CN112396145B - Two-dimensional code structure under Internet of things framework, manufacturing method and interaction system - Google Patents

Abstract

The invention discloses a two-dimensional code structure under an Internet of things frame, a manufacturing method and an interaction system, wherein the two-dimensional code structure under the Internet of things frame comprises a connecting layer, a fixing layer and a scanning layer, the fixing layer is bonded with the connecting layer, the scanning layer is fixedly connected with the fixing layer and is positioned on one side far away from the connecting layer, a two-dimensional code graph capable of being scanned is arranged on the scanning layer, and the two-dimensional code graph is positioned on one side far away from the fixing layer. The two-dimensional code is directly used for food, the food can be directly eaten, the food information can be obtained by scanning the two-dimensional code, and the practicability is high.

Description

Two-dimensional code structure under Internet of things framework, manufacturing method and interaction system

Technical Field

The invention relates to the technical field of two-dimensional codes, in particular to a two-dimensional code structure under an Internet of things framework, a manufacturing method and an interaction system.

Background

The two-dimensional code records data symbol information by black and white figures distributed on a plane according to a certain rule by using a certain specific geometric figure, is taken as an ultra-popular coding mode in recent years, and has penetrated into the square of our life, so that the shadow of the two-dimensional code can be seen no matter you buy an individual, eat a meal, or even buy a dish. However, the existing two-dimensional codes are printed on food packages, are not directly used on food, and have poor practicability.

Disclosure of Invention

The invention aims to provide a two-dimensional code structure under an Internet of things frame, a manufacturing method and an interaction system, and aims to solve the problems that the existing two-dimensional code is printed on a food package, is not directly used on food, and is poor in practicability.

In order to achieve the above object, in a first aspect, the invention provides a two-dimensional code structure under a framework of an internet of things, which includes a connection layer, a fixed layer and a scanning layer, wherein the fixed layer is bonded with the connection layer, the scanning layer is fixedly connected with the fixed layer and is located on one side far away from the connection layer, a two-dimensional code pattern for scanning is provided on the scanning layer, and the two-dimensional code pattern is located on one side far away from the fixed layer.

The connecting layer comprises a second bonding layer, a graphic layer and a third bonding layer, the second bonding layer, the graphic layer and the third bonding layer are fixedly connected in sequence, the second bonding layer is bonded with the fixed layer, and the third bonding layer is located on one side far away from the fixed layer.

The two-dimensional code structure under the frame of the Internet of things further comprises a waterproof layer, wherein the waterproof layer is bonded with the scanning layer and is located away from one side of the fixing layer.

Wherein, the scanning layer has the recess, dodges groove and splice groove, the recess dodge the groove with the quantity of splice groove is three, three the recess is located the three corner on scanning layer, it is three dodge the trench in the scanning layer, and respectively with three the recess intercommunication, it is three the splice groove respectively with three the recess sets up relatively, and respectively with three dodge the groove intercommunication.

Wherein, the two-dimensional code structure under the frame of the Internet of things further comprises a positioning assembly, the positioning assembly comprises a first splicing member, a moving member, a second splicing member and a first bonding layer, the first splicing member and the moving member are both wedge-shaped structures, the moving member is connected with the scanning layer in a sliding manner and is positioned in the avoidance groove, the inclined plane of the first splicing member and the inclined plane of the moving member resist and are positioned in the groove and extend out of the scanning layer, the second splicing member and the moving member are integrally formed and are positioned at one side far away from the first splicing member and cover the projection surface of the splicing groove in the avoidance groove, the first bonding layer is bonded with the scanning layer and is positioned on the projection surface of the first splicing member in the groove, and when all three first splicing members are respectively positioned in three grooves, the planes of the three first splicing pieces far away from one side of the fixed layer are positioned on the same plane.

The two-dimensional code structure under the frame of the Internet of things further comprises a first ink layer, the first ink layer is fixedly connected with the fixed layer and located far away from one side of the connecting layer, the first ink layer is different in height and formed by second bulges at different positions, and the plane of one side of the fixed layer is lower than that of one side of the scanning layer.

The two-dimensional code structure under the frame of the Internet of things further comprises a second ink layer, the second ink layer is fixedly connected with the first ink layer, the second ink layer is composed of a plurality of third bulges which are different in height and are located at different positions, and the plane on one side of the fixed layer is lower than the plane on one side of the fixed layer, which is far away from the scanning layer.

