JP4420873B2 - Method for producing frozen food with jelly-like egg cooking - Google Patents

Description

  The present invention relates to a method for producing a jelly-like egg-cooked frozen food that has a soft and smooth texture that is moderately broken in the mouth even after being frozen and thawed.

  When cooking jelly-shaped egg cooked foods such as custard pudding or steamed rice cake with liquid eggs and heating with ingredients that contain a lot of water such as milk or broth, the protein in the liquid egg becomes soft and jelly-like while holding milk or broth. It utilizes the property of solidifying by heating. Such jelly-like egg cooked foods such as custard pudding and chawanmushi usually have a moisture content of 50% or more so that a soft and smooth texture can be obtained when they are eaten. The blending amount of the eggs is adjusted to about 5 to 50% in terms of raw product.

  Jelly egg cooked food such as custard pudding and steamed custard is convenient because it can be stored for a long time if it is frozen and frozen, but because it contains eggs, the physical properties are denatured by freezing, There is a problem that the soft and smooth texture that breaks down moderately in the mouth is impaired, resulting in a hard and rough texture that does not easily collapse in the mouth.

  As a method for preventing the deterioration of quality due to freezing and denaturation of cooked egg foods, for example, in Japanese Patent Application Laid-Open No. 7-39342 (Patent Document 1), an oil-in-water emulsion having a specific fat content is used as an egg processed food. A method of incorporating a specific amount therein has been proposed. Japanese Patent Laid-Open No. 2001-346508 (Patent Document 2) proposes a method of adding dextrin alcohol to a liquid egg used for an egg processed product.

  However, these techniques are mainly applied to egg cooked foods that have a relatively large amount of liquid eggs, such as fried eggs and omelets, and are hard and heat-coagulated. When these techniques were applied to an uncooked egg food that had a relatively low liquid egg content such as jelly, it was not possible to sufficiently prevent freezing and denaturation.

  On the other hand, as a commercially available dessert pudding, in addition to custard pudding made by mixing eggs and using the heat coagulation power of eggs, a coagulant such as gelatin or carrageenan is added to milk, and egg flavors are used. Milk pudding that has been flavored and coagulated in a jelly form is known. Since this milk pudding does not contain eggs, freeze-denaturation is hardly a problem even for frozen foods.

JP-A-7-39342 JP 2001-346508 A

  Therefore, an object of the present invention is to provide a method for producing a frozen jelly-cooked frozen food that has a soft and smooth texture that is properly broken in the mouth even after being frozen and thawed.

The present inventors have conducted intensive research, and the jelly-like egg cooked frozen food in which the moisture content of such a product is 50% or more and the blended amount of the liquid egg is 5 to 50% on a raw basis with respect to the product. Surprisingly, in the production method of the above, the liquid egg mixture prepared by mixing the heated and swollen carrageenan, the liquid egg, and dextrin and / or the reduced dextrin is cooked and stored after freezing and thawing. The present inventors have finally found that a jelly-like egg-frozen frozen food with a soft and smooth texture that breaks down moderately in the mouth can be obtained.
In other words, the present invention
(1) In the method for producing a jelly-like egg-frozen frozen food, wherein the water content of the product is 50% or more and the blended amount of the liquid egg is 5 to 50% in terms of the raw product, A method for producing a frozen food for cooking jelly-like eggs by cooking a liquid egg mixture prepared by mixing liquid eggs with dextrin and / or reduced dextrins into a jelly,
(2) The method for producing a frozen food for cooking jelly-like eggs according to (1), wherein the amount of carrageenan is 0.05% or more in terms of dry matter relative to the product,
(3) The method for producing a frozen food for cooking jelly-like eggs according to (1) or (2), wherein the total amount of dextrin and / or reduced dextrin is 1% or more based on the product,
It is.

  According to the method for producing frozen foods for cooking jelly-like eggs of the present invention, cooking jelly-like eggs such as custard pudding and steamed rice cakes that have a soft and smooth texture that collapses moderately in the mouth even after being frozen and thawed. Frozen food can be made. Therefore, in a restaurant or the like, it is very convenient because these frozen culinary foods such as custard pudding and steamed rice cake are stored in stock and can be provided simply by thawing them according to the order. .

  Hereinafter, the manufacturing method of the jelly-like egg cooking frozen food of this invention is explained in full detail. In the present invention, “%” means “mass%”.

