JP5260571B2 - Method for producing mousse food and mousse food - Google Patents

Description

  The present invention relates to a method for producing a mousse food, specifically, a method for producing a mousse food that can be stored at room temperature. The present invention further relates to a mousse food, particularly a mousse food that can be stored at room temperature.

Moose refers to bubbles in French, and confectionery that has softness like a foam and a good mouthfeel is called mousse. A typical example of a mousse is one prepared by using a fruit juice such as a fruit puree, emulsifying it with a cream, and hardening it with gelatin. Various mousses can be classified as follows. (1) Mousse based on egg yolk and sugar or custard cream. In addition to milk, wine and fruit juice are also used as the moisture of the cream. If egg yolk and sugar are used as a base, heat and foam. This type of mousse generally uses a lot of Western liquor. (2) Mousse based on fruit puree. Various uses fruit and meringue and cream. (3) Chocolate mousse. Add melted chocolate to boiling water or milk and add egg yolk, meringue and cream.
As a specific example of mousse manufacturing method using fruit puree, fruit puree and granulated sugar are mixed, and powdered gelatin mixed with water is mixed with lemon juice, Western liquor, etc. There is a method of cooling until solidified, adding a whipped cream, and then cooling to solidify.

The conventional mousse has a problem in that it has a lot of moisture and has a weak structure, so that it loses its commercial value by losing its shape at room temperature and does not last for a long time due to microbial spoilage. For this reason, freezing or refrigeration conditions have been indispensable when storing, storing, distributing and selling mousses. Therefore, a product that can maintain the commercial value at room temperature is desired.
As a technique related to mousse-like food, for the purpose of simplifying the manufacturing method of mousse-like food, for example, it has been proposed to blend a pre-prepared chantilly-like cream with a fruit puree as a main component. (See Patent Document 1). Further, it has been proposed to produce a gel food composition by simply mixing a predetermined gel food preparation base and an aqueous composition containing calcium such as milk without heating. (See Patent Document 2). In addition, a book about making desserts describes how to make a pear mousse, for example (see Non-Patent Document 1, for example).
Even in view of such conventional technology, it is still desired to produce a product that can maintain the commercial value at room temperature.

JP-A-7-194309 JP 2008-86218 A

"Introduction to confectionery desserts" Kamakura Shobo, p. 67, May 10, 1981

  In view of the above problems, an object of the present invention is to provide a method for producing a mousse food that can be stored, stored, distributed, and sold while maintaining a good state at room temperature. It is another object of the present invention to provide a method for producing a mousse-like food product having a smooth and well-melted texture in addition to the above properties. Another object of the present invention is to provide a mousse food having a good texture that can be stored, stored, distributed, and sold while maintaining a good state at room temperature.

As a result of intensive research to achieve the above-mentioned problems, the present inventor determined that the water activity value and the sugar content value of the material mixture at a predetermined stage in the process of manufacturing the mousse-like food have a specific value. The inventors have found that a mousse-like food that can be stored while maintaining a good state and that has a good texture can be obtained, and the present invention has been completed.
Accordingly, the present invention is a method for producing a mousse-like food, comprising heating a mixture containing a coagulant, sugar and water to obtain a mixture having a water activity value of 0.92 or less and a sugar content value of 60 to 80 Brix%. A mixture comprising adding fruit juice and / or flavor to sucrose and then adding whipped cream to a water activity value of 0.92 or less and a sugar content value of 60 to 80 Brix%, and then solidifying the mixture It is.
In the mousse-like food production method, a more preferred embodiment is to heat a mixture containing a coagulant, saccharide and water to obtain a mixture having a water activity value of 0.90 or less and a sugar content value of 65 to 75 Brix%. A method comprising adding fruit juice and / or fragrance and then adding whipped cream to a water activity value of 0.90 or less and a sugar content value of 65 to 75 Brix%, and then solidifying the mixture is there.
According to the above method for producing a mousse-like food, a mousse-like food having a water activity value of 0.92 or less and a sugar content value of 60 to 80 Brix% can be obtained.
Therefore, the present invention further has a water activity value of 0.92 or less produced from a mixture comprising at least one selected from a coagulant, sugar, water, whipped cream, and fruit juice and flavor according to the above method, and It is directed to mousse foods having a sugar content of 60-80 Brix%. In the mousse-like food of the present invention, the water activity value is preferably 0.90 or less, and the sugar content value is in the range of 65 to 75 Brix%.

