CN113951529A - Food mold with microstructure, manufacturing method of food mold and food manufacturing method - Google Patents

Abstract

The invention provides a food mold with a microstructure, a manufacturing method of the food mold and a food manufacturing method, and relates to the technical field of food processing molds. A food mold having a microstructure comprising: a mould base and a PMMA mould; the PMMA mould is arranged at the upper part of the mould base, and the upper surface of the PMMA mould is provided with microstructure reverse graphic and text information. The technical problem of poor appearance effect of food caused by the fact that the surface of the food can only be made with the color and simple pictures and texts of the food due to the restriction of a forming die in the prior art is solved. According to the invention, the micro-nano structure is manufactured on the food through the PMMA mould, so that the micro-structure can be formed on the surface of the food, and the surface of the food can show the block-surface effects of images, characters, symbols, lines and the like, the dynamic effects of rotation, scaling, running and the like and the color effect.

Description

Food mold with microstructure, manufacturing method of food mold and food manufacturing method

Technical Field

The invention relates to the technical field of food processing molds, in particular to a food mold with a microstructure, a manufacturing method of the food mold and a food manufacturing method.

Background

At present, most of food single-item styles on the market are formed by die casting or injection molding, and in order to improve the appearance effect of food, some simple graphic and text information can be made on the surface of the food.

In the prior art, the forming mold for processing food is mainly completed by mechanical processing, for example: an automatic processing machine tool. When small pictures and texts on the surface of food are made on a forming die, the surface of the food is limited by the size of a cutter of equipment, only the color and simple pictures and texts of food substances can be made on the surface of the food, and the made picture and text information is rough, so that the surface of the food is single in style and poor in decoration and appreciation.

Disclosure of Invention

The invention aims to provide a food mold with a microstructure, and aims to solve the technical problem that in the prior art, the surface of food is limited by a forming mold, and only the color and simple pictures and texts of the food can be made on the surface of the food, so that the appearance effect of the food is poor.

The invention provides a food mold with a microstructure, which comprises: a mould base and a PMMA mould;

the PMMA mould is arranged at the upper part of the mould base, and the upper surface of the PMMA mould is provided with microstructure reverse graphic and text information.

The invention also provides a manufacturing method of the food mold with the microstructure, which comprises the following steps:

designing microstructure image-text information mould

The image-text information is any one of characters, numbers, graphs, points, lines and LOGO;

second, machine equipment is utilized to process and manufacture the primary mold with microstructure reverse graphic information

The machine equipment comprises a dot-matrix photoetching machine, a DMD photoetching machine, a direct-writing photoetching machine and a multi-axis high-precision processing machine tool;

making combined forming mould with microstructure forward image-text information

a. Firstly, carrying out mould turnover manufacturing on a primary mould with microstructure reverse graphic and text information, and copying the microstructure reverse graphic and text information to an object borne by the microstructure reverse graphic and text information: copying the mold;

b. then splicing, inlaying and bending the turnover mold with the microstructure forward graphic and text information to form a combined forming mold; setting the microstructure image-text information on the combined forming mold in a forward direction;

manufacturing PMMA mold with microstructure reverse graphic information

a. Firstly, cleaning the surface of a combined forming mold with microstructure forward graphic and text information;

b. then mixing the molten PMMA material in proportion and fully stirring;

c. vacuumizing and defoaming the stirred PMMA melted material, pouring the defoamed PMMA melted material into a combined forming mold with microstructure forward graphic and text information, and enabling the PMMA melted material to be 5-20 mm higher than the edge of the combined forming mold;

curing of PMMA Material

Flatly placing the combined forming die on a workbench, standing the PMMA melted material for 48-72 hours, and waiting for full solidification of the PMMA melted material;

e.PMMA moulding

After the PMMA molten material is fully cured, a PMMA mould with microstructure reverse graphic and text information is formed at the upper part of the combined forming mould;

and then separating the PMMA mould to obtain the PMMA mould with microstructure reverse graphic and text information.

