CN111222599A - Label printing and checking method based on label code - Google Patents

Abstract

The invention discloses a label printing and checking method based on a label code. The label printing and verifying method based on the label code comprises the following steps: step S1: a label making software built in a processor requests a cloud database to issue a first data set for printing equipment; step S2: the processor acquires the first data set issued by the cloud database, processes the first data set into a second data set available as input information of the printing device by using the built-in label making software, and transmits the second data set to the printing device. The label printing and checking method based on the label code disclosed by the invention seamlessly connects the printing process and the checking process of the label, improves the production efficiency and reduces the error rate of finished products.

Description

Label printing and checking method based on label code

Technical Field

The invention belongs to the technical field of label printing and verification, and particularly relates to a label printing and verification method based on a label code.

Background

The technical scheme disclosed in patent numbers JP4600742B2(Print head and tag label producing apparatus), CN101371260B (Method for processing ticket order), and US20190235538a1(Method and system for determining product from technology) has certain similarity.

In addition to the above three patent documents, the invention patent having a subject name of wireless tag, wireless tag reading/writing device, wireless tag information providing method, and wireless tag system, which is publication No. CN100419788C, has a high similarity.

See fig. 1 and 2 of the patent. Fig. 1 shows a block diagram that can be regarded as approximately disclosing a technical means of reading data with the wireless tag read/write devices 200,300 (specifically, transmitting/receiving wireless signals to/from the wireless tag read/write devices 200 and 300. the transceiver 103 performs processing of outputting standard data received from the wireless tag read/write device 200 or a determination result request received from the wireless tag read/write device 300 to the determination unit 104, and transmitting information such as data stored in the sensor data storage unit 102 or a determination result output by the determination unit 104 to the wireless tag read/write devices 200 and 300). The timing diagram shown in fig. 2 may be considered to approximately reveal the technical means of retrieving data using the wireless tag read/write apparatus 200,300 (specifically, solid arrows indicate requests and dotted arrows indicate responses, as will be described below according to an example in which the sensor 101 is a temperature sensor, the standard data transmitted by the wireless tag read/write apparatus 200 is set such that if the temperature is zero degrees or more and less than 30 degrees, the data is determined to be normal, and the determination result is information indicating whether the data contains abnormal data.

Although some technical means disclosed in the above patent documents have certain similarities with the general concept of the present invention, the multi-party interaction process between the server, the cloud database, the processor, the printing device, and the reading device is not further involved. The technical means disclosed in the prior patent documents are still insufficient for the general concept of the present invention, and further improvement is required.

It is worth mentioning that in the existing label printing process, after the label is printed and qualified through procedures such as quality inspection, the finished label needs to be mailed to a receiving place through channels such as postal service, and then the receiving party at the receiving place checks the goods. Once the receiving party finds that defective goods exist, the receiving party needs to contact the processing party separately to reissue the defective goods. Obviously, in the existing label printing process, due to the defects that the label is detected at most once and the like, the effectiveness between a processing party and a goods receiving party is poor, the communication is not timely enough, and the requirement cannot be met.

Disclosure of Invention

The invention overcomes the defects in the prior art and provides a label printing and verifying method based on a label code.

The invention discloses a label printing and checking method based on a label code, which mainly aims to seamlessly connect the printing process and the checking process of a label, improve the production efficiency and reduce the error rate of a finished product.

The invention discloses a label printing and checking method based on a label code, which is characterized in that a server is used as a medium, and a cloud database is separated from printing equipment and reading equipment, so that input information of the printing equipment and checked information of the reading equipment are not directly stored in the local, but are independently stored in the cloud database, and therefore, the input information, the checked information and other information are prevented from being falsified when being stored in the local, and further potential safety hazards are caused.

The invention discloses a label printing and checking method based on label codes, and the method is further characterized in that a cloud database can be mutually and independently synchronously/asynchronously interacted with a plurality of combined production lines formed by combining printing equipment and reading equipment to form an extensible distributed architecture for label printing and checking, wherein the extensible distributed architecture is formed by an independent data source (cloud database), a middleware (server) and a plurality of distributed terminals (the combined production lines formed by combining the printing equipment and the reading equipment).

