CN114077879A - Canned product digital loading system - Google Patents

Abstract

The application provides a canned product digital loading system, which generates a second digital code corresponding to a first digital code loaded on a product can after the system correctly reads the first digital code, and the second digital code is also loaded on the product tank, the first digital code and the second digital code are respectively loaded on the inner side and the outer side of the product tank, the system is used for realizing different functions, collecting external codes, generating box codes corresponding to the external codes, loading the box codes on a packing box for packing the product tank, further collecting the box codes of the packing box and tray codes for loading trays of the packing box, and will the case sign indicating number with the tray sign indicating number is corresponding, and the digital loading system of canned product that this application provided can accurately correspond product jar inner code, outer sign indicating number, case sign indicating number and tray sign indicating number to can be according to the corresponding relation real-time update the thing networking information of canned product.

Description

Canned product digital loading system

Technical Field

The application belongs to the field of logistics, and particularly relates to a digital loading system for canned products.

Background

Along with the enhancement of the attention degree of consumers to the information such as logistics, authenticity and the like, more and more product identifications are provided with digital codes for inquiring the information such as logistics, authenticity and the like, and further, the merchants also use the digital codes to load marketing information such as red packets and the like, so that accurate marketing is realized.

In a practical aspect, a merchant is more inclined to directionally deliver marketing information such as a red envelope to a consumer who has purchased the commodity, so that on one hand, the sales volume can be increased and the consumer can be fed back practically, on the other hand, the situation that the red envelope is stolen under the situation that the commodity is not purchased is avoided, and the guarantee is provided for the consumer who has purchased the commodity.

Therefore, more and more merchants currently load the digital code carrying the marketing information on the package in the commodity or inside the package. However, it is very inconvenient for consumers to extract reproducible information such as logistics information, and particularly, after a package of a commodity is unpacked, it is difficult to maintain the right of return and exchange of the commodity even if the commodity is considered to be suspected of counterfeiting, and particularly, when some information of the commodity is disputed, the rights and interests of the consumers are difficult to be guaranteed.

Generally, a canned product has only one layer of packaging, i.e., a can of the product, in which a corresponding product is directly loaded, without a two-layer package, and thus, the above-mentioned problems are more difficult to solve for a canned product.

Disclosure of Invention

In order to solve at least one of the above problems, the present application provides a digital loading system for canned products, where the system generates a second number corresponding to a first number loaded on a product tank after correctly reading the first number, and loads the second number on the product tank, where the first number and the second number are respectively loaded on the inner side and the outer side of the product tank for implementing different functions, the system collects an external code and generates a box number corresponding to the external code, and loads the box number on a packaging box for packaging the product tank, and further collects a box number of the packaging box and a tray number for loading a tray of the packaging box, and corresponds the box number to the tray number. The application provides a canned product digital loading system can be accurately with product jar inner code, outer code, case sign indicating number and tray sign indicating number corresponding, and can be according to the corresponding relation is updated in real time the thing networking information of canned product.

The application aims at providing a canned product digital loading system, the system includes a first digital loading machine 1, a first code reader 2, a second digital loading machine 3, a processor 4, a second code reader 5, a box code loading machine 6 and a data platform 7, the canned product digital loading system is used for storing and executing the following programs:

the first digital loader 1 loads a first digital code to one side of the product tank;

the first code reader reads the first code and reports the first code to the processor 4;

the processor 4 generates a second digital code and sends the second digital code to the second digital code loader 3, and sends the second digital code and a first digital code corresponding to the second digital code to the data platform 7, wherein the second digital code and the first digital code have a preset corresponding relationship, one internal code and the other internal code are external codes;

the second digital loader 3 loads a second digital code to the other side of the product tank;

the second code reader 5 collects a plurality of first codes and sends the collected first codes to the processor 4;

the processor 4 generates a box code and sends the box code to a box code loader 6, and sends the box code and a first digital code corresponding to the box code to the data platform 7, wherein the box code and the first digital code have a preset corresponding relationship;

the box code loading machine 6 loads the box codes on a packaging box for packaging the product cans;

and the data platform 7 generates an internet of things family table according to the received second number, the received first number and the box code.