Furthermore, in the step I, the image-text information can define the color of each character, number, graph, point, line and LOGO;

the teletext information can also define the dynamic or static effect of each text, number, graphic, point, line, LOGO.

Further, in the second step, the primary mold processing raw material of the photoetching machine is a photoetching offset plate, and the processing raw material of the multi-shaft high-precision processing machine tool is any one of nickel-chromium alloy, copper and aluminum.

Further, in the second step, the microstructure of the microstructure area includes a microlens, a cylindrical mirror, a fresnel lens, a CD pattern, a wiredrawing pattern, a rainbow lens, and a modulated rainbow grating.

Furthermore, in the second step, the height of the microstructure stripe of the microstructure area is between 20 microns and 100 nanometers;

the frequency of the fringes of the microstructure area is between 2 pairs and 3000 pairs per millimeter, and the frequency can be fixed or variable.

Furthermore, in the third step, the material of the combined forming die is any one of PC, PET and food-grade metal material;

the shape of the combined forming die is square, or round, or special-shaped, or custom-made.

The invention also provides a food manufacturing method of the food mold with the microstructure, which comprises the following steps:

designing microstructure image-text information mould

The image-text information is any one of characters, numbers, graphs, points, lines and LOGO;

second, machine equipment is utilized to process and manufacture the primary mold with microstructure reverse graphic information

The machine equipment comprises a dot-matrix photoetching machine, a DMD photoetching machine, a direct-writing photoetching machine and a multi-axis high-precision processing machine tool;

making combined forming mould with microstructure forward image-text information

a. Firstly, carrying out mould turnover manufacturing on a primary mould with microstructure reverse graphic and text information, and copying the microstructure reverse graphic and text information to an object borne by the microstructure reverse graphic and text information: copying the mold;

b. then splicing, inlaying and bending the turnover mold with the microstructure forward graphic and text information to form a combined forming mold; setting the microstructure image-text information on the combined forming mold in a forward direction;

manufacturing PMMA mold with microstructure reverse graphic information

a. Firstly, cleaning the surface of a combined forming mold with microstructure forward graphic and text information;

b. then mixing the molten PMMA material in proportion and fully stirring;

c. vacuumizing and defoaming the stirred PMMA melted material, pouring the defoamed PMMA melted material into a combined forming mold with microstructure forward graphic and text information, and enabling the PMMA melted material to be 5-20 mm higher than the edge of the combined forming mold;

curing of PMMA Material

Flatly placing the combined forming die on a workbench, standing the PMMA melted material for 48-72 hours, and waiting for full solidification of the PMMA melted material;

e.PMMA moulding

After the PMMA molten material is fully cured, a PMMA mould with microstructure reverse graphic and text information is formed at the upper part of the combined forming mould;

then separating the PMMA mould to obtain the PMMA mould with microstructure reverse graphic and text information;

fifthly, hot melting of the food raw materials

Carrying out hot melting on the food raw materials to ensure that the melting degree of the food raw materials meets the requirements of production and processing;

the food raw material is a material which has high density, can be melted and can be solidified;

pouring and solidifying food material

The PMMA mould is arranged at the upper part of the mould base, then hot-melt food raw materials meeting the production requirements are poured or pressed into the PMMA mould, and the hot-melt food raw materials are stood and cooled for 1-2 hours, so that the hot-melt food raw materials meet the requirements of full solidification in the PMMA mould;

seventhly, forming food

And separating the solidified food finished product, forming microstructure pictures and texts opposite to the PMMA mould on the surface of the food finished product, and forming forward pictures and texts with microstructures on the surface of the food finished product to obtain the food finished product with the microstructure forward pictures and texts.

Further, in the fourth step, the PMMA mould is a food-grade mould;

the PMMA mould is made of food-grade silica gel or food-grade stainless steel.