The invention adopts the following technical scheme that the label printing and checking method based on the label code comprises the following steps:

step S1: a label making software built in a processor requests to issue a first data set for one or more printing devices from a cloud database;

step S2: the processor acquires the first data set issued by the cloud database, processes the first data set into a second data set serving as input information of each printing device by using the built-in label making software, and transmits the second data set to each printing device;

step S3: each printing device acquiring the second data set transmitted by the processor and printing a label code according to the second data set;

step S4: a reading device reads a characteristic message carried by the label code and transmits the characteristic message back to a data control software built in the processor;

step S5: the data control software uploads the characteristic information to a server, judges whether the characteristic information meets a preset checking condition or not, and forms a corresponding checking result;

step S6: and the server feeds the verification result back to the cloud database.

According to the above technical solution, as a further preferable technical solution of the above technical solution, the step S4 further includes the step S4.1:

step S4.1: checking whether the number of data quantity groups is correct at the machine station.

According to the above technical solution, as a further preferable technical solution of the above technical solution, in the step S5, the verifying condition is specifically implemented as:

and comparing whether the detected information is consistent with the characteristic information to form a comparison consistent check result or a comparison erroneous check result, so that the processor selectively and repeatedly executes the step S1 or ends the method.

According to the above technical solution, as a further preferable technical solution of the above technical solution, the step S1 further includes the step S1.1:

step S1.1: the processor temporarily stores the first data set in the server by the built-in data control software, wherein the first data set comprises part or all of input information required by the printing equipment.

According to the above technical means, as a further preferable technical means of the above technical means, the first data set temporarily stored in the server is embodied as the checked information in step S5. According to the above technical solution, as a further preferable technical solution of the above technical solution, in the step S4, the reading apparatus includes:

the readers are arranged in parallel and are arranged along the feeding channel or the receiving channel independently;

the feeding mechanism is provided with a feeding channel and comprises a feeding fork and a feeding driving motor, the feeding fork is used for placing a material to be read, and the feeding driving motor is used for driving the feeding fork to rotate;

the receiving mechanism is provided with a receiving material channel and comprises a receiving material fork and a receiving material driving motor, the receiving material fork is used for placing a read material, and the receiving material driving motor is used for driving the receiving material fork to rotate.

According to the above technical solution, as a further preferable technical solution of the above technical solution, the reader includes at least one Bar Code reader for reading the tag Code and at least one EPC reader for reading an EPC Code placed in an RFID.

According to the above technical solution, as a further preferable technical solution of the above technical solution, between the step S3 (document printing) and the step S4 (data reading), the method further includes the steps of:

writing the EPC code to the RFID by an EPC code writing device.

According to the above technical solution, as a further preferable technical solution of the above technical solution, the reading apparatus further includes:

the feeding buffer mechanism comprises a feeding voltage stabilizer and a feeding rolling shaft, the feeding voltage stabilizer enables a material to be read to be flatly attached to the feeding rolling shaft by utilizing the spring pressurization characteristic, and the feeding rolling shaft is oppositely arranged on the other side of the feeding voltage stabilizer;

the receiving buffer mechanism comprises a receiving voltage stabilizer and a receiving roller, the receiving voltage stabilizer enables a read material to be flatly attached to the receiving roller by utilizing the spring pressurization characteristic, and the receiving roller is oppositely arranged on the other side of the receiving voltage stabilizer.

The label printing and checking method based on the label code has the advantages that the label printing process and the checking process are seamlessly connected, the production efficiency is improved, and the error rate of a finished product is reduced.

Drawings

FIG. 1 is a system block diagram of the present invention.

FIG. 2 is a system flow diagram of the present invention.

Fig. 3 is a schematic diagram of the main steps of the preferred embodiment of the present invention.

