JPH104898A - Production of dried noodle having rapid boiling property - Google Patents
Production of dried noodle having rapid boiling propertyInfo
- Publication number
- JPH104898A JPH104898A JP8158631A JP15863196A JPH104898A JP H104898 A JPH104898 A JP H104898A JP 8158631 A JP8158631 A JP 8158631A JP 15863196 A JP15863196 A JP 15863196A JP H104898 A JPH104898 A JP H104898A
- Authority
- JP
- Japan
- Prior art keywords
- noodle
- noodles
- internal structure
- boiling
- gas generating
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Links
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Abstract
Description
【0001】[0001]
【発明の属する技術分野】この発明は、麺線の内部組織
のみを粗の状態とすることによって、早茹で性を有する
とともに、咀嚼感に優れ、かつ茹でる際の澱粉粒の溶出
も少ない早茹で性を有する乾麺、及びその製造方法に関
するものである。BACKGROUND OF THE INVENTION The present invention relates to a fast-boiling method in which only the internal structure of the noodle strings is roughened, so that the noodle strings have a quick-boiling property, have a good mastication feeling, and have a small amount of starch granules eluted when boiled. The present invention relates to dry noodles having properties and a method for producing the same.
【0002】[0002]
【従来の技術と発明が解決しようとする課題】従来の早
茹で麺は、特開昭50−89555号、特開昭62−2
5946号等に記載されているように、麺線の組織全体
がアルカリ性ガス発生基剤と酸剤との反応による炭酸ガ
スの発泡作用によって形成された、粗の組織を有してい
るため下記の欠点を有していた。 (1)麺を茹でた際に、澱粉粒の溶出が著しいため不経
済である。 (2)麺の組織が粗であるため咀嚼感に乏しい。 (3)麺の組織が粗であるため、麺線表面の肌荒れが目
立つ。すなわち、発生した炭酸ガスが麺線外に放出され
る際、麺の表面組織に大きな亀裂を生じるため、麺線表
面に肌荒れが生じ、乾麺の商品価値が劣るものである。 (4)小麦粉中のフラボノイド色素が、アルカリにより
発色し、麺の色相が劣化する。2. Description of the Related Art Conventional fast-boiled noodles are disclosed in Japanese Patent Application Laid-Open Nos. 50-89555 and 622-2.
As described in No. 5946, etc., the entire structure of the noodle strings has a rough structure formed by the foaming action of carbon dioxide gas due to the reaction between the alkaline gas generating base and the acid agent. Had disadvantages. (1) When boiling the noodles, the dissolution of the starch granules is remarkable, which is uneconomical. (2) The texture of the noodles is poor, so the chewing feeling is poor. (3) Since the texture of the noodles is coarse, the surface roughness of the noodle strings is noticeable. That is, when the generated carbon dioxide gas is released outside the noodle strings, a large crack is generated in the surface structure of the noodle strings, so that the surface of the noodle strings becomes rough and the commercial value of the dried noodles is inferior. (4) Flavonoid pigments in flour develop color due to alkali, and the hue of the noodles deteriorates.
【0003】[0003]
【課題を解決するための手段】この発明は以上の欠点を
解消するためになされたもので、下記の請求項により構
成されている。SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned drawbacks, and is constituted by the following claims.
【0004】請求項1:ガス発生基剤を含有する麺帯
を、通常配合の麺帯でサンドイッチ構造とし、麺線の内
部組織のみを発泡させて粗の状態とすることを特徴とす
る早茹で性を有する乾麺の製造方法。Claim 1: A noodle band containing a gas generating base has a sandwich structure with a noodle band of a normal blend, and only the internal structure of the noodle band is foamed to obtain a rough state. A method for producing dry noodles having properties.