Further, in the step (sixthly), the hot-melt food raw material is any one of chocolate, sugar and fat.

According to the food mold with the microstructure, the PMMA mold is arranged at the upper part of the mold base, and the position of the PMMA mold is fixed; and the PMMA mould is a mould with microstructure reverse graphic and text information on the upper surface. According to the invention, the micro-nano structure is directly manufactured on the surface of the food through the PMMA mould, so that microstructure pictures and texts can be formed on the surface of the food, the surface of the food can show block effects such as images, characters, symbols and lines, dynamic effects such as rotation, scaling and running, and color effects, and more tiny information can be hidden in the food, so that the food has more abundant information and decorative effects; and the microstructure generating the pictures and texts is also a substance of the food, no new added substance is generated, and the prepared food is safe, reliable and creative. The problem of among the prior art, the surface of food is restricted by forming die, and the surface of food can only make the colour and simple picture and text of food itself, causes the outward appearance effect of food poor is effectively solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic view of a food mold having microstructures provided in accordance with an embodiment of the present invention;

FIG. 2 is a schematic diagram of a combined forming mold fabricated on a primary mold according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a PMMA mold fabricated on a composite forming mold according to an embodiment of the present invention;

FIG. 4 is a schematic view of a food product made on a PMMA mold as provided by an embodiment of the present invention;

FIG. 5 is a flow chart of a method for making a food mold having microstructures according to an embodiment of the present invention;

fig. 6 is a flow chart of a food manufacturing method of the food mold with a microstructure according to an embodiment of the present invention.

Icon:

100-primary generation of mould; 200-combining a forming die; 300-PMMA mold;

400-a mold base; 500-hot-melt food material.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1, the present invention provides a food mold with a microstructure, comprising: a mold base 400 and a PMMA mold 300;

the PMMA mold 300 is disposed at an upper portion of the mold base 400 and fixed using a plurality of bolts. The PMMA mold 300 is a mold having microstructure reverse graphic information on an upper surface, and when food is manufactured, the microstructure forward graphic information is directly manufactured on the surface of the food.

In this embodiment, the PMMA (polymethyl methacrylate, hereinafter referred to as polymethyl methacrylate) material has low density, high mechanical strength, low melting point, and high light transmittance, and the mold made of the PMMA material is an environment-friendly material for making food. The micro-nano structure pictures and texts are directly manufactured on the surface of the food through the PMMA mould, so that the micro-structure pictures and texts are formed on the surface of the food, the surface of the food can show block effects such as images, characters, symbols and lines, dynamic effects such as rotation, scaling and running, and color effects, and more tiny information can be hidden in the micro-structure pictures and texts, so that the surface of the food can show more abundant information and decorative effects; and the microstructure generating the pictures and texts on the surface of the food also adopts the substances of the food, so that no newly added substances are generated, the food is safer and more reliable to prepare, the preparation process is creative, and the decorative effect of the surface of the food is good.

As shown in fig. 5, the present invention further provides a method for making a food mold with a microstructure, comprising the following steps:

designing microstructure image-text information mould

The image-text information is any one of characters, numbers, graphs, points, lines and LOGO;

furthermore, in the step I, the image-text information can define the color of each character, number, graph, point, line and LOGO;

the teletext information can also define the dynamic or static effect of each text, number, graphic, point, line, LOGO.

Second, machine equipment is utilized to process and manufacture the primary mold with microstructure reverse graphic information

The machine equipment comprises a dot-matrix photoetching machine, a DMD photoetching machine, a direct-writing photoetching machine and a multi-axis high-precision processing machine tool;

further, in the second step, the primary mold processing raw material of the photoetching machine is a photoetching offset plate, and specifically comprises the following steps: a layer of photosensitive glue is coated on the glass substrate. The processing raw materials of the multi-shaft high-precision processing machine tool are metal materials, such as: nickel-chromium alloy, copper, aluminum.

