JP5247951B2 - Oil and fat composition and butter cream using the oil and fat composition - Google Patents

Abstract

Provided are a butter cream having excellent foaming properties and a high meltability in mouth and an oil or fat composition suitable for the production of the butter cream. The oil or fat composition according to the present invention is characterized by satisfying the following requirements (a) to (d): (a) the content of C44-48 triacylglycerols being 14 mass% or greater relative to the total mass of triacylglycerols; (b) the sum of the content of SU2 triacylglycerols and the content of U3 triacylglycerols being 40 mass% or smaller relative to the total mass of triacylglycerols; (c) the sum of the content of M2L triacylglycerols and the content of ML2 triacylglycerols being 40 mass% or smaller relative to the total mass of triacylglycerols; and (d) the content of PPO triacylglycerols being 8.5 mass% or smaller relative to the total mass of triacylglycerols.

Description

  The present invention relates to a butter cream excellent in foaming properties and melt in the mouth, and an oil composition used in the butter cream.

  Butter cream is usually produced by adding a flavoring ingredient such as sugar to margarine shortening and causing it to foam. In butter cream, since a shortening consisting of a water-in-oil emulsion or an oil phase is usually used as a raw material, melt in the mouth tends to become oily. Therefore, in order to improve the melting of butter cream, liquid sugar, which is an aqueous component, is often used as a taste component in butter cream. Butter creams are widely used as filling creams, topping creams, sand creams and the like in the confectionery / breadmaking field because they have a long shelf life and excellent shape retention.

  As a raw oil and fat for margarine shortening used in butter cream, a hardened oil of fish oil has been used because it has physical properties and functions suitable for butter cream. However, although the hardened oil of fish oil is excellent as a raw material fat for butter cream, there is a problem in terms of supply because the production amount is reduced.

  Thus, for example, a butter cream using palm oil or palm fractionation oil has been proposed as a butter cream using a vegetable oil that does not have a problem in terms of supply (Patent Document 1). However, in order to satisfy the function of the butter cream of Patent Document 1, it is necessary to use a partially hydrogenated oil containing a large amount of trans fatty acid. Due to the recent trans fatty acid problem, the butter cream of Patent Document 1 using a partially hydrogenated oil containing a large amount of trans fatty acid has not been satisfactory.

  As a butter cream not using a partially hydrogenated oil, for example, a butter cream using 50 to 80% by mass of a transesterified oil of palm fractionated soft oil in an oil phase has been proposed (Patent Document 2). However, the butter cream of Patent Document 2 has a problem that foaming properties are reduced when an aqueous component such as liquid sugar is used.

  Therefore, a method for providing a butter cream superior in foaming property and melting in the mouth has been desired.

JP-A-8-47373 JP 2007-135443 A

  An object of the present invention is to provide a butter cream excellent in foaming properties and melt in the mouth and an oil and fat composition suitable for producing the butter cream.

  As a result of intensive studies to solve the above-mentioned problems, the present inventors have found that when an oil composition containing a specific amount of specific triacylglycerol is used as an oil for butter cream, the butter excellent in foaming properties and melting in the mouth The present inventors have found that a cream can be obtained and have completed the present invention.

That is, one aspect of the present invention is to satisfy the following conditions (a) ~ (d), is a fat composition following fat A is blended 0.5 to 16% by weight in the oil phase.
(A) The content of C44-C48 triacylglycerol (triacylglycerol in which the total number of carbon atoms of the fatty acid residues constituting it is 44 to 48) in the total triacylglycerol is 14% by mass or more (b) SU2 triacylglycerol (one of the constituent fatty acid residues is a saturated fatty acid residue having 16 to 18 carbon atoms, and two of the constituent fatty acid residues are unsaturated fatty acid residues having 18 carbon atoms) and U3 triacyl (C) M2L triacylglycerol in total triacylglycerol (total triacylglycerol in which all three constituent fatty acid residues are unsaturated fatty acid residues having 18 carbon atoms) Two of the constituent fatty acid residues are saturated fatty acid residues having 14 or less carbon atoms, and one of the constituent fatty acid residues is Triacylglycerol, which is a saturated fatty acid residue having a prime number of 16 or more) and ML2 triacylglycerol (one of the constituent fatty acid residues is a saturated fatty acid residue having 14 or less carbon atoms, and two of the constituent fatty acid residues are 16 or more carbon atoms) (D) PPO triacylglycerol in the total triacylglycerol (positions 1, 2 of the constituent fatty acid residues are palmitic acid residues, 3 The triacylglycerol whose position is an oleic acid residue, or the triacylglycerol whose 1st position of the constituent fatty acid residue is an oleic acid residue and the 2nd and 3rd positions are palmitic acid residues) is 8.5% by mass Less than
Fat and oil A: The total content of M2L triacylglycerol and ML2 triacylglycerol in the total triacylglycerol is 45% by mass or more, and the saturated fatty acid content of 14 or less carbon atoms in the total constituent fatty acids is 20 to 60% by mass. Another aspect of the present invention is that the content of saturated fatty acids having 16 to 18 carbon atoms is 40 to 80% by mass, and is obtained by transesterification. It is an oil and fat composition.
Another aspect of the present invention is an oil and fat composition containing an emulsifier.
Another aspect of the present invention is an oil and fat composition in which the emulsifier includes sorbitan oleate.
Another aspect of the present invention is an oil / fat composition in which the oil / fat composition is used in butter cream.
Another aspect of the present invention is a butter cream produced using the oil composition.
Another aspect of the present invention is a butter cream wherein the butter cream is a sand cream, a filling cream or a topping cream.
Another aspect of the present invention is a food produced using the butter cream.

ADVANTAGE OF THE INVENTION According to this invention, the oil-fat composition suitable for manufacture of the butter cream excellent in foamability and a mouth melt can be provided.
Moreover, according to this invention, the butter cream excellent in foaming property and mouth melting can be provided.

