WO2015154631A1 - 一种3d打印设计、打印、许可方法,装置以及系统 - Google Patents

一种3d打印设计、打印、许可方法,装置以及系统 Download PDF

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Publication number
WO2015154631A1
WO2015154631A1 PCT/CN2015/075377 CN2015075377W WO2015154631A1 WO 2015154631 A1 WO2015154631 A1 WO 2015154631A1 CN 2015075377 W CN2015075377 W CN 2015075377W WO 2015154631 A1 WO2015154631 A1 WO 2015154631A1
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WIPO (PCT)
Prior art keywords
print
printing
target
permission
file
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PCT/CN2015/075377
Other languages
English (en)
French (fr)
Inventor
陈善席
向光蓉
Original Assignee
华为技术有限公司
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Filing date
Publication date
Application filed by 华为技术有限公司 filed Critical 华为技术有限公司
Priority to JP2016561644A priority Critical patent/JP6288803B2/ja
Priority to EP15776337.6A priority patent/EP3131050A4/en
Priority to KR1020167030292A priority patent/KR20160139027A/ko
Publication of WO2015154631A1 publication Critical patent/WO2015154631A1/zh
Priority to US15/288,821 priority patent/US20170039363A1/en

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C64/00Additive manufacturing, i.e. manufacturing of three-dimensional [3D] objects by additive deposition, additive agglomeration or additive layering, e.g. by 3D printing, stereolithography or selective laser sintering
    • B29C64/30Auxiliary operations or equipment
    • B29C64/386Data acquisition or data processing for additive manufacturing
    • B29C64/393Data acquisition or data processing for additive manufacturing for controlling or regulating additive manufacturing processes
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F21/00Security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
    • G06F21/30Authentication, i.e. establishing the identity or authorisation of security principals
    • G06F21/44Program or device authentication
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C67/00Shaping techniques not covered by groups B29C39/00 - B29C65/00, B29C70/00 or B29C73/00
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B33ADDITIVE MANUFACTURING TECHNOLOGY
    • B33YADDITIVE MANUFACTURING, i.e. MANUFACTURING OF THREE-DIMENSIONAL [3-D] OBJECTS BY ADDITIVE DEPOSITION, ADDITIVE AGGLOMERATION OR ADDITIVE LAYERING, e.g. BY 3-D PRINTING, STEREOLITHOGRAPHY OR SELECTIVE LASER SINTERING
    • B33Y10/00Processes of additive manufacturing
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B33ADDITIVE MANUFACTURING TECHNOLOGY
    • B33YADDITIVE MANUFACTURING, i.e. MANUFACTURING OF THREE-DIMENSIONAL [3-D] OBJECTS BY ADDITIVE DEPOSITION, ADDITIVE AGGLOMERATION OR ADDITIVE LAYERING, e.g. BY 3-D PRINTING, STEREOLITHOGRAPHY OR SELECTIVE LASER SINTERING
    • B33Y30/00Apparatus for additive manufacturing; Details thereof or accessories therefor
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B33ADDITIVE MANUFACTURING TECHNOLOGY
    • B33YADDITIVE MANUFACTURING, i.e. MANUFACTURING OF THREE-DIMENSIONAL [3-D] OBJECTS BY ADDITIVE DEPOSITION, ADDITIVE AGGLOMERATION OR ADDITIVE LAYERING, e.g. BY 3-D PRINTING, STEREOLITHOGRAPHY OR SELECTIVE LASER SINTERING
    • B33Y50/00Data acquisition or data processing for additive manufacturing
    • B33Y50/02Data acquisition or data processing for additive manufacturing for controlling or regulating additive manufacturing processes
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/18Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form
    • G05B19/4097Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form characterised by using design data to control NC machines, e.g. CAD/CAM
    • G05B19/4099Surface or curve machining, making 3D objects, e.g. desktop manufacturing
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F21/00Security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
    • G06F21/60Protecting data
    • G06F21/62Protecting access to data via a platform, e.g. using keys or access control rules
    • G06F21/6209Protecting access to data via a platform, e.g. using keys or access control rules to a single file or object, e.g. in a secure envelope, encrypted and accessed using a key, or with access control rules appended to the object itself
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q50/00Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
    • G06Q50/04Manufacturing
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B2219/00Program-control systems
    • G05B2219/30Nc systems
    • G05B2219/49Nc machine tool, till multiple
    • G05B2219/490233-D printing, layer of powder, add drops of binder in layer, new powder
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F2221/00Indexing scheme relating to security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
    • G06F2221/21Indexing scheme relating to G06F21/00 and subgroups addressing additional information or applications relating to security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
    • G06F2221/2141Access rights, e.g. capability lists, access control lists, access tables, access matrices
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P80/00Climate change mitigation technologies for sector-wide applications
    • Y02P80/40Minimising material used in manufacturing processes
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P90/00Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
    • Y02P90/30Computing systems specially adapted for manufacturing

Definitions

  • the present invention relates to the field of 3D printing technologies, and in particular, to a 3D printing design, printing, licensing method, device and system.
  • 3D printing which is different from the printing of the paper on the plane of the paper, and the manufacturing of the product by means of milling and the like in the conventional way, is a series of techniques and methods for completing the manufacture of articles by stereoscopic layer-by-layer printing.
  • the specific implementation method is as follows: the computer three-dimensional design model is used as the blueprint, and the special materials such as metal powder, ceramic powder, plastic, cell tissue, etc. are layer by layer through software layered discrete and numerical control molding system, using laser beam and hot melt nozzle. Stacking and bonding, and finally superimposed to create a physical product.
  • 3D printing Compared with the traditional method of manufacturing, 3D printing has many advantages, such as simplifying the process flow, making objects with more complicated spatial shapes, and saving raw materials. Therefore, in recent years, 3D printing technology has developed rapidly and has been applied in many fields. Commodities, food, chemicals, automobiles, medical supplies... The items manufactured by 3D printing have penetrated into various fields of people's lives.
  • Embodiments of the present invention provide a 3D printing design, printing, licensing method, device, and system, It can realize the control of target products, solve the problem that the production of high-risk goods is difficult to control, and guarantee social stability and personal safety of citizens.
  • a first aspect of the embodiments of the present invention provides a 3D printing design method, including:
  • the 3D printing design system determines the target print file
  • the 3D printing design system determines whether the target print file meets a first safety standard
  • the 3D print design system transmits the target print file to the 3D printing system such that the 3D printing system prints according to the target print file.
  • the determining, by the 3D printing design system, whether the target print file meets the first security standard includes:
  • the 3D printing design system acquires a target product attribute corresponding to the target print file
  • the 3D printing design system acquires a target product category corresponding to the target print file according to the target product attribute
  • the target product attributes include: raw material type information of the target product, raw material precision information of the target product, and manufacture of the target product Process information, spatial shape information of the target product, or usage information of the target product, the target product category being used to indicate a classification of the target print file, the target product category being used to indicate a classification of the target print file;
  • the 3D printing design system determines whether the target print file satisfies the first security standard according to the correspondence between the product category and the first security standard.
  • the product category includes: a security product, a non-security product
  • the 3D printing design system determines whether the target printing file meets the first security standard according to the correspondence between the product category and the first security standard, and if the target product category is a security product, the 3D printing design system Determining that the target print file satisfies a first security standard, and if the target product category is a non-security product, the 3D print design system determines that the target print file does not satisfy the first security standard.
  • the third implementation manner of the first aspect of the embodiment of the present invention further includes:
  • the 3D print design system determines that the target print file does not satisfy the first security mark If the third party print design system sends the first license request information to the print permission center;
  • the 3D print design system determines whether a first print license sent by the license center is received, and the first print license is sent by the license center when the first license request information satisfies a second security standard, the first The second security standard is a criterion for the license center to determine whether the print file corresponding to the received request information is secure;
  • the 3D print design system sends the target print file to the 3D printing system, so that the 3D printing system prints the file according to the target. Print it.
  • the fourth implementation manner of the first aspect of the embodiment of the present invention further includes:
  • the 3D print design system receives a pre-judgment print permission sent by the license center;
  • the 3D print design system determines whether a pre-judgment print permission corresponding to the target print file is saved, and if so, The 3D print design system transmits the target print file to the 3D printing system, and if not, the 3D print design system transmits the first license request information to the print permission center.
  • the fifth implementation manner of the first aspect of the embodiment of the present invention further includes:
  • the 3D print design system acquires a target server address from the print permission center, and the target server address is an address of the target server;
  • the 3D print design system accesses the target server address and downloads an update file from the target server;
  • the 3D printing design system updates a correspondence between the product category and the first security standard according to the update file.
  • a second aspect of the embodiments of the present invention provides a 3D printing method, including:
  • the 3D printing system acquires the target print file
  • the 3D printing system determines whether a second print permission sent by the print permission center is received
  • the third printing system prints the target print file if a second print permission sent by the print permission center is received.
  • a third aspect of the embodiments of the present invention provides a 3D printing method, including:
  • the 3D printing system acquires the target print file
  • the 3D printing system prints the target print file if the target print file meets the third security standard.
  • the determining, by the 3D printing design system, whether the target print file meets the third security standard includes:
  • the 3D printing system acquires a target product attribute corresponding to the target print file
  • the 3D printing system acquires a target product category corresponding to the target print file according to the target product attribute, where the target product attributes include: raw material type information of the target product, raw material precision information of the target product, and manufacturing process of the target product Flow information, spatial shape information of the target product, or use information of the target product, the target product category being used to indicate a classification of the target print file;
  • the 3D printing system determines whether the target print file satisfies the third security standard according to the correspondence between the product category and the third security standard.
  • the product category includes: a security product, a non-security product
  • Determining, by the 3D printing system, whether the target print file meets the third security standard according to the correspondence between the product category and the third security standard comprises: if the target product category is a security product, the 3D printing system determines The target print file satisfies a third security standard. If the target product category is a non-security product, the 3D printing system determines that the target print file does not meet the third security standard.
  • the third implementation manner of the third aspect of the embodiment of the present invention further includes:
  • the 3D printing system determines that the target print file does not satisfy the third security standard, the 3D printing system sends second permission request information to the print permission center;
  • the 3D printing system If the 3D printing system receives the third print permission sent by the license center, the 3D printing system prints the target print file.
  • the fourth implementation manner of the third aspect of the embodiment of the present invention further includes:
  • the 3D printing system receives a pre-judgment print permission sent by the license center;
  • the method further includes: if the 3D printing system determines that the target print file does not meet the third security standard, the 3D printing system determines whether the 3D printing system saves a pre-judgment print permission corresponding to the target print file, and if so, the 3D printing system prints the target print file, and if not, triggers the 3D printing system to transmit the second license request information to the print permission center .
  • the fifth implementation manner of the third aspect of the embodiment of the present invention further includes:
  • the 3D printing system acquires a target server address from the print permission center, and the target server address is an address of a target server;
  • the 3D printing system accesses the target server address and downloads an update file from the target server;
  • the 3D printing system updates a correspondence between the product category and a third security standard according to the update file.
  • a fourth aspect of the embodiments of the present invention provides a 3D printing permission method, including:
  • the print permission center receives the first license request information sent by the 3D print design system
  • the print permission center determines whether the first license request information satisfies a second security standard, and the second security standard is a criterion for the license center to determine whether the print file corresponding to the received request information is secure;
  • the print license center sends a first print license to the 3D print design system, the first print license is used to: allow the 3D print design system to The target print file corresponding to the first license request information is sent to the 3D printing system.
  • the printing permission center determining whether the first permission request information meets the second security standard comprises:
  • the print permission center determines whether the first license request information is based on a target product attribute corresponding to the first license request information, a target product category, or a security level of a 3D print design system that transmits the first license request information.
  • a second safety standard is met that is used to indicate the security of the 3D printing design system.
  • the print permission center determines whether the first permission request information is Before meeting the second safety standard, it also includes:
  • the print permission center acquires the license request category according to the first license request information
  • the print permission center acquires the number of times the print permission center processes the license request information corresponding to the license request category;
  • the print permission center determines whether the number of times the license request information corresponding to the license request category is processed reaches a preset number of times;
  • the print permission center determines that the number of times the license request information corresponding to the license request category is processed reaches a preset number of times, the print license center does not send the first print license to the 3D print design system;
  • the print permission center determines that the number of times the license request information corresponding to the license request category is processed does not reach the preset number of times, triggering the print permission center to determine whether the first license request information satisfies the second security standard .
  • a fifth aspect of the embodiments of the present invention provides a 3D printing permission method, including:
  • the print permission center receives the first license request information sent by the 3D print design system
  • the print permission center determines whether the first license request information satisfies a second security standard, and the second security standard is a criterion for the license center to determine whether the print file corresponding to the received request information is secure;
  • the print permission center sends a second print permission to the 3D printing system, the second print permission is for allowing the 3D printing system to print the The target print file corresponding to the first license request information.
  • the first implementation manner of the fifth aspect of the embodiment of the present invention comprises:
  • the print permission center determines whether the first license request information is based on a target product attribute corresponding to the first license request information, a target product category, or a security level of a 3D print design system that transmits the first license request information.
  • a second safety standard is met that is used to indicate the security of the 3D printing design system.
  • a sixth aspect of the embodiments of the present invention provides a 3D printing permission method, including:
  • the print permission center receives the second license request information sent by the 3D printing system
  • the print permission center determines whether the second license request information satisfies a second security standard, and the second security standard is a criterion for the license center to determine whether the print file corresponding to the received request information is secure;
  • the print permission center sends a third print permission to the 3D printing system, the second print permission is for allowing the 3D printing system to print the The target print file corresponding to the second license request information.
  • the determining, by the printing permission center, whether the second permission request information meets the second security standard includes:
  • Determining, by the print permission center, whether the first license request information is satisfied according to a target product attribute corresponding to the second license request information, a target product category, or a security level of a 3D printing system that sends the second license request information A second security standard for indicating the security of the 3D printing system.
  • a seventh aspect of the embodiments of the present invention provides a 3D printing design apparatus, including:
  • a file determining module for determining a target print file
  • a first security determining module configured to determine whether the target print file meets the first security standard
  • a file sending module configured to: when the first security determining module determines that the target print file meets the first security standard, send the target print file to a 3D printing device, so that the 3D printing device follows the target Print the file for printing.
  • the first security determining module includes:
  • a first attribute obtaining unit configured to acquire a target product attribute corresponding to the target print file
  • a first category obtaining unit configured to acquire, according to the target product attribute, a target product category corresponding to the target print file, where the target product attributes include: raw material type information of the target product, raw material precision information of the target product, and target product Manufacturing process information, spatial shape information of the target product, or usage information of the target product, the target product category being used to indicate the classification of the target printed file;
  • the first security determining unit is configured to determine, according to the correspondence between the product category and the first security standard, whether the target print file meets the first security standard.
  • the device further includes:
  • a first request sending module configured to send first permission request information to the 3D printing permission device when the first security determining unit determines that the target print file does not satisfy the first security standard
  • a first permission judging module configured to determine whether the first print permission sent by the 3D printing permission device is received, the first print permission being determined by the 3D printing permission device to determine that the first permission request information satisfies the second security
  • the second security standard is a criterion for the 3D printing permission device to determine whether the print file corresponding to the received request information is safe
  • the file sending module is further configured to: when the first permission determining module determines that the first printing permission sent by the 3D printing permission device is received, send the target printing file to the 3D printing device, so that the 3D The printing device prints in accordance with the target print file.
  • the device further includes:
  • a first preset storage module configured to receive a pre-judgment print permission sent by the 3D print permission device
  • a first preset determining module configured to: when the first security determining unit determines that the target print file does not meet the first security standard, determine whether the first preset save module saves the target print file Corresponding pre-judgment print permission;
  • the file sending module is further configured to: when the first preset determining module determines that the first preset saving module saves a pre-judgment printing permission corresponding to the target print file, sending the target print file Give a 3D printing device;
  • the first request sending module is further configured to: when the first preset determining module determines that the first preset saving module does not save a pre-judging printing permission corresponding to the target print file, to the 3D printing
  • the license device transmits the first license request information.
  • the apparatus further includes:
  • a first address obtaining module configured to acquire a target server address from the 3D printing permission device, where the target server address is an address of the target server;
  • a first address access module configured to access the target server address, and download an update file from the target server
  • a first standard update module configured to update, according to the update file, a correspondence between the product category and the first security standard.
  • An eighth aspect of the embodiments of the present invention provides a 3D printing apparatus, including:
  • a first file obtaining module configured to acquire a target print file
  • a second license judging module configured to determine whether a second print license sent by the 3D print license device is received
  • the first file printing module is configured to print the target print file when the second license determination module determines that the second print permission sent by the 3D print permission device is received.
  • a ninth aspect of the embodiments of the present invention provides a 3D printing apparatus, including:
  • a second file obtaining module configured to acquire a target print file
  • a second security determining module configured to determine whether the target print file meets a third security standard
  • a second file printing module configured to: when the second security determining module determines that the target print file meets the third security standard, print the target print file.
  • the second security determining module includes:
  • a second attribute obtaining unit configured to acquire a target product attribute corresponding to the target print file
  • a second category obtaining unit configured to acquire, according to the target product attribute, a target product category corresponding to the target print file, where the target product attributes include: raw material type information of the target product, raw material precision information of the target product, and target product Manufacturing process information, spatial shape information of the target product, or usage information of the target product, the target product category being used to indicate the target printing Classification of documents;
  • the second security determining unit is configured to determine, according to the correspondence between the product category and the third security standard, whether the target print file meets the third security standard.
  • the apparatus further includes:
  • a second request sending module configured to: when the second security determining unit determines that the target print file does not meet the third security standard, send second permission request information to the 3D printing permission device;
  • a second license determination module configured to determine whether a third print permission sent by the 3D print permission device is received, the third print permission being determined by the 3D print permission device to determine that the second license request information satisfies a second security
  • the second security standard is a criterion for the 3D printing permission device to determine whether the print file corresponding to the received request information is safe
  • the second file printing module is further configured to: when the second permission determination module determines that the third print permission sent by the 3D printing permission device is received, print the target print file.
  • the device further includes:
  • a second preset storage module configured to receive a pre-judgment print permission sent by the 3D print permission device
  • a second preset determining module configured to determine, when the second security determining unit determines that the target print file does not meet the third security standard, determine whether the second preset save module saves the target print file Corresponding pre-judgment print permission;
  • the second file printing module is further configured to: when the second preset determination module determines that the second preset storage module saves a pre-judgment print permission corresponding to the target print file, printing the target print file;
  • the second request sending module is further configured to: when the second setting determining module determines that the second preset saving module does not save the pre-judging printing permission corresponding to the target printing file, send to the 3D printing permission device Second license request information.
  • the apparatus further includes:
  • a second address obtaining module configured to acquire a target server address from the 3D printing permission device,
  • the target server address is an address of the target server;
  • a second address access module configured to access the target server address, and download an update file from the target server
  • a second standard update module configured to update, according to the update file, a correspondence between the product category and a third security standard.
  • a tenth aspect of the embodiments of the present invention provides a 3D printing permission apparatus, including:
  • a first request receiving module configured to receive first permission request information sent by the 3D printing design apparatus
  • a first criterion judging module configured to determine whether the first license request information satisfies a second security standard, where the second security standard determines whether the print file corresponding to the received request information is safe standard;
  • a first license sending module configured to: when the first criterion determining module determines that the first license request information meets a second security standard, send a first print permission to the 3D print design apparatus, where the first print license is used And: allowing the 3D printing design apparatus to transmit the target print file corresponding to the first license request information to the 3D printing apparatus.
  • the first standard determining module is specifically configured to: target product attributes corresponding to the first permission request information Determining whether the first license request information satisfies a second security standard, the target product category, or a security level of the 3D print design device that sends the first license request information, the security level being used to indicate the 3D print design The safety of the device.
  • the device further includes:
  • a category obtaining module configured to acquire a license request category according to the first license request information
  • a number obtaining module configured to acquire the number of times the 3D printing permission device processes the license request information corresponding to the license request category
  • a number determining module configured to determine whether the number of times the license request information corresponding to the license request category is processed reaches a preset number of times
  • the first criterion judging module is specifically configured to: when the number of times determining module determines that the number of times the license request information corresponding to the license request category is processed does not reach a preset number of times, determine whether the first license request information satisfies Two safety standards.
  • An eleventh aspect of the embodiments of the present invention provides a 3D printing permission apparatus, including:
  • a second request receiving module configured to receive first permission request information sent by the 3D printing design apparatus
  • a second standard determining module configured to determine whether the first permission request information satisfies a second security standard, wherein the second security standard determines whether the print file corresponding to the received request information is secure by the 3D printing permission device Standard
  • a second license sending module configured to: when the second criterion determining module determines that the first license request information meets a second security standard, send a second print permission to the 3D printing device, where the second print permission is used : allowing the 3D printing apparatus to print the target print file corresponding to the first license request information.
  • the second standard determining module is specifically configured to: target according to the first permission request information Determining whether the first license request information satisfies a second security standard, the security level is used to indicate the 3D, the product attribute, the target product category, or a security level of the 3D print design device that sends the first license request information Print design device security.
  • a twelfth aspect of the embodiments of the present invention provides a 3D printing permission apparatus, including:
  • a third request receiving module configured to receive second permission request information sent by the 3D printing device
  • a third standard judging module configured to determine whether the second license request information satisfies a second security standard, where the second security standard determines whether the print file corresponding to the received request information is safe standard;
  • a third license sending module configured to: when the third criterion determining module determines that the second license request information meets a second security standard, send a third print permission to the 3D printing device, where the second print permission is used : allowing the 3D printing apparatus to print the target print file corresponding to the second license request information.