The two-dimensional code structure under the frame of the Internet of things further comprises a color layer and an identification layer, the color layer wraps the first ink layer and the second ink layer, the identification layer is fixedly connected with the fixed layer and located at the center of the fixed layer, and the identification layer is located on one side of the connecting layer.

In a second aspect, the invention provides a method for manufacturing a two-dimensional code under an internet of things framework, which includes:

pouring liquid of edible materials into a mold with a preset shape to generate the fixed layer, the mold with three grooves, three avoidance grooves, three splicing grooves, the moving member, the second splicing member, the scanning layer of the first bonding layer, the second bonding layer, the graphic layer, the third bonding layer, the first splicing member, the first ink layer, the second ink layer, the identification layer and the waterproof layer;

spraying the bar code on the peripheral side of the fixed layer, spraying two-dimensional code patterns on the surfaces of the scanning layer, the first splicing piece and the second splicing piece, and spraying patterns with different colors on the color layer;

printing a two-dimensional code graph on the graph layer, coating edible glue on the second bonding layer and the third bonding layer, and pressing the second bonding layer, the graph layer and the third bonding layer together to form the connecting layer;

coating edible glue on the first adhesive layer to resist the first splicing piece between the groove and the moving piece;

coating edible glue on the fixing layer, the scanning layer, the first ink layer, the second ink layer, the color layer and the identification layer, and bonding the scanning layer, the first ink layer and the identification layer on the fixing layer, bonding the second ink layer on the first ink layer, and bonding the color layer on the first ink layer and the second ink layer;

and bonding the connecting layer and the fixing layer, coating edible glue on the waterproof layer, and bonding the waterproof layer on the connecting layer, the fixing layer, the color layer and the identification layer.

In a third aspect, the present invention provides a two-dimensional code interaction system under an internet of things framework, including: scanning module, inquiry module, trace back module, prediction module and interactive module, inquiry module, trace back module, prediction module with interactive module all with scanning module electric connection, wherein:

the scanning module is used for scanning the two-dimensional code on the scanning layer;

the query module is used for checking the basic information of the corresponding commodity after the two-dimensional code is scanned;

the tracing module is used for checking the production process information of the corresponding commodity after the two-dimensional code is scanned;

the forecasting module is used for checking big data forecasting market supply and demand relation information of the corresponding commodity after the two-dimensional code is scanned;

and the interaction module is used for checking or inputting comment information of the corresponding commodity after the two-dimensional code is scanned.

The two-dimensional code structure under the frame of the Internet of things is used for being adhered, sprayed or printed on food, the related information of the food can be obtained by scanning the two-dimensional code on the scanning layer, and the two-dimensional code structure can be directly eaten, so that the practicability is enhanced.

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 embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only 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 structural diagram of a two-dimensional code structure under an internet of things framework according to a second embodiment of the invention;

fig. 2 is a front view of a two-dimensional code structure under a framework of the internet of things according to a second embodiment of the invention;

FIG. 3 is a cross-sectional view of a scanning layer according to a second embodiment of the present invention;

FIG. 4 is a cross-sectional view of a second ink layer of a second embodiment of the present invention;

fig. 5 is a schematic flow chart of a method for preparing a two-dimensional code under an internet of things framework according to a second embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a two-dimensional code interaction system under the framework of the Internet of things;

FIG. 7 is a flow chart of a two-dimensional code interaction system under the framework of the Internet of things of the invention;

fig. 8 is a schematic structural diagram of a two-dimensional code structure under an internet of things framework according to a first embodiment of the present invention;

