JP2007202417A - Oil-in-water emulsified substance for frozen dessert - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide oil-in-water emulsified substance for frozen dessert excellent in palate feeling, meltability in the mouth, flavor and retention of milk taste. <P>SOLUTION: The oil-in-water emulsified substance for frozen dessert contains oil and fat, non-fat milk solid and water, wherein the oil and fat contains S2L-type triglyceride (wherein, S in the formula is stearic acid and palmitic acid, and L is linoleic acid). The oil and fat content accounts for 2-20 wt.%, the oil and fat comprises non dairy cream [(A) type], or a combination of non dairy cream and dairy cream (B type). The S2L-type triglyceride in the (A) type oil and fat accounts for 1-20 wt.%, and the S2L-type triglyceride in the B type oil and fat accounts for 2-30 wt.%. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to improving the texture and milky taste sustainability of oil-in-water emulsions for frozen desserts such as ice cream, ice milk, and lacto ice.

In improving the texture, melting in the mouth and persistence of milky taste of ice creams, Patent Document 1 proposes the use of cocoa butter in a frozen dessert with the intention of sharp melting of fats and oils. However, fats and oils containing mainly symmetric triglycerides (SUS) such as cocoa butter are unstable in the emulsified state, the stability of the mixed liquid prepared in the manufacturing process of ice creams is poor, and the phenomenon of plasticity is exhibited. In addition, it tends to cause a demulsification phenomenon in the freezing process, and it has various disadvantages such as fat agglomeration and heavy melting of the product. Especially, this tendency is remarkable when the fat and oil content is high. It is. Furthermore, it is a limited flavor called cocoa flavor, and versatility that can be used for all frozen desserts cannot be expected.
Patent Document 2 proposes to use a mixed oil of palm oil 60 to 80% and palm oil 40 to 20% as a fat source in a frozen dessert. However, when there is much coconut oil, although it shows a sharp melting property, there is no richness in terms of texture and flavor. Palm oil or rapeseed oil is inexpensive but is not preferable in terms of melting in the mouth, and texture and texture as a frozen dessert are poor.
Patent Document 3 proposes a fat and oil for frozen desserts containing 95 to 40% fat and oil containing 40% or more of symmetric triglyceride (SUS) and 5 to 60% lauric fat and oil. This was effective for the sharpness and sharpness of melting in the mouth. The example which aimed at improvement of the food texture by the use of specific fats and oils like this invention, a mouth melt, the sustainability of milky taste cannot be seen.

JP-A-4-316453 JP 57-36943 A JP-A-8-298934

  An object of the present invention is to provide an oil-in-water emulsion for frozen desserts that is excellent in texture, mouth melt, flavor, and milky sustainability.

  As a result of intensive studies, the present inventors have achieved the object of the present invention and completed the present invention by using a specific amount of specific fat and oil, S2L type triglyceride in the fat and oil. That is, the first of the present invention is an oil-in-water emulsion containing fats and oils, non-fat milk solids and water, and S2L-type triglycerides in the fats and oils (wherein S is stearic acid and palmitic acid, L is linoleic acid) ) In an oil-in-water emulsion for frozen desserts. The second is the oil-in-water emulsion for frozen desserts according to the first aspect, wherein the fat and oil content is 2 to 20% by weight. Third, the fat is non-milk fat (A type) or non-milk fat and milk fat (B type), and in the case of the A type, the S2L type triglyceride in the fat is in the range of 1 to 20% by weight. Is the oil-in-water emulsion for frozen desserts according to the first aspect, in the range of 2 to 30% by weight.

  According to the present invention, it is possible to provide an oil-in-water emulsion for frozen dessert that has a texture, particularly a smooth texture, and is excellent in meltability in the mouth, flavor, and milky taste.

The oil-in-water emulsion for frozen desserts of the present invention is an oil-in-water emulsion containing fats and oils, non-fat milk solids and water, and S2L-type triglycerides in fats and oils (wherein S is stearic acid and palmitic acid, L Must contain linoleic acid).
According to the ministerial ordinance on milk and dairy product ingredients in Japan (Ministerial Ordinance for Milk, etc.), ice cream is called ice cream when its milk content is 15% or more and milk fat is 8% or more. It is specified that milk fat is 3% or more out of 10% or more and lacto ice is milk solid content of 3% or more.
In the present invention, “frozen confectionery” includes “ice cream”, “ice milk”, and “lacto ice”, and is similar to these.