Fig. 4 is a schematic diagram of the main steps of the first embodiment of the present invention.

Detailed Description

The invention discloses a label printing and checking method based on a label code, and the following describes the specific implementation of the invention in detail with reference to the preferred embodiment.

Referring to fig. 1, 2 and 3 of the drawings, a preferred embodiment (the number of printing devices and reading devices is preferably 1 each).

Preferably, the label printing and verifying method based on the label code comprises the following steps:

step S1, data acquisition: a label making software built in a processor requests a cloud database to issue a first data set for printing equipment;

step S2, data transmission: the processor obtains the first data set issued by the cloud database, (the processor) and processes the first data set into a second data set available as input information to the printing device using the label production software that is built-in (built-in to the processor), (the processor) and transmits the second data set to the printing device;

step S3, printing the document: the printing device obtaining the second data set transmitted by the processor, (the printing device) and printing a label code from the second data set;

step S4, data reading: a reading device reads a characteristic message carried by the tag code, and simultaneously transmits the characteristic message back to a data control software built in the processor;

step S5, document inspection: the data control software uploads the characteristic information (the characteristic information is information to be checked) to a server, and simultaneously judges whether the characteristic information meets a preset checking condition or not and forms a corresponding checking result;

step S6, checking feedback: the server feeds back the verification result to the cloud database (the processor selectively and repeatedly executes the step S1 or ends the method according to the verification result in the step S5).

It is worth mentioning that the step S4 further includes a step S4.1 (while the reading device reads the characteristic information carried by the tag):

step S4.1: checking whether the number of data quantity groups is correct at the machine station.

It should be noted that, in the step S5, the verification condition is specifically implemented as:

comparing (by the data control software) whether a piece of information to be checked (i.e. the first data set) is consistent with the characteristic information (i.e. the information to be checked) uploaded to the server by the data control software, so as to form a consistent comparison check result or a wrong comparison check result, so that the processor selectively and repeatedly executes step S1 or ends the method.

It is worth mentioning that the step S1 further includes the step S1.1:

step S1.1: the processor, through the built-in data control software, temporarily stores the first data set in the server (e.g., a memory for subsequent verification), where the first data set includes part or all of input information required by the printing device.

It should be noted that the checked information in step S5 is embodied as the first data set temporarily stored in the server.

It is worth mentioning that, in the step S4, the reading apparatus includes:

the readers are arranged in parallel and are arranged along the feeding channel or the receiving channel independently;

the feeding mechanism is provided with a feeding channel and comprises a feeding fork and a feeding driving motor, the feeding fork is used for placing a material part (such as a label) to be read, and the feeding driving motor is used for driving the feeding fork to rotate;

the receiving mechanism is provided with a receiving material channel and comprises a receiving material fork and a receiving material driving motor, the receiving material fork is used for placing a read material piece (such as a label), and the receiving material driving motor is used for driving the receiving material fork to rotate.

It is worth mentioning that the readers include at least one Bar Code reader for reading the tag Code and at least one EPC reader for reading an EPC Code placed on an RFID.

It should be noted that, between the step S3 (document printing) and the step S4 (data reading), the following steps are further included:

writing the EPC code to the RFID by an EPC code writing device.

It is worth mentioning that the reading device further comprises:

the feeding buffer mechanism comprises a feeding voltage stabilizer and a feeding rolling shaft, the feeding voltage stabilizer enables a material to be read to be flatly attached to the feeding rolling shaft by utilizing the spring pressurization characteristic, and the feeding rolling shaft is oppositely arranged on the other side of the feeding voltage stabilizer;

the receiving buffer mechanism comprises a receiving voltage stabilizer and a receiving roller, the receiving voltage stabilizer enables a read material to be flatly attached to the receiving roller by utilizing the spring pressurization characteristic, and the receiving roller is oppositely arranged on the other side of the receiving voltage stabilizer.

Referring to fig. 1, 2 and 4 of the drawings, a first embodiment (the number of printing devices and reading devices is preferably at least 2 to form a combined production line formed by the printing devices and the reading devices).