In an implementable manner, the canned product digital loading system further comprises a third reader 8, the system further being adapted to store and execute the following program:

the third code reader 8 collects a plurality of box codes and reports the box codes to the processor 4;

the processor 4 generates a tray code and packages and sends the tray code and a corresponding box code to the data platform 7, wherein the tray code and the box code have a preset corresponding relation;

and the data platform 7 updates the internet of things family according to the received tray code.

In another implementable manner, the canned product digital loading system further comprises a third reader 8, the system being further configured to store and execute the following program:

the third code reader 8 collects a plurality of box codes and corresponding tray codes, and reports the box codes and the tray codes to the data platform 7;

and the data platform 7 updates the family table of the internet of things according to the box code and the corresponding tray code.

In an implementable manner, the canned product digital loading system further comprises a handheld data processor 9, the system further being adapted to store and execute the following programs:

the hand-held data processor 9 reads one of the first digital code, the box code and the tray code and uploads the read digital code to the data platform 7;

and the data platform 7 updates the Internet of things information of the first digital code corresponding to the digital code according to the Internet of things family table.

In an implementation manner, after the second number loading machine 3 loads the second number to the inner side of the product tank, before the second code reader 5 collects the plurality of first numbers, the method further includes: canning the product using the product can.

In an implementation manner, the digital loading system for canned products further comprises a conveyor belt 10, and a limit table 11 for placing the product cans is arranged on the conveyor belt 10.

Furthermore, a through hole 12 is formed in the limiting table 11, and the maximum aperture of the through hole 12 is smaller than the outer diameter of the product tank.

In an implementable manner, the system for digital loading of canned products further comprises a rejecting device comprising a pick-up hand 13 and a reject bin 14, the system being further adapted to store and execute the following programs:

if the first number is not correctly read, the processor 4 is configured to send a picking instruction to the picking hand 13;

the picking hand 13 picks up the product cans upon receiving the picking instruction and deposits the product cans in the reject bin 14.

Compared with the prior art, the system that this application provided can guarantee to utilize same production line to load respectively inside and outside every product jar and have the digital code of corresponding relation, and it is corresponding with case sign indicating number on its packing box and the tray sign indicating number on the tray, thereby realize the packing coding of product, correspond, the storage, circulation and the logistics management of selling the link, and guarantee that the consumer can realize the true and false of product and verify, the quality is traced to the source, the consumption total mark, draw a lottery and convert the prize, receive the red packet etc. operation, and not influenced by each link of product circulation, furtherly, the system that this application provided utilizes the virtual sign indicating number of tray to realize that the data code between the packing of all levels corresponds, avoid loading digital code or RFID electronic tags on the tray, thereby reduce cost, easy operation is convenient.

Drawings

FIG. 1 is a schematic view of a product tank internal and external code loading production line according to an alternative embodiment of the present application;

fig. 2 shows a photograph of a digital label applied by a labelling machine;

FIG. 3 shows a photograph of a two-dimensional code obtained by burning by a laser burning machine;

FIG. 4 is a photograph showing the digital code obtained by burning with the laser burning machine;

FIG. 5 shows a schematic diagram of a product bin setback scenario;

fig. 6 shows a schematic view of a product ex-warehouse scenario.

Description of the reference numerals

1-a first digital loader, 2-a first code reader, 3-a second digital loader, 4-a processor, 5-a second code reader, 6-a box code loader, 7-a data platform, 8-a third code reader, 9-a handheld data processor, 10-a conveyor belt, 11-a limiting table, 12-a through hole, 13-a picking hand, 14-a rejection box, 15-a conveyor belt support, 16-a product tank cover distributor, 17-a product tank cover stacking rack, 18-a single tank cover separating piece, 19-a cavity and 20-a second processor.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of methods consistent with certain aspects of the invention, as detailed in the appended claims.

The digital loading system for canned products provided by the present application is explained in detail by specific examples below.

First, a brief introduction is made to a usage scenario of the present solution.

Generally, the canned product is directly packaged by using a can without two-layer packaging, and the digital codes for loading information such as logistics, anti-counterfeiting, quality tracing and the like can be attached to the outer surface of the product can through carriers such as a label, and as the carriers such as the label fall down or are damaged in links such as circulation, if the label is damaged, the related management functions borne by the label are invalid. In addition, the number attached to the outside of the product tank can be easily scanned in the product circulation process, so that the management functions of anti-counterfeiting inquiry, reward marketing and the like of the product cannot be normally performed, for example, the anti-counterfeiting inquiry is not found for the first time when the consumer carries out anti-counterfeiting inquiry, and even if the product is a genuine product, the product can be suspected to be a counterfeit product; if a producer of a product conducts a marketing campaign, a consumer's lottery may be redeemed by others, and a consumer's red envelope may be stolen, the security of applying a digital label to the exterior of the product can is low.