  • the third standard determining module is specifically configured to: target according to the second permission request information Determining whether the second license request information satisfies a second security standard by using a product attribute, a target product category, or a security level of a 3D printing device that transmits the second license request information, the security level being used to indicate the 3D printing The safety of the device.
  • a thirteenth aspect of the embodiments of the present invention provides a 3D printing system, including:
  • a 3D printing design apparatus according to any one of the seventh aspect of the present invention and the first implementation of the seventh aspect.
  • a fourteenth aspect of the embodiments of the present invention provides a 3D printing system, including:
  • a fifteenth aspect of the embodiments of the present invention provides a 3D printing system, including:
  • the 3D printing design apparatus according to any one of the second to fourth implementation manners of the seventh aspect of the present invention, and the first aspect of the eleventh or eleventh aspect of the embodiment of the present invention A 3D printing permission device according to the embodiment, and a 3D printing device according to the eighth aspect of the embodiment of the present invention.
  • a sixteenth aspect of the embodiments of the present invention provides a 3D printing system, including:
  • a 3D printing design apparatus and the 3D printing apparatus according to any one of the ninth aspect of the invention and the first implementation of the ninth aspect.
  • a seventeenth aspect of the embodiments of the present invention provides a 3D printing system, including:
  • the 3D printing system does not directly print the target printing file, but determines whether the target printing file meets the first safety standard, and if satisfied, Print the target print file.
  • the 3D printing system is determined to determine the security of the target printed file, thereby realizing the control of the target product, solving the problem that the production of high-risk articles is difficult to control, and ensuring social stability and personal safety of citizens.
  • FIG. 1 is a flow chart of an embodiment of a 3D printing design method according to an embodiment of the present invention
  • FIG. 2 is a flow chart of another embodiment of a 3D printing design method according to an embodiment of the present invention.
  • FIG. 3 is a flow chart of another embodiment of a 3D printing design method according to an embodiment of the present invention.
  • FIG. 4 is a flow chart of another embodiment of a 3D printing design method according to an embodiment of the present invention.
  • FIG. 5 is a flowchart of another embodiment of a 3D printing design method according to an embodiment of the present invention.
  • FIG. 6 is a flowchart of an embodiment of a 3D printing method according to an embodiment of the present invention.
  • FIG. 7 is a flowchart of another embodiment of a 3D printing method according to an embodiment of the present invention.
  • FIG. 8 is a flowchart of another embodiment of a 3D printing method according to an embodiment of the present invention.
  • FIG. 9 is a flowchart of another embodiment of a 3D printing method according to an embodiment of the present invention.
  • FIG. 10 is a flowchart of another embodiment of a 3D printing method according to an embodiment of the present invention.
  • FIG. 11 is a flow chart of another embodiment of a 3D printing method according to an embodiment of the present invention.
  • FIG. 12 is a flowchart of an embodiment of a 3D printing permission method according to an embodiment of the present invention.
  • FIG. 13 is a flowchart of another embodiment of a 3D printing permission method according to an embodiment of the present invention.
  • FIG. 14 is a flowchart of another embodiment of a 3D printing permission method according to an embodiment of the present invention.
  • FIG. 15 is a flowchart of another embodiment of a 3D printing permission method according to an embodiment of the present invention.
  • 16 is a structural diagram of an embodiment of a 3D printing design apparatus according to an embodiment of the present invention.
  • 17 is a structural diagram of another embodiment of a 3D printing design apparatus according to an embodiment of the present invention.
  • FIG. 18 is a structural diagram of another embodiment of a 3D printing design apparatus according to an embodiment of the present invention.
  • FIG. 19 is a structural diagram of another embodiment of a 3D printing design apparatus according to an embodiment of the present invention.
  • FIG. 20 is a structural diagram of another embodiment of a 3D printing design apparatus according to an embodiment of the present invention.
  • 21 is a structural diagram of an embodiment of a 3D printing designing apparatus, or a 3D printing apparatus, or a 3D printing permission apparatus according to an embodiment of the present invention
  • FIG. 22 is a structural diagram of another embodiment of a 3D printing design apparatus according to an embodiment of the present invention.
  • FIG. 23 is a structural diagram of an embodiment of a 3D printing apparatus according to an embodiment of the present invention.
  • FIG. 24 is a structural diagram of another embodiment of a 3D printing apparatus according to an embodiment of the present invention.
  • 25 is a structural diagram of another embodiment of a 3D printing apparatus according to an embodiment of the present invention.
  • 26 is a structural diagram of another embodiment of a 3D printing apparatus according to an embodiment of the present invention.
  • Figure 27 is a structural diagram showing another embodiment of a 3D printing apparatus according to an embodiment of the present invention.
  • FIG. 28 is a structural diagram of another embodiment of a 3D printing apparatus according to an embodiment of the present invention.
  • 29 is a structural diagram of another embodiment of a 3D printing apparatus according to an embodiment of the present invention.
  • FIG. 30 is a structural diagram of another embodiment of a 3D printing apparatus according to an embodiment of the present invention.
  • Figure 31 is a structural diagram showing an embodiment of a 3D printing permission device according to an embodiment of the present invention.
  • 32 is a structural diagram of another embodiment of a 3D printing permission device according to an embodiment of the present invention.
  • 33 is a structural diagram of another embodiment of a 3D printing permission device according to an embodiment of the present invention.
  • Figure 34 is a structural diagram showing another embodiment of a 3D printing permission device according to an embodiment of the present invention.
  • 35 is a structural diagram of another embodiment of a 3D printing permission device according to an embodiment of the present invention.
  • 36 is a structural diagram of another embodiment of a 3D printing permission device according to an embodiment of the present invention.
  • FIG. 37 is a structural diagram of another embodiment of a 3D printing permission device according to an embodiment of the present invention.
  • 39 is a structural diagram of another embodiment of a 3D printing system according to an embodiment of the present invention.
  • FIG. 40 is a structural diagram of another embodiment of a 3D printing system according to an embodiment of the present invention.
  • 41 is a structural diagram of another embodiment of a 3D printing system according to an embodiment of the present invention.
  • Figure 42 is a block diagram showing another embodiment of a 3D printing system in accordance with an embodiment of the present invention.
  • Embodiments of the present invention provide a 3D printing design method for implementing control of a target product.
  • the embodiment of the present invention also proposes a 3D printing method, a 3D printing permission method, a related device, and a system, which will be separately described below.
  • FIG. 1 The basic process of the 3D printing design method provided by the embodiment of the present invention is shown in FIG. 1 , which mainly includes:
  • 3D printing design system determines the target print file
  • the user When the 3D printing technology is used for the production, the user first designs the target print file through the 3D printing design system. There are many design methods for the target print file, such as designing by computer modeling, etc., which are not limited in the embodiment of the present invention. .
  • the 3D print design system determines the target print file.
  • the target print file is a data format that records the characteristics of the manufacturing target.
  • the format of the target print file is not limited in the embodiment of the present invention.
  • 3D printing design system determines whether the target print file meets the first safety standard
  • the 3D print design system determines whether the target print file meets the first security standard. There are many methods for the 3D print design system to determine whether the target print file meets the first security standard, which will be described in detail in the following embodiments, which is not limited in this embodiment.
  • the 3D print design system sends the target print file to the 3D printing system.
  • the 3D printing design system After designing the target print file, the 3D printing design system The designed target print file is sent to the 3D printing system for printing. Therefore, in this embodiment, if the 3D printing design system determines that the target print file meets the first security standard, the 3D printing design system sends the target print file to the 3D printing system, so that the 3D printing system prints according to the target print file. .
  • the 3D printing design system can send the target printing file to the 3D printing system via the Internet, or can send the target printing file to the 3D printing system through an independent data channel with the 3D printing system, or can copy the data through the disk.
  • the target print file is sent to the 3D printing system, and the target print file may be sent to the 3D printing system in other ways, which is not limited in the embodiment of the present invention.
  • the 3D printing design system may not send the target printing file to the 3D printing system, or may process the target printing file and then send the image to the 3D printing system.
  • Other methods may also be adopted, which will be specifically described in the following embodiments, which are not limited in this embodiment.
  • the target printing file is designed by the 3D printing design system, it is determined whether the target printing file meets the first safety standard, and if the target printing file satisfies the first safety standard, the target printing file is sent to the 3D printing system, so that The 3D printing system prints in accordance with the target print file.
  • the 3D printing design system determines the security of the target printing file, thereby realizing the control of the target product and solving the problem that the production of high-risk items is difficult to control. Social stability and personal safety of citizens.
  • FIG. 1 provides a basic flow of a 3D printing design method provided by an embodiment of the present invention, wherein the 3D printing design system determines whether the file satisfies the first security standard after determining the target print file, and according to the judgment The result determines whether the target print file is sent to the 3D printing system.
  • the following embodiment will further explain how the 3D printing design system determines whether the file satisfies the first security standard on the basis of the embodiment shown in FIG. 1.
  • FIG. 2 another 3D printing design method provided by the present invention is provided.
  • the basic flow of an embodiment includes:
  • 3D printing design system determines the target print file
  • Step 201 is basically the same as step 101, and details are not described herein.
  • 3D printing design system obtains a target product attribute corresponding to the target print file
  • the target print files designed by the 3D printing design system correspond to the target products, such as: if 3D
  • the print design system is designed with the target print file for the car, and the target product corresponding to the target print file is the car.
  • the target product has its own attributes, which can be: raw material type information of the target product, raw material precision information of the target product, manufacturing process information of the target product, spatial shape information of the target product, use information of the target product, It can be other attributes, not limited here.
  • the 3D printing design system acquires the target product attribute corresponding to the target print file.
  • the 3D printing design system acquires a target product category corresponding to the target print file according to the target product attribute;
  • the 3D print design system can obtain the target product category corresponding to the target print file according to the target product attribute, wherein the target product category is used to indicate the classification of the target print file.
  • the target product category corresponding to the target print file according to the target product attribute for example, determining the target product category according to the raw material type of the target product in the target product attribute, and if the raw material type of the target product is iron, The target product category is metal products; if the target product is polyethylene, the target product category is plastic products. Or, the target product category is judged according to the use of the target product in the target product attribute, and if the target product is used for transportation, the target product category is a vehicle; if the target product is used for the liquid, the target product category is a container. .
  • the 3D printing design system can also obtain the target product category corresponding to the target print file according to other attributes of the target product, and can also obtain the target product category corresponding to the target print file according to the attributes of the multiple aspects of the target product, and do not do this here. limited.
  • the category of the target product can also be simply divided into security products and non-safety products.
  • the 3D printing design system knows from the target product attribute that the raw material of the target product contains prohibited raw materials, or the spatial shape of the target product is the shape of a contraband such as a weapon, or the manufacturing process of the target product involves a prohibited The manufacturing process of the product, or the target product is used for behavioral activities that may endanger the safety of citizens' lives and property, and the 3D printing design system determines that the target product category is a non-safety product.
  • the 3D printing design system can also determine the target product category as a non-safe product according to other target product attributes, or determine the target product category as a safety product, which is not limited herein.
  • the 3D printing design system determines whether the target printing file satisfies the first safety standard according to the correspondence between the product category and the first safety standard;
  • the 3D printing design system After the 3D printing design system obtains the target product category corresponding to the target print file, it can further determine whether the target print file meets the first safety standard. Among them, there is a corresponding relationship between the product category and the first safety standard, such as: the metal product corresponds to the first safety standard, and the plastic product does not meet the first standard.
  • the 3D printing design system determines whether the target print file corresponding to the target product category satisfies the first safety standard according to the correspondence between the product category and the first safety standard.
  • the 3D printing design system determines whether the target printing file meets the first security standard according to the correspondence between the product category and the first security standard. If the target product category is a security product, the 3D printing design system determines that the target print file meets the first safety standard, and if the target product category is a non-safety product, the 3D printing design system determines that the target print file does not satisfy the first safety standard.
  • step 205 is performed;
  • step 206 is performed.
  • 3D printing design system sends the target print file to the 3D printing system
  • the target print file is sent to the 3D printing system such that the 3D printing system prints in accordance with the target print file.
  • the 206, 3D print design system performs other operations.
  • the 3D printing design system determines that the target print file does not meet the first security standard, performing other operations, including: the 3D print design system does not send the target print file to the 3D printing system, or the 3D print design system processes the target print file. After being sent to the 3D printing system, it can also be other operations, which will be described in detail in the following embodiments, which are not limited in this embodiment.
  • the data transmission between the 3D printing design system and the 3D printing system may be asymmetrically encrypted.
  • the embodiment makes a refinement on how the 3D printing design system determines whether the target printing file satisfies the first safety standard on the basis of the embodiment shown in FIG. 1 , wherein the 3D printing design system determines the target printing file and obtains The target product attribute corresponding to the target print file, thereby obtaining the target product category corresponding to the target print file, and then determining whether the target print file satisfies the first security standard according to the correspondence between the product category and the first security standard, and if satisfied, the target is The print file is sent to the 3D printing system.
  • the 3D printing design system can judge whether the target printing file satisfies the first safety standard, thereby realizing the control of the target product, solving the problem that the production of high-risk items is difficult to control, and ensuring social stability and personal safety of citizens. .
  • the embodiment shown in Figure 2 provides a method that explains in detail how the 3D print design system determines if the target print file meets the first security criteria. Wherein, after determining the target print file, the 3D print design system determines whether the target print file satisfies the first safety standard, and if yes, sends the target print file to the 3D printing system, and if not, performs other operations. The following embodiment will describe in detail how to perform other operations when the 3D print design system determines that the target print file does not meet the first security standard, see FIG.
  • a basic flow of still another embodiment of the present invention includes:
  • 3D printing design system determines the target print file
  • 3D printing design system obtains a target product attribute corresponding to the target print file
  • the 3D printing design system acquires a target product category corresponding to the target print file according to the target product attribute;
  • the 304 and 3D printing design system determines whether the target printing file satisfies the first safety standard according to the correspondence between the product category and the first safety standard;
  • Steps 301 to 304 are substantially the same as steps 201 to 204, and are not described herein.
  • step 307 is performed; if the 3D print design system determines that the target print file does not meet the first security standard, step 305 is performed.
  • the 3D print design system sends the first license request information to the print permission center.
  • the 3D print design system determines that the target print file does not meet the first security standard, the 3D print design system sends the first license request information to the print license center.
  • the print permission center is configured to determine whether the request information received by the print permission center meets a specific security standard, and if yes, issue a print license corresponding to the file, and the print permission indicates permission.
  • the 3D printing system prints in accordance with the target print file.
  • a complete 3D printing system may contain more than one print license center.
  • the 3D print design system can find a corresponding print license center based on the target print file.
  • the first permission request information is used to request a print permission from the print permission center, and the first license request information may include: a target print file, or a target product attribute, or a target product category, or other information, where not Make a limit.
  • the 3D print design system determines whether the first print license sent by the license center is received.
  • the print license center After the 3D print design system sends the first license request information to the print license center, the print license center will determine whether the first license request information satisfies the second security standard, and if so, send the first print license to the 3D print design system.
  • the 3D print design system determines whether the first print license sent by the license center is received.
  • the second security standard is a criterion for the license center to determine whether the print file corresponding to the received request information is secure.
  • the print permission center determines that the first license request information meets the second security standard, and performs step 307;
  • the print permission center determines that the first license request information does not meet the second security standard, and performs step 308;
  • 3D printing design system sends the target print file to the 3D printing system
  • the 3D print design system determines that the target print file meets the first security standard, or determines that the first print license sent by the license center is received, the 3D print design system transmits the target print file to the 3D printing system, so that the 3D printing system follows the The target print file is printed.
  • the 308, 3D print design system performs other operations.
  • the 3D print design system determines that the target print file does not meet the first security standard, and the 3D print design system determines that the first print license sent by the license center is not received, the 3D print design system performs other operations, including: the 3D print design system does not The target print file is sent to the 3D printing system, or the D print design system processes the target print file and then sends the image to the 3D printing system. Other operations are not limited in this embodiment.
  • the data transmission between the 3D printing design system, the print permission center and the 3D printing system can be asymmetrically encrypted, which affects the security of the target print file.
  • This embodiment explains in detail how the other operations are performed when the 3D print design system determines that the target print file does not satisfy the first security standard.
  • the 3D print design system transmits the first license request information to the print license center, and then determines whether the first print license sent by the license center is received. If the 3D print design system determines that the first print license sent by the license center is received, the print license center determines that the first license request information satisfies the second security standard, and the 3D print design system sends the target print file to the 3D printing system.
  • the 3D printing system is caused to print in accordance with the target print file.
  • the method provided by the embodiment realizes the second discrimination of the security of the target printing file by the 3D printing design system and the printing permission center, thereby realizing the control of the target product, solving the problem that the production of high-risk articles is difficult to control, and ensuring the problem. Social stability and personal safety of citizens.
  • FIG. 3 provides a 3D printing design method in which a print permission center can perform security discrimination on a received file.
  • the following embodiment will provide a new 3D printing design method based on the embodiment shown in Fig. 3, which can reduce the amount of task for the printing permission center to perform security discrimination.
  • a basic process of another embodiment of the present invention includes:
  • the 401, 3D print design system receives the pre-judgment print permission sent by the license center, and saves the pre-judgment print permission;
  • the license center receives the license request sent by one or more 3D printing design systems, so the amount of data received by the license center is very large, and handling more data may cause many problems such as inefficiency of the license center and excessive server load. Therefore, the license center may send the pre-judgment print permission to the 3D print design system, and the pre-judgment print license corresponds to the target print file of the preset type, and may specifically correspond to the target print file having a certain target product attribute, if the pre-judgment The print license corresponds to the target product of the target product is the target print file of the plastic, then the target print file of all the target products of the target product is the target product of the plastic; or the target print file of the target product category, such as the corresponding target The product category is the target print file for security products.
  • the target print file corresponding to the pre-judgment print permission may also be other preset types, which is not limited herein.
  • the 3D print design system receives the pre-judgment print permission sent by the license center and saves the pre-judgment print license.
  • 3D printing design system determines the target print file
  • the 3D printing design system acquires a target product attribute corresponding to the target print file
  • the 404, 3D printing design system acquires a target product category corresponding to the target print file according to the target product attribute;
  • the 3D printing design system determines whether the target printing file satisfies the first safety standard according to the correspondence between the product category and the first safety standard;
  • Steps 402 to 405 are substantially the same as steps 301 to 304, and are not described herein.
  • step 409 is performed; if the 3D print design system determines that the target print file does not satisfy the first security standard, step 406 is performed.
  • the 3D print design system determines whether a pre-judgment print permission corresponding to the target print file is saved.
  • the 3D print design system determines that the target print file does not satisfy the first security standard, it is determined whether a pre-judgment print permission corresponding to the target print file is saved;
  • step 409 is performed;
  • step 407 is performed;
  • the 3D print design system sends the first license request information to the print permission center;
  • the 3D print design system determines that the pre-judgment print permission corresponding to the target print file is not saved, the first license request information is transmitted to the print license center.
  • the print permission center is configured to determine whether the request information received by the print permission center meets the second security standard, and if yes, issue a print permission corresponding to the file, and the print permission indicates that the 3D printing system is allowed to print according to the target print file. print.
  • the first permission request information is used to request a print permission from the print permission center, and the first license request information may include: a target print file, or a target product attribute, or a target product category, or other information, where not Make a limit.
  • the 408, 3D print design system determines whether the first print license sent by the license center is received
  • the print license The center will judge whether the first license request information satisfies the second security standard, and send a print license according to the judgment result.
  • the 3D print design system determines whether the first print license sent by the license center is received.
  • the print permission center determines that the first license request information meets the second security standard, and performs step 409;
  • the print license center determines that the first license request information does not satisfy the second security standard, and performs step 410.
  • the 3D printing design system sends the target print file to the 3D printing system.
  • the 3D print design system if the 3D print design system determines that the target print file satisfies the first security standard, or determines that a pre-judgment print license corresponding to the target print file is saved, or determines that the first print license sent by the license center is received
  • the target print file is sent to the 3D printing system.
  • the 410, 3D print design system performs other operations.
  • the 3D print design system determines that the target print file does not satisfy the first security standard, and determines that the pre-judgment print permission corresponding to the target print file is not saved, and the 3D print design system determines that the first print license sent by the license center is not received
  • the 3D printing design system performs other operations, including: the 3D printing design system does not send the target printing file to the 3D printing system, or the D printing design system processes the target printing file and then sends it to the 3D printing system, or Other operations are not limited in this embodiment.
  • the step 401 may be located after any one of the steps 402 to 405, as long as it is located before the step 406, which is not limited in this embodiment.
  • the data transmission between the 3D print design system, the print permission center, and the 3D printing system may pass through.
  • Asymmetric encryption
  • the embodiment shown in FIG. 4 provides a 3D printing design method that enables the 3D printing design system to perform security discrimination on the target print file based on the pre-judgment print permission.
  • the 3D printing design system determines whether a pre-judgment print permission corresponding to the target print file is saved, and if so, the 3D print design system will The target print file is sent to the 3D printing system. In this way, 3D hits are achieved.
  • the printing design system and the printing permission center discriminate the security of the target printed documents, thereby realizing the control of the target products, solving the problem that the production of high-risk items is difficult to control, and ensuring social stability and personal safety of citizens.
  • the 3D printing design system since the 3D printing design system sends the first permission request information to the print permission center, it is first determined whether the pre-judgment print permission corresponding to the target print file is saved, and if so, the target print file is directly sent to the 3D printing system.