The present invention is described in detail below.
The oil and fat composition of the present invention is characterized by satisfying the following conditions (a) to (d).
(A) The content of C44-C48 triacylglycerol in the total triacylglycerol is 14% by mass or more (b) The total content of SU2 triacylglycerol and U3 triacylglycerol in the total triacylglycerol is 40% by mass or less (c) The total content of M2L triacylglycerol and ML2 triacylglycerol in the total triacylglycerol is 40% by mass or less. (D) The PPO triacylglycerol content in the total triacylglycerol is 8.5% by mass or less.

(Condition (a))
In the oil and fat composition of the present invention, the C44-C48 triacylglycerol content in the total triacylglycerol is 14% by mass or more, preferably 14-60% by mass, more preferably 15-55% by mass. More preferably, it is 15-50 mass%, Most preferably, it is 30-50 mass%. When the C44-C48 triacylglycerol content in the total triacylglycerol is within the above range, the foamability and mouth meltability of the butter cream are improved.
In the present invention, C44-C48 triacylglycerol means triacylglycerol in which the total number of carbon atoms of fatty acid residues constituting triacylglycerol is 44-48. Examples of the triacylglycerol having a fatty acid residue having a total carbon number of 44 include, for example, a fatty acid residue composed of lauric acid (carbon number 12), palmitic acid (carbon number 16), and palmitic acid (carbon number 16). Examples include triacylglycerol. Examples of the triacylglycerol having a fatty acid residue having 46 total carbon atoms include, for example, a fatty acid residue composed of lauric acid (carbon number 12), palmitic acid (carbon number 16), and oleic acid (carbon number 18). And triacylglycerol. Examples of the triacylglycerol having a total fatty acid residue of 48 include, for example, a fatty acid residue composed of lauric acid (carbon number 12), oleic acid (carbon number 18), and oleic acid (carbon number 18). And triacylglycerol.
Hereinafter, C44-C48 triacylglycerol may be referred to as C44-C48TAG. Hereinafter, triacylglycerol may be referred to as TAG.

(Condition (b))
In the oil and fat composition of the present invention, the total content of SU2 triacylglycerol and U3 triacylglycerol in the total triacylglycerol is 40% by mass or less, preferably 5 to 40% by mass, more preferably 5 to 5% by mass. It is 38 mass%, More preferably, it is 7-38 mass%, Most preferably, it is 10-32 mass%. When the total content of SU2 triacylglycerol and U3 triacylglycerol in the total triacylglycerol is within the above range, the foamability and mouth melting of the butter cream are improved.
In the present invention, S means a saturated fatty acid residue having 16 to 18 carbon atoms, and U means an unsaturated fatty acid residue having 18 carbon atoms. Therefore, in the present invention, SU2 triacylglycerol is one of fatty acid residues constituting triacylglycerol, a saturated fatty acid residue having 16 to 18 carbon atoms, and two of the constituting fatty acid residues are unsaturated having 18 carbon atoms. It means triacylglycerol which is a fatty acid residue. Hereinafter, SU2 triacylglycerol may be referred to as SU2. In the present invention, U3 triacylglycerol means triacylglycerol in which all three fatty acid residues constituting triacylglycerol are unsaturated fatty acid residues having 18 carbon atoms. Hereinafter, U3 triacylglycerol may be referred to as U3.

(Condition (c))
In the oil and fat composition of the present invention, the total content of M2L triacylglycerol and ML2 triacylglycerol in the total triacylglycerol is 40% by mass or less, preferably 5 to 40% by mass, more preferably 5 to 5% by mass. It is 35 mass%, More preferably, it is 10-30 mass%, Most preferably, it is 12-30 mass%. When the total content of M2L triacylglycerol and ML2 triacylglycerol in the total triacylglycerol is in the above range, the foamability and mouth melting of the butter cream are improved.
In the present invention, M means a saturated fatty acid residue having 14 or less carbon atoms (M is preferably a saturated fatty acid residue having 8 to 14 carbon atoms), and L is a residual saturated fatty acid residue having 16 or more carbon atoms. Means a group (L is preferably a saturated fatty acid residue having 16 to 20 carbon atoms). Therefore, in the present invention, M2L triacylglycerol means that two fatty acid residues constituting triacylglycerol are saturated fatty acid residues having 14 or less carbon atoms, and one of constituting fatty acid residues is a saturated fatty acid having 16 or more carbon atoms. It means the residue triacylglycerol. Hereinafter, M2L triacylglycerol may be referred to as M2L. In the present invention, ML2 triacylglycerol refers to a saturated fatty acid residue in which one of the fatty acid residues constituting the triacylglycerol is 14 or less carbon atoms, and two of the fatty acid residues that constitute the fatty acid residue are 16 or more carbon atoms. It means the residue triacylglycerol. Hereinafter, ML2 triacylglycerol may be referred to as ML2.

(Condition (d))
In the oil and fat composition of the present invention, the content of PPO triacylglycerol in the total triacylglycerol is 8.5% by mass or less, preferably 8% by mass or less, more preferably 1 to 8% by mass, More preferably, it is 2-7.5 mass%, Most preferably, it is 2-6 mass%. When the PPO triacylglycerol content in the total triacylglycerol is within the above range, the foamability and mouth meltability of the butter cream are improved.
In the present invention, P means a palmitic acid residue, and O means an oleic acid residue. Therefore, in the present invention, PPO triacylglycerol means triacylglycerol or triacylglycerol in which fatty acid residues constituting triacylglycerol are 1,2-position palmitic acid residue, and 3-position oleic acid residue. It means triacylglycerol in which the first position of the fatty acid residue constituting glycerol is an oleic acid residue and the second and third positions are palmitic acid residues. Hereinafter, PPO triacylglycerol may be referred to as PPO.

(P2O triacylglycerol content)
In the oil and fat composition of the present invention, the P2O triacylglycerol content in the total triacylglycerol is preferably 40% by mass or less, more preferably 3 to 35% by mass, and further preferably 3 to 20% by mass. Yes, most preferably 4 to 10% by mass.
In the present invention, P2O triacylglycerol means triacylglycerol in which two fatty acid residues constituting triacylglycerol are palmitic acid residues and one of the constituting fatty acid residues is an oleic acid residue. . Hereinafter, P2O triacylglycerol may be referred to as P2O.

