JP2022138721A - Multi-layer noodle - Google Patents

Abstract

To develop a method for producing a noodle line having resistant starch blended therein, the noodle line having a steady texture.SOLUTION: A multi-layer noodle comprises an inner layer and an outer layer, the inner layer comprising wheat flour, gluten, resistant starch and a thickening agent and being formed by a reduced-pressure (vacuum) extrusion method, and the outer layer comprising wheat flour, gluten, and a thickening agent. In the multi-layer noodle described in claim 1, the thickening agent is preferably tamarind seed gum. The thickening agent of the inner layer preferably further comprises psyllium seed gum.SELECTED DRAWING: None

Description

TECHNICAL FIELD The present invention relates to multi-layered noodles containing resistant starch for the purpose of reducing sugar content.

When food is ingested, excess carbohydrates are decomposed to become an energy source, changed to fat, and accumulated in the body. Excessive intake of carbohydrates has been pointed out as a possible cause of obesity. For this reason, various noodle products with reduced sugar content have been developed.
As a method for restricting carbohydrates, a method of restricting carbohydrates by using indigestible starch as a raw material of noodles to suppress the digestion and absorption of carbohydrates is effective.
In the fields of instant noodles, raw noodles and frozen noodles, noodle strings containing such resistant starch are being developed.

However, when a resistant starch is added as a raw material for noodles, there are cases where the texture of the noodles is not firm (there is no elasticity or hardness) or the noodles are powdery when cooked after the noodles are made. In addition, problems with noodle-making properties (difficulty in connection, etc.) when preparing noodle strings have been pointed out.
For example, in the technique described in Patent Document 1, water is added to high amylose starch containing resistant starch, the particles are swollen, mixed with flour and other ingredients, and then noodles are made by a conventional method. The purpose is to eliminate the roughness of the resistant starch.

JP 1999-018706

On the other hand, other methods for producing noodle strings containing such resistant starch are also conceivable.

Therefore, the present inventors set the task of developing a method for producing noodle strings containing resistant starch and having a firm texture such as elasticity, stiffness, and smoothness. In addition, not only the formulation of the noodle strings containing the resistant starch, but also the method of combining them with the method of production thereof is conceivable.

As a result of intensive research by the present inventors, as a noodle string containing resistant starch, the noodle string has a multi-layered structure, the inner layer of the multi-layered structure contains the resistant starch, and the inner layer and the outer layer are added. While adding a thickening agent to the above, the inner layer is extruded under vacuum (reduced pressure) to form a noodle strip, and then it is superimposed with the outer layer, combined, and rolled to adjust the noodle strip. I found that
That is, the first invention of the present application is
"A multi-layered noodle having an inner layer and an outer layer,
A multi-layered noodle, wherein the inner layer contains wheat flour, gluten, resistant starch and a thickener and is formed into a noodle sheet by vacuum extrusion, and the outer layer contains wheat flour, gluten and a thickener. , is.

Next, the thickener for the inner layer and/or the outer layer is preferably tamarind seed gum.
That is, the second invention of the present application is
"The multi-layered noodle according to Claim 1, wherein the thickening agent for said inner and outer layers is tamarind seed gum."

Next, it is preferred that the inner layer thickening agent further comprises psyllium seed gum.
That is, the third invention of the present application is
"The multi-layered noodle of claim 1 or 2, wherein said inner layer thickening agent further comprises psyllium seed gum."

Next, it is preferable that the thickening agent of the outer layer further contains an alginate.
That is, the fourth invention of the present application is
``The multilayer noodle according to any one of claims 1 to 3, wherein the thickening agent for the outer layer further comprises an alginate.''

Next, it is preferred that part of the inner and/or outer layer gluten is gliadin.
That is, the fifth invention of the present application is
``The multilayer noodle according to any one of Claims 1 to 4, wherein part of the gluten in the inner layer and/or the outer layer contains gliadin.''

Next, the multilayer noodles of the present application are preferably three-layer noodles.
That is, the sixth invention of the present application is
``The multi-layered noodle according to any one of Claims 1 to 5, wherein the multi-layered noodle is a three-layered noodle.''