Fig. 1 shows a schematic view of a product tank internal and external code loading production line according to an optional example of the present application, and as shown in fig. 1, the digital loading system for canned products according to the present application includes a first digital loader 1, a first code reader, a second digital loader 3, a processor 4, a second code reader 5, a box code loader 6, and a data platform 7.

In this example, the product can may be an empty product can body or a portion of a product can, such as a can lid, that is not filled with product.

In this example, the digital loading system for canned products further includes a conveyor 10, and the conveyor 10 is used for conveying the aforementioned product cans, for example, can bodies of the product cans or can lids of the product cans.

Further, means for loading the digital codes to the inner and outer sides of the product cans may be arranged along the conveyor 10. In the present example, the following description is given by taking the case where numbers are applied to the inside and outside of the product can, respectively, and the conveyor is used to convey the product can lid.

In this example, the digital code includes any one of the prior art forms, which can be used to carry information such as logistics, red envelope, etc., and includes two-dimensional code, digital code, bar code, etc.

In this example, a stop 11 is provided on the conveyor 10 for receiving product cans, which in this example are embodied as product can lids.

In this example, the conveyor 10 is a hollow conveyor, specifically, the conveyor 10 is provided with a plurality of limiting tables 11 for clamping the product can covers, the shape of the limiting tables 11 matches with the shape of the product can covers, and the size of the limiting tables 11 is larger than that of the product can covers, so that the product can covers can be evenly distributed.

Further, the conveyor belt 10 is conveyed downstream at a preset speed, wherein the preset speed can be specifically set according to parameters such as the distance between devices of the downstream and the time delay, so as to meet the requirements of the downstream processes.

Optionally, a through hole 12 is formed in the center of the limiting table 11 so as to perform operations such as position detection, accurate labeling, accurate burning and carving of numbers, and the through hole 12 may be circular or rectangular, so that a second number can be loaded on the product can cover. The depth of the limiting table 11 is smaller than or equal to the thickness of the product tank cover, so that the conveyor belt 10 can stably convey the product tank cover and is convenient for the subsequent rejecting operation of the product tank cover meeting the conditions.

The inventor finds that after the product can cover is limited in the limiting table 11, the center positions of the upper side and the lower side of the product can cover can be exposed to the upper side and the lower side of the conveyor belt 10, so that the position detection of the product can cover can be conveniently carried out, and the operation of accurately applying the digital codes to the upper side and the lower side of the product can cover can be conveniently carried out.

In this example, the conveyor belt 10 may be supported by a conveyor belt support 15, fixed in the workroom, the height of the conveyor belt support 15 being such as to facilitate the maintenance of the conveyor belt 10 and the installation of the equipment along the conveyor belt being preferred.

Further, the present application does not particularly limit the specific structure of the conveyor belt holder 15 so as to enable stable operation of the conveyor belt to be preferable.

In this example, the product can end loading line also includes a product can end dispenser 16, the product can end dispenser 16 being configured to stack and dispense product can ends into the nest 11 of the conveyor 10, and in particular, the product can end dispenser 16 includes a product can end stacking shelf 17 and individual can end separators 18.

Wherein the product can lid stacking shelf 17 defines a cylindrical cavity 19 therein, the cavity 19 having a shape that matches the outer shape of the product can lid, e.g., if the product can lid is circular, the cavity 19 is also circular in cross-section; if the product can end is square, the cavity 19 is also square in cross-section.

In this example, the cavity 19 is sized slightly larger than the product can end so that the product can end will naturally fall onto the conveyor 10 in the product can end dispenser 16 by virtue of its weight.

Further, the single can lid separator 18 is disposed above the conveyor 10, and the single can lid separator 18 is used to separate the product can lids piece by piece.

In this example, the conveyor belt is conveyed downstream at a preset speed during the loading of the product lids with numbers.

