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CN-122008558-A - Printing control method and 3D printing cabinet

CN122008558ACN 122008558 ACN122008558 ACN 122008558ACN-122008558-A

Abstract

The invention relates to the technical field of additive manufacturing, in particular to a printing control method and a 3D printing cabinet, wherein the printing control method provides the 3D printing cabinet, the 3D printing cabinet comprises a cabinet body, 3D printing equipment and a transfer module, the 3D printing cabinet is arranged in the cabinet body, the cabinet body is provided with a display area, the display area comprises a plurality of display windows which are arranged at intervals, the method comprises the steps of determining the optimal display windows from all the display windows, controlling the transfer module to take out a bottom plate in the optimal display windows and transfer the bottom plate to the 3D printing equipment, controlling the 3D printing equipment to generate target products, and controlling the transfer module to transfer the bottom plate in the 3D printing equipment and the target products on the bottom plate back to the optimal display windows. The invention mainly aims to provide a printing control method which aims at realizing a full-automatic flow of printing, transferring and displaying of products.

Inventors

  • Guan Yixiu
  • ZHANG YONGQIANG
  • NIU XINGLIN
  • WANG XIN
  • LIU XUEXIN

Assignees

  • 潍坊路加精工有限公司

Dates

Publication Date
20260512
Application Date
20260331

Claims (10)

  1. 1. A print control method is characterized by providing a 3D printing cabinet (100), the 3D printing cabinet (100) comprises a cabinet body (10), a 3D printing device (20) arranged in the cabinet body (10) and a transfer module (30), the cabinet body (10) has a display area (10 a), the display area (10 a) comprises a plurality of display windows arranged at intervals, and the method comprises: determining an optimal display window from all the display windows; Controlling the transfer module (30) to take out the bottom plate in the optimal display window and transfer the bottom plate to the 3D printing equipment (20); Controlling the 3D printing device (20) to generate the target product; And controlling the transferring module (30) to transfer the bottom plate in the 3D printing equipment (20) and the target product on the bottom plate back to the optimal display window.
  2. 2. The printing control method according to claim 1, wherein the 3D printing cabinet (100) further comprises a light sensor provided on the transfer module (30), and the step of determining an optimal display window from all the display windows comprises: Controlling the transfer module (30) to scan each display window and acquire the environmental parameters of each display window obtained by the light sensor; An optimal display window is determined from a plurality of the display windows based on each of the environmental parameters and the product parameters of the target product.
  3. 3. The print control method according to claim 2, wherein said step of determining an optimal display window from a plurality of said display windows based on each of said environmental parameter and a product parameter of said target product, comprises: Obtaining matching degree information between the environmental parameters of each display window and the product parameters of the target product based on the environmental parameters and the product parameters; Determining an optimal display window from a plurality of display windows according to the matching degree information; Wherein the environmental parameters include at least one of illumination intensity, color temperature and background color, and the product parameters include at least one of product color, surface glossiness and material light transmittance.
  4. 4. The print control method according to claim 1, wherein the step of controlling the transfer module (30) to transfer the floor in the 3D printing apparatus (20) and the target product located on the floor back to the optimal display window further comprises: After the target product is transferred back to the corresponding display window, acquiring the environmental parameters of the current residual display window; determining a new optimal display window from the currently idle display windows based on the environmental parameters of the currently remaining display windows and the product parameters of the new target products; controlling the transfer module (30) to take out the bottom plate in the new optimal display window and transfer the bottom plate to the 3D printing equipment (20); controlling the 3D printing device (20) to generate a new target product; and controlling the transferring module (30) to transfer the bottom plate in the 3D printing equipment (20) and the current target product on the bottom plate back to the optimal display window.
  5. 5. The print control method according to claim 1, wherein the step of controlling the transfer module (30) to transfer the floor in the 3D printing apparatus (20) and the target product located on the floor back to the optimal display window further comprises: After the target product is transferred back to the corresponding display window, controlling the transfer module (30) to take out a bottom plate from any one of the display windows which are currently remained, and transferring the bottom plate to the 3D printing equipment (20); controlling the 3D printing device (20) to generate a new target product; Acquiring the environmental parameters of the current residual display window in the process of generating a new target product by the 3D printing equipment (20); determining a new optimal display window from the currently idle display windows based on the environmental parameters of the currently remaining display windows and the product parameters of the new target products; controlling the transfer module (30) to take out the bottom plate in the new optimal display window and transfer the bottom plate to the display window from which the bottom plate is taken out before; And controlling the transferring module (30) to transfer the bottom plate in the 3D printing equipment (20) and a new target product positioned on the bottom plate back to the new optimal display window.
  6. 6. A 3D printing cabinet (100) for implementing the printing control method according to any one of claims 1 to 5, wherein the 3D printing cabinet (100) comprises: the cabinet body (10), the said cabinet body (10) has at least one exhibition area (10 a); A 3D printing device (20), wherein the 3D printing device (20) is arranged in the cabinet body (10) and is configured to print a target product, and And the transferring module (30) is arranged in the cabinet body (10) and is configured to transfer the target product to the display area (10 a).
  7. 7. The 3D printing cabinet (100) according to claim 6, wherein the cabinet body (10) comprises a display side (11) and a printing side (12), the display side (11) and the printing side (12) are aligned along a straight line direction, and the transferring module (30) is located between the display side (11) and the printing side (12); The display side (11) is provided with the display area (10 a), and the printing side (12) is provided with the 3D printing device (20).
  8. 8. The 3D printing cabinet (100) according to claim 6, wherein the 3D printing cabinet (100) further comprises a light sensor provided on the transfer module (30) configured to collect environmental parameters of each of the display windows.
  9. 9. A 3D printing cabinet (100), characterized in that the 3D printing cabinet (100) comprises: the cabinet body (10), the cabinet body (10) is provided with N showing areas (10 a) and N bottom plates, the N showing areas (10 a) comprise a priority placing area and N-1 sequential placing areas, and each sequential placing area is provided with one bottom plate; A 3D printing device (20), wherein the 3D printing device (20) is arranged in the cabinet body (10) and is configured to print target products, the 3D printing device (20) is provided with one bottom plate, and The transferring module (30) is arranged in the cabinet body (10) and is configured to sequentially transfer the bottom plate and the target product in the 3D printing equipment (20) to the priority placement area and the N-1 priority placement areas; Wherein N is a positive integer greater than or equal to 2.
  10. 10. The 3D printing cabinet (100) according to claim 9, wherein the transfer module (30) is further configured to transfer the floor in the in-line placement area into the 3D printing device (20).

