TW202118402A - Foodstuff structure and manufacturing method thereof for achieving advantages of efficiently enhancing and preserving activity of good bacteria within food - Google Patents

Abstract

The disclosure relates to a foodstuff structure and a manufacturing method thereof and, more particularly, to a foodstuff structure and a manufacturing method capable of enhancing activity of the good bacteria of food. The disclosure comprises a main body having two long edges disposed corresponding to each other, wherein the long edge has a first recess structure, and the first recess structure is provided with a first chamfer that has a first depth. The disclosure effectively manufactures frozen-dried foodstuff that preserves the activity of good bacteria through depth change of the first recess structure and the design of mixing the main body with fruit solid so as to exactly achieve the effect of efficiently enhancing or preserving good bacteria within food thereby preserving original flavor of food. Moreover, the disclosure enables the main body to be quickly separated through depth variation of each recess structure, thereby achieving an advantage of quick sharing food.

Description

Food structure and its manufacturing method

The present invention relates to a food structure and a manufacturing method thereof, in particular to a non-expanded food that does not need to be baked at high temperature and can effectively improve and retain the activity of good food bacteria and a method of manufacturing a food structure.

According to the fact that the current biscuits and bread have the same convenient and instant-to-eat characteristics, they have generally become modern people's hunger foods during non-dining periods. Among them, because the water content of biscuits is much less than that of bread, they are relatively advantageous for storage and carrying. It is suitable to be developed into snack foods with various flavors; however, whether it is biscuits or bread, its basic ingredients contain a large amount of starch. Among them, starch is prone to gelatinization (gelatinization), which is starch, during heating and baking. The hydrogen bond between the particles will be broken, and the starch particles will also absorb water and become swollen and soft. It is a kind of puffed food that must be heated before being eaten. The disadvantage of puffed food is that it needs to be prepared with raw materials. Baking or pressing must be carried out in a high-temperature environment. However, the high-temperature environment is not conducive to the growth of good bacteria in the food, and it is easy to kill the beneficial vitamins and other substances in the food, and the high-temperature baking cannot retain the most of the food. Original taste; therefore, how to effectively eliminate the traditional use of starch made of puffed foods that must be baked or hot-pressed under high temperature conditions through innovative design, which will easily kill the beneficial vitamins and other substances in the food Disadvantages, it does achieve the characteristics of effectively improving the activity of good bacteria in food, which is still a problem that food and other related industry developers and related researchers need to continue to work hard to overcome and solve.

Nowadays, the inventors have made improvements because they still cannot measure the wind speed and flatness of the traditional food structure when it is actually implemented, so he has a tireless spirit and is assisted by his wealth of professional knowledge and years of practical experience. , And based on this research and creation of the present invention.

The main purpose of the present invention is to provide a food structure and a manufacturing method thereof, especially a non-expanded food that does not need to be baked at high temperature and can effectively improve and retain the activity of good food bacteria and a method of manufacturing a food structure. The design of mixing the body and fruit solids effectively makes a kind of freeze-dried food, and it can eliminate the traditional use of starch to make puffed foods that must be baked or hot-pressed under high temperature conditions, which is easy to kill in the food. The shortcomings of the beneficial vitamins and other substances indeed achieve the main advantages such as effectively improving and retaining the activity of the good bacteria in the food, and without the need for high-temperature baking but retaining the original taste of the food.

The second purpose of the present invention is to provide a food structure and a manufacturing method thereof, which can achieve different bending strengths through different depth changes of the first recessed structure, different recessed angle types, and different types of long and short sides. , Making it suitable for all kinds of consumers as a whole, to achieve the advantage of fast food splitting.

In addition, another object of the present invention is to provide a food structure and a manufacturing method thereof. Through the difference in the spacing between the first concave structures, the amount of food can be directly adjusted, so that it can be quickly divided into different sizes by different ethnic groups. .

In order to achieve the above-mentioned implementation objectives, the inventor proposes a food structure that includes at least one main body, and the main system includes at least two correspondingly arranged long sides. The main feature is that the long sides have at least one first recess. Into the structure to form a first pre-folding point, and corresponding to the other long side of the first concave structure to form a second pre-folding point, wherein the connecting line between the first pre-folding point and the second pre-folding point is A first pre-fold line is formed; wherein, the first concave structure is provided with a first chamfer, and the first chamfer has a first depth.