  • the partial security discriminating operation can be completed in the 3D printing design system, which reduces the number of license requests received by the printing permission center and the number of security discriminating operations, thereby reducing the load on the printing license center and improving the security of the target printing file. s efficiency.
  • the embodiment shown in Figure 4 provides a method that can improve the efficiency of discriminating the security of a target print file.
  • the following embodiments will provide another 3D printing design method for improving the accuracy of the target print file security discrimination.
  • FIG. 5 the basic flow of another embodiment provided by the present invention includes:
  • the 3D print design system receives the pre-judgment print permission sent by the license center, and saves the pre-judgment print permission;
  • 3D printing design system determines the target print file
  • the 3D printing design system acquires a target product attribute corresponding to the target print file
  • the 504, 3D printing design system acquires a target product category corresponding to the target print file according to the target product attribute;
  • the 505, 3D printing design system determines whether the target printing file satisfies the first safety standard according to the correspondence between the product category and the first safety standard;
  • Steps 501 to 505 are substantially the same as steps 401 to 405, and are not described herein.
  • step 505 determines in step 505 that the target print file meets the first security standard
  • step 509 is performed; if the 3D print design system determines that the target print file does not satisfy the first security standard, step 506 is performed.
  • the 3D print design system determines whether a pre-judgment print permission corresponding to the target print file is saved.
  • the 3D print design system determines that the target print file does not satisfy the first security standard, it is determined whether a pre-judgment print permission corresponding to the target print file is saved;
  • step 507 is performed;
  • the 507, 3D print design system sends the first license request information to the print permission center;
  • the 508, 3D print design system determines whether the first print license sent by the license center is received
  • Steps 507 and 508 are basically the same as steps 407 and 408, and are not described herein.
  • the print permission center determines that the first license request information meets the second security standard, and performs step 509;
  • the print permission center determines that the first license request information does not satisfy the second security standard, and performs step 510.
  • 3D printing design system sends the target print file to the 3D printing system
  • the 510, 3D print design system performs other operations.
  • Steps 509 and 510 are basically the same as steps 409 and 410, and are not described herein.
  • the 511, 3D print design system obtains the target server address from the print license center;
  • the 3D printing design system can obtain the correspondence between the product category and the first security standard, and determine whether the target printing file satisfies the first security standard according to the correspondence.
  • the correspondence between product categories and the first safety standards may change due to government policies, technological developments, and the like. For example, according to the correspondence between the original product category and the first safety standard, a certain type of tool satisfies the first safety standard, but according to the corresponding relationship between the updated product category and the first safety standard, a certain type of tool satisfies the first safety standard. If the correspondence between the product category and the first security standard changes, but the 3D printing design system does not update the correspondence, the result of the judgment made by the 3D printing design system according to the unupdated correspondence is inaccurate. Therefore, the 3D printing design system needs to update the correspondence between the product category and the first security standard from time to time.
  • the latest correspondence between the product category and the first security standard is saved on the target server, and the 3D printing design system acquires the target server address from the print permission center, and the target server address is the address of the target server.
  • the 512, 3D print design system accesses the target server address and downloads from the target server Update file
  • the 3D print design system After obtaining the target server address from the print permission center, the 3D print design system accesses the target server address and downloads an update file from the target server, where the update file is used to update the correspondence between the product category and the first security standard.
  • the 513, 3D print design system updates the correspondence between the product category and the first security standard according to the update file.
  • the 3D print design system After downloading the update file from the target server, the 3D print design system updates the correspondence between the product category and the first security standard according to the update file.
  • the steps 511 to 513 may also be located before any one of the steps 501 to 510, which is not limited in this embodiment.
  • the steps 511 to 513 can also be performed once every preset time, which is not limited in this embodiment.
  • the data transmission between the 3D print design system, the print permission center, and the 3D printing system may pass through.
  • Asymmetric encryption
  • the embodiment provides a 3D printing design method, wherein the 3D printing design system determines the security of the target printing file according to the correspondence between the product category and the first security standard, and frequently updates the product category and the first security standard. Correspondence relationship.
  • the 3D printing design system and the printing permission center are determined to distinguish the security of the target printing file, thereby realizing the control of the target product, solving the problem that the production of high-risk items is difficult to control, and ensuring social stability and citizens. Personal safety.
  • the 3D printing design system frequently updates the correspondence between the product category and the first security standard
  • the correspondence between the product category acquired by the 3D printing design system and the first security standard is more real-time, according to the product category and the first security.
  • the standard correspondence determines the security of the target print file more accurately and reliably.
  • the 3D print design system receives a pre-judgment print license from the license center and saves the pre-judgment print license.
  • the content of the pre-judgment print permission is that the gun for police use satisfies the pre-judgment print permission, but the gun for military use does not satisfy the pre-judgment print permission.
  • the 3D printing design system determines the target product attributes of the printed document after the design of the print file is completed.
  • the attributes include: the designed product is a gun, the gun has a caliber of 5.8 mm, and the gun is used for military purposes. It can be known from this attribute that the product designed by the printed document is a firearm. Because the firearm has certain harm, the 3D printing design system divides the target product category of the printed document into non-safety products, and determines that the printed file does not meet the requirements. The first safety standard. The 3D print design system then determines whether or not the pre-judgment print permission corresponding to the print file is saved.
  • the 3D print design system determines that the pre-judgment print permission corresponding to the print file is not saved. Therefore, the 3D print design system transmits the first license request information to the print license center, wherein the content of the first license request information is the target product attribute of the print file.
  • the print license center is judged by security that the small gun can be produced, so the print license center sends the first print license to the 3D print design system. After receiving the first print permission, the 3D print design system transmits the print file of the small gun to the 3D printing system.
  • the 3D printing design system obtains the target server address from the license center every time the preset time is long, accesses the target server address, downloads the update file from the target server, and updates the correspondence between the product category and the third security standard according to the update file. relationship.
  • the embodiment shown in Figures 1 through 5 provides a variety of 3D printing design methods that enable control of the target product from the perspective of the 3D printing design system.
  • the following embodiments will provide a 3D printing method, which implements the control of the target product from the perspective of the 3D printing system.
  • FIG. 6 the basic flow of the 3D printing method provided by the embodiment of the present invention includes:
  • 3D printing system obtains a target print file
  • the 3D printing design system is mainly responsible for the design of the target printing file, and the printing operation of the target printing file is mainly performed by the 3D printing system.
  • the 3D printing system first acquires the target print file.
  • the target printing file may be obtained from the 3D printing design system, and the target printing file may be obtained from the printing permission center.
  • the target printing file may also be obtained by other means, which is not limited herein.
  • the 3D printing system determines whether a second print permission sent by the print permission center is received.
  • the 3D printing design system will send the first permission request information to the print permission center.
  • the license center may send the first print license to the 3D printing system without transmitting the first print permission to the 3D printing system.
  • Second print license In this embodiment, the 3D printing system determines whether a second print permission transmitted by the print permission center is received.
  • the target print file is printed.
  • the print permission center determines that the first license request information satisfies the second security standard, that is, the target print file satisfies the second security standard, so the 3D printing The system prints the target print file.
  • the data transmission between the 3D print design system, the print permission center, and the 3D printing system may pass through.
  • Asymmetric encryption
  • the embodiment provides a 3D printing method, in which the 3D printing system acquires the target print file, determines whether the second print permission sent by the print permission center is received, and if the determination result is YES, prints the target print file.
  • the 3D printing system determines the security of the target printing file, thereby realizing the control of the target product, and solving the problem that the production of high-risk items is difficult to control, and ensuring Social stability and personal safety of citizens.
  • the 3D printing system obtained a print file of a small gun from the 3D print design system and received a second print license for the print file from the print license center. The 3D printing system then prints the print file, and the printed target product is a small gun.
  • FIG. 6 provides a 3D printing method in which the 3D printing system performs security discrimination by acquiring a second print permission from a print permission center.
  • the following embodiment will propose another 3D printing method which uses another method for security discrimination.
  • FIG. 7 the basic process of another embodiment of the present invention includes:
  • 3D printing system obtains a target print file
  • the 3D printing design system is mainly responsible for the design of the target print file.
  • the printing operation on the target print file is mainly performed by the 3D printing system.
  • the 3D printing system first acquires the target print file.
  • the target printing file may be obtained from the 3D printing design system, and the target printing file may be obtained from the printing permission center.
  • the target printing file may also be obtained by other means, which is not limited herein.
  • the 3D printing system determines whether the target print file meets the third safety standard
  • the 3D printing system determines whether the target print file meets the third security standard. There are many methods for the 3D printing system to determine whether the target print file meets the third security standard, which will be described in detail in the following embodiments, which is not limited in this embodiment.
  • the 3D printing system determines that the target print file meets the third security standard, the 3D printing system prints the target print file.
  • the 3D printing system determines that the target print file meets the third safety standard, the 3D printing system prints the target print file; if the 3D printing system determines that the target print file does not meet the third safety standard, the 3D print design system may not print the target.
  • the file is printed, and the target print file may be processed and then printed.
  • Other methods may be used, which will be described in detail in the following embodiments, which are not limited in this embodiment.
  • the data transmission between the 3D print design system, the print permission center, and the 3D printing system may pass through.
  • Asymmetric encryption
  • the 3D print manufacturing system determines whether the target print file meets the third security standard, and if the target print file meets the third security standard, prints the target print file.
  • the 3D printing system determines the security of the target printing file by determining whether the target printing file satisfies the third security standard, thereby realizing the control of the target product and solving the production of the high-risk item. Problems that are difficult to control guarantee social stability and personal safety of citizens.
  • FIG. 7 shows a basic flow of the 3D printing method provided by the embodiment of the present invention.
  • the 3D printing system determines whether the file meets the third security standard, and determines according to the determination result. Whether to print the target print file.
  • the following embodiment will further explain how the 3D printing system determines whether the file satisfies the requirements based on the embodiment shown in FIG.
  • the basic process of another embodiment of the 3D printing method provided by the present invention includes:
  • 3D printing system obtains a target print file
  • Step 801 is basically the same as step 701, and details are not described herein.
  • the 802, 3D printing system acquires a target product attribute corresponding to the target print file
  • the target print file corresponds to the target product.
  • the target product has its own attributes, which can be: raw material type information of the target product, raw material precision information of the target product, manufacturing process information of the target product, and spatial shape of the target product.
  • the information, or the purpose information of the target product may also be other attributes, which are not limited herein.
  • the 3D printing system acquires the target product attribute corresponding to the target print file.
  • the 803, 3D printing system acquires a target product category corresponding to the target print file according to the target product attribute;
  • the 3D printing system can obtain the target product category corresponding to the target print file according to the target product attribute, wherein the target product category is used to indicate the classification of the target print file.
  • the criteria for obtaining the target product category corresponding to the target print file according to the target product attribute include: determining the target product category according to the raw material type of the target product in the target product attribute, for example, when the raw material type of the target product is iron
  • the target product category is metal products; if the target product is polyethylene, the target product category is plastic products.
  • the target product category is judged according to the use of the target product in the target product attribute, and if the target product is used for transportation, the target product category is a vehicle; if the target product is used for the liquid, the target product category is a container.
  • the 3D printing system may also obtain the target product category corresponding to the target print file according to other attributes of the target product, and may also obtain the target product category corresponding to the target print file according to the attributes of the multiple aspects of the target product, which is not limited herein. .
  • the category of the target product can also be simply divided into security products and non-safety products.
  • the 3D printing system knows from the target product attribute that the raw material of the target product contains the prohibited raw material, or the spatial shape of the target product is the shape of the contraband such as a weapon, or the manufacturing process of the target product involves the contraband
  • the manufacturing process, or the target product is used for behavioral activities that may endanger the safety of citizens' lives and property, and the 3D printing system determines that the target product category is a non-safety product.
  • the printing system may also determine that the target product category is a non-safe product based on other target product attributes, or determine that the target product category is a security product, which is not limited herein.
  • the 804, 3D printing system determines whether the target print file satisfies the third safety standard according to the correspondence between the product category and the third security standard;
  • the 3D printing system After the 3D printing system obtains the target product category corresponding to the target print file, it can further determine whether the target print file meets the third safety standard. Among them, there is a corresponding relationship between the product category and the third safety standard, such as: the metal product corresponds to the third safety standard, and the plastic product does not meet the third standard.
  • the 3D printing system determines whether the target print file corresponding to the target product category satisfies the first safety standard according to the correspondence between the product category and the third security standard.
  • the 3D printing system determines whether the target print file meets the third security standard according to the correspondence between the product category and the third security standard, including: If the target product category is a security product, the 3D printing system determines that the target print file meets the third security standard. If the target product category is a non-safety product, the 3D printing system determines that the target print file does not meet the third security standard.
  • step 805 is performed;
  • step 806 is performed.
  • the 3D printing system prints the target print file.
  • the target print file is printed.
  • 3D printing system performs other operations.
  • the 3D printing system determines that the target print file does not meet the third security standard, perform other operations, including: the 3D printing system does not print the target print file, or the 3D print design system processes the target print file and then prints, or For other operations, it will be described in detail in the following embodiments, which are not limited in this embodiment.
  • the data transmission between the 3D print design system, the print permission center, and the 3D printing system may pass through.
  • Asymmetric encryption
  • This embodiment refines how the 3D printing system determines whether the target print file satisfies the third security standard based on the embodiment shown in FIG. 7, wherein the 3D printing system determines the target print file and obtains the target print.
  • the target product attribute corresponding to the file thereby obtaining the target product category corresponding to the target print file, and then determining whether the target print file satisfies the third security standard according to the correspondence between the product category and the first security standard, and if yes, printing the target print documents.
  • the 3D printing system can judge whether the target printing file satisfies the third safety standard, thereby realizing the control of the target product, solving the problem that the production of high-risk articles is difficult to control, and ensuring social stability and personal safety of citizens.
  • FIG. 8 provides a method that explains in detail how the 3D printing system determines if the target print file meets the third security standard. After the 3D printing system determines the target print file, it determines whether the target print file meets the third security standard, and if so, prints the target print file, and if not, performs other operations. The following embodiment will describe in detail how to perform other operations when the 3D printing system determines that the target print file does not satisfy the third security standard, see FIG.
  • a basic flow of still another embodiment of the present invention includes:
  • 3D printing system obtains a target print file
  • the 902, 3D printing system acquires a target product attribute corresponding to the target print file
  • the 3D printing system acquires a target product category corresponding to the target print file according to the target product attribute.
  • the 904, 3D printing system determines whether the target print file meets the third safety standard according to the correspondence between the product category and the third security standard;
  • Steps 901 to 904 are substantially the same as steps 801 to 804, and are not described herein.
  • step 907 is performed if the 3D printing system determines in step 904 that the target print file meets the third security standard.
  • step 905 is performed.
  • the 3D printing system sends second permission request information to the print permission center.
  • the 3D printing system determines that the target print file does not meet the third safety standard, then the 3D printing system The second license request information is sent to the print license center.
  • the print permission center is configured to determine whether the request information received by the print permission center meets a specific security standard, and if yes, issue a print permission corresponding to the file, and the print permission indicates that the 3D printing system is allowed to print according to the target print file. print.
  • a complete 3D printing system may contain more than one print license center.
  • the 3D printing system can find a corresponding print license center based on the target print file.
  • the second license request information is used to request a print permission from the print permission center, where the second license request information may include: a target print file, or a target product attribute, or a target product category, or other information, where not Make a limit.
  • the 3D printing system determines whether a second print license sent by the license center is received.
  • the print license center After the 3D printing system sends the second license request information to the print permission center, the print license center will determine whether the second license request information satisfies the second security standard, and if so, send a second print license to the 3D printing system. The 3D printing system determines whether a second print license sent by the license center is received.
  • the print permission center determines that the second license request information meets the second security standard, and performs step 907;
  • step 908 is performed
  • the 3D printing system prints the target print file.
  • the 3D printing system determines that the target print file meets the third security standard, or determines that the second print license sent by the license center is received, the 3D printing system prints the target print file.
  • the 908, 3D printing system performs other operations.
  • the 3D printing system determines that the target print file does not meet the third security standard, or the 3D printing system determines that the second print permission sent by the license center is not received, the 3D printing system performs other operations, including: the 3D printing system does not go to the 3D printing system After the target print file is sent, or the D print manufacturing system processes the target print file and then sends the file to the 3D printing system, other operations may be performed, which is not limited in this embodiment.
  • This embodiment explains in detail how to perform other operations specifically when the 3D printing system determines that the target print file does not satisfy the third security standard.
  • the 3D printing system sends the second license request information to the print permission center, and then determines whether the second print license sent by the license center is received. If the 3D printing system determines that the second print permission sent by the license center is received, the print permission center determines that the second license request information satisfies the second security standard, and the 3D printing system prints the target print file.
  • the method provided in this embodiment realizes the second determination of the security of the target print file by the 3D printing system and the print permission center, and the security determination is performed separately from the 3D printing system or the security center is separately determined by the permission center.
  • the accuracy of the target printing security discrimination is improved by the whole 3D printing process, thereby realizing the control of the target product, solving the problem that the production of high-risk articles is difficult to control, and ensuring social stability and personal safety of citizens.
  • a basic process of another embodiment of the present invention includes:
  • the 301, the 3D printing system receives the pre-judgment print permission sent by the license center, and saves the pre-judgment print permission;
  • the license center receives the license request sent by one or more 3D printing systems, so the amount of data received by the license center is very large, and handling more data may cause many problems such as inefficiency of the license center and excessive server load. Therefore, the license center may send the pre-judgment print permission to the 3D printing system, and the pre-judgment print permission corresponds to the target type print file of the preset type, and may specifically correspond to the target print file having a certain target product attribute, if the pre-judgment prints
  • the target type of the raw material corresponding to the target product is the target print file of the plastic, and the target print file of all the target products is the target print product of the plastic; or the target print file corresponding to the target product category, such as the corresponding target product
  • the target print file corresponding to the pre-judgment print permission may also be other preset types, which is not limited herein.
  • the 3D printing system receives the pre-judgment print permission sent by the license center and saves the pre-judgment print permission.
  • 3D printing system obtains a target print file
  • the 1003, 3D printing system acquires a target product attribute corresponding to the target print file
  • the 1004, 3D printing system acquires a target product category corresponding to the target print file according to the target product attribute;
  • the 1005, 3D printing system determines whether the target print file meets the third safety standard according to the correspondence between the product category and the third safety standard;
  • Steps 1002 to 1005 are substantially the same as steps 901 to 904, and are not described herein.
  • step 1009 is performed
  • step 1006 is performed.
  • the 3D printing system determines whether a pre-judgment print permission corresponding to the target print file is saved.
  • the 3D printing system determines that the target print file does not meet the third security standard, it is determined whether a pre-judgment print permission corresponding to the target print file is saved;
  • step 1009 is performed if the 3D printing system determines that the pre-judgment print permission corresponding to the target print file is saved.
  • step 1007 is performed;
  • the 3D printing system sends second permission request information to the print permission center;
  • the 3D printing system determines that the target print file does not satisfy the third security standard, the 3D printing system transmits the second license request information to the print permission center.
  • the print permission center is configured to determine whether the request information received by the print permission center meets a specific security standard, and if yes, issue a print permission corresponding to the file, and the print permission indicates that the 3D printing system is allowed to print according to the target print file. print.
  • the second license request information is used to request a print permission from the print permission center, where the second license request information may include: a target print file, or a target product attribute, or a target product category, or other information, where not Make a limit.
  • the 1008, 3D printing system determines whether a second print license sent by the license center is received
  • the print license center After the 3D printing system sends the second license request information to the print license center, the print license center It will be judged whether the second license request information satisfies the second security standard, and if so, the second print license is transmitted to the 3D printing system. The 3D printing system determines whether a second print license sent by the license center is received.
  • the print permission center determines that the second license request information meets the second security standard, and performs step 1009;
  • the print permission center determines that the second license request information does not satisfy the second security standard, and performs step 1010.
  • 3D printing system prints the target print file
  • the 3D printing system determines that the target print file satisfies the third security standard, or determines that the pre-judgment print permission corresponding to the target print file is saved, or determines that the second print permission sent by the license center is received, the 3D printing system prints the location The target print file.
  • the 1010, 3D printing system performs other operations.
  • the 3D printing system determines that the target print file does not satisfy the third security standard, and determines that the pre-judgment print permission corresponding to the target print file is not saved, and determines that the second print permission transmitted by the license center is not received, the 3D printing system Performing other operations, including: the 3D printing design system does not send the target print file to the 3D printing system, or the D print design system processes the target print file and then sends the target print file to the 3D printing system, which may also be other operations, this embodiment There is no limit in the middle.
  • the step 1001 may be located after any one of the steps 1002 to 1005, as long as it is before the step 1006, which is not limited in this embodiment.
  • the data transmission between the 3D print design system, the print permission center, and the 3D printing system may pass through.
  • Asymmetric encryption
  • the embodiment shown in Fig. 10 provides a 3D printing method that enables the 3D printing system to perform security discrimination on the target print file based on the pre-judgment print permission.
  • the 3D printing system determines whether a pre-judgment print permission corresponding to the target print file is saved, and if so, the 3D printing system prints the target print file.
  • the 3D printing system and the print permission center are determined to distinguish the security of the target printed file, thereby realizing the control of the target product, solving the problem that the production of high-risk items is difficult to control, and ensuring social stability and citizenship. Safety.
  • the 3D printing system is in the process of printing Before the center sends the second permission request, it is first determined whether the pre-judgment print permission corresponding to the target print file is saved, and if so, the target print file is directly printed, so that part of the security determination operation can be completed in the 3D printing system, and the printing is reduced.
