CN113313222A - RFID intelligent label with electronic ink screen - Google Patents

Abstract

The invention discloses an RFID intelligent tag with an electronic ink screen, which comprises a handheld transmission end and the electronic ink screen, wherein the handheld transmission end is used for modifying and transmitting data information, the electronic ink screen is used for displaying the data information transmitted by the handheld transmission end so as to enable an operator to observe the data information, the handheld transmission end comprises a mobile phone app, the mobile phone app is electrically connected with an nfc communication module, the mobile phone app is used for the operator to edit and transmit the data information, the nfc communication module is used for receiving the data information transmitted by the mobile phone app and transmitting the data information, the mobile phone app comprises a data editing module and a data processing module, the data editing module is used for editing data and inputting the data information into the data processing module, and the data processing module is used for processing the edited data, the invention has the characteristics of long service life and reusability.

Description

RFID intelligent label with electronic ink screen

Technical Field

The invention relates to the technical field of intelligent tags, in particular to an RFID intelligent tag with an electronic ink screen.

Background

Technologies such as electronic tags and two-dimensional codes are widely applied to intelligent production management systems, for example, the two-dimensional codes can be used as ID of material information, code scanning and data inputting can be conveniently carried out through a code scanning gun, and production management is assisted; the electronic tag generally adopts an RFID technology, and reads data through a special NFC (or RFID reader), so as to assist production management; the two-dimensional code has the defects that the two-dimensional code is generally printed on paper, is easy to deform and damaged by oil stains, cannot be identified and read, and generally cannot be reused;

the RFID adopts a non-contact radio frequency technology, so that the RFID has the advantages of being reusable and resistant to oil stains; however, the RFID cannot directly display data information visible to a person, and a dedicated RFID reader and a software system are required to read the data information in the RFID to see the RFID tag information. In the production management of an intelligent factory, a paper document is often matched with a two-dimensional code or an RFID label to perform informatization tracing and management, so that the production management is assisted; however, the paper document and the RFID or the two-dimensional code are used at the same time, and the method needs two sets of management systems at the same time, so that the management cost is high, the production management efficiency is not obviously improved by informatization, so that the method can cancel the paper document, only uses an electronic tag, can generate visual production management data for personnel, and is low in cost and recyclable, which is a big problem;

therefore, it is necessary to design a RFID smart tag with an electronic ink screen, which has a long service life and can be recycled.

Disclosure of Invention

The invention aims to provide an RFID intelligent tag with an electronic ink screen, so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a RFID intelligent label of electrified sub-ink screen, includes handheld transmission end and electronic ink screen, its characterized in that: the handheld transmission end is used for modifying and transmitting data information, and the electronic ink screen is used for displaying the data information transmitted by the handheld transmission end so that an operator can observe the data information conveniently.

According to the technical scheme, the handheld transmission end comprises the mobile phone app, the mobile phone app is electrically connected with the nfc communication module, the mobile phone app is used for an operator to edit and transmit data information, and the nfc communication module is used for receiving the data information transmitted by the mobile phone app and transmitting the data information.

According to the technical scheme, the mobile phone app comprises a data editing module and a data processing module, the data editing module is used for editing data and inputting data information into the data processing module, the data processing module processes the edited data and transmits the edited data into the nfc communication module, and the nfc communication module continues to transmit data, so that the transmitted data can be displayed on the electronic ink screen.

According to the technical scheme, the electronic ink screen comprises a nfc antenna module, the nfc antenna module is electrically connected with a nfc receiving module, the nfc receiving module is electrically connected with a processor module, the processor module is electrically connected with a display module, the nfc antenna module is electrically connected with a nfc power module, and the nfc power module is electrically connected with the display module.

According to the technical scheme, the processor module comprises a storage module, the processor module transmits the received data information into the storage module, and meanwhile, the data in the storage module is sorted and extracted, so that the data processed by the processor module can be stored.