The food structure as described above, wherein the main system further includes two correspondingly arranged short sides, and the short sides have at least one second concave structure to form a third pre-folding point corresponding to the second concave structure The other short side forms a fourth pre-folding point, wherein the line between the third pre-folding point and the fourth pre-folding point forms a second pre-folding line; wherein, the second concave structure is provided with a The second lead angle, and the second lead angle has a second depth.

The food structure as described above, wherein the thickness of the main body is between 1 cm to 3 cm, and the main system includes a plurality of fruit solids, and a body covering the fruit solids, wherein the fruit solids The system is one of nuts, purple rice, diced apple, or diced lemon or a combination of two or more. The system includes water and solids mixed with water; wherein the system includes water and solids mixed with water And the solid substance is one of yogurt, milk, oat milk, fruit juice or soy milk.

The food structure as described above, wherein the first concave structure is one of a lead angle, a V-shaped angle, a U-shaped angle, a circular arc angle, and a straight angle, and the first depth of the first concave structure is Between 0.1 and 5 cm.

The food structure as described above, wherein the first concave structure is one of a lead angle, a V-shaped angle, a U-shaped angle, a circular arc angle, and a straight angle, and the first depth of the first concave structure is Between 0.1 and 5 cm; and the second concave structure is one of a lead angle, a V-shaped angle, a U-shaped angle, a circular arc angle, and a flat angle, and the second concave structure of the second concave structure is one of a leading angle, a V-shaped angle, a U-shaped angle, and a flat angle. The depth is between 0.1 and 5 cm.

In the food structure as described above, the structure types of the first recessed structure and the second recessed structure can be the same or different.

In the food structure as described above, the distances between the first concave structures are arranged regularly or irregularly.

In the food structure as described above, the distance between each of the first recessed structures and the distance between each of the second recessed structures are arranged regularly or irregularly.

In the food structure as described above, both the long side and the short side are arc edges.

Furthermore, in order to achieve the above-mentioned implementation objectives, the inventors have developed another method for manufacturing a food structure; firstly, a body and a plurality of fruit solids are prepared; then, the fruit solids and the body are mixed to form a first mixture; , Pour the first mixture into a mold; then place the mold filled with the first mixture into a freezer to form a second mixture; then place the mold containing the second mixture into a vacuum low temperature Dehydration is performed in the drying device to form a third mixture; finally, the third mixture is demolded from the mold.

In the method for manufacturing a food structure as described above, after the low-temperature vacuum drying and dehydration step is completed, the temperature-recovering action of step 5 can be further performed, wherein the temperature-recovering action is placed at 25°C for one hour at normal temperature.

The method for manufacturing a food structure as described above, wherein the fruit solids are nuts, purple rice, diced apples, or diced lemons, or a combination of two or more of them.

In the food structure manufacturing method as described above, the system includes water and solids mixed with water; wherein the system includes 20% to 50% solids and 50% to 80% water by weight percentage.

In the method for manufacturing a food structure as described above, the solids are one of yogurt, milk, oat milk, fruit juice or soy milk.

The method for manufacturing a food structure as described above, wherein the first mixture contains 10% to 60% of fruit solids and 40% to 90% of the body by weight percentage.

The method for manufacturing a food structure as described above, wherein the first mixture contains 30% to 60% of fruit solids and 40% to 70% of the body by weight percentage.

In the manufacturing method of the food structure as described above, the mold system includes a plurality of mold grooves for correspondingly placing the first mixture.

In the manufacturing method of the food structure as described above, the temperature of the freezing device is between minus 50 degrees and minus 20 degrees.

The food structure manufacturing method as described above, wherein the drying condition of the vacuum low-temperature drying device is a vacuum of 0.0001 atm and an environment of minus 50 degrees to minus 20 degrees for 15 hours to 30 hours.

