JP2017158454A - Processed cheeses - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a processed cheeses having good flavor and texture, flowability and heat resistant shape retention property and capable of being stored at ordinary temperature and a manufacturing method therefor.SOLUTION: There is provided a processed cheeses containing molten salt, glycerine and hydroxypropylated starch by adjusting added amount of the glycerine/added amount of the molten salt, added amount of the hydroxypropylated starch/added amount of the molten salt, added amount of the hydroxypropylated starch/added amount of glycerin. There is provided a manufacturing method of processed cheeses including a process for heating and emulsifying the molten salt, the glycerine and the hydroxypropylated starch at 65°C or more.SELECTED DRAWING: None

Description

  The present invention relates to processed cheeses that can be stored at room temperature.

Processed cheeses are not only eaten as they are, but are also widely used as ingredients for various processed foods. Processed cheeses used as processed food materials have different characteristics depending on the type of processed food.
Processed cheeses for confectionery are required to have not only good flavor and texture but also fluidity, moderate hardness and heat-resistant shape retention. In other words, fluidity in the production line is required during the production of processed cheeses, and when used in confectionery, it is suitable for moderate hardness that makes it easy to wrap and suitable for baking at high temperatures. Heat resistant shape retention that does not go down is required.
Furthermore, in general, processed cheeses are distributed in a temperature range of 0 ° C. to 10 ° C. (chilled distribution), but those that can be distributed at normal temperature are required for ease of use.

  Patent Document 1 relates to a process cheese that does not require high-temperature holding or aging after heat-dissolution, has moderate heat-resistant shape retention properties, and has little temporal change in heat-resistant shape formation during refrigerated storage, and is 100% by weight of raw cheese On the other hand, cheese containing 0.1 to 5.0% by weight of molten salt containing pyrophosphate and 0.1 to 4.0% by weight of whey protein is resistant to heat even after being stored at 10 ° C. for 90 days. It is disclosed that shape retention is maintained.

  Patent Document 2 relates to process cheeses having excellent room temperature storage stability and good texture and a method for producing the same, and after adding glycerin, it is heated and emulsified at a temperature of 75 ° C. or higher to have a water activity of 0.55 to 0.00. It is disclosed that the processed cheese No. 94 has no change in hardness even after being stored at 25 ° C. for 6 months, has less oil-off and crispness, and has less flavor deterioration.

  Patent Document 3 relates to a method for producing cheese that can be distributed at room temperature, packaging heat-resistant cheese with a heat-resistant synthetic resin packaging material having low gas barrier properties, enclosing carbon dioxide in the package, and allowing it to retort. It is disclosed that the cheese to be secondarily packaged after cooking is good in flavor and texture even after being stored at room temperature for 90 days.

Although the cheese currently disclosed by patent document 1 is provided with the heat-resistant shape retention property, it does not disclose about fluidity | liquidity, Furthermore, refrigeration preservation | save is required. The cheese disclosed in Patent Document 2 can be stored at room temperature, but does not disclose heat-resistant shape retention and fluidity. Patent Document 3 has no detailed description on the heat-resistant cheese used, and the production method is complicated, requiring carbon dioxide encapsulation and secondary packaging.
As described above, there is no disclosure of process cheeses that have not only good flavor and texture, but also fluidity and heat-resistant shape retention, and also have room temperature storage stability.

Japanese Patent Laid-Open No. 2015-211687 JP 2012-29631 A JP-A-9-182558

  This invention makes it a subject to provide process cheeses which have fluidity | liquidity and heat-resistant shape retention property, and can be preserve | saved at normal temperature.

