CN117078278A - Method and equipment for processing label for preparing plateau food - Google Patents

Abstract

The invention provides a processing method and equipment for preparing labels of plateau foods, which are characterized in that a plurality of equipment nodes are linked to a production block chain, and first food information of first foods is acquired based on acquisition devices at all production equipment and is uploaded to corresponding equipment nodes; determining a first production line and a plurality of corresponding first equipment nodes according to the first name information, extracting a plurality of first food information corresponding to the batch time period in each first equipment node, and performing de-duplication processing to obtain first food information containing a positioning tag; processing the total equipment node image based on the display adjustment strategy, the first equipment node image and the second equipment node image to obtain a first food equipment node image corresponding to the first food; and generating a retrieval path of corresponding first food information based on the positioning label and the first equipment node image, constructing a backtracking label according to the first food equipment node image and the retrieval path, and printing the backtracking label on a packaging bag of the first food.

Description

Method and equipment for processing label for preparing plateau food

Technical Field

The invention relates to a data processing technology, in particular to a method and equipment for processing a plateau food preparation label.

Background

The plateau food has the characteristics of unique flavor, high heat and the like, is favorable for being lower than coldness and increasing resistance, and can be printed with corresponding food preparation labels after the plateau food is produced, wherein the food preparation labels refer to characters, figures and symbols on a finished packaging food container and all instructions. Food preparation labels introduce the nature of the food, the process of the food, the components of the food, etc. in the form of text.

In the prior art, a food preparation label is used for displaying data such as anti-counterfeiting, recording production date, effective date and production address, but the food preparation label cannot enable a user to observe the actual production state and production environment of food, so that a manufacturer can make a fake on the food preparation label, describe or introduce the food in a misunderstanding or deceptive way, and the consumer confuses a certain property of the food or the food with another product, thereby affecting the safety of the food.

Therefore, how to truly record and display the flow in the food production process in combination with the food preparation label is a problem to be solved urgently.

Disclosure of Invention

The embodiment of the invention provides a processing method and equipment for preparing labels for plateau foods, which can generate more visual prepared labels according to actual production conditions and cannot be modified.

In a first aspect of an embodiment of the present invention, there is provided a method for processing a plateau food preparation tag, including:

constructing equipment nodes corresponding to production equipment in a target processing factory building, linking a plurality of the equipment nodes to a production block chain, acquiring first food information of first food based on acquisition devices at the production equipment, and uploading the first food information to the corresponding equipment nodes;

receiving a batch time period input by a user for a first food, acquiring first name information of the first food, determining a first production line and a plurality of corresponding first equipment nodes according to the first name information, extracting a plurality of pieces of first food information corresponding to the batch time period in each first equipment node, and performing de-duplication processing to obtain the first food information containing a positioning tag;

generating a total equipment node image according to production equipment in a target processing factory building and the position relation of the production equipment, acquiring a first equipment node image corresponding to a first production line in the total equipment node image, taking the rest equipment node image as a second equipment node image, and processing the total equipment node image based on a display adjustment strategy, the first equipment node image and the second equipment node image to obtain a first food equipment node image corresponding to the first food;

And calling a positioning label and configuring the positioning label to each first equipment node image in the first food equipment node images, generating a calling path of corresponding first food information based on the positioning label and the first equipment node images, constructing a backtracking label according to the first food equipment node images and the calling path, and printing the backtracking label on a packaging bag of the first food.

Optionally, in one possible implementation manner of the first aspect, the building a device node corresponding to each production device in the target processing factory building, linking a plurality of the device nodes to a production blockchain, collecting first food information of a first food based on a collecting device at each production device, and uploading the first food information to the corresponding device node includes:

acquiring all production equipment in a target processing factory building, constructing production equipment nodes corresponding to the production equipment, linking the equipment nodes to a production block chain, acquiring first food images of first food based on image acquisition devices at the production equipment, and uploading the first food images to the corresponding equipment nodes;

and collecting first node information of the first food based on a data collecting device at each production device, and uploading the first node information to a corresponding device node, wherein the first node information comprises at least one of device operation information, raw material information and additive information.

Optionally, in one possible implementation manner of the first aspect, the receiving the batch time period input by the user for the first food obtains first name information of the first food, determines a first production line and a corresponding plurality of first device nodes according to the first name information, extracts a plurality of first food information corresponding to the batch time period in each first device node, and performs deduplication processing to obtain the first food information including a positioning tag, where the method includes:

receiving a batch time period input by a user for a first food, acquiring first name information of the first food, and determining a first production line and a plurality of corresponding first equipment nodes according to the first name information;

acquiring a first connection sequence table of the first equipment nodes in the first production line, and sequentially extracting the processing time length of each first equipment node in the first connection sequence table;

calculating according to the batch time periods and the processing time periods in the first connection sequence table in sequence to obtain first extraction time periods corresponding to the first equipment nodes;

extracting a plurality of pieces of first food information in the first extraction time period in each first equipment node, and performing de-duplication processing to obtain first food information containing a positioning label in each corresponding first equipment node, wherein the positioning label comprises first name information and the first extraction time period.

Optionally, in one possible implementation manner of the first aspect, the calculating according to the batch time period and the processing duration in the first connection sequence table sequentially, to obtain a first extraction time period corresponding to each first device node includes:

acquiring a batch initial time point and a batch ending time point of the batch time period and processing time of each first equipment node in the first connection sequence table;

obtaining a first initial time point of each first equipment node according to an initial reverse deduction strategy, the batch initial time point and the processing time length of each first equipment node in the first connection sequence table;

obtaining a first termination time point of each first equipment node according to a termination reverse deduction strategy, the batch termination time point and the processing time length of each first equipment node in the first connection sequence table;

and obtaining a first extraction time period corresponding to each first equipment node according to the first initial time point and the first termination time point.