【0005】請求項2:ガス発生基剤が、炭酸水素アル
カリ及び遅効性の酸剤である請求項1に記載する早茹で
性を有する乾麺の製造方法。より構成されている。In a preferred embodiment, the gas generating base is an alkali bicarbonate and a slow-acting acid, and the method for producing dry-boiled noodles having a quick-boilability. It is composed of
【0006】[0006]
【発明の実施の形態】以下にその例を示して本発明を具
体的に説明するとともに、従来例で得られた乾麺、およ
び先行技術に見られる発泡作用を施したものとの性状比
較を行なった結果を示す。BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be specifically described below with reference to examples, and the properties of dry noodles obtained in a conventional example and those subjected to a foaming action seen in the prior art will be compared. The results are shown below.
【0007】[0007]
実施例 小麦粉100重量%、食塩5重量%、GDL(グルコノ
デルタラクトン)5重量%、炭酸水素ナトリウム2.2
重量%に加水し、混捏、荒出しした粗麺帯(厚さ4.0
mm)を作成した。一方、小麦粉100重量%、食塩5
重量%に加水し、混捏、荒出しした粗麺帯(厚さ2.0
mm)を作成し、これを上記厚さ4.0mmの粗麺帯の
両側にサンドイッチ状に複合し、圧延した後、角8番の
切刃にて切り出した。そしてこの生麺線(厚さ1.7m
m、幅3.75mm)を所定量づつ竿掛けした後、温度
28℃、相対湿度75%RHの条件下で12時間乾燥
し、続いて温度30℃、相対湿度65%RHの条件下で
3時間仕上げ乾燥を行ない、目的とするうどん乾麺(含
有水分13.5%)を得た。なおこのサンプルは、乾燥
中において発泡作用による膨化現象を生じ、うどん乾麺
の厚さは1.8mmと、乾燥前の生麺線より厚いものと
なった。Example 100% by weight of flour, 5% by weight of salt, 5% by weight of GDL (glucono delta lactone), 2.2% of sodium hydrogen carbonate
Weight noodles, kneaded and roughed coarse noodles (thickness 4.0
mm). On the other hand, flour 100% by weight, salt 5
Weight noodles, kneaded and roughed coarse noodles (thickness 2.0
mm) was prepared, this was compounded in a sandwich shape on both sides of the 4.0 mm-thick coarse noodle strip, rolled, and then cut out with a No. 8 cutting blade. And this raw noodle line (1.7m thick
m, width 3.75 mm), and dried for 12 hours at a temperature of 28 ° C. and a relative humidity of 75% RH, followed by drying at a temperature of 30 ° C. and a relative humidity of 65% RH. Time finish drying was performed to obtain the desired udon dry noodles (containing 13.5% water). In this sample, the swelling phenomenon due to the foaming action occurred during drying, and the thickness of the dried noodles was 1.8 mm, which was thicker than the raw noodle strings before drying.
【0008】参考までに、上記実施例でのうどん乾麺の
製造工程のフローチャートを図1に示す。 対照例1 小麦粉100重量%、食塩5重量%に加水し、混捏、荒
出し、複合、圧延した後、角8番の切刃にて切り出した
生麺線(厚さ1.7mm、幅3.75mm)を所定量づ
つ竿掛けした後、温度28℃、相対湿度75%RHの条
件下で12時間乾燥し、続いて温度30℃、相対湿度6
5%RHの条件下で3時間仕上げ乾燥を行ない、うどん
乾麺(含有水分13.5%)を得た。一般的に乾燥中の
収縮により、乾麺の厚さは乾燥前の生麺線より薄いもの
となる。このサンプルにおいても同様の現象が生じ、厚
さは1.6mmと乾燥前の生麺線よりも薄いものとなっ
た。 対照例2 小麦粉100重量%、食塩5重量%、GDL(グルコノ
デルタラクトン)2.5重量%、炭酸水素ナトリウム
1.1重量%に加水し、混捏、荒出し、複合、圧延した
後、角8番のロールにて切り出した生麺線(厚さ1.7
mm、幅3.75mm)を所定量づつ竿掛けした後、温
度28℃、相対湿度75%RHの条件下で12時間乾燥
し、続いて温度30℃、相対湿度65%RHの条件下で
3時間仕上げ乾燥を行ない、うどん乾麺(含有水分1
3.5%)を得た。なおこのサンプルは、乾燥中におい
て発泡作用による膨化現象を生じ、うどん乾麺の厚さは
1.8mmと、乾燥前の生麺線より厚いものとなった。For reference, FIG. 1 shows a flow chart of the process for producing udon noodles in the above embodiment. Control Example 1 Raw noodles (thickness 1.7 mm, width 3.10 mm) cut into water with 100% by weight of flour and 5% by weight of salt, kneaded, roughened, composited, rolled, and then cut with a No. 8 cutting blade. 75 mm), and dried for 12 hours under conditions of a temperature of 28 ° C. and a relative humidity of 75% RH, followed by a temperature of 30 ° C. and a relative humidity of 6%.