Next, the multilayer noodles of the present application can be suitably used as fresh noodles or frozen noodles.
That is, the seventh invention of the present application is
``The multi-layered noodle according to any one of Claims 1 to 6, wherein said multi-layered noodle is fresh noodle or frozen noodle''.

The multi-layered noodles obtained by the production method of the present invention can be blended with a high content of resistant starch, and can achieve firm texture in terms of elasticity and elasticity. Moreover, it is also suitable in terms of noodle-making properties.

Modes for carrying out the present invention will be described below with reference to examples. However, the present invention is not limited to this embodiment.
The first invention of the present application is
"A multi-layered noodle having an inner layer and an outer layer,
A multi-layered noodle, wherein the inner layer comprises wheat flour, gluten, resistant starch and a thickening agent and is formed by vacuum extrusion, and the outer layer comprises wheat flour, gluten and a thickening agent. ", is.
The contents of the present invention will be described below.

─Multi-layered noodles having an inner layer and an outer layer─
In the method for producing multi-layered noodles according to the present invention, the noodle dough for the inner layer and the noodle dough for the outer layer are superimposed and rolled to prepare the dough for the multi-layered noodles.
For example, the noodle dough for the inner layer and the noodle dough for the outer layer can be inserted between rolls and the inner layer and the outer layer are brought into close contact with each other while applying pressure to form an integrated noodle strip. Then, the noodle strip can be passed through a plurality of rolling mills as necessary to obtain a noodle strip having a required thickness.
In the present invention, it is common to form a three-layer structure in which an inner layer is sandwiched between upper and lower outer layers. That is, it goes without saying that the noodles may have three or more layers, four layers, or five layers.

─Formulation of the inner layer─
In the present invention, ordinary noodle-making ingredients such as wheat flour, starch and gluten can be used in the formulation of the inner layer. More specifically, the noodle-making raw materials for the inner layer include ordinary noodle raw materials such as wheat flour, starch, gluten, egg white, egg powder, pigments, calcium, oils and fats, and various flavors.
In the present invention, it is essential to use wheat flour, gluten, resistant starch, and a thickener in these noodle-making raw materials.
Here, the indigestible starch is a kind of dietary fiber, and while it is a starch, it is said that it is difficult to be absorbed in the small intestine, so that it is difficult to be converted into energy, and that it also has an intestinal regulation effect. As the resistant starch referred to in the present invention, various types such as modified starch can be used. For example, modified starch subjected to phosphoric acid cross-linking may be used, but the present invention is not limited to this. By using such a resistant starch, it is possible to avoid problems such as obesity due to excessive calorie intake.

Here, regarding the content of the resistant starch in the inner layer, the content of the resistant starch in the raw material powder (including wheat flour, starch, thickener, calcium preparation, egg white, fats and oils, various flavors, etc.) It is preferable that the ratio is in the range of about 10% by weight to 70% by weight. More preferably, it is 30% by weight to 60% by weight. Most preferably 40% to 55% by weight.
Next, various thickening agents can be used as the thickening agent for the inner layer. By adding a thickener, it is possible to improve the viscoelasticity of the noodles, even if they contain resistant starch, and to improve moldability.

Various types of thickeners can be used as the thickening agent for the inner layer, but tamarind seed gum is particularly preferred. Moreover, in the present invention, it is preferable to use psyllium seed gum in combination with the tamarind seed gum. Psyllium seed gum has high water absorbency and can impart appropriate elasticity and viscosity to noodles. The ratio of the psyllium seed gum to the raw material powder is preferably in the range of about 1% by weight to 10% by weight. More preferably, it is 3% to 9% by weight.

Here, with regard to the content of the thickener in the inner layer, the content of the resistant starch in the raw material powder (including wheat flour, starch, thickener, calcium preparation, egg white, oil, various flavors, etc.) Although it is preferable to adjust the amount according to the situation, it is preferable to set the amount in the range of about 3% by weight to 20% by weight. Furthermore, it is preferably 30% to 60% by weight. More preferably, it ranges from 40% to 55% by weight.

