JPWO2015182424A1 - Method for preventing moisture absorption and consolidation of powdered foods and drinks - Google Patents

Abstract

Provided is a technology for effectively preventing moisture absorption and consolidation of powdered foods and drinks without adversely affecting sensory quality. By blending a polyglycerin fatty acid ester having an HLB of 5 or less into a powdered food or drink or a raw material thereof, moisture absorption and consolidation of the powdered food or drink is prevented.

Description

  The present invention relates to a method for preventing moisture absorption and consolidation of powder food and drink.

  Some powdered foods and drinks absorb and condense moisture in the storage container and the atmosphere. Therefore, a method for preventing moisture absorption and consolidation of powdered foods and drinks has been studied.

  As a method of preventing moisture absorption and consolidation of powdered foods and drinks, a method using a sucrose fatty acid ester having an HLB (Hydrophile-Lipophile Balance) value of 10 or less is known (Patent Document 1). However, this method has a great adverse effect on the sensory quality in that an unfavorable flavor and egg flavor is imparted by the blending of the sucrose fatty acid ester, and it is not suitable for use in foods and beverages, especially seasonings with a simple taste design. Not suitable.

  Conventionally, a method of coating a powdered food or drink with an additive is also known as a method of preventing moisture absorption and consolidation of the powdered food or drink. Examples of the additive include powdered fats and oils and hardened oils. However, these methods have a problem that a sufficient anti-caking effect cannot be obtained and an adverse effect on the sensory quality is great as in the case of using sucrose fatty acid esters.

  Moreover, the method of improving the solubility or dispersibility to water of powder food-drinks using triglycerine behenate is known (patent document 2). Patent Document 2 further describes that an anti-caking effect can be expected by the same method.

JP 52-130932 A JP2005-021016

  This invention makes it a subject to provide the technique which prevents the moisture absorption consolidation of powder food / beverage products effectively, giving the bad influence on sensory quality as much as possible.

  As a result of intensive studies to solve the above-mentioned problems, the inventors of the present invention blended a low HLB polyglycerin fatty acid ester into a powdered food or drink, so as not to adversely affect the sensory quality as much as possible. The present invention was completed by finding that it was possible to effectively prevent moisture absorption and consolidation.

That is, the present invention can be exemplified as follows.
[1]
It is a powdered food or drink containing a polyglycerin fatty acid ester having an HLB of 5 or less,
Powdered foods and drinks, except when the polyglycerin fatty acid ester is triglycerin behenic acid ester.
[2]
Powdered food and drink according to [1], containing the polyglycerin fatty acid ester at a concentration of 0.01% (w / w) to 5% (w / w).
[3]
Powdered food and drink according to [1] or [2], wherein the polyglycerin fatty acid ester is decaglycerin behenic acid ester.
[4]
The powdered food or drink according to [1] or [2], wherein the polyglycerin fatty acid ester is a mixture of a polyglycerin fatty acid ester and a monoglycerin fatty acid ester, and the HLB is 5 or less.
[5]
Powdered food and drink according to [4], wherein the mixture is a mixture of hexaglycerin octastearate and monoglycerin monobehenate.
[6]
The powder food or drink according to any one of [1] to [5], which is a powder seasoning.
[7]
The powder according to [6], wherein the powder seasoning is powdered chicken broth soup, powdered pork bone soup, powdered consomme, powdered soup, powdered soup, powdered sauce, powdered soy sauce, powdered miso, powdered vinegar, or curry powder Food and drink.
[8]
A method for producing a powdered food or drink, comprising blending a polyglycerin fatty acid ester having an HLB of 5 or less into the powdered food or drink or a raw material thereof,
The method except the case where the said polyglycerol fatty acid ester is triglycerol behenic acid ester.
[9]
The method according to [8], wherein the polyglycerin fatty acid ester is blended at a concentration of 0.01% (w / w) to 5% (w / w).
[10]
The method according to [8] or [9], wherein the polyglycerin fatty acid ester is decaglycerin behenic acid ester.
[11]
The method according to [8] or [9], wherein the polyglycerol fatty acid ester is a mixture of a polyglycerol fatty acid ester and a monoglycerol fatty acid ester, and an HLB is 5 or less.
[12]
The method according to [11], wherein the mixture is a mixture of hexaglycerin octastearate and monoglycerin monobehenate.
[13]
The method according to any one of [8] to [12], wherein the powdered food or drink produced is a powder seasoning.
[14]
[13] The method according to [13], wherein the powder seasoning is powdered chicken broth soup, powdered pork bone soup, powdered consomme, powdered soup, powdered soup, powdered sauce, powdered soy sauce, powdered miso, powdered vinegar, or curry powder. .
[15]
A method for preventing moisture absorption and consolidation of a powdered food or drink, comprising blending a polyglycerin fatty acid ester having an HLB of 5 or less into the powdered food or drink or a raw material thereof,
The method except the case where the said polyglycerol fatty acid ester is triglycerol behenic acid ester.
[16]
The method according to [15], wherein the polyglycerin fatty acid ester is blended at a concentration of 0.01% (w / w) to 5% (w / w).
[17]
The method according to [15] or [16], wherein the polyglycerin fatty acid ester is decaglycerin behenic acid ester.
[18]
The method according to [15] or [16], wherein the polyglycerin fatty acid ester is a mixture of a polyglycerin fatty acid ester and a monoglycerin fatty acid ester, and an HLB is 5 or less.
[19]
The method according to [18], wherein the mixture is a mixture of hexaglycerin octastearate and monoglycerin monobehenate.
[20]
The method according to any one of [15] to [19], wherein the powdered food or drink is a powder seasoning.
[21]
[20] The method according to [20], wherein the powder seasoning is powdered chicken broth soup, powdered pork bone soup, powdered consomme, powdered soup, powdered soup, powdered sauce, powdered soy sauce, powdered miso, powdered vinegar, or curry powder. .