The food structure manufacturing method as described above, wherein the temperature of the freezing device is between minus 40 degrees to minus 25 degrees; wherein the drying conditions of the vacuum low temperature drying device is a vacuum of 0.0001 atmosphere and minus 40 degrees to minus 25 degrees Place for 20 to 25 hours under the environment.

Therefore, the food structure and manufacturing method of the present invention are mainly designed by mixing the body and fruit solids to effectively produce a freeze-dried food, and it can eliminate the need for traditional puffed food made from starch to be under high temperature conditions. The shortcomings of baking or hot pressing, which are easy to kill the beneficial vitamins and other substances in the food, can effectively improve and retain the activity of the good bacteria in the food, and can retain the original taste of the food without high-temperature baking. .

In order to help your examiners understand the technical features, content and advantages of the present invention and the effects that can be achieved, the present invention is described in detail with the accompanying drawings and in the form of embodiment expressions. The drawings used therein are as follows: The subject matter is only for the purpose of illustration and auxiliary description, and may not be the true proportions and precise configuration after the implementation of the invention. Therefore, it should not be interpreted in terms of the proportions and configuration relationships of the accompanying drawings, and should not limit the scope of rights of the invention in actual implementation. Hexian stated.

First of all, please refer to Figures 1 to 4, which are an exploded perspective view of the overall structure of a preferred embodiment of the food structure of the present invention, a perspective view of the overall structure of the second preferred embodiment, and a perspective view of the entire structure of the second preferred embodiment. An exploded view of the overall structure, and a side view of a preferred embodiment of the first concave structure and the second concave structure, wherein the food structure (1) of the present invention is composed of a body (14) and a plurality of fruit solids ( 13) The mixed design can effectively make a kind of freeze-dried food, and can eliminate the traditional use of starch to make puffed foods that must be baked or hot pressed under high temperature conditions, which can easily kill the beneficial vitamins and other substances in the food The shortcomings of, it does achieve the main advantages of effectively improving and retaining the activity of the good bacteria in the food, and retaining the original taste of the food without high-temperature baking; the food structure (1) of the present invention includes at least one that is presented in a rectangular shape The body (10) of the body (10), and the thickness of the body (10) is between 1 cm and 3 cm, and the body (10) includes at least two correspondingly arranged long sides (11), and two correspondingly arranged long sides (11) The short side (12), the long side (11) has at least one first concave structure (110) to form a first pre-folding point (111), corresponding to the other length of the first concave structure (110) The other first concave structure (110) of the side (11) forms a second pre-folding point (112), wherein the first pre-folding point (111) and the second pre-folding point (112) are connected The line forms a first pre-fold line (113) parallel to the short side (12), wherein the first pre-fold line (113) can divide the main body (10) into a plurality of first sub-main bodies (A) When a user wants to eat the food structure (1) of the present invention, one way is to take the whole main body (10) for consumption, and the other way is to take the main body along the first pre-fold line (113). (10) Concave folds to form a plurality of first sub-body (A) for eating, both ways can achieve the purpose of eating the food structure (1), wherein the first concave structure (110) is a leading angle, For one of the V-shaped angle, U-shaped angle, arc angle, and flat angle, the opening directions of the two corresponding first concave structures (110) are opposite directions toward 180 degrees, and the first pre-folding line ( The extension direction of 113) is parallel to the opening directions of the two corresponding first recessed structures (110), and the first depth of the first recessed structure is between 0.1 and 5 cm; in addition, in In a preferred embodiment of the present invention, the short side (12) has at least one second concave structure (120) to form a third pre-folding point (121), corresponding to the second concave structure (120) The other second concave structure (120) of the other short side (12) forms a fourth pre-folding point (122), wherein the third pre-folding point (121) and the fourth pre-folding point ( The connection line of 122) forms a second pre-fold line (123), and the opening directions of the two corresponding second concave structures (120) are opposite directions toward 180 degrees, and the second pre-fold line (123) The extending direction of the second concave structure (120) is parallel to the two corresponding opening directions of the second concave structure (120), wherein the second pre-folding line (123) is arranged orthogonally to the first pre-folding line (113), and the The second pre-fold line (123) and the first pre-fold line (113) can also divide the main body (10) into a plurality of second sub-main bodies (B), wherein the size of the second sub-main body (B) is smaller than the The size of the first sub-body (A), therefore, the user can also fold the main body (10) along the first pre-fold line (113) and the second pre-fold line (123) to form a plurality of The second sub-body (B), in order to achieve the purpose of eating.