Next, gluten is said to be a refined protein of grains such as wheat flour. It has glutenin and gliadin as its components. By kneading with wheat flour, water, etc., a network structure is formed to improve the noodle-making properties and exhibit unique viscoelasticity.
Here, the content of gluten in the inner layer is preferably adjusted according to the blending ratio of the resistant starch in the raw material powder, and is preferably in the range of about 5% by weight to 40% by weight. be. Furthermore, it is preferably 10% to 30% by weight. Gluten is preferably partly gliadin. That is, it is preferable that the ratio of gluten and gliadin is about 4:1 to 1:1.

It goes without saying that various ingredients other than wheat flour, gluten, thickener, and resistant starch may be included as raw materials for noodles.
Next, as kneading water for preparing noodles, various raw materials such as brine and salt can be added to water. As for brackish water, potassium carbonate, sodium carbonate, sodium hydrogen carbonate, various pyrophosphates, various polyphosphates, various metaphosphates, various phosphates, and the like can be widely used. In addition, it goes without saying that pigments, extracts, and various food additives may be added to the kneading water.
As for the inner layer in the present invention, the dough is formed by mixing and kneading raw material flour and kneading water.

─Preparation and Extrusion of the Dough for the Inner Layer─
In the preparation of the dough for the inner layer, the noodle ingredients and the kneading water are kneaded with a batch mixer, flow jet mixer, vacuum mixer or the like to form one or several dough lumps. Moreover, in the case of machine-made noodles, they often exhibit a minced shape.
Next, it is necessary to put these minced dough pieces together, and this work is called extrusion. That is, usually, these minced doughs are collectively formed into strip-shaped noodle dough, but in the present invention, the step of extrusion molding is carried out to form a noodle strip by a vacuum extrusion method. Here, the vacuum extrusion method refers to a method of extruding into a noodle sheet under vacuum (reduced pressure), and various methods can be used as long as they can be formed into a noodle sheet under vacuum (reduced pressure). can be done.

That is, in the present invention, the step of extruding into this noodle sheet is carried out under reduced pressure. Specifically, the noodle dough can be extruded into a noodle sheet by using a vacuum extruder (noodle sheet machine) such as an extruder under reduced pressure. Here, the extruder generally means a device for extruding the kneaded crumbly dough by applying pressure with a screw or the like. Even if it is not an extruder, for example, it is possible to pass between rolls under reduced pressure to form a band-shaped noodle dough.

The degree of vacuum (degree of pressure reduction) at this time can be approximately −200 mmHg (−2.67×10 ⁴ Pa) or less. Preferably, the degree of vacuum is −720 mmHg (−9.60×10 ⁴ Pa) to −200 mmHg (2.67×10 ⁴ Pa), more preferably −720 mmHg (−9.60×10 ⁴ Pa). It can be done under a reduced pressure of up to 400 mmHg (-2.67×10 ⁴ Pa).
In this way, the noodle dough of the inner layer can be suitably adjusted through the step of extrusion molding under reduced pressure. A multi-layered noodle strip can be prepared by sandwiching the noodle dough with the later-described outer layer noodle dough and further rolling.

─Formulation of the outer layer─
In the present invention, ordinary noodle ingredients such as wheat flour, starch, and gluten can be used in the composition of the outer layer. More specifically, the noodle-making raw materials for the inner layer include wheat flour, starch, gluten, egg white, egg powder, pigments, calcium, oils and fats, various flavors, and the like.
In the present invention, it is essential to use wheat flour, gluten, and a thickener in these noodle-making raw materials. Various thickening agents can be used as the thickening agent for the outer layer. By adding a thickener, it is possible to achieve effects such as improving the water retention of the noodles. Various thickening agents can be used for the outer layer side, but tamarind seed gum is particularly preferred. In the present invention, it is also preferable to use alginate (propylene glycol alginate) in combination with the tamarind seed gum. These thickeners have the effect of imparting appropriate elasticity and viscosity to the noodles.