Optionally, in one possible implementation manner of the first aspect, the obtaining, according to an initial reverse derivation policy, the batch initial time point, and a processing duration of each first equipment node in the first connection sequence table, a first initial time point of each first equipment node includes:

Acquiring the processing time length of the first equipment node in a first connection sequence table, and determining a first initial time point corresponding to the first equipment node according to the batch initial time point and the corresponding processing time length;

deleting the first equipment node from the first connection sequence table, taking the first initial time point as the current batch initial time point, and repeating the steps until all the first equipment nodes have the first initial time point;

optionally, in one possible implementation manner of the first aspect, the obtaining, according to a termination reverse derivation policy, the batch initial time point, and a processing duration of each first device node in the first connection sequence table, a first termination time point of each first device node includes:

initializing the first connection sequence table, and obtaining the processing time length of the first equipment node in the first connection sequence table;

determining a first termination time point corresponding to the first equipment node according to the batch termination time point and the corresponding processing time length;

and deleting the first equipment node from the first connection sequence table, taking the first termination time point as the current batch termination time point, and repeating the steps until all the first equipment nodes have the first termination time point.

Optionally, in a possible implementation manner of the first aspect, the processing the total device node image based on the presentation adjustment policy, the first device node image and the second device node image to obtain a first food device node image corresponding to the first food product includes:

acquiring preset radiuses of the first equipment node image and the second equipment node image, wherein the first equipment node image and the second equipment node image are circular images;

the circle center distance between each first equipment node image and the rest of the first equipment node images or the rest of the second equipment node images is obtained to be used as a first connection distance, and the shortest first connection distance is selected to be used as a first circle center distance;

determining a first interval distance according to the first circle center distance and the preset radius, and determining an amplification radius corresponding to each first equipment node image according to the first interval distance, the preset amplification weight and the preset radius;

changing the preset radius of each first equipment node image into the enlarged radius, and carrying out reduction processing on the preset radius of each second equipment node image based on a preset reduction coefficient to obtain a first food equipment node image corresponding to the first food.

Optionally, in one possible implementation manner of the first aspect, the generating a retrieval path of the corresponding first food information based on the positioning tag and the first device node image, constructing a traceback tag according to the first food device node image and the retrieval path, and printing the traceback tag on a packaging bag of the first food, includes:

determining a first equipment node corresponding to the first equipment node image based on first name information in the positioning label configured by the first equipment node image, and generating a node calling path;

determining corresponding first food information in the corresponding first equipment node based on a first extraction time period in the positioning label configured by the first equipment node image, and generating a food calling path;

generating a retrieval path of the first food information according to the equipment retrieval path and the food retrieval path, and configuring the retrieval path to a corresponding first equipment node image to obtain a configured second food equipment node image;

and constructing a backtracking label according to the second food equipment node image, and printing the backtracking label on the packaging bag of the first food.

Optionally, in one possible implementation manner of the first aspect, the method further includes:

the user side scans the backtracking label of the first food information, generates identification information, receives the identification information, and sends the node image of the second food equipment to the user side for display;

and if the user triggers any one of the first equipment node images in the second food equipment node images, responding to the retrieval path, retrieving the corresponding first food information and displaying the first food information.

In a second aspect of the embodiments of the present invention, there is provided a plateau food preparation tag processing apparatus including:

the construction module is used for constructing equipment nodes corresponding to all production equipment in the target processing factory building, linking a plurality of the equipment nodes to a production block chain, acquiring first food information of first food on the basis of acquisition devices at all production equipment and uploading the first food information to the corresponding equipment nodes;

the de-duplication module is used for receiving batch time periods input by a user for first foods, acquiring first name information of the first foods, determining a first production line and a plurality of corresponding first equipment nodes according to the first name information, extracting a plurality of pieces of first food information corresponding to the batch time periods in each first equipment node, and performing de-duplication processing to obtain the first food information containing the positioning tag;

The display module is used for generating a total equipment node image according to the production equipment in the target processing factory building and the position relation of the production equipment, acquiring a first equipment node image corresponding to a first production line in the total equipment node image, taking the rest equipment node image as a second equipment node image, and processing the total equipment node image based on a display adjustment strategy, the first equipment node image and the second equipment node image to obtain a first food equipment node image corresponding to the first food;

the retrieval module is used for retrieving the positioning label and configuring the positioning label to each first equipment node image in the first food equipment node images, generating a retrieval path of corresponding first food information based on the positioning label and the first equipment node images, constructing a backtracking label according to the first food equipment node images and the retrieval path, and printing the backtracking label on a packaging bag of first food.

The beneficial effects of the invention are as follows:

1. according to the invention, the corresponding equipment nodes are built at each equipment and the production block chain is added, so that the food information corresponding to the equipment nodes is difficult to change, the same food information in the same batch time period is subjected to duplicate removal processing, the data storage amount is reduced, the burden of the data storage is reduced, and the subsequent direct calling based on batch time is convenient. According to the invention, the first food equipment node image corresponding to the first food is constructed, the calling path of the first equipment node image in the first food equipment node image is generated based on the positioning label, the calling path is bound with the first equipment node image, when a user triggers any first equipment node image, corresponding first food information is automatically called, all information corresponding to the food is displayed, the production process of the food is more conveniently traced by the consumer, the production state and the production process of the food are observed, and the safety of the user is improved.

2. The invention performs the duplicate processing on the first food information repeated in each first equipment node, and it can be understood that the raw materials used in the same production batch and the production environment are the same, so that the duplicate data is subjected to the duplicate processing. And determining a first extraction time period of each first equipment node by receiving a batch time period input by the first food and processing time length of each first equipment node in a first connection sequence table in a reverse deduction mode, performing de-duplication processing on a plurality of first food information in the first extraction time period in the first equipment node, and reducing the storage data amount without influencing subsequent call on the first food information.

3. According to the invention, the first food equipment node image corresponding to the first food can be constructed, so that different foods have the corresponding first food equipment node image, users can observe the production process of the foods directly conveniently, and the safety of consumers is improved. The invention can amplify the first equipment node image of the first production line and reduce the rest equipment node images, so that the observation of a user is more visual, and the first equipment node image can be directly positioned to the first production line for producing the first food.