In addition, please refer to Figure 4 again, the first concave structure (110) is provided with a first chamfer, and the first chamfer has a first depth (L1); furthermore, the second The concave structure (120) is provided with a second chamfer, and the second chamfer has a second depth (L2), wherein the first and second chamfers are arc-shaped chamfers, and the difference lies in the The difference between the radius of curvature and the depth of the first and second chamfers; in addition, the first pre-fold line (113) has different intervals, and the main body (10) can be divided into first sub-main bodies (A) of different sizes, In other embodiments, the main body (10) is divided into first sub-main bodies (A) of the same size with the same first pre-fold line (113) pitch; furthermore, the first and second lead angles are V The main body (10) is divided into the first sub-body (A) of the same size with the same first pre-folding line (113) pitch.

In addition, the main body (10) is composed of a plurality of fruit solids (13) and a body (14) covering the fruit solids (13), wherein the fruit solids (13) are nuts or purple rice , Diced apple or diced lemon or a combination of two or more, and the body (14) includes water, and a solid substance mixed with water, wherein the solid substance is yogurt, milk, oatmeal , Fruit juice or soy milk, that is to say, in a preferred embodiment of the present invention, the body (14) is formed by dissolving the solid matter of yogurt in an aqueous solution, and then diced apple After the fruit solids (13) are mixed into the main body (14), the main body (10) of the present invention is formed after low-temperature shaping and low-temperature vacuum drying and dehydration. In addition, the main body (10) can be different The main body (14) and the fruit solid (13) are formed by mixing ratio, which can give different tastes of food, so that consumers can achieve a richer taste enjoyment through the original activity of the particles and the food.

Please refer to Figures 5 to 6, which are the side view of the second preferred embodiment of the first and second recessed structures of the food structure of the present invention and the third preferred embodiment of the first and second recessed structures Side view, where the distances between the first recessed structures are arranged regularly or irregularly (as shown in Figure 5); and, in another embodiment of the present invention, the distances between the first recessed structures and the distances between each of the first recessed structures are arranged regularly or irregularly. The distances between the second concave structures are all arranged regularly or irregularly.

Furthermore, as shown in Figure 7, the long side (11) and the short side (12) are both arc edges, and the first concave structure (110) is a lead angle, a V-shaped angle, One of a U-shaped angle, a circular arc angle, and a straight angle, and the first depth of the first concave structure (110) is between 0.1 and 5 cm; and the second concave structure is a lead angle , V-shaped angle, U-shaped angle, arc angle, straight angle, and the second depth of the second concave structure is between 0.1 to 5 cm; thereby, the food structure of the present invention Through the different depth changes of the first recessed structure, the different recessed angle shapes, and the long and short sides of different shapes, different strengths of bending can be achieved, so that the whole can be suitable for all kinds of consumers and achieve the advantage of fast food splitting.

In addition, in order to enable your reviewer to have a more in-depth and specific understanding of the present invention, please also refer to Fig. 8, which is a flowchart of a preferred embodiment of the manufacturing method of the food structure of the present invention. The manufacturing method of food structure includes the following steps:

Step one (S1): prepare a body (14) and a plurality of fruit solids (13); the fruit solids (13) are nuts, purple rice, diced apples, or diced lemons, etc., or a combination of two or more Combination, and the body (14) includes water and a solid substance mixed with water, wherein the solid substance is one of yogurt, milk, oat milk, fruit juice, or soy milk; in the present invention, a comparison is made. In a preferred embodiment, the fruit solid (13) is diced apples, and the body (14) is formed by mixing yogurt in an aqueous solution.

