All-in-one machine equipment, value certificate carrier card customization and processing methods and electronic equipment

By combining AI generation and manual creation with an all-in-one machine, the problems of personalized gift card customization and instant card printing have been solved, enabling self-service design and efficient printing, and meeting the needs of on-site card purchase and instant gifting.

CN122308756APending Publication Date: 2026-06-30SHANGHAI HEMA ZHIYAN TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
SHANGHAI HEMA ZHIYAN TECHNOLOGY CO LTD
Filing Date
2026-02-12
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing gift cards lack personalization capabilities, cannot support random gifting in stores, and have long delivery cycles, failing to meet the needs of on-site card purchase and instant card issuance.

Method used

This invention provides an all-in-one device that integrates a computer module, a card-making machine module, and a control system. It supports users' self-service personalized design and instant card printing, and realizes the customization and printing of gift cards through a combination of AI-generated models and manual creation.

Benefits of technology

It enables users to complete personalized designs themselves, supports instant card printing, improves conversion efficiency, meets the needs of on-site card purchases and instant gift-giving, and has better print quality than ordinary photo printers.

✦ Generated by Eureka AI based on patent content.

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Abstract

This application discloses an all-in-one machine, a method for customizing value voucher carrier cards, and an electronic device. The all-in-one machine includes: a computer module for running a target application, which provides a customized interactive interface to receive user operation instructions to generate a customized image and provides printing operation options. After receiving a print request through the printing operation options, the print request is submitted to the control system. The control system sends the customized image and printing instructions to a card-making machine module. After receiving the customized image and printing instructions, the card-making machine module prints the customized image onto the surface of the value voucher carrier card to complete card production and output the target value voucher carrier card. Through this application embodiment, users can complete personalized design and instant card issuance independently, supporting needs such as random gift delivery by stores.
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Description

Technical Field

[0001] This application relates to the field of information processing technology, and in particular to all-in-one machine equipment, value certificate carrier card customization processing method and electronic equipment. Background Technology

[0002] Against the backdrop of the rapid development of new retail and experiential consumption, gift cards, as a high-frequency marketing tool, have evolved from traditional standardized prepaid cards towards personalization and emotionalization. Consumers are no longer satisfied with uniform, fixed designs, but expect to imbue gift cards with unique meaning through customized text, images, or thematic elements, especially in scenarios such as birthdays, holidays, and anniversaries. However, most gift cards on the market are currently mass-produced in factories, lacking personalized customization capabilities. Some systems support online customization of gift cards; for example, they provide candidate keywords and image materials for each keyword through a mobile app interface, allowing users to select keywords and image materials. After consumers complete online customization, the cards need to be centrally printed and delivered via logistics, resulting in a relatively long delivery cycle. For example, it typically takes 2-7 days from order placement to receipt, completely failing to support needs such as random gift delivery in stores. Summary of the Invention

[0003] This application provides an all-in-one machine, a method for customizing value certificate carrier cards, and electronic equipment, which enables users to complete personalized designs and issue cards instantly, and supports needs such as random gifting in stores.

[0004] This application provides the following solution:

[0005] An all-in-one machine device is disclosed for customizing value-based credential carrier cards. The device includes a computer module, a card-making machine module, and a control system, wherein the computer module and the card-making machine module share the same control system. The computer module is used to run the target application, which is used to provide a customized interactive interface to receive user operation instructions to generate customized images and provide printing operation options. After receiving a printing request through the printing operation options, the printing request is submitted to the control system. The control system is used to send the customized image and printing instructions to the card making machine module; The card-making machine module is used to receive the customized image and the printing instruction, and then print the customized image onto the surface of the value certificate carrier card to complete the card making and output the target value certificate carrier card.

[0006] Specifically, the target application in the computer module is used to generate a customized image that conforms to the semantics of the text information based on the text information input or selected by the user, using an artificial intelligence (AI) generative model.