  In the present invention, the jelly-like egg cooked food in which the moisture content of the product is 50% or more and the blended amount of the liquid egg is 5 to 50% in terms of the raw product is the moisture content of the product and the liquid egg. The liquid egg mixture adjusted so that the blending amount is in the above range is cooked and made into a jelly shape. Examples of such jelly-like egg cooked food include custard pudding that is made by cooking a liquid egg mixture obtained by adding milk or sugar to liquid egg yolk or whole liquid egg, Examples thereof include tea-boiled steamed egg yolk tofu and the like that are obtained by cooking the liquid egg mixture with seasonings and the like into a jelly form.

  The water content of the product is preferably 60% or more from the viewpoint of a softer texture that tends to collapse in the mouth when eaten. Further, the moisture content of the product is preferably 95% or less, more preferably 90% or less, because it becomes watery and difficult to form into a jelly even if it is too high. The water content of such products can be adjusted by increasing the blending amount of raw materials with relatively high water content such as fresh water and milk. The moisture content in the present invention is a value measured according to the reduced pressure heating drying method described in the third column of Appendix 2 of the Nutrition Labeling Standard (April 24, 2003, Ministry of Health, Labor and Welfare Notification No. 176).

  In addition, the blended amount of the liquid egg is 5 to 50% in terms of raw product, but is preferably 7% or more, more preferably 10% or more, from the point of increasing the egg flavor. From the point of giving a softer texture that easily breaks in the mouth when done, it is preferably 45% or less, more preferably 40% or less. Here, the liquid egg is a liquid whole egg made by splitting and melting the raw shell eggs, and a liquid egg yolk made by splitting the raw eggs with shells to separate the yolk and the egg white and melting them separately. , Liquid egg white and mixtures thereof, and dried eggs that have been rehydrated so as to have the water content of raw liquid eggs before drying. And those that have been treated to reduce cholesterol, those that have been sterilized by batch sterilization tanks, plate heat exchangers, joule heating devices, etc., those that have been subjected to various treatments such as desugaring and desalting, etc. Also good.

  The present invention provides a liquid egg to be cooked in the method for producing a frozen food for jelly-like egg cooking, wherein the water content of such a product is 50% or more and the blended amount of the liquid egg is 5 to 50% of the product. As the mixed solution, a mixture of heat-swelled carrageenan, liquid egg, dextrin and / or reduced dextrin is used.

  The heat-swelled carrageenan used in the present invention is a product obtained by dispersing carrageenan in an aqueous medium and heating the carrageenan until the temperature reaches 70 ° C. or higher to swell the carrageenan. Carrageenan has a property of swelling when heated to 70 ° C. or higher in an aqueous medium. However, in the present invention, carrageenan is not heated and swollen in an aqueous medium in advance. By using it, combined with the use of dextrin and / or reduced dextrin as described later, it is possible to prevent freezing and denaturation. As a result, even after thawing after freezing, it is soft and smooth to collapse properly in the mouth. A jelly-like egg-cooked frozen food having a good texture can be produced. On the other hand, when carrageenan in a dry matter state is simply used, the carrageenan swells when cooked in the liquid egg mixture, and the protein in the liquid egg affects and swells sufficiently. This is because, as shown in the comparative example described later, it is not possible to prevent freezing and denaturation, and even after thawing after freezing, the jelly-like egg that has a soft and smooth texture that collapses properly in the mouth Unable to produce cooked frozen food.

  Specifically, the heat-swollen carrageenan can be produced as follows. First, prepare carrageenan and an aqueous medium. As the aqueous medium, water is the main component, preferably fresh water, but it is preferable to use a soup stock, milk or the like having a water content of 80% or more. Next, the carrageenan is dispersed in a sufficient amount of an aqueous medium for swelling the carrageenan, specifically, preferably 10 mass times or more, more preferably 50 mass times or more of the dry matter carrageenan. Make a dispersion. At this time, since the carrageenan is difficult to disperse if the temperature of the aqueous medium is too high, the carrageenan is preferably dispersed in an aqueous medium of 65 ° C. or less, more preferably 60 ° C. or less. Subsequently, the carrageenan dispersion is heated using a kneader, a double kettle, or the like, and is heated to 70 ° C. or higher to swell the carrageenan, whereby an aqueous solution containing the heat-swelled carrageenan can be produced. In the present invention, when heat-swollen carrageenan, liquid egg, dextrin and / or reduced dextrin are mixed, the heat-swollen carrageenan may be used in the form of an aqueous solution. When heating the carrageenan dispersion to 70 ° C. or higher, use a kneader equipped with a stirrer, a double kettle or the like, preferably while stirring with stirring speed of 1 to 60 rpm. Then, the density unevenness in the carrageenan aqueous solution is eliminated, and it can be mixed more uniformly with the liquid egg described later, which is preferable.