<1> Food / beverage products of this invention The food / beverage products of this invention are powder food / beverage products containing the polyglycerol fatty acid ester of low HLB.

  “Powdered food and drink” refers to food and drink in the form of powder. The powdered food and drink may be eaten in the form of a powder or not. In the present invention, “powder” includes, for example, so-called powder, powder, fine powder, ultrafine powder, granules, fine granules, granules, coarse granules, powder granules, granules, and powders. “Powder” may mean, for example, that the average particle diameter D50 is 1 μm or more, 10 μm or more, 50 μm or more, or 100 μm or more, and the average particle diameter D50 is 3000 μm or less, 2000 μm or less, 1500 μm or less, 1000 μm or less. Or 500 μm or less, and the average particle diameter D50 may be a combination thereof. The “average particle diameter D50” means a particle diameter corresponding to 50% passing mass percentage in the graph of the particle size accumulation curve, specifically, the mass standard in the cumulative particle size distribution obtained by the sieving method. It may mean a particle diameter (median diameter) corresponding to an integrated value of 50%. The average particle diameter D50 can be measured by, for example, a low tap type sieve shaker.

  Examples of powdered foods and drinks include powdered chicken broth soup, powdered pork bone soup, powdered consomme, powdered soup, powdered soy sauce, powdered sauce, powdered soy sauce, powdered miso, powdered vinegar, curry powder and the like; powdered Chinese Powder soups such as soup, powdered corn soup, powdered potage soup, powdered curry soup, powdered miso soup, powdered soup; powdered drinks such as powdered curry roux and powdered stew; powdered beverages such as instant coffee, instant cocoa and powdered green tea Is mentioned. Preferable powder foods and drinks include powder seasonings. Preferred powder seasonings include powdered chicken broth soup and powdered consomme.

  The food / beverage products of this invention contain the polyglycerol fatty acid ester of low HLB. In the present invention, low HLB polyglycerol fatty acid ester is also referred to as “active ingredient”. In the present invention, by blending an active ingredient, an effect of preventing moisture absorption and consolidation of powdered foods and drinks can be obtained without adversely affecting sensory quality as much as possible. This effect is also called “caking prevention effect”. Examples of the sensory quality include a dissolved state and a flavor at the time of dissolution.

  “Prevention of moisture absorption and consolidation” means that moisture absorption and consolidation is less likely to occur when the active ingredient is blended than when no active ingredient is blended, and includes cases where moisture consolidation does not occur at all when the active ingredient is blended. . Examples of the prevention of moisture absorption and consolidation include, for example, an increase in time to reach consolidation in a humid atmosphere, an increase in moisture content (also referred to as consolidated moisture content) at the time when consolidation is reached, and a certain time elapsed Reduction of the degree of caking, or a combination thereof. The time to reach consolidation when the active ingredient is blended is, for example, 1.5 times or more, 2 times or more, 2.5 times or more of the time to reach consolidation when the active ingredient is not blended. It may be increased by a factor of not less than double, or not less than 3.5. The consolidated water content when the active ingredient is blended is, for example, 1.05 times, 1.1 times, 1.2 times, or 1.3 times the consolidated water content when the active ingredient is not blended. It may increase more than that. Whether or not hygroscopic caking is prevented in the food and drink of the present invention is determined by placing the food and drink of the present invention and the control food and drink in appropriate containers and leaving them in a humid atmosphere, It can be determined by comparing the degree. The “control food or drink” is the same powdered food or drink as the food or drink of the present invention, in which no active ingredient is blended (for example, a suitable fat or oil is blended in place of the active ingredient). Say. The conditions of the wet atmosphere and the criteria for the occurrence and degree of consolidation can be appropriately set according to various conditions such as the type of powdered food and drink. As a wet atmosphere, for example, conditions of a temperature of 30 ° C. and a humidity of 65% can be mentioned. The occurrence and degree of consolidation can be evaluated based on, for example, the 12-stage state shown in Table 4, and the case where the score reaches 6 points can be regarded as consolidation.