Further, the conveying speed of the conveyor belt can be specifically set according to actual requirements.

In this example, the first digital loader 1 is disposed on one side of the conveyor 10, for example, the first digital loader 1 is disposed above the conveyor 10, and the first digital loader 1 loads a first digital code on the product can lid as the product can lid passes under the first digital loader 1.

In this example, correspondingly, the second digital loader 3 is disposed below the conveyor 10, and when the product can lid passes over the second digital loader 3, the second digital loader 3 loads a second digital code on the product can lid, thereby realizing that digital codes are loaded on two sides of the product can lid respectively.

In this example, the first digital loader and the second digital loader may be a labeling machine, a laser burning machine, an inkjet printing machine, or the like.

In this example, a first photoelectric switch for starting the first digital loader 1 is disposed at the upstream of the first digital loader 1, the first photoelectric switch can detect the passing of the product tank cover, and the first digital loader 1 can accurately load the digital mark at the preset position of the product tank cover by setting the time delay with the preset time length.

Further, a second photoelectric switch for starting the second digital loader 3 is arranged at the upstream of the second digital loader 3, the second photoelectric switch laser can detect the passing of the product tank cover, and the second digital loader 3 can accurately load the digital identifier at another preset position of the product tank cover by setting a time delay with preset duration.

In this example, the first code reader is disposed between the first digital loader 1 and the second digital loader 3, so that each first cover code can be accurately read before the second cover code is applied, thereby ensuring that the first cover code and the second cover code can be effectively matched.

It will be appreciated that the first code reader is mounted above the conveyor belt 10 by a code reader mount.

Further, a code reader photoelectric switch is arranged on the upstream of the first code reader and used for starting the first code reader.

In this example, the first code reader is configured to read the first cover code and is further configured to send a code reading result to the processor 4 after reading the first cover code.

In this example, the rejecting device for rejecting unidentified product can covers is arranged between the first code reader and the second digital loader 3, so that product can covers of which the first code cannot be identified can be rejected, and the rejecting device comprises a picking hand 13 and a rejecting and receiving box 14.

FIG. 2 shows a photograph of a digital label applied by a labeling machine, as shown in FIG. 2, with label paper as shown in FIG. 2; fig. 3 shows a photo of the two-dimensional code obtained by burning and engraving by the laser burning and engraving machine, and fig. 4 shows a photo of the digital code obtained by burning and engraving by the laser burning and engraving machine, wherein the burnt and engraved digital code is as shown in fig. 3 and fig. 4.

In this example, the canned product digital loading system is used to store and execute the following programs:

a plurality of product can covers are stacked in the product can cover stacking rack 17, a single can cover separating piece 18 distributes the product can covers into the limiting table 11 of the conveyor 10 one by one, and the conveyor 10 carries the product can covers to convey downstream;

after the product tank cover is conveyed to the position of the first digital loader 1, the first digital loader 1 loads a first digital code to one side of the product tank;

the first code reader reads the first code and reports the first code to the processor 4;

the processor 4 generates a second digital code and sends the second digital code to the second digital code loader 3, and sends the second digital code and a first digital code corresponding to the second digital code to the data platform 7, wherein the second digital code and the first digital code have a preset corresponding relationship, one internal code and the other internal code are external codes;

the second digital loader 3 loads a second digital code to the other side of the product tank.

In this example, the digital loading system for canned products further comprises a rejecting device comprising a pick-up hand 13 and a reject bin 14, the system being further configured to store and execute the following programs:

if the first number is not correctly read, the processor 4 is configured to send a picking instruction to the picking hand 13;

the picking hand 13 picks up the product cans upon receiving the picking instruction and deposits the product cans in the reject bin 14.

In this example, after the second number loader 3 loads the second number to the inner side of the product tank, and before the second code reader 5 collects the plurality of first numbers, the method further includes: and canning the product by using the product can, packaging the canned product after the canned product is filled with the product, and conveying the canned product to downstream for packaging treatment.

In this example, the product contained in the product canister may be filled after the first and second numbers of the canister are loaded.

It will be appreciated that if the first number and the second number are loaded onto the product can lid, the step of filling the product can be performed in a different line than the digital loading, and the product can lid loaded with the first number and the second number is then used to seal the product can.