100-a two-dimensional code structure under an internet of things frame, 1-a connecting layer, 2-a fixing layer, 3-a scanning layer, 4-a positioning component, 5-a first ink layer, 6-a second ink layer, 7-a color layer, 8-an identification layer, 9-a waterproof layer, 11-a second adhesive layer, 12-a graphic layer, 13-a third adhesive layer, 21-a bar code, 31-a groove, 32-an avoidance groove, 33-a splicing groove, 41-a first splicing piece, 42-a moving piece, 43-a second splicing piece, 44-a first adhesive layer, 200-a two-dimensional code interaction system under the internet of things frame, 201-a scanning module, 202-a query module, 203-a tracing module, 204-a prediction module and 205-an interaction module.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The first embodiment:

the invention provides a two-dimensional code structure 100 under an Internet of things frame, wherein a fixed layer 2 is bonded with a connecting layer 1, a scanning layer 3 is fixedly connected with the fixed layer 2 and is positioned at one side far away from the connecting layer 1, a two-dimensional code graph for scanning is arranged on the scanning layer 3, and the two-dimensional code graph is positioned at one side far away from the fixed layer 2. The connecting layer 1 comprises a second bonding layer 11, a graph layer 12 and a third bonding layer 13, the second bonding layer 11, the graph layer 12 and the third bonding layer 13 are fixedly connected in sequence, the second bonding layer 11 is bonded with the fixing layer 2, and the third bonding layer 13 is located on one side far away from the fixing layer 2. Two-dimensional code structure 100 under thing networking frame still includes waterproof layer 9, waterproof layer 9 with scanning layer 3 bonds, and is located and keeps away from one side of fixed bed 2. The connecting layer 1, the fixing layer 2, the scanning layer 3 and the waterproof layer 9 are all made of edible materials.

In this embodiment, referring to fig. 8, the second adhesive layer 11, the graphic layer 12, the third adhesive layer 13, the fixing layer 2, the scanning layer 3, and the waterproof layer 9 are all made of edible materials, the third adhesive layer 13 can be adhered to food, a two-dimensional code pattern is drawn on the graphic layer 12 to prevent the scanning layer 3 from being damaged and unable to be scanned, the waterproof layer 9 prevents the two-dimensional code structure from being corroded, the scanning of the two-dimensional code can be based on cloud tracing of the production and manufacturing process of food, interaction and the like, and the scanning of the two-dimensional code can also read information of a bar code to identify the authenticity of food.

The invention provides a two-dimensional code manufacturing method under the framework of the Internet of things, which comprises the steps of pouring edible material liquid into a spraying machine, and spraying a second bonding layer 11, a graphic layer 12, a third bonding layer 13, a fixing layer 2, a scanning layer 3 and a waterproof layer 9 on a product. Wherein the two-dimensional code can be sprayed, printed or adhered on the food.

The invention provides a two-dimensional code interaction system 200 under an Internet of things framework, which comprises: the scanning module 201, the query module 202, the trace back module 203, the prediction module 204, and the interaction module 205, wherein the query module 202, the trace back module 203, the prediction module 204, and the interaction module 205 are all electrically connected to the scanning module 201, and wherein:

the query module 202 is configured to view basic information of a corresponding commodity after the two-dimensional code is scanned; if the corresponding commodity is agricultural and sideline products or Chinese medicinal decoction pieces, the basic information of the commodity is the component composition, the eating method, the food incompatibility and the healthy diet guidance of the commodity; the tracing module 203 is used for checking the production process information of the corresponding commodity after the two-dimensional code is scanned; the generation process information is the production source and the intermediate production process of the commodity stored in the database in a block chain mode and is presented in a mode of characters, pictures, voice and videos; the prediction module 204 is used for viewing big data prediction market supply and demand relation information of the corresponding commodity after the two-dimensional code is scanned; the interaction module 205 is configured to view or input comment information of a corresponding commodity after the two-dimensional code is scanned. Referring to fig. 7, the specific operation is that the user scans the two-dimensional code structure 100 under the framework of the internet of things with APPs such as WeChat and Paibao, and downloads basic information of the product, such as price, component composition, basic method, eating method, food incompatibility and healthy diet guidance, from the cloud; tracing contents, such as production processes, including batching and packaging; related products, which are convenient for users to select; the advantages and the disadvantages of the products can be checked and commented, suggestions are provided, online communication can be realized, and meanwhile, the links can be directly copied and sent to a circle of friends to be shared with the friends; meanwhile, the system can inquire all production points of sale and sales conditions of products, predict market supply and demand relations according to big data information, optimize resource allocation and facilitate timely adjustment of operating personnel, and the cloud is a software platform adopting an application program virtualization technology and integrates multiple functions of software searching, downloading, using, managing, backing up and the like.

