JP2013017481A - Frozen noodle for both microwave oven and pan cooking, and method for producing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide noodles capable of being cooked in almost the same taste and palatability in both of pan cooking and microwave oven cooking, and a method for producing the same.SOLUTION: The method for producing noodles for both microwave oven cooking and pan cooking comprises a filling step for filling α-ized noodles in a retainer and a freezing step for freezing the filled noodles. In the filling step, water is fed to the retainer in which a convex portion is made on the bottom center and a concave portion on the bottom periphery before or after filling the α-ized noodles to add water to the α-ized noodles, subsequently the whole is frozen and then remolded to form a frozen noodle lump in which a concave portion 5 is formed on the upper center of the noodle lump 4 and a cyclic ice layer is adhered to the concave portion 6 around the upper periphery of the noodle lump.

Description

The present invention relates to frozen noodles that can be cooked in a microwave oven or a pan, and a method for producing the same.

  In recent years, with the development of freezing technology and the spread of microwave ovens, products of frozen noodles of the type that are thawed and cooked in a microwave oven are rapidly growing. These are widely accepted by consumers in that a noodle having a texture close to boiled can be easily obtained in a short time.

As these techniques, for example, there are the following patent documents 1 to 4. Among these, Patent Document 1 is a method for producing frozen noodles, characterized in that 8 to 17% by weight of water is given to the pregelatinized noodles based on their weight and frozen. Patent Document 2 is a method for producing frozen strawberry noodles for thawing a microwave oven, which forms a recess at the center of the noodle mass and freezes, and then refreezes the frozen noodle mass by attaching water to the surface. In Patent Document 3, the surface of the gelatinized noodles is coated with a specific emulsified oil, frozen after forming a recess at the center of the noodle mass, and then re-frozen by attaching water or the like to the surface of the frozen noodle mass. This is a method for producing frozen noodles for thawing / heating microwave ovens. Further, Patent Document 4 discloses that frozen noodles in a container are formed such that ice is arranged in a ring shape on the periphery of the upper surface of the noodle mass so that the amount of water is larger at least at the upper portion of the peripheral portion than at the central portion of the noodle mass. It is.
The above technique aims to prevent thawing unevenness that occurs during thawing of a microwave oven and to obtain a uniform texture.

Japanese Patent No. 3418033 Japanese Patent Publication No. 6-24476 JP 2007-174920 A JP 2000-270794 A

On the other hand, boiled frozen noodles with plenty of hot water in the pot, the method of thawing and cooking is deeply supported by consumers, although it takes more time to cook than cooking in a range, There are still many consumers who cook in hot pots because they are able to obtain smooth, full-bodied noodles with an authentic taste and texture.

  Therefore, there has been a demand for frozen noodles that can be cooked in either a microwave oven or a pan that satisfies both needs.

Therefore, the present inventors tried cooking in a pan using the frozen noodles listed in the above prior art, all of the above prior art frozen noodles are intended for thawing and heating cooking in a microwave oven. Yes, the noodles were soft and had a boiled texture.
Then, conversely, when I tried thawing and cooking with a microwave oven using frozen noodles for cooking pots, this time it took time to thaw and cook, and the noodles were hard and crumbly textured Occurred.

  That is, this invention solves the said problem, and it aims at providing the frozen noodles which are finished in the substantially same taste and texture in both pot cooking and microwave cooking, and its manufacturing method. In particular, in microwave oven cooking, the object is to obtain frozen noodles for both microwave oven and pan cooking that have a fast thawing / cooking time and are uniformly thawed.

In order to solve the above-mentioned problems, the present inventors have conducted intensive studies using various means.
First, the present inventors examined the cause of the above problem. As a result, when frozen noodles are cooked in a pan, the noodles are thawed and heated with the hot water, and at the same time the water is absorbed and the weight increases. On the contrary, the weight of the noodles is reduced due to the scattering of steam by heating. For this reason, it was found that there is a difference in the finished noodle moisture between the pot cooking and the microwave cooking, and the texture is also different due to this effect.
Also, if you set the moisture value of the noodles high for cooking in the microwave, the noodles will soften when cooking in the pan, and if you set the moisture value of the noodles low for cooking in the boil, the moisture value will make the noodles brittle when cooking in the microwave The knowledge that the difference of becomes a problem was obtained.