In order to solve the above problems, the present invention includes the following configurations.
(1) Process cheeses characterized by containing molten salt, glycerin, and hydroxypropylated starch.
(2) The processed cheese according to (1), wherein the water activity is 0.94 or less.
(3) The processed cheese according to any one of (1) or (2), wherein the heat-resistant shape retention is 70% or more.
(4) The addition amount of the molten salt is 0.5 wt% or more and 4 wt% or less, the addition amount of the glycerin is 0.2 wt% or more and 30 wt% or less, and the addition amount of the hydroxypropylated starch is 2 The processed cheese according to any one of (1) to (3), wherein the processed cheese is 1% by weight or more and 25% by weight or less.
(5) The value obtained by dividing the addition amount of the glycerin by the addition amount of the molten salt is 0.5 to 20 and the addition amount of the hydroxypropylated starch is divided by the addition amount of the molten salt. And the value obtained by dividing the addition amount of the hydroxypropylated starch by the addition amount of the glycerin is 0.5 or more and 3.5 or less. Process cheeses as described in (4).
(6) A food comprising the processed cheese according to any one of (1) to (5).
(7) A process cheese production method comprising a step of heat-emulsifying molten salt, glycerin, and hydroxypropylated starch at 65 ° C or higher.

  The present invention provides process cheeses that have fluidity and heat-resistant shape retention and can be stored at room temperature.

  The processed cheeses of the present invention will be described in detail. Processed cheeses of the present invention contain a molten salt, glycerin, and hydroxypropylated starch. The amount of glycerin added / the amount of molten salt added and the amount of hydroxypropylated starch added / added molten salt By adjusting the amount and the addition amount of hydroxypropylated starch / addition amount of glycerin, processed cheeses having good flavor and texture, fluidity, heat-resistant shape retention property and having room temperature storage stability It is to provide.

The raw material of process cheese is demonstrated.
Natural cheese used for the processed cheeses of the present invention is not particularly limited, and examples include cheddar cheese, gouda cheese, edam cheese, emmental cheese, parmesan cheese, camembert cheese, blue cheese, cream cheese, quark cheese, and cottage cheese. The The added cheese should just be 40 to 80 weight%. In addition, there is no particular limitation on adding dairy products such as butter, cream, skim milk powder, whey powder, buttermilk powder, whole milk powder, and various foods, flavors, spices and the like for flavoring purposes.

  If the molten salt used for the process cheese of this invention is generally used by manufacture of process cheese, there will be no restriction | limiting in particular, A phosphate, a citrate, a tartrate etc. can be used.

  The glycerin used in the processed cheeses of the present invention may be anything as long as it can be used by adding to food. If the glycerin content is 1% by weight or more, the aqueous solution containing glycerin and other food ingredients Mixtures can also be used.

The hydroxypropylated starch used in the processed cheeses of the present invention may be any as long as it can be used in food.
Moreover, if hydroxypropylated starch is contained, what contains 1 type or multiple selected from starch other than hydroxypropylated starch, dextrin, and modified starch can also be used.
Examples of the starch include corn starch, wheat starch, rice starch, mylo starch, waxy corn starch, potato starch, candy starch, tapioca starch, sago starch, kuzu starch, bracken starch, lotus root starch, and mung bean starch. Dextrin can be exemplified by these hydrolysates.
Modified starch includes acetylated adipic acid crosslinked starch, acetylated phosphate crosslinked starch, acetylated oxidized starch, starch sodium octenyl succinate, acetate starch, oxidized starch, hydroxypropylated phosphate crosslinked starch, phosphate monoesterified phosphate Examples include cross-linked starch, phosphorylated starch, phosphate cross-linked starch, starch glycolate, sodium starch phosphate ester, roasted dextrin, acid-treated starch, alkali-treated starch, bleached starch, and enzyme-treated starch.

The addition amount of the molten salt may be 0.5% by weight or more and 4% by weight or less in the processed cheeses, preferably 1% by weight or more and 3.5% by weight or less, more preferably 1.5% by weight or more. 0% by weight or less.
The amount of glycerin added may be 0.2 wt% or more and 30 wt% or less in the processed cheeses, and the water activity of the processed cheeses depends on the type of natural cheese used for the raw material and the amount of added moisture. What is necessary is just to adjust the addition amount so that it may become the range of 0.55-0.94.
The added amount of hydroxypropylated starch may be 2 wt% or more and 25 wt% or less.