The microstructure of the microstructure area comprises a micro lens, a cylindrical mirror, a Fresnel lens, a CD pattern, a wiredrawing pattern, a rainbow lens and a modulation rainbow grating.

The height of the microstructure stripe of the microstructure area is between 20 micrometers and 100 nanometers;

the frequency of the fringes of the microstructure area is between 2 pairs and 3000 pairs per millimeter, and the frequency can be fixed or variable.

Making combined forming mould with microstructure forward image-text information

a. As shown in fig. 2, the primary mold 100 with the microstructure reverse graphic and text information is first overmolded, and the microstructure reverse graphic and text information is copied to the object carried by the mold, that is: copying the mold;

b. then splicing, inlaying and bending the turnover mold with the microstructure forward graphic and text information to form a combined forming mold 200; the microstructure graphics context information on the combined forming mold 200 is set in the forward direction;

further, in the third step, the material of the combined forming mold 200 is any one of PC, PET, and food grade metal material;

the shape of the composite molding die 200 is square, or circular, or irregular, or custom-made.

In the present embodiment, the combined molding die 200 is provided in a square shape.

Manufacturing PMMA mold with microstructure reverse graphic information

a. As shown in fig. 3, the surface of the combined forming mold 200 with the microstructure forward graphic information is cleaned;

b. then mixing the molten PMMA material in proportion and fully stirring;

c. vacuumizing and defoaming the stirred PMMA melted material, pouring the defoamed PMMA melted material into a combined forming mold 200 with microstructure forward graphic and text information, wherein the height of the defoamed PMMA melted material is 5-20 mm higher than the edge of the combined forming mold 200;

curing of PMMA Material

Flatly placing the combined forming die 200 on a workbench, standing the PMMA melted material for 48-72 hours, and waiting for the PMMA melted material to be fully cured;

e.PMMA moulding

After the PMMA melted material is fully cured, a PMMA mould 300 with microstructure reverse graphic and text information is formed at the upper part of the combined forming mould 200;

and then separating the PMMA mold 300 to obtain the PMMA mold 300 with microstructure reverse graphic and text information.

According to the manufacturing method of the food mold with the microstructure, the surface of the mold presents block effects such as images, characters, symbols and lines, dynamic effects such as rotation, zooming and running, strong color effects, matte effects, Fresnel lens effects and the like through the microstructure, and more tiny information can be hidden in the mold. The surface of the food made by the mould has richer information and decorative effect; and the microstructure generating the pictures and texts is also a substance of the food, does not generate any newly added substance, and is a safe and reliable microstructure-made food mold.

The application is the innovative grafting that microstructure and food combine together, and the microstructure has obtained extensive application in the real life, all uses on all kinds of imitative pseudo-bills, certificate, paper currency, the packaging material, and the picture and text that uses the microstructure preparation is meticulous, and the colour is abundant, and the produced picture and text all is the effect that the microstructure produced.

The microstructure is one of the main physical imitation means in the market at present, and is used as a first-line effective weapon for striking counterfeiters, so that the brand and the profit of manufacturers are protected, and in addition, a personalized mold can be manufactured by the technology to meet the personalized requirements of different crowds.

As shown in fig. 6, the present invention further provides a method for making a food product with a micro-structured food mold, comprising the following steps:

designing microstructure image-text information mould

The image-text information is any one of characters, numbers, graphs, points, lines and LOGO;

the image-text information can define the color of each character, number, graph, point, line and LOGO;

the graphic and text information can also define the dynamic or static effect of each character, number, graph, point, line and LOGO;

second, machine equipment is utilized to process and manufacture the primary mold with microstructure reverse graphic information

The machine equipment comprises a dot-matrix photoetching machine, a DMD photoetching machine, a direct-writing photoetching machine and a multi-axis high-precision processing machine tool;

the bearing object of the primary mold is a photoetching offset plate, and the bearing object is made of any one of nickel-chromium alloy, copper and aluminum.