Description

Printing control method and 3D printing cabinet Technical Field The invention relates to the technical field of additive manufacturing, in particular to a printing control method and a 3D printing cabinet. Background 3D printing technology, also known as additive manufacturing, is a technology that uses a bondable material such as powdered metal or plastic to construct an object by means of layer-by-layer printing based on a digital model file. However, the existing 3D printing apparatus mainly focuses on realizing basic printing functions in terms of design concept, and its structural layout generally only includes a frame, a printing platform, a driving mechanism, an extruding device, and other core components. The workflow of the device is limited to completing the forming and the manufacturing of the product, and once the printing task is finished, the finished product is regarded as a final product, and the device itself does not have the function of carrying out subsequent processing, displaying or interaction on the printed matter. In practical application, especially in the scenes of product design verification, teaching demonstration or personalized customization demonstration, the user often needs to observe, compare or demonstrate the finished product immediately after printing. Because the existing equipment lacks an integrated display platform or related functional modules, a user has to take out a finished product from the equipment and then additionally find a display space or use an external auxiliary tool, so that the complexity of operation is increased, the continuous flow from manufacturing to display is interrupted, and the requirement that the user obtains visual and complete real-object display experience on a printing site in real time cannot be met. Disclosure of Invention The invention mainly aims to provide a printing control method which aims at realizing a full-automatic flow of printing, transferring and displaying of products. In order to achieve the above object, the printing control method provided by the present invention provides a 3D printing cabinet, the 3D printing cabinet includes a cabinet body, a 3D printing device and a transfer module set in the cabinet body, the cabinet body has a display area, the display area includes a plurality of display windows arranged at intervals, the method includes: determining an optimal display window from all the display windows; Controlling the transfer module to take out the bottom plate in the optimal display window and transferring the bottom plate to the 3D printing equipment; Controlling the 3D printing equipment to generate the target product; And controlling the transfer module to transfer the bottom plate in the 3D printing equipment and the target product positioned on the bottom plate back to the optimal display window. In an embodiment of the present invention, the 3D printing cabinet further includes a light sensor, the light sensor is disposed on the transfer module, and the step of determining an optimal display window from all the display windows includes: Controlling the transfer module to scan each display window and acquiring the environmental parameters of each display window obtained by the light sensor; An optimal display window is determined from a plurality of the display windows based on each of the environmental parameters and the product parameters of the target product. In one embodiment of the present invention, the step of determining an optimal display window from a plurality of display windows based on each of the environmental parameters and the product parameters of the target product includes: Obtaining matching degree information between the environmental parameters of each display window and the product parameters of the target product based on the environmental parameters and the product parameters; Determining an optimal display window from a plurality of display windows according to the matching degree information; Wherein the environmental parameters include at least one of illumination intensity, color temperature and background color, and the product parameters include at least one of product color, surface glossiness and material light transmittance. In an embodiment of the present invention, after the step of controlling the transferring module to transfer the base plate in the 3D printing apparatus and the target product located on the base plate back to the optimal display window, the method further includes: After the target product is transferred back to the corresponding display window, acquiring the environmental parameters of the current residual display window; determining a new optimal display window from the currently idle display windows based on the environmental parameters of the currently remaining display windows and the product parameters of the new target products; controlling the transfer module to take out the bottom plate in the new optimal display window and transferri