[0007] Specifically, the target application in the computer module is used to provide a canvas interface to generate the customized image based on the image drawing creation information made by the user through the canvas interface.

[0008] The target application in the computer module, while providing the canvas interface, also provides a material library so that users can select and use the materials they need during the image drawing and creation process.

[0009] The target application in the computer module also provides an AI enhancement option when providing the canvas interface, so as to enhance the user's image drawing creation results using an AI generative model.

[0010] The target application in the computer module is also used to select the face value of the value certificate carrier card.

[0011] A method for customizing value credential carrier cards, the method being applied to a target application running within a computer module of an all-in-one device, comprising: Offers a customizable user interface; The interactive interface receives user commands to generate customized images and provides printing options. After receiving a print request through the print operation option, the customized image and print request are submitted to the control system in the all-in-one device. The control system then sends the customized image and print instruction to the card-making module in the all-in-one device, so that the card-making module can print the customized image onto the surface of the value certificate carrier card to complete the card making and output the target value certificate carrier card.

[0012] The step of receiving user operation instructions through the interactive interface to generate a customized image includes: Based on the text information input or selected by the user, a customized image that conforms to the semantics of the text information is generated through an AI generative model.

[0013] The step of receiving user operation instructions through the interactive interface to generate a customized image includes: A canvas interface is provided to generate the customized image based on the image drawing creation information provided by the user through the canvas interface.

[0014] A computer-readable storage medium having a computer program stored thereon that, when executed by a processor, implements the steps of any of the preceding methods.

[0015] An electronic device, comprising: One or more processors; and A memory associated with the one or more processors, the memory being used to store program instructions that, when read and executed by the one or more processors, perform the steps of any of the preceding methods.

[0016] A computer program product includes a computer program / computer executable instructions that, when executed by a processor in an electronic device, implement the steps of any of the preceding methods.

[0017] According to the specific embodiments provided in this application, the following technical effects are disclosed: The all-in-one device provided in this application integrates pattern editing and printing control (and may also include barcode scanning and AI generation) into a built-in application. Users do not need to switch devices or applications; the entire process, from entering keywords to receiving a physical card, is completed within a single device and application. Furthermore, the hardware adopts an all-in-one design, requiring no external computer; it is plug-and-play and suitable for flexible placement in space-constrained areas such as cash registers and promotional displays. By deploying this all-in-one device at the front end of physical stores, users can operate it themselves and receive cards instantly, without staff intervention or waiting for delivery, meeting the high-frequency consumption scenario of "on-site card purchase and immediate gift," significantly improving conversion efficiency.

[0018] In the preferred implementation, AI image generation capabilities can be introduced into the aforementioned integrated application. Users only need to input or select natural language keywords (such as "ocean" or "birthday cake") to obtain original visual patterns generated by AI, breaking through the limitations of preset templates and truly achieving personalized designs for each user, greatly enhancing emotional value and engagement.

[0019] In the card making module, a thermal transfer card making machine optimized for plastic cards can be used, which is compatible with standard PVC / PET gift cards. The printed patterns have saturated colors, strong adhesion, and are scratch and wear resistant, which is far superior to the output effect of ordinary photo printers on photo paper or labels, avoiding the defects of "poor print quality and card material incompatibility".

[0020] Of course, any product implementing this application does not necessarily need to achieve all of the advantages described above at the same time. Attached Figure Description

[0021] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0022] Figure 1 This is a schematic diagram of the structure of the all-in-one machine provided in the embodiments of this application; Figure 2 This is a schematic diagram of the appearance of the all-in-one device provided in the embodiments of this application; Figure 3 This is a schematic diagram of the interaction process between different components in the all-in-one device provided in the embodiments of this application; Figure 4 This is a flowchart of the method provided in the embodiments of this application; Figure 5 This is a schematic diagram of the electronic device provided in the embodiments of this application. Detailed Implementation

[0023] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of this application are within the scope of protection of this application.