According to the technical scheme, the work flow of the electronic ink screen is as follows:

s1: the data editing module edits data information in the mobile phone app, and the edited data information is transmitted into the data processing module through the mobile phone app;

s2: the data module transmits data information to the nfc communication module;

s3: the nfc communication module inputs data into the nfc receiving module through the nfc antenna module;

s4: the nfc receiving module transmits data information into the processor module, and the processor module transmits data into the display module and stores the data into the memory module through the processor;

s5: the processor module extracts data information in the storage module and transmits the data information to the display module, and the display module drives the electronic ink screen;

s6: the nfc antenna module provides energy for the nfc power module, and the nfc power module provides power for S3-S5.

According to the above technical solution, in the step S3, the specific steps are:

s3-1: the nfc communication module sends detection information to the nfc antenna module;

s3-2: the nfc antenna module receives the detection signal and then sends response information to the nfc communication module;

s3-3: after receiving the response information sent by the nfc antenna module, the nfc communication module sends feedback information to the nfc antenna module, and data transmission can be performed between the nfc communication module and the nfc antenna module;

s3-4: the nfc communication module transmits data information to the nfc antenna module;

s3-5: and the nfc antenna module transmits the received data information to the nfc receiving module.

According to the technical scheme, in the step S4, the nfc receiving module transmits data information to the processor module, the processor module analyzes and processes the data and transmits the data to the display module, the transmitted data is displayed on the electronic ink screen through the display module, and the processor module stores the transmitted data into the storage module.

According to the technical scheme, in the step S5, when the processor module receives the data, the data is stored in the memory module, when the processor module receives the repeated data, the repeated data in the memory module can be directly extracted, and then the extracted data is directly input into the display module through the processor module, so that the electronic ink screen can display the data.

According to the above technical solution, in the step S6, the nfc communication module and the nfc antenna module generate a certain amount of energy when transmitting data and the nfc antenna module and the nfc receiving module generate a certain amount of energy when transmitting data, and the nfc power module collects the energy and converts the energy into electric energy for operating the device, so as to transmit the electric energy into the display module and the processor module, and provide the display module and the processor module with a certain amount of electric energy.

Compared with the prior art, the invention has the following beneficial effects: in the using process of the device, the data editing module edits data and inputs data information into the data processing module, so that an operator can modify the data through the handheld transmission end, the processor module transmits the data information into the storage module, the processor module sorts and extracts the data information in the storage module, the data processed by the processor module is stored, some data can be stored under the condition that the device is not powered, the data can be visually displayed, production management is assisted, meanwhile, the device is not easy to deform and damage by oil stains and easy to recycle, paper documents are not needed to be used for assisting production management, only one set of management flow is needed, and the management cost under a production management mode based on personnel visualization is low.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic overall flow diagram of the present invention.

FIG. 2 is a schematic diagram of the working steps of the present invention

Detailed Description

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

Referring to fig. 1, the present invention provides a technical solution: the utility model provides a RFID intelligent label of electrified sub-ink screen, includes handheld transmission end and electronic ink screen, its characterized in that: the handheld transmission end is used for modifying and transmitting data information, and the electronic ink screen is used for displaying the data information transmitted by the handheld transmission end so that an operator can observe the data information conveniently;

the handheld transmission end comprises a mobile phone app, the mobile phone app is electrically connected with an nfc communication module, the mobile phone app is used for an operator to edit and transmit data information, and the nfc communication module is used for receiving and transmitting the data information transmitted by the mobile phone app;

the mobile phone app comprises a data editing module and a data processing module, the data editing module is used for editing data and inputting data information into the data processing module, the data processing module processes the edited data and transmits the edited data into the nfc communication module, and the nfc communication module continues to transmit data, so that the electronic ink screen can display the transmitted data;