Therefore, the present inventors made the frozen noodle mass into a frozen noodle mass that was frozen after adding moisture to the pregelatinized noodle strings, and compared with the amount of moisture in the noodles after cooking, Instead of reducing the amount of water than usual, instead of increasing the amount of water given to the pregelatinized noodle strings, the amount was increased. Then, the ice made from the added water was thawed as it was in the hot water during cooking in the pot, so it hardly affected the moisture value of the finished noodles. On the other hand, in the case of cooking in a microwave oven, the ice gradually melts by heating in the microwave oven, and further, the melted water boils so that most of the ice is absorbed by the noodle strings and heated in the microwave oven. In spite of this, the weight of the noodles increased just like the one cooked in the pan, and a texture close to that of freshly boiled was obtained. That is, it has been found that the taste and texture can be made substantially the same with either cooking method.

However, since the frozen noodle mass obtained has increased the amount of ice, it takes time to thaw in a microwave oven, and the temperature unevenness due to each part of the frozen noodle mass increases, so that the thawing becomes uneven. Problems occurred.

Therefore, the present inventors further studied, and the shape of the noodle mass having the above-mentioned predetermined amount of water was formed such that a concave portion was formed at the upper center of the noodle mass and a convex portion was formed around the upper portion of the noodle mass. The structure is such that the water provided to the noodle strings is frozen by adhering to the convex portion, thereby providing an annular ice layer on the convex portion.
Then, when thawing and cooking with a microwave oven, the noodle chunks could be thawed quickly, and the cooking time could be shortened. Moreover, the ice provided on the convex portions of the noodle mass is gradually melted together with the noodle mass by the range heating, and this water is heated and boiled when it falls down along the noodle surface, thereby moistening the surface of the noodle. However, most of the ice was absorbed by the noodle strings around the protrusions. For this reason, the water boiled in the noodle strings around the noodle chunks that are particularly easy to dry was well absorbed, temperature unevenness due to each part of the frozen noodle chunks was reduced, and thawing could be made uniform.
In this way, it is found that the weight of noodles can be increased and the taste and texture can be made almost the same as in the case of cooking in a pan, despite being cooked in the range. completed.

In addition, as a method for producing the frozen noodles of the present invention, first, a predetermined amount of water is put into a recessed portion of a retainer provided with a recessed portion around the bottom portion, and then the pregelatinized noodle strings are put into the whole. It has been found that by freezing and removing bread, a frozen noodle mass can be formed in which a concave portion is formed at the upper center of the noodle mass and an annular ice layer is attached to the convex portion around the upper portion of the noodle mass. Furthermore, the present inventors have found that the same frozen noodle mass can be formed even when the noodle strings are put into the retainer at the timing when the predetermined amount of water is added.

That is, the present invention is a method for producing frozen noodles comprising a filling step of filling the retainer with the gelatinized noodle strings, and a freezing step of freezing the filled noodle strings, wherein in the filling step, the gelatinized noodle strings Before or after the filling, after supplying the moisture to the recessed portion of the retainer provided with a raised portion in the center of the bottom portion and a recessed portion around the bottom portion to impart moisture to the gelatinized noodle strings, the whole is then frozen. Microwave / pot cooking characterized by forming a frozen noodle mass in which a concave portion is formed in the upper center of the noodle mass and an annular ice layer is attached to the convex portion around the upper portion of the noodle mass by depanning This is a method for producing combined frozen noodles.

According to the production method of the present invention, it is possible to provide a method for producing frozen noodles that have substantially the same taste and texture in both pot cooking and microwave cooking. In particular, in microwave oven cooking, it is possible to obtain frozen noodles for both microwave oven and pan cooking that have a fast thawing / cooking time and uniform thawing. In addition, the frozen noodles can be easily manufactured by a single freezing step, and even when the noodle mass is formed into the convex shape, it can be made strong against impact and difficult to break.

Moreover, in the production method of the present invention, the amount of water given to the pregelatinized noodle strings is 4 to 45% by weight with respect to the amount of water contained in the noodles after the frozen noodle chunks are cooked in a microwave oven. It is preferable from the viewpoint of obtaining the above effect.