According to the production method of the present invention, it is possible to obtain a mousse-like food that can be stored, stored, distributed, and sold at normal temperature, for example, in a temperature range of 20 to 30 ° C. while maintaining a good state. Specifically, according to the method of the present invention, it is possible to obtain a mousse-like food in which microbial decay is suppressed, the shelf life is good, and the shape does not collapse and the commercial value is not lost even at room temperature.
In addition to the above properties, the mousse-like food produced by the production method of the present invention has a smooth texture with good mouth melt. The mousse food produced by the production method of the present invention can be stored in a refrigerated state.

The present invention is described in detail below.
The method for producing a mousse-like food according to the present invention comprises a step of heating a mixture containing a coagulant, saccharide and water to form a mixture having a water activity value of 0.92 or less and a sugar content value of 60 to 80 Brix%, And / or a step of adding a fragrance, then a step of adding whipped cream to obtain a mixture having a water activity value of 0.92 or less and a sugar content value of 60 to 80 Brix%, and a step of solidifying the mixture thus obtained Including.

<The process which heats the mixture containing a coagulant | flocculant, saccharide | sugar, and water, and makes a water activity value 0.92 or less and a sugar content value 60-80 Brix%>
Specific examples of the coagulant used in the present invention include agar (powder agar, thread agar, etc.), gelatin, gelling agent (eg pectin, carrageenan, alginic acid) and the like. Agar and carrageenan are preferably used as the coagulant.
Here, the use amount of the coagulant is appropriately 1 to 20% by mass with respect to the total mass of all materials, for example, the total mass of the coagulant, sugar, water, fruit juice and / or fragrance, and whipped cream, Preferably it is 2 to 15% of range. In particular, when agar is used, 1 to 10% by mass is appropriate, and preferably 2 to 8% by mass.

Specific examples of the saccharide used in the present invention include sucrose, granulated sugar, liquid sugar, tri-warm sugar, powdered sugar, brown sugar and the like. Examples of liquid sugars include high fructose liquid sugar, glucose fructose liquid sugar, fructose glucose liquid sugar, sugar mixed isomerized liquid sugar, oligosaccharide liquid sugar, and emulsified oligosaccharide.
These saccharides may be used alone or in combination of two or more. For example, granulated sugar and liquid sugar can be used in combination.
The amount of saccharide used is suitably 30 to 80% by mass, preferably 40%, based on the total mass of all materials, for example, the total mass of coagulant, saccharide, water, fruit juice and / or fragrance, and whipped cream. It is the range of -70 mass%.
When using saccharides other than liquid sugar (upper white sugar, granulated sugar, tri-warm sugar, powdered sugar, brown sugar, etc.) and liquid sugar, for example, when using granulated sugar and liquid sugar together, the total mass of all materials, for example, The amount of granulated sugar is suitably 10 to 30% by mass, preferably 15 to 25% by mass, based on the total mass of the coagulant, sugar, water, fruit juice and / or fragrance, and whipped cream. The sugar is suitably 25 to 45% by mass, and preferably 30 to 40% by mass.

The amount of water used is suitably 5 to 35% by mass, preferably 10%, based on the total mass of all materials, for example, the total mass of coagulant, sugar, water, fruit juice and / or fragrance, and whipped cream. It is the range of -30 mass%.
The amount of sugar used and the amount of water used are the water activity value and sugar content in a mixture obtained by heating a mixture containing a coagulant, sugar and water, and further in a mixture obtained by adding whipped cream as described later. It is a factor that gives a particular variation to the value. Therefore, from this viewpoint, it is desirable to appropriately select the amount of saccharide used and the amount of water used from the above range of amounts used.