  As the carrageenan, iota carrageenan, kappa carrageenan and lambda carrageenan can be used alone or in combination thereof, but these carrageenans tend to reduce the coagulation power of eggs when cooked, In order to compensate for this and solidify in a jelly form, in the present invention, it is preferable to use at least iota carrageenan and / or kappa carrageenan having a gelling property.

  The compounding amount of carrageenan is preferably 0.05% or more, more preferably 0.1% or more in terms of dry matter relative to the product. Thus, a jelly-like egg-cooked frozen food in which freezing and denaturation is sufficiently prevented is preferable. The amount of carrageenan may be too high, but the texture may become hard or the smoothness may be lost. Therefore, it is preferably 3% or less, more preferably in terms of dry matter relative to the product. Is 1% or less.

  The dextrin used in the present invention is a product obtained by hydrolyzing starch, and reduced dextrin is a reduced product thereof. These dextrins include dextrin, starch saccharified product, starch decomposed product, and starch hydrolyzed product. Since the reduced dextrin is commercially available under the names of reduced dextrin, dextrin alcohol, sugar alcohol, etc., these can be used. These may be used alone or in combination. In the present invention, by using such dextrin and / or reduced dextrin, it is possible to prevent freezing and denaturation in combination with the use of the aqueous solution containing carrageenan which has been heated and swollen as described above. Even after thawing, a jelly-like egg cooked frozen food that has a soft and smooth texture that collapses moderately in the mouth can be produced. On the other hand, when dextrin and / or reduced dextrin is not used, freezing denaturation cannot be prevented, as shown in Comparative Examples described later, and it is moderate in the mouth even after refrigeration and thawing. It is not possible to produce a jelly-like egg cooked frozen food that has a soft and smooth texture.

  Among the dextrin and / or reduced dextrin, in the present invention, a dextrin having a DE value of 50 or less and / or a dextrin having a DE value of 50 or less from the viewpoint of obtaining a smoother and mouth-feeling texture by reducing stickiness. It is preferable to use a reduced product of Here, the DE value is an abbreviation for “dextrose equivalent” and is an index indicating the degree of hydrolysis of starch, and the lower the DE value, the lower the degree of hydrolysis and the higher the molecular weight. To do.

  The total amount of dextrin and / or reduced dextrin is preferably 1% or more, more preferably 3% or more. Thus, a jelly-like egg-cooked frozen food in which freezing and denaturation is sufficiently prevented is preferable. The total blending amount of dextrin and / or reduced dextrin is preferably 30% or less, more preferably 20%, because even if it is too much, the texture tends to be sticky or the taste tends to be too sweet. It is as follows. Moreover, the compounding quantity in the case of using liquid dextrin and reduced dextrin is the value converted into the solid content.

  In the present invention, a liquid egg mixture is prepared by mixing the above-described carrageenan that has been swollen with heat, liquid egg, and dextrin and / or reduced dextrin. There is no restriction | limiting in particular as a method of mixing, For example, it can mix by adjusting stirring conditions suitably to such an extent that it is not foamed using a stirring tank etc., and can mix. At this time, in the present invention, the heat-swelled carrageenan is used in the form of an aqueous solution. When the temperature of the aqueous solution containing the heat-swelled carrageenan is 70 ° C. or higher, the protein in the liquid egg is mixed with the liquid egg. Since it may become rough by heat denaturation, it is preferable to mix with the liquid egg after the product temperature of the aqueous solution containing the carrageenan which has been heated and swollen falls to 65 ° C. or lower. In addition, when iota carrageenan and / or kappa carrageenan is used as the carrageenan, if the product temperature of the aqueous solution containing the carrageenan that has been heated and swollen decreases, the aqueous solution gels and becomes difficult to mix with liquid eggs and other raw materials. Therefore, it is preferable to mix with liquid eggs and other raw materials when the product temperature of the aqueous solution containing the carrageenan swollen by heating is 30 ° C. or higher.