4. The invention binds the first equipment node image in the first food equipment node image with the calling path for calling the corresponding first food information, is convenient for a subsequent user to directly call the corresponding first food information to display when any one of the first equipment node images in the first food equipment node image is triggered, and is convenient for the user to observe the corresponding production state of the first food in the production equipment, and the production process and the food state are directly traced.

Drawings

FIG. 1 is a flow chart of a method for processing a label for preparing a food on a plateau;

FIG. 2 is a schematic diagram of a total device node image provided by the present invention;

FIG. 3 is a schematic view of a first food device node image according to the present invention;

fig. 4 is a schematic structural view of a label processing apparatus for preparing plateau food according to the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms "first," "second," "third," "fourth" and the like in the description and in the claims and in the above drawings, if any, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the invention described herein may be implemented in sequences other than those illustrated or otherwise described herein.

It should be understood that, in various embodiments of the present invention, the sequence number of each process does not mean that the execution sequence of each process should be determined by its functions and internal logic, and should not constitute any limitation on the implementation process of the embodiments of the present invention.

It should be understood that in the present invention, "comprising" and "having" and any variations thereof are intended to cover non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements that are expressly listed or inherent to such process, method, article, or apparatus.

It should be understood that in the present invention, "plurality" means two or more. "and/or" is merely an association relationship describing an association object, meaning that there may be three relationships, e.g., a and/or B, may represent: a exists alone, A and B exist together, and B exists alone. The character "/" generally indicates that the context-dependent object is an "or" relationship. "comprising A, B and C", "comprising A, B, C" means that all three of A, B, C comprise, "comprising A, B or C" means that one of the three comprises A, B, C, and "comprising A, B and/or C" means that any 1 or any 2 or 3 of the three comprises A, B, C.

It should be understood that in the present invention, "B corresponding to a", "a corresponding to B", or "B corresponding to a" means that B is associated with a, from which B can be determined. Determining B from a does not mean determining B from a alone, but may also determine B from a and/or other information. The matching of A and B is that the similarity of A and B is larger than or equal to a preset threshold value.

As used herein, "if" may be interpreted as "at … …" or "at … …" or "in response to a determination" or "in response to detection" depending on the context.

The technical scheme of the invention is described in detail below by specific examples. The following embodiments may be combined with each other, and some embodiments may not be repeated for the same or similar concepts or processes.

The invention provides a processing method of a plateau food preparation label, which is shown in figure 1 and comprises the following steps of S1-S4:

s1, building equipment nodes corresponding to production equipment in a target processing factory building, linking a plurality of the equipment nodes to a production block chain, and acquiring first food information of first food based on acquisition devices at the production equipment and uploading the first food information to the corresponding equipment nodes.

It should be noted that, the production processing factory has a aggregating effect, and the production blockchain may be a blockchain corresponding to the whole industrial park, and the equipment nodes corresponding to the production equipment of other factories in the park may be added into the production blockchain.

It can be understood that when production equipment which wants to join in the production blockchain exists in the target processing factory, equipment nodes corresponding to the production equipment are constructed, and the constructed equipment nodes are linked to the production blockchain, so that uploaded data are not easy to change, and the safety of users is improved.

In practical application, each production equipment is provided with a corresponding acquisition device, acquires food information at the production equipment, and uploads the food information to an equipment node corresponding to the production equipment.

Through the embodiment, each production device corresponds to one acquisition device, the information acquired by the acquisition device is uploaded to the corresponding device node, and a plurality of device nodes are linked to the production blockchain, so that the uploaded data is difficult to change.

In some embodiments, the step S1 (constructing the equipment nodes corresponding to the production equipments in the target processing factory, linking the plurality of equipment nodes to the production blockchain, collecting the first food information of the first food based on the collecting device at each production equipment, and uploading the first food information to the corresponding equipment nodes) includes S11-S12:

s11, all production equipment in a target processing factory is obtained, production equipment nodes corresponding to the production equipment are constructed, the equipment nodes are linked to a production block chain, and first food images of first food are acquired based on image acquisition devices at the production equipment and uploaded to the corresponding equipment nodes.

It can be understood that the server can acquire all production equipment in the target processing factory building, each production equipment constructs corresponding production equipment nodes, links all equipment nodes to the production block chain, and facilitates subsequent direct uploading of information acquired by the corresponding acquisition device.

The image acquisition device is arranged at each production equipment and can acquire image information corresponding to food at each production equipment, such as images of food on production lines of bread, rice cracker, butter and the like, if the production equipment such as a baking oven and the like cannot acquire images is arranged, a food image corresponding to the production equipment can be preset manually, and the food is displayed in the state of the interior of the baking oven and the like through the preset food image.

Through the embodiment, corresponding food images can be collected at each production equipment and uploaded to corresponding equipment nodes, so that a subsequent user can conveniently and intuitively observe the food state.

And S12, acquiring first node information of the first food based on a data acquisition device at each production device, and uploading the first node information to a corresponding device node, wherein the first node information comprises at least one of device operation information, raw material information and additive information.

It can be understood that each production equipment is simultaneously provided with a data acquisition device, and the data acquisition device is used for acquiring first node information of the first food and uploading the acquired first node information to corresponding equipment nodes.

Wherein the first node information includes at least one of equipment operation information, raw material information, and additive information. It is understood that the equipment operation information is information of the equipment in the operation process, for example, the stirring speed of the stirrer is 10-20 r/min, and the stirring time is 30-120 min. The raw material information may be sugar, starch, egg, cow's milk, etc., and the additive information may be calcium propionate, fructose syrup, glycerin, etc., and since part of the processing, the raw material information, or the additive information is related to confidentiality, the first node information may contain at least one of equipment operation information, raw material information, and additive information.