The S2L type triglyceride referred to in the present invention is S is a saturated fatty acid of Stearic acid St and palmitic acid P, L is a polyunsaturated fatty acid of linoleic acid, L is SSL bonded to α-position, and β-position Any of bound SLS and mixtures thereof may be used, but SLS bound to the β-position is preferred.
The amount Y of S2L type triglyceride can be expressed as Y = Ys + Yp, Ys represents the amount of St2L type triglyceride, and Yp represents the amount of P2L type triglyceride.
S2L-type triglycerides are known as fats and oils rich in linoleic acid, such as safflower oil, sunflower oil, corn oil, rapeseed oil, soybean oil, especially the former two fats and esters or fatty acids rich in saturated fatty acids (stearic acid, palmitic acid). It is obtained by performing transesterification by a method and performing fractionation as necessary.
In addition, it is preferable to use S2L-containing oils and fats that are separated from oils and fats containing a large amount of S2L-type triglycerides, such as cottonseed oil, and contained in high concentrations, and the concentration is preferably 40% or more.

Examples of the fats and oils other than S2L type triglycerides in the present invention include animal and vegetable oils and fats and hardened fats and oils, or a mixture of two or more thereof, or those obtained by subjecting them to various chemical treatments or physical treatments. Such fats and oils include soybean oil, cottonseed oil, corn oil, safflower oil, olive oil, palm oil, rapeseed oil, rice bran oil, sesame oil, kapok oil, coconut oil, palm kernel oil, milk fat, lard, fish oil, whale oil, etc. Examples include various types of animal and plant oils and fats, processed oils and fats thereof such as hydrogenated oils, fractionated oils, and transesterified oils (having a melting point of about 15 to 40 ° C.).
The milk fat in the present invention includes butter oil obtained by processing these raw materials as well as milk fat derived from milk such as milk, fresh cream and butter.
The oil and fat content is preferably 2 to 20% by weight, more preferably 3 to 18% by weight, and most preferably 3 to 16% by weight.
If the oil and fat content is low, the flavor and richness of the oil-in-water emulsion for frozen desserts will be poor. When there is much oil and fat content, mouth meltability will worsen, food texture will become heavy, and the emulsification stability of a mix liquid will worsen.

The oil-in-water emulsion for frozen desserts of the present invention includes “ice cream”, “ice milk” and “lacto ice”, and is similar to these. In the case of trying to impart the amount of milk, conventionally, a method of increasing the amount of milk solids and particularly increasing the amount of milk fat has been adopted. In such contents, the fats and oils of the oil-in-water emulsion for frozen desserts can be roughly classified into three types: non-milk fat, non-milk fat, milk fat, and milk fat.
As the fats and oils for frozen dessert, it is used by appropriately selecting from the fats and oils listed in paragraph [0009], but in the case of non-milk fats, palm oil, palm oil, palm kernel oil, rapeseed oil, rice bran oil, soybean oil, cottonseed oil, It is preferable to use various fats and oils such as corn oil and fats and oils such as hardened oil, fractionated oil and transesterified oil. When these fats and oils were used, they melted in the mouth and were excellent in cold feeling, but the sustainability of the richness and milky taste was insufficient. By containing the S2L type triglyceride, the sustainability of the richness and milky taste can be obtained.
In the case of non-milk fat (A type), the content of S2L type triglyceride in the present invention is 1 to 20% by weight, more preferably 2 to 20% by weight, and most preferably 3 to 20% by weight. It is.
When the content of the S2L type triglyceride is small, it becomes difficult to obtain a smooth texture and the milky taste is poor. If it is too much, it will become smoother, but the balance with sweetness will deteriorate, which is not preferable. .
It is speculated that such an effect of the S2L type triglyceride is due to the unique crystal habit of the S2L type triglyceride that is not found in other oils and fats.