  In addition to the raw materials described above, raw materials for the liquid egg mixture include dairy products such as milk and butter, animal and plant extracts such as bonito and kombu, seasonings such as soy sauce, salt and sodium glutamate, vinegar, and citric acid. Such materials as pH adjusting materials such as thickening polysaccharides, raw materials such as coloring agents, sweeteners and preservatives can be appropriately selected and used within a range not impairing the effects of the present invention.

  Next, a jelly-like egg cooked food can be produced by heating and cooking the produced liquid egg mixture into a jelly shape. The cooking is preferably performed by heating the product temperature of the liquid egg mixture to preferably 70 ° C. or higher so that the egg protein is heat denatured. Such heating cooking may be performed, for example, by filling the liquid egg mixture in a mold, a pouch or the like and heating it at 70 to 150 ° C. for about 10 to 60 minutes with a steamer or oven.

  Furthermore, a jelly-like egg cooked frozen food can be produced by freezing the produced jelly-like egg cooked food to obtain a frozen product. The freezing process may be performed by appropriately adjusting the conditions using a freezer. For example, it may be frozen by performing a freezing process for about 10 minutes to 3 hours at an ambient temperature of about −60 to −15 ° C. it can. The prepared jelly-like egg cooked frozen food can be thawed by heating and thawing with hot water or a microwave oven, or by thawing with running water.

  The jelly-like egg-frozen frozen food produced as described above is frozen and thawed, and its physical properties are denatured by freezing, resulting in a hard and rough texture that does not easily collapse in the mouth. It does not occur excessively, and has a soft and smooth texture that breaks down moderately in the mouth as before frozen storage.

  The reason for preventing the freezing and denaturation of the jelly-like cooked frozen food produced according to the present invention is not clear, but is presumed as follows. First, a jelly-like egg cooked food with a moisture content of a product of a certain amount or more and a relatively low amount of liquid egg contains a relatively small amount of egg protein compared to a hard-cooked egg with a relatively high amount of liquid egg. Since it has a jelly-like structure that is heated and coagulated with a large amount of water, it is considered that the water in the product is crystallized by freezing and the structure is easily destroyed. However, in the present invention, the heat denaturation of the protein in the liquid egg is carried out in a state in which carrageenan previously heated and swollen and dextrin and / or reduced dextrin are mixed. Therefore, these heat swollen carrageenan and dextrin and It is presumed that reduced dextrin is involved in the formation of a jelly-like tissue, thereby effectively suppressing freezing denaturation.

  Hereinafter, the manufacturing method of the jelly-like egg cooking frozen food of this invention is demonstrated concretely based on an Example and a comparative example. Note that the present invention is not limited to these examples and comparative examples.

[Example 1] (Custard pudding)
The following raw materials were prepared.
50kg of milk
Reduced dextrin (liquid) * 20
Liquid egg yolk 15
Iota Carrageenan 0.5
Shimizu 14.5
――――――――――――――――――――
100kg total
* Reduced dextrin: Raw dextrin DE value 15, solid content 70%, trade name "SE100", manufactured by Nikken Kasei Co., Ltd.

  First, among the raw materials, 10 kg of fresh water with a product temperature of 20 ° C. and 0.5 kg of iota carrageenan were introduced into a kneader equipped with a stirrer to produce a dispersion of iota carrageenan, which was stirred at a stirring speed of 20 rpm. The iota carrageenan was heated and swollen by stirring for 20 minutes until the product temperature reached 80 ° C., and an aqueous solution containing the swollen iota carrageenan was prepared. Next, after the aqueous solution containing the heated and swollen iota carrageenan is lowered to 60 ° C., the aqueous solution containing the heated and swollen iota carrageenan and the remaining raw materials, that is, 10.5 kg of the aqueous solution containing the heated and swollen iota carrageenan, 50 kg of milk, 20 kg of reduced dextrin (liquid), 15 kg of liquid egg yolk, and 4.5 kg of fresh water were put into a mixing tank and mixed to prepare a liquid egg mixture. Subsequently, 120 g of this liquid egg mixture was filled in a 150 cc capacity synthetic resin molded container, steamed with a steamer at an ambient temperature of 80 ° C. for 50 minutes, and then cooled to produce a custard pudding. The produced custard pudding has a moisture content of 71%, and the blending amount of raw materials for the product is 15% in terms of liquid egg, 0.5% in terms of dry matter, and 0.5% in terms of dry matter. The blending amount was 14%. When this custard pudding was eaten, it was preferable because it had a very soft and smooth texture that collapsed moderately in the mouth.