In addition, the present invention is a frozen noodle lump that freezes after imparting moisture to the pregelatinized noodle strings, and the amount of water imparted to the pregelatinized noodle strings is microwave-cooked from the frozen noodle strings 4 to 45% by weight with respect to the amount of water contained in the subsequent noodles, and the frozen noodle mass formed a concave portion at the upper center of the noodle mass and formed a convex portion around the upper portion of the noodle mass A frozen noodles for both microwave ovens and pots that have a frozen noodle mass composed of a noodle mass and an annular ice layer attached to the convex portion around the upper portion of the noodle mass due to moisture imparted to the pregelatinized noodle strings is there.

This makes it possible to obtain frozen noodles that have almost the same taste and texture in both pot cooking and microwave cooking. In particular, in microwave cooking, thawing / cooking time is fast and thawing becomes uniform. Frozen noodles for both microwave oven and pot cooking can be obtained.

In addition, the frozen noodle mass preferably has a recess depth of 3 to 60 mm because thawing is further accelerated.

Furthermore, it is particularly preferable that the moisture imparted to the pregelatinized noodle strings is a saline solution because thawing is accelerated.

  ADVANTAGE OF THE INVENTION According to this invention, the frozen noodles finished in the substantially same taste and texture in both pot cooking and microwave cooking can be provided, and its manufacturing method. In particular, in microwave oven cooking, it is possible to obtain frozen noodles for both microwave oven and pan cooking that have a fast thawing / cooking time and uniform thawing.

Moreover, according to the manufacturing method of this invention, the said frozen noodles can be easily manufactured by one freezing process. Furthermore, even when the noodle mass has the convex shape, it can be resistant to impact and hard to break.

It is a perspective view which shows an example of the retainer (container for freezing) of this invention. It is a perspective view which shows an example of the substantially concave shape frozen noodle mass in this invention. It is a cross-sectional schematic diagram which shows an example of the site | part of the ice layer in the frozen noodle chunk of this invention.

1 Retainer (freezing container)
2 Bumps at the bottom of the retainer 3 Recesses at the bottom of the retainer 4 Frozen noodle chunks 5 Recesses at the top center of the noodle chunks 6 Projections around the top of the noodle chunks 7 Ice layer

Hereinafter, although this invention is demonstrated according to a manufacturing process concretely, this invention is not limited to those description.

Although the kind of frozen noodles in this invention is not specifically limited, For example, Chinese noodles, udon, soba, yakisoba, spaghetti, etc. are mentioned.

<Manufacturing method>
The noodle strings used in the frozen noodles of the present invention are noodle strings obtained by pre-gelatinizing noodle strings produced by a conventional method, and the water content is adjusted to 45 to 70%. In the case of general frozen noodles, the moisture content of the noodle strings before freezing is 52 to 69% for fines such as Chinese noodles, and 60 to 75% for thick items such as udon. The water content is adjusted to be lower than this, and 45 to 65% is used for fine materials and 50 to 70% is used for thick materials.

As the method of pregelatinizing the noodle strings of the present invention, boiling, steaming, or a combination thereof is possible. In addition, when boiled and alpha-ized, a water | moisture content can be adjusted by making boiling time shorter than usual.

Next, the gelatinized noodle strings are cooled with cold water. For example, it can be performed by immersion in cold water, spraying in cold water, or the like.

  The cooled noodle strings are filled into a retainer (freezing container) having a predetermined shape, which will be described later, and then frozen to form frozen noodle masses. In the present invention, a predetermined amount is previously set before or after filling the noodle strings. After adding the water to the concave part around the bottom of the retainer to give moisture to the noodle strings, the whole is frozen to obtain a frozen noodle mass with an ice layer on the convex part around the top of the noodle mass. It is characterized by forming.