[0024] In this application embodiment, to support both the personalized customization of gift cards (technically speaking, they can be called value certificate carrier cards; for ease of description and understanding, this specification will still mainly use gift cards as an example) and the dual needs of random gift distribution in stores, an all-in-one machine device is provided. For example... Figure 1 As shown, the all-in-one device may include a computer module 101, a card making machine module 102, and a control system 103. The computer module 101 and the card making machine module 102 share the same control system 103.

[0025] The computer module 101 is used to run a target application, which provides a customized interactive interface to receive user operation instructions to generate customized images and provides printing operation options. After receiving a printing request through the printing operation options, the printing request is submitted to the control system 103. The control system 103 is used to send the customized image and printing instructions to the card making machine module 102; The card-making machine module 102 is used to receive the customized image and the printing instruction, and then print the customized image onto the surface of the value certificate carrier card to complete the card making and output the target value certificate carrier card.

[0026] Specifically, the computer module 101 refers to a computer device with an operating system built into the all-in-one machine casing. For portability, it can take the form of a tablet computer with a touchscreen. This computer module 101 serves as the core of human-computer interaction, acting as the human-computer interface, application logic processor, and data source. Its core functions include running target applications related to card design and providing an interactive interface. The aforementioned target applications handle functions such as pattern editing and printing control. Specifically, during pattern editing, it can also provide AI-generated model calling functions, or functions such as drawing boards and material management (detailed explanations follow). Furthermore, to enable user identification or linkage with specific marketing activities, a QR code function can be displayed, allowing users to complete identification or activity linkage by scanning the code.

[0027] The control system 103 primarily acts as a system coordinator and hardware driver layer. Its core functions include unified management of the power supply and communication of the computer module and the card-making machine module. After the computer module completes pattern editing and the user clicks the print option, it can provide data bridging between the computer module and the card-making machine module. Additionally, it can perform print queue and hardware status monitoring, error handling, and emergency stop functions.

[0028] The card-making module 102 primarily functions as a physical execution terminal. Its core functions include card slot management and card feeding mechanism control, precise printhead movement control, execution of thermal transfer / direct printing technology, and management of card dispensing and quality inspection sensors. For example, in one specific implementation, it refers to a thermal transfer card printer integrated within the terminal, specifically built into the lower half of an all-in-one device. This printer is used to print digital images with high precision and adhesion onto the surface of standard-sized (depending on gift card specifications) gift cards made of materials such as PVC (Polyvinyl Chloride) or PET (Polyethylene Terephthalate). Furthermore, by controlling the printing resolution, vibrant colors can be achieved, and other related technologies can be used to achieve strong adhesion and scratch resistance, meeting the long-term preservation requirements of gift cards.

[0029] In practical implementation, regarding the design of the integrated device's body and ergonomics, such as Figure 2As shown, the all-in-one machine can be entirely enclosed in a sealed casing, with the computer module and card issuing module sharing the same power supply and control system, and all cables completely concealed. Point 21 could be the touchscreen of the computer module, and point 22 could be the card dispensing slot of the card issuing module. The device is compact, lightweight, and easily portable. Additionally, an anti-slip pad can be added to the bottom, allowing the all-in-one machine to be placed directly on a cash register or promotional display stand. The card dispensing slot of the card issuing module can be located on the lower front for easy card retrieval by the user.

[0030] The following describes the process of customizing gift cards using the aforementioned all-in-one machine.

[0031] Firstly, in practical applications, the all-in-one kiosk can be deployed in physical stores and other locations. Customers can purchase gift cards and personalize the designs during their offline shopping experience. In this scenario, user identification or linking to in-store marketing activities may be required when purchasing gift cards through the kiosk. Therefore, the target application in computer module 101 can provide a QR code scanning interface displaying a QR code for identification or activity linking. Users can scan the code to complete identification or activity linking and then access the personalized customization interface.