(Ratio of PPO content to POP content)
In the oil and fat composition of the present invention, the ratio of the PPO triacylglycerol content to the POP triacylglycerol content in the total triacylglycerol (PPO triacylglycerol content / POP triacylglycerol content) is preferably 0.2 or more. More preferably, it is 0.2-3.0, More preferably, it is 1.2-2.5, Most preferably, it is 1.5-2.3.
In the present invention, POP triacylglycerol means triacylglycerol in which fatty acid residues constituting triacylglycerol are 1,3-position palmitic acid residues and 2-position oleic acid residues. Hereinafter, POP triacylglycerol may be referred to as POP.

(Saturated fatty acid having 14 or less carbon atoms)
The oil and fat composition of the present invention preferably contains saturated fatty acids having 14 or less carbon atoms (preferably saturated fatty acids having 8 to 14 carbon atoms) in all the constituent fatty acids. In the oil and fat composition of the present invention, the content of saturated fatty acids having 14 or less carbon atoms in all the constituent fatty acids is preferably 3 to 48% by mass, more preferably 5 to 40% by mass, and further preferably 5 to 35%. % By mass, most preferably 15-35% by mass.
(Unsaturated fatty acid)
Moreover, it is preferable that the fats and oils composition of this invention contains unsaturated fatty acid (preferably C16-20 unsaturated fatty acid) in all the constituent fatty acids. In the oil and fat composition of the present invention, the unsaturated fatty acid content in the total constituent fatty acids is preferably 15% by mass or more, more preferably 15 to 65% by mass, and further preferably 25 to 55% by mass, Most preferably, it is 30-53 mass%.

(Trans fatty acid)
The oil and fat composition of the present invention preferably contains substantially no trans fatty acid in all the constituent fatty acids. In the oil and fat composition of the present invention, the trans fatty acid content in all the constituent fatty acids is preferably 10% by mass or less, more preferably 5% by mass or less, still more preferably 2% by mass or less, and most preferably. 1% by mass or less. Since the oil-and-fat composition of the present invention can be produced without using a partially hydrogenated oil containing a large amount of trans-fatty acid, it can be substantially free of trans-fatty acid in all the constituent fatty acids.

(Fats and fats used for the preparation of fat and oil compositions)
The fats and oils used for the preparation of the fat and oil composition of the present invention are not particularly limited as long as they satisfy the conditions (a) to (d) and the fatty acid content, and are not limited to ordinary edible fats and oils (soybean oil, rapeseed oil, high Erucic acid rapeseed oil, corn oil, sunflower oil, safflower oil, sesame oil, cottonseed oil, rice oil, olive oil, peanut oil, linseed oil, palm oil, palm kernel oil, coconut oil, cocoa butter, milk fat) and mixtures of these oils Oils, processed oils and fats of these oils or mixed oils (transesterified oil, fractionated oil, hydrogenated oil, etc.) can be used. Preferred examples of fats and oils used for the preparation of the fat and oil composition of the present invention include the following C44 to C48TAG-containing fats and oils, the following fats and oils A, the following liquid oils, and palm fractionated oils (palm medium melting point, palm olein, palm super olein, etc.) A transesterified oil of palm fractionated oil (such as a transesterified oil of palm olein).

(C44-C48TAG-containing fats and oils)
As for the oil-fat composition of this invention, it is preferable that C44-C48TAG containing fats and oils are mix | blended in the oil phase. In the present invention, C44-C48TAG-containing fats and oils are fats and oils in which the total content of C44-C48TAG in the total triacylglycerol is 30-60% by mass and the total content of M2L triacylglycerol and ML2 triacylglycerol is 40% by mass or less. That's it. C44-C48TAG containing fats and oils can be utilized as a supply source of C44-C48TAG.

  In the oil / fat composition of the present invention, the amount of the C44-C48TAG-containing oil / fat in the oil phase is preferably 20 to 100% by mass, more preferably 30 to 100% by mass, and still more preferably 55 to 100% by mass. %, And most preferably 75 to 98% by mass.

In the C44-C48TAG-containing fat used in the present invention, the C44-C48TAG content in the total triacylglycerol is 30-60% by mass, preferably 35-55% by mass, more preferably 38-53% by mass. Yes, and most preferably 40-50% by mass.
In the C44-C48TAG-containing fat used in the present invention, the total content of M2L triacylglycerol and ML2 triacylglycerol in the total triacylglycerol is 40% by mass or less, preferably 5-40% by mass, More preferably, it is 10-35 mass%, Most preferably, it is 17-28 mass%.

In the C44-C48TAG-containing fat used in the present invention, the total content of SU2 triacylglycerol and U3 triacylglycerol in the total triacylglycerol is preferably 40% by mass or less, more preferably 3-40% by mass. More preferably, it is 5-30 mass%, Most preferably, it is 7-18 mass%.
Moreover, in C44-C48TAG containing fats and oils used by this invention, the content of saturated fatty acids (preferably saturated fatty acids having 8 to 14 carbon atoms) having 14 or less carbon atoms in all the constituent fatty acids is preferably less than 50% by mass, more Preferably it is 5-45 mass%, More preferably, it is 20-40 mass%. Most preferably, it is 25-35 mass%.
Moreover, in C44-C48TAG containing fats and oils used by this invention, C20-C24 saturated fatty acid content in all the constituent fatty acids becomes like this. Preferably it is 5 mass% or less, More preferably, it is 3 mass% or less, More preferably Is 2% by mass or less, and most preferably 1% by mass or less.
Moreover, in C44-C48TAG containing fats and oils used by this invention, the unsaturated fatty acid (preferably C16-20 unsaturated fatty acid) content in all the constituent fatty acids becomes like this. Preferably it is 25-50 mass%, More preferably It is 30-45 mass%, Most preferably, it is 31-42 mass%.

  C44-C48TAG containing fats and oils used by this invention are fats and oils which do not have fluidity | liquidity at 5 degreeC.