Step 2 (S2): Mix the fruit solids (13) with the body (14) to form a first mixture (15); please also refer to Figure 9 for the manufacturing method of the food structure of the present invention A schematic diagram of a preferred embodiment of the body and fruit solids mixing. First, in a preferred embodiment of the present invention, the body (14) is formed by dissolving the solids of yogurt in an aqueous solution, and then the apple D-like fruit solids (13) are mixed into the body (14) to form the first mixture (15), wherein the body (14) contains 20% to 50% solids by weight percentage, and 50 % To 80% of water, and the first mixture (15) contains 10% to 60% of fruit solids (13) by weight percentage, and 40% to 90% of the body (14); in the present invention, another In a preferred embodiment, the first mixture (15) contains 30% to 60% of fruit solids (13) and 40% to 70% of the body (14) by weight percentage; in addition, the present invention The best mixing ratio of the first mixture (15) is to mix 10% of the fruit solids (13) and 90% of the body (14) in weight percentage.

Step three (S3): pour the first mixture (15) into a mold (2); please also refer to Figure 10, which is the mold for the manufacturing method of a preferred embodiment of the food structure of the present invention Schematic diagram, wherein the mold (2) includes a plurality of mold grooves (21) for the corresponding placement of the first mixture (15), that is, the mold (2) includes six mold grooves (21) ), a user can pour the first mixture (15) mixed with the body (14) and the fruit solid (13) into the model tank (21) before proceeding to the subsequent process.

Step 4 (S4): Place the mold (2) filled with the first mixture (15) into a freezing device (3) to form a second mixture (16); please also refer to Figure 11 Shown is a schematic diagram of freezing and shaping of a preferred embodiment of the manufacturing method of the food structure of the present invention, in which the temperature of the freezing device (3) is between minus 50 degrees and minus 20 degrees, that is, when the container is After the plurality of molds (2) of the first mixture (15) are placed on a rack (5), they are sent into the refrigerating device (3) in batches, and the refrigerating device (3) is set at minus 50 degrees to 50 degrees below zero. At a low temperature between minus 20 degrees, the first mixture (15) is shaped by rapid freezing for 30 minutes, and then a solid second mixture (16) is formed; in another embodiment of the present invention, the The first mixture (15) is shaped in the mold (2) at a low temperature between minus 40°C and minus 25°C for 30 minutes to form a solid second mixture (16); in addition, The optimal low-temperature setting conditions of the second mixture (16) of the present invention are formed by rapid freezing at a low temperature between minus 40°C and 0°C for 30 minutes.

Step 5 (S5): Put the mold (2) containing the second mixture (16) into a vacuum low-temperature drying device (4) for dehydration to form a third mixture (17); please also refer to section 12 As shown in the figure, it is a schematic diagram of low-temperature vacuum drying of the manufacturing method of a preferred embodiment of the food structure of the present invention, in which a plurality of molds (2) containing the second mixture (16) are placed on the rack (5) ), and sent to the vacuum low-temperature drying device (4) in batches, and the low-temperature drying conditions of the vacuum low-temperature drying device (4) are placed under a vacuum of 0.0001 atmosphere and an environment of minus 50 degrees to minus 20 degrees 15 Hour to 30 hours to dehydrate the water in the second mixture (16) to form a third mixture (17) in the form of a freeze-dried food; in another embodiment of the present invention, the vacuum low-temperature drying The low-temperature drying conditions of the device (4) are placed under a vacuum of 0.0001 atmospheres and an environment of minus 40 degrees to minus 25 degrees for 20 hours to 25 hours, so that the water in the second mixture (16) is dried out to form A third mixture (17) in the form of freeze-dried food; in addition, the best vacuum low-temperature drying conditions for the third mixture (17) of the present invention are vacuum low-temperature drying at a low temperature of minus 40 degrees at a pressure of 0.0001 atmosphere for 25 hours And formed.

Step 6 (S6): demold the third mixture (17) from the mold (2); please refer to Figure 13, which is a preferred embodiment of the manufacturing method of the food structure of the present invention The demolding schematic diagram of the embodiment, in which the user can use the relevant demolding method to take out the third mixture (17) of the freeze-dried food state from the mold slot (21) in the mold (2) to complete the present invention The production of food structure (1).