In the process of heating a mixture containing a coagulant, saccharide and water to make a mixture with a water activity value of 0.92 or less and a sugar content of 60-80 Brix%, liquid sugar and other saccharides such as granulated sugar and white sugar are used in combination. First, a mixture containing a coagulant, a saccharide other than liquid sugar, and water is heated at a temperature of 90 ° C. or higher, for example until boiling, and then the liquid sugar is added in several portions, and the temperature of 80 ° C. or higher is added. It is appropriate to boil in. By doing so, scorching can be prevented. For this heating operation, a normal pan, copper pan, aluminum pan, stainless steel pan, or the like can be used. It is desirable to perform heating while stirring.
The heating temperature and heating time in the heating operation can be appropriately selected so that the mixture obtained here has a water activity value of 0.92 or less and the sugar content value is in the range of 60 to 80 Brix%.
It is confirmed that the mixture thus obtained has a water activity value of 0.92 or less. The mixture thus obtained preferably has a water activity value of 0.90 or less.
As a water activity measuring device to be used, for example, a measuring device by a vapor pressure method can be used, and an example thereof is a water activity measuring device by an electrolytic electric resistance humidity sensor method, and a specific example thereof is AVA-CENTER of NOVASINA. Is mentioned.

The mixture thus obtained is also confirmed to have a sugar content in the range of 60-80 Brix%. The sugar value is preferably in the range of 65 to 75 Brix%.
For the measurement of the sugar content, a refractive sugar meter, an optical sensor type sugar meter, or the like can be used. For example, a refractive sugar meter “MASTER-3α” manufactured by Atago Co., Ltd. can be used.

<Step of adding fruit juice and / or flavor>
Fruit juice and / or a fragrance are added to and mixed with a mixture containing a coagulant, saccharide and water having a water activity value of 0.92 or less and a sugar content value of 60 to 80 Brix% obtained as described above. The temperature of the mixture when adding fruit juice and / or fragrance is suitably in the range of 30 to 70 ° C.
Specific examples of the fruit juice used here include raw fruit juice, heat-sterilized fruit juice, and fruit puree. Moreover, it does not specifically limit as a kind of fruit, For example, strawberry, lemon, orange, banana, an apple, a pear, a raspberry, a blueberry, a mango, a fruit passion etc. are mentioned.
Examples of the fragrances include fruit fragrances such as strawberry fragrances, chocolate, and vanilla. You may use fruit juice and a fragrance | flavor together.
The amount of fruit juice and / or fragrance used is suitably 1 to 30% by mass based on the total mass of all ingredients, for example, the total mass of coagulant, sugar, water, fruit juice and / or fragrance, and whipped cream. , Preferably it is 1-20 mass%, More preferably, it is 2-15 mass%.
After adding fruit juice and / or fragrance, it may be heat-treated, and it is desirable to heat the mixture, particularly when fresh fruit juice is added. The heating temperature at that time is suitably 70 ° C. or higher and 90 ° C. or lower.

<Step of adding a whipped cream to obtain a mixture having a water activity value of 0.92 or less and a sugar content value of 60 to 80 Brix%>
Whipping cream is added to the mixture thus obtained. When the temperature of the mixture to which the whipped cream is added is high, the whipped cream is added and mixed after cooling, for example, within a range of 30 to 70 ° C.
The whipped cream to be added may be animal oil or vegetable oil, and vegetable oil is particularly preferred.
The amount of the whipped cream used is suitably 10 to 50% by mass with respect to the total mass of all materials, for example, the total mass of the coagulant, sugar, water, fruit juice and / or fragrance, and whipped cream, preferably 15 to 40% by mass.
The amount of whipped cream used is a factor that varies the water activity value and sugar content value of the mixture obtained in this step, and from this point of view, it is desirable to select it appropriately from the above range.
The operation of adding and mixing the whipped cream can be performed by mixing with an appropriate means such as a rubber spatula or using an apparatus such as a bread, a confectionery mixer or a kneader. The conditions for using the mixer are not particularly limited, and can be according to conventional methods.
About the mixture obtained by adding whipped cream, it confirms that a water activity value is 0.92 or less, and a sugar content value exists in the range of 60-80 Brix%. The water activity value and sugar content value can be measured using the same measuring machine as described above. Here, the water activity value is preferably 0.90 or less, and the sugar content value is in the range of 65 to 75 Brix%.