Second embodiment:

in another embodiment of this embodiment, please refer to fig. 1 to 4, the two-dimensional code structure 100 under the frame of the internet of things includes a connection layer 1, a fixed layer 2, a scanning layer 3 and a positioning component 4, the fixed layer 2 is bonded to the connection layer 1, the scanning layer 3 is composed of a plurality of first protrusions with the same height and different positions, the scanning layer 3 is fixedly connected to the fixed layer 2 and located on one side far away from the connection layer 1, the scanning layer 3 has a groove 31, an avoiding groove 32 and a splicing groove 33, the number of the groove 31, the avoiding groove 32 and the splicing groove 33 is three, the three grooves 31 are located at three corners of the scanning layer 3, the three avoiding grooves 32 are located in the scanning layer 3 and respectively communicated with the three grooves 31, the three splicing grooves 33 are respectively arranged opposite to the three grooves 31, the positioning assemblies 4 are three, each positioning assembly 4 comprises a first splicing member 41, a moving member 42, a second splicing member 43 and a first adhesive layer 44, the first splicing member 41 and the moving member 42 are of wedge-shaped structures, the moving member 42 is connected with the scanning layer 3 in a sliding manner and is located in the avoiding groove 32, the inclined surface of the first splicing member 41 and the inclined surface of the moving member 42 resist and are located in the groove 31 and extend out of the scanning layer 3, the second splicing member 43 and the moving member 42 are integrally formed and are located on one side far away from the first splicing member 41 and cover the projection surface of the splicing groove 33 in the avoiding groove 32, the first adhesive layer 44 is bonded with the scanning layer 3 and is located on the projection surface of the first splicing member 41 in the groove 31, when all the three first splicing pieces are located in the three grooves, the planes of the three first splicing pieces far away from one side of the fixed layer are located on the same plane.

In this embodiment, the two-dimensional code structure under the thing networking frame is used for on the food, can bond to on the food, also can spray to on the food, can also be printing or print on the food. The connecting layer 1, the fixing layer 2, the scanning layer 3, the first splicing member 41, the moving member 42, the second splicing member 43 and the first bonding layer 44 are all made of edible materials, so that the commodity cannot be damaged, and the harm to the health of consumers due to the fact that the consumers eat the edible materials by mistake is avoided. The connecting layer 1 is used for being fixed on commodities which can be agricultural and sideline products and Chinese herbal medicine decoction pieces, the connecting layer 1 has a connecting effect, and the fixing layer 2 has a supporting effect. The scanning layer 3 is composed of a plurality of first bulges with the same height and at different positions, and the upper surfaces of the first bulges are coated with correction graph codes, format information codes, version information codes, data and error correction codes for a scanner to scan and read information. The first adhesive layer 44 is coated with edible gum, which is also called hydrophilic colloid and hydrosol, and can be dissolved or dispersed in water, and under certain conditions, hydrophilic groups in the molecule, such as carboxyl, hydroxyl, amino, carboxylate, and the like, can be hydrated with water molecules to form sticky and greasy solution or gel, so as to achieve the effects of thickening, viscosity increasing, adhesion, gel forming force, hardness, brittleness, compactness, stable emulsification, suspensoid, and the like, and can be carrageenan, xanthan gum, guar gum, agar, gelatin, locust bean gum, or konjac gum. Positioning codes are coated on the planes of the three first splicing pieces 41 on the sides far away from the fixed layer 2, so that three points can determine one plane, specific information can be obtained no matter how a scanning device is placed when the codes are scanned, and the distances from the planes of the three first splicing pieces 41 on the sides far away from the fixed layer 2 to the planes of the scanning layer 3 on the sides far away from the fixed layer 2 are unequal, so that the three first splicing pieces 41 are prevented from being pushed to the grooves 31 to form a plane by accidental touch; the plane of the second splicing member 43 far away from the fixed layer 2 is coated with the identification code, when a person maliciously presses the three first splicing members 41, the first splicing members 41 move into the groove 31 and are bonded with the first bonding layer 44, because the first splicing members 41 and the moving member 42 are in the wedge-shaped structures and the inclined surfaces thereof resist each other, the moving member 42 is driven to move towards the avoiding groove 32, the second splicing member 43 and the moving member 42 are integrally formed, the second splicing member 43 is driven to move towards the side far away from the groove 31 until the projection surface of the splicing groove 33 in the avoiding groove 32 is covered, the three first splicing members 41, the scanning layer 3 and the second splicing member 43 form a scannable two-dimensional code pattern, a consumer only needs to observe whether the positions of the three first splicing members 41 are partially outside the scanning layer 3, whether the corresponding commodity is scanned by other people or not can be judged, the condition that the two-dimensional code is stolen and invalid is effectively prevented from happening before the commodity is sold, the rights and interests of scanning participation activities of consumers are protected, and the user experience is enhanced.