In addition, please also refer to Fig. 14, which is a flowchart of the second preferred embodiment of the manufacturing method of the food structure of the present invention, in which the second mixture (16) is in the vacuum and low temperature of the above step 5 (S5) After the third mixture (17) is formed in the drying step, a step five (S5-1) of the warming action is further performed, and the warming action is to put the third mixture (17) at room temperature (25°C) Let it stand for one hour to reach the temperature-returning state before proceeding with the demolding operation of step 6 (S6).

From the above implementation description, it can be seen that the food structure of the present invention and its manufacturing method are compared with the prior art, and the present invention has the following advantages:

1. The food structure of the present invention and its manufacturing method are mainly designed by mixing the body and fruit solids to effectively produce a freeze-dried food, and it can eliminate the need for traditional puffed food made from starch to be carried out under high temperature conditions. The shortcomings of baking or hot pressing, which are easy to kill the beneficial vitamins and other substances in the food, do achieve the main advantages of effectively improving and retaining the activity of the good bacteria in the food, and retaining the original taste of the food without the need for high-temperature baking.

2. The food structure and its manufacturing method of the present invention provide a food structure and its manufacturing method, which can achieve different results through different depth changes of the first recessed structure, different recessed angle types, and different types of long and short sides. The strong bending makes it suitable for all kinds of consumers as a whole, and achieves the advantage of fast food splitting.

3. The food structure and its manufacturing method of the present invention provide a food structure and its manufacturing method. Through the difference of the spacing between the first concave structures, the amount of food can be directly adjusted, so that it can be quickly divided by different ethnic groups. The advantage of the size.

In summary, the food structure and manufacturing method of the present invention can indeed achieve the expected use effect through the above-disclosed embodiments, and the present invention has not been disclosed before application, since it is in full compliance with the patent law. Regulations and requirements. If you file an application for a patent for invention in accordance with the law, you are kindly requested to review and grant a quasi-patent.

However, the figures and descriptions disclosed above are only preferred embodiments of the present invention, and are not intended to limit the scope of protection of the present invention. Anyone familiar with the art will do other things based on the characteristic scope of the present invention. Equivalent changes or modifications should be regarded as not departing from the design scope of the present invention.

(1): Food structure (10): Main body (11): Long side (110): The first recessed structure (111): The first pre-break point (112): Second pre-break point (113): The first pre-broken line (12): Short side (120): The second recessed structure (121): The third pre-break point (122): Fourth pre-break point (123): Second pre-broken line (13): Fruit solid (14): Ontology (15): The first mixture (16): The second mixture (17): The third mixture (2): Mould (21): Model slot (3): Freezing device (4): Vacuum low temperature drying device (5): Shelf (A): The first sub-subject (B): The second sub-subject (H): Thickness (L1): first depth (L2): second depth (S1): Step one (S2): Step two (S3): Step three (S4): Step Four (S5): Step 5 (S5-1): One of Step Five (S6): Step 6

Figure 1: An exploded perspective view of the overall structure of a preferred embodiment of the food structure of the present invention; Figure 2: A perspective view of the overall structure of the second preferred embodiment of the food structure of the present invention; Figure 3: An exploded view of the overall structure of the second preferred embodiment of the food structure of the present invention; Figure 4: A side view of a preferred embodiment of the first and second recessed structures of the food structure of the present invention; Figure 5: Side view of two preferred embodiments of the first and second recessed structures of the food structure of the present invention; Figure 6: a side view of three preferred embodiments of the first and second recessed structures of the food structure of the present invention; Figure 7: A perspective view of the overall structure of the three preferred embodiments of the food structure of the present invention; Figure 8: A step flow chart of a preferred embodiment of the manufacturing method of the food structure of the present invention; Figure 9: A schematic diagram of the mixing of the body and fruit solids in a preferred embodiment of the manufacturing method of the food structure of the present invention; Figure 10: A schematic diagram of a mold filling of a preferred embodiment of the manufacturing method of the food structure of the present invention; Figure 11: A schematic diagram of a preferred embodiment of the method for manufacturing a food structure according to the present invention for freezing and shaping; Figure 12: A schematic diagram of low-temperature vacuum drying of a preferred embodiment of the manufacturing method of the food structure of the present invention; Figure 13: A schematic diagram of demolding of a preferred embodiment of the manufacturing method of the food structure of the present invention; and Figure 14: A step flow chart of the second preferred embodiment of the manufacturing method of the food structure of the present invention.