<Molding into mousse food>
The mixture (dough) thus obtained is filled into an appropriate mold and cooled to solidify. Here, the cooling temperature is suitably 20 ° C. or lower, preferably 10 ° C. or lower. As a specific example of the cooling operation, placing in a refrigerator for 30 minutes or more can be mentioned.
The mousse food product thus obtained can exhibit a water activity value of 0.92 or less, preferably a water activity value of 0.90 or less. Further, the mousse-like food can exhibit a sugar content value in the range of 60 to 80 Brix%, preferably a sugar content value in the range of 65 to 75 Brix%.
The water activity measuring device described above can be used to measure the water activity value of the mousse food, and the sugar meter described above can be used to measure the sugar content value.
The mousse-like food obtained by the production method of the present invention can be stored, distributed and sold at room temperature in a state of being contained in a sealed container.

[Example 1]
Strawberry mousse manufacturing material and blending amount Agar (powder agar (Ina Food Industry Co., Ltd.)) 24g
180g of granulated sugar
Liquid sugar 340g
(Isomaltooligosaccharide syrup, Hayashibara Shoji Co., Ltd.)
150g of water
20g strawberry flavor
Lemon juice 4g
280g of whipped cream
(Sun More Strawberry Whip Morinaga Milk Industry Co., Ltd.)
Strawberry mousse was produced according to the following procedure.
(1) Agar, granulated sugar and water were combined and heated until boiling (heating time was about 10 minutes).
(2) Liquid sugar was added in four portions.
(3) Then, it boiled at the temperature of 90 degreeC.
(4) The mixture thus obtained was confirmed to have a water activity value of 0.83 using a water activity measuring device AW-CENTER of NOVASINA. Furthermore, it confirmed that the sugar content value was 67 Brix% using the refraction-type sugar content meter ("MASTER-3 (alpha)" by Atago Co., Ltd.).
(5) Strawberry flavor and lemon juice were added to the mixture which was lowered from the fire and cooled to 50 ° C. There, whipped cream was added and combined with a rubber spatula. About the mixture obtained in this way, it confirmed that the water activity value was 0.88 using the said water activity measuring apparatus. Moreover, it confirmed that the sugar content value was 65 Brix% using the said sugar content meter.
(6) The mixture (dough) thus obtained was filled in a silicon mold and cooled in a refrigerator (5 ° C.) for 1 hour to solidify to obtain a mousse food.
(7) According to the water activity measuring apparatus and the sugar content meter, the water activity value of this mousse food was 0.88, and the sugar content value was 65 Brix%.

[Example 2]
Strawberry mousse production material and blending amount Agar (powder agar (Ina Food Industry Co., Ltd.)) 48g
180g of granulated sugar
Liquid sugar 340g
(Isomaltooligosaccharide syrup, Hayashibara Shoji Co., Ltd.)
150g of water
20g strawberry flavor
Lemon juice 4g
280g of whipped cream
(Sun More Strawberry Whip Morinaga Milk Industry Co., Ltd.)
Strawberry mousse was produced according to the following procedure.
(1) Agar, granulated sugar and water were combined and heated until boiling (heating time was about 10 minutes).
(2) Liquid sugar was added in four portions.
(3) Then, it boiled at the temperature of 90 degreeC.
(4) About the mixture obtained in this way, it was confirmed that the water activity value was 0.79 using the water activity measuring device AW-CENTER of NOVASINA. Furthermore, it confirmed that the sugar content value was 69 Brix% using the refractive type sugar content meter ("MASTER-3 (alpha)" by Atago Co., Ltd.).
(5) Strawberry flavor and lemon juice were added to the mixture which was lowered from the fire and cooled to 50 ° C. There, whipped cream was added and combined with a rubber spatula. About the mixture obtained in this way, it confirmed that the water activity value was 0.85 using the said water activity measuring apparatus, and also confirmed that the sugar content value was 66 Brix% using the said saccharimeter.
(6) The mixture (dough) thus obtained was filled in a silicon mold and cooled in a refrigerator (5 ° C.) for 1 hour to solidify to obtain a mousse food.
(7) According to the water activity measuring apparatus and the sugar content meter, the water activity value of this mousse food was 0.85, and the sugar content value was 66 Brix%.