  Furthermore, this custard pudding was frozen for 60 minutes at an ambient temperature of −40 ° C. with a freezer to produce a frozen custard pudding. The prepared frozen custard pudding was stored at −20 ° C. for 1 month, and then thawed in a refrigerator at an ambient temperature of 10 ° C. for 12 hours. When this custard pudding was eaten, it was preferable because it had a very soft and smooth texture that collapsed moderately in the mouth as before frozen storage.

[Example 2] (Custard pudding)
In Example 1, the amount of reduced dextrin was reduced to 10 kg, and 7 kg of dextrin (solid, DE value 11, trade name “Paindex # 2” manufactured by Matsutani Chemical Industry Co., Ltd.) was newly added. A custard pudding was produced with the same composition and manufacturing method as in Example 1 except that the amount of fresh water was increased and corrected so that the amount was the same. The produced custard pudding has a moisture content of 71%. The raw material content of the product is 15% in raw egg, the carrageenan is 0.5% in dry matter, dextrin and reduced. The total amount of dextrin was 14%. When this custard pudding was eaten, it was preferable because it had a very soft and smooth texture that collapsed moderately in the mouth. Further, as in Example 1, this custard pudding was frozen to produce a frozen custard pudding, which was frozen and stored after thawing. It was very soft and had a smooth texture, which was preferable.

[Example 3] (Custard pudding)
In Example 1, 14 kg of dextrin (same as that used in Example 2) was blended instead of reducing dextrin, and corrected by increasing the blending amount of fresh water so that the total blending amount was the same Prepared the custard pudding with the same composition and manufacturing method as Example 1. The produced custard pudding has a moisture content of 71%. The raw material content of the product is 15% in raw egg, the carrageenan is 0.5% in dry matter, and the dextrin is mixed. The amount was 14%. When this custard pudding was eaten, it was preferable because it had a very soft and smooth texture that collapsed moderately in the mouth. Further, as in Example 1, this custard pudding was frozen to produce a frozen custard pudding, which was frozen and stored after thawing. It was very soft and had a smooth texture, which was preferable.

[Example 4] (Custard pudding)
In Example 1, the custard pudding was manufactured with the same composition and manufacturing method as Example 1 except having reduced the compounding amount of iota carrageenan to 0.25 kg and newly adding 0.25 kg of kappa carrageenan. Custard pudding was produced with the same formulation and production method as in Example 1. The produced custard pudding has a moisture content of 71%, and the blending amount of raw materials for the product is 15% in terms of liquid egg, 0.5% in terms of dry matter, and 0.5% in terms of dry matter. The blending amount was 14%. When this custard pudding was eaten, it was preferable because it had a very soft and smooth texture that collapsed moderately in the mouth. Further, as in Example 1, this custard pudding was frozen to produce a frozen custard pudding, which was frozen and stored after thawing. It was very soft and had a smooth texture, which was preferable.

[Example 5] (Custard pudding)
In Example 1, custard pudding was manufactured by the same composition and manufacturing method as Example 1 except having used kappa carrageenan instead of iota carrageenan. The produced custard pudding has a moisture content of 71%, and the blending amount of raw materials for the product is 15% in terms of liquid egg, 0.5% in terms of dry matter, and 0.5% in terms of dry matter. The blending amount was 14%. When this custard pudding was eaten, it was preferable because it had a very soft and smooth texture that collapsed moderately in the mouth. Further, as in Example 1, this custard pudding was frozen to produce a frozen custard pudding, which was frozen and stored after thawing. It was very soft and had a smooth texture, which was preferable.

[Example 6] (tea steaming)
The following raw materials were prepared.
Liquid whole egg 25kg
Reduced dextrin (liquid) * 15
Iota Carrageenan 1
Comb extract 0.5
Salt 0.5
Shimizu 58
――――――――――――――――――――
100kg total
* Reduced dextrin: same as used in Example 1