[0032] Specifically, the personalized customization interface offers various customization methods. For example, one method uses an AI generative model (such as a diffusion model or a lightweight text-to-image model) to generate a customized image that matches the semantics of the user-inputted or selected text information. In other words, this method automatically generates original image patterns that match the semantics of the text based on user-inputted or selected natural language keywords (such as "birthday," "cherry blossom," "coffee," etc., or expressions with more words). This method provides a keyword-driven customized image generation approach. Users input or select one or more semantic keywords (no professional design skills required) to trigger an AI generative model to automatically generate visual patterns that match the theme's semantics, achieving low-threshold creative expression.

[0033] In practical implementation, the aforementioned AI generation function can run locally on the all-in-one device terminal, or the AI ​​generative model can be deployed on a cloud server. In this case, the AI ​​generation service deployed in the cloud can be invoked through a secure network to generate customized images. With the AI ​​generation function provided, the all-in-one device in this embodiment is a device that integrates a computer module, an interactive interface, an AI application, and a card-making machine module, supporting users to complete personalized AI design of gift cards on-site in physical stores and to print cards on-site.

[0034] In addition to generating customized images via AI, the system also supports manual creation by users, meaning it offers a manual editing mode. Specifically, the target application within the computer module provides a canvas interface to generate customized images based on the user's drawing and creation information on the canvas. Specifically, users can freely doodle, add text, adjust colors, and so on on the canvas. Furthermore, it can provide border templates, a resource library, and more. Users can select border templates or choose resources from the resource library for combination and design during the creation process. Moreover, it can offer an AI enhancement function; when users select this function, an AI generative model can be used to enhance the user's image drawing and creation results.

[0035] It should be noted that in the actual implementation, both of the above modes can be supported at the same time, that is, dual-mode creation is supported: both design methods are supported at the same time—AI automatic generation mode and manual editing mode (including hand-drawing, text addition, image upload, template adjustment, etc.), thus taking into account both efficiency and personalization needs.

[0036] After generating the customized image, if the user confirms the design, they can click the "Print" option on the interface. Upon receiving this operation, the target application can provide the customized image to the card-making machine module via the control system and simultaneously send a print command. After receiving the print command, the card-making machine module can automatically feed, print, and dispense the card, completing the entire process in approximately 15-20 seconds. Blank gift cards can be pre-placed in the card slots or other components of the card-making machine module.

[0037] In summary, the workflow for customizing gift cards using the aforementioned all-in-one machine can include: (1) Users scan the code to enter the customized page; (2) Select “AI Generation” and enter / select keywords to obtain a personalized image generated by AI, or enter “Manual Editing” for free creation; (3) Preview the pattern effect, adjust the layout or regenerate; (4) Click “Print”, and the device will automatically complete the card making and dispense the finished product; (5) Users can take away the exclusive gift card, which can be used for payment, gifting or collection.

[0038] The more detailed interaction process between the computer module, card-making machine module, and control system can be described in a specific way as follows: Figure 3 As shown, it can specifically include: 1. Users can choose to generate personalized images via AI or by manual drawing through the target application interface; 2. The target application renders a preview image; 3. The user confirms and clicks the "Print" option provided in the target application interface; 4. The target application calls the system printing service; 5. The computer module's operating system sends printing commands to the control system via a serial port or USB hub; 6. The control system sends control commands to the card making machine module; 7. The card-making machine module controls the mechanical components to perform the card feeding operation; 8. The mechanical component returns to the card as a signal; 9. The card-making machine module requests image data from the control system; 10. The control system acquires a high-resolution image stream from the target application in the computer module; 11. The target application in the computer module sends image stream data to the control system; 12. The control system sends the image stream data to the card making machine module; 13. The card making machine module controls the movement of the print head in the mechanical components to print line by line; 14. The mechanical component returns a printing completion signal; 15. The card-making machine module controls the mechanical components to dispense the cards; 16. The mechanical component returns a card dispensing confirmation signal; 17. The card-making machine module returns a card-making success signal to the control system; 18. The control system notifies the target application in the computer module that printing is complete; 19. The target application updates its interface status and displays a message indicating that printing is complete.