[Example 3]
Strawberry mousse manufacturing materials and amount Carrageenan 30g
180g of granulated sugar
Liquid sugar 340g
(Isomaltooligosaccharide syrup, Hayashibara Shoji Co., Ltd.)
150g of water
20g strawberry flavor
Lemon juice 4g
280g of whipped cream
(Sun More Strawberry Whip Morinaga Milk Industry Co., Ltd.)
Strawberry mousse was produced according to the following procedure.
(1) Carrageenan, granulated sugar and water were combined and heated until boiling (heating time was about 10 minutes).
(2) Liquid sugar was added in four portions.
(3) Then, it boiled at the temperature of 90 degreeC.
(4) About the mixture obtained in this way, it was confirmed that the water activity value was 0.70 using the water activity measuring device AW-CENTER of NOVASINA. Furthermore, it confirmed that the sugar content value was 75 Brix% using the refractive type sugar content meter ("MASTER-3 (alpha)" made by Atago Co., Ltd.).
(5) Strawberry flavor and lemon juice were added to the mixture which was lowered from the fire and cooled to 50 ° C. There, whipped cream was added and combined with a rubber spatula. About the mixture obtained in this way, it confirmed that the water activity value was 0.83 using the said water activity measuring apparatus, and confirmed that the sugar content value was 66 Brix% using the said saccharimeter.
(6) The mixture (dough) thus obtained was filled in a silicon mold and cooled in a refrigerator (5 ° C.) for 1 hour to solidify to obtain a mousse food.
(7) According to the water activity measuring apparatus and the sugar content meter, the water activity value of this mousse food was 0.83, and the sugar content value was 66 Brix%.

[Comparative Example 1]
Strawberry mousse manufacturing material and blending amount Agar (powder agar (Ina Food Industry Co., Ltd.)) 24g
180g of granulated sugar
Liquid sugar 340g
(Isomaltooligosaccharide syrup, Hayashibara Shoji Co., Ltd.)
150g of water
20g strawberry flavor
Lemon juice 4g
800g of whipped cream
(Sun More Strawberry Whip Morinaga Milk Industry Co., Ltd.)
Strawberry mousse was produced according to the following procedure.
(1) Agar, granulated sugar and water were combined and heated until boiling (heating time was about 10 minutes).
(2) Liquid sugar was added in four portions.
(3) Then, it boiled at the temperature of 90 degreeC.
(4) About the mixture obtained in this way, it was confirmed that the water activity value was 0.85 using the water activity measuring device AW-CENTER of NOVASINA. Furthermore, it confirmed that the sugar content value was 65 Brix% using the refraction-type sugar content meter ("MASTER-3 (alpha)" made by Atago Co., Ltd.).
(5) Strawberry flavor and lemon juice were added to the mixture which was lowered from the fire and cooled to 50 ° C. There, whipped cream was added and combined with a rubber spatula. The mixture thus obtained was confirmed to have a water activity of 0.96 using the water activity measuring apparatus and a sugar content value of 58 Brix% using the saccharimeter.
(6) The mixture (dough) thus obtained was filled in a silicon mold and cooled in a refrigerator (5 ° C.) for 1 hour to solidify to obtain a mousse food.
(7) According to the water activity measuring apparatus and the sugar content meter, the water activity value of this mousse food was 0.96, and the sugar content value was 58 Brix%.

