JP3799600B2 - How to make fried pie - Google Patents

Description

【００２７】
全原料をよこ型ミキサー（(株)オシキリ、「ＨＭ３００」）で低速３分、中速５分、高速２分ミキシングし、こね上げ温度１９℃となる元生地を得た。この元生地を５ｋｇに大分割し、厚さ約２ｃｍのシート状に伸ばし、冷蔵庫で３時間ねかせて保存した。不二製油(株)製の「アートピア ＥＬ」(商品名)１ｋｇの折込みマーガリンを生地シートではさみパイシーターで圧延と折りたたみを繰り返して、４×４×６の９６層の厚さ３．８ｍｍシート生地とした。
【００２８】
次いで太さ１．５ｍｍφ、縦間隔１０ｍｍ、横間隔５ｍｍのピケで順次一列ごとずらして貫通孔をあけた。これを重量４０ｇ、長さ／幅１１ｃｍ、の正方形にカットし、中心部に柔らかめのカレーフィリング２０ｇを入れて、生地を片側から折込み三角形に合わせ、中心部を押さえて厚み１４ｍｍのパイ生地を得た。折込むときに水で生地を湿らせ接着を完全なものとした。−３５℃のブラストフリーザーで３０冷却して、冷凍生地とした。得られた冷凍生地は−２０℃の冷凍庫で保存した。
【００２９】
得られた扁平な三角形の冷凍生地の中心部をナイフでカットして生地の三層の厚みを測定し、上層、フィリング層（具層）、下層はそれぞれ４ｍｍ、６ｍｍ、４ｍｍであった。全体の厚みは凍結前と同じ１４ｍｍであった。
【００３０】
＜比較例用冷凍生地の製造＞
上記実施例１の配合とミキシングで生地を製造したものを同様に５ｍｍ厚さのパイシートとして、孔をあけることなく、縦横のサイズは同じで５５ｇに分割し、カレーフィリングを包あんして、成型は少し厚みのある形に成型した。生地をアルミ型冷却板に並べ、−４０℃で３５分急速凍結し、カレーパイの冷凍生地を得た。得られた冷凍生地をポリ袋に密封し、−２０℃冷凍庫で２週間保存した。
【００３１】
［実施例２］
Ｂクリームパイ冷凍生地
＜元生地の製造＞
次ぎの配合を用いてパイ用元生地を製造する。

【００３２】
全原料をよこ型ミキサーで低速３分、中速５分、高速２分ミキシングし、こね上げ温度１９℃となる元生地を得た。この元生地を５ｋｇに大分割し、厚さ約２ｃｍのシート状に伸ばし、冷蔵庫で３時間ねかせて保存した。不二製油(株)製の「アートピア ＥＬ」１ｋｇの折込みマーガリンを生地シートではさみレオン自動機(株)製の「ＣＷＣパイライン」で圧延と折りたたみを繰り返して、４×４×６の９６層の厚さ３ｍｍシート生地とした。
【００３３】
次いで太さ１．３ｍｍφ、縦間隔１０ｍｍ、横間隔５ｍｍのピケで順次一列ごとずらして貫通孔をあけた。これを重量５０ｇ、長さ１１ｃｍ／幅９ｃｍ、の長方形にカットし、中心部にカスタードクリーム２０ｇを入れて、生地を両側から折込み四角形に合わせ、中心部を押さえて厚み１６ｍｍのパイ生地を得た。折込むときに水で生地を湿らせ接着を完全なものとした。−３５℃のブラストフリーザーで３０冷却して、冷凍生地とした。得られた冷凍生地は−２０℃の冷凍庫で保存した。
【００３４】
得られた扁平な四角形の冷凍生地の中心部をナイフでカットして生地の三層の厚みを測定し、上層、フィリング層（具層）、下層はそれぞれ５ｍｍ、６ｍｍ、５ｍｍであった。全体の厚みは凍結前と同じ１６ｍｍであった。
【００３５】
＜比較例用冷凍生地の製造＞
上記実施例２と同様に５ｍｍ厚さのパイシートとして、孔をあけることなく、縦横のサイズ等は同じで同様の形に成型した。生地をアルミ型冷却板に並べ、同様に急速凍結し、パイ生地を得た。
【００３６】
＜冷凍生地の揚げテスト結果＞
実施例１、比較例１、実施例２、比較例２夫々の冷凍生地を使用して、直接１８０℃の油温度で揚げた結果を下表に示した。
【００３７】
【表１】