According to the two-dimensional code structure 100 under the frame of the internet of things, the scanning layer 3 is provided with three grooves 31, three avoiding grooves 32 and three splicing grooves 33, the three grooves 31 are positioned at three corners of the scanning layer 3, the three avoiding grooves 32 are positioned in the scanning layer 3 and are respectively communicated with the three grooves 31, the three splicing grooves 33 are respectively communicated with the three avoiding grooves 32, the first splicing member 41 and the moving member 42 are both wedge-shaped structures, the moving member 42 is connected with the scanning layer 3 in a sliding mode and is positioned in the avoiding groove 32, the inclined surface of the first splicing member 41 and the inclined surface of the moving member 42 resist and are positioned in the grooves 31 and extend out of the scanning layer 3, the second splicing member 43 is integrally formed with the moving member 42 and is positioned on the side far away from the first splicing member 41, and covers the projection surface of the splicing groove 33 in the avoiding groove 32, and the first adhesive layer 44 is adhered to the scanning layer 3 and is located on the projection surface of the first splicing member 41 in the groove 31. Only press first splice 41, moving member 42 to dodge groove 32 and remove, until first splice 41 with first bonding piece bonds, second splice 43 is located on the projection plane of splice groove 33, make first splice 41 scan layer 3 with second splice 43 constitutes a complete two-dimensional code figure, can prevent effectively that the stolen condition of sweeping the inefficacy of two-dimensional code from appearing before selling in commodity, and the protection consumer scans the rights and interests of participating in the activity, and reinforcing user experience feels, and the practicality is strong.

Further, the connecting layer 1 comprises a second bonding layer 11, a graph layer 12 and a third bonding layer 13, the second bonding layer 11, the graph layer 12 and the third bonding layer 13 are sequentially and fixedly connected, the second bonding layer 11 is bonded with the fixing layer 2, and the third bonding layer 13 is located on one side far away from the fixing layer 2. In this embodiment, the second adhesive layer 11, the graphic layer 12, and the third adhesive layer 13 are made of edible materials, the second adhesive layer 11 and the third adhesive layer 13 are made of transparent materials, edible glue is coated on the third adhesive layer 13 for adhering and fixing with a commodity, the second adhesive layer 11 is adhered to the fixing layer 2 for fixing the two-dimensional code structure on the surface of the commodity, an effective two-dimensional code pattern for scanning is printed on the graphic layer 12, when the fixing layer 2 is inadvertently detached from the second adhesive layer 11 and a two-dimensional code scanning pattern cannot be obtained, the two-dimensional code pattern in the graphic layer 12 can be scanned to inquire the commodity, meanwhile, the two-dimensional code structure under the frame of the internet of things is associated with the barcode, and when the two-dimensional code structure under the frame of the internet of things is scanned, all information of the barcode can be known, for example, if the product is a biscuit, different names, methods and quality guarantee periods of the biscuit corresponding to the bar code can be known by scanning the two-dimensional code structure under the frame of the internet of things, so that the user experience is enhanced, and the practicability is enhanced.

Further, two-dimensional code structure 100 under thing networking frame still includes first china ink layer 5, first china ink layer 5 with fixed bed 2 fixed connection to be located and keep away from one side of articulamentum 1, first china ink layer 5 is by a plurality of height differences, and is in the second arch of different positions and constitutes, first china ink layer 5 is kept away from the plane of fixed bed 2 one side is less than scanning layer 3 keeps away from the plane of fixed bed 2 one side. In this embodiment, first ink layer 5 is made for edible material, and is a plurality of the second arch is in the different positions of fixed bed 2, and high diverse can supply the user who has visual impairment to feel and sweep the sign indicating number, just first ink layer 5 keeps away from the plane of fixed bed 2 one side is less than scanning layer 3 keeps away from the plane of fixed bed 2 one side can not block the scanning to the two-dimensional code pattern, and the practicality is strong, and user experience is high.