Even when milk fat is included in the fats and oils for frozen desserts, the effect of the S2L type triglyceride is not oily and sticky, and the sustainability of the milky taste can be derived by using the S2L type triglyceride. Even if the ratio of milk fat is small, the milk taste more than the added amount can be drawn, and the merit in cost is great. Moreover, since milk fat is animal, it is desirable to use plant nature also from a health viewpoint.
In the case of non-milk fat and milk fat (B type), the content of S2L type triglyceride in the present invention is 2 to 30% by weight, more preferably 3 to 30% by weight, and most preferably 4 to 30%. % By weight.
When there is little content of S2L type triglyceride, it will become a thing with insufficient sustainability of milky taste. If the amount is too large, the balance with sweetness is deteriorated.

  Oil-in-water emulsions for frozen desserts are oil-in-water emulsions containing fats and oils, non-fat milk solids and water, and use fats and oils, milk, dairy products, sweeteners, stabilizers, flavors, etc. as raw materials. And can be obtained by a conventional method for preparing an oil-in-water emulsion. Examples of frozen desserts include ice cream, ice milk, and lact ice.

  Non-fat milk solid content of the present invention refers to a component obtained by subtracting milk fat content from the total solid content of milk, raw milk, cow milk, skim milk, fresh cream, concentrated milk, sugar-free condensed milk, sweetened condensed milk, whole milk powder, Non-fat dry milk, buttermilk powder, whey protein, casein, sodium casein and other milk-derived raw materials can be exemplified, and the nonfat milk solid content is preferably 1 to 20% by weight, more preferably 2 to 18% by weight, most preferably 3 to 16% by weight. When there is little non-fat milk solid content, the emulsion stability of an oil-in-water emulsion will worsen, milky feeling will also decrease, and flavor will worsen. When the amount is large, the viscosity of the oil-in-water emulsion is increased, the cost is increased, and it is difficult to obtain an effect commensurate with the amount.

A typical example of the frozen dessert of the present invention is ice cream, and an ice cream will be described as an example. The components of ice cream are milk fat, non-fat milk solids, sweetener, stabilizer, emulsifier, Consists of flavoring agents, coloring agents, moisture, and the like.
The non-fat milk solid content has an effect of imparting a milky feeling to the ice creams with an improvement in the structure of the ice cream and an increase in overrun. Examples of the milk solid content include skim milk, skim milk powder, and whole milk powder.
Sweeteners have the effect of sweetening ice cream and increasing the viscosity of the mix and improving the tissue. As a sweetener, sucrose is most commonly used, but invert sugar, mixed sugar, syrup, etc. are also used, usually about 13 to 17% by weight based on the total amount.
Stabilizers have the effect of smoothing the tissue, imparting moderate viscosity and participating in overrun adjustment. Such stabilizers include gums such as guar gum, locust bean gum, xanthan gum, gum arabic, carrageenan, sodium alginate, CMC, water-soluble hemicellulose, gelatin, agar, pectin, corn starch, and various phosphates. Examples of the salts are: These stabilizers are usually added in an amount of about 0.1 to 1.0% by weight based on the entire product, but depending on the type, there may be a stickiness in the mouth, so in that case the amount added should be reduced.

  The emulsifier smoothes the tissue and moderately maintains the dispersion of fat and aggregates the fat during freezing. Examples of these emulsifiers may include known ones such as lecithin, fractionated lecithin with alcohol, partially hydrolyzed lecithin with acid, alkali or enzyme, sucrose fatty acid ester, propylene glycol fatty acid ester, sorbitan fatty acid ester, Examples include glycerin fatty acid esters and polyglycerol fatty acid esters, and various organic acid monoglycerides such as acetic acid monoglyceride, tartaric acid monoglyceride, acetic acid tartaric acid mixed monoglyceride, citric acid monoglyceride, diacetyltartaric acid monoglyceride, lactic acid monoglyceride, succinic acid monoglyceride and malic acid monoglyceride. About 0.1 to 0.5% by weight of these emulsifiers are usually added.