【００３８】
【発明の効果】
本発明に係る成型冷凍生地は、これを解凍なしで、揚げたてのパイ製品を供給することが可能であり、簡便且つ容易に多種類のパイを必要に応じてサービスすることができる。顧客の注文を受けてから短時間に揚げたてパイを調理できることから、ファーストフード、レストラン、コーヒー店等において最適である。また家庭においても手軽に揚げたてパイを調理でき、喫食が楽しめる。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method for producing a deep-fried pie that is obtained by frying a molded frozen dough for pie in a short time.
[0002]
[Prior art]
Conventionally, frozen bread dough is manufactured by baking or frying after thawing and proofing, so freshly prepared bread and donuts could not be cooked in a short time when necessary. Some baked pies do not require thawing and proofing, but even that requires about 20-25 minutes to cook.
[0003]
It is well known that pie is made in a thin layer of flour dough and butter or margarine that are folded and stretched repeatedly to make a thin layer (“Professional Bread Making”, 7th Edition, Bread News publisher 1995).
[0004]
Conventionally, it is usual to place the baked frozen pie dough in an oven in a frozen state without thawing and to bake it. In this case, however, it takes about 20 minutes to burn. In addition, fried pie usually takes a long time to thaw after being thawed because it is poorly cooked.
[0005]
Frozen dough is convenient because it can be stored for a long period of time, but it can be cooked in the fastest possible time at a store such as fast food, even when ordering from the customer or even when cooking at home. There is a need to be. However, in particular, in the type of frozen frozen dough that wraps the ingredients, it is necessary to fry them after the ingredients are thawed because of the large latent heat of fusion. Therefore, it is difficult to fry frozen dough directly without thawing. In addition, when the surface is in a proper fried state, the center portion is cold, and the surface portion is burnt under heating conditions such that the center portion becomes hot when eating.
[0006]
On the other hand, it is necessary to be able to fry in less than 10 minutes, preferably in less than 5 minutes, in order to obtain sufficiently satisfied operability and workability by supplying freshly fried pie products. For this reason, since the temperature of oil cannot be lowered | hung, it is difficult to heat until a center part becomes hot.
[0007]
It is not preferable that the temperature of the ingredients is 30 ° C. or less during eating because the fried feeling of the product is impaired. A range of 45 ° C to 80 ° C is preferable if possible. Although it is conceivable to deal with it by frying twice, it is not preferable because it takes time and effort due to leaving it after frying.
[0008]
[Problems to be solved by the invention]
If the frozen pie dough can be used for frying without thawing, it is preferable because not only the operation is simple, but also the advantage that hot fried pie products can be supplied.
[0010]
An object of the present invention is to provide a method for producing a deep-fried pie having good volume and texture by frying a molded frozen dough for pie in a short time without thawing .
[0011]
[Means for Solving the Problems]
The present inventor researched the behavior and form of frozen pie dough, and the thickness of the whole dough when incorporating the ingredients is 40 mm or less, for example, a three-layer structure of upper dough, center utensils, and lower dough If it is a molded frozen pie dough made of pie dough that has a multi-layered structure, etc. and has been perforated, the frying time when fried is short and the temperature at the center of the product rises easily, fried The present inventors have found that the volume and texture of the product are good and have completed the present invention.
[0012]
That is, the present invention provides a pie- shaped dough having a thickness of 40 mm or less and subjected to perforation treatment so as to perforate at least one through- hole having a diameter of 0.5 to 4 mm per 1 cm ² of multi-layer pie- shaped dough. intact oil temperature 160 to 210 ° C. the ingredients such without thawing fried pies for molding frozen dough that has a multilayer structure Tsutsumian using, fried pies, characterized in that frying in a short time of 1 minute to 10 minutes It is a manufacturing method.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail.
In the present invention, “pie” refers to a dough and an oil and fat layer by applying heat to a dough and a layer of fats and oils by repeating the operation of wrapping margarine or butter with dough mainly composed of flour, and extending and folding. A product whose fabric is peeled thin due to evaporation of moisture and expansion of air between layers. A layered pie dough before applying heat such as baking is also abbreviated as pie at the same time. Yeast is not used in principle and expands and expands when water vapor expands.
[0014]
In addition to flour, the dough may contain salt, sugars, fats and oils, dairy products, etc. as auxiliary ingredients. Margarine, butter and chocolate are used in a ratio of 20 to 80 parts by weight with respect to 100 parts by weight of the dough, and the number of folding layers is 24 or more, preferably 48 or more. It also includes kneaded pie with a folding layer formed by mixing chip-shaped margarine into the dough.
[0015]
The drilling performed as a pique of puff dough usually does not penetrate, but as a vent. The bottom of the fabric is to keep the bottom so that there are no holes. However, the present invention is characterized in that even a small portion has a through hole.
[0016]
The pie dough is perforated with pores. In this case, the pores preferably have a diameter of 0.5 to 4 mm, particularly preferably 0.8 to 2 mm. The number of pores is preferably 1 to 10 per cm ² , particularly preferably 2 to 4.
[0017]
When using pierced pie dough and the number of holes per 1 cm ² area is 1 to 10, even if it is a frozen dough with a filling (filling) in the center, the total thickness is 40 mm or less Satisfactory results can be obtained even if the frozen pie dough is fried directly. Compared to the case where there is no through-hole, the temperature rises faster in the center, the ingredients melt, the temperature rises, and a freshly fried pie that can be eaten immediately is obtained.
[0018]
The shape of the pore is usually a cylindrical shape, but the cross section has no particular problem as long as water vapor can be transferred. It is preferable that the size of the hole is larger on the inner side, which is the direction of the tool, since heat conduction is promoted.
[0019]
If the temperature of the oil during frying is low, it is less likely to burn, but the overall frying time becomes longer or the finish becomes oily, so it is usually 160 ° C. or higher, preferably 170 to 210 ° C. Although it can be fried even at a temperature exceeding 210 ° C., the fried color tends to be dark.
[0020]
First, the dough is mainly made of high-protein flour as wheat flour, using a dough obtained by mixing in a conventional manner, adding a predetermined amount of water to sugar, skim milk powder, oil paper, dough improving agent, and other additives. After wrapping oil or butter in the center of the dough, it is extended to a sheet, stacked in multiple layers, and this is repeated to obtain a sheet-like pie dough. Molded to produce a sheet-like fabric thickness of about 6 mm or less. This is drilled manually or mechanically using a picket of the required thickness. In the case of manual operation, a sufficient force is applied so that the hole penetrates. The number of pores is adjusted to be 1 or more and 10 or less. Use this to wrap the filling inside, then combine the dough well, glue with water or beaten egg, adjust with a rolling pin etc. to adjust the overall thickness, and finally freeze at -20 ℃ or less and the product To do.
[0021]
In the case of mechanical molding, for example, ordinary dough and fats and oils are folded, and the sheet is stretched and overlapped with a pie dough forming machine to make a thin sheet-like dough, and mechanically penetrating pores are drilled. It is manufactured by placing a filling on and molding it appropriately. Molded into a triangle or quadrangle, wrapped in a filling, and pressed with two or three rolls to obtain a predetermined thickness.
[0022]
When the frozen dough is directly fried, the thickness on one side of the dough is 3 to 16 mm, preferably 5 to 13 mm, in order to fry at 180 ° C. in 4 minutes. The thickness ratio of the multilayer structure, for example, the three-layer structure, is preferably about the same between the upper and lower fabrics, and the tool is preferably 10 to 50% of the total thickness.
[0023]
When tools are interposed, it is preferable to use tools that are fluid at room temperature because heat can be easily transferred to the center.
[0024]
Furthermore, since the frozen pie dough obtained by the present invention does not cause blisters that often occur when fried, the defective rate of the product is reduced and the yield rate is high.
[0025]
【Example】
Hereinafter, the present invention will be specifically described with reference to examples.
[0026]
[Example 1]
A Curry pie frozen dough <Manufacture of original dough>
The original dough for pie is manufactured using the following composition.