Further, two-dimensional code structure 100 under thing networking frame still includes second china ink layer 6, second china ink layer 6 with 5 fixed connection on first china ink layer, second china ink layer 6 is by a plurality of height differences, and is in the third arch of different positions and constitute, second china ink layer 6 is kept away from the plane of fixed bed 2 one side is less than scanning layer 3 is kept away from the plane of fixed bed 2 one side. In this embodiment, second china ink layer 6 is made for edible material, and is a plurality of the third arch is located a plurality ofly on the second arch, and has different height and width, strengthens the pleasing to the eye degree of whole two-dimensional code structure, and the nice and nice mood of reinforcing user's use, just second china ink layer 6 keeps away from the plane of fixed bed 2 one side is less than scanning layer 3 keeps away from the plane of fixed bed 2 one side can not block the scanning to the two-dimensional code pattern, and the practicality is strong, and user experience is high.

Further, two-dimensional code structure 100 under the thing networking frame still includes color layer 7 and identification layer 8, color layer 7 parcel first china ink layer 5 with second china ink layer 6, identification layer 8 with fixed bed 2 fixed connection, and be located the center of fixed bed 2, and be located keep away from one side of articulamentum 1. In this embodiment, the color layer 7 is made of various edible materials and has a certain color shape, and the first ink layer 5 and the second ink layer 6 have a stereoscopic impression, so that the overall aesthetic property is improved, and the user experience is enhanced.

The logo of the company corresponding to the commodity is coated on the identification layer 8, so that the logo is clear at a glance, the impression of the user on the corresponding commodity is deepened, the user does not need to read data for searching, and the practicability is high.

Further, the two-dimensional code structure 100 under the frame of the internet of things further comprises a waterproof layer 9, and the waterproof layer 9 wraps the connecting layer 1, the fixed layer 2, the color layer 7 and the identification layer 8. In this embodiment, the waterproof layer 9 is a transparent waterproof film made of an edible material, so that the connection layer 1, the fixing layer 2, the color layer 7 and the identification layer 8 are prevented from being corroded by water and being stained with a two-dimensional code pattern or a pattern on the color layer 7, and the waterproof film has a long service life and high practicability.

Further, the fixing layer 2 has a bar code 21, and the bar code 21 is coated on the peripheral side of the fixing layer 2. The bar code 21 is a graphic identifier in which a plurality of black bars and spaces having different widths are arranged according to a certain encoding rule to express a group of information. When the two-dimensional code pattern on the scanning layer 3 is damaged accidentally, the basic information of the corresponding commodity can be known by scanning the bar code 21.

In a second aspect, referring to fig. 5, the present invention provides a method for manufacturing a two-dimensional code under an internet of things framework, where the method includes:

s301, pouring liquid of the edible material into a mold with a preset shape to generate a corresponding primary semi-finished product;

s302, spraying and coding the fixed layer 2, the first splicing piece 41, the second splicing piece 43, the color layer 7 and the graphic layer 12;

s303, bonding the primary semi-finished products;

pouring liquid of an edible material into a mold with a preset shape to generate the fixed layer 2, the scanning layer 3 with three grooves 31, three avoidance grooves 32, three splicing grooves 33, the moving member 42, the second splicing member 43 and the first bonding layer 44, the second bonding layer 11, the graphic layer 12, the third bonding layer 13, the first splicing member 41, the first ink layer 5, the second ink layer 6, the identification layer 8 and the waterproof layer 9;

spraying the bar code 21 on the peripheral side of the fixed layer 2, spraying two-dimensional code patterns on the surfaces of the scanning layer 3, the first splicing piece 41 and the second splicing piece 43, and spraying patterns with different colors on the color layer 7;

printing a two-dimensional code pattern on the pattern layer 12, coating edible glue on the second bonding layer 11 and the third bonding layer 13, and pressing the second bonding layer 11, the pattern layer 12 and the third bonding layer 13 together to form the connecting layer 1;

applying edible glue on the first adhesive layer 44 to resist the first splicing element 41 between the groove 31 and the moving element 42;

coating edible glue on the fixed layer 2, the scanning layer 3, the first ink layer 5, the second ink layer 6, the color layer 7 and the identification layer 8, adhering the scanning layer 3, the first ink layer 5 and the identification layer 8 on the fixed layer 2, adhering the second ink layer 6 on the first ink layer 5, and adhering the color layer 7 on the first ink layer 5 and the second ink layer 6;

bonding the connecting layer 1 and the fixing layer 2, coating edible glue on the waterproof layer 9, and bonding the waterproof layer 9 on the connecting layer 1, the fixing layer 2, the color layer 7 and the identification layer 8.