Further, flavoring agents and coloring agents are important additives for ice creams, and since they are favorite foods, they need to be selected and used according to consumer preferences. There are many flavoring agents, but vanilla is common, and chocolate and strawberry are often preferred.
As described above, by using a unique S2L type triglyceride as an oil and fat in an oil-in-water emulsion for frozen desserts, high emulsion stability and good whipping properties were obtained and whipped by forming a unique crystalline state It is presumed that the foamed product is excellent in texture, melted mouth, flavor and milky sustainability.

The standard method for producing ice creams using the above raw materials is as follows. First, raw materials are selected, and then the respective raw materials are mixed, dissolved and dispersed to prepare an emulsion. In this case, the powder raw material is likely to be mamako, so mix and dissolve and disperse with particular care. It is not preferable to set the temperature too high. Usually, it is about 50-60 degreeC. The emulsion thus prepared is homogenized. The conditions such as the homogenization pressure cannot be generally defined by a homogenizer such as a one-stage pressure type or a two-stage pressure type, but usually the former one-stage pressure may be 100 to 180 kg / cm ² , and the two-stage pressure type is about 100 kg with the first valve. / cm ² and about 40 to 70 kg / cm ² at the second valve pressure are preferable. The homogenization temperature is generally about 50 to 70 ° C.
Next, the oil-in-water emulsion after homogenization is sterilized or sterilized. Usually, UHT sterilization is performed. UHT sterilization has an indirect heating method and a direct heating method. As an apparatus for indirect heating processing, an APV plate type UHT processing device (manufactured by APV), a CP-UHT sterilizing device (manufactured by Crimaty Package), and a torque tube. Examples thereof include a sterilization apparatus (manufactured by Stork Co., Ltd.), a scraping UHT sterilization apparatus (manufactured by Tetra Pak Alfa Laval Co., Ltd.) and the like, but are not particularly limited to these. As direct heat sterilizers, operation sterilizers (Tetra Pak Alfa Laval Co.), VTIS sterilizers (Tetra Pak Alfa Laval Co.), Ragia UHT sterilizers (Ragia Ru), Paralyzer (Pash)・ And Silkeborg Co., Ltd.), C.I. P. A UHT sterilization apparatus such as a Vac-Heat / UHT sterilization apparatus (manufactured by Crimaty Package) can be exemplified, and any of these apparatuses may be used.

  Next, the sterilized or sterilized oil-in-water emulsion is cooled and temporarily stored at 0 to 5 ° C. for 3 to 24 hours, that is, aged (storage). This aging stabilizes each component in the emulsion. The flavor is then added while stirring the emulsion. After that, it is frozen. In this process, the emulsion is rapidly cooled by a freezer to freeze the moisture, and an appropriate amount of air is mixed in to disperse fine bubbles, ice crystal particles, and fat particles in the emulsion, and a semi-fluid soft This is an important step in which the smooth structure and texture of the ice cream are affected by the process of this step. Then, after filling and packaging in a predetermined container, it is rapidly cooled to -20 to -30 ° C, frozen until it keeps a certain shape, and stored until shipped.

  EXAMPLES The present invention will be described in more detail with reference to the following examples, but the spirit of the present invention is not limited to the following examples. In the examples,% and part mean weight basis. In particular, it goes without saying that the order of addition of the additives or the emulsification order of adding the oil phase to the water phase or the water phase to the oil phase is not limited by the following examples. The results were evaluated by the following method.

Evaluation of frozen confectionery A Evaluation method when foaming an oil-in-water emulsion for frozen confectionery An automatic sterilization software server (NA6062WF type) manufactured by Nissei Corporation is used. Prepare 4 L of oil-in-water emulsion for frozen dessert, and put 1.7 L in the cylinder of the freezing machine. Insert the mix valve into the mix supply port in the “closed” position. Of the oil-in-water emulsion for frozen desserts prepared at the beginning, the oil-in-water emulsion (about 2.3 L) after being put in the cylinder is supplied to the mix tank. Press the operation switch. After completion, step on the foot pedal to remove the soft cream from the product outlet.
(1) Overrun: [(weight of oil-in-water emulsion of a certain volume) − (weight of foam after a certain volume of foaming)] ÷ (weight of foam after a certain volume of foaming) × 100
(2) Flavor, texture, melted mouth, cold feeling, sustainability of milkiness: 20 professional panelists, in order of “5”, “4”, “3”, “2”, “1” Evaluation was performed in five stages, and the averaged evaluation was taken as the result.