  “Low HLB” means that the HLB (Hydrophile-Lipophile Balance) value is, for example, 5 or less, 4 or less, or 3 or less. The HLB value can be determined by a conventional method. Examples of the HLB value calculation method include Atlas method, Griffin method, Davis method, and Kawakami method. The calculation method of HLB value can be suitably selected according to various conditions, such as the kind of polyglycerol fatty acid ester. In the present invention, “low HLB” may be any value as long as the HLB value determined by any one or more methods corresponds to the low HLB unless otherwise specified. That is, for example, “the HLB value is 5 or less” may be that the HLB value determined by any one or more methods is 5 or less unless otherwise specified.

  The “polyglycerin fatty acid ester” is a compound in which a fatty acid is ester-bonded to a hydroxyl group of polyglycerin. The kind of polyglycerin fatty acid ester is not particularly limited as long as an anti-caking effect is obtained. The average degree of polymerization of polyglycerol, the average esterification rate, and the type of constituent fatty acid in the polyglycerol fatty acid ester can be appropriately set according to various conditions such as a desired HLB value. In general, the higher the average esterification rate, the lower the HLB value.

  The “average degree of polymerization of polyglycerol” in the polyglycerol fatty acid ester refers to the average value of the degree of polymerization of polyglycerol constituting the polyglycerol fatty acid ester. The average degree of polymerization of polyglycerol may be, for example, 1.5 or more, 2 or more, 2.5 or more, or 3 or more, and is 20 or less, 15 or less, 12 or less, 10.5 or less, or 10 or less. It may be present or a combination thereof. The average degree of polymerization of polyglycerin may be, for example, 1.5 to 20, or 2.5 to 10.5. The polymerization degree of polyglycerol shall be calculated based on the hydroxyl value of polyglycerol. The hydroxyl value of polyglycerin shall be measured according to Japanese Industrial Standard JIS K 0070: 1992.

The “average esterification rate” in the polyglycerin fatty acid ester refers to the average value of the ratios of fatty acid ester-bonded among the polyglycerin hydroxyl groups constituting the polyglycerin fatty acid ester. The average esterification rate may be, for example, 60% or more, 70% or more, 80% or more, or 90% or more. The average esterification rate is calculated by the following formula (I). The hydroxyl value, saponification value, and acid value of the polyglycerol fatty acid ester in the following formula (I) are all measured in accordance with Japanese Industrial Standard JIS K 0070: 1992.
Average esterification rate (%) = [(saponification value−acid value) / (hydroxyl value + saponification value−acid value)] × 100 (I)

  In addition, as above-mentioned, both the polymerization degree and esterification rate of polyglycerol in polyglycerol fatty acid ester are average values. That is, the polyglycerin fatty acid ester is, for example, the degree of polymerization of polyglycerin, the polymerization form of polyglycerin (whether linear, cyclic or branched), esterification rate, depending on various conditions such as the type of production method. However, in the present invention, for convenience of explanation, such a mixture is treated as “one type” polyglycerin fatty acid ester.

  The constituent fatty acid of the polyglycerol fatty acid ester may be a saturated fatty acid or an unsaturated fatty acid. Examples of the constituent fatty acid include fatty acids having 8 to 24 carbon atoms. Specific examples of the constituent fatty acid include behenic acid (behenic acid), oleic acid, stearic acid, myristic acid, lauric acid, and caprylic acid. As the constituent fatty acid, one kind of fatty acid may be used, or two or more kinds of fatty acids may be used in combination. For example, two or more fatty acids may be ester-bonded to one molecule of polyglycerin chain.

  Specific examples of the polyglycerin fatty acid ester include hexaglycerin fatty acid ester and decaglycerin fatty acid ester.