Here, the present invention is characterized in that the water content imparted to the pregelatinized noodle strings is 4 to 45% by weight with respect to the water content of the noodles after cooking the frozen noodle mass in a microwave oven. And That is, with a predetermined moisture content of noodles after cooking as a target, the moisture content of the pregelatinized noodle strings is set to be lower than usual, and a part of the moisture content of the cooked noodles is added to compensate for this. It is characterized by giving to the noodle strings. The target moisture value after cooking is preferably 60-70% for fines such as Chinese noodles and 63-75% for thick dishes such as udon.

In order to obtain such a moisture content, for example, the moisture content given to the gelatinized noodle strings (thin products such as Chinese noodles) is set to 170 g (moisture value 59%) of the gelatinized noodle strings weight, If it is set to 4-67g, it will become the said moisture content (refer Table 2 of Experimental example 2 mentioned later). Thereby, the frozen noodles which finish in the substantially same taste and texture in both pot cooking and microwave cooking can be obtained. On the other hand, when the moisture content given to the gelatinized noodle strings exceeds 45% by weight with respect to the moisture content of the noodles after the frozen noodle mass is cooked in the microwave oven, for example, the gelatinized noodles When it exceeds 67 g with respect to a wire weight of 170 g (moisture value 59 %), heating unevenness occurs during thawing / cooking in a microwave oven, and thawing takes time. On the other hand, when the amount of water does not exceed 4% by weight, for example, when it is less than 4g with respect to 170g of pregelatinized noodle strings (moisture value of 59%), moisture during thawing / cooking in a microwave oven The value does not increase and the texture becomes hard and brittle (see Table 2 in Experimental Example 2 described later).

Furthermore, the shape of the noodle mass used in the present invention is a noodle mass in which a concave portion is formed in the upper center of the noodle mass and a convex portion is formed around the upper portion of the noodle mass. For example, the bottom portion as shown in FIG. Using a retainer provided with a raised portion in the center, the cooled noodle strings are filled and covered so as to cover the raised portion, and then frozen and baked to obtain the desired frozen noodle mass. be able to.

Here, in the same way as described above, before or after filling the noodle strings, a predetermined amount of water is added in advance to the concave portions around the bottom of the retainer to give moisture to the noodle strings, and then the whole is frozen. Thus, a frozen noodle mass having an ice layer on the convex portion around the upper portion of the noodle mass can be obtained.

  In addition, the shape of the noodle mass used in the present invention may be a circle, an ellipse, a rectangle, or a donut shape (with holes), and ingredients may be attached to the noodle mass.

  As the formation part of the ice layer used in the present invention, it is preferable to provide an annular shape on the convex portion around the upper portion of the noodle mass, and according to the above method, water enters the inside of the noodle string around the convex portion. Since the entire convex portion is frozen in a state, a frozen noodle mass having a convex portion that is strong against impact and difficult to break can be obtained. In addition, the formation part of the said ice layer should just be the said convex part, and the whole convex part or a part of convex part may be sufficient as it.

  The amount of the ice attached is, for example, 4 to 67 g with respect to 170 g (moisture value of 59%) of the gelatinized noodle strings, similarly to the amount of water applied to the αnized noodle strings. In both pot cooking and microwave cooking, it is possible to obtain frozen noodles that have almost the same taste and texture.

Examples of the present invention will be described below, but the present invention is not limited to the following examples.

Experimental example 1: Influence on moisture after cooking in each cooking method due to difference in moisture before cooking and amount of added water <br/> Moisture after cooking in cooking method of pot cooking and microwave cooking by difference in moisture before cooking and added water amount In order to investigate the effect of the difference in values, experiments were conducted as follows.

A kneaded water prepared by dissolving 950 g of wheat flour and 50 g of starch in 10 ml of salt and 10 g of potassium in 350 ml of water was added and kneaded with a mixer for 15 minutes to prepare a noodle dough. This was rolled with a roll to obtain a noodle band having a thickness of 1.5 mm, and cut with a No. 20 cutting blade (square blade) to obtain a raw noodle string. Next, the obtained raw noodle strings are cut into a serving of 25-30 cm (weight 110 g / meal), boiled with boiling water for 30 seconds, washed with cold water for 1 minute, immersed in ice water for 30 seconds, cooled, After shaking three times with a colander, the weight and moisture value of the noodle strings were measured to determine the weight before cooking (weight of the gelatinized noodle strings) and moisture before cooking (moisture value of the gelatinized noodle strings).