[0039] It should be noted that if the specific gift card is used for payment, the target application in the computer module can also be used to select the face value of the value certificate carrier card, and can also support functions such as order generation and payment.

[0040] In summary, the aforementioned all-in-one kiosk integrates pattern editing and printing control (and may also include barcode scanning and AI generation) into a single built-in application. Users can complete the entire process from entering keywords to receiving the physical card without switching devices or applications, all within a single device and application. Furthermore, the all-in-one hardware design eliminates the need for an external computer; it's plug-and-play and suitable for flexible placement in space-constrained areas such as checkout counters and promotional displays. By deploying this all-in-one kiosk at the front end of physical stores, users can operate it themselves and receive cards instantly, without staff intervention or waiting for delivery. This meets the high-frequency consumption scenario of "on-site card purchase and immediate gift," significantly improving conversion rates.

[0041] In the preferred implementation, AI image generation capabilities can be introduced into the aforementioned integrated application. Users only need to input or select natural language keywords (such as "ocean" or "birthday cake") to obtain original visual patterns generated by AI, breaking through the limitations of preset templates and truly achieving personalized designs for each user, greatly enhancing emotional value and engagement.

[0042] In the card making module, a thermal transfer card making machine optimized for plastic cards can be used, which is compatible with standard PVC / PET gift cards. The printed patterns have saturated colors, strong adhesion, and are scratch and wear resistant, which is far superior to the output effect of ordinary photo printers on photo paper or labels, avoiding the defects of "poor print quality and card material incompatibility".

[0043] In addition, this application embodiment also provides a method for customizing value credential carrier cards from the perspective of the target application program of the computer module in the aforementioned all-in-one device. See [link to relevant documentation]. Figure 4 The method may specifically include: S401: Provides a customized interactive interface; S402: Receive user operation instructions through the interactive interface to generate a customized image and provide printing operation options; S403: After receiving a print request through the print operation option, the customized image and print request are submitted to the control system in the all-in-one device. The control system then sends the customized image and print instruction to the card making module in the all-in-one device, so that the card making module prints the customized image onto the surface of the value certificate carrier card to complete the card making and output the target value certificate carrier card.

[0044] In practice, a customized image that conforms to the semantics of the text information can be generated based on the text information input or selected by the user through an AI generative model.

[0045] Alternatively, a canvas interface can be provided to generate the customized image based on image drawing creation information provided by the user through the canvas interface.

[0046] For any parts of the above method that are not detailed, please refer to the aforementioned records; they will not be repeated here.

[0047] It should be noted that the embodiments of this application may involve the use of user data. In practical applications, user-specific personal data may be used in the scheme described herein within the scope permitted by applicable laws and regulations, provided that it complies with the applicable laws and regulations of the country (e.g., with the user's explicit consent, with the user being properly notified, etc.).

[0048] Corresponding to the above method embodiments, this application also provides a value certificate carrier card customization processing device, which is applied to a target application running within the computer module of an all-in-one device, including: Interface providing unit, used to provide customized interactive interfaces; A custom image generation unit is used to receive user operation instructions through the interactive interface to generate a custom image and provide printing operation options. The print instruction sending unit is used to receive a print request through the print operation option, and then submit the customized image and print request to the control system in the all-in-one device. The control system then sends the customized image and print instruction to the card making module in the all-in-one device, so that the card making module prints the customized image onto the surface of the value certificate carrier card, thereby completing the card making and outputting the target value certificate carrier card.

[0049] In a specific implementation, in one approach, the customized image generation unit can be used for: Based on the text information input or selected by the user, a customized image that conforms to the semantics of the text information is generated through an AI generative model.