Further, the molten salt, glycerin and hydroxypropylated starch used in the processed cheeses of the present invention are adjusted so that the addition amount of each component satisfies the following while satisfying the range of the addition amount described in the above paragraph (0016). .
Addition amount of glycerin / addition amount of molten salt = 0.5 or more and 20 or less Addition amount of hydroxypropylated starch / addition amount of molten salt = 1.5 or more and 20 or less Addition amount of hydroxypropylated starch / addition amount of glycerin = 0.3 to 3.5

  It is good for processed cheeses by adjusting the addition amount of molten salt, the addition amount of glycerin, and the addition amount of hydroxypropylated starch so as to satisfy the conditions described in the above paragraphs (0016) and (0017). Process cheeses which impart flavor and texture, fluidity, heat-resistant shape retention, and have room temperature storage stability can be obtained.

The manufacturing method of process cheeses is demonstrated.
What is necessary is just to follow the manufacturing method of general process cheeses for manufacture of the process cheeses of this invention. That is, raw material cheese, molten salt, glycerin, hydroxypropylated starch, and other raw materials may be weighed, heated and emulsified, and filled into a desired container.

Although the temperature of heat emulsification should just be 65 degreeC or more and 120 degrees C or less, 70 degreeC or more and 110 degrees C or less are preferable, and 75 degreeC or more and 100 degrees C or less are more preferable.
As the emulsifier used for the heat emulsification, any one can be used as long as it is used for the production of normal process cheeses such as a kettle type emulsifier, a cheese cooker, a thermo cylinder, a high-speed shearing type emulsifier, etc. It can be produced by the same operation as the production of processed cheese.

Processed cheeses after heat emulsification are hot-packed (filled, individually wrapped slices, cartons, etc.) filled at 65 ° C or higher, molded while cooling from about 15 ° C to about 35 ° C, and then cooled and packaged. Can be filled and packaged by cold pack method.
Examples of the present invention will be described in detail below, but the present invention is not limited thereto.

Example product 1 to Example product 3 and Comparative example product 1 to Comparative product 3 having the formulations shown in Table 1 were prepared.
Process cheeses were prepared under the following conditions. That is, the raw materials are put into a vertical shearing type emulsifier (manufactured by Nichiraku Kikai Co., Ltd.), stirred at 1500 rpm while blowing steam into the jacket, and heated for emulsification by holding for 30 seconds after reaching 85 ° C. Later, 500 g was filled into a bag made of vinyl chloride, packaged so that there was no head space, and then cooled to 20 ° C. Then, it preserve | saved for 6 months with the incubator adjusted to 20 degreeC.

[Test Example 1]
Example products 1 to 3 and comparative example products 1 to 3 were evaluated as follows.
(1) Viscosity (Evaluation of fluidity)
For processed cheeses after heat emulsification, the viscosity when the product temperature was 80 ° C. was measured using a Viscotester VT-04F viscometer (using rotor 1 or 2, manufactured by Rion Corporation). 300 dPa · s or less was considered to have fluidity.
(2) Water activity The sample was set to 20 ° C. and measured with Aqua Rab (Dekagon). The measurement was carried out 3 days after production (hereinafter immediately after production) and 6 months later. 0.94 or less was considered to have storage stability at room temperature.
(3) Heat-resistant shape retention property Process cheeses molded into a cylindrical shape having a diameter of 30 mm and a height of 15 mm were heated at 150 ° C. for 12 minutes in a deck oven (manufactured by Fuji Mac). After heating, the height of the processed cheese at room temperature was measured, and the ratio (%) to the height of the processed cheese before heating was determined. The measurement was carried out immediately after production, 3 months later and 6 months later. 70% or more was regarded as having heat-resistant shape retention.
(4) Flavor and organization Sensory evaluation was conducted on 20 panels. The evaluation was performed at 11 points of 0 to 10 points with 10 points immediately after production. A score of 7 or more was accepted.
(5) Hardness Maximum when the sample is 20 ° C., cut into φ15 mm × 20 mm × 8 mm, and cut with a rheometer (manufactured by Fudo Kogyo Co., Ltd.) at a speed of 6 cm / min perpendicular to the length direction with a φ0.3 mm piano wire. Stress was measured. 10 to 80 gf / mm ² was set as an appropriate hardness.