  • the number of license requests received by the license center and the number of security discriminating operations reduce the load on the print license center and improve the efficiency of discriminating the security of the target print file.
  • the embodiment shown in Figure 10 provides a method that can improve the efficiency of discriminating the security of a target print file.
  • the following embodiment will provide another 3D printing method for improving the accuracy of the target print file security discrimination.
  • the basic flow of another embodiment provided by the present invention includes:
  • the 1101, the 3D printing system receives the pre-judgment print permission sent by the license center, and saves the pre-judgment print permission;
  • the 1102, 3D printing system acquires a target print file
  • the 3D printing system acquires a target product attribute corresponding to the target print file.
  • the 3D printing system acquires a target product category corresponding to the target print file according to the target product attribute.
  • the 1105, 3D printing system determines whether the target print file satisfies the third safety standard according to the correspondence between the product category and the third safety standard;
  • Steps 1101 to 1105 are substantially the same as steps 1001 to 1005, and are not described herein.
  • step 1105 the 3D printing system determines that the target print file meets the third security standard, then step 1109 is performed;
  • step 1106 is performed.
  • the 3D printing system determines whether a pre-judgment print permission corresponding to the target print file is saved.
  • the 3D printing system determines that the target print file does not meet the third security standard, it is determined whether a pre-judgment print permission corresponding to the target print file is saved;
  • step 1109 is performed;
  • step 1107 is performed;
  • the 3D printing system sends second permission request information to the print permission center;
  • the 3D printing system determines whether a second print permission sent by the license center is received.
  • Steps 1107 and 1108 are basically the same as steps 1007 and 1008, and are not described herein.
  • step 1109 is performed;
  • the print permission center determines that the second license request information does not satisfy the second security standard, and performs step 1110.
  • the 3D printing system prints the target print file.
  • the 1110, 3D printing system performs other operations.
  • Steps 1109 and 1110 are basically the same as steps 1009 and 1010, and are not described herein.
  • the 1111, 3D printing system obtains a target server address from a print license center
  • the 3D printing system can obtain the correspondence between the product category and the third security standard, and determine whether the target print file meets the third security standard according to the correspondence.
  • the correspondence between product categories and third safety standards may change due to government policies, technological developments, and other reasons. For example, according to the correspondence between the original product category and the third safety standard, a certain type of tool satisfies the third safety standard, but according to the corresponding relationship between the updated product category and the third safety standard, a certain type of tool satisfies the third type. safety standard. If the correspondence between the product category and the third security standard changes, but the 3D printing system does not update the correspondence, the result of the judgment performed by the 3D printing system according to the unupdated correspondence is inaccurate. Therefore, the 3D printing system needs to constantly update the correspondence between the product category and the third security standard.
  • the latest correspondence between the product category and the third security standard is stored on the target server, and the 3D printing system acquires the target server address from the print permission center, and the target server address is the address of the target server.
  • the 3D printing system accesses the target server address, and downloads an update file from the target server.
  • the 3D printing system After obtaining the target server address from the print permission center, the 3D printing system accesses the target server address and downloads an update file from the target server, where the update file is used to update the correspondence between the product category and the third security standard.
  • 3D printing system updates the corresponding category of product category and third safety standard according to the update file system.
  • the 3D printing system After downloading the update file from the target server, the 3D printing system updates the correspondence between the product category and the third security standard according to the update file.
  • the step 1101 may be located after any one of the steps 1102 to 1105, as long as it is before the step 1006, which is not limited in this embodiment.
  • the steps 1111 to 1113 may be preceded by any one of the steps 1101 to 1110, which is not limited in this embodiment.
  • the steps 1111 to 1113 can also be performed once every preset time, which is not limited in this embodiment.
  • the data transmission between the 3D print design system, the print permission center, and the 3D printing system may pass through.
  • Asymmetric encryption
  • the embodiment provides a 3D printing method, wherein the 3D printing system determines the security of the target printing file according to the correspondence between the product category and the first security standard, and frequently updates the correspondence between the product category and the third security standard. .
  • the second discrimination between the 3D printing system and the printing permission center on the security of the target printing file is realized, thereby realizing the control of the target product, solving the problem that the production of high-risk items is difficult to control, and ensuring social stability and Citizens’ personal safety.
  • the 3D printing system frequently updates the correspondence between the product category and the third security standard, the correspondence between the product category acquired by the 3D printing system and the third security standard is more real-time, according to the product category and the third security standard.
  • the correspondence between the correspondence and the security of the target print file is more accurate and credible.
  • the 3D printing system receives a pre-judgment print permission from the license center and saves the pre-judgment print permission.
  • the content of the pre-judgment print permission is that the gun for police use satisfies the pre-judgment print permission, but the gun for military use does not satisfy the pre-judgment print permission.
  • the 3D printing system obtains the print file from the 3D printing design system, and then obtains the target product attribute of the print file, which includes: the designed product is a gun, the gun diameter is 5.8 mm, and the gun is used for the army. Use of things. It can be known from this attribute that the product designed by the print file is a firearm. Because the firearm has certain harm, the 3D printing system divides the target product category of the print file into non-safety products, and determines that the print file does not meet the requirements. Three safety standards. The 3D printing system then determines whether or not the pre-judgment print permission corresponding to the print file is saved.
  • the 3D printing system determines that the pre-judgment print permission corresponding to the print file is not saved. Therefore, the 3D printing system transmits the second license request information to the print license center, wherein the content of the second license request information is the target product attribute of the print file.
  • the print license center is judged by security that the small gun can be produced, so the print license center sends a second print license to the 3D print design system. After receiving the second print permission, the 3D printing system will print the print file, and the obtained target product is a small gun.
  • the 3D printing system acquires the target server address from the license center every time the preset time is long, accesses the target server address, downloads the update file from the target server, and updates the correspondence between the product category and the third security standard according to the update file. .
  • the embodiment shown in Figures 7 through 11 provides a variety of 3D printing methods that enable control of the target product from the perspective of the 3D printing system.
  • the following embodiments will provide a 3D printing permission method, which implements the control of the target product from the perspective of the printing permission center.
  • the basic process of the 3D printing permission method provided by the embodiment of the present invention includes:
  • the print permission center receives the first license request information sent by the 3D print design system
  • the 3D print design system when the 3D print design system determines that the target print file does not meet the first security standard, the 3D print design system sends the first license request information to the print license center.
  • the first license request information is used to request a print permission from the print permission center, and the first license request information may include: a target print file, or a target product attribute, or a target product category, or other information.
  • the print permission center receives the first license request information transmitted by the 3D print design system.
  • the print permission center determines whether the first license request information meets the second security standard
  • the print permission center After receiving the first license request information sent by the 3D print design system, the print permission center determines whether the first license request information satisfies the second security standard.
  • the print license center sends the first print license to the 3D print design system.
  • the print permission center determines that the first license request information satisfies the second security standard, it is considered that the target print file designed by the 3D print design system is relatively secure, and the target print file can be authorized to be printed. Therefore, the print license center sends a first print license to the 3D print design system.
  • the first print permission is for allowing the 3D print design system to transmit the target print file corresponding to the first license request information to the 3D printing system.
  • the print permission center may not send the first print permission to the 3D print design system, and may take other operations, which is not limited in this embodiment.
  • the print permission center may determine, according to the target product attribute corresponding to the first license request information, the target product category, or the security level of the 3D print design system that sends the first license request information, whether the first license request information satisfies the second security standard.
  • the method may be used to determine whether the first permission request information meets the second security standard, which is not limited in this embodiment.
  • the security level is used to indicate the security of the 3D printing design system, and the higher the security level of the 3D printing design system, the more easily the request information sent by the printing permission center is deemed to satisfy the second security standard.
  • the data transmission between the 3D print design system and the print permission center may be asymmetrically encrypted.
  • This embodiment provides a 3D printing permission method that implements control of a target product from the perspective of a print permission center.
  • the print permission center receives the first license request information sent by the 3D print design system, determines whether the first license request information satisfies the second security standard, and if so, sends the first print license to the 3D print design system.
  • the printing permission center determines the security of the target printed file, thereby realizing the control of the target product, solving the problem that the production of high-risk articles is difficult to control, and ensuring social stability and personal safety of citizens.
  • the embodiment shown in Fig. 12 gives a basic flow of a 3D printing permission method which determines the security of the print file by the print permission center by judging whether the first license request information satisfies the second security standard.
  • the following embodiment will provide a new 3D printing permission method, which can further enhance the security control of the print file.
  • FIG. 13 the basic of another embodiment of the present invention is shown. The process includes:
  • the print permission center receives the first license request information sent by the 3D print design system
  • Step 1301 is basically the same as step 1201, and details are not described herein.
  • the print permission center acquires the license request category according to the first license request information
  • the print license center After receiving the first license request information sent by the 3D print design system, the print license center acquires the license request category according to the first license request information.
  • the license request category is used to indicate the classification of the license request information.
  • the license request information can be classified into many types, such as commercial, civil or military according to the purpose; or classified into metal or non-metal according to the raw material classification of the target product; or classified according to other methods.
  • the special license request category may also be the same as the classification of the target product category, or may be different, and is not limited herein.
  • the print permission center acquires the number of times the license request information corresponding to the license request category is processed
  • a print license center needs to process various license request information sent by one or more 3D print design systems or 3D printing systems.
  • the print license center receives these license request information and determines whether the request information meets the second security standard.
  • the concept of the second safety standard is very flexible. For example, for a specific category of less harmful target products, such as controlled knives, the government will allow target products of this category to be circulated in the market in a smaller number, but does not allow a larger number of target products in that category. It is circulating in the market. Therefore, after the print permission center acquires the license request category, the number of times the license request information corresponding to the license request category is processed is acquired.
  • the print permission center to acquire the number of times of the license request information corresponding to the license request category, including: the print license center counts the different types of license request information processed, and each time the license request information is processed, the license is issued.
  • the count value of the license request category corresponding to the request information is incremented by one, and the count result is stored in the memory, and is acquired from the memory when it is necessary to acquire the number of times of the license request information corresponding to the license request category.
  • the number of times that the print permission center obtains the license request information corresponding to the license request category may be other methods, which is not limited in this embodiment.
  • the print permission center determines whether the number of times the license request information corresponding to the license request category is processed reaches a preset number of times;
  • this embodiment In order to limit the target product of a specific category, it can only be circulated in a small amount in the market, this embodiment
  • preset times are set. After the print permission center acquires the number of times the license request information corresponding to the license request category is processed, it is determined whether the acquired number of times has reached the preset number of times.
  • the license request information processed by the print permission center has multiple categories, and accordingly, the preset number does not have to be static.
  • the corresponding target product is the permission request information of the firearms and ammunition
  • the corresponding preset number should be smaller; and the more secure category of the license request information, such as the license request information corresponding to the daily necessities
  • the corresponding preset number should be larger.
  • the license request information of all categories corresponds to the same preset number, or the license request information of several categories corresponds to the same preset number, or the preset times corresponding to the license request information of each category are different.
  • the relationship between the license request information of different categories and the preset number of times may also be other forms, which are not described herein.
  • step 1305 is performed;
  • step 1306 is performed.
  • the print permission center does not send the first print license to the 3D print design system
  • the print permission center determines that the number of times the license request information corresponding to the license request category is processed reaches a preset number of times, it indicates that the print license center has made more license authorization for the license request of the category. In order to prevent the target product corresponding to the license request category from being more produced, the print license center does not send the first print license to the 3D print design system.
  • the print permission center determines whether the first license request information meets the second security standard.
  • the print permission center determines that the number of times the license request information corresponding to the license request category is processed does not reach the preset number of times, the print license center determines whether the first license request information satisfies the second security standard.
  • step 1307 is performed if the print permission center determines that the first license request information meets the second security standard.
  • step 1308 is performed.
  • the print permission center sends a first print license to the 3D print design system.
  • the print permission center determines that the first license request information satisfies the second security standard, it is considered to be 3D
  • the target print file designed by the printing design system is safer and can authorize the printing of the target print file. Therefore, the print license center sends a first print license to the 3D print design system.
  • the first print permission is for allowing the 3D print design system to transmit the target print file corresponding to the first license request information to the 3D printing system.
  • the print permission center performs other operations.
  • the print license center determines that the first license request information does not satisfy the second security standard, the print license center performs other operations, including: the print license center does not send the first print license to the 3D print design system, and may also perform other operations. There is no limit in the example.
  • the data transmission between the 3D print design system, the print permission center, and the 3D printing system may pass through.
  • Asymmetric encryption
  • the print permission center may determine, according to the target product attribute corresponding to the first license request information, the target product category, or the security level of the 3D print design system that sends the first license request information, whether the first license request information satisfies the second security standard.
  • the method may be used to determine whether the first permission request information meets the second security standard, which is not limited in this embodiment.
  • the security level is used to indicate the security of the 3D printing design system, and the higher the security level of the 3D printing design system, the more easily the request information sent by the printing permission center is deemed to satisfy the second security standard.
  • This embodiment provides a 3D printing permission method that implements control of a target product from the perspective of a print permission center.
  • the print permission center receives the first license request information sent by the 3D print design system, determines whether the first license request information satisfies the second security standard, and if so, sends the first print license to the 3D print design system.
  • the printing permission center determines the security of the target printed file, thereby realizing the control of the target product, solving the problem that the production of high-risk articles is difficult to control, and ensuring social stability and personal safety of citizens.
  • the print permission center determines whether the number of times the license request information corresponding to the license request category is processed reaches a preset number of times, if not, the first print license is not sent to the 3D print design system, so that the print license center only presets
  • the license request information within the number of times is authorized and authorized, and the control of the production quantity of the target product is realized, and the security control of the printed file is further strengthened.
  • the print permission center receives the first license request information sent by the 3D print design system, and the first license request information is a target product attribute of the print file, wherein the target product of the print file is a small firearm, and the target attribute includes: a target
  • the product is a gun and the gun has a diameter of 5.8 mm.
  • the gun is used for military purposes.
  • the print license center After receiving the first license request information, the print license center acquires the license request category according to the first license request information, and obtains the license request category as a firearm. Previously, the print permission center processed the license request information of the firearms type a total of 345 times, and did not reach the preset number of times 500 times, so the print permission center judged whether the first license request information satisfies the second safety standard. The criterion is that if the firearm diameter included in the first license request information is less than 6 mm, the second safety standard is considered to be satisfied. Therefore, the print permission center considers that the first license request information satisfies the second security standard, and the print file can be printed. The print license center then sends a first print license to the 3D print design system.
  • a basic flow of still another embodiment of the present invention includes:
  • the print permission center receives the first license request information sent by the 3D print design system
  • the 3D print design system when the 3D print design system determines that the target print file does not meet the first security standard, the 3D print design system sends the first license request information to the print license center.
  • the first license request information is used to request a print permission from the print permission center, and the first license request information may include: a target print file, or a target product attribute, or a target product category, or other information.
  • the print permission center receives the first license request information transmitted by the 3D print design system.
  • the print permission center determines whether the first license request information meets the second security standard
  • the print permission center After receiving the first license request information sent by the 3D print design system, the print permission center determines whether the first license request information satisfies the second security standard.
  • the print permission center determines that the first license request information satisfies the second security standard, the print permission center sends a second print license to the 3D printing system.
  • the print permission center determines that the first license request information satisfies the second security standard, it is considered that the target print file designed by the 3D print design system is relatively secure, and the target print file can be authorized to be printed. Therefore, the print permission center transmits a second print license to the 3D printing system.
  • the second print permission is for allowing the 3D printing system to print a target print file corresponding to the first license request information.
  • the print permission center may not send the second print permission to the 3D print design system, and may take other operations, which is not limited in this embodiment.
  • the data transmission between the 3D print design system, the print permission center, and the 3D printing system may pass through.
  • Asymmetric encryption
  • the print permission center may determine, according to the target product attribute corresponding to the first license request information, the target product category, or the security level of the 3D print design system that sends the first license request information, whether the first license request information satisfies the second security standard.
  • the method may be used to determine whether the first permission request information meets the second security standard, which is not limited in this embodiment.
  • the security level is used to indicate the security of the 3D printing design system, and the higher the security level of the 3D printing design system, the more easily the request information sent by the printing permission center is deemed to satisfy the second security standard.
  • This embodiment provides a 3D printing permission method that implements control of a target product from the perspective of a print permission center.
  • the print permission center receives the first license request information sent by the 3D print design system, determines whether the first license request information satisfies the second security standard, and if yes, sends the first print license to the 3D printing system.
  • the printing permission center determines the security of the target printed file, thereby realizing the control of the target product, solving the problem that the production of high-risk articles is difficult to control, and ensuring social stability and personal safety of citizens.
  • the print permission center receives the first license request information sent by the 3D print design system, and the first license request information is a target product attribute of the print file, wherein the target product of the print file is a small firearm, and the target attribute includes: a target
  • the product is a gun and the gun has a diameter of 5.8 mm.
  • the gun is used for military purposes.
  • the print permission center After receiving the first license request information, the print permission center determines whether the first license request information is Meet the second safety standard. The criterion is that if the firearm diameter included in the first license request information is less than 6 mm, the second safety standard is considered to be satisfied. Therefore, the print permission center considers that the first license request information satisfies the second security standard, and the print file can be printed. The print license center then sends a second print license to the 3D printing system.
  • the license centers each receive the first license request information from the 3D print design system.
  • the license center can also receive the second permission request information from the 3D printing system.
  • the basic process of another embodiment of the present invention includes:
  • the print permission center receives the second license request information sent by the 3D printing system
  • the 3D printing system when the 3D printing system determines that the target print file does not meet the third security standard, the 3D printing system sends the second license request information to the print permission center.
  • the second license request information is used to request a print permission from the print permission center, and the second license request information may include: a target print file, or a target product attribute, or a target product category, or other information.
  • the print permission center receives the second license request information transmitted by the 3D printing system.
  • the print permission center determines whether the second license request information meets the second security standard
  • the print permission center After receiving the second license request information sent by the 3D printing system, the print permission center determines whether the second license request information satisfies the second security standard.
  • the print permission center determines that the second license request information satisfies the second security standard, the print license center sends a third print license to the 3D printing system.
  • the print permission center determines that the second license request information satisfies the second security standard, it is considered that the target print file to be printed by the 3D printing system is relatively secure, and the target print file can be authorized to be printed. Therefore, the print permission center transmits a third print license to the 3D printing system.
  • the third print permission is for allowing the 3D printing system to print a target print file corresponding to the second license request information.
  • the print permission center may not send the second print permission to the 3D printing system, and may take other operations, which is not limited in this embodiment.
  • the print permission center may determine, according to the target product attribute corresponding to the second license request information, the target product category, or the security level of the 3D print design system that sends the second license request information, whether the second license request information satisfies the second security standard.
  • the method may be used to determine whether the second permission request information meets the second security standard, which is not limited in this embodiment.
  • the security level is used to indicate the security of the 3D printing system, and the higher the security level of the 3D printing system, the more easily the request information sent by the printing permission center is deemed to satisfy the second security standard.
  • This embodiment provides a 3D printing permission method that implements control of a target product from the perspective of a print permission center.
  • the print permission center receives the second license request information sent by the 3D print design system, determines whether the second license request information satisfies the second security standard, and if so, sends a third print license to the 3D print design system.
  • the printing permission center determines the security of the target printed file, thereby realizing the control of the target product, solving the problem that the production of high-risk articles is difficult to control, and ensuring social stability and personal safety of citizens.
  • the print permission center receives the second license request information sent by the 3D printing system, where the second license request information is a target product attribute of the print file, wherein the target product of the print file is a small gun, and the target attribute includes: the target product For firearms and guns, the caliber is 5.8 mm and the gun is used for military purposes.
  • the print permission center After receiving the second license request information, the print permission center determines whether the second license request information satisfies the second security standard. The criterion is that if the firearm diameter included in the second license request information is less than 6 mm, the second safety standard is considered to be satisfied. Therefore, the print permission center considers that the second license request information satisfies the second security standard, and the print file can be printed. The print license center then sends a third print license to the 3D printing system.
  • the above embodiment provides various 3D printing design methods, 3D printing methods, and 3D printing permission methods.
  • the following embodiments will describe in detail the apparatus for implementing the above method. For details not described herein, reference may be made to the above methods. Introduction.
  • FIG. 16 Please refer to FIG. 16 for the basic structure of a 3D printing design apparatus 1600 provided by the present invention, which mainly includes:
  • a file determining module 1601, configured to determine a target print file
  • the first security determining module 1602 is configured to determine whether the target print file meets the first security standard
  • a file sending module 1603, configured to: when the first security determining module 1602 determines that the target print file meets the first security standard, send the target print file to the 3D printing device, so that the 3D printing device prints the file according to the target Print it.
  • the first security determining module 1602 determines whether the target print file meets the first security standard, and if the target print file meets the first security standard, the file sending module 1603 targets the target.
  • the print file is sent to the 3D printing device such that the 3D printing device prints in accordance with the target print file.
  • the 3D printing design device determines the security of the target print file, thereby realizing the control of the target product, and solving the problem that the production of high-risk items is difficult to control, and the protection is guaranteed. Social stability and personal safety of citizens.
  • FIG. 16 shows the basic structure of the 3D printing design apparatus provided by the embodiment of the present invention.
  • the first security determining module 1602 determines whether the file satisfies the first
  • the safety standard determines whether to send the target print file to the 3D printing device based on the judgment result.
  • the following embodiment will further refine the first security judgment module based on the embodiment shown in FIG. 16.