S2, receiving a batch time period input by a user for a first food, acquiring first name information of the first food, determining a first production line and a plurality of corresponding first equipment nodes according to the first name information, extracting a plurality of pieces of first food information corresponding to the batch time period in each first equipment node, and performing de-duplication processing to obtain the first food information containing a positioning tag.

It should be noted that, since the image acquisition device and the data acquisition device both acquire the data of the food in real time, the raw materials, additives and production environments adopted by the food in the same batch are basically consistent, and thus, a large amount of approximate or repeated data can be generated.

It can be appreciated that the corresponding first production line, and the plurality of first device nodes, are determined according to the names of the different foods; the server receives a batch time period input by a user for the first food, and because the production environment and raw materials corresponding to the same batch of food are identical, the first food information in each first equipment node in the first production line is deduplicated based on the batch time period, so that the first food information containing the positioning tag is obtained.

In some embodiments, the step S2 of (receiving a batch time period input by a user for a first food, obtaining first name information of the first food, determining a first production line and a corresponding plurality of first device nodes according to the first name information, extracting a plurality of first food information corresponding to the batch time period in each first device node, and performing deduplication processing to obtain the first food information including a positioning tag) includes S21-S24:

s21, receiving a batch time period input by a user for a first food, acquiring first name information of the first food, and determining a first production line and a plurality of corresponding first equipment nodes according to the first name information.

In practical application, because the data volume that collection system gathered in real time is more, and belong to the food of same production batch, raw materials, additive etc. are adopted to the production environment that is located is the same, need to remove heavy.

Therefore, the invention receives the batch time period input by the user for the first food, facilitates the subsequent de-duplication treatment, and simultaneously determines the corresponding first production line according to the first name information of the first food, and a plurality of first equipment nodes, such as a separator, a stirrer, a heating device, a cooling device and the like, corresponding to the butter production line.

S22, acquiring a first connection sequence table of the first equipment nodes in the first production line, which is ordered in the reverse order, and sequentially extracting the processing time length of each first equipment node in the first connection sequence table.

It can be understood that the batch time period is a time period corresponding to the same batch after the food production is completed, so that a first connection sequence table of the first equipment nodes in the first production line and the processing time of each first equipment node in the table are obtained, and the first extraction time period corresponding to each first equipment node is obtained in turn for carrying out the de-duplication treatment in a reverse push manner.

S23, calculating according to the batch time periods and the processing time periods in the first connection sequence table in sequence to obtain first extraction time periods corresponding to the first equipment nodes.

It can be understood that, because the first device nodes in the first connection sequence table are ordered in the reverse order, a reverse pushing manner is directly adopted, and the calculation is sequentially performed through the batch time period and the processing time length in the first connection sequence table, so as to obtain the first extraction time period of each first device node.

For example, the batch time period for the shortening to complete production is 10: 00-10:30, wherein the processing time of the cooling device is 30min, the processing time of the heating device is 30min, and the first extraction time period of the cooling device corresponding to the first equipment node can be obtained by sequentially subtracting the processing time of the heating device from the processing time of the heating device is 9: 30-10:00, wherein the first extraction time period of the heating device corresponding to the first equipment node is 9: 00-9: 30.

in some embodiments, the step S23 (calculating according to the batch time period and the processing duration in the first connection sequence table in turn, to obtain the first extraction time period corresponding to each of the first device nodes) includes S231-S234:

s231, acquiring a batch initial time point and a batch ending time point of the batch time period and processing time lengths of the first equipment nodes in the first connection sequence table.

It can be understood that the batch initial time point and the batch end time point of the batch time period and the processing time length of each first equipment node in the first connection sequence table are respectively obtained.

For example, the batch time period for the shortening to complete production is 10: 00-10:30, the corresponding initial time point of the batch is 10:00, the corresponding batch termination time point is 10:30; the processing duration of each first equipment node in the first connection sequence table is, for example, 30min for the cooling device, and 30min for the heating device.

S232, obtaining a first initial time point of each first equipment node according to an initial reverse deduction strategy, the batch initial time point and the processing time length of each first equipment node in the first connection sequence table.

It can be understood that the batch initial time point and the processing time length of each first equipment node in the first connection sequence table are sequentially calculated to obtain a first initial time point of each first equipment node.

For example, the initial time point of the batch is 10:00, the processing duration of the cooling device is 30min, and the first initial time point of the cooling device corresponding to the first equipment node is 9:30.

By the embodiment, the first initial time point of each first equipment node can be obtained, and the first extraction time period can be conveniently generated by combining the first initial time point with the first termination time point of each first equipment node.

In some embodiments, the step S232 (obtaining the first initial time point of each first equipment node according to the initial reverse derivation policy, the batch initial time point, and the processing duration of each first equipment node in the first connection sequence table) includes:

and acquiring the processing time length of the first equipment node in the first connection sequence table, and determining a first initial time point corresponding to the first equipment node according to the initial time point of the batch and the corresponding processing time length.

It can be understood that the first initial time point of the first equipment node can be obtained by calculating according to the initial time point of the batch and the processing time length of the first equipment node in the first connection sequence table.

For example, the initial time point of the batch is 10:00, the processing duration of the cooling device is 30min, and the first initial time point of the cooling device corresponding to the first equipment node is 9:30.

and deleting the first equipment node from the first connection sequence table, taking the first initial time point as the current batch initial time point, and repeating the steps until all the first equipment nodes have the first initial time point.

It can be understood that after the calculation is completed, deleting the first device node from the first connection sequence table, and taking the first initial time point as the current batch initial time point, and repeating until all the first device nodes have the first initial time point.

For example, the initial time point of the batch is 10:00, the processing duration of the cooling device is 30min, and the first initial time point of the cooling device corresponding to the first equipment node is 9:30, the first initial time point after the cooling device is calculated as 9: after 30, deleting the first equipment node corresponding to the cooling device from the first connection sequence table, and adding 9:30 as the current initial time point of the batch, and then calculating the first equipment nodes corresponding to the heating devices until all the first equipment nodes have the first initial time point.