  “Hexaglycerin fatty acid ester” refers to a polyglycerin fatty acid ester having an average degree of polymerization of polyglycerin of about 6. The average degree of polymerization of polyglycerol in the hexaglycerin fatty acid ester may be, for example, 5.5 or more and less than 6.5, 5.9 or more and 6.1 or less, or 6. As described above, the polyglycerol fatty acid ester can be provided as a mixture of a plurality of types of esters, but in the case of the hexaglycerol fatty acid ester, a linear polyglycerol having a polymerization degree of 6 with respect to the total amount of the glycerol fatty acid ester in the mixture. Even if the ratio of the amount of fatty acid ester is, for example, 30% (w / w) or more, 50% (w / w) or more, 70% (w / w) or more, or 90% (w / w) or more Good.

  “Decaglycerin fatty acid ester” refers to a polyglycerin fatty acid ester having an average degree of polymerization of polyglycerol of about 10. The average degree of polymerization of polyglycerol in decaglycerol fatty acid ester may be, for example, 9.5 or more and less than 10.5, 9.9 or more and 10.1 or less, or 10. As described above, the polyglycerol fatty acid ester can be provided as a mixture of a plurality of types of esters, but in the decaglycerol fatty acid ester, a linear polyglycerol having a polymerization degree of 10 with respect to the total amount of the glycerol fatty acid ester in the mixture. Even if the ratio of the amount of fatty acid ester is, for example, 30% (w / w) or more, 50% (w / w) or more, 70% (w / w) or more, or 90% (w / w) or more Good.

  Examples of the hexaglycerin fatty acid ester include hexaglycerin stearic acid ester. Examples of the hexaglycerin stearic acid ester include hexaglycerin octastearic acid ester. “Hexaglycerin octastearic acid ester” is an octaglycerin fatty acid ester in which the number of bonds of stearic acid per 6 glycerin residues is about 8. The number of bonds of stearic acid per 6 glycerin residues in hexaglycerin octastearate may be, for example, 7.5 or more and less than 8.5, 7.9 or more and 8.1 or less, or 8. As described above, the polyglycerin fatty acid ester can be provided as a mixture of a plurality of types of esters, but in the hexaglycerin octastearic acid ester, the degree of polymerization with respect to the total amount of the glycerin fatty acid ester in such a mixture is 6 and stearic acid. The ratio of the amount of the linear polyglycerin stearic acid ester having 8 bonds is, for example, 30% (w / w) or more, 50% (w / w) or more, 70% (w / w) or more, or It may be 90% (w / w) or more.

  Examples of decaglycerin fatty acid esters include decaglycerin behenic acid esters.

  As the active ingredient, for example, those having a low HLB among the above-mentioned polyglycerin fatty acid esters can be used without any particular limitation. As an active ingredient, one kind of low HLB polyglycerin fatty acid ester may be used, or two or more kinds of low HLB polyglycerin fatty acid esters may be used in combination.

  As an active ingredient, polyglycerin fatty acid esters other than triglycerin behenic acid esters may be used. The “triglycerin behenic acid ester” is a triglycerin fatty acid ester having behenic acid as a constituent fatty acid. “Triglycerin fatty acid ester” refers to a polyglycerol fatty acid ester having an average degree of polymerization of polyglycerol of about 3. The average degree of polymerization of polyglycerol in the triglycerol fatty acid ester may be, for example, 2.5 or more and less than 3.5, 2.9 or more and 3.1 or less, or 3. As described above, the polyglycerin fatty acid ester can be provided as a mixture of a plurality of esters, but in the triglycerin fatty acid ester, a linear polyglycerin having a polymerization degree of 3 with respect to the total amount of the glycerin fatty acid ester in such a mixture. Even if the ratio of the amount of fatty acid ester is, for example, 30% (w / w) or more, 50% (w / w) or more, 70% (w / w) or more, or 90% (w / w) or more Good.

  In the present invention, the “low HLB polyglycerin fatty acid ester” is not limited to a polyglycerin fatty acid ester having a low HLB alone, and is a mixture of a polyglycerin fatty acid ester and another emulsifier, and the mixture as a whole is low. It may be an HLB. Hereinafter, such a mixture is also referred to as a “low HLB mixture”. That is, a low HLB mixture can be used as the active ingredient. As an active ingredient, a mixture of one kind of low HLB may be used, or a mixture of two or more kinds of low HLB may be used in combination.