Experimental Example 1 Preparation of S2L-containing oil and fat (1)
20 parts of safflower oil and 80 parts of stearic acid were transesterified using a lipase having 1,3-position specificity, and the ethyl ester part was removed by distillation to obtain S2L-containing fat (1).

Experimental Example 2: Preparation of S2L-containing fat (2)
A mixture of cottonseed oil: acetone = 20: 80 was mixed and dissolved, and the mixture was cooled to −10 ° C. with stirring and kept for 30 minutes to precipitate crystals. Then, it filtered under reduced pressure and fractionated into the crystal | crystallization part and the liquid part.
Acetone was removed from the obtained crystal part by a conventional method, and further, decolorization and deodorization were performed by a conventional method to obtain an S2L-containing fat (2).

Experimental example 3
S2L-containing oil and fat (1), S2L-containing oil and fat (2) used for the preparation of the foamable oil-in-water emulsion, palm mid-melting point, soybean palm mixed hardened oil, rapeseed palm mixed hardened oil, liquid chromatography method, The amounts of St2L and P2L were determined using a gas chromatography method, and the results are summarized in Table 1.

Example 1
An oil phase is obtained by adding and dissolving 0.1% of glycerin fatty acid ester in 3.5 parts of palm melting point (melting point: 34 ° C.), 4 parts of refined coconut oil, and 0.5 part of S2L-containing fat (1). Separately, 10 parts of nonfat dry milk, 12 parts of granulated sugar and 0.1 part of secondary phosphate are dissolved in 69.8 parts of water to adjust the aqueous phase. The oil phase and aqueous phase are stirred with a homomixer at 65 ° C. for 30 minutes and pre-emulsified, and then sterilized by an ultrahigh temperature sterilizer (Iwai Kikai Kogyo Co., Ltd.) for 4 seconds at 145 ° C. After the run, it was homogenized at a homogenization pressure of 100 kg / cm ² and immediately cooled to 5 ° C. After cooling, the mixture was aged for about 24 hours to obtain an oil-in-water emulsion. The emulsion was subjected to a freezer according to the method described above and evaluated. The flavor, texture, melted mouth, and cold feeling were good, and the milky taste was maintained.

Example 2
0.1 part of glycerin fatty acid ester is added and dissolved in 3 parts of middle melting point of palm (melting point of 34 ° C.), 4 parts of refined coconut oil and 1 part of S2L-containing fat (1) to obtain an oil phase. Separately, 10 parts of nonfat dry milk, 12 parts of granulated sugar and 0.1 part of secondary phosphate are dissolved in 69.8 parts of water to adjust the aqueous phase. The oil phase and aqueous phase are stirred with a homomixer at 65 ° C. for 30 minutes and pre-emulsified, and then sterilized by an ultrahigh temperature sterilizer (Iwai Kikai Kogyo Co., Ltd.) for 4 seconds at 145 ° C. After the run, it was homogenized at a homogenization pressure of 100 kg / cm ² and immediately cooled to 5 ° C. After cooling, the mixture was aged for about 24 hours to obtain an oil-in-water emulsion. The emulsion was subjected to a freezer according to the method described above and evaluated. The flavor, texture, melted mouth, and cold feeling were good, and the milky taste was maintained.

Example 3
An oil phase is prepared by adding and dissolving 0.1% glycerin fatty acid ester in 3 parts of palm middle melting point (melting point: 34 ° C.), 3 parts of refined coconut oil and 2 parts of S2L-containing oil (1). Separately, 10 parts of nonfat dry milk, 12 parts of granulated sugar and 0.1 part of secondary phosphate are dissolved in 69.8 parts of water to adjust the aqueous phase. The oil phase and aqueous phase are stirred with a homomixer at 65 ° C. for 30 minutes and pre-emulsified, and then sterilized by an ultrahigh temperature sterilizer (Iwai Kikai Kogyo Co., Ltd.) for 4 seconds at 145 ° C. After the run, it was homogenized at a homogenization pressure of 100 kg / cm ² and immediately cooled to 5 ° C. After cooling, the mixture was aged for about 24 hours to obtain an oil-in-water emulsion. The emulsion was subjected to a freezer according to the method described above and evaluated. The flavor, texture, melted mouth, and cold feeling were good, and the milky taste was maintained.