the electronic ink screen comprises a nfc antenna module, the nfc antenna module is electrically connected with a nfc receiving module, the nfc receiving module is electrically connected with a processor module, the processor module is electrically connected with a display module, the nfc antenna module is electrically connected with a nfc power module, and the nfc power module is electrically connected with the display module;

the processor module comprises a storage module, transmits the received data information into the storage module, and simultaneously arranges and extracts the data in the storage module so that the data processed by the processor module can be stored;

the electronic ink screen comprises the following working processes:

s1: the data editing module edits data information in the mobile phone app, and the edited data information is transmitted into the data processing module through the mobile phone app;

s2: the data module transmits data information to the nfc communication module;

s3: the nfc communication module inputs data into the nfc receiving module through the nfc antenna module;

s4: the nfc receiving module transmits data information into the processor module, and the processor module transmits data into the display module and stores the data into the memory module through the processor;

s5: the processor module extracts data information in the storage module and transmits the data information to the display module, and the display module drives the electronic ink screen;

s6: the nfc antenna module provides energy for the nfc power supply module, and the nfc power supply module provides electric energy for S3-S5;

therefore, data transmission is carried out through the nfc, the two-dimensional codes in the transmission data are displayed on the electronic ink screen, deformation and oil stain damage of the two-dimensional codes adopted in production management can be avoided, the two-dimensional codes can be recycled, and meanwhile, after the data are transmitted into the electronic ink screen and then displayed, an operator can visually see the change of the data, so that visual production management data of the operator can be generated, so that management is carried out by replacing paper documents with the two-dimensional codes or RFID labels, two sets of management systems are avoided, and the production management cost is reduced;

in step S3, the specific steps are:

s3-1: the nfc communication module sends detection information to the nfc antenna module;

s3-2: the nfc antenna module receives the detection signal and then sends response information to the nfc communication module;

s3-3: after receiving the response information sent by the nfc antenna module, the nfc communication module sends feedback information to the nfc antenna module, and data transmission can be performed between the nfc communication module and the nfc antenna module;

s3-4: the nfc communication module transmits data information to the nfc antenna module;

s3-5: the nfc antenna module transmits the received data information to the nfc receiving module;

the nfc transmission adopts a non-contact infinite radio frequency technology, so that an electronic display screen does not need to be directly connected with a handheld transmission end in the data transmission process, and further the deformation generated when the electronic display screen is directly connected with a mobile phone transmission end and the contact with oil stains are reduced, so that the service life of equipment is prolonged, and meanwhile, the electronic display screen is difficult to deform, so that the displayed data is easier to identify and read, and the production efficiency is improved;

in the step S4, the nfc receiving module transmits data information to the processor module, the processor module analyzes and processes the data and transmits the data to the display module, the transmitted data is displayed on the electronic ink screen through the display module, and the processor module stores the transmitted data in the storage module, so that the data at the handheld transmitting end can be transmitted to the display module through the processor module, and the display module drives the electronic ink screen to display the transmitted data, so that the electronic ink screen can be repeatedly used, the service life of the electronic ink screen is prolonged, and the electronic ink screen is convenient to modify;

in the step S5, the processor module stores the data into the memory module when receiving the data, and when receiving the repeated data, the processor module can directly extract the repeated data from the memory module, and then directly input the extracted data into the display module through the processor module, so that the electronic ink screen can display the data;

in step S6, the nfc module and the nfc antenna module generate a certain amount of energy when transmitting data and the nfc module and the nfc receiving module generate data when transmitting data, the nfc power module collects the energy and converts the energy into electric energy for operating the device, and then the electric energy is transmitted to the display module and the processor module to provide a certain amount of electric energy, the display module can drive the electronic ink screen to display data when receiving the electric energy, and the electric energy can maintain the data displayed for a certain time when the electronic ink screen loses the power supplied by the external power source, and the processor module can maintain the processor to operate when receiving the electric energy, thereby reducing the energy consumption generated when the processor module operates, and saving more energy.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a RFID intelligent label of electrified sub-ink screen, includes handheld transmission end and electronic ink screen, its characterized in that: the handheld transmission end is used for modifying and transmitting data information, and the electronic ink screen is used for displaying the data information transmitted by the handheld transmission end.