S233, obtaining a first termination time point of each first equipment node according to a termination reverse deduction strategy, the batch termination time point and the processing time length of each first equipment node in the first connection sequence table.

It can be understood that the batch termination time point and the processing time length of each first equipment node in the first connection sequence table are sequentially calculated to obtain a first initial time point of each first equipment node.

For example, the batch termination time point is 10:30, the processing time of the cooling device is 30min, and the first termination time point of the cooling device corresponding to the first equipment node is 10:00.

by the embodiment, the first termination time point of each first equipment node can be obtained, and the first extraction time period can be conveniently generated by combining the first termination time point with the first initial time point of each first equipment node.

In some embodiments, in step S233 (obtaining the first termination time point of each first equipment node according to the termination reverse derivation policy, the batch termination time point, and the processing duration of each first equipment node in the first connection sequence table) includes:

initializing the first connection sequence table, and obtaining the processing time length of the first equipment node in the first connection sequence table.

It will be appreciated that after the first cycle is completed, each first device node has a corresponding first initial point in time, but the table is deleted, so that an initializing operation is required for the table. Initializing a first connection sequence table and acquiring the processing time length of the first equipment node in the first connection sequence table.

For example: the first equipment node in the first connection sequence table is the equipment node of the cooling device, and the processing time of the cooling device is 30min.

And determining a first termination time point corresponding to the first equipment node according to the batch termination time point and the corresponding processing time length.

It can be understood that the first termination time point of the first equipment node can be obtained by calculating according to the batch termination time point and the processing time length of the first equipment node in the first connection sequence table.

For example, the batch termination time point is 10:30, the processing time of the cooling device is 30min, and the first termination time point of the cooling device corresponding to the first equipment node is 10:00.

and deleting the first equipment node from the first connection sequence table, taking the first termination time point as the current batch termination time point, and repeating the steps until all the first equipment nodes have the first termination time point.

It can be understood that after the calculation is completed, the first device node is deleted from the first connection sequence table, and the first termination time point is taken as the current batch termination time point, and the steps are repeated until all the first device nodes have the first termination time point.

For example, the batch termination time point is 10:30, the processing time of the cooling device is 30min, and the first termination time point of the cooling device corresponding to the first equipment node is 10:00, the first termination time point of the cooling device is calculated as 10: after 00, deleting the first equipment node corresponding to the cooling device from the first connection sequence table, and adding 10:00 is taken as the current batch termination time point, and then the first equipment nodes corresponding to the heating devices are calculated until all the first equipment nodes have the first termination time point.

And S234, obtaining a first extraction time period corresponding to each first equipment node according to the first initial time point and the first termination time point.

It can be understood that after the first initial time point and the first termination time point corresponding to each first equipment node are obtained, a first extraction time period corresponding to each first equipment node is obtained according to the combination of the first initial time point and the first termination time point.

For example, the first initial point in time of the cooling device corresponding to the first equipment node is 9:30, the first termination time point of the cooling device corresponding to the first equipment node is 10:00, the first extraction period of the cooling device corresponding to the first equipment node is 9: 30-10: 00.

the first extraction time period is a time period of the first food corresponding to the same batch of food in each first equipment node.

S24, extracting a plurality of pieces of first food information in the first extraction time period in each first equipment node, and performing de-duplication processing to obtain first food information containing a positioning label in each corresponding first equipment node, wherein the positioning label comprises first name information and the first extraction time period.

It can be understood that, in each of the first device nodes, a plurality of first food information located in the first extraction period is only required to be retained, and the first food information can be directly extracted subsequently, which represents the state of the food in the whole first extraction period. It is to be understood that the deduplication may be to retain any one of the first food information during the first extraction period, and delete the rest.

Therefore, the invention can extract a plurality of the first food information in the first equipment nodes within the first extraction time period, and perform de-duplication processing, so as to obtain the first food information containing the positioning label in the corresponding first equipment nodes.

The positioning tag comprises first name information and a first extraction time period.

S3, generating a total equipment node image according to the production equipment in the target processing factory building and the position relation of the production equipment, acquiring a first equipment node image corresponding to a first production line in the total equipment node image, taking the rest equipment node image as a second equipment node image, and processing the total equipment node image based on a display adjustment strategy, the first equipment node image and the second equipment node image to obtain a first food equipment node image corresponding to the first food.

In practical applications, the production lines corresponding to different products are different, and multiple production lines may be corresponding in the same target processing plant, and there may be overlapping portions between the production lines, for example, overlapping portions between the production of the primary yak butter and the Tibetan butter.

It can be understood that the method and the system can generate the node image of the total equipment according to all production equipment in the target processing factory and the position relation of the production equipment, and it is easy to understand that the image of each production equipment and the connected position relation are directly acquired through data acquisition to perform modeling to generate the node image of the total equipment, and the prior art is adopted and is not repeated here.

Further, as shown in fig. 2, a first device node image of the first production line is determined in the total device node image, and the remaining device node images are taken as second device node images.

Further, the total equipment node image is processed by displaying an adjustment strategy, a first equipment node image and a second equipment node image, so that the first equipment node image corresponding to a first production line is highlighted, and a first food equipment node image corresponding to the first food is obtained.

Through the embodiment, a user can directly observe all the generating devices in the production factory building, and through displaying the adjustment strategy, the user can directly observe the device for producing the first food and the state of the device.

In some embodiments, the processing (processing the total device node image based on the presentation adjustment policy, the first device node image, and the second device node image to obtain a first food device node image corresponding to the first food product) in step S3 includes S31-S34:

s31, acquiring preset radiuses of the first equipment node image and the second equipment node image, wherein the first equipment node image and the second equipment node image are circular images.

S32, acquiring circle center distances between each first equipment node image and the rest of first equipment node images or the rest of second equipment node images as first connection distances, and selecting the shortest first connection distance as the first circle center distance.

It will be appreciated that the first device node image needs to be highlighted, and thus the first device node image needs to be enlarged, and the second device node image needs to be reduced at the same time, so that the user can directly locate the corresponding first production line.