As a preferable example of C44-C48TAG containing fats and oils used by this invention, the transesterification oil of a lauric fat and palm oil and fat is mentioned. In the present invention, lauric fats and oils are fats and oils containing 40% by mass or more of laurin in all constituent fatty acids. Specific examples of lauric oils and fats include palm kernel oil, coconut oil, mixed oils thereof, processed oils and fats of these oils or mixed oils (transesterified oil, fractionated oil, hydrogenated oil, etc.). Moreover, in this invention, palm oil fat is palm oil itself and the processing fats and oils (transesterification oil, fractionation oil, hydrogenation oil, etc.) of palm oil. Specific examples of palm oils include palm oil, palm olein, and palm stearin. The transesterified oil of lauric oil and palm oil used in the present invention is preferably a transesterified oil of palm kernel oil and palm oil.
In the transesterified oil of lauric fat and palm oil and fat used in the present invention, the mixing ratio of lauric fat and palm fat is a mass ratio of lauric fat and palm fat, preferably 30:70 to 60: 40, more preferably 35:65 to 50:50, and most preferably 35:65 to 45:55.

There is no restriction | limiting in particular as transesterification reaction for preparing transesterification oil of the lauric oil and palm oil and fat used by this invention, Non-selective transesterification (random ester) which is transesterification with low regioselectivity Exchange) and selective transesterification (regiospecific transesterification), which is a transesterification reaction with high regioselectivity, but non-selective transesterification is preferred. Moreover, there is no restriction | limiting in particular as a transesterification method for preparing the transesterification oil of the lauric oil and palm oil used in this invention, Either a chemical transesterification or an enzymatic transesterification may be sufficient Is preferably chemical transesterification. The chemical transesterification is performed using a chemical catalyst such as sodium methylate as a catalyst, and the reaction is non-selective transesterification with low regioselectivity.
In the chemical transesterification, for example, according to a conventional method, the raw material fats and oils are sufficiently dried, and 0.1 to 1% by mass of the catalyst is added to the raw material fats and oils. The reaction can be carried out with stirring for 1 hour. After completion of the transesterification reaction, the catalyst is washed away by washing with water, and then the decolorization and deodorization treatments performed in a normal edible oil refining process can be performed.

(Oil A)
In the oil and fat composition of the present invention, the following oil and fat A is preferably blended in the oil phase. In the present invention, the fat A is a saturated fatty acid having a total content of M2L triacylglycerol and ML2 triacylglycerol in the total triacylglycerol of 45% by mass or more and 14 or less carbon atoms in the total constituent fatty acids (preferably having 8 carbon atoms). -14 saturated fat) content is 20-60% by mass, saturated fatty acid content of 16-18 carbon atoms in all constituent fatty acids is 40-80% by mass, and is obtained by transesterification. is there.

  In the oil and fat composition of the present invention, the amount of the oil and fat A in the oil phase is preferably 0.5 to 16% by mass, more preferably 1 to 15% by mass, and further preferably 2 to 12% by mass. And most preferably 2 to 10% by mass. When the blending amount of the fat A in the oil phase is within the above range, the foamability of the butter cream becomes better.

In the fat A used in the present invention, the total content of M2L triacylglycerol and ML2 triacylglycerol in the total triacylglycerol is 45% by mass or more, preferably 45 to 80% by mass, and more preferably 45 to 65%. % By mass, and most preferably 50-60% by mass.
Further, in the fat A used in the present invention, the content of saturated fatty acids having 14 or less carbon atoms (preferably saturated fatty acids having 8 to 14 carbon atoms) in all the constituent fatty acids is 20 to 60% by mass, preferably 23 to 45%. It is mass%, More preferably, it is 25-40 mass%, Most preferably, it is 28-38 mass%.
Moreover, in the fats and oils A used in the present invention, the content of saturated fatty acids having 16 to 18 carbon atoms in all the constituent fatty acids is 40 to 80% by mass, preferably 50 to 75% by mass, and more preferably 55 to 70%. It is mass%, Most preferably, it is 60-70 mass%.

In the fat A used in the present invention, the content of saturated fatty acids having 20 to 24 carbon atoms in all the constituent fatty acids is preferably 5% by mass or less, more preferably 3% by mass or less, and further preferably 2% by mass or less. And most preferably 1% by mass or less.
In addition, in the fat A used in the present invention, the content of unsaturated fatty acids (preferably unsaturated fatty acids having 16 to 20 carbon atoms) in all the constituent fatty acids is 15% by mass or less, preferably 10% by mass or less, More preferably, it is 5 mass% or less, Most preferably, it is 3 mass% or less.

  Oil A used in the present invention is an oil that does not have fluidity at 5 ° C.

As a preferable example of the fat A used in the present invention, a mixed oil of lauric fat and palm fat is transesterified, and then hydrogenated (preferably complete hydrogenation) until the iodine value becomes 10 or less. The fats and oils obtained by this can be illustrated. In addition, lauric oil and palm oil and fat are separately hydrogenated so that the iodine value is 10 or less (preferably complete hydrogenation), and then these mixed oils are transesterified. Oils and fats can be exemplified. Moreover, the fats and oils obtained by transesterifying the mixed oil of the lauric fats and oils whose iodine value is 10 or less and palm-based fats and oils whose iodine value is 20 or less can be illustrated. As a combination of the lauric fat and palm oil and fat, which are the raw oil and fat of the fat A used in the present invention, palm kernel and palm oil, palm kernel olein and palm stearin, palm kernel stearin and hard stearin are preferable.
In the fats and oils A used in the present invention, the blending ratio of the lauric fats and palm fats and oils is a mass ratio of lauric fats and fats: palm fats and oils, preferably 30:70 to 70:30, more preferably 40:60. ~ 60: 40.