FIG. 5 shows a schematic diagram of a product can filling scenario, as shown in FIG. 5, in this example, after a canned product is packaged in the product can, the system is further configured to store and execute the following procedures:

the second code reader 5 collects first codes on a plurality of product cans and sends the collected first codes to the processor 4, wherein the plurality of product cans collected with the first codes are packaged in the same product box in the subsequent steps;

the processor 4 generates a box code after receiving the plurality of first codes and sends the box code to the box code loader 6, and further, the processor 4 sends the box code and the corresponding first codes to the data platform 7, and the box code and the first codes have a preset corresponding relationship, that is, the box code and all the first codes in the same package box have a preset corresponding relationship;

the plurality of read product cans are packaged in the same packaging box;

the box code loading machine 6 loads the box codes on a packaging box for packaging the product cans;

and the data platform 7 generates an internet of things family table according to the received first number, the second number and the box code.

In this example, the first number and the second number have a preset corresponding relationship, and the first number and the box number also have a preset corresponding relationship, and as a result, a branch chain type corresponding relationship exists between the numbers, so that an internet of things genealogy can be generated according to the relationship between the numbers, and the internet of things genealogy is used for recording the corresponding relationship between the numbers and recording the internet of things information of the product represented by the numbers.

For example, each first code is used for describing the logistics information of each product tank, each box code is used for describing the logistics information of each product packaging box, and after the logistics information of a certain packaging box is updated, the logistics information corresponding to the first code related to the box code is also updated accordingly.

In this example, the box code may also be a pre-manufactured digital code, which may be pre-printed on the package, or pre-printed on a sticker with an adhesive, and accordingly, in this implementation, the system is further configured to store and execute the following program:

the second code reader 5 reads the box code and the first digital code corresponding to the box code and sends the box code and the first digital code to the processor 4;

the processor 4 generates an incidence relation according to the collected box codes and the corresponding first digital codes, and sends the incidence relation to the data platform 7;

and the data platform 7 generates an internet of things family table according to the incidence relation.

In one way of the present example, the system for loading the digital product in cans further comprises a third reader 8, the system being further adapted to store and execute the following programs:

the third code reader 8 collects a plurality of box codes and reports the box codes to the processor 4;

the processor 4 generates a tray code and packages and sends the tray code and a corresponding box code to the data platform 7, wherein the tray code and the box code have a preset corresponding relation;

and the data platform 7 updates the internet of things family according to the received tray code.

In another embodiment, the containers are transferred to a warehouse for storage and storage after being taken off-line, and the containers are usually placed in trays for storage and transfer. Because the process that the product is delivered to the dealer, one part is directly delivered in the form of the packing box, and the other part is directly delivered in the form of the tray, therefore, if the corresponding relation is established between the packing box and the tray through the digital code, the internet of things information of the corresponding packing box can be updated only by collecting the tray code, the operation is simpler, and the delivery efficiency is higher.

Under the above scenario, the digital loading system for canned products is further configured to store and execute the following programs:

the third code reader 8 collects a plurality of box codes and corresponding tray codes, wherein a plurality of packing boxes of which the box codes are collected are stacked on the same tray, and establishes an association relationship between the box codes and the tray codes, and further reports the collected box codes, tray codes and the association relationship between the box codes and the tray codes to the data platform 7;

and the data platform 7 updates the family table of the internet of things according to the box code, the tray code and the incidence relation among the box code and the tray code.

Normally, a digital or RFID electronic tag is fixedly loaded on the tray, and the digital or RFID electronic tag has an association relation with the box code on the packing box. However, the label attached to the tray is easy to drop or be stained, and the use cost of the system is increased by fixedly arranging the RFID label on the tray, so that the data correspondence between the packing case number and the tray number is realized by adopting a mode that the tray virtual code corresponds to the case number in the embodiment.

Specifically, in another implementation of this example, the system further comprises a counter, and the system is further configured to store and execute the following program:

the processor 4 generates a virtual tray code;

the counter counts the number of the packing boxes put into the tray, and if the accumulated number of the packing boxes reaches a preset value, all the counted box codes and the tray codes generate an association relation;

and updating the family table of the Internet of things according to the incidence relation.