In a third aspect, referring to fig. 6, the present invention provides a two-dimensional code interaction system 200 under an internet of things framework, including: the scanning module 201, the query module 202, the trace back module 203, the prediction module 204, and the interaction module 205, wherein the query module 202, the trace back module 203, the prediction module 204, and the interaction module 205 are all electrically connected to the scanning module 201, and wherein:

the query module 202 is configured to check basic information of a corresponding commodity after the two-dimensional code is scanned; if the corresponding commodity is agricultural and sideline products or Chinese medicinal decoction pieces, the basic information of the commodity is the component composition, the eating method, the food incompatibility and the healthy diet guidance of the commodity; the tracing module 203 is used for checking the production process information of the corresponding commodity after the two-dimensional code is scanned; the generation process information is the production source and the intermediate production process of the commodity stored in the database in a block chain mode and is presented in a mode of characters, pictures, voice and videos; the prediction module 204 is used for viewing big data prediction market supply and demand relation information of the corresponding commodity after the two-dimensional code is scanned; the interaction module 205 is configured to view or input comment information of a corresponding commodity after the two-dimensional code is scanned. Referring to fig. 7, the specific operation is that the user scans the two-dimensional code structure under the framework of the internet of things by using APPs such as WeChat and Paibao, and downloads basic information of the product, such as price, component composition, basic preparation, eating method, food incompatibility and healthy diet guidance, from the cloud; tracing contents, such as production processes, including batching and packaging; related products, which is convenient for users to select; the advantages and the disadvantages of the products can be checked and commented, suggestions are provided, online communication can be realized, and meanwhile, the links can be directly copied and sent to a circle of friends to be shared with the friends; meanwhile, the system can inquire all production points of sale and sales conditions of products, predict market supply and demand relations according to big data information, optimize resource allocation and facilitate timely adjustment of operating personnel, and the cloud is a software platform adopting an application program virtualization technology and integrates multiple functions of software searching, downloading, using, managing, backing up and the like.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. A two-dimension code structure under the framework of the Internet of things, which is characterized in that,

the scanning device comprises a connecting layer, a fixing layer and a scanning layer, wherein the fixing layer is bonded with the connecting layer, the scanning layer is fixedly connected with the fixing layer and is positioned on one side far away from the connecting layer, a two-dimensional code pattern for scanning is arranged on the scanning layer, and the two-dimensional code pattern is positioned on one side far away from the fixing layer;

the scanning layer is provided with three grooves, avoidance grooves and splicing grooves, the number of the grooves, the avoidance grooves and the number of the splicing grooves are three, the three grooves are located at three corners of the scanning layer, the three avoidance grooves are located in the scanning layer and are respectively communicated with the three grooves, and the three splicing grooves are respectively arranged opposite to the three grooves and are respectively communicated with the three avoidance grooves;

the two-dimensional code structure under the frame of the Internet of things further comprises a positioning assembly, the positioning assembly comprises a first splicing piece, a moving piece, a second splicing piece and a first bonding layer, the first splicing piece and the moving piece are both wedge-shaped structures, the moving piece is connected with the scanning layer in a sliding way, and is positioned in the avoidance groove, the inclined surface of the first splicing piece and the inclined surface of the moving piece resist, and is positioned in the groove and extends out of the scanning layer, the second splicing piece and the moving piece are integrally formed, and is positioned at one side far away from the first splicing piece and covers the projection surface of the splicing groove in the avoidance groove, the first bonding layer is bonded with the scanning layer, and are positioned on the projection surface of the first splicing pieces in the groove, when the three first splicing pieces are connected with the first bonding layer, the planes of the three first splicing pieces far away from one side of the fixed layer are positioned on the same plane.