Finish drying was performed for 3 hours under the condition of 5% RH to obtain udon dried noodles (water content: 13.5%). Generally, due to shrinkage during drying, the thickness of the dried noodles becomes thinner than the raw noodle strings before drying. The same phenomenon also occurred in this sample, and the thickness was 1.6 mm, which was thinner than the raw noodle string before drying. Control Example 2 Water was added to 100% by weight of flour, 5% by weight of salt, 2.5% by weight of GDL (glucono delta lactone) and 1.1% by weight of sodium hydrogen carbonate, kneaded, roughened, composited, rolled, Raw noodle strings cut with a No. 8 roll (thickness 1.7
mm, width 3.75 mm), and dried for 12 hours under conditions of a temperature of 28 ° C. and a relative humidity of 75% RH, and then dried under a condition of a temperature of 30 ° C. and a relative humidity of 65% RH. After finishing drying for a time, dry noodles (moisture content 1
(3.5%). In this sample, the swelling phenomenon due to the foaming action occurred during drying, and the thickness of the dried noodles was 1.8 mm, which was thicker than the raw noodle strings before drying.
【0009】実施例、対照例1および対照例2によって
得たそれぞれのうどん乾麺サンプル100gを沸騰水1
000ml中に投入して茹で、芯が無くなった時点を可
食状態とした。[0009] 100 g of each of the udon dried noodle samples obtained in the Examples, Control Examples 1 and 2 were mixed with boiling water 1
It was put into 000 ml and boiled. When the core disappeared, it was made edible.
【0010】また上記と同様のサンプル量、沸騰水量に
て、所定の時間茹でた後の茹で湯を蒸発乾燥固化させて
測定した茹で溶出率を表1に示す。[0010] Table 1 shows the boiling elution rate measured by evaporating, drying and solidifying boiling water after boiling for a predetermined time with the same sample amount and boiling water amount as described above.
【0011】[0011]
【表1】 表2に示す官能評価用紙を使用し、色相、肌荒れ、硬
さ、粘弾性、食味、総合評価の各項目について、12人
のパネラーに対し、対照例1を基準として、実施例、対
照例2の官能評価を行なった。評価は各項目ごとに基準
と同じときを0とし、基準より好ましければ+側に、劣
っていれば−側に採点するという方法で行なった。[Table 1] Using the sensory evaluation papers shown in Table 2, for each item of hue, rough skin, hardness, viscoelasticity, taste, and overall evaluation, Examples and Comparative Examples 2 were given to 12 panelists based on Comparative Example 1. Was subjected to sensory evaluation. The evaluation was performed in such a manner that each item was scored as 0 when it was the same as the standard, and scored on the + side if it was better than the standard, and scored on the-side if it was inferior.
【0012】またこの官能評価結果は対照例1の得点を
0とし、それぞれのデータの平均値の差について、対照
例1および対照例2に対する実施例の評価、また対照例
1に対する対照例2の評価それぞれについて危険率5%
にて検定を行ない、解析を行なった。結果を表3および
表4に示す。In the sensory evaluation results, the score of Comparative Example 1 was set to 0, and the difference between the average values of the data was evaluated for the examples of Comparative Example 1 and Control Example 2 and for Comparative Example 1 of Control Example 1. Risk rate 5% for each evaluation
The test was performed and analyzed. The results are shown in Tables 3 and 4.