It should be noted that, when the first device node images are enlarged, the remaining first device node images or the second device node images may be affected, for example, some of the first device node images wrap around other first device node images or second device node images due to excessive enlargement.

Therefore, first connection distances between each first equipment node image and the rest of equipment node images in the total equipment node image are required to be acquired, and the shortest first connection distance is selected as a first circle center distance.

By the embodiment, the shortest first circle center distance in the first production line is obtained, and the amplification is carried out according to the first circle center distance, so that the influence on images of other node equipment caused by excessive amplification is avoided.

S33, determining a first interval distance according to the first circle center distance and the preset radius, and determining the amplification radius corresponding to each first equipment node image according to the first interval distance, the preset amplification weight and the preset radius.

It will be appreciated that the first center distance is the direct center distance of the two circular images, and therefore the first center distance needs to be subtracted by a preset radius of 2 times to obtain the first separation distance between the two circles.

Further, the amplification distance is determined according to the product of the first interval distance and a preset amplification weight, and the amplification radius corresponding to each first equipment node image is determined according to the sum of the amplification distance and the preset radius.

The preset amplification weight is an amplification weight value preset in advance by people, and may be 0.7,0.8, etc., which is not limited herein.

S34, changing the preset radius of each first equipment node image into the enlarged radius, and carrying out reduction processing on the preset radius of each second equipment node image based on a preset reduction coefficient to obtain a first food equipment node image corresponding to the first food.

It can be understood that, as shown in fig. 3, the preset radius of each first device node image is changed to the enlarged radius, and the enlargement processing is performed; and (3) carrying out reduction processing on the preset radius of each second equipment node image based on a preset reduction coefficient, wherein the preset reduction coefficient is a manually preset reduction coefficient value which can be 0.5,0.3 and the like, the preset radius is not limited herein, and the preset radius is set according to actual conditions.

It will be appreciated that the first device node image is enlarged, and the second device node image is reduced, so as to obtain a first food device node image corresponding to the positioning tag.

S4, a positioning label is called and configured to each first equipment node image in the first food equipment node images, a calling path of corresponding first food information is generated based on the positioning label and the first equipment node images, a backtracking label is built according to the first food equipment node images and the calling path, and the backtracking label is printed on a packaging bag of first food.

It can be understood that after the configuration of the first food equipment node image and the de-duplication of the first equipment node are completed, the first food information and the first food equipment node image are mutually bound for facilitating more visual observation by the user.

Therefore, the positioning labels are configured to each first equipment node image in the first food equipment node images, the corresponding first equipment node can be positioned according to the first name information in the positioning labels of the first equipment node images, and the first food information in the corresponding first equipment node is called according to the first extraction time period in the positioning labels, so that a calling path of the first food information is generated.

It can be understood that after the retrieval path and the corresponding first equipment node image are mutually bound, a backtracking label is constructed, so that after a subsequent user triggers any one of the first equipment node images, the corresponding first food information is retrieved conveniently.

Through the embodiment, the user can observe the production state of food and corresponding production equipment more conveniently, the safety of the user is improved, and the corresponding food information is recorded by adopting the block chain, so that the corresponding food information is difficult to change, and the food preparation label is more authentic.

In some embodiments, the step S4 (generating the retrieval path of the corresponding first food item information based on the positioning tag and the first device node image, constructing a traceback tag according to the first food item node image and the retrieval path, and printing the traceback tag on the packaging bag of the first food item) includes S41-S44:

s41, determining a first equipment node corresponding to the first equipment node image based on first name information in the positioning label configured by the first equipment node image, and generating a node calling path.

It will be appreciated that the first device node corresponding to the first device node image may be determined according to the first name information in the location tag, thereby obtaining the node retrieval path.

For example, if the first name information in the positioning tag is the cooling device, the first equipment node of the cooling device is directly positioned.

S42, determining corresponding first food information in the corresponding first equipment node based on a first extraction time period in the positioning label configured by the first equipment node image, and generating a food calling path.

It can be appreciated that after the corresponding first device node is determined, according to the first extraction time period in the positioning tag, the first food information having the same first extraction time period in the corresponding first device node can be directly positioned, so as to obtain the food retrieval path.

For example, after positioning the first equipment node of the cooling device, according to 9: 30-10: the first extraction period of 00 locates the first food item information.

S43, generating a retrieval path of the first food information according to the equipment retrieval path and the food retrieval path, and configuring the retrieval path to a corresponding first equipment node image to obtain a configured second food equipment node image.

It can be understood that the first food information corresponding to the first equipment node image can be directly located according to the equipment calling path and the food calling path to obtain the calling path, and the calling path is configured to the corresponding first equipment node image to obtain the configured second food equipment node image.

S44, constructing a backtracking label according to the second food equipment node image, and printing the backtracking label on the packaging bag of the first food.

It can be understood that the backtracking label is constructed according to the second food equipment node image, and it is easy to understand that the backtracking label corresponding to the second food equipment node image is generated according to the second food equipment node image, and the backtracking label can be an identification code such as a two-dimensional code and is printed on the packaging bag of the first food.

Through the embodiment, the subsequent user can conveniently identify the backtracking label on the first food package, the production process and the state of the food can be more intuitively observed, the safety of the user is improved, the food information is ensured to be difficult to change, and the authenticity of the information is ensured.

On the basis of the embodiment, the method further comprises the steps of A1-A2:

a1, the user side scans the backtracking label of the first food information, generates identification information, receives the identification information, and sends the second food equipment node image to the user side for display.

It can be understood that the user can scan the backtracking label through the mobile phone, the tablet and other terminals, and generate the identification information, and after receiving the identification information, the server sends the second food equipment node image to the user side for display.

It will be appreciated that after the user identifies the backtracking tag, the user will be presented with the second food device node image, and the user can see all of the production devices and more intuitively observe the corresponding first production line by highlighting.