There is no restriction | limiting in particular as transesterification reaction for preparing the fats and oils A used by this invention, Although either non-selective transesterification and selective transesterification may be sufficient, Non-selective transesterification is preferable. Moreover, there is no restriction | limiting in particular as a method of transesterification for preparing the fats and oils A used by this invention, Both methods of chemical transesterification and enzymatic transesterification may be sufficient, However, It is chemical transesterification. preferable. Chemical transesterification can be performed under the conditions described above.
Moreover, there is no restriction | limiting in particular as a hydrogenation method for preparing the fats and oils A used by this invention, It can carry out by a normal method. Hydrogenation can be performed, for example, under the conditions of a hydrogen pressure of 0.02 to 0.3 Mpa and 160 to 200 ° C. under a nickel catalyst.

(Liquid oil)
In the oil and fat composition of the present invention, liquid oil is preferably blended in the oil phase. In this invention, liquid oil means the fats and oils which have fluidity | liquidity at 5 degreeC. Moreover, the fats and oils which have fluidity | liquidity at 5 degreeC preferably have transparency at 5 degreeC.
As the liquid oil used in the present invention, any oil and fat having fluidity at 5 ° C. can be used without particular limitation.

  Specific examples of the liquid oil used in the present invention include, for example, soybean oil, rapeseed oil, corn oil, sunflower oil, safflower oil, sesame oil, cottonseed oil, rice oil, olive oil, peanut oil, linseed oil and transesterification of these oils and fats, What processed by classification etc. can also be used. These liquid oils can be used alone or in combination.

  In the oil and fat composition of the present invention, the blending amount of the liquid oil in the oil phase is preferably 35% by mass or less, more preferably 3 to 35% by mass, still more preferably 5 to 30% by mass, Most preferably, it is 10-25 mass%.

(emulsifier)
An emulsifier can be mix | blended with the oil-fat composition of this invention. As the emulsifier used in the oil and fat composition of the present invention, sorbitan fatty acid ester, polyglycerin fatty acid ester, sucrose fatty acid ester, polyoxyethylene sorbitan fatty acid ester, polyglycerin condensed ricinoleic acid ester, glycerin fatty acid ester (monoglyceride), glycerin organic acid Synthesis of fatty acid esters, propylene glycol fatty acid esters and other synthetic emulsifiers, lecithin (soy lecithin, egg yolk lecithin, etc.), lysolecithin (soy lysolecithin, egg yolk lysolecithin, etc.), enzyme-treated egg yolk, saponins, plant sterols, milk fat globule membrane, etc. An emulsifier that is not an emulsifier may be mentioned. These emulsifiers can be used alone or in combination of two or more, but one or more selected from sorbitan fatty acid ester, glycerin fatty acid ester, propylene glycol fatty acid ester, sucrose fatty acid ester, polyglycerin fatty acid ester and lecithin It is preferable to use two or more. In the oil and fat composition of the present invention, the content of the emulsifier is preferably 0.01 to 5% by mass, more preferably 0.05 to 3% by mass, and most preferably 0.1 to 2% by mass. .

  As the emulsifier used in the oil and fat composition of the present invention, sorbitan oleate is particularly preferably used. In the oil and fat composition of the present invention, the content of sorbitan oleate is preferably 0.01 to 5% by mass, more preferably 0.1 to 3% by mass, and still more preferably 0.2 to 2% by mass. %, And most preferably 0.2 to 1% by mass. When the sorbitan oleate content in the oil and fat composition is in the above range, the foamability of the butter cream becomes better.

  As will be described later, these emulsifiers can also be blended during the production of butter cream.

(Compounding ingredients)
It can mix | blend with the fats and oils composition of this invention, if it is a component normally mix | blended with the fats and oils used for butter cream, without being restrict | limited. Specific examples include salting agents such as water, sodium chloride and potassium chloride, coloring agents such as β-carotene, caramel, and red koji pigment, tocopherols, tea extracts (catechins and the like), antioxidants such as rutin, and flavoring agents. Etc.

(Characteristics of oil composition)
The oil / fat composition of the present invention is preferably a plastic oil / fat composition imparted with plasticity.
Moreover, as an oil-fat composition of this invention, what has a water phase and what does not have a water phase are mentioned, However, It is preferable that it does not have a water phase. In the present invention, the oil / fat composition having no aqueous phase (preferably a plastic oil / fat composition) is a shortening comprising only the oil phase. Moreover, the oil-fat composition (preferably plastic oil-fat composition) which has a water phase in this invention is a water-in-oil emulsion, such as a margarine and a fat spread, and an oil-in-water oil-in-water emulsion.

  The fat composition of the present invention preferably has a solid fat content (SFC) of 5-45% at 20 ° C, 2-35% at 25 ° C, 0-30% at 30 ° C, 0-20% at 35 ° C. More preferably 5-40% at 20 ° C, 4-30% at 25 ° C, 0-25% at 30 ° C, 0-15% at 35 ° C, most preferably 10-35% at 20 ° C, It is 6 to 25% at 25 ° C, 1 to 20% at 30 ° C, and 0 to 10% at 35 ° C. Hereinafter, the solid fat content may be described as SFC.

(Method for producing oil and fat composition)
The manufacturing method of the oil-fat composition of this invention is not restrict | limited in particular, It can manufacture with the manufacturing conditions and manufacturing method of fats and oils for well-known butter cream.
Specifically, it can be produced by mixing and dissolving oil-soluble components to be blended. Moreover, when providing plasticity, what mixed and dissolved the oil-soluble component to mix | blend is made into an oil phase, After mixing and emulsifying the aqueous phase prepared as needed, it can manufacture by cooling and crystallizing. The cooling condition is preferably −0.5 ° C./min or more, more preferably −5 ° C./min or more. At this time, rapid cooling is preferable to slow cooling. In addition, after the oil phase is prepared or mixed and emulsified, it is desirable to sterilize. Examples of the sterilization method include a batch type in a tank, a continuous type using a plate type heat exchanger, and a scraping type heat exchanger.
Examples of the equipment to be cooled include a closed continuous tube cooler, for example, a margarine manufacturing machine such as a botator, a combinator, a perfector, and an onlator, a plate heat exchanger, and the like. Moreover, the combination of an open-type diacooler and a compressor is also mentioned as an apparatus to cool.