The microstructure of the microstructure area comprises a micro lens, a cylindrical mirror, a Fresnel lens, a CD pattern, a wiredrawing pattern, a rainbow lens and a modulation rainbow grating.

The height of the microstructure stripe of the microstructure area is between 20 micrometers and 100 nanometers;

the frequency of the fringes of the microstructure area is between 2 pairs and 3000 pairs per millimeter, and the frequency can be fixed or variable.

Making combined forming mould with microstructure forward image-text information

a. As shown in fig. 2, the primary mold 100 with the microstructure reverse graphic and text information is first overmolded, and the microstructure reverse graphic and text information is copied to the object carried by the mold, that is: copying the mold;

b. then splicing, inlaying and bending the turnover mold with the microstructure forward graphic and text information to form a combined forming mold 200; the microstructure graphics context information on the combined forming mold 200 is set in the forward direction;

the material of the combined forming die 200 is any one of PC, PET and food-grade metal material;

the shape of the composite molding die 200 is square, or circular, or irregular, or custom-made.

In the present embodiment, the combined molding die 200 is provided in a square shape.

Manufacturing PMMA mold with microstructure reverse graphic information

a. As shown in fig. 3, the surface of the combined forming mold 200 with the microstructure forward graphic information is cleaned;

b. then mixing the molten PMMA material in proportion and fully stirring;

c. vacuumizing and defoaming the stirred PMMA melted material, pouring the defoamed PMMA melted material into a combined forming mold 200 with microstructure forward graphic and text information, wherein the height of the defoamed PMMA melted material is 5-20 mm higher than the edge of the combined forming mold 200;

curing of PMMA Material

Flatly placing the combined forming die 200 on a workbench, standing the PMMA melted material for 48-72 hours, and waiting for the PMMA melted material to be fully cured;

e.PMMA moulding

After the PMMA melted material is fully cured, a PMMA mould 300 with microstructure reverse graphic and text information is formed at the upper part of the combined forming mould 200;

then separating the PMMA mold 300 to obtain the PMMA mold 300 with microstructure reverse graphic and text information;

further, in the fourth step, the PMMA mould 300 is a food grade mould;

the PMMA mold 300 is made of food grade silica gel or food grade stainless steel.

Fifthly, hot melting of the food raw materials

Carrying out hot melting on the food raw materials to ensure that the melting degree of the food raw materials meets the requirements of production and processing;

the food raw material is a material which has high density, can be melted and can be solidified;

pouring and solidifying food material

As shown in fig. 1, the PMMA mold 300 is installed on the upper portion of the mold base 400, as shown in fig. 4, then the hot-melt food material 500 meeting the production requirement is poured or pressed into the PMMA mold 300, and the hot-melt food material 500 is cooled by standing for a time ranging from 1 hour to 2 hours, so that the hot-melt food material 500 meets the requirement of being fully cured in the PMMA mold 300;

further, in the step (sixthly), the hot-melt food material 500 is any one of chocolate, sugar, and fat. In practical use, the hot-melt food raw material 500 can also be used for making an egg tart such as a cheese egg tart and a cookie egg tart, or making various cakes and cakes.

Seventhly, forming food

And separating the solidified food finished product, wherein at the moment, microstructure pictures and texts opposite to the PMMA mould 300 are formed on the surface of the food finished product, and forward pictures and texts with microstructures are formed on the surface of the food finished product, so that the food finished product with the microstructure forward pictures and texts can be obtained.

According to the food manufacturing method of the food mold with the microstructure, the food mold is manufactured through a laser interference and precision machining method, the microstructure is carved on the surface of the mold, the carved and patterned lines are in a micron or nanometer level, the height range of the stripes is between 20 microns and 100 nanometers, fine image-text control and color change are achieved, and different depths and line densities are controlled; through refraction or diffraction of light, dynamic effects such as rotation, scaling, running and embossment and color image-text effects are formed, the physical property and taste of food are not influenced by the food cast or injection molded by using the mold, and the food has more colorful patterns and surface effects and is more novel and artistic.