A2, judging that the user triggers any one of the first equipment node images in the second food equipment node images, responding to the retrieval path, retrieving the corresponding first food information and displaying the first food information.

It can be understood that when the user triggers any one of the first equipment node images in the second food equipment node images, the first food information corresponding to the first food is automatically fetched and displayed.

Through the embodiment, the user identifies the backtracking label on the first food package, so that the production process and the state of the food are more intuitively observed, the user can observe conveniently, and the safety of the user is improved.

In order to better implement the method for processing the label for preparing the plateau food provided by the invention, the invention also provides a processing device for preparing the label for preparing the plateau food, as shown in fig. 4, comprising the following steps:

the construction module is used for constructing equipment nodes corresponding to all production equipment in the target processing factory building, linking a plurality of the equipment nodes to a production block chain, acquiring first food information of first food on the basis of acquisition devices at all production equipment and uploading the first food information to the corresponding equipment nodes;

The de-duplication module is used for receiving batch time periods input by a user for first foods, acquiring first name information of the first foods, determining a first production line and a plurality of corresponding first equipment nodes according to the first name information, extracting a plurality of pieces of first food information corresponding to the batch time periods in each first equipment node, and performing de-duplication processing to obtain the first food information containing the positioning tag;

the display module is used for generating a total equipment node image according to the production equipment in the target processing factory building and the position relation of the production equipment, acquiring a first equipment node image corresponding to a first production line in the total equipment node image, taking the rest equipment node image as a second equipment node image, and processing the total equipment node image based on a display adjustment strategy, the first equipment node image and the second equipment node image to obtain a first food equipment node image corresponding to the first food;

the retrieval module is used for retrieving the positioning label and configuring the positioning label to each first equipment node image in the first food equipment node images, generating a retrieval path of corresponding first food information based on the positioning label and the first equipment node images, constructing a backtracking label according to the first food equipment node images and the retrieval path, and printing the backtracking label on a packaging bag of first food.

The present invention also provides a readable storage medium having stored therein a computer program for implementing the methods provided by the various embodiments described above when executed by a processor.

The readable storage medium may be a computer storage medium or a communication medium. Communication media includes any medium that facilitates transfer of a computer program from one place to another. Computer storage media can be any available media that can be accessed by a general purpose or special purpose computer. For example, a readable storage medium is coupled to the processor such that the processor can read information from, and write information to, the readable storage medium. In the alternative, the readable storage medium may be integral to the processor. The processor and the readable storage medium may reside in an application specific integrated circuit (Application Specific Integrated Circuits, ASIC for short). In addition, the ASIC may reside in a user device. The processor and the readable storage medium may reside as discrete components in a communication device. The readable storage medium may be read-only memory (ROM), random-access memory (RAM), CD-ROMs, magnetic tape, floppy disk, optical data storage device, etc.

The present invention also provides a program product comprising execution instructions stored in a readable storage medium. The at least one processor of the device may read the execution instructions from the readable storage medium, the execution instructions being executed by the at least one processor to cause the device to implement the methods provided by the various embodiments described above.

In the above embodiment of the apparatus, it should be understood that the processor may be a central processing unit (english: central Processing Unit, abbreviated as CPU), or may be other general purpose processors, digital signal processors (english: digital Signal Processor, abbreviated as DSP), application specific integrated circuits (english: application Specific Integrated Circuit, abbreviated as ASIC), or the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of a method disclosed in connection with the present invention may be embodied directly in a hardware processor for execution, or in a combination of hardware and software modules in a processor for execution.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (10)

1. A method of treating a plateau food preparation tag, comprising:

constructing equipment nodes corresponding to production equipment in a target processing factory building, linking a plurality of the equipment nodes to a production block chain, acquiring first food information of first food based on acquisition devices at the production equipment, and uploading the first food information to the corresponding equipment nodes;

receiving a batch time period input by a user for a first food, acquiring first name information of the first food, determining a first production line and a plurality of corresponding first equipment nodes according to the first name information, extracting a plurality of pieces of first food information corresponding to the batch time period in each first equipment node, and performing de-duplication processing to obtain the first food information containing a positioning tag;

generating a total equipment node image according to production equipment in a target processing factory building and the position relation of the production equipment, acquiring a first equipment node image corresponding to a first production line in the total equipment node image, taking the rest equipment node image as a second equipment node image, and processing the total equipment node image based on a display adjustment strategy, the first equipment node image and the second equipment node image to obtain a first food equipment node image corresponding to the first food;

And calling a positioning label and configuring the positioning label to each first equipment node image in the first food equipment node images, generating a calling path of corresponding first food information based on the positioning label and the first equipment node images, constructing a backtracking label according to the first food equipment node images and the calling path, and printing the backtracking label on a packaging bag of the first food.

2. The method of claim 1, wherein the step of determining the position of the substrate comprises,

the construction target processing factory building is provided with a plurality of equipment nodes corresponding to all production equipment, the equipment nodes are linked to a production block chain, first food information of first food is collected based on a collection device at each production equipment and is uploaded to the corresponding equipment nodes, and the construction target processing factory building comprises:

acquiring all production equipment in a target processing factory building, constructing production equipment nodes corresponding to the production equipment, linking the equipment nodes to a production block chain, acquiring first food images of first food based on image acquisition devices at the production equipment, and uploading the first food images to the corresponding equipment nodes;

and collecting first node information of the first food based on a data collecting device at each production device, and uploading the first node information to a corresponding device node, wherein the first node information comprises at least one of device operation information, raw material information and additive information.