(Use of oil composition)
The oil and fat composition of the present invention can be suitably used as an oil and fat for butter cream such as filling cream, sand cream, and topping cream.

  When the oil / fat composition of the present invention is used as an oil / fat for butter cream, the foamability and meltability of the butter cream are improved.

In addition, each triacylglycerol content in fats and oils can be measured according to a gas chromatographic method (for example, according to JAOCS, vol. 70, No. 11, 1111-1114 (1993)) and silver ion column-HPLC. It can be measured by a method (for example, it can be measured according to J. High Resol. Chromatogr., 18, 105-107 (1995)). Moreover, each fatty acid content in fats and oils can be measured by a gas chromatograph method (for example, it can measure according to AOCS Ce1f-96). Moreover, SFC of fats and oils can be measured according to "2.2.9-2003 solid fat content (NMR method)" edited by Japan Oil Chemists' Society, "Standard fat analysis method". In addition, the iodine value of fats and oils can be measured according to “2.3.4.1-1996 Iodine number (Wiis-cyclohexane method)” of “Standard oil and fat analysis test method” edited by Japan Oil Chemists' Society. it can.
Moreover, in this invention, the content in all the constituent fatty acids is a ratio with respect to the total amount of fatty acids constituting the fats and oils (triacylglycerol) contained in the fat and oil composition. Moreover, in this invention, SFC is SFC of the fats and oils contained in a fat and oil composition.

(Butter cream)
The butter cream of the present invention is manufactured using the oil and fat composition of the present invention.
In the present invention, the butter cream is a product obtained by adding a taste component such as saccharides to an oil or fat composition, or by adding a taste component such as sugars to a material obtained by foaming an oil or fat composition. In addition, the butter cream of this invention includes the thing before foaming which added flavoring components, such as saccharides, to the fats and oils composition.

  The butter cream of the present invention uses the oil composition of the present invention that does not contain the emulsifier or the oil composition of the present invention in which the content of the emulsifier is out of the preferred range, and the emulsifier is blended during the production of the butter cream. Includes manufactured products. When the emulsifier is blended during the production of the butter cream, the blending amount of the emulsifier can be blended in an amount corresponding to the range described in the oil composition. Moreover, the emulsifier described in the oil-and-fat composition can be used for the emulsifier to be used.

  In the butter cream of the present invention, the amount of the oil or fat composition of the present invention is preferably 10 to 55% by mass, more preferably 15 to 50% by mass, and most preferably 23 to 45% by mass.

The butter cream of the present invention preferably contains a taste component. The taste ingredient used in the butter cream of the present invention can be used without particular limitation as long as it is a taste ingredient usually used in butter cream. Taste components used in the butter cream of the present invention include, for example, glucose, maltose, sucrose (sugar), lactose, trehalose, maltotriose, tetraose, sorbitol, xylitol, erythritol, maltitol, milk paste, starch syrup, isomerization Sugar such as liquid sugar (sugar, sugar alcohol), cheese, fresh cream, synthetic cream, yogurt, condensed milk, whole milk powder, skim milk powder, skimmed condensed milk, milk, concentrated milk, cocoa mass, cocoa powder, chocolate, etc. Cocoa products, eggs such as egg yolk and powdered egg yolk, pulp jams, fruit juices, nuts and the like.
In the butter cream of the present invention, the blending amount of the taste component is preferably 40 to 85% by mass, more preferably 45 to 80% by mass, and most preferably 50 to 75% by mass.

As a taste component used in the butter cream of the present invention, it is preferable to use the saccharide (sugar, sugar alcohol). The shape of the saccharide is not particularly limited, and either solid saccharide or liquid saccharide (liquid saccharide) can be used, but it is more preferable to use liquid saccharide. When liquid sugar is used, the butter cream melts better. The Brix of the liquid sugar is preferably 60 to 80, more preferably 65 to 75, and most preferably 70 to 75.
In the butter cream of the present invention, the compounding amount of the saccharide is preferably 10 to 85% by mass, more preferably 30 to 75% by mass, and most preferably 50 to 75% by mass.

As a taste component used in the butter cream of the present invention, it is preferable to use an oil-in-water emulsion containing the saccharide. More preferably, the oil-in-water emulsion further contains starch. When the oil-in-water emulsion is used, the butter cream melts better in the mouth.
In the butter cream of the present invention, the amount of the oil-in-water emulsion containing the saccharide is preferably 5 to 75% by mass, more preferably 10 to 55% by mass, and most preferably 15 to 45% by mass. It is.

  In the butter cream of the present invention, in addition to the oil and fat composition of the present invention, a taste ingredient, and an emulsifier, any butter cream can be blended without particular limitation. Moreover, these compounding quantities can also be normally mix | blended without a restriction | limiting in the range mix | blended with a butter cream.

  The butter cream of this invention can be manufactured by well-known manufacturing conditions and manufacturing methods except using the oil-fat composition of this invention.

  The butter cream of the present invention preferably has a specific gravity of less than 0.79, more preferably less than 0.72, and most preferably less than 0.65.

  The butter cream of the present invention can be used as a filling cream, a sand cream, a topping cream or the like.

  The butter cream of the present invention has good foaming properties and mouth melting. In particular, the butter cream of the present invention is excellent in foaming properties even when an aqueous component such as liquid sugar is used.

(Food)
The food of the present invention is produced using the butter cream of the present invention.
The food of the present invention is a combination of the butter cream of the present invention and confectionery, bread or the like.
As long as the food of the present invention is obtained by bringing the butter cream of the present invention into contact with confectionery, bread, etc., the combination method is not particularly limited. Examples of the combination method include sandwiching, pouring, topping, coating, and the like. .

  Specific examples of confectionery and bread to be combined with the butter cream of the present invention include biscuits, cookies, crackers, dry bread, pretzels, cut bread, wafers, sables, Langdosha, macaroons and other baked confectionery, butter cakes (pound cake, fruit) Cakes, Madeleine, Baumkuchen, Castella, etc.), sponge cakes (short cakes, roll cakes, tortes, decoration cakes, chiffon cakes, etc.), Western sweets such as choux pastries, fermented sweets, pies, waffles, sweet bread, French bread, Stollen , Panettone, brioche, donut, Danish, croissant and the like.