Example 4
0.1 part of glycerin fatty acid ester is added and dissolved in 3 parts of palm middle melting point (melting point 34 ° C.), 3 parts of refined coconut oil and 4 parts of S2L-containing oil (1) to obtain an oil phase. Separately, 10 parts of skim milk powder, 12 parts of granulated sugar and 0.1 part of dibasic phosphate are dissolved in 67.8 parts of water to adjust the aqueous phase. The oil phase and aqueous phase are stirred with a homomixer at 65 ° C. for 30 minutes and pre-emulsified, and then sterilized by an ultrahigh temperature sterilizer (Iwai Kikai Kogyo Co., Ltd.) for 4 seconds at 145 ° C. After the run, it was homogenized at a homogenization pressure of 100 kg / cm ² and immediately cooled to 5 ° C. After cooling, the mixture was aged for about 24 hours to obtain an oil-in-water emulsion. The emulsion was subjected to a freezer according to the method described above and evaluated. The flavor, texture, melted mouth, and cold feeling were good, and the milky taste was maintained.

Example 5
An oil phase is obtained by adding and dissolving 0.1% of glycerin fatty acid ester in 1.2 parts of S2L-containing fat (1) and 10.8 parts of butter oil. Separately, 10 parts of skim milk powder, 12 parts of granulated sugar and 0.1 part of dibasic phosphate are dissolved in 65.8 parts of water to adjust the aqueous phase. The oil phase and aqueous phase are stirred with a homomixer at 65 ° C. for 30 minutes and pre-emulsified, and then sterilized by an ultrahigh temperature sterilizer (Iwai Kikai Kogyo Co., Ltd.) for 4 seconds at 145 ° C. After the run, it was homogenized at a homogenization pressure of 100 kg / cm ² and immediately cooled to 5 ° C. After cooling, the mixture was aged for about 24 hours to obtain an oil-in-water emulsion. The emulsion was subjected to a freezer according to the method described above and evaluated. The flavor, texture, melted mouth, and cold feeling were good, and the milky taste was maintained.

Example 6
Add 0.1% of glycerin fatty acid ester to 2.4 parts of S2L-containing fats and oils (1) and 9.6 parts of butter oil, and dissolve to obtain an oil phase. Separately, 10 parts of skim milk powder, 12 parts of granulated sugar and 0.1 part of dibasic phosphate are dissolved in 65.8 parts of water to adjust the aqueous phase. The oil phase and aqueous phase are stirred with a homomixer at 65 ° C. for 30 minutes and pre-emulsified, and then sterilized by an ultrahigh temperature sterilizer (Iwai Kikai Kogyo Co., Ltd.) for 4 seconds at 145 ° C. After the run, it was homogenized at a homogenization pressure of 100 kg / cm ² and immediately cooled to 5 ° C. After cooling, the mixture was aged for about 24 hours to obtain an oil-in-water emulsion. The emulsion was subjected to a freezer according to the method described above and evaluated. The flavor, texture, melted mouth, and cold feeling were good, and the milky taste was maintained.

Example 7
Add glycerol fatty acid ester 0.1% to 4.8 parts of S2L-containing oil and fat (1) and 7.2 parts of butter oil, and dissolve to obtain an oil phase. Separately, 10 parts of skim milk powder, 12 parts of granulated sugar and 0.1 part of dibasic phosphate are dissolved in 65.8 parts of water to adjust the aqueous phase. The oil phase and aqueous phase are stirred with a homomixer at 65 ° C. for 30 minutes and pre-emulsified, and then sterilized by an ultrahigh temperature sterilizer (Iwai Kikai Kogyo Co., Ltd.) for 4 seconds at 145 ° C. After the run, it was homogenized at a homogenization pressure of 100 kg / cm ² and immediately cooled to 5 ° C. After cooling, the mixture was aged for about 24 hours to obtain an oil-in-water emulsion. The emulsion was subjected to a freezer according to the method described above and evaluated. The flavor, texture, melted mouth, and cold feeling were good, and the milky taste was maintained.