Here, the content of the thickening agent in the outer layer is generally 2% to 10% by weight in the raw material powder (containing wheat flour, starch, thickening agent, calcium preparation, egg white, fats and oils, various flavors, etc.). A range of degrees is preferred. Furthermore, it is preferably 3% to 7% by weight.
Then add gluten also in the outer layer. The gluten content in the outer layer is not particularly limited, but it is generally about 2 to 10% by weight in the raw material powder. Further, it is preferably about 3 to 7% by weight.

Incidentally, as described above, in the present invention, it is a matter of course that various ingredients other than wheat flour, gluten, thickener, and resistant starch may be included as raw materials for noodles.
Next, as kneading water for preparing noodles, various raw materials such as brine and salt can be added to water. Further, for the outer layer, dough is formed by mixing and kneading raw material flour and kneading water.

─Preparation and Extrusion of Outer Layer Dough─
In the preparation of the dough for the inner layer, the noodle ingredients and the kneading water are kneaded with a batch mixer, flow jet mixer, vacuum mixer or the like to form one or several dough lumps. A vacuum mixer is preferably used for kneading the outer layer. Moreover, in the case of machine-made noodles, they often exhibit a minced shape. In the present invention, it is preferable to carry out the kneading in a reduced pressure state.

Next, these crumbly dough pieces need to be put together, which is done by the extrusion process as previously described.
That is, generally, the rag-shaped dough is put together to form a belt-shaped dough. The outer layer may be formed under normal pressure. It is possible to form a belt-shaped noodle dough by pushing it between rolls under normal pressure. Alternatively, an extruder such as an extruder may be used. Furthermore, it is also possible to extrude the noodle dough under reduced pressure. Various extrusion methods can be used for the outer layer.

In this way, the noodle dough of the outer layer can be formed into a noodle band by passing through the extrusion process. By sandwiching the noodle dough of the inner layer with the noodle dough of the outer layer and further rolling, it is possible to prepare a noodle strip having a multi-layer structure.

─Preparation of noodle strings─
In the method for producing multi-layered noodles according to the present invention, the noodle dough for the inner layer and the noodle dough for the outer layer are superimposed and rolled to prepare the dough for the multi-layered noodles. More specifically, the inner layer after extrusion is sandwiched between the outer layers after extrusion, and the stacked noodle dough is inserted between rolls or the like to apply pressure while the inner layer and the outer layer are brought into close contact to prepare an integrated noodle strip. can do.
Further, it is of course possible to apply a method in which the inner layer and/or the outer layer after extrusion are inserted between rolls or the like as necessary, rolled, and then the inner layer and the outer layer are superimposed.

The thickness ratio of each layer of the inner layer and the outer layer is not particularly limited, and can be appropriately changed according to the texture and noodle-making properties. Specifically, the thickness ratio of each layer is, for example, three layers, the ratio of outer layer: inner layer: outer layer is a wide range of about 2: 1: 2 (1: 0.5: 1) to 1: 5: 1 A range is possible.
However, the ratio of outer layer:inner layer:outer layer is preferably about 1:1:1 to 1:3:1.
Usually, in the rolling process, the thickness of the obtained noodle sheet is gradually reduced by passing it through a plurality of rolling rolls. Then, the obtained thinned noodle strip is cut out by a cutting blade roll to prepare a group of noodle strings.

Then, the obtained noodle strings are packaged and processed as necessary to form various noodle products.
After cutting, the noodle strings are raw noodles, boiled noodles after boiling, steamed noodles after steaming, or frozen noodles thereof, or the obtained noodle strings are dried with hot air or oiled after boiling or steaming. It can also be used as instant noodles with water content reduced by heat drying.

Test examples of the present invention are described below. However, the present invention is not limited to the following test examples.
(1) Confirmation of each configuration
[Test Example 1]

After producing the inner layer and the outer layer according to the formulations shown in Table 1, three layers were combined and a group of noodle strings was produced. Details are shown below.