Next, 170 g of the cooled noodle strings are filled in the freezing retainer shown in FIG. 1, 50 g of water is added as an additional water to the concave portion of the retainer, and then the whole is frozen to produce a frozen noodle mass. Example 1 was adopted.
On the other hand, Comparative Example 1 was made in the same manner as Example 1 except that the weight of the added water (the amount of water given to the pregelatinized noodle strings) was 0 g.
Further, Comparative Example 2 was made in the same manner as in Example 1 except that the boiling water was 2 minutes and 15 seconds and the added water was changed to 0 g.

Each of the frozen noodles thus obtained is cooked for 350 hours with boiling water in Table 1 for the time indicated in Table 1, and in the range cooking for 500 w for the time indicated in Table 1, and the noodles after cooking each frozen noodle mass The weight of the noodles and the moisture value of the noodles (moisture after cooking) were measured. Further, from these values, the difference between the amount of water actually absorbed by the noodles by each cooking method (absorbed water amount) and the moisture value by the cooking method was calculated.
Next, a sensory test was conducted on the taste and texture of these cooked noodles by five skilled panelists. The results are shown in Table 1.

From the results in Table 1, Example 1 in which the cooking time was shortened by boiled and added water was added to form a predetermined noodle block shape, the difference in moisture value after cooking by each cooking method was as small as 0.3%. We were able to. Moreover, as a result of the sensory test, frozen noodles having almost the same taste and texture were obtained in both pot cooking and microwave cooking, which was preferable.
On the other hand, Comparative Example 1 is not preferable because the texture becomes hard and brittle when cooking in the range, and Comparative Example 2 becomes a texture that stretches with rice cake when cooking in the pan.

Experimental example 2: Appropriate range of added water amount with respect to moisture content of noodle after cooking in microwave oven Next, added water amount (applied to pregelatinized noodle strings) with respect to the moisture content of noodle after cooking microwave oven In order to investigate how much the amount of water) is to be measured, an experiment was conducted as follows.

The frozen noodle masses of Examples 1 to 3 and Comparative Examples 3 and 4 were obtained in the same manner as in Experimental Example 1 except that the water content of the added water was changed as shown in Table 2. Next, for these frozen noodle masses, a sensory test was conducted in both pot cooking and microwave cooking in the same manner as in Experimental Example 1, and an appropriate range of the amount of water added to the amount of water contained in the noodles after microwave cooking was examined. . The results are shown in Table 2.

※表２の「α化麺線の水分量」、「添加水量」、「電子レンジ調理後の麺の水分量」の各欄中の数字は、上段：水分量(g)、中段：電子レンジ調理後の麺の水分量に対するα化麺線の水分量または添加水量(重量%)、下段：麺の水分値(%)、カッコ内は麺重量(g)を示す。

* The numbers in the columns of “Moisture content of pregelatinized noodle strings”, “Additional water content” and “Water content of noodles after cooking in microwave oven” in Table 2 are: upper: moisture content (g), middle: microwave oven The water content or added water content (% by weight) of the pregelatinized noodle strings with respect to the water content of the noodle after cooking, the lower part: the water value (%) of the noodles, and the parentheses indicate the weight (g) of the noodles.

From the results in Table 2, the amount of added water (the amount of water given to the pregelatinized noodle strings) in Examples 1 to 3 is included in the amount of water in the noodles after cooking in the microwave (noodles after cooking in the microwave) 4 to 45% by weight with respect to the amount of water) was preferable because frozen noodles with almost the same taste and texture could be obtained in both pot cooking and microwave cooking.
On the other hand, when the amount of added water of Comparative Example 3 exceeds 45% by weight with respect to the moisture content of the noodles after cooking in the microwave oven, heating unevenness occurs during thawing / heating cooking in the microwave oven, It took time to defrost. Moreover, when the amount of the added water in Comparative Example 4 was less than 4% by weight, it was not preferable because it became hard and brittle when cooked in a range.

Experimental example 3: Melted state of ice depending on the depth of the noodle block and the thawed state of the noodle block Next, in microwave cooking, ice depending on the depth (height of the protruding portion) of the frozen noodle block Experiments were conducted as follows for the dissolved state and the thawed state of the frozen noodle mass.