  First, among the raw materials, 50 kg of fresh water having a product temperature of 20 ° C. and 1 kg of iota carrageenan are put into a kneader equipped with a stirrer to produce a dispersion of iota carrageenan, which is stirred at a stirring speed of 20 rpm. While heating over 30 minutes until the product temperature reached 80 ° C., the iota carrageenan was heated and swollen to prepare an aqueous solution containing the heated swollen iota carrageenan. Next, after the aqueous solution containing the heated and swollen iota carrageenan has dropped to 60 ° C., the aqueous solution containing the heated and swollen iota carrageenan and the remaining raw materials, that is, 51 kg of the aqueous solution containing the heated and swollen iota carrageenan, 25 kg of eggs, 15 kg of reduced dextrin (liquid), 0.5 kg of kombu extract, 0.5 kg of salt and 8 kg of fresh water were put into a mixing tank and mixed to prepare a liquid egg mixture. Subsequently, 120 g each of this liquid egg mixture was filled in a 150 cc capacity synthetic resin molded container, steamed with a steamer at an ambient temperature of 90 ° C. for 40 minutes, and then cooled to produce tea fumigation. The moisture content of the tea fumig made is 82%, and the amount of raw material for the product is 25% in raw egg, the amount of carrageenan is 1% in dry matter, and the amount of reduced dextrin is It was 10.5%. When this chawanmushi was eaten, it was preferable because it had a very soft and smooth texture that collapsed moderately in the mouth.

  Furthermore, this tea fumigation was subjected to a freezing treatment at an ambient temperature of −40 ° C. for 60 minutes with a freezer to produce a frozen tea fumigation. Frozen tea fumigated and stored at -20 ° C for 1 month, thawed in a refrigerator with an ambient temperature of 10 ° C for 12 hours, and then warmed in a microwave to eat. It had a very soft and smooth texture that collapsed moderately.

[Comparative Example 1]
In Example 1, custard pudding was manufactured by the same composition and manufacturing method as Example 1 except that carrageenan was not pre-heated and swollen and mixed with liquid egg in a dry matter state. That is, 50 kg of milk, 20 kg of reduced dextrin (liquid), 15 kg of liquid egg yolk, 0.5 kg of iota carrageenan and 14.5 kg of fresh water are mixed in a mixing tank, which is a blended raw material of Example 1, to produce a liquid egg mixture. Using this liquid egg mixture, cooking was carried out in the same manner as in Example 1 to produce custard pudding. The produced custard pudding has a moisture content of 71%, and the blending amount of raw materials for the product is 15% in terms of liquid egg, 0.5% in terms of dry matter, and 0.5% in terms of dry matter. The blending amount was 14%. When this custard pudding was eaten, it had a soft and smooth texture that collapsed moderately in the mouth. Further, as in Example 1, this custard pudding was frozen to produce a frozen custard pudding, which was frozen and stored after being thawed and eaten. It was hard and not easily collapsed in the mouth, and it was not smooth. The texture was rough and undesirable.

[Comparative Example 2]
In Example 1, custard pudding was produced by the same composition and manufacturing method as Example 1 except that the reduced dextrin was not blended and the decrease was corrected by increasing the blending amount of fresh water. The produced custard pudding had a moisture content of 85%, and the blending amount of the raw material with respect to the product was 15% in terms of raw egg and 0.5% in terms of dry matter. When this custard pudding was eaten, it had a soft and smooth texture that collapsed moderately in the mouth. Furthermore, as in Example 1, this custard pudding was frozen to produce a frozen custard pudding, which was frozen and stored after thawing, and it was hard and difficult to collapse in the mouth. Further, it had a good texture and a large amount of water separation occurred, which was watery and undesirable.

  From the above, the jelly-like egg cooking refrigeration of Examples 1 to 6 in which the liquid egg mixture prepared by mixing the heat-swelled carrageenan, the liquid egg, and dextrin and / or reduced dextrin is cooked to form a jelly. It can be understood that the food has a soft and smooth texture that is moderately broken in the mouth even after being frozen and thawed. On the other hand, the comparative product of Comparative Example 1 that is not heated and swollen in advance and is used in a dry matter state, and the comparative product of Comparative Example 2 that does not use dextrin and / or reduced dextrin, are stored frozen and thawed. It became hard and rough texture that was hard to break down, and excessive water separation occurred, and the soft and smooth taste was damaged.

Claims (3)

In a method for producing a frozen jelly-egg frozen food in which the moisture content of the product is 50% or more and the blended amount of the liquid egg is 5 to 50% in terms of the raw product, A method for producing a frozen food for cooking jelly-like eggs, characterized in that a liquid egg mixture prepared by mixing dextrin and / or reduced dextrin is cooked to form a jelly. The manufacturing method of the jelly-like egg cooking frozen food of Claim 1 which makes the compounding quantity of carrageenan 0.05% or more in conversion of a dry matter with respect to a product. The manufacturing method of the jelly-form egg cooking frozen food of Claim 1 or 2 which makes the total compounding quantity of dextrin and / or reduced dextrin 1% or more with respect to a product.