  The type of polyglycerin fatty acid ester constituting the low HLB mixture is not particularly limited as long as an anti-caking effect is obtained. As long as the mixture as a whole has a low HLB, the polyglycerol fatty acid ester constituting the low HLB mixture may or may not be a low HLB alone. As the polyglycerol fatty acid ester constituting the mixture of low HLB, for example, the above-mentioned polyglycerol fatty acid ester can be used without any particular limitation. The low HLB mixture may contain one polyglycerol fatty acid ester or a combination of two or more polyglycerol fatty acid esters.

  The type of other emulsifier constituting the low HLB mixture is not particularly limited as long as an anti-caking effect is obtained. As long as the overall mixture is low HLB, the other emulsifiers that make up the low HLB mixture may or may not be low HLB alone. The low HLB mixture may contain one other emulsifier or a combination of two or more other emulsifiers.

  Examples of other emulsifiers constituting the low HLB mixture include monoglycerin fatty acid esters.

  “Monoglycerol fatty acid ester” is a compound in which a fatty acid is ester-bonded to any one or two of the hydroxyl groups of glycerol. The kind of monoglycerin fatty acid ester is not particularly limited as long as an anti-caking effect is obtained. The average esterification rate and the type of constituent fatty acid in the monoglycerin fatty acid ester can be appropriately set according to various conditions such as a desired HLB value. About the definition and calculation method of the average esterification rate of monoglycerol fatty acid ester, the description regarding the definition and calculation method of the average esterification rate of polyglycerol fatty acid ester can apply mutatis mutandis. The average esterification rate of the monoglycerin fatty acid ester may be, for example, 15% or more, 30% or more, or 50% or more, 85% or less, 70% or less, or 50% or less. A combination of these may be used. Examples of the constituent fatty acid of the monoglycerol fatty acid ester include those exemplified above as the constituent fatty acid of the polyglycerol fatty acid ester. As the constituent fatty acid, one kind of fatty acid may be used, or two or more kinds of fatty acids may be used in combination. For example, two types of fatty acids may be ester-bonded to one molecule of glycerin.

  In addition, as above-mentioned, the esterification rate in monoglycerol fatty acid ester is an average value. That is, the monoglycerin fatty acid ester can be provided, for example, as a mixture of a plurality of esters having different esterification rates and / or esterification positions, depending on various conditions such as the type of production method. For convenience of explanation, such a mixture will be treated as “one type” monoglycerin fatty acid ester.

  As monoglycerol fatty acid ester, monoglycerol behenic acid ester is mentioned, for example. As monoglycerin behenic acid ester, monoglycerin monobehenic acid ester is mentioned, for example. “Monoglycerin monobehenic acid ester” is a monoglycerin fatty acid ester in which the number of bonds of behenic acid per glycerin molecule is about 1. The number of behenic acid bonds per glycerin molecule in the monoglycerin monobehenic acid ester may be, for example, 0.5 or more and less than 1.5, 0.9 or more and 1.1 or less, or 1. As described above, the monoglycerin fatty acid ester can be provided as a mixture of a plurality of types of esters, but in the monoglycerin monobehenic acid ester, the number of bonds of behenic acid to the total amount of the glycerin fatty acid ester in such a mixture is one. The ratio of the amount of monoglycerin behenic acid ester is, for example, 30% (w / w) or more, 50% (w / w) or more, 70% (w / w) or more, or 90% (w / w) or more.

  Although it does not restrict | limit especially as a combination of the polyglycerol fatty acid ester and other emulsifier in the mixture of low HLB, For example, the combination of hexaglycerin octastearic acid ester and monoglycerol monobehenic acid ester is mentioned.

  The ratio of the amount of polyglycerol fatty acid ester to the total amount of emulsifier in the low HLB mixture (total amount of polyglycerol fatty acid ester and other emulsifiers) is, for example, 30% (w / w) or more, 40% (w / w) or more 50% (w / w) or more, 60% (w / w) or more, 70% (w / w) or more, 80% (w / w) or more, or 90% (w / w) or more Well, less than 100% (w / w), 90% (w / w) or less, 80% (w / w) or less, 70% (w / w) or less, or 60% (w / w) or less Or a combination thereof. The ratio of the amount of polyglycerin fatty acid ester to the total amount of emulsifier (total amount of polyglycerin fatty acid ester and other emulsifiers) in the low HLB mixture was, for example, 30% (w / w) to 70% (w / w). May be.

  As an active ingredient, you may use combining the 1 type or more polyglycerol fatty acid ester which is low HLB independently, and the mixture of 1 or more types of low HLB.

  As an active ingredient, a commercial item may be used and what was manufactured and acquired suitably may be used.