  Next, the present invention will be described in detail by way of examples and comparative examples. However, the present invention is not limited to these examples.

<Measurement method>
Each fatty acid content in the oil and fat composition shown below, SFC of the oil and fat composition, and each triacylglycerol content in the oil and fat composition were measured by the following methods.
Each fatty acid content in the oil and fat composition was measured by a gas chromatographic method (AOCS Ce1f-96 compliant).
The SFC of the oil / fat composition was measured in accordance with “2.2.9-2003 solid fat content (NMR method)” of “Standard oil analysis test method” edited by Japan Oil Chemists' Society.
Each triacylglycerol content in the oil and fat composition is determined by gas chromatography (JAOCS, vol. 70, No. 11, 1111-1114 (1993) compliant) and silver ion column-HPLC method (J. High Resol. Chromatogr.,). 18, 105-107 (1995) conformity).
The iodine value of fats and oils was measured according to “2.3.4.1-1996 Iodine number (Wiis-cyclohexane method)” of “Standard oil analysis test method” edited by Japan Oil Chemists' Society.

<Preparation of C44-C48TAG-containing fats and oils>
It is sufficient by heating a mixed oil in which 40 parts by mass of palm kernel oil (manufactured by Nisshin Oillio Group Co., Ltd.) and 60 parts by mass of palm oil (manufactured by Nisshin Oilio Group Co., Ltd.) to 120 ° C. under reduced pressure. After being dried, 0.2% by mass of sodium methylate with respect to oil was added, and a transesterification reaction was carried out with stirring at 110 ° C. for 0.5 hours under reduced pressure. After completion of the reaction, sodium methylate was removed by washing with water, followed by decolorization and deodorization treatment according to a conventional purification method, C44-C48TAG-containing fats and oils (C44-48TAG content 45.9% by mass, M2L + ML2 content 22.2% by mass, SU2 + U3 content 12.7 mass%, saturated fatty acid content 29.6 mass% having 14 or less carbon atoms, saturated fatty acid content 0.3 to 20 mass%, unsaturated fatty acid content 36.6 mass%). .

<Preparation of fat A>
It is sufficient by heating a mixed oil in which 50 parts by mass of palm stearin (manufactured by Nisshin Oillio Group Co., Ltd.) and 50 parts by mass of palm kernel olein (manufactured by Nisshin Oilio Group Co., Ltd.) to 120 ° C. under reduced pressure. Then, sodium methylate with 0.1% by mass of oil was added, and a transesterification reaction was performed with stirring at 110 ° C. for 0.5 hours under reduced pressure. After completion of the reaction, sodium methylate was removed by washing with water and decolorized. Then, hydrogenation was performed at 160 to 200 ° C. using a nickel catalyst to adjust the iodine value to 2 or less. After confirming that the iodine value became 2 or less, the temperature was lowered to 100 ° C. or less, the nickel catalyst was removed by filtration, decolorized and deodorized, and oil A (M2L + ML2 content 54.7 mass%, carbon number 14) Saturated fatty acid content of 33.1% by mass, saturated fatty acid content of 16 to 18 carbon atoms, 65.1% by mass, saturated fatty acid content of 20 to 24 carbon atoms, 0.4% by mass, unsaturated fatty acid content of 1.4% by mass The iodine value 0.1) was obtained.

<Other raw materials>
(Preparation of transesterified oil 1)
Palm olein (iodine number 56), which is a soft part obtained by separating palm oil (manufactured by Nisshin Oillio Group Co., Ltd.), is sufficiently dried by heating to 120 ° C. under reduced pressure. .1% by mass of sodium methylate was added, and a transesterification reaction was performed with stirring at 110 ° C. for 0.5 hours under reduced pressure. After completion of the reaction, sodium methylate was removed by washing with water, and decolorization and deodorization were performed according to a conventional purification method to obtain transesterified oil 1 (permesterified oil of palm olein, iodine value 56).
(Preparation of fractionated oil 1)
Fractionated oil 1 (palm olein, iodine value 56) of the soft part was obtained by fractionating palm oil (manufactured by Nisshin Oillio Group, Inc.).
(Preparation of fractionated oil 2)
The fractionated oil 1 was further fractionated to obtain a fractionated oil 2 (middle melting point of palm, iodine value 45) as a hard part.
(Preparation of fractionated oil 3)
Fractionated oil 1 was further fractionated to obtain a soft part palm super olein (iodine value 65). 35 parts by mass of fractionated oil 1 and 65 parts by mass of palm super olein were mixed to obtain fractionated oil 3 (palm super olein, iodine value 60).
(Raw oil)
Rapeseed oil (manufactured by Nisshin Oillio Group, Inc., fluidity and transparency at 5 ° C)
Soybean oil (manufactured by Nissin Oilio Group, Inc., fluid and transparent at 5 ° C)
Palm oil (manufactured by Nisshin Oillio Group, Inc.)
(emulsifier)
Emulsifier 1: Sorbitan fatty acid ester (trade name: Poem O-80V, manufactured by Riken Vitamin Co., Ltd., constituent fatty acid: oleic acid)
Emulsifier 2: Glycerin fatty acid ester (distilled monoglyceride) (trade name: Emulgie MU, manufactured by Riken Vitamin Co., Ltd., constituent fatty acid: linoleic acid)
Emulsifier 3: Glycerin fatty acid ester (distilled monoglyceride) (trade name: Emargy P-100, manufactured by Riken Vitamin Co., Ltd., constituent fatty acids: palmitic acid, stearic acid)
Emulsifier 4: Glycerin fatty acid ester (distilled monoglyceride) (trade name: Emulgie HRO, manufactured by Riken Vitamin Co., Ltd., constituent fatty acid: oleic acid)
Emulsifier 5: Sucrose fatty acid ester (trade name: Ryoto Sugar Ester S-170, manufactured by Mitsubishi Chemical Foods, Inc., constituent fatty acid: stearic acid)
Emulsifier 6: Sucrose fatty acid ester (trade name: Ryoto Sugar Ester ER-290, manufactured by Mitsubishi Chemical Foods, Inc., constituent fatty acid: erucic acid)
Emulsifier 7: polyglycerin fatty acid ester (diglycerin fatty acid ester) (trade name: Sunsoft Q-18D, manufactured by Taiyo Chemical Co., Ltd., constituent fatty acid: stearic acid)
Emulsifier 8: Propylene glycol fatty acid ester (trade name: Riquemar PS-100, manufactured by Riken Vitamin Co., Ltd., constituent fatty acid: stearic acid)
Emulsifier 9: Lecithin (trade name: Lecithin DX, manufactured by Nisshin Oilio Group, Inc.)
(Antioxidant)
Tocopherol (Product name: Tocopherol 80, manufactured by Nisshin Oillio Group, Inc.)

