storage, comprising a step and / or a step of heating under pressure.   The method for producing raw noodles for long-term storage according to claim 1, wherein the prepared noodle strings are heated under pressure and then at normal pressure.

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