  The production method of the active ingredient is not particularly limited, and for example, a known method can be used. For example, the active ingredient can be produced by chemical synthesis, enzymatic reaction, or a combination thereof. Specifically, for example, polyglycerin fatty acid ester can be produced by esterifying a fatty acid with polyglycerin.

  As an active ingredient, a pure product of low HLB polyglycerin fatty acid ester (that is, a polyglycerin fatty acid ester having a low HLB alone or a mixture of low HLB) may be used, and contains a low HLB polyglycerin fatty acid ester. A material may be used. For example, you may mix | blend with the food-drinks of this invention as an active ingredient the solution prepared by melt | dissolving low HLB polyglyceryl fatty acid ester in liquid edible fats and oils.

  The compounding quantity of the active ingredient in the food / beverage product of the present invention (that is, the concentration of the active ingredient in the food / beverage product of the present invention) is not particularly limited as long as the caking prevention effect is obtained. The compounding amount of the active ingredient is, for example, 0.01% (w / w) or more, 0.02% (w / w) or more, 0.05% (w / w) or more, or 0.1% (w / w). w) or higher, 5% (w / w) or lower, 2% (w / w) or lower, 1% (w / w) or lower, 0.5% (w / w) or lower, or 0. It may be 2% (w / w) or less, or a combination thereof. The compounding amount of the active ingredient may be, for example, 0.01% (w / w) to 5% (w / w), or 0.05% (w / w) to 0.2% (w / w). ). In addition, when using the polyglycerol fatty acid ester which is low HLB independently as an active ingredient, the "blending quantity of an active ingredient" here is the low HLB as an active ingredient. In the case of using the above mixture, the blending amount of the mixture is shown.

  The type and amount of components other than the active ingredients in the food and drink of the present invention are not particularly limited as long as an anti-caking effect is obtained. The kind and the compounding quantity of components other than the active ingredient in the food and drink of the present invention can be appropriately set according to the kind and the like of the food and drink of the present invention. As a component other than the active ingredient, for example, the same raw materials as those of ordinary powdered food and drink can be blended in the same blending amount. For example, as raw materials for powdered foods and drinks, sugars such as sugar, honey, maple syrup, sucrose, glucose, fructose, isomerized sugar, oligosaccharides; sugars such as sorbitol, reduced maltose (maltitol), xylitol, erythritol, trehalose, etc. Alcohols; inorganic salts such as sodium chloride, sodium chloride and potassium chloride; organic acids such as acetic acid, citric acid and succinic acid and salts thereof; amino acids such as glutamic acid and glycine and salts thereof; inosinic acid, guanylic acid and xanthylic acid Nucleic acids and salts thereof; Animal meat extracts (beef extract, pork extract, chicken extract, etc.), seafood extracts, vegetable extracts, yeast extract and other extracts; Excipients such as dextrin; Animal oils (chicken fat, chicken oil, pigs) Fat, beef tallow, sheep oil, whale oil, fish oil, egg oil, butter, etc.) and vegetable oils (rapeseed oil, rice oil, Edible oils such as flower oil, sunflower oil, olive oil, peanut oil, palm oil, palm oil, soybean oil, corn oil, cottonseed oil, sesame oil, grape seed oil, sesame oil); dietary fiber, thickening polysaccharide, pH Other food additives such as a buffer, a reducing agent, a chelating agent, a fragrance, and a pigment can be mentioned. The salt is not particularly limited as long as it can be taken orally. As a component other than the active component, one type of component may be used, or two or more types of components may be used in combination. It is preferable that the food / beverage products of this invention contain extracts, for example. Since powder foods and drinks containing extracts are generally easily hygroscopically consolidated, the present invention can be particularly suitably applied to powder foods and drinks containing extracts.

<2> Process for producing food and drink according to the present invention The food and drink according to the present invention can be produced by blending an active ingredient into a powdered food or drink or a raw material thereof. That is, the manufacturing method of the food / beverage products of this invention is a method of manufacturing a powdered food / beverage products including mix | blending an active ingredient with a powder food / beverage products or its raw material. Note that “compounding” is also referred to as “addition”.

  In the present invention, it is possible to prevent moisture absorption and consolidation of powdered foods and drinks by blending active ingredients. That is, the manufacturing method of the food / beverage products of the present invention may be, in other words, a method for preventing moisture absorption and consolidation of the powdered food / beverage products including blending an active ingredient with the powdered food / beverage products or its raw materials.

  The food / beverage products of this invention can be manufactured by the same method using the raw material similar to a normal powder food / beverage products except mix | blending an active ingredient.