The microstructure food mold is manufactured by the laser interference and precision machining method, and microstructure chromogenic pictures and texts are left on the surface of food when the food is manufactured. The food made by the micro-structure mold has strong visual effect on the surface, and can display various pictures and texts in a micro-structure mode, so that the pictures and texts on the surface of the food have dynamic color effects such as rotation, scaling, running, embossment and the like; the effect is based on the material of the food, is not formed by other added substances, is not added or destroyed, does not affect the taste, and is safe and reliable from the viewpoint of food safety. The food with the microstructure graphics as a new display form has wide market prospect, and indicates that the food industry increases value innovation when manufacturers and manufacturers search for new methods.

The surface of the microstructure mould generates graphic and text information such as changeable colors, the surface of the food is also provided with a microstructure by manufacturing the food, the microstructure is a physical structure, the characteristics of any food and material are not changed, and the food is more graded in appearance and safety. The food mold made of the microstructure also has an anti-counterfeiting function, so that anti-counterfeiting information can be displayed on food made of each piece of food through the microstructure mold, and the reliability of food safety is greatly improved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A food mold having a microstructure, comprising: a mold base (400) and a PMMA mold (300);

the PMMA mould (300) is arranged at the upper part of the mould base (400), and the PMMA mould (300) is a mould with microstructure reverse graphic and text information on the upper surface.

2. A method of making a microstructured food mold according to claim 1, comprising the steps of:

designing microstructure image-text information mould

The image-text information is any one of characters, numbers, figures, points, lines and LOGO;

second, machine equipment is utilized to process and manufacture the primary mold with microstructure reverse graphic information

The machine equipment comprises a dot-matrix photoetching machine, a DMD photoetching machine, a direct-writing photoetching machine and a multi-axis high-precision processing machine tool;

making combined forming mould with microstructure forward image-text information

a. Firstly, the primary mold (100) with the microstructure reverse graphic and text information is subjected to mold turnover manufacturing, and the microstructure reverse graphic and text information is copied to an object borne by the mold, namely: copying the mold;

b. then splicing, inlaying and bending the turnover mould with the microstructure forward graphic and text information to form a combined forming mould (200); the microstructure image-text information on the combined forming die (200) is arranged in the forward direction;

manufacturing PMMA mold with microstructure reverse graphic information

a. Firstly, cleaning the surface of a combined forming die (200) with microstructure forward graphic and text information;

b. then mixing the molten PMMA material in proportion and fully stirring;

c. vacuumizing and defoaming the stirred PMMA melted material, pouring the defoamed PMMA melted material into a combined forming mold (200) with microstructure forward graphic and text information, wherein the height of the PMMA melted material is 5-20 mm higher than the edge of the combined forming mold (200);

curing of PMMA Material

Flatly placing the combined forming die (200) on a workbench, standing the PMMA melt material for 48-72 hours, and waiting for the PMMA melt material to be fully cured;

e.PMMA moulding

After the PMMA molten material is fully cured, a PMMA mould (300) with microstructure reverse graphic and text information is formed at the upper part of the combined forming mould (200);

and then separating the PMMA mould (300) to obtain the PMMA mould (300) with microstructure reverse graphic and text information.

3. The method for making a food mold with a microstructure according to claim 2, wherein in the step (r), the graphic information can define the color of each letter, number, figure, point, line, LOGO;

the graphic and text information can also define the dynamic or static effect of each character, number, graph, point, line and LOGO.

4. The method for manufacturing a food mold with a microstructure according to claim 3, wherein in the step (II), the primary mold processing raw material of the photoetching machine is a photoetching offset plate, and the processing raw material of the multi-shaft high-precision processing machine is any one of nickel-chromium alloy, copper and aluminum.