[Comparative Example 2]
Strawberry mousse manufacturing material and blending amount Agar (powder agar (Ina Food Industry Co., Ltd.)) 24g
180g of granulated sugar
Liquid sugar 340g
(Isomaltooligosaccharide syrup, Hayashibara Shoji Co., Ltd.)
500 g of water
20g strawberry flavor
Lemon juice 4g
800g of whipped cream
(Sun More Strawberry Whip Morinaga Milk Industry Co., Ltd.)
Strawberry mousse was produced according to the following procedure.
(1) Agar, granulated sugar and water were combined and heated until boiling (heating time is about 5 minutes).
(2) Liquid sugar was added in four portions.
(3) Then, it boiled at the temperature of 90 degreeC.
(4) About the mixture obtained in this way, it was confirmed that the water activity value was 0.93 using the water activity measuring device AW-CENTER of NOVASINA. Furthermore, it confirmed that the sugar content value was 54 Brix% using the refraction-type sugar content meter ("MASTER-3 (alpha)" by Atago Co., Ltd.).
(5) Strawberry flavor and lemon juice were added to the mixture which was lowered from the fire and cooled to 50 ° C. There, whipped cream was added and combined with a rubber spatula. The mixture thus obtained was confirmed to have a water activity of 0.94 using the water activity measuring apparatus and a sugar content value of 55 Brix% using the saccharimeter.
(6) The mixture (dough) thus obtained was filled in a silicon mold and cooled in a refrigerator (5 ° C.) for 1 hour to solidify to obtain a mousse food.
(7) According to the water activity measuring apparatus and the sugar content meter, the water activity value of the mousse-like food was 0.94, and the sugar content value was 55 Brix%.

The various mousse foods obtained as described above were subjected to a texture test and a storage stability test as follows.
<Method of eating texture test and its evaluation criteria>
A texture test was conducted by a sensory test on the various mousse foods produced as described above. The average score of 15 panelists was calculated according to the following evaluation criteria.
Evaluation criteria 5 points: Smooth and very good melting in the mouth 4 points: Smooth and good melting in the mouth 3 points: Normal melting in the mouth 2 points: Smoothness and poor melting in the mouth 1 point: Very smooth melting in the mouth

<Method of storage stability test and its evaluation criteria>
Various mousse foods produced as described above were stored at 30 ° C. for 5 days, visually observed and evaluated for the occurrence of mold, and evaluated for the presence or absence of shape collapse.
Criteria for occurrence of mold ○: No occurrence of mold ×: Criteria for occurrence of mold collapse ○: No shape collapse ×: Shape collapse

The following table shows the water activity value and sugar content value in the production process of the various mousse foods, and the results of the test.
Table 1

Claims (5)

  A method for producing a mousse food, comprising heating a mixture containing a coagulant, a saccharide and water to obtain a mixture having a water activity value of 0.92 or less and a sugar content value of 60 to 80 Brix%. A method comprising adding a fragrance and then adding a whipped cream to a mixture having a water activity value of 0.92 or less and a sugar content value of 60-80 Brix%, and then solidifying the mixture.   A mixture containing a coagulant, sugar and water is heated to obtain a mixture having a water activity value of 0.90 or less and a sugar content value of 65 to 75 Brix%, and fruit juice and / or fragrance is added to the mixture, and then whipped cream is added. The method according to claim 1, wherein the mixture has a water activity value of 0.90 or less and a sugar content value of 65 to 75 Brix%, and then the mixture is solidified.   The method according to claim 1 or 2, wherein the coagulant is selected from agar and carrageenan.   The method according to any one of claims 1 to 3, wherein the saccharide is at least one selected from sucrose, granulated sugar, liquid sugar, tri-warm sugar, powdered sugar and brown sugar.   The method according to claim 4, wherein a saccharide other than liquid sugar and liquid sugar are used in combination.