JPH11103782A - Frozen food - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain frozen food that has the soft scooping properties, even immediately after it is taken out of a refrigerator, and moderate sweetness and is excellent in taste, coolness and texture by giving the frozen food a prescribed level of hardness. SOLUTION: This frozen food has a hardness of <=6 kgf at -20 deg.C and contains sugar alcohols as xylitol in an amount of 2-30 wt.%. This frozen food is prepared by formulating 2-30 wt.% of xylitol to the starting mix containing butter, skim milk powder, an emulsifier as glycerol fatty acid ester, a stabilizer as sodium alginate, water and the like.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a method for producing -20 to -30.degree.
The present invention relates to a frozen dessert having a soft scoop property even immediately after being taken out of a freezer of the present invention and a method for producing the same.

[0002]

2. Description of the Related Art Ice cream is favored by everyone because of its cooling sensation, unique flavor, good mouthfeel when put in the mouth, and texture with moderate hardness. . However, since ice cream is hardened at -20 ° C or lower and stored at that temperature, when it is taken out of the freezer and immediately scooped with an ice cream scoop, etc., or eaten with a spoon, it is too hard to scoop, It must be left at room temperature for a while. Also, as described above, when the ice cream is left at room temperature, when the vicinity of the center becomes hard enough to scoop up, the ice cream on the outer periphery becomes too soft and becomes creamy, and the ice cream is cold and moderate. Hard texture is lost. In view of this, ice cream that has a good spoon quality (soft scoop property) even after being taken out of the freezer has been studied. For example, a method in which only glucose is used as a sweetener of a raw material mix, which is added at 30% by weight or more based on the amount of water and frozen, and a method of adding 29% by weight or less of glucose and 1 to 12% by weight of glycerin (Japanese Patent Application Laid-Open JP-A-56-23850, JP-A-56-
23851), glucose 10 to 45 with respect to water content
An ice crystal control composition comprising 30% by weight of at least 30% by weight of at least one of sucrose, isomerized sugar, invert sugar, fructose, starch syrup, maltose, lactose, or sorbite, malbit, reduced starch decomposed product No. 59-102359). The former is not preferable because ice cream containing 30% by weight or more of glucose is too sweet and the texture is rough due to the precipitation of sugar, although the spoon is good. In addition, although the latter is good as a spoon, since other sugars and sugar alcohols are added together with glucose, the sweetness is too strong, which is not preferable.

[0003]

DISCLOSURE OF THE INVENTION The present invention relates to -20 to 20.
A main object of the present invention is to provide a flavored frozen dessert having a soft scoop property and having an appropriate sweetness even immediately after being taken out of a freezer at −30 ° C., and a method for producing the same.

[0004]

Means for Solving the Problems The present inventors have conducted intensive studies in view of the above problems, and as a result, by adding a certain amount of xylitol to a frozen dessert mix, the dessert has a soft scoop property and a good flavor. Is obtained,
The present invention has been completed. Xylitol has a molecular weight of 1
52 sugar alcohols. In general, glucose used as a sweetener for food has a molecular weight of 180 and sucrose has a molecular weight of 342, and xylitol has a smaller molecular weight than these sweeteners. For this reason, when xylitol is added to the frozen dessert mix, even when it is added at the same weight concentration, the molar concentration becomes higher. Therefore, the effect of lowering the freezing point is increased, and the cooling temperature of the normal frozen dessert (−20 to −3)
Even at 0 ° C.), the resulting frozen dessert has a soft scoop property and an appropriate hardness (6 kgf or less).
In addition, the frozen dessert usually manufactured is about 1 at -20 degreeC.
Indicates 0 kgf. Similarly to xylitol, erythritol has a small molecular weight. However, if ice cream is produced by adding erythritol, ice crystals are easily separated, so that ice cream having a soft scoop property cannot be produced by adding only erythritol.

According to the present invention, the hardness at -20.degree.
The present invention relates to a soft dessert having a soft scoop property of not more than f. The present invention also provides for the use of
The present invention relates to a frozen dessert having a soft scoop property, containing 0% by weight and having a hardness at -20 ° C of 6 kgf or less. The present invention also relates to a frozen dessert having a soft scoop property, wherein the sugar alcohol is xylitol. The present invention also relates to a method for producing frozen desserts, which comprises mixing 2 to 30% by weight of xylitol in a raw material mix in the production of frozen desserts.