<Evaluation of butter cream>
The raw material of the mixing | blending of Tables 1-3 was melt-mixed, and the oil-fat composition of Examples 1-8 and the oil-fat composition of Comparative Examples 1-5 were obtained by carrying out rapid cooling plasticization using an onlator.
190 g of each oil and fat composition having a product temperature of 20 ° C. was stirred for 20 seconds in a high speed mode using a vertical mixer (trade name: N-50, manufactured by Hobart Japan Co., Ltd.). After stirring, 160 g of syrup (trade name: Enzyme Minamata, manufactured by Nippon Shokuhin Kako Co., Ltd., Brix 70) was added to each fat and oil composition, and the mixture was stirred for 10 seconds in the high speed mode of the vertical mixer. 100 g of milk paste (Brix 70, skimmed condensed milk 25% by weight, syrup 75% by weight) and isomerized liquid sugar (trade name Fujifract H-100, manufactured by Nippon Shokuhin Kako Co., Ltd., Brix 70) are added vertically to each of the obtained mixtures. Each butter cream was obtained by stirring for 10 seconds in the low speed mode of the mold mixer and 20 seconds in the high speed mode and then stirring for 300 seconds in the high speed mode of the vertical mixer. The specific gravity of each butter cream immediately after production was measured, and the foaming property of each butter cream was evaluated according to the following criteria (the lower the specific gravity, the higher the foaming property of the butter cream). Moreover, the mouth melting of each butter cream was evaluated by eating each butter cream immediately after production. In the evaluation of foamability and melting in the mouth, 3 points or more were considered good. The evaluation results are shown in Tables 1-3.

<Evaluation criteria for foamability>
5 points: specific gravity less than 0.65 4 points: specific gravity 0.65 to less than 0.72 3 points: specific gravity 0.72 to less than 0.79 2 points: specific gravity 0.79 to less than 0.86 1 point : Specific gravity is 0.86 or more

<Evaluation criteria for melting in the mouth>
5 points: Melting in mouth is remarkably good and taste is strongly felt.
4 points: Melting in mouth is good and taste is felt.
3 points: Melting in mouth is good and taste is slightly felt.
2 points: Poor melting of the mouth and a slight taste.
1 point: It is difficult to feel taste due to poor melting of the mouth.

As can be seen from Tables 1 and 2, the butter creams using the oil and fat compositions of Examples 1 to 8 had good foamability and meltability in the mouth.
Moreover, as can be seen from Table 3, the butter creams using the oil and fat compositions of Comparative Examples 1 to 5 were not foamable or melted in the mouth.

Claims (8)

Meets the following conditions (a) ~ (d), fat composition following fat A in the oil phase is blended 0.5 to 16 mass%.
(A) The content of C44-C48 triacylglycerol (triacylglycerol in which the total number of carbon atoms of the fatty acid residues constituting it is 44 to 48) in the total triacylglycerol is 14% by mass or more (b) SU2 triacylglycerol (one of the constituent fatty acid residues is a saturated fatty acid residue having 16 to 18 carbon atoms, and two of the constituent fatty acid residues are unsaturated fatty acid residues having 18 carbon atoms) and U3 triacyl (C) M2L triacylglycerol in total triacylglycerol (total triacylglycerol in which all three constituent fatty acid residues are unsaturated fatty acid residues having 18 carbon atoms) Two of the constituent fatty acid residues are saturated fatty acid residues having 14 or less carbon atoms, and one of the constituent fatty acid residues is Triacylglycerol, which is a saturated fatty acid residue having a prime number of 16 or more) and ML2 triacylglycerol (one of the constituent fatty acid residues is a saturated fatty acid residue having 14 or less carbon atoms, and two of the constituent fatty acid residues are 16 or more carbon atoms) (D) PPO triacylglycerol in the total triacylglycerol (positions 1, 2 of the constituent fatty acid residues are palmitic acid residues, 3 The triacylglycerol whose position is an oleic acid residue, or the triacylglycerol whose 1st position of the constituent fatty acid residue is an oleic acid residue and the 2nd and 3rd positions are palmitic acid residues) is 8.5% by mass Less than
Fat and oil A: The total content of M2L triacylglycerol and ML2 triacylglycerol in the total triacylglycerol is 45% by mass or more, and the saturated fatty acid content of 14 or less carbon atoms in the total constituent fatty acids is 20 to 60% by mass. Fats and oils having a saturated fatty acid content of 16 to 18 carbon atoms in the content of 40 to 80% by mass and transesterification The oil / fat composition according to claim 1, wherein liquid oil is blended in an amount of 35 mass% or less in the oil phase. The fat and oil composition according to claim 1 or 2 , which contains an emulsifier. The oil and fat composition according to claim 3 , wherein the emulsifier comprises sorbitan oleate. The fat composition according to any one of claims 1 to 4 , wherein the fat composition is used in butter cream. The butter cream manufactured using the oil-fat composition of any one of Claims 1-5 . The butter cream according to claim 6 , wherein the butter cream is a sand cream, a filling cream or a topping cream. The foodstuff manufactured using the butter cream of Claim 6 or Claim 7 .