2. The RFID smart tag with the electronic ink screen of claim 1, wherein: the handheld transmission end comprises a mobile phone app, the mobile phone app is electrically connected with an nfc communication module, the mobile phone app is used for an operator to edit and transmit data information, and the nfc communication module is used for receiving and transmitting the data information transmitted by the mobile phone app.

3. The RFID smart tag with the electronic ink screen as claimed in claim 2, wherein: the mobile phone app comprises a data editing module and a data processing module, the data editing module is used for editing data and inputting data information into the data processing module, the data processing module processes the edited data and transmits the edited data into the nfc communication module, and the nfc communication module continues to transmit data.

4. The RFID smart tag with the electronic ink screen as claimed in claim 3, wherein: the electronic ink screen comprises a nfc antenna module, the nfc antenna module is electrically connected with a nfc receiving module, the nfc receiving module is electrically connected with a processor module, the processor module is electrically connected with a display module, the nfc antenna module is electrically connected with a nfc power module, and the nfc power module is electrically connected with the display module.

5. The RFID smart tag with the electronic ink screen as claimed in claim 4, wherein: the processor module comprises a storage module, transmits the received data information into the storage module, and meanwhile, arranges and extracts the data in the storage module.

6. The RFID smart tag with the electronic ink screen of claim 5, wherein: the electronic ink screen comprises the following working processes:

s1: the data editing module edits data information in the mobile phone app, and the edited data information is transmitted into the data processing module through the mobile phone app;

s2: the data module transmits data information to the nfc communication module;

s3: the nfc communication module inputs data into the nfc receiving module through the nfc antenna module;

s4: the nfc receiving module transmits data information into the processor module, and the processor module transmits data into the display module and stores the data into the memory module through the processor;

s5: the processor module extracts data information in the storage module and transmits the data information to the display module, and the display module drives the electronic ink screen;

s6: the nfc antenna module provides energy for the nfc power module, and the nfc power module provides power for S3-S5.

7. The RFID smart tag with the electronic ink screen of claim 6, wherein: in step S3, the specific steps are:

s3-1: the nfc communication module sends detection information to the nfc antenna module;

s3-2: the nfc antenna module receives the detection signal and then sends response information to the nfc communication module;

s3-3: after receiving the response information sent by the nfc antenna module, the nfc communication module sends feedback information to the nfc antenna module, and data transmission can be performed between the nfc communication module and the nfc antenna module;

s3-4: the nfc communication module transmits data information to the nfc antenna module;

s3-5: and the nfc antenna module transmits the received data information to the nfc receiving module.

8. The RFID smart tag with the electronic ink screen of claim 7, wherein: in step S4, the nfc receiving module transmits the data information to the processor module, the processor module analyzes and processes the data and transmits the data to the display module, the transmitted data is displayed on the electronic ink screen through the display module, and the processor module stores the transmitted data in the storage module.

9. The RFID smart tag with the electronic ink screen of claim 8, wherein: in step S5, the processor module stores the data into the memory module when receiving the data, and when the processor module receives the repeated data, the repeated data in the memory module can be directly extracted, and the extracted data is directly input into the display module through the processor module, so that the electronic ink screen can display the data.

10. The RFID smart tag with the electronic ink screen of claim 9, wherein: in step S6, the nfc module and the nfc antenna module generate a certain amount of energy when transmitting data and the nfc module and the nfc receiving module generate a certain amount of energy when transmitting data, and the nfc power module collects the energy and converts the energy into electric energy for the operation of the device, so as to transmit the electric energy into the display module and the processor module to provide a certain amount of electric energy to the display module and the processor module.

Images