Example 8
The oil phase is prepared by adding and dissolving 0.1% glycerin fatty acid ester in 7.2 parts of S2L-containing oil and fat (1) and 4.8 parts of butter oil. Separately, 10 parts of skim milk powder, 12 parts of granulated sugar and 0.1 part of dibasic phosphate are dissolved in 65.8 parts of water to adjust the aqueous phase. The oil phase and aqueous phase are stirred with a homomixer at 65 ° C. for 30 minutes and pre-emulsified, and then sterilized by an ultrahigh temperature sterilizer (Iwai Kikai Kogyo Co., Ltd.) for 4 seconds at 145 ° C. After the run, it was homogenized at a homogenization pressure of 100 kg / cm ² and immediately cooled to 5 ° C. After cooling, the mixture was aged for about 24 hours to obtain an oil-in-water emulsion. The emulsion was subjected to a freezer according to the method described above and evaluated. The flavor, texture, melted mouth, and cold feeling were good, and the milky taste was maintained.

Table 2 summarizes the results of Examples 1 to 8.

Comparative Example 1
An oil phase is prepared by adding and dissolving 0.1% of glycerin fatty acid ester in 4 parts of the middle melting point (melting point 34 ° C.) of palm and 4 parts of refined palm oil. Separately, 10 parts of nonfat dry milk, 12 parts of granulated sugar and 0.1 part of secondary phosphate are dissolved in 69.8 parts of water to adjust the aqueous phase. The oil phase and aqueous phase are stirred with a homomixer at 65 ° C. for 30 minutes and pre-emulsified, and then sterilized by an ultrahigh temperature sterilizer (Iwai Kikai Kogyo Co., Ltd.) for 4 seconds at 145 ° C. After the run, it was homogenized at a homogenization pressure of 100 kg / cm ² and immediately cooled to 5 ° C. After cooling, the mixture was aged for about 24 hours to obtain an oil-in-water emulsion. The emulsion was subjected to a freezer according to the method described above and evaluated. The flavor, melting in the mouth, and cooling sensation were good, but a smooth texture was not obtained and the milky taste was not sustained.

Comparative Example 2
0.1 part of glycerin fatty acid ester is added and dissolved in 0.7 part of refined coconut oil and 0.3 part of S2L-containing fat (1) to obtain an oil phase. Separately, 10 parts of skim milk powder, 12 parts of granulated sugar and 0.1 part of dibasic phosphate are dissolved in 76.8 parts of water to adjust the aqueous phase. The oil phase and aqueous phase are stirred with a homomixer at 65 ° C. for 30 minutes and pre-emulsified, and then sterilized by an ultrahigh temperature sterilizer (Iwai Kikai Kogyo Co., Ltd.) for 4 seconds at 145 ° C. After the run, it was homogenized at a homogenization pressure of 100 kg / cm ² and immediately cooled to 5 ° C. After cooling, the mixture was aged for about 24 hours to obtain an oil-in-water emulsion. The emulsion was subjected to a freezer according to the method described above and evaluated. The flavor was thin, the mouth melted poorly, there was no cold feeling, a smooth texture was not obtained, and the milky taste was not sustained.

Comparative Example 3
An oil phase is prepared by adding and dissolving 0.1% of glycerin fatty acid ester in 8 parts of a middle melting point of palm (melting point 34 ° C.), 8 parts of refined coconut oil, and 6 parts of S2L-containing oil (1). Separately, 10 parts of skim milk powder, 12 parts of granulated sugar and 0.1 part of dibasic phosphate are dissolved in 55.8 parts of water to adjust the aqueous phase. The oil phase and aqueous phase are stirred with a homomixer at 65 ° C. for 30 minutes and pre-emulsified, and then sterilized by an ultrahigh temperature sterilizer (Iwai Kikai Kogyo Co., Ltd.) for 4 seconds at 145 ° C. After the run, it was homogenized at a homogenization pressure of 100 kg / cm ² and immediately cooled to 5 ° C. After cooling, the mixture was aged for about 24 hours to obtain an oil-in-water emulsion. This emulsion was subjected to a freezer according to the above method, but a good product was not obtained.