(inner layer)
As raw material flour, 160 g of wheat flour, 500 g of indigestible starch, 240 g of gluten, and 100 g of a thickener (Tamarind Seed Gum DSP, manufactured by Gokyo Food & Chemical Co., Ltd., trade name Glyloid 2A) were mixed (1 kg). 460 ml of kneading water dissolving 24 g of all potassium salt, 8 g of salt, and 5 g of pigment were added to the mixture, and kneaded for 4 minutes with a normal pressure mixer. The composition of the total potash brine is potassium carbonate.
The obtained crumbly dough was extruded using a vacuum extruder under a reduced pressure of −680 mmHg, and a 25 mm noodle strip was rolled into a 12 mm noodle strip to obtain an inner layer noodle strip.

(outer layer)
On the other hand, 900 g of wheat flour is mixed with 50 g of gluten and 50 g of a thickener (tamarind seed gum) (1 kg), and kneaded water is prepared by dissolving 24 g of all potassium salt, 8 g of salt, and 5 g of pigment. 370 ml was added and kneaded.
The minced dough thus obtained was pressed between rolls under normal pressure to form a belt-shaped noodle dough. Further, two of the extruded noodle strips were stacked and rolled to complete an outer layer noodle strip having a thickness of about 12 mm.

(Three-layer alignment and production of noodle strings)
The inner layer noodle strips and the outer layer noodle strips obtained above were combined into three inner layer noodle strips and two outer layer noodle strips so that the thickness of the noodle strips was outer layer:inner layer:outer layer = 1:2:1. After resting for 15 minutes, rolling was repeated to make the thickness of the noodles 1.5 mm. After cutting out the rolled noodle strip with a No. 20 cutting blade, it was cut every 28 cm to complete a group of noodle strings. The amount of noodle strings after each cut was 110 g per serving.

(Evaluation of noodle-making properties)
Evaluation of noodle-making properties was performed as follows. The moldability of each noodle strip and/or group of noodle strings of the inner layer and outer layer was considered as the main point of view, and the ease of tearing and rough texture of the noodle strings were also taken into consideration for evaluation. The evaluation was made on a scale of 10 (best 10) normal 5 ⇔ bad 1.

(Evaluation of texture of noodle strings)
The texture of the obtained noodle strings was evaluated as follows. 110 g/meal of the obtained noodle strings were put into 1500 ml of boiling water and boiled for 2 minutes and 30 seconds. Evaluation was made on a 10-point scale of best 10, average 5, and bad 1, with the items being firmness, smoothness, elasticity, etc. being evaluated. Table 3 shows the evaluation results.

[Test Example 2]
Noodles in the same manner as in Test Example 1 except that in Test Example 1, 260 g of flour was used for the inner layer without adding a thickener, and 950 g of flour was used for the outer layer without adding a thickener. A line was produced, and the noodle-making properties and texture were evaluated. Table 3 shows the evaluation results.

[Test Example 3]
Noodle strings were prepared in the same manner as in Test Example 1, except that the inner layer was not vacuum-extruded but was extruded at normal pressure, and the noodle-making properties and texture were evaluated. Table 3 shows the evaluation results.

[Test Example 4]
A test was conducted for the formulation of single-layer noodles.

Noodle strings were prepared in a single-layer state instead of forming three layers consisting of an inner layer and an outer layer according to the formulation shown in Table 2. Details are shown below.

(Manufacture of single-layer noodles)
On the other hand, 530 g of wheat flour is mixed with 250 g of resistant starch, 150 g of gluten, and 70 g of thickener (tamarind seed gum) (1 kg). 370 ml of kneading water in which 5 g was dissolved was added, and kneaded for 4 minutes with a normal pressure mixer.
The minced dough thus obtained was pressed between rolls under normal pressure to form a belt-shaped noodle dough. Further, two of the extruded noodle strips were stacked and rolled to complete an outer layer noodle strip having a thickness of about 12 mm.
After the noodle sheet was allowed to rest for 15 minutes, rolling was repeated to make the thickness of the noodle 1.5 mm. After cutting out the rolled noodle strip with a No. 20 cutting blade, it was cut into pieces of 28 cm each to complete a group of noodle strings.
The noodle-making property evaluation and texture evaluation of the noodle strings are the same as those shown in Test Example 1. Evaluation results are shown in Table 3.