Preferably, the label printing and verifying method based on the label code comprises the following steps:

step S1, data acquisition: a label making software built in a processor requests a cloud database to issue a first data set for at least two printing devices;

step S2, data transmission: the processor acquires the first data set issued by the cloud database, (the processor) and processes the first data set into a second data set available as input information for each printing device using the label production software built in (built-in to the processor), (the processor) and transmits the second data set to each printing device;

step S3, printing the document: each printing device acquiring the second data set transmitted by the processor, (the printing device) and printing from the second data set to form a tag code;

step S4, data reading: a reading device reads a characteristic message carried by the tag code, and simultaneously transmits the characteristic message back to a data control software built in the processor;

step S5, document inspection: the data control software uploads the characteristic information (the characteristic information is information to be checked) to a server, and simultaneously judges whether the characteristic information meets a preset checking condition or not and forms a corresponding checking result;

step S6, checking feedback: the server feeds back the verification result to the cloud database (the processor selectively and repeatedly executes the step S1 or ends the method according to the verification result in the step S5).

It is worth mentioning that the step S4 further includes a step S4.1 (while the reading device reads the characteristic information carried by the tag):

step S4.1: checking whether the number of data quantity groups is correct at the machine station.

It should be noted that, in the step S5, the verification condition is specifically implemented as:

comparing (by the data control software) whether a piece of information to be checked (i.e. the first data set) is consistent with the characteristic information (i.e. the information to be checked) uploaded to the server by the data control software, so as to form a consistent comparison check result or a wrong comparison check result, so that the processor selectively and repeatedly executes step S1 or ends the method.

It is worth mentioning that the step S1 further includes the step S1.1:

step S1.1: the processor, through the built-in data control software, temporarily stores the first data set in the server (e.g., a memory for subsequent verification), where the first data set includes part or all of input information required by the printing device.

It should be noted that the first data set temporarily stored in the server is embodied as the checked information in step S5.

It is worth mentioning that the step S1 further includes the step S1.1:

step S1.1: the processor, through the built-in data control software, temporarily stores the first data set in the server (e.g., a memory for subsequent verification), where the first data set includes part or all of input information required by the printing device.

It should be noted that the checked information in step S5 is embodied as the first data set temporarily stored in the server.

It is worth mentioning that, in the step S4, the reading apparatus includes:

the readers are arranged in parallel and are arranged along the feeding channel or the receiving channel independently;

the feeding mechanism is provided with a feeding channel and comprises a feeding fork and a feeding driving motor, the feeding fork is used for placing a material part (such as a label) to be read, and the feeding driving motor is used for driving the feeding fork to rotate;

the receiving mechanism is provided with a receiving material channel and comprises a receiving material fork and a receiving material driving motor, the receiving material fork is used for placing a read material piece (such as a label), and the receiving material driving motor is used for driving the receiving material fork to rotate.

It is worth mentioning that the readers include at least one Bar Code reader for reading tag codes and at least one EPC reader for reading an EPC Code placed on an RFID.

It should be noted that, between the step S3 (document printing) and the step S4 (data reading), the following steps are further included:

writing the EPC code to the RFID by an EPC code writing device.

It is worth mentioning that the reading device further comprises:

the feeding buffer mechanism comprises a feeding voltage stabilizer and a feeding rolling shaft, the feeding voltage stabilizer enables a material to be read to be flatly attached to the feeding rolling shaft by utilizing the spring pressurization characteristic, and the feeding rolling shaft is oppositely arranged on the other side of the feeding voltage stabilizer;

the receiving buffer mechanism comprises a receiving voltage stabilizer and a receiving roller, the receiving voltage stabilizer enables a read material to be flatly attached to the receiving roller by utilizing the spring pressurization characteristic, and the receiving roller is oppositely arranged on the other side of the receiving voltage stabilizer.