(1): Food structure

(10): Main body

(11): Long side

(110): The first recessed structure

(111): The first pre-break point

(112): Second pre-break point

(113): The first pre-broken line

(12): Short side

(13): Fruit solid

(14): Ontology

Claims (10)

A food structure is made without baking. The food structure (1) includes at least one main body (10), and the main body (10) includes at least two correspondingly arranged long sides (11). It is characterized in that: the long side (11) has at least one first recessed structure (110) to form a first pre-folding point (111) corresponding to the other long side (11) of the first recessed structure (110) ) The other first concave structure (110) forms a second pre-bending point (112), the opening directions of the two corresponding first concave structures (110) are facing opposite directions, the first The connecting line between a pre-folding point (111) and the second pre-folding point (112) forms a first pre-folding line (113), and the extending direction of the first pre-folding line (113) corresponds to the two corresponding first pre-folding lines (113). The opening directions of a concave structure (110) are parallel, the first concave structure (110) is provided with a first chamfer, and the first chamfer has a first depth (L1). According to the food structure of claim 1, the main body (10) further includes two correspondingly arranged short sides (12), and the short side (12) has at least one second concave structure (120) to form a The third pre-folding point (121) corresponds to the other short side (12) of the second concave structure (120) and the other second concave structure (120) forms a fourth pre-folding point (122) ), the line connecting the third pre-folding point (121) and the fourth pre-folding point (122) forms a second pre-folding line (123), and the extension direction of the second pre-folding line (123) is opposite to two The opening directions of the corresponding second concave structure (120) are parallel, the second concave structure (120) is provided with a second chamfer, and the second chamfer has a second depth (L2). According to the food structure described in claim 2, the opening directions of the two corresponding second concave structures (120) are facing opposite directions. The food structure according to claim 1, wherein the opening direction of the first recessed structure (110) is toward the opposite direction of 180 degrees. The food structure according to claim 1, wherein the thickness of the main body (10) is between 1 cm and 3 cm, and the main body (10) includes a plurality of fruit solids (13), and a coating The body (14) of the fruit solids (13), wherein the fruit solid (13) is one of nuts, purple rice, apple diced or lemon diced or a combination of two or more, the main body (14) The system includes water and solids mixed with water; wherein the body (14) includes water and solids mixed with water, and the solids are one of yogurt, milk, oat milk, fruit juice or soy milk. A method for manufacturing a food structure, which is applicable to at least one food structure as described in claim 1, and includes the following steps: Step one (S1): prepare a body (14) and a plurality of fruit solids (13); Step two (S2): mixing the fruit solids (13) with the body (14) to form a first mixture (15); Step three (S3): pour the first mixture (15) into a mold (2); Step 4 (S4): Place the mold (2) filled with the first mixture (15) in a freezing device (3) for shaping to form a second mixture (16); Step 5 (S5): Place the mold (2) containing the second mixture (16) in a vacuum low-temperature drying device (4) for dehydration to form a third mixture (17); and Step 6 (S6): demold the third mixture (17) from the mold (2). The method for manufacturing a food structure according to claim 6, wherein after the step 5 (S5) of the low-temperature vacuum drying and dehydration step is completed, a step 5 (S5-1) of the warming action is further performed, and the step 5 is One (S5-1) of the warming action is to place it at 25°C for one hour at room temperature. The method for manufacturing a food structure according to claim 7, wherein the body (14) contains water and solids mixed with water; the body (14) contains 20% to 50% solids by weight percentage , And 50% to 80% water. The method of manufacturing a food structure according to claim 8, wherein the first mixture (15) contains 30% to 60% of fruit solids (13) in weight percentage, and 40% to 70% of the body (14) ). The method for manufacturing a food structure according to claim 9, wherein the temperature of the freezing device (3) is between minus 40 degrees and minus 25 degrees; the drying conditions of the vacuum low temperature drying device (4) are at 0.0001 atmosphere And placed in an environment of minus 40 degrees to minus 25 degrees for 20 hours to 25 hours.

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