[0027]
All raw materials were mixed with a horizontal mixer (Oshikiri Co., Ltd., “HM300”) at a low speed of 3 minutes, a medium speed of 5 minutes, and a high speed of 2 minutes to obtain a dough having a kneading temperature of 19 ° C. This original dough was roughly divided into 5 kg, stretched into a sheet with a thickness of about 2 cm, and stored in a refrigerator for 3 hours. “Opia EL” (trade name) manufactured by Fuji Oil Co., Ltd. 1 kg of folding margarine is sandwiched between dough sheets, rolled and folded with a pie sheeter, 4 × 4 × 6, 96 layers, 3.8 mm thick Made dough.
[0028]
Next, through-holes were formed by sequentially shifting one line at a time with a picket having a thickness of 1.5 mmφ, a vertical interval of 10 mm, and a horizontal interval of 5 mm. Cut this into a square with a weight of 40 g and a length / width of 11 cm, put 20 g of soft curry filling in the center, fold the dough from one side, match the triangle, hold the center and make a 14 mm thick puff pastry Obtained. The fabric was moistened with water when folded to ensure complete adhesion. It was cooled with a blast freezer at −35 ° C. for 30 to make a frozen dough. The obtained frozen dough was stored in a -20 ° C freezer.
[0029]
The center of the obtained flat triangular frozen dough was cut with a knife and the thickness of the three layers of the dough was measured. The upper layer, filling layer (material layer), and lower layer were 4 mm, 6 mm, and 4 mm, respectively. The total thickness was 14 mm, the same as before freezing.
[0030]
<Manufacture of frozen dough for comparative example>
The dough produced by mixing and mixing the above Example 1 is similarly made into a 5 mm thick pie sheet, and the shape is divided into 55 g with the same vertical and horizontal sizes, without holes, wrapped with curry filling, and molded. Was molded into a slightly thick shape. The dough was placed on an aluminum-type cooling plate and snap frozen at −40 ° C. for 35 minutes to obtain a frozen dough for curry pie. The obtained frozen dough was sealed in a plastic bag and stored in a −20 ° C. freezer for 2 weeks.
[0031]
[Example 2]
B cream pie frozen dough <Manufacture of original dough>
The original dough for pie is manufactured using the following composition.