[0050] Alternatively, in another approach, the customized image generation unit can specifically be used for: A canvas interface is provided to generate the customized image based on the image drawing creation information provided by the user through the canvas interface.

[0051] In addition, embodiments of this application also provide a computer-readable storage medium storing a computer program thereon, which, when executed by a processor, implements the steps of the method described in any of the foregoing method embodiments.

[0052] And an electronic device, comprising: One or more processors; and A memory associated with the one or more processors, the memory being used to store program instructions that, when read and executed by the one or more processors, perform the steps of the method described in any of the foregoing method embodiments.

[0053] A computer program product includes a computer program / computer executable instructions that, when executed by a processor in an electronic device, implement the steps of the method described in the foregoing method embodiments.

[0054] in, Figure 5 An exemplary architecture of an electronic device is shown, which may include a processor 510, a video display adapter 511, a disk drive 512, an input / output interface 513, a network interface 514, and a memory 520. The processor 510, video display adapter 511, disk drive 512, input / output interface 513, network interface 514, and memory 520 can communicate with each other via a communication bus 530.

[0055] The processor 510 can be implemented using a general-purpose CPU (Central Processing Unit), microprocessor, application-specific integrated circuit (ASIC), or one or more integrated circuits, and is used to execute relevant programs to implement the technical solution provided in this application.

[0056] The memory 520 can be implemented in the form of ROM (Read Only Memory), RAM (Random Access Memory), static storage device, dynamic storage device, etc. The memory 520 can store the operating system 521 for controlling the operation of the electronic device 500, and the basic input / output system (BIOS) for controlling the low-level operations of the electronic device 500. Additionally, it can store a web browser 523, a data storage management system 524, and a card customization processing system 525, etc. The aforementioned card customization processing system 525 can be the application program that specifically implements the aforementioned steps in this embodiment. In summary, when implementing the technical solution provided in this application through software or firmware, the relevant program code is stored in the memory 520 and executed by the processor 510.

[0057] Input / output interface 513 is used to connect input / output modules to realize information input and output. Input / output modules can be configured as components in the device (not shown in the figure) or externally connected to the device to provide corresponding functions. Input devices may include keyboards, mice, touch screens, microphones, various sensors, etc., and output devices may include displays, speakers, vibrators, indicator lights, etc.

[0058] Network interface 514 is used to connect a communication module (not shown in the figure) to enable communication between this device and other devices. The communication module can communicate via wired means (such as USB, Ethernet cable, etc.) or wireless means (such as mobile network, WIFI, Bluetooth, etc.).

[0059] Bus 530 includes a pathway for transmitting information between various components of the device, such as processor 510, video display adapter 511, disk drive 512, input / output interface 513, network interface 514, and memory 520.

[0060] It should be noted that although the above-described device only shows the processor 510, video display adapter 511, disk drive 512, input / output interface 513, network interface 514, memory 520, bus 530, etc., in specific implementations, the device may also include other components necessary for normal operation. Furthermore, those skilled in the art will understand that the above-described device may only include the components necessary for implementing the solution of this application, and does not necessarily include all the components shown in the figures.

[0061] As can be seen from the above description of the embodiments, those skilled in the art can clearly understand that this application can be implemented by means of software plus necessary general-purpose hardware platforms. Based on this understanding, the technical solution of this application, in essence, or the part that contributes to the prior art, can be embodied in the form of a software product. This computer software product can be stored in a storage medium, such as ROM / RAM, magnetic disk, optical disk, etc., and includes several instructions to cause a computer device (which may be a personal computer, server, or network device, etc.) to execute the methods described in various embodiments or some parts of the embodiments of this application.