  The addition of the active ingredient may be performed at any stage of the production process of the powdered food or drink. That is, an active ingredient may be added to the raw material of powder food / beverage products, may be added to the powder food / beverage products in the middle of manufacture, and may be added to the finished powder food / beverage products. That is, the “powdered food or drink or the raw material thereof” includes any stage in the production process of the powdered food or drink. The active ingredient may be added only once, or may be added in two or more times. When two or more active ingredients are added, all of the active ingredients may be added to the powdered food or drink or its raw materials together, or separately or separately in any combination. You may add to food-drinks or its raw material. An active ingredient can be added to powder food / beverage products or its raw material so that it may become the compounding quantity illustrated above, for example. The active ingredient can be added to a powdered food or drink or a raw material thereof as it is or according to various conditions such as an addition method, as it is, or appropriately prepared in a desired form such as a solution, a suspension, or a slurry. The solution of the active ingredient can be prepared, for example, by dissolving the active ingredient in a suitable medium such as liquid edible oil or fat, or by heating and melting the active ingredient. Examples of liquid edible oils and fats include animal oil such as chicken oil and fish oil, rapeseed oil, rice oil, safflower oil, sunflower oil, olive oil, peanut oil, soybean oil, corn oil, cottonseed oil, sesame oil, grape seed oil, and sesame oil And vegetable oils such as As liquid edible fats and oils, one type of oil may be used, or two or more types of oils may be used in combination. As a method for producing the food or drink of the present invention, specifically, for example, a method of kneading and granulating an active ingredient and a raw material for powdered food or drink, a solution and a suspension of the active ingredient and a raw material for powdered food or drink A method of preparing a liquid such as a liquid or slurry and spray drying, a method of preparing an active ingredient in a liquid such as a solution, suspension or slurry and spraying it on a powdered food or drink, a powdered active ingredient and a powdered food or drink And powder mixing method. That is, for example, when the food / beverage product of the present invention is produced by granulation, the active ingredient may be granulated together with the raw material of the powder food / beverage product, or may be sprayed on the granulated product after granulation. Or a combination thereof. Granulation can be performed by a conventional method. In the food and drink of the present invention, the active ingredient may be mixed with other components, for example, or may cover other components.

  EXAMPLES Hereinafter, although this invention is demonstrated more concretely based on an Example, this invention is not limited to these.

Example: Evaluation of anti-hygroscopic effect of powdered food and drink by low HLB polyglycerin fatty acid ester <Preparation of sample>
A model powder seasoning was prepared with the formulation shown in Table 1 by the following procedure. First, A raw material and B raw material were mixed, humidified, granulated, and dried to obtain a granulated product. Subsequently, the C raw material was sprayed on the granulated material and coated to obtain model powder seasonings (control and sample Nos. 1 to 7). Further, the C raw material and the granulated product were mixed with powder to obtain a model powder seasoning (sample No. 8). As the C raw material, control and sample No. In the case of 7-8, fats and oils were used independently. As the C raw material, sample no. In the case of 1-6, the fats and oils which contain an emulsifier by 10% (w / w) were used. Sample No. In the case of 1 to 6, the final concentration of the emulsifier in the model powder seasoning is 0.15% (w / w). Table 2 shows combinations of emulsifiers and fats.

<Sensory evaluation>
The model powder seasoning was dissolved in hot water to prepare a 2% (w / w) solution. Based on the evaluation points and evaluation criteria shown in Table 3, the dissolution state at the time of dissolution and the taste flavor of the solution were evaluated.

<Consolidation evaluation>
3 g of model powder seasoning was weighed into a weighing bottle. The weighing bottle was placed in a constant temperature bath at a temperature of 30 ° C. and a humidity of 65%, and the time until the model powder seasoning reached consolidation and the water content at that time (also referred to as consolidated water content) were measured. The consolidation was evaluated in the 12-stage state shown in Table 4, and the case where the score reached 6 points was regarded as consolidation.

<Result>
The results are shown in Table 5. It was confirmed that by incorporating a polyglycerin fatty acid ester having an HLB of 3 or less, moisture absorption and consolidation can be largely prevented without adversely affecting the sensory quality. On the other hand, it was confirmed that the polyglycerin fatty acid ester having an HLB of 7 or more has a lower effect of preventing moisture absorption and consolidation than the polyglycerin fatty acid ester having an HLB of 3 or less and adversely affects the taste and flavor. In addition, the sucrose fatty acid ester having an HLB of 3 has the effect of preventing moisture absorption and consolidation next to the polyglycerin fatty acid ester having an HLB of 3 or less, but gives a negative impression on the appearance because bubbles are generated during dissolution. In addition, it was confirmed that the sensory quality had a great adverse effect in that it exhibited a chemical flavor and a delicious taste. Moreover, it was confirmed that hardened oil or powder hardened oil and fat has a low hygroscopic anti-caking effect as compared with polyglycerin fatty acid ester having an HLB of 3 or less, and has a large adverse effect on sensory quality.