Fig. 6 is a schematic view of a product warehouse-out scenario, and as shown in fig. 6, the system may further include a handheld data processor 9 and a second processor 20, where the handheld data processor 9 may be configured to read codes including a first digital code, a box code, and a tray code, and a micro data processor is further built in the handheld data processor 9 and configured to store and execute a preset program, and the second processor 20 is configured to process product information in a warehouse, and if the product warehouse-out scenario is, the system is further configured to store and execute the following program:

the hand-held data processor 9 reads one of the first digital code, the box code and the tray code and selects the delivery information;

the hand-held data processor 9 uploads the ex-warehouse information to the second processor 20;

the second processor 20 uploads the received ex-warehouse information to the data platform 7;

and the data platform 7 updates the Internet of things information of the first digital code corresponding to the digital code according to the Internet of things family table.

The above embodiment is described below by taking a reading box code as an example:

the hand-held data processor 9 reads the box code on any packing box in the tray, confirms the delivery information such as single box delivery or whole tray delivery through the hand-held data processor 9, and uploads the delivery information to the second processor 20;

after receiving the ex-warehouse information, the second processor 20 may immediately upload the ex-warehouse information to the data platform 7, or store the ex-warehouse information in its own memory, and after the ex-warehouse information reaches a preset condition, merge the information and upload the information to the data platform 7;

and the data platform 7 updates the family table of the internet of things according to the received ex-warehouse information.

The following shows the generation of the virtual tray code and the scheme of using the virtual tray code to carry out the warehouse in a specific example:

the packaged packing boxes are placed on the same tray in sequence, the counter automatically counts up, and when the number of the counted packing boxes reaches the set number, the processor automatically generates the number of the tray and establishes a corresponding relation with the box codes on the packing boxes. When the product is delivered from the warehouse, a warehouse administrator can manually scan any two-dimension code of the packing box on the tray by the handheld data processor, and the handheld data processor prompts and selects 'packaging box delivery' or 'tray delivery'. If the tray is selected to be delivered out of the warehouse, all packing box numbers corresponding to the tray virtual numbers are integrally delivered out of the warehouse; if the packing box is selected to be delivered from the warehouse, the collected packing box number is the packing box delivered from the warehouse. After the delivery is finished, the handheld data processor is communicated with a second processor in the warehouse, delivery information is uploaded to the second processor, the delivery information is uploaded to a data platform by the second processor, and the data platform updates the internet of things information according to the received delivery information.

In this example, after obtaining the canned product, the consumer can perform internet of things information query in at least three ways:

(1) the intelligent terminal queries, specifically, for example: after a consumer purchases a can product, the cover is opened, the laser two-dimensional code on the inner cover is scanned by the intelligent terminal, and operations such as authenticity verification, quality traceability, consumption point, lottery drawing and prize exchanging and red packet drawing are performed.

In addition, enterprise users can directly inquire the logistics information of the product and track the information such as the flow direction position of the product by scanning the external number of the tank product.

(2) Website queries, such as, in particular: an enterprise user can input the digital inquiry product logistics information outside the product tank by logging in a website (such as www.t3315.com), track the flow direction position of the product, inquire whether a dealer is suspected to have the goods fleeing, and prompt the dealer.

In addition, the consumer can input the digital code in the product tank by logging in the website, and perform operations such as authenticity verification, quality tracing, consumption points, lottery drawing and prize exchanging, and red packet drawing.

(3) The inquiry telephone, specifically, for example, the enterprise user can inquire the logistics information of the product, track the flow direction position of the product, inquire whether the dealer is suspected to have the channel conflict or not through the inquiry telephone (e.g., 4008155888), and prompt.

In addition, the consumer can carry out operations such as authenticity verification, quality tracing, consumption points, lottery drawing and rewarding, red packet drawing and the like through inquiring the telephone.

The scheme that this application provided adopts the laser machine at the inside loading numeral of product jar to guarantee that the numeral is difficult for dropping or being damaged, and be used for providing management functions such as anti-fake inquiry, quality traceability and reward marketing of product. Furthermore, a group of numbers which are different in loading and unloading of the product tank and have a preset incidence relation are adopted, so that the number scanning in the circulation process is avoided, and the effectiveness of management functions of anti-counterfeiting inquiry, logistics tracing, quality tracing, reward marketing and the like of the product is effectively improved.