[0062] The various embodiments in this specification are described in a progressive manner. Similar or identical parts between embodiments can be referred to mutually. Each embodiment focuses on describing the differences from other embodiments. In particular, for system or system embodiments, since they are basically similar to method embodiments, the description is relatively simple, and relevant parts can be referred to the descriptions in the method embodiments. The systems and system embodiments described above are merely illustrative. The units described as separate components may or may not be physically separate. The components shown as units may or may not be physical units; that is, they may be located in one place or distributed across multiple network units. Some or all of the modules can be selected to achieve the purpose of this embodiment according to actual needs. Those skilled in the art can understand and implement this without creative effort.

[0063] The all-in-one machine, the method for customizing value certificate carrier cards, and the electronic equipment provided in this application have been described in detail above. Specific examples have been used to illustrate the principles and implementation methods of this application. The descriptions of the above embodiments are only for the purpose of helping to understand the method and core ideas of this application; at the same time, those skilled in the art will recognize that, based on the ideas of this application, there will be changes in the specific implementation methods and application scope. Therefore, the content of this specification should not be construed as a limitation of this application.

Claims

1. An all-in-one device, characterized in that, The all-in-one device is used for customizing value certificate carrier cards, and includes a computer module, a card-making machine module, and a control system. The computer module and the card-making machine module share the same control system. The computer module is used to run the target application, which is used to provide a customized interactive interface to receive user operation instructions to generate customized images and provide printing operation options. After receiving a printing request through the printing operation options, the printing request is submitted to the control system. The control system is used to send the customized image and printing instructions to the card making machine module; The card-making machine module is used to receive the customized image and the printing instruction, and then print the customized image onto the surface of the value certificate carrier card to complete the card making and output the target value certificate carrier card.

2. The all-in-one machine according to claim 1, characterized in that, The target application in the computer module is specifically used to generate customized images that conform to the semantics of the text information based on the text information input or selected by the user, using an artificial intelligence (AI) generative model.

3. The all-in-one machine according to claim 1, characterized in that, The target application in the computer module is specifically used to provide a canvas interface to generate the customized image based on the image drawing creation information made by the user through the canvas interface.

4. The all-in-one machine according to claim 3, characterized in that, The target application in the computer module, while providing the canvas interface, also provides a material library so that users can select and use the materials they need during the image drawing and creation process.

5. The all-in-one machine according to claim 3, characterized in that, The target application in the computer module also provides an AI enhancement option when offering the canvas interface, so as to enhance the user's image drawing creation results using an AI generative model.

6. The integrated machine according to any one of claims 1 to 5, characterized in that, The target application in the computer module is also used to select the face value of the value certificate carrier card.

7. A method for customizing and processing value certificate carrier cards, characterized in that, The method is applied to a target application running within the computer module of an all-in-one device, including: Offers a customizable user interface; The interactive interface receives user commands to generate customized images and provides printing options. After receiving a print request through the print operation option, the customized image and print request are submitted to the control system in the all-in-one device. The control system then sends the customized image and print instruction to the card making module in the all-in-one device, so that the card making module can print the customized image onto the surface of the value certificate carrier card to complete the card making and output the target value certificate carrier card.

8. The method according to claim 7, characterized in that, The step of receiving user operation instructions through the interactive interface to generate a customized image includes: Based on the text information input or selected by the user, a customized image that conforms to the semantics of the text information is generated through an AI generative model.

9. The method according to claim 7, characterized in that, The step of receiving user operation instructions through the interactive interface to generate a customized image includes: A canvas interface is provided to generate the customized image based on the image drawing creation information provided by the user through the canvas interface.

10. A computer-readable storage medium having a computer program stored thereon, characterized in that, When executed by a processor, the program implements the steps of the method described in any one of claims 7 to 9.

11. An electronic device, characterized in that, include: One or more processors; as well as A memory associated with the one or more processors, the memory being used to store program instructions that, when read and executed by the one or more processors, perform the steps of the method according to any one of claims 7 to 9.

12. A computer program product comprising a computer program / computer-executable instructions, characterized in that, When the computer program / computer-executable instructions are executed by a processor in an electronic device, they implement the steps of the method according to any one of claims 7 to 9.