3. The method of claim 1, wherein the step of determining the position of the substrate comprises,

the receiving the batch time period input by a user for the first food, obtaining first name information of the first food, determining a first production line and a plurality of corresponding first equipment nodes according to the first name information, extracting a plurality of pieces of first food information corresponding to the batch time period in each first equipment node, and performing de-duplication processing to obtain the first food information containing a positioning tag, wherein the method comprises the following steps:

receiving a batch time period input by a user for a first food, acquiring first name information of the first food, and determining a first production line and a plurality of corresponding first equipment nodes according to the first name information;

acquiring a first connection sequence table of the first equipment nodes in the first production line, and sequentially extracting the processing time length of each first equipment node in the first connection sequence table;

calculating according to the batch time periods and the processing time periods in the first connection sequence table in sequence to obtain first extraction time periods corresponding to the first equipment nodes;

extracting a plurality of pieces of first food information in the first extraction time period in each first equipment node, and performing de-duplication processing to obtain first food information containing a positioning label in each corresponding first equipment node, wherein the positioning label comprises first name information and the first extraction time period.

4. The method of claim 3, wherein the step of,

the calculating according to the batch time period and the processing time length in the first connection sequence table sequentially, to obtain a first extraction time period corresponding to each first equipment node, including:

acquiring a batch initial time point and a batch ending time point of the batch time period and processing time of each first equipment node in the first connection sequence table;

obtaining a first initial time point of each first equipment node according to an initial reverse deduction strategy, the batch initial time point and the processing time length of each first equipment node in the first connection sequence table;

obtaining a first termination time point of each first equipment node according to a termination reverse deduction strategy, the batch termination time point and the processing time length of each first equipment node in the first connection sequence table;

and obtaining a first extraction time period corresponding to each first equipment node according to the first initial time point and the first termination time point.

5. The method of claim 4, wherein the step of determining the position of the first electrode is performed,

the obtaining a first initial time point of each first equipment node according to an initial reverse deduction strategy, the batch initial time point and the processing time length of each first equipment node in the first connection sequence table, includes:

Acquiring the processing time length of the first equipment node in a first connection sequence table, and determining a first initial time point corresponding to the first equipment node according to the batch initial time point and the corresponding processing time length;

and deleting the first equipment node from the first connection sequence table, taking the first initial time point as the current batch initial time point, and repeating the steps until all the first equipment nodes have the first initial time point.

6. The method of claim 5, wherein the step of determining the position of the probe is performed,

the obtaining a first termination time point of each first equipment node according to a termination reverse deducing strategy, the batch initial time point and the processing time length of each first equipment node in the first connection sequence table, includes:

initializing the first connection sequence table, and obtaining the processing time length of the first equipment node in the first connection sequence table;

determining a first termination time point corresponding to the first equipment node according to the batch termination time point and the corresponding processing time length;

and deleting the first equipment node from the first connection sequence table, taking the first termination time point as the current batch termination time point, and repeating the steps until all the first equipment nodes have the first termination time point.

7. The method of claim 1, wherein the step of determining the position of the substrate comprises,

the processing the total equipment node image based on the display adjustment policy, the first equipment node image and the second equipment node image to obtain a first food equipment node image corresponding to the first food comprises the following steps:

acquiring preset radiuses of the first equipment node image and the second equipment node image, wherein the first equipment node image and the second equipment node image are circular images;

the circle center distance between each first equipment node image and the rest of the first equipment node images or the rest of the second equipment node images is obtained to be used as a first connection distance, and the shortest first connection distance is selected to be used as a first circle center distance;

determining a first interval distance according to the first circle center distance and the preset radius, and determining an amplification radius corresponding to each first equipment node image according to the first interval distance, the preset amplification weight and the preset radius;

changing the preset radius of each first equipment node image into the enlarged radius, and carrying out reduction processing on the preset radius of each second equipment node image based on a preset reduction coefficient to obtain a first food equipment node image corresponding to the first food.

8. The method of claim 7, wherein the step of determining the position of the probe is performed,

the method for generating the retrieval path of the corresponding first food information based on the positioning label and the first equipment node image comprises the steps of constructing a backtracking label according to the first food equipment node image and the retrieval path, printing the backtracking label on a packaging bag of a first food, and comprises the following steps:

determining a first equipment node corresponding to the first equipment node image based on first name information in the positioning label configured by the first equipment node image, and generating a node calling path;

determining corresponding first food information in the corresponding first equipment node based on a first extraction time period in the positioning label configured by the first equipment node image, and generating a food calling path;

generating a retrieval path of the first food information according to the equipment retrieval path and the food retrieval path, and configuring the retrieval path to a corresponding first equipment node image to obtain a configured second food equipment node image;

and constructing a backtracking label according to the second food equipment node image, and printing the backtracking label on the packaging bag of the first food.

9. The method as recited in claim 8, further comprising:

the user side scans the backtracking label of the first food information, generates identification information, receives the identification information, and sends the node image of the second food equipment to the user side for display;

and if the user triggers any one of the first equipment node images in the second food equipment node images, responding to the retrieval path, retrieving the corresponding first food information and displaying the first food information.

10. A plateau food preparation label processing apparatus, characterized by comprising:

the construction module is used for constructing equipment nodes corresponding to all production equipment in the target processing factory building, linking a plurality of the equipment nodes to a production block chain, acquiring first food information of first food on the basis of acquisition devices at all production equipment and uploading the first food information to the corresponding equipment nodes;

the de-duplication module is used for receiving batch time periods input by a user for first foods, acquiring first name information of the first foods, determining a first production line and a plurality of corresponding first equipment nodes according to the first name information, extracting a plurality of pieces of first food information corresponding to the batch time periods in each first equipment node, and performing de-duplication processing to obtain the first food information containing the positioning tag;

The display module is used for generating a total equipment node image according to the production equipment in the target processing factory building and the position relation of the production equipment, acquiring a first equipment node image corresponding to a first production line in the total equipment node image, taking the rest equipment node image as a second equipment node image, and processing the total equipment node image based on a display adjustment strategy, the first equipment node image and the second equipment node image to obtain a first food equipment node image corresponding to the first food;

the retrieval module is used for retrieving the positioning label and configuring the positioning label to each first equipment node image in the first food equipment node images, generating a retrieval path of corresponding first food information based on the positioning label and the first equipment node images, constructing a backtracking label according to the first food equipment node images and the retrieval path, and printing the backtracking label on a packaging bag of first food.