The viscosities immediately after production were 400 dPa · s for Comparative Product 1 and 600 dPa · s for Comparative Product 2, and did not have the fluidity required for the production of processed cheeses.
The water activity was 0.94 or less, which is the standard for all of Examples 1 to 3 and Comparative Examples 1 to 3, and had normal storage stability.
The heat-resistant shape retention was low in Comparative Example Product 2 and Comparative Example Product 3 and was less than 70% as a reference.
The flavor was 7 points or more in all, but the structures of Comparative Example Product 2 and Comparative Example Product 3 were 7 points or less after 6 months of storage, which was poor.
The hardness of Examples 1 to 3 and Comparative Example 3 was no problem for 3 months or more, but Comparative Example 1 was 3 months or more, and Comparative Example 2 was high immediately after production, and the standard 80 gf was / mm. ² exceeded.
Comparative example products in which the addition amount of molten salt, glycerin and hydroxypropylated starch is all within the range described in paragraph (0016), but glycerin / molten salt is 30 and is outside the range described in paragraph (0017) No. 1 was confirmed to have high viscosity and lack fluidity during the production of processed cheeses.

  On the other hand, Example Product 1 to Example Product 3 that satisfy the conditions described in paragraphs (0016) and (0017) have fluidity, heat-resistant shape retention, good flavor and structure, and It was processed cheese which has preservability.

Example products 4 and 5 having the formulations shown in Table 2 were prepared. The preparation method, storage conditions, and test conditions are the same as those in paragraphs (0022) and (0023).
Furthermore, cheese-containing buns were prepared using Example products 4 and 5 stored for 6 months, and the suitability and bun suitability at this time were evaluated.
The suitability was evaluated by sensory evaluation of the ease of forming a cheese cake when making a cheese-filled bun. The bun suitability prepared the bun with cheese by baking for 20 minutes at 180 degreeC, and observed the cross section of the prepared bun visually.

Even when 70% by weight of Gouda cheese is included, Example Product 4 and Example Product 5 in which the addition amount of molten salt, glycerin, and hydroxypropylated starch satisfies the conditions described in paragraphs (0016) and (0017) are good. It was a processed cheese that had a good flavor and structure, fluidity, heat-resistant shape retention, and storage stability at room temperature.
In addition, Example Product 4 and Example Product 5 have moderate hardness and suitability for wrapping even after storage at room temperature for 6 months, and the shape is maintained after firing and also suitable for wharf. Had. That is, Example Product 4 and Example Product 5 had excellent confectionery suitability. The photograph after baking of the bun with cheese manufactured using the Example product 4 is shown in FIG. 1, and the evaluation results of the Example product 4 and the Example product 5 are shown in Table 2.

(Figure 1)

Claims (7)

  Processed cheese characterized by including molten salt, glycerin, and hydroxypropylated starch.   The processed cheese according to claim 1, wherein the water activity is 0.94 or less.   The processed cheeses according to any one of claims 1 and 2, wherein the heat-resistant shape retention is 70% or more.   The addition amount of the molten salt is 0.5 wt% or more and 4 wt% or less, the addition amount of the glycerin is 0.2 wt% or more and 30 wt% or less, and the addition amount of the hydroxypropylated starch is 2 wt% or more. The processed cheese according to any one of claims 1 to 3, wherein the content is 25% by weight or less.   A value obtained by dividing the addition amount of the glycerin by the addition amount of the molten salt is obtained by dividing the addition amount of the hydroxypropylated starch by the addition amount of the molten salt. The obtained value is 1.5 or more and 20 or less, and the value obtained by dividing the addition amount of the hydroxypropylated starch by the addition amount of the glycerin is 0.5 or more and 3.5 or less. Item 6. Process cheeses according to item 4.   A food comprising the processed cheese according to any one of claims 1 to 5.   A method for producing processed cheese, comprising a step of heat-emulsifying molten salt, glycerin, and hydroxypropylated starch at 65 ° C or higher.