2. The two-dimensional code structure under the framework of the Internet of things of claim 1,

the connecting layer comprises a second bonding layer, a graphic layer and a third bonding layer, the second bonding layer, the graphic layer and the third bonding layer are fixedly connected in sequence, the second bonding layer is bonded with the fixed layer, and the third bonding layer is located on one side far away from the fixed layer.

3. The two-dimensional code structure under the framework of the Internet of things of claim 2,

the two-dimensional code structure under the frame of the Internet of things further comprises a waterproof layer, wherein the waterproof layer is bonded with the scanning layer and is located on one side away from the fixing layer.

4. The two-dimensional code structure under the framework of the Internet of things of claim 1,

the two-dimensional code structure under the frame of the Internet of things further comprises a first ink layer, the first ink layer is fixedly connected with the fixed layer and located far away from one side of the connected layer, the first ink layer is different in height and formed by second bulges at different positions, and the plane on one side of the fixed layer is lower than the plane on one side of the scanning layer.

5. The two-dimensional code structure under the framework of the Internet of things of claim 4,

the two-dimensional code structure under the frame of the Internet of things further comprises a second ink layer, the second ink layer is fixedly connected with the first ink layer, the second ink layer is composed of a plurality of height differences and third bulges at different positions, the second ink layer is kept away from the plane on one side of the fixed layer and is lower than the plane on one side of the fixed layer, which is kept away from the scanning layer.

6. The two-dimensional code structure under the framework of the Internet of things of claim 5,

the two-dimensional code structure under the frame of the Internet of things further comprises a color layer and an identification layer, the color layer wraps the first ink layer and the second ink layer, and the identification layer is fixedly connected with the fixed layer and located at the center of the fixed layer and located at one side of the connecting layer.

7. A two-dimensional code manufacturing method under an Internet of things framework is characterized by comprising the following steps:

pouring liquid of edible materials into a mold with a preset shape to generate a fixed layer, a movable member, a second splicing member, a scanning layer of a first splicing layer, a second splicing layer, a pattern layer, a third splicing layer, a first splicing member, a first ink layer, a second ink layer, an identification layer and a waterproof layer, wherein the fixed layer is provided with three grooves, three avoiding grooves, three splicing grooves, the movable member, the second splicing member, the scanning layer of the first splicing layer, the second splicing layer, the pattern layer, the third splicing layer, the first splicing member, the first ink layer, the second ink layer, the identification layer and the waterproof layer;

spraying bar codes on the peripheral side of the fixed layer, spraying two-dimensional code patterns on the surfaces of the scanning layer, the first splicing piece and the second splicing piece, and spraying patterns with different colors on the color layer;

printing a two-dimensional code graph on the graph layer, coating edible glue on the second bonding layer and the third bonding layer, and pressing the second bonding layer, the graph layer and the third bonding layer together to form a connecting layer;

coating edible glue on the first adhesive layer to resist the first splicing piece between the groove and the moving piece;

coating edible glue on the fixing layer, the scanning layer, the first ink layer, the second ink layer, the color layer and the identification layer, and bonding the scanning layer, the first ink layer and the identification layer on the fixing layer, bonding the second ink layer on the first ink layer, and bonding the color layer on the first ink layer and the second ink layer;

and bonding the connecting layer and the fixing layer, coating edible glue on the waterproof layer, and bonding the waterproof layer on the connecting layer, the fixing layer, the color layer and the identification layer.

8. The two-dimension code interaction system under the framework of the Internet of things is applied to the two-dimension code structure under the framework of the Internet of things of claim 1, and is characterized by comprising the following components: the system comprises a scanning module, a query module, a tracing module, a prediction module and an interaction module, wherein the query module, the tracing module, the prediction module and the interaction module are all electrically connected with the scanning module, and the scanning module comprises:

the scanning module is used for scanning the two-dimensional code on the scanning layer;

the query module is used for checking the basic information of the corresponding commodity after the two-dimensional code is scanned;

the tracing module is used for checking the production process information of the corresponding commodity after the two-dimensional code is scanned;

the forecasting module is used for checking big data forecasting market supply and demand relation information of the corresponding commodity after the two-dimensional code is scanned;

and the interaction module is used for checking or inputting comment information of the corresponding commodity after the two-dimensional code is scanned.

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