Compared with the prior art, the system that this application provided can guarantee to utilize same production line to load respectively inside and outside every product jar and have the digital code of corresponding relation, and it is corresponding with case sign indicating number on its packing box and the tray sign indicating number on the tray, thereby realize the packing coding of product, correspond, the storage, circulation and the logistics management of selling the link, and guarantee that the consumer can realize the true and false of product and verify, the quality is traced to the source, the consumption total mark, draw a lottery and convert the prize, receive the red packet etc. operation, and not influenced by each link of product circulation, furtherly, the system that this application provided utilizes the virtual sign indicating number of tray to realize that the data code between the packing of all levels corresponds, avoid loading digital code or RFID electronic tags on the tray, thereby reduce cost, easy operation is convenient.

The present application has been described in detail with reference to specific embodiments and illustrative examples, but the description is not intended to limit the application. Those skilled in the art will appreciate that various equivalent substitutions, modifications or improvements may be made to the presently disclosed embodiments and implementations thereof without departing from the spirit and scope of the present disclosure, and these fall within the scope of the present disclosure. The protection scope of this application is subject to the appended claims.

Claims (8)

1. A digital loading system for canned products, the system comprising a first digital loader (1), a first code reader (2), a second digital loader (3), a processor (4), a second code reader (5), a box code loader (6) and a data platform (7), the digital loading system for canned products being configured to store and execute the following programs:

the first digital loader (1) loads a first digital code to one side of the product tank;

the first code reader (2) reads the first code and reports the first code to the processor (4);

the processor (4) generates a second digital code and sends the second digital code to the second digital code loader (3), and sends the second digital code and a first digital code corresponding to the second digital code to the data platform (7), wherein the second digital code and the first digital code have a preset corresponding relation, one internal code and the other external code are in the first digital code and the second digital code;

the second digital loader (3) loads a second digital code to the other side of the product tank;

the second code reader (5) collects a plurality of first codes and sends the collected first codes to the processor (4);

the processor (4) generates a box code and sends the box code to a box code loading machine (6), and sends the box code and a first digital code corresponding to the box code to the data platform (7), wherein the box code and the first digital code have a preset corresponding relation;

the box code loading machine (6) loads the box codes on a packaging box for packaging the product cans;

and the data platform (7) generates an internet of things family according to the received second number, the first number and the box code.

2. The digital loading system of canned products according to claim 1, further comprising a third reader (8), said system further being adapted to store and execute the following programs:

the third code reader (8) collects a plurality of box codes and reports the box codes to the processor (4);

the processor (4) generates tray codes and packages and sends the tray codes and corresponding box codes to the data platform (7), wherein the tray codes and the box codes have a preset corresponding relation;

and the data platform (7) updates the family table of the Internet of things according to the received tray code.

3. The digital loading system of canned products according to claim 1, further comprising a third reader (8), said system further being adapted to store and execute the following programs:

the third code reader (8) collects a plurality of box codes and corresponding tray codes, and reports the box codes and the tray codes to the data platform (7);

and the data platform (7) updates the family table of the Internet of things according to the box code and the corresponding tray code.

4. The digital loading system of canned products according to claim 1, further comprising a hand-held data processor (9), said system further being adapted to store and execute the following programs:

the hand-held data processor (9) reads one of the first digital code, the box code and the tray code and uploads the read digital code to the data platform (7);

and the data platform (7) updates the Internet of things information of the first digital code corresponding to the digital code according to the Internet of things family table.

5. The digital loading system for canned products according to claim 1, further comprising, after the second digital loader (3) loads the second digital code to the inside of the product can, before the second reader (5) collects the plurality of first digital codes: canning the product using the product can.

6. The digital loading system for canned products according to claim 1, further comprising a conveyor belt (10), wherein a position-limiting platform (11) for placing the product can is disposed on the conveyor belt (10).

7. The digital loading system for canned products according to claim 6, wherein a through hole (12) is opened on the limit table (11), and the maximum aperture of the through hole (12) is smaller than the outer diameter of the product can.

8. The digital loading system of canned products according to claim 1, further comprising a rejecting device comprising a pick-up hand (13) and a reject bin (14), said system being further adapted to store and execute the following programs:

if the first number is not correctly read, the processor (4) is used for sending a picking instruction to the picking hand (13);

the picking hand (13) picks the product tank after receiving the picking instruction and puts the product tank into the rejecting and receiving box (14).

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