A kneaded water prepared by dissolving 950 g of wheat flour and 50 g of starch in 10 ml of salt and 10 g of potassium in 350 ml of water was added and kneaded with a mixer for 15 minutes to prepare a noodle dough. This was rolled with a roll to make a noodle band having a thickness of 2.10 mm, and cut with a No. 12 cutting blade (square blade) to obtain a raw noodle string. Next, the obtained raw noodle strings are cut into 25-35 cm serving (weight 168 g / meal), boiled with boiling water for 4 minutes, washed with cold water for 1 minute, immersed in ice water for 30 seconds, cooled, Shake 3 times with a colander to drain water. Next, 300 g of the cooled noodle strings are filled using the freezing retainer shown in FIG. 1 by changing the raised portion of the retainer bottom so that the depth of the recess is 60 to 0 mm. After adding 30 g of water as added water to the recesses, the whole was frozen to give Examples 4 to 8 and Comparative Example 5.
In addition, the depth (height of a convex part) of a recessed part is set like Table 3, and the thing of 60 mm (Example 4) in a table | surface is a donut-shaped noodle lump shape which the recessed part penetrated, and 0 mm The one of (Comparative Example 5) has a noodle block shape with no recess.

These frozen noodle masses are cooked in a microwave oven at 500 w for 4 minutes, 5 minutes, 6 minutes, 6 minutes and a half, 7 minutes, and the frozen noodle masses and the whole noodle mass are thawed every time. Each thawing time was measured by checking. At the same time, the noodle mass temperature at the periphery (high temperature region) of the noodle mass and the central portion (low temperature region) of the noodle mass was measured every time, and the temperature difference between the noodle masses was calculated. Table 3 shows the temperature data for noodle masses with thawing times of 6 minutes and 7 minutes. Next, a sensory test was conducted in the same manner as in Experimental Example 1 for the noodle mass having a thawing time of 6 minutes and 7 minutes. The results are shown in Table 3.

※表３の麺塊の解凍時間:麺塊温度(高温部位,低温部位)の各欄中のデータは、上段：６分、下段が７分の麺塊の解凍時間の麺塊温度(℃)を示す。また、麺塊温度差の欄のデータは、高温部位（麺塊の周辺部）と低温部位（麺塊の中心部）の麺塊の温度差(℃)を示す。

* The data in each column of noodle mass thawing time: noodle mass temperature (high temperature part, low temperature part) in Table 3 is the noodle mass temperature (° C.) of the noodle mass thaw time for the upper part: 6 minutes and the lower part for 7 minutes. Indicates. The data in the column of noodle mass temperature difference indicates the temperature difference (° C.) between the noodle mass at the high temperature site (periphery of the noodle mass) and the low temperature site (center of the noodle mass).

From the results in Table 3, the ice thawing time was shortened as the depth of the concave portion was increased, and the noodle mass temperature difference between the high temperature portion (noodle mass peripheral portion) and the low temperature portion (noodle mass central portion) was reduced.
In addition, the frozen noodle mass was preferable because the depth of the recess was 3 to 60 mm, and the deeper the recess, the faster the thawing and the less cooking unevenness (Examples 4 to 8). .
On the other hand, when the depth of the concave portion of Comparative Example 5 was 0 mm (doughnut-shaped noodle mass shape with the concave portion penetrating), it was not preferable because it became hard and brittle with a lack of heat and moisture when cooked in the range.

[Example 1] Frozen Chinese noodles Noodle dough is prepared by adding kneading water prepared by dissolving 10 g of salt and 10 g of sodium chloride in 350 ml of water to a raw powder obtained by mixing 950 g of wheat flour and 50 g of starch, and kneading for 15 minutes with a mixer. Created. This was rolled with a roll to obtain a noodle band having a thickness of 1.50 mm, which was cut with a No. 20 cutting blade (square blade) to obtain a raw noodle string. Next, the obtained raw noodle strings are cut into 25 to 30 cm (weight 110 g / meal) for one serving, boiled with boiling water for 30 seconds, washed with cold water for 1 minute, immersed in ice water for 30 seconds, cooled, Shake 3 times with a colander to drain water. (Weight 170g, moisture value 59%, moisture content 100g)
Next, 170 g of the cooled noodle strings are filled in the freezing retainer shown in FIG. 1, and 50 g of water is added to the recessed portion of the retainer as water to be added (36. 5% by weight), and the whole was frozen to obtain a frozen noodle mass for frozen Chinese noodles.