  Separately, instead of spraying the low HLB polyglycerin fatty acid ester on the granulated product, when mixing the low HLB polyglycerin fatty acid ester into the A raw material and the B raw material and granulating the model powder seasoning, It was confirmed that the same effect of preventing moisture absorption and consolidation was obtained.

  As described above, it has been clarified that, by blending a low HLB polyglycerin fatty acid ester into a powdered food or drink, the moisture absorption and consolidation of the powdered food or drink can be effectively prevented without adversely affecting the sensory quality.

According to the present invention, moisture absorption and consolidation of powdered foods and drinks can be effectively prevented without adversely affecting sensory quality as much as possible.

Claims (21)

It is a powdered food or drink containing a polyglycerin fatty acid ester having an HLB of 5 or less,
Powdered foods and drinks, except when the polyglycerin fatty acid ester is triglycerin behenic acid ester.   The powder food / beverage products of Claim 1 which contains the said polyglyceryl fatty acid ester by the density | concentration of 0.01% (w / w)-5% (w / w).   The powder food / beverage products of Claim 1 or 2 whose said polyglycerol fatty acid ester is decaglycerol behenic acid ester.   The powdered food or drink according to claim 1 or 2, wherein the polyglycerol fatty acid ester is a mixture of a polyglycerol fatty acid ester and a monoglycerol fatty acid ester, and the HLB is 5 or less.   The powder food / beverage products of Claim 4 whose said mixture is a mixture of hexaglycerin octastearic acid ester and monoglycerin monobehenic acid ester.   The powder food or drink according to any one of claims 1 to 5, which is a powder seasoning.   The powder according to claim 6, wherein the powder seasoning is powdered chicken broth soup, powdered pork bone soup, powdered consomme, powdered soup, powdered soup, powdered sauce, powdered soy sauce, powdered miso, powdered vinegar, or curry powder. Food and drink. A method for producing a powdered food or drink, comprising blending a polyglycerin fatty acid ester having an HLB of 5 or less into the powdered food or drink or a raw material thereof,
The method except the case where the said polyglycerol fatty acid ester is triglycerol behenic acid ester.   The method of Claim 8 which mix | blends the said polyglyceryl fatty acid ester with the density | concentration of 0.01% (w / w)-5% (w / w).   The method according to claim 8 or 9, wherein the polyglycerin fatty acid ester is decaglycerin behenic acid ester.   The method according to claim 8 or 9, wherein the polyglycerin fatty acid ester is a mixture of a polyglycerin fatty acid ester and a monoglycerin fatty acid ester, and the HLB is 5 or less.   The method according to claim 11, wherein the mixture is a mixture of hexaglycerin octastearate and monoglycerin monobehenate.   The method according to any one of claims 8 to 12, wherein the produced powdered food or drink is a powder seasoning.   The method according to claim 13, wherein the powder seasoning is powdered chicken broth soup, powdered pork bone soup, powdered consomme, powdered soup, powdered soup, powdered sauce, powdered soy sauce, powdered miso, powdered vinegar, or curry powder. . A method for preventing moisture absorption and consolidation of a powdered food or drink, comprising blending a polyglycerin fatty acid ester having an HLB of 5 or less into the powdered food or drink or a raw material thereof,
The method except the case where the said polyglycerol fatty acid ester is triglycerol behenic acid ester.   The method of Claim 15 which mix | blends the said polyglyceryl fatty acid ester with the density | concentration of 0.01% (w / w)-5% (w / w).   The method according to claim 15 or 16, wherein the polyglycerin fatty acid ester is decaglycerin behenic acid ester.   The method according to claim 15 or 16, wherein the polyglycerin fatty acid ester is a mixture of a polyglycerin fatty acid ester and a monoglycerin fatty acid ester, and the HLB is 5 or less.   The method of claim 18, wherein the mixture is a mixture of hexaglycerin octastearate and monoglycerin monobehenate.   The method according to any one of claims 15 to 19, wherein the powdered food or drink is a powder seasoning. 21. The method according to claim 20, wherein the powder seasoning is powdered chicken broth soup, powdered pork bone soup, powdered consomme, powdered soup, powdered soup, powdered sauce, powdered soy sauce, powdered miso, powdered vinegar, or curry powder. .