【0013】[0013]
【表2】 [Table 2]
【0014】[0014]
【表3】 検定 ○:優れる方向に有意差あり −:有意差なし ×:劣
る方向に有意差あり (以下余白)[Table 3] Test ○: significant difference in superior direction-: no significant difference ×: significant difference in inferior direction (margin)
【0015】[0015]
【表4】 検定 ○:優れる方向に有意差あり −:有意差なし ×:劣
る方向に有意差あり サンプル評価結果 対照例1に対して対照例2および実施例は炭酸ガス発生
基剤の発泡作用により、ともに約40%近い茹で時間の
短縮が可能であるという結果となった。実施例において
は内部組織のみを発泡構造としたが、トータルのガス発
生基剤の添加量が等しいため、早茹で効果としては対照
例2と同等の値を示した。しかし、茹で溶出率について
見てみると、対照例2は茹で時間が短縮されたにもかか
わらず対照例1以上の値を示している。乾麺の製造工程
においては、麺線の乾燥中に組織のひずみによって麺線
表面に微細な亀裂が生じる。しかし対照例2においては
炭酸ガスの放出によってその亀裂が押し広げられ、ここ
から澱粉粒をはじめとする各種成分の溶出が著しいこと
を示している。[Table 4] Test :: significant difference in superior direction-: no significant difference ×: significant difference in inferior direction Sample evaluation results Compared to Control Example 1, both Control Example 2 and Examples are about the same due to the foaming action of the carbon dioxide generating base. The result was that the boiling time could be reduced by nearly 40%. In the example, only the internal structure had a foamed structure. However, since the total amount of the gas generating base added was equal, the effect of the early boiling was equivalent to that of the control example 2. However, looking at the boiling dissolution rate, Comparative Example 2 shows a value higher than that of Control Example 1 even though the boiling time was shortened. In the process of producing dry noodles, fine cracks are generated on the surface of the noodle strings due to strain of the tissue during drying of the noodle strings. However, in Comparative Example 2, the cracks were expanded by the release of carbon dioxide gas, indicating that the elution of various components including starch granules was remarkable.
【0016】しかし実施例においては溶出率が対照例
1、2の約半分に減少している。このことは、茹で時間
の短縮による煮崩れの抑制、および麺の内部組織のみを
多孔質としたことで成分の溶出が抑制された結果であ
り、うどん乾麺の経済性という点で優れたものであるこ
とがわかる。However, in the examples, the dissolution rate was reduced to about half that of the control examples 1 and 2. This is a result of suppressing boiling collapse by shortening the boiling time, and suppressing elution of components by making only the internal structure of the noodles porous, which is excellent in terms of the economics of udon dried noodles. You can see that there is.
【0017】参考までに、実施例と対照例2の麺の表面
を80倍に拡大した顕微鏡写真を参考写真1および参考
写真2として添付する。 官能評価結果 対照例1に対する対照例2の評価は、ほとんどの項目に
おいてマイナス側の結果を示し、なかでも色相、肌荒
れ、粘弾性、滑らかさの各項目においては、検定の結果
が有意であった。この結果はすべて発泡作用による亀裂
を有する麺の表面組織に起因するものであり、この評価
を文章で表すならば「亀裂の存在、およびそこからの澱
粉の溶出によって麺の表面の荒れ、ならびにベタつきが
生じており、その食感も組織の密度が低いため、咀嚼感
のないもの」と表現でき、この品質が劣ったものである
ことが確認された。For reference, photomicrographs obtained by enlarging the surfaces of the noodles of Example and Comparative Example 2 80 times are attached as Reference Photos 1 and 2. Sensory Evaluation Results The evaluation of Control Example 2 relative to Control Example 1 showed negative results in most items, and the results of the test were significant in each of the items of hue, rough skin, viscoelasticity, and smoothness. . All of these results are attributable to the surface texture of the noodles having cracks due to the foaming action. The texture of the tissue is low, and the texture is low, and therefore, there is no feeling of mastication. "It was confirmed that the quality was inferior.