  The obtained frozen noodle mass was cooked in a pot by boiling it in 350 ml of boiling water for 2 minutes. (The weight of the noodle after cooking was 208 g, the moisture value was 66.4%, the moisture content was 138 g), and was cooked for 500 w for 5 minutes (the weight of the noodle after cooking was 206 g, the moisture value was 66.1%, the moisture content was 137 g). As a result of tasting these, both have almost the same freshly boiled, smooth taste and texture, especially in microwave cooking, thawing and heating time is fast, and thawing is uniform and preferable Met.

[Example 2] Frozen udon Noodle dough was prepared by adding kneaded water dissolved in 50 g of salt and 450 ml of water to a raw powder obtained by mixing 900 g of wheat flour and 100 g of starch and kneading with a mixer for 15 minutes. This was rolled with a roll to make a noodle band having a thickness of 3.10 mm, and cut with a No. 9 cutting blade (thin blade) to obtain a raw noodle string.
Next, the obtained raw noodle strings are cut into 30 to 40 cm serving (weight 104 g / meal), boiled with boiling water for 11 minutes, washed with cold water for 1 minute, immersed in ice water for 30 seconds, cooled, Shake 3 times with a colander to drain water. (Weight 200g, moisture value 68%, moisture content 136g)
Next, 200 g of the cooled noodle strings are filled into the freezing retainer shown in FIG. 1, and 15 g of water is added to the recessed portion of the retainer as water to be added (10. 5% by weight), and the whole was frozen to obtain a frozen noodle mass for frozen udon.

The resulting frozen noodle mass was cooked in a pot by boiling in 250 ml of boiling water for 1 minute. (Weight of noodles after cooking 206g, moisture value 68.5%, moisture content 141g)
Moreover, it cooked for 500w for 5 minutes (weight 209g of noodles after cooking, moisture value 69%, moisture content 144g). As a result of tasting these, both have almost the same freshly boiled, smooth taste and texture, especially in microwave cooking, thawing and heating time is fast, and thawing is uniform and preferable Met.

Claims (5)

A method for producing frozen noodles having a filling step of filling the retainer with the gelatinized noodle strings, and a freezing step of freezing the filled noodle strings,
In the filling step, before or after filling the pregelatinized noodle strings, water is supplied to the concave portions of the retainer provided with a raised portion in the center of the bottom portion and a concave portion around the bottom portion. After the application, the whole is frozen and then baked to form a frozen noodle mass in which a concave portion is formed in the upper center of the noodle mass and an annular ice layer is attached to the convex portion around the upper portion of the noodle mass. A method for producing frozen noodles for both microwave ovens and pot cooking. 2. The microwave oven according to claim 1, wherein the moisture content imparted to the pregelatinized noodle strings is 4 to 45% by weight with respect to the moisture content contained in the noodles after the frozen noodle mass is cooked in a microwave oven. -A method for producing frozen noodles for pan cooking. A frozen noodle mass that freezes after adding moisture to the pregelatinized noodle strings,
The amount of water given to the pregelatinized noodle strings is 4 to 45% by weight with respect to the amount of water contained in the noodles after cooking the frozen noodle mass, and
The frozen noodle mass has a concave portion in the upper center of the noodle mass and a convex portion around the upper portion of the noodle mass, and a convexity around the upper portion of the noodle mass due to moisture imparted to the pregelatinized noodle strings. Frozen noodles for both microwave oven and pot cooking having a frozen noodle mass composed of an annular ice layer attached to the section. The depth of the said recessed part is 3-60 mm, The frozen noodles combined with a microwave oven and a pot cooking of Claim 3. The frozen noodles for both microwave oven and pot cooking according to claim 3 or 4, wherein the moisture imparted to the pregelatinized noodle strings is saline.

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