It should be noted that the specific types of the label making software and the data control software related to the present patent application should be regarded as the prior art, the specific structure and the operation principle of the technical features, the control mode and the spatial arrangement mode that may be related to the technical features should be selected conventionally in the field, and should not be regarded as the invention point of the present patent, and the present patent is not further specifically described in detail.

It will be apparent to those skilled in the art that modifications and equivalents may be made in the embodiments and/or portions thereof without departing from the spirit and scope of the present invention.

Claims (10)

1. A label printing and checking method based on a label code is characterized by comprising the following steps:

step S1: a label making software built in a processor requests to issue a first data set for one or more printing devices from a cloud database;

step S2: the processor acquires the first data set issued by the cloud database, processes the first data set into a second data set serving as input information of each printing device by using the built-in label making software, and transmits the second data set to each printing device;

step S3: each printing device acquiring the second data set transmitted by the processor and printing a label code according to the second data set;

step S4: a reading device reads a characteristic message carried by the label code and transmits the characteristic message back to a data control software built in the processor;

step S5: the data control software uploads the characteristic information to a server, judges whether the characteristic information meets a preset checking condition or not, and forms a corresponding checking result;

step S6: and the server feeds the verification result back to the cloud database.

2. The label code based label printing and verifying method of claim 1, wherein said step S4 further comprises the step S4.1:

step S4.1: checking whether the number of data quantity groups is correct at the machine station.

3. The method for printing and verifying label based on label code of claim 1, wherein in step S5, the verifying condition is implemented as:

and comparing whether the detected information is consistent with the characteristic information to form a comparison consistent check result or a comparison erroneous check result, so that the processor selectively and repeatedly executes the step S1 or ends the method.

4. The label code based label printing and verifying method of claim 1, wherein said step S1 further comprises the step S1.1:

step S1.1: the processor temporarily stores the first data set in the server by the built-in data control software, wherein the first data set comprises part or all of input information required by the printing equipment.

5. The label code based label printing and verifying method of claim 3, wherein said step S1 further comprises the step S1.1:

step S1.1: the processor temporarily stores the first data set in the server by the built-in data control software, wherein the first data set comprises part or all of input information required by the printing equipment.

6. The label code-based label printing and verifying method of claim 5, wherein said verified information in step S5 is embodied as said first data set temporarily stored in said server.

7. A label code based label printing and verification method according to any one of claims 1 to 6, wherein said reading device comprises, in said step S4:

the readers are arranged in parallel and are arranged along the feeding channel or the receiving channel independently;

the feeding mechanism is provided with a feeding channel and comprises a feeding fork and a feeding driving motor, the feeding fork is used for placing a material to be read, and the feeding driving motor is used for driving the feeding fork to rotate;

the receiving mechanism is provided with a receiving material channel and comprises a receiving material fork and a receiving material driving motor, the receiving material fork is used for placing a read material, and the receiving material driving motor is used for driving the receiving material fork to rotate.

8. A label printing and verification method based on a label code according to claim 7, wherein said reading apparatus further comprises:

the feeding buffer mechanism comprises a feeding voltage stabilizer and a feeding rolling shaft, the feeding voltage stabilizer enables a material to be read to be flatly attached to the feeding rolling shaft by utilizing the spring pressurization characteristic, and the feeding rolling shaft is oppositely arranged on the other side of the feeding voltage stabilizer;

the receiving buffer mechanism comprises a receiving voltage stabilizer and a receiving roller, the receiving voltage stabilizer enables a read material to be flatly attached to the receiving roller by utilizing the spring pressurization characteristic, and the receiving roller is oppositely arranged on the other side of the receiving voltage stabilizer.

9. The method for label printing and verification based on a label Code of claim 7, wherein said reader comprises at least one Bar Code reader for reading said label Code and at least one EPC reader for reading an EPC Code placed on an RFID.

10. The label code-based label printing and verifying method of claim 9, further comprising the steps of, between the step S3 and the step S4:

writing the EPC code to the RFID by an EPC code writing device.

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