5. The method for making a food mold with a microstructure according to claim 4, wherein in the step (II), the microstructure of the microstructure area comprises micro-lenses, cylindrical lenses, Fresnel lenses, CD patterns, wiredrawing patterns, rainbow lenses and modulated rainbow gratings.

6. The method of claim 5, wherein in step (II), the height of the microstructure stripe of the microstructure area is between 20 μm and 100 nm;

the stripe frequency of the microstructure area is between 2 pairs and 3000 pairs per millimeter, and the frequency can be fixed or variable.

7. The method for manufacturing a food mold with a microstructure according to claim 6, wherein in the third step, the material of the combined forming mold (200) is any one of PC, PET and food grade metal material;

the combined forming die (200) is square, or round, or special-shaped, or custom-made.

8. A method of making a food product using the microstructured food mold of claim 1, comprising the steps of:

designing microstructure image-text information mould

The image-text information is any one of characters, numbers, figures, points, lines and LOGO;

second, machine equipment is utilized to process and manufacture the primary mold with microstructure reverse graphic information

The machine equipment comprises a dot-matrix photoetching machine, a DMD photoetching machine, a direct-writing photoetching machine and a multi-axis high-precision processing machine tool;

making combined forming mould with microstructure forward image-text information

a. Firstly, the primary mold (100) with the microstructure reverse graphic and text information is subjected to mold turnover manufacturing, and the microstructure reverse graphic and text information is copied to an object borne by the mold, namely: copying the mold;

b. then splicing, inlaying and bending the turnover mould with the microstructure forward graphic and text information to form a combined forming mould (200); the microstructure image-text information on the combined forming die (200) is arranged in the forward direction;

manufacturing PMMA mold with microstructure reverse graphic information

a. Firstly, cleaning the surface of a combined forming die (200) with microstructure forward graphic and text information;

b. then mixing the molten PMMA material in proportion and fully stirring;

c. vacuumizing and defoaming the stirred PMMA melted material, pouring the defoamed PMMA melted material into a combined forming mold (200) with microstructure forward graphic and text information, wherein the height of the PMMA melted material is 5-20 mm higher than the edge of the combined forming mold (200);

curing of PMMA Material

Flatly placing the combined forming die (200) on a workbench, standing the PMMA melt material for 48-72 hours, and waiting for the PMMA melt material to be fully cured;

e.PMMA moulding

After the PMMA molten material is fully cured, a PMMA mould (300) with microstructure reverse graphic and text information is formed at the upper part of the combined forming mould (200);

then separating the PMMA mould (300) to obtain the PMMA mould (300) with microstructure reverse graphic and text information;

fifthly, hot melting of the food raw materials

Carrying out hot melting on the food raw materials to ensure that the melting degree of the food raw materials meets the requirements of production and processing;

the food raw material is a material which has high density, can be melted and can be solidified;

pouring and solidifying food material

The PMMA mould (300) is arranged at the upper part of the mould base (400), then the hot-melt food raw material (500) meeting the production requirement is poured or pressed into the PMMA mould (300), the hot-melt food raw material (500) is cooled by standing for 1-2 hours, so that the hot-melt food raw material (500) meets the requirement of full solidification in the PMMA mould (300);

seventhly, forming food

And separating the solidified food finished product, forming the microstructure pattern and text opposite to the PMMA mould (300) on the surface of the food finished product, and forming the forward pattern and text with the microstructure on the surface of the food finished product to obtain the food finished product with the microstructure forward pattern and text.

9. The method for preparing a food according to claim 8, wherein in the step (iv), the PMMA mold (300) is a food grade mold;

the PMMA mould (300) is made of food-grade silica gel or food-grade stainless steel.

10. The food preparation method of claim 9, wherein in the step (sixthly), the hot-melt food material (500) is any one of chocolate, sugar, and fat.

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