  • the basic structure of another embodiment 1700 of the 3D print design apparatus provided by the present invention includes:
  • a file determining module 1701 configured to determine a target print file
  • the first security determining module 1702 is configured to determine whether the target print file meets the first security standard.
  • the first security determining module 1702 includes:
  • the first attribute obtaining unit 17021 is configured to acquire a target product attribute corresponding to the target print file.
  • the first category obtaining unit 17022 is configured to obtain a target product category corresponding to the target print file according to the target product attribute, where the target product attribute includes: raw material type information of the target product, raw material precision information of the target product, and a manufacturing process of the target product. Information, spatial shape information of the target product, or usage information of the target product.
  • the target product category is used to indicate the classification of the target print file;
  • the first security determining unit 17023 is configured to determine, according to the correspondence between the product category and the first security standard, whether the target print file meets the first security standard.
  • the file sending module 1703 is configured to: when the first security determining module 1702 determines that the target print file is full When the first safety standard is met, the target print file is sent to the 3D printing device, so that the 3D printing device prints according to the target print file.
  • the first security determination module is refined on the basis of the embodiment shown in FIG. 16 , wherein after the file determination module 1701 determines the target print file, the first attribute acquisition unit 17021 acquires the target print file correspondingly. The target product attribute, and the first category obtaining unit 17022 acquires the target product category corresponding to the target print file, and then the first security determining unit 17023 determines whether the target print file satisfies the first security according to the correspondence between the product category and the first security standard. The standard, if satisfied, the file sending module 1703 transmits the target print file to the 3D printing device.
  • the 3D printing design device can determine whether the target printing file satisfies the first safety standard, thereby realizing the control of the target product, solving the problem that the production of high-risk articles is difficult to control, and ensuring social stability and personal safety of citizens. .
  • the embodiment shown in Figure 17 provides an apparatus that explains in detail the first security determination module. After the file determining module 1701 determines the target print file, the first security determining unit 17023 determines whether the target print file meets the first security standard. If yes, the file sending module 1703 sends the target print file to the 3D printing device.
  • Another apparatus will be proposed in the following embodiments for describing in detail how to take corresponding actions when the target print file does not satisfy the first security standard, see FIG.
  • a basic structure of still another embodiment 1800 of the present invention includes:
  • a file determining module 1801, configured to determine a target print file
  • the first security determining module 1802 is configured to determine whether the target print file meets the first security standard.
  • the first security determining module 1802 includes:
  • the first attribute obtaining unit 18021 is configured to acquire a target product attribute corresponding to the target print file.
  • the first category obtaining unit 18022 is configured to obtain a target product category corresponding to the target print file according to the target product attribute, where the target product attribute includes: raw material type information of the target product, raw material precision information of the target product, and a manufacturing process of the target product. Information, spatial shape information of the target product, or usage information of the target product.
  • the target product category is used to indicate the classification of the target print file;
  • the first security determining unit 18023 is configured to determine, according to the correspondence between the product category and the first security standard, whether the target print file meets the first security standard.
  • the first request sending module 1803 is configured to: when the first security determining unit 18023 determines that the target print file does not satisfy the first security standard, send the first permission request information to the 3D printing permission device;
  • a first license judging module 1804 configured to determine whether a first print permission sent by the 3D print permission device is received, where the first print permission is sent by the 3D print permission device when the first permission request information meets the second security standard;
  • the file sending module 1805 is configured to: when the first security determining module 1802 determines that the target print file meets the first security standard, or when the first license determining module 1804 determines that the first print permission sent by the 3D printing permission device is received, the target is The print file is sent to the 3D printing device so that the 3D printing device prints in accordance with the target print file.
  • This embodiment explains in detail how the other operations are specifically performed when the 3D print design apparatus determines that the target print file does not satisfy the first security standard. If the first security determination module 1802 determines that the target print file does not satisfy the first security standard, the first request sending module 1803 sends the first permission request information to the 3D print permission device, and the first permission determination module 1804 determines whether it is received. The first print license sent by the 3D printing license device. If the first license determination module 1804 determines that the first print permission sent by the 3D print permission device is received, the 3D print permission device determines that the first license request information satisfies the second security standard, and the file sending module 1805 sends the target print file.
  • the 3D printing device is caused to cause the 3D printing device to print in accordance with the target print file.
  • the method provided by the embodiment realizes the second discrimination of the security of the target print file by the 3D printing design device and the 3D printing permission device, thereby realizing the control of the target product, and solving the problem that the production of the high-risk article is difficult to control, and the protection is ensured. Social stability and personal safety of citizens.
  • the embodiment shown in Fig. 18 provides a 3D printing design apparatus in which the 3D printing permitting apparatus can perform security discrimination on the received file.
  • the following embodiment will provide a new 3D printing design apparatus 1900 based on the embodiment shown in Fig. 18, which can reduce the amount of task for which the 3D printing permitting apparatus performs safety discrimination.
  • the basic structure of still another embodiment 1900 of the present invention includes:
  • the first preset save module 1901 is configured to receive a pre-judgment print permission sent by the 3D print permission device, and save the pre-judgment print permission;
  • a file determining module 1902 configured to determine a target print file
  • the first security determining module 1903 is configured to determine whether the target print file meets the first security standard.
  • the first security determining module 1903 includes:
  • a first attribute obtaining unit 19031 configured to acquire a target product attribute corresponding to the target print file
  • the first category obtaining unit 19032 is configured to obtain, according to the target product attribute, a target product category corresponding to the target print file, where the target product attribute includes: raw material type information of the target product, raw material precision information of the target product, and a manufacturing process of the target product. Information, spatial shape information of the target product, or usage information of the target product.
  • the target product category is used to indicate the classification of the target print file;
  • the first security determining unit 19033 is configured to determine, according to the correspondence between the product category and the first security standard, whether the target print file meets the first security standard;
  • the first preset determining module 1904 is configured to: when the first security determining unit determines that the target print file does not meet the first security standard, determine whether the first preset save module saves a pre-judgment print permission corresponding to the target print file;
  • the first request sending module 1905 is configured to: when the first security determining unit 18023 determines that the target print file does not meet the first security standard, or the first preset determining module determines that the first preset saving module does not save the preset corresponding to the target print file When determining the print permission, transmitting the first license request information to the 3D print permission device;
  • a first license judging module 1906 configured to determine whether a first print permission sent by the 3D print permission device is received, where the first print permission is sent by the 3D print permission device when the first permission request information meets the second security standard;
  • the file sending module 1907 is configured to: when the first security determining module 1903 determines that the target print file meets the first security standard, or when the first permission determining module determines to receive the first print permission sent by the 3D printing permission device, or when the first The preset determination module determines that the first preset save module saves the pre-judgment print permission corresponding to the target print file, and transmits the target print file to the 3D printing device, so that the 3D printing device prints according to the target print file.
  • the embodiment shown in Fig. 19 provides a 3D printing design apparatus that can perform security discrimination on a target print file based on a pre-judgment print permission. If the first security determination unit 19033 determines that the target print file does not satisfy the first security standard, the first preset determination module 1904 determines whether the pre-judgment print permission corresponding to the target print file is saved, and if so, the file sending module 1907 The target print file is sent to the 3D printing device. Through this method, the 3D printing design device and the 3D printing permission device are discriminated against the security of the target printed file, thereby realizing the control of the target product, solving the problem that the production of high-risk articles is difficult to control, and ensuring social stability and citizens’ personal safety.
  • the first preset determination module 1904 first determines whether the pre-judgment print permission corresponding to the target print file is saved, and if so, the file sending module 1907 directly transmits the target print file to the 3D printing device, so that the partial security determination operation is in 3D.
  • the printing design device can be completed, the number of permission requests received by the 3D printing permission device and the number of safety discrimination operations are reduced, thereby reducing the load on the 3D printing permission device and improving the efficiency of discriminating the security of the target print file.
  • the embodiment shown in Fig. 19 provides an apparatus which can improve the efficiency of discriminating the security of a target print file.
  • the following embodiment will provide another 3D print design apparatus 2000 for improving the accuracy of the target print file security discrimination.
  • the basic structure of another embodiment provided by the present invention includes:
  • the first preset storage module 2001 is configured to receive a pre-judgment print permission sent by the 3D print permission device, and save the pre-judgment print permission;
  • a file determining module 2002 configured to determine a target print file
  • the first security determining module 2003 is configured to determine whether the target print file meets the first security standard.
  • the first security judgment module 2003 includes:
  • the first attribute obtaining unit 20031 is configured to acquire a target product attribute corresponding to the target print file
  • the first category obtaining unit 20032 is configured to obtain, according to the target product attribute, a target product category corresponding to the target print file, where the target product attribute includes: raw material type information of the target product, raw material precision information of the target product, and a manufacturing process of the target product. Information, spatial shape information of the target product, or usage information of the target product.
  • the target product category is used to indicate the classification of the target print file;
  • the first security determining unit 20033 is configured to determine, according to the correspondence between the product category and the first security standard, whether the target print file meets the first security standard;
  • the first preset determining module 2004 is configured to: when the first security determining unit determines that the target print file does not meet the first security standard, determine whether the first preset save module saves the pre-judgment print permission corresponding to the target print file;
  • the first request sending module 2005 is configured to: when the first security determining unit 18023 determines that the target print file does not meet the first security standard, or the first preset determining module determines that the first preset saving module does not save the preset corresponding to the target print file When determining the print permission, transmitting the first license request information to the 3D print permission device;
  • the first license determination module 2006 is configured to determine whether the third transmission permission device is received. a print permission, the first print permission being sent when the 3D print permission device determines that the first license request information satisfies the second security standard;
  • the file sending module 2007 is configured to: when the first security determining module 2003 determines that the target print file meets the first security standard, or when the first license determining module determines to receive the first print permission sent by the 3D printing permission device, or when the first The preset determination module determines that the first preset save module saves the pre-judgment print permission corresponding to the target print file, and transmits the target print file to the 3D printing device, so that the 3D printing device prints according to the target print file.
  • a first address obtaining module 2008 configured to acquire a target server address from a 3D printing permission device, where the target server address is an address of the target server;
  • the first address accessing module 2009 is configured to access a target server address, and download an update file from the target server;
  • the first standard update module 2010 is configured to update a correspondence between the product category and the first security standard according to the update file.
  • the embodiment provides a 3D printing design apparatus, wherein the first security determining module 2003 discriminates the security of the target printing file according to the correspondence between the product category and the first security standard, and the first standard updating module 2010 frequently updates the product.
  • the correspondence between the category and the first security standard Through this method, the 3D printing design device and the 3D printing permission device are discriminated against the security of the target printed file, thereby realizing the control of the target product, solving the problem that the production of high-risk articles is difficult to control, and ensuring social stability and Citizens’ personal safety.
  • the first standard update module 2010 frequently updates the correspondence between the product category and the first security standard, the correspondence between the product category used by the first security determination module 2003 and the first security standard is more real-time, according to the product category.
  • the correspondence with the first security standard is more accurate and credible for the security discrimination of the target print file.
  • the first preset save module 2001 receives the pre-judgment print permission from the 3D print license device and saves the pre-judgment print license.
  • the content of the pre-judgment print permission is that the gun for police use satisfies the pre-judgment print permission, but the gun for military use does not satisfy the pre-judgment print permission.
  • the first attribute obtaining unit 20031 acquires the print.
  • the target product attribute of the document which includes: the designed product is a gun, the gun has a caliber of 5.8 mm, and the gun is used for military purposes. It can be known from the attribute that the product designed by the print file is a firearm. Since the firearm has certain harm, the first category acquisition unit 20032 divides the target product category of the print file into non-safety products, and the first safety judgment Unit 20033 determines that the print file does not comply with the first security standard.
  • the first preset determination module 2004 determines whether or not the pre-judgment print permission corresponding to the print file is saved. Since the pre-judgment print permission held by the first preset storage module 2001 permits only the police use and does not permit military use, the first security determination unit 20033 determines that the pre-judgment print permission corresponding to the print file is not saved. Therefore, the first request transmitting module 2005 transmits the first license request information to the 3D print permitting device, wherein the content of the first license request information is the target product attribute of the print file.
  • the 3D printing permission device judges by safety that the small gun can be produced, so the 3D printing permission device transmits the first print permission to the 3D printing design device.
  • the file sending module 2007 transmits the print file of the small gun to the 3D printing device.
  • the second address obtaining module 2008 acquires the target server address from the 3D printing permission device every preset time, the second address accessing module 2009 accesses the target server address, and downloads the update file from the target server.
  • the second standard update module 2010 updates the correspondence between the product category and the third security standard according to the update file.
  • the embodiment of the invention also proposes a 3D printing design device 2100, please refer to FIG. 21:
  • the illustrated 3D print design apparatus 2100 is only one example of the 3D print design apparatus provided by any of the embodiments shown in FIGS. 16 to 20, and the 3D print design apparatus 2100 may have a ratio as shown in the figure. More or fewer components are shown, two or more components may be combined, or may have different component configurations.
  • the various components shown in the figures can be implemented in hardware, software, or a combination of hardware and software, including one or more signal processing and/or application specific integrated circuits.
  • the 3D printing design apparatus includes a memory 2101, a central processing unit (CPU) 2102, a peripheral interface 2103, an RF circuit 2104, an audio circuit 2105, a speaker 2106, and a power management chip 2107. Input/Output (I/O) subsystem 2108, other input/control devices 2109 And an external port 2110 that communicates over one or more communication buses or signal lines 2111.
  • non-3D printing designing device provided in this embodiment is only one example of the 3D printing designing device provided by the embodiment of the present invention, and the 3D printing designing apparatus according to the embodiment of the present invention may have the same as that shown in FIG. More or less components, two or more components may be combined, or may have different component configurations or arrangements, each component may be in hardware including one or more signal processing and/or application specific integrated circuits, Software or a combination of hardware and software implementation.
  • the memory 2101 is configured to store program code and data, and can be accessed by the CPU 2102, the peripheral interface 2103, etc., and the memory 2101 can include a high-speed random access memory, and can also include a non-volatile memory, such as a Or multiple disk storage devices, flash memory devices, or other volatile solid-state storage devices.
  • the CPU 2102 can acquire program code from the memory 2101 and control the actual operation of the circuit such as the RF circuit 2104, the I/O subsystem 2108, and the like according to the acquired program.
  • a peripheral interface 2103 that can connect the input and output peripherals of the device to the CPU 2102 and the memory 2101.
  • the I/O subsystem 2108 can connect input and output peripherals on the device, such as display 2112 and other input/control devices 2109, to peripheral interface 2103.
  • the I/O subsystem 2108 can include a display controller 21081 and one or more input controllers 21082 for controlling other input/control devices 2109.
  • one or more input controllers 21082 receive electrical signals from other input/control devices 2109 or transmit electrical signals to other input/control devices 2109, and other input/control devices 2109 may include physical buttons (press buttons, rocker buttons, etc.) ), dial, slide switch, joystick, click wheel.
  • the input controller 21082 can be connected to any of the following: a keyboard, an infrared port, a USB interface, and a pointing device such as a mouse.
  • Display 2112 The display 2112 is an output interface between the 3D printing design device and the user, displaying the visual output to the user, and the visual output may include graphics, text, icons, video, and the like.
  • Display controller 21081 in I/O subsystem 2108 receives an electrical signal from display 2112 or an electrical signal to display 2112.
  • the display 2112 detects the contact on the touch screen, and the display controller 21081 converts the detected contact into an interaction with the user interface object displayed on the display screen 2112, ie, implements human-computer interaction, the user interface object displayed on the display screen 2112.
  • the device may also include a light mouse, which is a touch sensitive surface that does not display a visual output, or an extension of a touch sensitive surface formed by the touch screen.
  • the RF circuit 2104 is mainly used to establish communication between the 3D printing design device and the wireless network (ie, the network side), and realize data receiving and transmitting of the 3D printing design device and the wireless network. For example, sending and receiving short messages, emails, and the like. Specifically, the RF circuit 2104 receives and transmits an RF signal, which is also referred to as an electromagnetic signal, and the RF circuit 2104 converts the electrical signal into an electromagnetic signal or converts the electromagnetic signal into an electrical signal, and through the electromagnetic signal and communication network and other devices Communicate.
  • an RF signal which is also referred to as an electromagnetic signal
  • RF circuitry 2104 may include known circuitry for performing these functions including, but not limited to, an antenna system, an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC chip Group, Subscriber Identity Module (SIM), etc.
  • an antenna system an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC chip Group, Subscriber Identity Module (SIM), etc.
  • SIM Subscriber Identity Module
  • the audio circuit 2105 is mainly used to receive audio data from the peripheral interface 2103, convert the audio data into an electrical signal, and transmit the electrical signal to the speaker 2106.
  • the speaker 2106 is configured to restore the voice signal received by the 3D printing design device from the wireless network through the RF circuit 2104 to sound and play the sound to the user.
  • the power management chip 2107 is used for power supply and power management of the hardware connected to the CPU 2102, the I/O subsystem, and the peripheral interface.
  • FIG. 22 is a block diagram showing the internal portion of the 3D printing design apparatus.
  • the CPU 2201 is specifically configured to:
  • the correspondence between the product category and the first security standard is updated according to the update file.
  • the RF circuit 2202 is specifically configured to:
  • the memory 2203 is specifically configured to: receive the pre-judgment print permission sent by the 3D print permission device, and save the pre-judgment print permission.
  • the embodiment shown in Figures 16 through 20 provides a variety of 3D printing design devices that enable control of the target product from the perspective of 3D printing design.
  • the following embodiments will provide a 3D printing device 2300, which implements the control of the target product from the perspective of 3D printing.
  • the basic structure of the 3D printing device provided by the embodiment of the present invention includes:
  • the first file obtaining module 2301 is configured to acquire a target print file.
  • a second permission determining module 2302 configured to determine whether a second print permission sent by the 3D printing permission device is received
  • the first file printing module 2303 is configured to print the target print file when the second license determination module 2302 determines that the second print permission sent by the 3D print permission device is received.
  • the embodiment provides a 3D printing device, wherein the first file obtaining module 2301 acquires the target print file, and the second license determining module 2302 determines whether the second print permission sent by the print permission center is received. If the determination result is yes, Then the first file printing module 2303 prints the target print file.
  • the 3D printing system determines the security of the target printing file, thereby realizing the control of the target product, and solving the problem that the production of high-risk items is difficult to control, and ensuring Social stability and personal safety of citizens.
  • the first file acquisition module 2301 obtains a print file of a small gun from the 3D print design apparatus, and the second license determination module 2302 determines that a second print license for the print file is received from the 3D print license apparatus.
  • the first document printing module 2303 then prints the print file, and the printed target product is a small gun.
  • the embodiment of the invention also proposes a 3D printing device, please still refer to FIG. 21:
  • the illustrated 3D printing device 2100 is only one example of the 3D printing device provided by any of the embodiments shown in FIG. 23, and the 3D printing device 2100 may have more than the one shown in the figure. Or fewer parts, you can combine two or more parts, or you can have no Same part configuration.
  • the various components shown in the figures can be implemented in hardware, software, or a combination of hardware and software, including one or more signal processing and/or application specific integrated circuits.
  • the 3D printing apparatus includes a memory 2101, a central processing unit (CPU) 2102, a peripheral interface 2103, an RF circuit 2104, an audio circuit 2105, a speaker 2106, a power management chip 2107, and an input.
  • An output (I/O) subsystem 2108, other input/control devices 2109, and an external port 2110 are communicated via one or more communication buses or signal lines 2111.
  • non-3D printing device provided in this embodiment is only one example of the 3D printing device provided by the embodiment of the present invention, and the 3D printing device according to the embodiment of the present invention may have more or more than that shown in FIG. Fewer components, two or more components may be combined, or may have different component configurations or arrangements, each component may be in hardware, software or hardware including one or more signal processing and/or application specific integrated circuits. Combined with software implementation.
  • the memory 2101 is configured to store program code and data, and can be accessed by the CPU 2102, the peripheral interface 2103, etc., and the memory 2101 can include a high-speed random access memory, and can also include a non-volatile memory, such as a Or multiple disk storage devices, flash memory devices, or other volatile solid-state storage devices.
  • the CPU 2102 can acquire program code from the memory 2101 and control the actual operation of the circuit such as the RF circuit 2104, the I/O subsystem 2108, and the like according to the acquired program.
  • a peripheral interface 2103 that can connect the input and output peripherals of the device to the CPU 2102 and the memory 2101.
  • the I/O subsystem 2108 can connect input and output peripherals on the device, such as display 2112 and other input/control devices 2109, to peripheral interface 2103.
  • the I/O subsystem 2108 can include a display controller 21081 and one or more input controllers 21082 for controlling other input/control devices 2109.
  • one or more input controllers 21082 receive electrical signals from other input/control devices 2109 or transmit electrical signals to other input/control devices 2109, and other input/control devices 2109 may include physical buttons (press buttons, rocker buttons, etc.) ), dial, slide switch, joystick, click wheel.
  • the input controller 21082 can be connected to any of the following: a keyboard, an infrared port, a USB interface, and a pointing device such as a mouse.
  • Display 2112 The display 2112 is an output interface between the 3D printing device and the user, displaying the visual output to the user, and the visual output may include graphics, text, icons, video, and the like.
  • Display controller 21081 in I/O subsystem 2108 receives an electrical signal from display 2112 or an electrical signal to display 2112.
  • the display 2112 detects the contact on the touch screen, and the display controller 21081 converts the detected contact into an interaction with the user interface object displayed on the display screen 2112, ie, implements human-computer interaction, the user interface object displayed on the display screen 2112. It can be an icon for running a game, an icon for networking to a corresponding network, and the like.