Comparative Example 4
An oil phase is obtained by adding and dissolving 0.1% glycerin fatty acid ester in 2 parts of palm middle melting point (melting point 34 ° C.), 2 parts of refined coconut oil, and 4 parts of S2L-containing fat (1). Separately, 10 parts of nonfat dry milk, 12 parts of granulated sugar and 0.1 part of secondary phosphate are dissolved in 69.8 parts of water to adjust the aqueous phase. The oil phase and aqueous phase are stirred with a homomixer at 65 ° C. for 30 minutes and pre-emulsified, and then sterilized by an ultrahigh temperature sterilizer (Iwai Kikai Kogyo Co., Ltd.) for 4 seconds at 145 ° C. After the run, it was homogenized at a homogenization pressure of 100 kg / cm ² and immediately cooled to 5 ° C. After cooling, the mixture was aged for about 24 hours to obtain an oil-in-water emulsion. The emulsion was subjected to a freezer according to the method described above and evaluated. The flavor was good and the milky taste was persistent, but the texture was too soft, the mouth melted heavy, and there was no cold feeling.

Comparative Example 5
To 12 parts of butter oil, 0.1% glycerin fatty acid ester is added and dissolved to obtain an oil phase. Separately, 10 parts of skim milk powder, 12 parts of granulated sugar and 0.1 part of dibasic phosphate are dissolved in 65.8 parts of water to adjust the aqueous phase. The oil phase and aqueous phase are stirred with a homomixer at 65 ° C. for 30 minutes and pre-emulsified, and then sterilized by an ultrahigh temperature sterilizer (Iwai Kikai Kogyo Co., Ltd.) for 4 seconds at 145 ° C. After the run, it was homogenized at a homogenization pressure of 100 kg / cm ² and immediately cooled to 5 ° C. After cooling, the mixture was aged for about 24 hours to obtain an oil-in-water emulsion. The emulsion was subjected to a freezer according to the method described above and evaluated. The flavor and texture were good, but the mouth melted poorly, there was no cold feeling, and the milky taste was not sustained.

Comparative Example 6
S2L-containing fats and oils (1) 9.6 parts, butter oil 2.4 parts of glycerin fatty acid ester 0.1% is added and dissolved to form an oil phase. Separately, 10 parts of skim milk powder, 12 parts of granulated sugar and 0.1 part of dibasic phosphate are dissolved in 65.8 parts of water to adjust the aqueous phase. The oil phase and aqueous phase are stirred with a homomixer at 65 ° C. for 30 minutes and pre-emulsified, and then sterilized by an ultrahigh temperature sterilizer (Iwai Kikai Kogyo Co., Ltd.) for 4 seconds at 145 ° C. After the run, it was homogenized at a homogenization pressure of 100 kg / cm ² and immediately cooled to 5 ° C. After cooling, the mixture was aged for about 24 hours to obtain an oil-in-water emulsion. The emulsion was subjected to a freezer according to the method described above and evaluated. Although the flavor and texture were good and the milky taste was persistent, the mouth melted poorly and there was no cold feeling.

Table 3 summarizes the results of Comparative Examples 1 to 6.

  The present invention relates to improving the texture and milky taste sustainability of oil-in-water emulsions for frozen desserts such as ice cream, ice milk, and lacto ice.

Claims (3)

In an oil-in-water emulsion containing fats and oils, non-fat milk solids and water, the oil and fat contains S2L-type triglycerides (wherein S is stearic acid and palmitic acid, and L is linoleic acid). An oil-in-water emulsion for frozen desserts. The oil-in-water emulsion for frozen desserts of Claim 1 whose fats and oils are 2 to 20 weight%. Fats and oils are non-milk fat (A type) or non-milk fat and milk fat (B type), and in the case of A type, S2L type triglyceride in fats and oils is in the range of 1 to 20% by weight. The oil-in-water emulsion for frozen desserts according to claim 1, which is in the range of -30% by weight.