─Evaluation results─

From a comparison of Test Examples 1 and 4, in the present invention, when producing noodles containing a large amount of resistant starch, it is necessary to include resistant starch in the inner layer as multiple layers such as three layers. It turns out there is.
A comparison of Test Examples 1 and 2 shows that in that case it is necessary to use a thickening agent in the outer and inner layers.
From the comparison of Test Examples 1 and 3, it was found that vacuum extrusion was necessary in the extrusion of the inner layer.

(2) When psyllium seed gum is added to the inner layer
[Test Example 5]

As shown in Table 4, in the formulation of Test Example 1, the thickener in the inner layer was 85 g of tamarind seed gum and 30 g of psyllium seed gum (manufactured by Sanei Yakuhin Boeki Co., Ltd., trade name: sterilized psyllium husk powder). It was the same as Test Example 1 except for Table 5 shows the evaluation results. In addition, 460 ml of water was used to add psyllium seed gum.

[Test Example 6]
Noodle strings were produced in the same manner as in Test Example 1 and evaluated in the same manner as in Test Example 1. Table 5 shows the evaluation results.

Addition of psyllium seed gum as a thickener in the inner layer improved the texture of the noodles.

(3) When alginate is added to the outer layer
[Test Example 7]

As shown in Table 6, in the composition of Table 4 of Test Example 5, 3 g of alginate (manufactured by Kimika Co., Ltd., trade name: kelp acid 501) was newly added to the outer layer as a thickener, and 897 g of wheat flour was added. A group of noodle strings was prepared in the same manner as in Test Example 5, except for Table 7 shows the evaluation results.

[Test Example 8]
In Test Example 1, a group of noodle strings was prepared in the same manner as in Test Example 5, except that 3 g of alginate was newly added to the outer layer as a thickening agent, and 897 g of wheat flour was added. Table 7 shows the evaluation results.

[Test Example 9]
Noodle strings were produced in the same manner as in Test Example 1 and evaluated in the same manner as in Test Example 1. Table 7 shows the evaluation results.

Addition of alginic acid ester as a thickening agent for the outer layer further improved the texture and noodle-making properties of the noodles.

(4) When gliadin is used as part of gluten
[Test Example 10]

As shown in Table 8, in the composition of Table 6 of Test Example 7, 25 g of gliadin (manufactured by Amasa Kasei Co., Ltd., trade name: Glia A) and 25 g of gluten were added to the outer layer, and 120 g of gliadin and 120 g of gluten were added to the inner layer. It was the same as Test Example 7 except that the Table 9 shows the evaluation results.

[Test Example 11]
Test Example 1 was the same as Test Example 1 except that 25 g of gliadin and 25 g of gluten were added to the outer layer, and 120 g of gliadin and 120 g of gluten were added to the inner layer. Table 9 shows the evaluation results.

[Test Example 12]
Noodle strings were produced in the same manner as in Test Example 1 and evaluated in the same manner as in Test Example 1. Table 9 shows the evaluation results.

By replacing part of gluten with gliadin, both the texture of the noodles and the noodle-making properties were improved.

Claims (7)

A multilayer noodle having an inner layer and an outer layer,
A multi-layered noodle, wherein the inner layer contains wheat flour, gluten, resistant starch and a thickener and is formed into a noodle sheet by vacuum extrusion, and the outer layer contains wheat flour, gluten and a thickener.
2. The multilayer noodle according to claim 1, wherein the inner layer and/or outer layer thickener is tamarind seed gum.
3. The multilayer noodle according to claim 1 or 2, wherein the inner layer thickener further comprises psyllium seed gum.
4. The multilayer noodle according to any one of claims 1 to 3, wherein the thickening agent for the outer layer further contains alginate.
5. The multilayer noodle according to any one of claims 1 to 4, wherein part of the inner layer and/or outer layer gluten contains gliadin.
The multi-layered noodle according to any one of claims 1 to 5, wherein the multi-layered noodle is a three-layered noodle.
The multi-layered noodle according to any one of claims 1 to 6, wherein said multi-layered noodle is fresh noodle or frozen noodle.