  • the device may also include a light mouse, which is a touch sensitive surface that does not display a visual output, or an extension of a touch sensitive surface formed by the touch screen.
  • the RF circuit 2104 is mainly used to establish communication between the 3D printing device and the wireless network (ie, the network side), and implement data reception and transmission between the 3D printing device and the wireless network. For example, sending and receiving short messages, emails, and the like. Specifically, the RF circuit 2104 receives and transmits an RF signal, which is also referred to as an electromagnetic signal, and the RF circuit 2104 converts the electrical signal into an electromagnetic signal or converts the electromagnetic signal into an electrical signal, and through the electromagnetic signal and communication network and other devices Communicate.
  • an RF signal which is also referred to as an electromagnetic signal
  • the RF circuit 2104 converts the electrical signal into an electromagnetic signal or converts the electromagnetic signal into an electrical signal, and through the electromagnetic signal and communication network and other devices Communicate.
  • RF circuitry 2104 may include known circuitry for performing these functions including, but not limited to, an antenna system, an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC chip Group, Subscriber Identity Module (SIM), etc.
  • an antenna system an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC chip Group, Subscriber Identity Module (SIM), etc.
  • SIM Subscriber Identity Module
  • the audio circuit 2105 is mainly used to receive audio data from the peripheral interface 2103, convert the audio data into an electrical signal, and transmit the electrical signal to the speaker 2106.
  • the speaker 2106 is configured to restore the voice signal received by the 3D printing device from the wireless network through the RF circuit 2104 to sound and play the sound to the user.
  • the power management chip 2107 is used for power supply and power management of the hardware connected to the CPU 2102, the I/O subsystem, and the peripheral interface.
  • FIG. 24 is a block diagram showing the internal portion of the 3D printing apparatus.
  • the CPU 2401 is specifically configured to:
  • the RF circuit 2402 is specifically configured to:
  • the I/O subsystem 2403 is specifically configured to:
  • a basic structure of another embodiment of the present invention includes:
  • a second file obtaining module 2501, configured to acquire a target print file
  • the second security determining module 2502 is configured to determine whether the target print file meets the third security standard
  • the second file printing module 2503 is configured to print the target print file when the second security determining module 2502 determines that the target print file meets the third security standard.
  • the second security determining module 2502 determines whether the target print file meets the third security standard, and if the target print file meets the third security standard, the second file is printed.
  • Module 2503 prints the target print file. In this embodiment, by determining whether the target print file satisfies the third security standard, the 3D printing system determines the security of the target print file, thereby realizing the control of the target product and solving the problem that the production of high-risk items is difficult to control. To ensure social stability and the personal safety of citizens.
  • the embodiment shown in FIG. 25 shows the basic structure of the 3D printing apparatus provided by the embodiment of the present invention.
  • the second security determining module 2502 determines whether the file satisfies the third.
  • the second file printing module 2503 determines whether to print the target print file based on the determination result.
  • the following embodiment will further explain how the second security judging module 2502 determines whether the file satisfies the third security standard on the basis of the embodiment shown in FIG. 25.
  • the 3D printing device provided by the present invention further The basic process of an embodiment 2600 includes:
  • a second file obtaining module 2601 configured to acquire a target print file
  • the second security judging module 2602 is configured to determine whether the target print file meets the third security standard.
  • the second security judging module 2602 specifically includes:
  • the second attribute obtaining unit 26021 is configured to acquire a target product attribute corresponding to the target print file.
  • the second category obtaining unit 26022 is configured to obtain a target product category corresponding to the target print file according to the target product attribute, where the target product attributes include: raw material type information of the target product, raw material precision information of the target product, and manufacturing process information of the target product.
  • the spatial shape information of the target product or the usage information of the target product, and the target product category is used to indicate the classification of the target print file;
  • the second security determining unit 26023 is configured to determine, according to the correspondence between the product category and the third security standard, whether the target print file meets the third security standard.
  • the second file printing module 2603 is configured to: when the second security determining module 2602 determines that the target print file meets the third security standard, print the target print file.
  • the 3D printing device determines whether the target print file meets the third security standard.
  • the second attribute obtaining unit 26021 obtains the target print file.
  • the target product attribute, and the second category obtaining unit 26022 acquires the target product category corresponding to the target print file, and then the second security determining unit 26523 determines whether the target print file satisfies the third security according to the correspondence between the product category and the first security standard.
  • the standard, if satisfied, the second file printing module 2603 prints the target print file.
  • the 3D printing device can determine whether the target printed document meets the third safety standard, thereby realizing the control of the target product, solving the problem that the production of high-risk articles is difficult to control, and ensuring social stability and personal safety of the citizens.
  • the embodiment shown in Figure 26 provides a more refined 3D printing device.
  • the second security determining unit 26023 determines whether the target print file satisfies the third security standard, and if so, the second file printing module 2603 prints the target print file.
  • Another 3D printing apparatus 2700 will be proposed in the following embodiments for describing in detail how to perform the corresponding operation when the second security judging unit determines that the target print file does not satisfy the third security standard, see FIG.
  • a basic structure of still another embodiment of the present invention includes:
  • a second file obtaining module 2701 configured to acquire a target print file
  • the second security judging module 2702 is configured to determine whether the target print file meets the third security standard.
  • the second security judging module 2702 specifically includes:
  • a second attribute obtaining unit 27021 configured to acquire a target product attribute corresponding to the target print file
  • the second category obtaining unit 27022 is configured to obtain a target product category corresponding to the target print file according to the target product attribute, where the target product attributes include: raw material type information of the target product, raw material precision information of the target product, and manufacturing process information of the target product.
  • the spatial shape information of the target product or the usage information of the target product, and the target product category is used to indicate the classification of the target print file;
  • the second security determining unit 27023 is configured to determine, according to the correspondence between the product category and the third security standard, whether the target print file meets the third security standard.
  • the second request sending module 2703 is configured to: when the second security determining unit determines that the target print file does not meet the third security standard, send a second permission request letter to the 3D printing permission device. interest;
  • a second license determination module 2704 configured to determine whether a third print permission sent by the 3D print permission device is received, where the third print permission is determined by the 3D print permission device to determine that the second license request information satisfies a second Sent when the safety standard is available;
  • the second file printing module 2705 is specifically configured to: when the second security determining module 2702 determines that the target print file meets the third security standard, or when the second permission determining module determines to receive the third sent by the 3D printing permission device When the license is printed, the target print file is printed.
  • This embodiment explains in detail how to perform other operations specifically when the second security judging unit determines that the target print file does not satisfy the third security standard.
  • the second request sending module 2703 sends the second license request information to the 3D print permitting device, and then the second license determining module 2704 determines whether the device is received.
  • a second print license sent by the 3D printing license device If it is determined that the second print permission transmitted by the 3D print permission device is received, the 3D print permission device determines that the second license request information satisfies the second security standard, and the second file print module 2705 prints the target print file.
  • the method provided in this embodiment realizes the second discrimination of the security of the target print file by the 3D printing device and the 3D printing permission device, and compares the security determination with the 3D printing device alone or the security determination of the 3D printing permission device alone.
  • the accuracy of the target printing security discrimination is improved by the second discrimination, thereby realizing the control of the target product, solving the problem that the production of high-risk items is difficult to control, and ensuring social stability and citizenship. Safety.
  • a basic structure of another embodiment of the present invention includes:
  • the second preset storage module 2801 is configured to receive the pre-judgment print permission sent by the 3D print permission device, and save the pre-judgment print permission;
  • a second file obtaining module 2802 configured to acquire a target print file
  • the second security judging module 2803 is configured to determine whether the target print file meets the third security standard.
  • the second security judging module 2702 specifically includes:
  • a second attribute obtaining unit 28031 configured to acquire a target product attribute corresponding to the target print file
  • the second category obtaining unit 28032 is configured to obtain a target product category corresponding to the target print file according to the target product attribute, where the target product attributes include: raw material type information of the target product, raw material precision information of the target product, and manufacturing process information of the target product.
  • the spatial shape information of the target product or the usage information of the target product, and the target product category is used to indicate the classification of the target print file;
  • the second security determining unit 28033 is configured to determine, according to the correspondence between the product category and the third security standard, whether the target print file meets the third security standard;
  • the second preset determining module 2804 is configured to determine, when the second security determining unit 28033 determines that the target print file does not meet the third security standard, whether the second preset save module saves the pre-judgment print permission corresponding to the target print file. ;
  • the second request sending module 2805 is configured to: when the second security determining unit 28033 determines that the target print file does not meet the third security standard, or when the second setting determining module 2804 determines that the second preset saving module 2801 does not save the target print file Transmitting the second permission request information to the 3D printing permission device when the corresponding pre-judgment print permission is performed;
  • a second permission determining module 2806 configured to determine whether a third print permission sent by the 3D printing permission device is received, where the third print permission is sent by the 3D printing permission device when the second permission request information meets the second security standard;
  • the second file printing module 2807 is specifically configured to: when the second security determining module 2803 determines that the target print file meets the third security standard, or when the second preset determining module 2804 determines that the second preset saving module 2801 is saved and When the target print file corresponds to the pre-judgment print permission, or when the second license determination module 2806 determines that the third print permission transmitted by the 3D print permission device is received, the target print file is printed.
  • the embodiment shown in Fig. 28 provides a 3D printing apparatus which can perform security discrimination on a target print file based on a pre-judgment print permission.
  • the second security determining unit 28033 determines that the target print file does not satisfy the third security standard, and the second preset determining module 2804 determines whether the pre-judging print permission corresponding to the target print file is saved, and if so, the second file printing module 2807 prints the target print file.
  • the 3D printing device and the 3D printing permission device realize the second discrimination of the target printing file security, thereby realizing the control of the target product, solving the problem that the production of high-risk articles is difficult to control, and ensuring social stability. Personal safety with citizens.
  • the second preset determination module 2804 determines whether the pre-judgment print permission corresponding to the target print file is saved, If yes, the second file printing module 2807 directly prints the target print file, so that the partial security determination operation can be completed by the second preset determination module 2804, reducing the number of permission requests and the number of security determination operations received by the 3D printing permission device, thereby reducing The load of the 3D printing license device improves the efficiency of discriminating the security of the target print file.
  • FIG. 28 provides an apparatus which can improve the efficiency of discriminating the security of the target print file.
  • the following embodiment will provide another 3D printing device 2900 for improving the accuracy of the target print file security discrimination.
  • the basic structure of another embodiment provided by the present invention includes:
  • the second preset storage module 2901 is configured to receive the pre-judgment print permission sent by the 3D print permission device, and save the pre-judgment print permission;
  • a second file obtaining module 2902 configured to acquire a target print file
  • the second security judging module 2903 is configured to determine whether the target print file meets the third security standard.
  • the second security judging module 2702 specifically includes:
  • a second attribute obtaining unit 29031 configured to acquire a target product attribute corresponding to the target print file
  • the second category obtaining unit 29032 is configured to obtain a target product category corresponding to the target print file according to the target product attribute, where the target product attributes include: raw material type information of the target product, raw material precision information of the target product, and manufacturing process information of the target product.
  • the spatial shape information of the target product or the usage information of the target product, and the target product category is used to indicate the classification of the target print file;
  • the second security determining unit 29033 is configured to determine, according to the correspondence between the product category and the third security standard, whether the target print file meets the third security standard;
  • the second preset determining module 2904 is configured to determine, when the second security determining unit 29033 determines that the target print file does not meet the third security standard, whether the second preset save module saves the pre-judgment print permission corresponding to the target print file. ;
  • the second request sending module 2905 is configured to: when the second security determining unit 29033 determines that the target print file does not satisfy the third security standard, or when the second setting determining module 2904 determines that the second preset saving module 2901 does not save the target print file Transmitting the second permission request information to the 3D printing permission device when the corresponding pre-judgment print permission is performed;
  • a second license determination module 2906 configured to determine whether a third print permission sent by the 3D print permission device is received, the third print permission being determined by the 3D print permission device to determine the second license request information Sent when the second safety standard is met;
  • the second file printing module 2907 is specifically configured to: when the second security determining module 2903 determines that the target print file meets the third security standard, or when the second preset determining module 2904 determines that the second preset saving module 2901 is saved and When the target print file corresponds to the pre-judgment print permission, or when the second license determination module 2906 determines that the third print permission transmitted by the 3D print permission device is received, the target print file is printed.
  • a second address obtaining module 2908 configured to acquire a target server address from a 3D printing permission device, where the target server address is an address of the target server;
  • a second address accessing module 2909 configured to access a target server address, and download an update file from the target server
  • the second standard update module 2910 is configured to update a correspondence between the product category and the third security standard according to the update file.
  • the embodiment provides a 3D printing device, wherein the second security determining unit 29033 determines the security of the target print file according to the correspondence between the product category and the first security standard, and the second standard update module 2910 updates the product category from time to time. Correspondence with the third security standard.
  • the 3D printing device and the 3D printing permission device realize the second discrimination of the target printing file security, thereby realizing the control of the target product, solving the problem that the production of high-risk articles is difficult to control, and ensuring social stability. Personal safety with citizens.
  • the correspondence between the product category acquired by the second security determining unit 29033 and the third security standard is more real-time, according to the product category.
  • the correspondence with the third security standard is more accurate and credible for the security discrimination of the target print file.
  • the second preset save module 2901 receives the pre-judgment print permission from the 3D print license device and saves the pre-judgment print license.
  • the content of the pre-judgment print permission is that the gun for police use satisfies the pre-judgment print permission, but the gun for military use does not satisfy the pre-judgment print permission.
  • the user designed a print file for a small gun using a 3D printing design.
  • the second file obtaining module 2902 obtains the print file from the 3D print design system, and then the second attribute obtaining unit 29031 acquires the target product attribute of the print file, where the attribute includes: the designed product is a firearm, The gun has a caliber of 5.8 mm and the gun is used for military purposes. It can be known from the attribute that the product designed by the print file is a firearm. Since the firearm has certain harm, the second category obtaining unit 29032 divides the target product category of the print file into non-safety products, and the second safety judgment Unit 29033 determines that the print file does not comply with the third security standard.
  • the second preset determination module 2904 determines whether or not the pre-judgment print permission corresponding to the print file is saved. Since the pre-judgment print permission held by the second preset storage module 2901 permits only the police use and does not permit the military use, the second preset determination module 2904 determines that the pre-judgment print permission corresponding to the print file is not saved. Therefore, the second request transmitting module 2905 transmits the second license request information to the 3D print permission device, wherein the content of the second license request information is the target product attribute of the print file.
  • the 3D printing permission device is judged by the security, and it is considered that the small gun can be produced, so the printing permission center transmits the second printing permission to the 3D printing design system.
  • the second license judging module 2906 determines that after receiving the second print permission, the second file printing module 2907 prints the print file, and the obtained target product is a small gun.
  • the second address obtaining module 2908 acquires the target server address from the 3D printing permitting device every preset time, the second address accessing module 2909 accesses the target server address, and downloads the update from the target server. file.
  • the second standard update module 2910 updates the correspondence between the product category and the third security standard according to the update file.
  • the embodiment of the invention also proposes a 3D printing device, please still refer to FIG. 21:
  • the illustrated 3D printing device 2100 is only one example of the 3D printing device provided by any of the embodiments shown in FIGS. 25 to 29, and the 3D printing device 2100 may have a ratio as shown in the drawing. More or fewer components, two or more components may be combined, or may have different component configurations.
  • the various components shown in the figures can be implemented in hardware, software, or a combination of hardware and software, including one or more signal processing and/or application specific integrated circuits.
  • the 3D printing apparatus includes a memory 2101, a central processing unit (CPU) 2102, a peripheral interface 2103, an RF circuit 2104, an audio circuit 2105, a speaker 2106, a power management chip 2107, and an input.
  • An output (I/O) subsystem 2108, other input/control devices 2109, and an external port 2110 are communicated via one or more communication buses or signal lines 2111.
  • the non-3D printing device provided by this embodiment is only provided by the embodiment of the present invention.
  • the 3D printing apparatus according to an embodiment of the present invention may have more or less components than those shown in FIG. 21, may combine two or more components, or may have different components. Configuration or arrangement, various components may be implemented in hardware, software, or a combination of hardware and software, including one or more signal processing and/or application specific integrated circuits.
  • the memory 2101 is configured to store program code and data, and can be accessed by the CPU 2102, the peripheral interface 2103, etc., and the memory 2101 can include a high-speed random access memory, and can also include a non-volatile memory, such as a Or multiple disk storage devices, flash memory devices, or other volatile solid-state storage devices.
  • the CPU 2102 can acquire program code from the memory 2101 and control the actual operation of the circuit such as the RF circuit 2104, the I/O subsystem 2108, and the like according to the acquired program.
  • a peripheral interface 2103 that can connect the input and output peripherals of the device to the CPU 2102 and the memory 2101.
  • the I/O subsystem 2108 can connect input and output peripherals on the device, such as display 2112 and other input/control devices 2109, to peripheral interface 2103.
  • the I/O subsystem 2108 can include a display controller 21081 and one or more input controllers 21082 for controlling other input/control devices 2109.
  • one or more input controllers 21082 receive electrical signals from other input/control devices 2109 or transmit electrical signals to other input/control devices 2109, and other input/control devices 2109 may include physical buttons (press buttons, rocker buttons, etc.) ), dial, slide switch, joystick, click wheel.
  • the input controller 21082 can be connected to any of the following: a keyboard, an infrared port, a USB interface, and a pointing device such as a mouse.
  • Display 2112 The display 2112 is an output interface between the 3D printing device and the user, displaying the visual output to the user, and the visual output may include graphics, text, icons, video, and the like.
  • Display controller 21081 in I/O subsystem 2108 receives an electrical signal from display 2112 or an electrical signal to display 2112.
  • the display 2112 detects the contact on the touch screen, and the display controller 21081 converts the detected contact into an interaction with the user interface object displayed on the display screen 2112, ie, implements human-computer interaction, the user interface object displayed on the display screen 2112. It can be an icon for running a game, an icon for networking to a corresponding network, and the like.
  • the device may also include a light mouse, which is a touch sensitive surface that does not display a visual output, or an extension of a touch sensitive surface formed by the touch screen.
  • the RF circuit 2104 is mainly used to establish communication between the 3D printing device and the wireless network (ie, the network side), and implement data reception and transmission between the 3D printing device and the wireless network. For example, sending and receiving short messages, emails, and the like. Specifically, the RF circuit 2104 receives and transmits an RF signal, which is also referred to as an electromagnetic signal, and the RF circuit 2104 converts the electrical signal into an electromagnetic signal or converts the electromagnetic signal into an electrical signal, and through the electromagnetic signal and communication network and other devices Communicate.
  • an RF signal which is also referred to as an electromagnetic signal
  • the RF circuit 2104 converts the electrical signal into an electromagnetic signal or converts the electromagnetic signal into an electrical signal, and through the electromagnetic signal and communication network and other devices Communicate.
  • RF circuitry 2104 may include known circuitry for performing these functions including, but not limited to, an antenna system, an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC chip Group, Subscriber Identity Module (SIM), etc.
  • an antenna system an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC chip Group, Subscriber Identity Module (SIM), etc.
  • SIM Subscriber Identity Module
  • the audio circuit 2105 is mainly used to receive audio data from the peripheral interface 2103, convert the audio data into an electrical signal, and transmit the electrical signal to the speaker 2106.
  • the speaker 2106 is configured to restore the voice signal received by the 3D printing device from the wireless network through the RF circuit 2104 to sound and play the sound to the user.
  • the power management chip 2107 is used for power supply and power management of the hardware connected to the CPU 2102, the I/O subsystem, and the peripheral interface.
  • FIG. 30 is a block diagram showing the internal portion of the 3D printing apparatus.
  • the CPU 3001 is specifically configured to:
  • the correspondence between the product category and the third security standard is updated according to the update file.
  • the RF circuit 3002 is specifically configured to:
  • the memory 3003 is specifically configured to:
  • the pre-judgment print permission sent by the 3D print permitting device is received, and the pre-judgment print permission is saved.
  • the I/O subsystem 3004 is specifically configured to: print a target print file.
  • the embodiment shown in Figures 25 through 30 provides a variety of 3D printing devices that enable control of the target product from the perspective of 3D printing.
  • the following embodiments will provide a 3D printing permission device, which implements the control of the target product from the perspective of the printing permission.
  • the basic structure of the 3D printing permission device 3100 provided by the embodiment of the present invention includes:
  • the first request receiving module 3101 is configured to receive first permission request information sent by the 3D printing design apparatus
  • the first criterion judging module 3102 is configured to determine whether the first license request information meets the second security standard
  • the first license sending module 3103 is configured to, when the first criterion determining module 3102 determines that the first license request information meets the second security standard, send a first print permission to the 3D print design apparatus, the first print license is used to: allow 3D printing
  • the design device transmits the target print file corresponding to the first license request information to the 3D printing device.
  • the embodiment provides a 3D printing permission device that implements control of a target product from the perspective of printing permission.
  • the first request receiving module 3101 receives the first permission request information sent by the 3D print design apparatus, and the first criterion determining module 3102 determines whether the first license request information satisfies the second security standard. If yes, the first license sending module 3103 The first print license is sent to the 3D print design device.
  • the embodiment shown in Fig. 31 provides a 3D printing permission device which realizes the discrimination of the security of the print file by the print permission center.
  • the following embodiment will provide a new 3D printing permission device 3200, which can further enhance the security control of the printed file.