【0018】実施例の対照例1に対する評価にはほとん
ど差が生じていないが、中でも滑らかさの項目において
は対照例1より好ましいという結果を示し、また検定に
おいて有意であった。Although there was almost no difference in the evaluation of the example with respect to the control example 1, the result was more favorable than the control example 1 in the item of smoothness, and was significant in the test.
【0019】また実施例の対照例2に対する評価におい
ては、肌荒れ、粘弾性、滑らかさの各項目に優れるとい
う結果が有意であり、また総合的に判断してみても対照
例2より優れるという結果を得た。In the evaluation of the control example 2 in the examples, the results that the respective items of skin roughness, viscoelasticity and smoothness are excellent are significant, and the results are that the evaluation is better than the control example 2 even when comprehensively judged. I got
【0020】つまり、ガス発生基剤を内部にのみ含有さ
せた麺は、組織全体が多孔質である麺に生じる各種の欠
点を補いながらも早茹で性を有し、しかもその品質は従
来品と変わらないどころか、茹で時間短縮により煮崩れ
が減少するために、滑らかさに優れる麺であることが確
認された。In other words, noodles containing a gas-generating base only inside have a quick-boilability while compensating for various drawbacks that occur in noodles having a porous structure as a whole, and the quality is higher than that of conventional products. On the contrary, it was confirmed that the noodles were excellent in smoothness because the boiling time was shortened to reduce boiling collapse.
【0021】サンドイッチ構造にする際の外層と内層の
麺厚比については、粗麺帯の形成が可能な範囲であれば
内層部の比率が相対的に高いほど早茹で効果は高い。粗
麺帯の麺厚は、製麺装置によりその形成可能な範囲が異
なるが、外層と内層の比率としては、外層:内層:外層
=1:1:1〜1:10:1の範囲が製麺性の点から好
ましい。Regarding the noodle thickness ratio between the outer layer and the inner layer when forming a sandwich structure, the higher the ratio of the inner layer portion is, the higher the boiling effect is, as long as a coarse noodle band can be formed. The noodle thickness of the coarse noodle belt varies depending on the noodle-making apparatus, but the ratio of outer layer to inner layer is as follows: outer layer: inner layer: outer layer = 1: 1: 1 to 1: 10: 1. Preferred from the viewpoint of noodle properties.
【0022】ガス発生基剤であるGDLおよび炭酸水素
ナトリウムの添加比率は、互いの反応によって中和する
よう、GDL:炭酸水素ナトリウム=1:0.44とす
るのが好ましい。The addition ratio of GDL and sodium bicarbonate, which are the gas generating bases, is preferably set to GDL: sodium bicarbonate = 1: 0.44 so as to neutralize each other.
【0023】ガス発生基剤の添加量は、多過ぎると製麺
中の過度な発泡作用により製麺性が低下する。そのた
め、小麦粉、澱粉、その他穀物原料の合計に対する添加
量としてGDLで0.5〜15重量%、炭酸水素ナトリ
ウムはその0.44倍量とするのが好ましい。また、表
5にガス発生基剤の添加量別の対照例1に対する早茹で
効果と製麺性における評価を記す。If the amount of the gas generating base is too large, the noodle-making properties are reduced due to excessive foaming action in the noodle-making. Therefore, it is preferable that the addition amount of GDL is 0.5 to 15% by weight and the amount of sodium hydrogen carbonate is 0.44 times as much as the total amount of wheat flour, starch and other cereal raw materials. Table 5 shows the evaluation of the effect of the quick boiling and the noodle-making property in Comparative Example 1 by the amount of the gas generating base added.