[0032]
All raw materials were mixed with a horizontal mixer at a low speed of 3 minutes, a medium speed of 5 minutes, and a high speed of 2 minutes to obtain a dough having a kneading temperature of 19 ° C. This original dough was roughly divided into 5 kg, stretched into a sheet with a thickness of about 2 cm, and stored in a refrigerator for 3 hours. Fuji Oil Co., Ltd. “Artpia EL” 1 kg folding margarine is sandwiched between dough sheets, and rolling and folding are repeated with “CWC pie line” manufactured by Leon Automatic Co., Ltd. 96 layers of 4 × 4 × 6 A sheet fabric having a thickness of 3 mm was used.
[0033]
Next, through-holes were made by shifting one row at a time with a picket having a thickness of 1.3 mmφ, a vertical interval of 10 mm and a horizontal interval of 5 mm. This was cut into a rectangle having a weight of 50 g and a length of 11 cm / width of 9 cm, custard cream 20 g was put in the center, the dough was folded from both sides to match a square, and the center was pressed to obtain a pie dough with a thickness of 16 mm. . The fabric was moistened with water when folded to ensure complete adhesion. It was cooled with a blast freezer at −35 ° C. for 30 to make a frozen dough. The obtained frozen dough was stored in a -20 ° C freezer.
[0034]
The center part of the obtained flat rectangular frozen dough was cut with a knife, and the thickness of the three layers of the dough was measured. The upper layer, filling layer (material layer), and lower layer were 5 mm, 6 mm, and 5 mm, respectively. The total thickness was 16 mm, the same as before freezing.
[0035]
<Manufacture of frozen dough for comparative example>
Similarly to Example 2 above, a pie sheet having a thickness of 5 mm was molded in the same shape with the same vertical and horizontal sizes and the like without forming holes. The dough was arranged on an aluminum-type cooling plate, and rapidly frozen in the same manner to obtain a pie dough.
[0036]
<Fried test result of frozen dough>
The results of fried directly at an oil temperature of 180 ° C. using the frozen doughs of Example 1, Comparative Example 1, Example 2, and Comparative Example 2 are shown in the table below.
[0037]
[Table 1]

[0038]
【The invention's effect】
The molded frozen dough according to the present invention can supply freshly fried pie products without thawing, and can easily and easily serve many types of pie as needed. It is ideal for fast food, restaurants, coffee shops, etc., because it can cook freshly fried pie in a short time after receiving customer orders. At home, you can easily cook freshly baked pie and enjoy eating.

Claims (1)

Ingredients using a pie-molded fabric having a thickness of 40 mm or less and a perforated treatment so as to perforate at least one through- hole having a diameter of 0.5 to 4 mm per 1 cm ² of pie-molded fabric having a multilayer structure A method for producing a deep-fried pie, characterized in that a deep-fried pie- shaped frozen dough having a multilayer structure is fried in an oil temperature of 160 to 210 ° C. for 1 to 10 minutes without thawing.