[0006]

BEST MODE FOR CARRYING OUT THE INVENTION The frozen dessert having a soft scoop property of the present invention can be prepared according to a usual method for producing a frozen dessert except that xylitol is added to a raw material mix as a sweetener. First, a raw material mix is prepared. The present invention can be applied to any frozen dessert mix such as a sherbet mix, an ice cream mix, an ice milk mix, and a lacto ice mix. For example, raw milk,
Ice cream mix raw material consisting of fresh cream, butter, whole fat condensed milk, skim condensed milk, skim milk powder, sugar, powdered starch syrup, emulsifier, stabilizer, water, and xylitol are put into a powder dissolving machine to disperse the powder raw material into a liquid raw material. Dissolve and sterilize using a plate sterilizer at 85-90 ° C for 15-30 seconds. The addition range of xylitol is 2 to 30% by weight.
Preferably it is 5 to 15% by weight. If the addition amount is 2% by weight or less, the effect of softening the ice cream cannot be obtained, which is not preferable. On the other hand, if the added amount is 30% by weight or more, xylitol precipitates and ice cream does not harden, which is not preferable. The mixture is put into a homogenizer, homogenized at a homogenizing pressure of 200 kg / cm ² , passed through a plate sterilizer again, cooled to 5 ° C. or lower, and aged in a storage tank overnight. Next, the prepared raw material mix is frozen. Freezing may be performed using a known device that is usually used for freezing ice cream. At this time, the overrun may be appropriately adjusted, but the higher the overrun, the softer the texture of the obtained frozen dessert becomes. The frozen dessert having the soft scoop property of the present invention can be obtained by appropriately filling a container with the raw material mix that has undergone the freezing step, curing the raw material mix at −20 ° C. or lower, and then storing at −20 ° C. to −30 ° C.

[0007]

Embodiment 1 The present invention will be described in more detail with reference to the following embodiments. (1) Preparation of frozen dessert mix An ice cream mix was prepared according to the formulation shown in Table 1. Butter, skim milk powder, sugar or sugar alcohol, glycerin fatty acid ester as an emulsifier, sodium alginate as a stabilizer, and water were added to a powder dissolver, dispersed and dissolved. Use a plate sterilizer at 85 ° C
Sterilized. Next, the mixture was homogenized at a homogenous pressure of 200 kg / m ² , immediately passed through a plate sterilizer, cooled to 5 ° C., and aged overnight to prepare an ice cream mix. The sugars used were granulated sugar, isomerized sugar, glucose, starch syrup, and trehalose. The sugar alcohols were xylitol, sorbitol,
There are three types of erythritol.

[0008]

[Table 1]

(2) Preparation of ice cream The ice cream mix prepared above is put into a freezer, the overrun is set to 30%, and the rotation speed is set to 100%.
Spin at rpm for 15 minutes. This was filled into a cylindrical paper container having a height of 2 cm and a diameter of 7 cm, and was cured at -25 ° C overnight to obtain an ice cream. In addition, erythritol caused ice crystal separation during production, and ice cream could not be produced.

Test Example 1 The hardness of seven samples obtained in Example 1 was measured. The method for measuring the hardness is described below. The ice cream was taken out of the freezer, and a 5 mm cylindrical adapter of 1 mm was applied to each sample at −20 ° C. immediately using a Leona (Yamadensha).
At a rate of 1 / sec into the ice cream, the stress at the time of 1 cm penetration was measured, and the value (kgf) was regarded as hardness. Table 2 shows the results.

[0011]

[Table 2]

As is clear from Table 2, the texture of ice cream using saccharides or sugar alcohols having a small molecular weight tended to be soft. In particular, the one to which xylitol was added became the softest.

Example 2 In order to determine the lower limit of the amount of added xylitol, ice creams A to E were prepared according to Example 1 with the composition shown in Table 3. The total amount of powdered starch syrup and xylitol was 2 so that the water content did not affect the physical properties of ice cream.
The content was adjusted to 0.0% by weight.

[0014]

[Table 3]

Test Example 2 The hardness of the obtained samples A to E was measured. The measurement was in accordance with Test Example 1. Table 4 shows the results.

[0016]

[Table 4]

When xylitol was contained at 1% or more, the hardness was lower than that of the control (no xylitol added; A). When I actually eat it, I found that 2 xylitol
%, It was clearly easier to scoop with a spoon. From this, it was found that the effect of softening the tissue of the ice cream was obtained by adding 2% or more of xylitol.

Example 3 In order to determine the upper limit of the amount of xylitol to be added, F-J ice creams were prepared according to Example 1 with the composition shown in Table 5. In addition, J to which 35% of xylitol was added did not freeze during production, and thus ice cream could not be produced.

[0019]

[Table 5]

Test Example 3 The hardness of the obtained samples F to I was measured. The measurement was in accordance with Test Example 1. Table 6 shows the results.

[0021]

[Table 6]

As the amount of xylitol increases,
The ice cream has softened. 35 xylitol
% Cannot be used to produce ice cream.
The one containing 0% was very soft and easy to spoon. From this, it was found that the upper limit of the blending amount of xylitol was 30%.

[0023]

According to the present invention, a frozen dessert having a soft scoop property can be provided even immediately after being taken out of a freezer at -20 to -30 ° C. The frozen dessert of the present invention is obtained by blending xylitol in the raw material mix,
Despite having a soft scoop property, it has moderate sweetness and good flavor.

Claims (4)

[Claims] 1. A frozen dessert having a soft scoop property, having a hardness at −20 ° C. of 6 kgf or less. 2. The frozen dessert according to claim 1, which contains 2 to 30% by weight of a sugar alcohol. 3. The frozen dessert according to claim 1, wherein the sugar alcohol is xylitol. 4. A method for producing frozen desserts, wherein 2-30% by weight of xylitol is added to the raw material mix in the production of frozen desserts.