【0024】[0024]
【表5】 [Table 5]
【0025】[0025]
【発明の効果】この発明の早茹で性を有する乾麺、及び
その製造方法は以上のように構成したので下記の優れた
効果が得られる。 (1)麺線の内部組織のみを粗の状態とすることによっ
て、茹でる際に澱粉粒の流出を抑制することができるの
で経済的な麺が得られる上、茹で歩留の向上が図れる。 (2)麺線の外層が通常麺帯で構成されるので、咀嚼感
を維持できる。 (3)炭酸ガスの放出による麺線表面の肌荒れを防止で
きるので、外観が損なわれない。 (4)麺線の色相の劣化がマスキングできる。 (5)外層と内層の麺厚比を変えることにより、早茹で
効果の調整が可能である。As described above, the dry noodles having a quick boiling property and the method for producing the same according to the present invention have the following excellent effects. (1) By setting only the internal structure of the noodle strings to a coarse state, it is possible to suppress the outflow of starch granules during boiling, so that economical noodles can be obtained and the boiling yield can be improved. (2) Since the outer layer of the noodle strings is usually composed of a noodle band, the feeling of chewing can be maintained. (3) Roughness on the surface of the noodle strings due to release of carbon dioxide can be prevented, so that the appearance is not impaired. (4) The deterioration of the hue of the noodle strings can be masked. (5) By changing the noodle thickness ratio between the outer layer and the inner layer, the effect of early boiling can be adjusted.
【図1】この発明をうどん乾麺に適用した場合の製造工
程のフローチャートである。FIG. 1 is a flowchart of a manufacturing process when the present invention is applied to udon noodles.
Claims (2)
合の麺帯でサンドイッチ構造とし、麺線の内部組織のみ
を発泡させて粗の状態とすることを特徴とする早茹で性
を有する乾麺の製造方法。1. A noodle band containing a gas generating base is made into a sandwich structure with a noodle band of a normal blend, and only the internal structure of the noodle band is foamed to be in a rough state. A method for producing dry noodles.
遅効性の酸剤である請求項1に記載する早茹で性を有す
る乾麺の製造方法。2. The method according to claim 1, wherein the gas generating base is an alkali bicarbonate and a slow-acting acid.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP15863196A JP3151602B2 (en) | 1996-06-19 | 1996-06-19 | Method for producing dry-boiled noodles having quick boiling property |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP15863196A JP3151602B2 (en) | 1996-06-19 | 1996-06-19 | Method for producing dry-boiled noodles having quick boiling property |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH104898A true JPH104898A (en) | 1998-01-13 |
| JP3151602B2 JP3151602B2 (en) | 2001-04-03 |
Family
ID=15675938
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP15863196A Expired - Fee Related JP3151602B2 (en) | 1996-06-19 | 1996-06-19 | Method for producing dry-boiled noodles having quick boiling property |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3151602B2 (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP5302470B1 (en) * | 2013-01-08 | 2013-10-02 | ▲たか▼田 伸子 | Dried Japanese-style wheat kneaded food and method for producing the dried Japanese-style wheat kneaded food |
| KR20220083893A (en) * | 2020-12-11 | 2022-06-21 | 주식회사 팔도 | A manufacturing method of instant fried noodle with reduced starch elution and a instant fried noodle thereof |
-
1996
- 1996-06-19 JP JP15863196A patent/JP3151602B2/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP5302470B1 (en) * | 2013-01-08 | 2013-10-02 | ▲たか▼田 伸子 | Dried Japanese-style wheat kneaded food and method for producing the dried Japanese-style wheat kneaded food |
| KR20220083893A (en) * | 2020-12-11 | 2022-06-21 | 주식회사 팔도 | A manufacturing method of instant fried noodle with reduced starch elution and a instant fried noodle thereof |
Also Published As
| Publication number | Publication date |
|---|---|
| JP3151602B2 (en) | 2001-04-03 |
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