  • the basic structure of another embodiment of the present invention includes:
  • the first request receiving module 3201 is configured to receive first permission request information sent by the 3D printing design apparatus
  • a category obtaining module 3202 configured to acquire a license request category according to the first license request information
  • the number obtaining module 3203 is configured to acquire the number of times of the license request information corresponding to the processing permission request category;
  • the number determining module 3204 is configured to determine whether the number of times of the permission request information corresponding to the processing permission request category reaches a preset number of times;
  • the first criterion judging module 3205 is configured to: determine, when the number-of-times determining module determines that the number of times of the license request information corresponding to the processing permission request category does not reach the preset number of times, determine whether the first license request information meets the second security standard;
  • the first license sending module 3206 is configured to: when the first criterion determining module 3205 determines that the first license request information satisfies the second security standard, send a first print permission to the 3D print design apparatus, the first print license is used to: allow 3D The print design apparatus transmits the target print file corresponding to the first license request information to the 3D printing apparatus.
  • the embodiment provides a 3D printing permission device that implements control of a target product from the perspective of printing permission.
  • the first request receiving module 3201 receives the first permission request information, and the first criterion determining module 3205 determines whether the first permission request information satisfies the second security standard. If yes, the first permission sending module 3206 sends the first permission sending module 3206 to the 3D printing design system. First print license.
  • the printing permission center determines the security of the target printed file, thereby realizing the control of the target product, solving the problem that the production of high-risk articles is difficult to control, and ensuring social stability and personal safety of citizens.
  • the number determining module 3204 determines whether the number of times the license request information corresponding to the license request category is processed reaches a preset number of times, and if not, sends the first print permission to the 3D printing design apparatus, so that the 3D printing permission apparatus only The license request information within the preset number of times is authorized and authorized, and the control of the production quantity of the target product is realized, and the security control of the printed file is further strengthened.
  • the first request receiving module 3201 receives the first permission request information sent by the 3D printing design device, and the first permission request information is a target product attribute of a print file, wherein the target of the print file
  • the product is a small gun.
  • the target attributes include: the target product is a gun, the gun has a caliber of 5.8 mm, and the gun is used for military purposes.
  • the category acquisition module 3202 acquires the license request category according to the first license request information, and obtains the license request category as a firearm.
  • the number obtaining module 3203 acquires the number of times the previous 3D printing permission device processes the license request information of the firearms type, For 345 times, the number judgment module 3204 determines that the preset number of times has not reached 500 times 345 times, and then the first criterion judging module 3205 judges whether the first license request information satisfies the second safety standard.
  • the criterion is that if the firearm diameter included in the first license request information is less than 6 mm, the second safety standard is considered to be satisfied. Therefore, the first standard judgment module 3205 considers that the first license request information satisfies the second security standard, and the print file can be printed.
  • the first license transmission module 3206 then transmits a first print permission to the 3D print design device.
  • the embodiment of the invention also proposes a 3D printing permission device, please still refer to FIG. 21:
  • the illustrated 3D printing permission device 2100 is only one example of the 3D printing permission device provided by any of the embodiments shown in FIG. 31 and FIG. 32, and the 3D printing permission device 2100 may have a ratio as shown in the figure. More or fewer components are shown, two or more components may be combined, or may have different component configurations.
  • the various components shown in the figures can be implemented in hardware, software, or a combination of hardware and software, including one or more signal processing and/or application specific integrated circuits.
  • the 3D printing permission device includes a memory 2101, a central processing unit (CPU) 2102, a peripheral interface 2103, an RF circuit 2104, an audio circuit 2105, a speaker 2106, and a power management chip 2107.
  • An input/output (I/O) subsystem 2108, other input/control devices 2109, and an external port 2110 are communicated via one or more communication buses or signal lines 2111.
  • non-3D printing permission device provided in this embodiment is only one example of the 3D printing permission device provided by the embodiment of the present invention, and the 3D printing permission device according to the embodiment of the present invention may have the same as that shown in FIG. More or less components, two or more components may be combined, or may have different component configurations or arrangements, each component may be in hardware including one or more signal processing and/or application specific integrated circuits, Software or a combination of hardware and software implementation.
  • the 3D printing permission device provided in this embodiment will be described in detail below.
  • the memory 2101 is configured to store program code and data, and can be accessed by the CPU 2102, the peripheral interface 2103, etc., and the memory 2101 can include a high-speed random access memory, and can also include a non-volatile memory, such as a Or multiple disk storage devices, flash memory devices, or other volatile solid-state storage devices.
  • the CPU 2102 can acquire the program code from the memory 2101, and obtain the program code according to The fetched program controls the actual operation of the circuit such as RF circuit 2104, I/O subsystem 2108, and the like.
  • a peripheral interface 2103 that can connect the input and output peripherals of the device to the CPU 2102 and the memory 2101.
  • the I/O subsystem 2108 can connect input and output peripherals on the device, such as display 2112 and other input/control devices 2109, to peripheral interface 2103.
  • the I/O subsystem 2108 can include a display controller 21081 and one or more input controllers 21082 for controlling other input/control devices 2109.
  • one or more input controllers 21082 receive electrical signals from other input/control devices 2109 or transmit electrical signals to other input/control devices 2109, and other input/control devices 2109 may include physical buttons (press buttons, rocker buttons, etc.) ), dial, slide switch, joystick, click wheel.
  • the input controller 21082 can be connected to any of the following: a keyboard, an infrared port, a USB interface, and a pointing device such as a mouse.
  • Display 2112 The display 2112 is an output interface between the 3D printing authoring device and the user, displaying the visual output to the user, and the visual output may include graphics, text, icons, video, and the like.
  • Display controller 21081 in I/O subsystem 2108 receives an electrical signal from display 2112 or an electrical signal to display 2112.
  • the display 2112 detects the contact on the touch screen, and the display controller 21081 converts the detected contact into an interaction with the user interface object displayed on the display screen 2112, ie, implements human-computer interaction, the user interface object displayed on the display screen 2112. It can be an icon for running a game, an icon for networking to a corresponding network, and the like.
  • the device may also include a light mouse, which is a touch sensitive surface that does not display a visual output, or an extension of a touch sensitive surface formed by the touch screen.
  • the RF circuit 2104 is mainly used to establish communication between the 3D printing permission device and the wireless network (ie, the network side), and realize data reception and transmission of the 3D printing permission device and the wireless network. For example, sending and receiving short messages, emails, and the like. Specifically, the RF circuit 2104 receives and transmits an RF signal, which is also referred to as an electromagnetic signal, and the RF circuit 2104 converts the electrical signal into an electromagnetic signal or converts the electromagnetic signal into an electrical signal, and through the electromagnetic signal and communication network and other devices Communicate.
  • an RF signal which is also referred to as an electromagnetic signal
  • RF circuitry 2104 may include known circuitry for performing these functions including, but not limited to, an antenna system, an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC chip Group, Subscriber Identity Module (SIM), etc.
  • an antenna system an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC chip Group, Subscriber Identity Module (SIM), etc.
  • SIM Subscriber Identity Module
  • the audio circuit 2105 is mainly used to receive audio data from the peripheral interface 2103, convert the audio data into an electrical signal, and transmit the electrical signal to the speaker 2106.
  • the speaker 2106 is configured to restore the voice signal received by the 3D printing permission device from the wireless network through the RF circuit 2104 to sound and play the sound to the user.
  • the power management chip 2107 is used for power supply and power management of the hardware connected to the CPU 2102, the I/O subsystem, and the peripheral interface.
  • FIG 33 is a structural view showing the internal portion of the 3D printing apparatus.
  • the CPU 3301 is specifically configured to:
  • the RF circuit 3302 is specifically configured to:
  • a basic structure of still another embodiment of the present invention includes:
  • a second request receiving module 3401 configured to receive first permission request information sent by the 3D print design apparatus
  • the second criterion determining module 3402 is configured to determine whether the first permission request information meets the second security standard
  • the second license sending module 3403 is configured to, when the second criterion determining module 3402 determines that the first license request information meets the second security standard, send a second print permission to the 3D printing device, the second print permission is used to: allow the 3D printing device The target print file corresponding to the first license request information is printed.
  • the embodiment provides a 3D printing permission device that implements control of a target product from the perspective of printing permission.
  • the second request receiving module 3401 receives the first permission request information sent by the 3D print design apparatus, and the second criterion determining module 3402 determines whether the first license request information satisfies the second security standard. If yes, the second license sending module 3403 A second print license is sent to the 3D printing device.
  • the second request receiving module 3401 receives the first license request information sent by the 3D print design apparatus, where the first license request information is a target product attribute of a print file, wherein the target product of the print file is a small gun, the target attribute Including: the target product is a gun, the gun has a caliber of 5.8 mm, and the gun is used for military purposes.
  • the second criterion determining module 3402 determines whether the first permission request information satisfies the second security standard.
  • the criterion is that if the firearm diameter included in the first license request information is less than 6 mm, the second safety standard is considered to be satisfied. Therefore, the second criterion judging module 3402 considers that the first license request information satisfies the second security standard, and the print file can be printed.
  • the second license transmission module 3403 then transmits a second print permission to the 3D printing device.
  • the embodiment of the invention also proposes a 3D printing permission device, please still refer to FIG. 21:
  • the illustrated 3D printing permission device 2100 is only one example of the 3D printing permission device provided by any of the embodiments shown in FIG. 31 and FIG. 32, and the 3D printing permission device 2100 may have a ratio as shown in the figure. More or fewer components are shown, two or more components may be combined, or may have different component configurations.
  • the various components shown in the figures can be implemented in hardware, software, or a combination of hardware and software, including one or more signal processing and/or application specific integrated circuits.
  • the 3D printing permission device includes a memory 2101, a central processing unit (CPU) 2102, a peripheral interface 2103, an RF circuit 2104, an audio circuit 2105, a speaker 2106, and a power management chip 2107.
  • An input/output (I/O) subsystem 2108, other input/control devices 2109, and an external port 2110 are communicated via one or more communication buses or signal lines 2111.
  • non-3D printing permission device provided in this embodiment is only one example of the 3D printing permission device provided by the embodiment of the present invention, and the 3D printing permission device according to the embodiment of the present invention may have the same as that shown in FIG. More or fewer components, two or more components may be combined, or may have different component configurations or settings, each component may include one or more signals Hardware, software, or a combination of hardware and software implementations, such as ASICs and/or application specific integrated circuits.
  • the 3D printing permission device provided in this embodiment will be described in detail below.
  • the memory 2101 is configured to store program code and data, and can be accessed by the CPU 2102, the peripheral interface 2103, etc., and the memory 2101 can include a high-speed random access memory, and can also include a non-volatile memory, such as a Or multiple disk storage devices, flash memory devices, or other volatile solid-state storage devices.
  • the CPU 2102 can acquire program code from the memory 2101 and control the actual operation of the circuit such as the RF circuit 2104, the I/O subsystem 2108, and the like according to the acquired program.
  • a peripheral interface 2103 that can connect the input and output peripherals of the device to the CPU 2102 and the memory 2101.
  • the I/O subsystem 2108 can connect input and output peripherals on the device, such as display 2112 and other input/control devices 2109, to peripheral interface 2103.
  • the I/O subsystem 2108 can include a display controller 21081 and one or more input controllers 21082 for controlling other input/control devices 2109.
  • one or more input controllers 21082 receive electrical signals from other input/control devices 2109 or transmit electrical signals to other input/control devices 2109, and other input/control devices 2109 may include physical buttons (press buttons, rocker buttons, etc.) ), dial, slide switch, joystick, click wheel.
  • the input controller 21082 can be connected to any of the following: a keyboard, an infrared port, a USB interface, and a pointing device such as a mouse.
  • Display 2112 The display 2112 is an output interface between the 3D printing authoring device and the user, displaying the visual output to the user, and the visual output may include graphics, text, icons, video, and the like.
  • Display controller 21081 in I/O subsystem 2108 receives an electrical signal from display 2112 or an electrical signal to display 2112.
  • the display 2112 detects the contact on the touch screen, and the display controller 21081 converts the detected contact into an interaction with the user interface object displayed on the display screen 2112, ie, implements human-computer interaction, the user interface object displayed on the display screen 2112. It can be an icon for running a game, an icon for networking to a corresponding network, and the like.
  • the device may also include a light mouse, which is a touch sensitive surface that does not display a visual output, or an extension of a touch sensitive surface formed by the touch screen.
  • the RF circuit 2104 is mainly used to establish communication between the 3D printing permission device and the wireless network (ie, the network side), and realize data reception and transmission of the 3D printing permission device and the wireless network. For example, sending and receiving short messages, emails, and the like. Specifically, the RF circuit 2104 receives and transmits an RF signal, which is also called an RF signal. For electromagnetic signals, the RF circuit 2104 converts the electrical signal into an electromagnetic signal or converts the electromagnetic signal into an electrical signal and communicates with the communication network and other devices through the electromagnetic signal.
  • RF circuitry 2104 may include known circuitry for performing these functions including, but not limited to, an antenna system, an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC chip Group, Subscriber Identity Module (SIM), etc.
  • an antenna system an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC chip Group, Subscriber Identity Module (SIM), etc.
  • SIM Subscriber Identity Module
  • the audio circuit 2105 is mainly used to receive audio data from the peripheral interface 2103, convert the audio data into an electrical signal, and transmit the electrical signal to the speaker 2106.
  • the speaker 2106 is configured to restore the voice signal received by the 3D printing permission device from the wireless network through the RF circuit 2104 to sound and play the sound to the user.
  • the power management chip 2107 is used for power supply and power management of the hardware connected to the CPU 2102, the I/O subsystem, and the peripheral interface.
  • FIG. 35 is a structural view showing the internal portion of the 3D printing apparatus.
  • the CPU 3501 is specifically configured to:
  • the RF circuit 3502 is specifically configured to:
  • a second print license is sent to the 3D printing device.
  • the 3D printing permission devices each receive the first permission request information from the 3D printing design device.
  • the 3D printing permission device can also receive the second permission request information from the 3D printing device.
  • the basic structure of another embodiment 3600 of the present invention includes:
  • the third request receiving module 3601 is configured to receive second permission request information sent by the 3D printing device
  • the third criterion determining module 3602 is configured to determine whether the second license request information meets the second security standard
  • the third license sending module 3603 is configured to, when the third standard determining module determines that the second license request information meets the second security standard, send a third print permission to the 3D printing device, where the second print permission is used to: allow 3D printing The device prints a target print file corresponding to the second license request information.
  • the embodiment provides a 3D printing permission device that implements control of a target product from the perspective of printing permission.
  • the third request receiving module 3601 receives the second permission request information sent by the 3D printing design device, and the third standard determining module 3602 determines whether the second permission request information meets the second security standard. If yes, the third permission sending module 3603 Send a third hit to the 3D printing device Printed permission.
  • the third request receiving module 3601 receives the second license request information sent by the 3D printing system, where the second license request information is a target product attribute of the print file, wherein the target product of the print file is a small firearm, and the target attribute includes :
  • the target product is a gun and the gun has a caliber of 5.8 mm.
  • the gun is used for military purposes.
  • the third criterion determining module 3602 determines whether the second permission request information satisfies the second security standard.
  • the criterion is that if the firearm diameter included in the second license request information is less than 6 mm, the second safety standard is considered to be satisfied. Therefore, the third standard judging module 3602 considers that the second license request information satisfies the second security standard, and the print file can be printed.
  • the third license transmission module 3603 then transmits a third print permission to the 3D printing device.
  • the embodiment of the invention also proposes a 3D printing permission device, please still refer to FIG. 21:
  • the illustrated 3D printing permission device 2100 is only one example of the 3D printing permission device provided by any of the embodiments shown in FIG. 31 and FIG. 32, and the 3D printing permission device 2100 may have a ratio as shown in the figure. More or fewer components are shown, two or more components may be combined, or may have different component configurations.
  • the various components shown in the figures can be implemented in hardware, software, or a combination of hardware and software, including one or more signal processing and/or application specific integrated circuits.
  • the 3D printing permission device includes a memory 2101, a central processing unit (CPU) 2102, a peripheral interface 2103, an RF circuit 2104, an audio circuit 2105, a speaker 2106, and a power management chip 2107.
  • An input/output (I/O) subsystem 2108, other input/control devices 2109, and an external port 2110 are communicated via one or more communication buses or signal lines 2111.
  • non-3D printing permission device provided in this embodiment is only one example of the 3D printing permission device provided by the embodiment of the present invention, and the 3D printing permission device according to the embodiment of the present invention is applicable.
  • the 3D printing permission device provided in this embodiment will be described in detail below.
  • the memory 2101 is configured to store program code and data, and can be accessed by the CPU 2102, the peripheral interface 2103, etc., and the memory 2101 can include a high-speed random access memory, and can also include a non-volatile memory, such as a Or multiple disk storage devices, flash memory devices, or other volatile solid-state storage devices.
  • the CPU 2102 can acquire program code from the memory 2101 and control the actual operation of the circuit such as the RF circuit 2104, the I/O subsystem 2108, and the like according to the acquired program.
  • a peripheral interface 2103 that can connect the input and output peripherals of the device to the CPU 2102 and the memory 2101.
  • the I/O subsystem 2108 can connect input and output peripherals on the device, such as display 2112 and other input/control devices 2109, to peripheral interface 2103.
  • the I/O subsystem 2108 can include a display controller 21081 and one or more input controllers 21082 for controlling other input/control devices 2109.
  • one or more input controllers 21082 receive electrical signals from other input/control devices 2109 or transmit electrical signals to other input/control devices 2109, and other input/control devices 2109 may include physical buttons (press buttons, rocker buttons, etc.) ), dial, slide switch, joystick, click wheel.
  • the input controller 21082 can be connected to any of the following: a keyboard, an infrared port, a USB interface, and a pointing device such as a mouse.
  • Display 2112 The display 2112 is an output interface between the 3D printing authoring device and the user, displaying the visual output to the user, and the visual output may include graphics, text, icons, video, and the like.
  • Display controller 21081 in I/O subsystem 2108 receives an electrical signal from display 2112 or an electrical signal to display 2112.
  • the display 2112 detects the contact on the touch screen, and the display controller 21081 converts the detected contact into an interaction with the user interface object displayed on the display screen 2112, ie, implements human-computer interaction, the user interface object displayed on the display screen 2112. It can be an icon for running a game, an icon for networking to a corresponding network, and the like.
  • the device may also include a light mouse, which is a touch sensitive surface that does not display a visual output, or an extension of a touch sensitive surface formed by the touch screen.
  • the RF circuit 2104 is mainly used to establish a 3D printing permission device and a wireless network (ie, a network side)
  • the communication enables data reception and transmission of the 3D printing license device and the wireless network. For example, sending and receiving short messages, emails, and the like.
  • the RF circuit 2104 receives and transmits an RF signal, which is also referred to as an electromagnetic signal, and the RF circuit 2104 converts the electrical signal into an electromagnetic signal or converts the electromagnetic signal into an electrical signal, and through the electromagnetic signal and communication network and other devices Communicate.
  • RF circuitry 2104 may include known circuitry for performing these functions including, but not limited to, an antenna system, an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC chip Group, Subscriber Identity Module (SIM), etc.
  • an antenna system an RF transceiver, one or more amplifiers, a tuner, one or more oscillators, a digital signal processor, a CODEC chip Group, Subscriber Identity Module (SIM), etc.
  • SIM Subscriber Identity Module
  • the audio circuit 2105 is mainly used to receive audio data from the peripheral interface 2103, convert the audio data into an electrical signal, and transmit the electrical signal to the speaker 2106.
  • the speaker 2106 is configured to restore the voice signal received by the 3D printing permission device from the wireless network through the RF circuit 2104 to sound and play the sound to the user.
  • the power management chip 2107 is used for power supply and power management of the hardware connected to the CPU 2102, the I/O subsystem, and the peripheral interface.
  • FIG. 37 is a structural view showing the internal portion of the 3D printing apparatus.
  • the CPU 3701 is specifically configured to:
  • the RF circuit 3702 is specifically configured to:
  • a third print license is sent to the 3D printing device.
  • the embodiment of the invention also proposes a 3D printing system, please refer to FIG. 38.
  • the main structure of the system 3800 includes the 3D printing design device 3801 and the 3D printing device 3802 provided by any of the embodiments shown in FIG. 16 to FIG.
  • the embodiment of the invention also proposes a 3D printing system, please refer to FIG. 39.
  • the main structure of the system 3900 includes: the 3D printing design apparatus 3901 provided by any of the above embodiments shown in FIG. 18 to FIG. 22, the 3D printing permission apparatus 3902 provided by any of the embodiments shown in FIGS. 31 to 33, and the 3D printing. Device 3903.
  • the embodiment of the invention also proposes a 3D printing system, please refer to FIG. 40.
  • the main structure of the system 4000 includes the 3D printing design apparatus 4001 provided by any of the embodiments shown in FIG. 18 to FIG. 22, and the 3D printing permission apparatus 4002 provided by any of the embodiments shown in FIGS. 34 and 35, and FIG. A 3D printing device 4003 according to any of the embodiments shown at 24.
  • the embodiment of the invention also proposes a 3D printing system, please refer to FIG. 41.
  • the main structure of the system 4100 includes a 3D printing design device 4101, and a 3D printing device 4102 provided in any of the embodiments shown in Figs.
  • the embodiment of the invention also proposes a 3D printing system, please refer to FIG. 42.
  • the main structure of the system 4200 includes: a 3D printing design device 4201, a 3D printing permission device 4202 provided in any of the embodiments shown in FIGS. 36 and 37, and a 3D printing device provided in any of the embodiments shown in FIGS. 27 to 30. 4203.
  • the disclosed system, apparatus, and method may be implemented in other manners.
  • the device embodiments described above are merely illustrative.
  • the division of the unit is only a logical function division.
  • there may be another division manner for example, multiple units or components may be combined or Can be integrated into another system, or some features can be ignored or not executed.
  • the mutual coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection through some interface, device or unit, and may be in an electrical, mechanical or other form.
  • the units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed to multiple network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of the embodiment.
  • each functional unit in each embodiment of the present invention may be integrated into one processing unit, or each unit may exist physically separately, or two or more units may be integrated into one unit.
  • the above integrated unit can be implemented in the form of hardware or in the form of a software functional unit.
  • the integrated unit if implemented in the form of a software functional unit and sold or used as a standalone product, may be stored in a computer readable storage medium.
  • the technical solution of the present invention which is essential or contributes to the prior art, or all or part of the technical solution, may be embodied in the form of a software product stored in a storage medium. , including a number of instructions to make a computer device (which can be a personal computer, a server, Or a network device or the like) performing all or part of the steps of the method of the various embodiments of the present invention.
  • the foregoing storage medium includes: a U disk, a mobile hard disk, a read-only memory (ROM), a random access memory (RAM), a magnetic disk, or an optical disk, and the like. .

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Abstract

提供了一种3D打印设计方法,可以实现3D打印系统对目标打印文件安全性的判别。所述方法包括:确定目标打印文件(101);判断所述目标打印文件是否满足第一安全标准(102);若所述目标打印文件满足所述第一安全标准,则将所述目标打印文件发送给3D打印制造系统(103),使得所述3D打印制造系统按照所述目标打印文件进行打印。还提供了相关的3D打印制造、许可方法,相关装置以及系统。

Description

一种3D打印设计、打印、许可方法,装置以及系统
本申请要求于2014年4月8日提交中国专利局、申请号为201410138390.9、发明名称为“一种3D打印设计、打印、许可方法,装置以及系统”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。
技术领域
本发明涉及3D打印技术领域,尤其涉及一种3D打印设计、打印、许可方法,装置以及系统。
背景技术
3D打印,既区别于纸张平面对文字的打印,又区别于传统方式通过铣刨等方式对产品的制造,是一种以立体逐层打印方式完成物品制造的系列技术与方法。具体的实现方式为:以计算机三维设计模型为蓝本,通过软件分层离散和数控成型系统,利用激光束、热熔喷嘴等方式将金属粉末、陶瓷粉末、塑料、细胞组织等特殊材料进行逐层堆积黏结,最终叠加成型,制造出实体产品。
与传统方式的制造方法相比,3D打印有许多优点,如简化工艺流程、可以制造空间形状较为复杂的物品、节省原材料等。因此,近年来3D打印技术飞速发展,并在诸多领域得到了应用。日用品、食品、化工、汽车、医疗用品……3D打印制造出的物品已经深入到了人们生活的各个领域。
某些物品如枪械、刀具等如果得以大量生产并在社会上自由流通,将会大大危害社会稳定与公民人身安全,所以这些高危物品需要被管制。传统方法生产制造这些高危物品,都是在模具或者机床工具中以或浇注、或锻压、铣刨、或雕刻等方法进行,只要控制生产这些高危物品的模具或机床的流通途径,就可以实现对这些高危物品产的管制。但是,3D打印技术制造产品只需要电脑设计与打印机打印即可实现,无需其他工具,致使3D打印生产出来的高危物品非常难以管制,影响了社会稳定与公民人身安全。
发明内容
本发明实施例提供了一种3D打印设计、打印、许可方法,装置以及系统, 可以实现对目标产品的管制,解决高危物品的生产难以管制的问题,保障社会稳定与公民人身安全。
本发明实施例第一方面提供了一种3D打印设计方法,包括:
3D打印设计系统确定目标打印文件;
所述3D打印设计系统判断所述目标打印文件是否满足第一安全标准;
若所述目标打印文件满足所述第一安全标准,则所述3D打印设计系统将所述目标打印文件发送给3D打印系统,使得所述3D打印系统按照所述目标打印文件进行打印。
结合本发明实施例的第一方面,本发明实施例的第一方面的第一种实现方式中,所述3D打印设计系统判断所述目标打印文件是否满足第一安全标准包括:
所述3D打印设计系统获取所述目标打印文件对应的目标产品属性;
所述3D打印设计系统根据所述目标产品属性,获取所述目标打印文件对应的目标产品类别,所述目标产品属性包括:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息,所述目标产品类别用于表示所述目标打印文件的分类,所述目标产品类别用于表示所述目标打印文件的分类;
所述3D打印设计系统根据产品类别与第一安全标准的对应关系,判断所述目标打印文件是否满足第一安全标准。
结合本发明实施例的第一方面的第一种实现方式,本发明实施例的第一方面的第二种实现方式中,所述产品类别包括:安全类产品、非安全类产品;
所述3D打印设计系统根据产品类别与第一安全标准的对应关系,判断所述目标打印文件是否满足第一安全标准包括:若所述目标产品类别为安全类产品,则所述3D打印设计系统确定所述目标打印文件满足第一安全标准,若所述目标产品类别为非安全类产品,则所述3D打印设计系统确定所述目标打印文件不满足第一安全标准。
结合本发明实施例的第一方面的第一种实现方式或本发明实施例的第一方面的第二种实现方式,本发明实施例的第一方面的第三种实现方式还包括:
若所述3D打印设计系统确定所述目标打印文件不满足所述第一安全标 准,则所述3D打印设计系统向打印许可中心发送第一许可请求信息;
所述3D打印设计系统判断是否接收到所述许可中心发送的第一打印许可,所述第一打印许可由所述许可中心确定所述第一许可请求信息满足第二安全标准时发送,所述第二安全标准为所述许可中心判断接收到的请求信息所对应的打印文件是否安全的标准;
若所述打印设计系统接收到所述许可中心发送的第一打印许可,则所述3D打印设计系统将所述目标打印文件发送给3D打印系统,使得所述3D打印系统按照所述目标打印文件进行打印。
结合本发明实施例的第一方面的第一种实现方式或本发明实施例的第一方面的第二种实现方式,本发明实施例的第一方面的第四种实现方式还包括:
所述3D打印设计系统接收所述许可中心发送的预判断打印许可;
若所述3D打印设计系统确定所述目标打印文件不满足所述第一安全标准,则所述3D打印设计系统判断是否保存有与所述目标打印文件对应的预判断打印许可,若是,则所述3D打印设计系统将所述目标打印文件发送给3D打印系统,若否,则所述3D打印设计系统向打印许可中心发送第一许可请求信息。
结合本发明实施例的第一方面的第一种实现方式或本发明实施例的第一方面的第二种实现方式,本发明实施例的第一方面的第五种实现方式还包括:
所述3D打印设计系统从所述打印许可中心获取目标服务器地址,所述目标服务器地址为目标服务器的地址;
所述3D打印设计系统访问所述目标服务器地址,并从所述目标服务器中下载更新文件;
所述3D打印设计系统根据所述更新文件更新所述产品类别与第一安全标准的对应关系。
本发明实施例的第二方面提供了一种3D打印方法,包括:
3D打印系统获取目标打印文件;
所述3D打印系统判断是否接收到打印许可中心发送的第二打印许可;
若接收到打印许可中心发送的第二打印许可,则所述3D打印系统打印所述目标打印文件。
本发明实施例的第三方面提供了一种3D打印方法,包括:
3D打印系统获取目标打印文件;
所述3D打印系统判断所述目标打印文件是否满足第三安全标准;
若所述目标打印文件满足所述第三安全标准,则所述3D打印系统打印所述目标打印文件。
结合本发明实施例的第三方面,本发明实施例的第三方面的第一种实现方式中,所述3D打印设计系统判断所述目标打印文件是否满足第三安全标准包括:
所述3D打印系统获取所述目标打印文件对应的目标产品属性;
所述3D打印系统根据所述目标产品属性,获取所述目标打印文件对应的目标产品类别,所述目标产品属性包括:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息,所述目标产品类别用于表示所述目标打印文件的分类;
所述3D打印系统根据产品类别与第三安全标准的对应关系,判断所述目标打印文件是否满足第三安全标准。
结合本发明实施例的第三方面的第一种实现方式,本发明实施例的第三方面的第二种实现方式中,所述产品类别包括:安全类产品、非安全类产品;
所述3D打印系统根据产品类别与第三安全标准的对应关系,判断所述目标打印文件是否满足第三安全标准包括:若所述目标产品类别为安全类产品,则所述3D打印系统确定所述目标打印文件满足第三安全标准,若所述目标产品类别为非安全类产品,则所述3D打印系统确定所述目标打印文件不满足第三安全标准。
结合本发明实施例的第三方面的第一种实现方式或发明实施例的第三方面的第二种实现方式,本发明实施例的第三方面的第三种实现方式还包括:
若所述3D打印系统确定所述目标打印文件不满足所述第三安全标准,则所述3D打印系统向打印许可中心发送第二许可请求信息;
所述3D打印系统判断是否接收到所述许可中心发送的第三打印许可,所述第三打印许可由所述许可中心确定所述第二许可请求信息满足第二安全标 准时发送;
若所述3D打印系统接收到所述许可中心发送的第三打印许可,则所述3D打印系统打印所述目标打印文件。
结合本发明实施例的第三方面的第三种实现方式,本发明实施例的第三方面的第四种实现方式还包括:
所述3D打印系统接收所述许可中心发送的预判断打印许可;
所述3D打印系统向打印许可中心发送第二许可请求信息之前还包括:若所述3D打印系统确定所述目标打印文件不满足所述第三安全标准,则所述3D打印系统判断是否保存有与所述目标打印文件对应的预判断打印许可,若是,则所述3D打印系统打印所述目标打印文件,若否,则触发所述3D打印系统向打印许可中心发送第二许可请求信息的操作。
结合本发明实施例的第三方面的第一种实现方式,本发明实施例的第三方面的第五种实现方式还包括:
所述3D打印系统从所述打印许可中心获取目标服务器地址,所述目标服务器地址为目标服务器的地址;
所述3D打印系统访问所述目标服务器地址,并从所述目标服务器中下载更新文件;
所述3D打印系统根据所述更新文件更新所述产品类别与第三安全标准的对应关系。
本发明实施例的第四方面提供了一种3D打印许可方法,包括:
打印许可中心接收3D打印设计系统发送的第一许可请求信息;
所述打印许可中心判断所述第一许可请求信息是否满足第二安全标准,所述第二安全标准为所述许可中心判断接收到的请求信息所对应的打印文件是否安全的标准;
若所述第一许可请求信息满足第二安全标准,则所述打印许可中心向所述3D打印设计系统发送第一打印许可,所述第一打印许可用于:允许所述3D打印设计系统将所述第一许可请求信息对应的目标打印文件发送给3D打印系统。
结合本发明实施例的第四方面,本发明实施例的第四方面的第一种实现方 式中,所述打印许可中心判断所述第一许可请求信息是否满足第二安全标准包括:
所述打印许可中心根据所述第一许可请求信息对应的目标产品属性、目标产品类别、或发送所述第一许可请求信息的3D打印设计系统的安全级别来判断所述第一许可请求信息是否满足第二安全标准,所述安全级别用于表示所述3D打印设计系统的安全性。
结合本发明实施例的第四方面或第四方面的第一种实现方式,本发明实施例的第四方面的第二种实现方式中,所述打印许可中心判断所述第一许可请求信息是否满足第二安全标准之前还包括:
打印许可中心根据所述第一许可请求信息获取许可请求类别;
所述打印许可中心获取所述打印许可中心处理所述许可请求类别所对应的许可请求信息的次数;
所述打印许可中心判断处理所述许可请求类别所对应的许可请求信息的次数是否达到预置次数;
若所述打印许可中心确定处理所述许可请求类别所对应的许可请求信息的次数达到预置次数,则所述打印许可中心不向所述3D打印设计系统发送第一打印许可;
若所述打印许可中心确定处理所述许可请求类别所对应的许可请求信息的次数没有达到预置次数,则触发所述打印许可中心判断所述第一许可请求信息是否满足第二安全标准的操作。
本发明实施例的第五方面提供了一种3D打印许可方法,包括:
打印许可中心接收3D打印设计系统发送的第一许可请求信息;
所述打印许可中心判断所述第一许可请求信息是否满足第二安全标准,所述第二安全标准为所述许可中心判断接收到的请求信息所对应的打印文件是否安全的标准;
若所述第一许可请求信息满足第二安全标准,则所述打印许可中心向所述3D打印系统发送第二打印许可,所述第二打印许可用于:允许所述3D打印系统打印所述第一许可请求信息对应的目标打印文件。
结合本发明实施例的第五方面,本发明实施例的第五方面的第一种实现方 式中,所述打印许可中心判断所述第一许可请求信息是否满足第二安全标准包括:
所述打印许可中心根据所述第一许可请求信息对应的目标产品属性、目标产品类别、或发送所述第一许可请求信息的3D打印设计系统的安全级别来判断所述第一许可请求信息是否满足第二安全标准,所述安全级别用于表示所述3D打印设计系统的安全性。
本发明实施例的第六方面提供了一种3D打印许可方法,包括:
打印许可中心接收3D打印系统发送的第二许可请求信息;
所述打印许可中心判断所述第二许可请求信息是否满足第二安全标准,所述第二安全标准为所述许可中心判断接收到的请求信息所对应的打印文件是否安全的标准;
若所述第二许可请求信息满足第二安全标准,则所述打印许可中心向所述3D打印系统发送第三打印许可,所述第二打印许可用于:允许所述3D打印系统打印所述第二许可请求信息对应的目标打印文件。
结合本发明实施例的第六方面,本发明实施例的第六方面的第一种实现方式中,所述打印许可中心判断所述第二许可请求信息是否满足第二安全标准包括:
所述打印许可中心根据所述第二许可请求信息对应的目标产品属性、目标产品类别、或发送所述第二许可请求信息的3D打印系统的安全级别来判断所述第一许可请求信息是否满足第二安全标准,所述安全级别用于表示所述3D打印系统的安全性。
本发明实施例的第七方面提供了一种3D打印设计装置,包括:
文件确定模块,用于确定目标打印文件;
第一安全判断模块,用于判断所述目标打印文件是否满足第一安全标准;
文件发送模块,用于当所述第一安全判断模块确定所述目标打印文件满足所述第一安全标准时,将所述目标打印文件发送给3D打印装置,使得所述3D打印装置按照所述目标打印文件进行打印。
结合本发明实施例的第七方面,本发明实施例的第七方面的第一种实现方式中,所述第一安全判断模块包括:
第一属性获取单元,用于获取所述目标打印文件对应的目标产品属性;
第一类别获取单元,用于根据所述目标产品属性,获取所述目标打印文件对应的目标产品类别,所述目标产品属性包括:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息,所述目标产品类别用于表示所述目标打印文件的分类;
第一安全判断单元,用于根据产品类别与第一安全标准的对应关系,判断所述目标打印文件是否满足第一安全标准。
结合本发明实施例的第七方面的第一种实现方式,本发明实施例的第七方面的第二种实现方式中,所述装置还包括:
第一请求发送模块,用于当所述第一安全判断单元确定所述目标打印文件不满足所述第一安全标准时,向3D打印许可装置发送第一许可请求信息;
第一许可判断模块,用于判断是否接收到所述3D打印许可装置发送的第一打印许可,所述第一打印许可由所述3D打印许可装置确定所述第一许可请求信息满足第二安全标准时发送,所述第二安全标准为所述3D打印许可装置判断接收到的请求信息所对应的打印文件是否安全的标准;
所述文件发送模块还用于:当所述第一许可判断模块确定接收到所述3D打印许可装置发送的第一打印许可时,将所述目标打印文件发送给3D打印装置,使得所述3D打印装置按照所述目标打印文件进行打印。
结合本发明实施例的第七方面的第二种实现方式,本发明实施例的第七方面的第三种实现方式中,所述装置还包括:
第一预置保存模块,用于接收所述3D打印许可装置发送的预判断打印许可;
第一预置判断模块,用于当所述第一安全判断单元确定所述目标打印文件不满足所述第一安全标准时,判断所述第一预置保存模块是否保存有与所述目标打印文件对应的预判断打印许可;
所述文件发送模块还用于:当所述第一预置判断模块确定所述第一预置保存模块保存有与所述目标打印文件对应的预判断打印许可时,将所述目标打印文件发送给3D打印装置;
所述第一请求发送模块还用于:当所述第一预置判断模块确定所述第一预置保存模块没有保存与所述目标打印文件对应的预判断打印许可时,向所述3D打印许可装置发送第一许可请求信息。
结合本发明实施例的第七方面的第二种实现方式或第七方面的第三种实现方式,本发明实施例的第七方面的第四种实现方式中,所述装置还包括:
第一地址获取模块,用于从所述3D打印许可装置获取目标服务器地址,所述目标服务器地址为目标服务器的地址;
第一地址访问模块,用于访问所述目标服务器地址,并从所述目标服务器中下载更新文件;
第一标准更新模块,用于根据所述更新文件更新所述产品类别与第一安全标准的对应关系。
本发明实施例的第八方面提供了一种3D打印装置,包括:
第一文件获取模块,用于获取目标打印文件;
第二许可判断模块,用于判断是否接收到3D打印许可装置发送的第二打印许可;
第一文件打印模块,用于当所述第二许可判断模块确定接收到3D打印许可装置发送的第二打印许可时,打印所述目标打印文件。
本发明实施例的第九方面提供了一种3D打印装置,包括:
第二文件获取模块,用于获取目标打印文件;
第二安全判断模块,用于判断所述目标打印文件是否满足第三安全标准;
第二文件打印模块,用于当所述第二安全判断模块确定所述目标打印文件满足所述第三安全标准时,打印所述目标打印文件。
结合本发明实施例的第九方面,本发明实施例的第九方面的第一种实现方式中,所述第二安全判断模块包括:
第二属性获取单元,用于获取所述目标打印文件对应的目标产品属性;
第二类别获取单元,用于根据所述目标产品属性,获取所述目标打印文件对应的目标产品类别,所述目标产品属性包括:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息,所述目标产品类别用于表示所述目标打印 文件的分类;
第二安全判断单元,用于根据产品类别与第三安全标准的对应关系,判断所述目标打印文件是否满足第三安全标准。
结合本发明实施例的第九方面的第一种实现方式,本发明实施例的第九方面的第二种实现方式中,所述装置还包括:
第二请求发送模块,用于当所述第二安全判断单元确定所述目标打印文件不满足所述第三安全标准时,向3D打印许可装置发送第二许可请求信息;
第二许可判断模块,用于判断是否接收到所述3D打印许可装置发送的第三打印许可,所述第三打印许可由所述3D打印许可装置确定所述第二许可请求信息满足第二安全标准时发送,,所述第二安全标准为所述3D打印许可装置判断接收到的请求信息所对应的打印文件是否安全的标准;
所述第二文件打印模块还用于:当所述第二许可判断模块确定接收到所述3D打印许可装置发送的第三打印许可时,打印所述目标打印文件。
结合本发明实施例的第九方面的第二种实现方式,本发明实施例的第九方面的第三种实现方式中,所述装置还包括:
第二预置保存模块,用于接收所述3D打印许可装置发送的预判断打印许可;
第二预置判断模块,用于在所述第二安全判断单元确定所述目标打印文件不满足所述第三安全标准时,判断所述第二预置保存模块是否保存有与所述目标打印文件对应的预判断打印许可;
所述第二文件打印模块还用于:当所述第二预置判断模块确定所述第二预置保存模块保存有与所述目标打印文件对应的预判断打印许可时,打印所述目标打印文件;
所述第二请求发送模块还用于:当所述第二置判断模块确定所述第二预置保存模块没有保存与所述目标打印文件对应的预判断打印许可时,向3D打印许可装置发送第二许可请求信息。
结合本发明实施例的第九方面的第一种实现方式,本发明实施例的第九方面的第四种实现方式中,所述装置还包括:
第二地址获取模块,用于从所述3D打印许可装置获取目标服务器地址, 所述目标服务器地址为目标服务器的地址;
第二地址访问模块,用于访问所述目标服务器地址,并从所述目标服务器中下载更新文件;
第二标准更新模块,用于根据所述更新文件更新所述产品类别与第三安全标准的对应关系。
本发明实施例的第十方面提供了一种3D打印许可装置,包括:
第一请求接收模块,用于接收3D打印设计装置发送的第一许可请求信息;
第一标准判断模块,用于判断所述第一许可请求信息是否满足第二安全标准,所述第二安全标准为所述3D打印许可装置判断接收到的请求信息所对应的打印文件是否安全的标准;
第一许可发送模块,用于当所述第一标准判断模块确定所述第一许可请求信息满足第二安全标准时,向所述3D打印设计装置发送第一打印许可,所述第一打印许可用于:允许所述3D打印设计装置将所述第一许可请求信息对应的目标打印文件发送给3D打印装置。
结合本发明实施例的第十方面,本发明实施例的第十方面的第一种实现方式中,所述第一标准判断模块具体用于:根据所述第一许可请求信息对应的目标产品属性、目标产品类别、或发送所述第一许可请求信息的3D打印设计装置的安全级别来判断所述第一许可请求信息是否满足第二安全标准,所述安全级别用于表示所述3D打印设计装置的安全性。
结合本发明实施例的第十方面或第十方面的第一种实现方式,本发明实施例的第十方面的第二种实现方式中,所述装置还包括:
类别获取模块,用于根据所述第一许可请求信息获取许可请求类别;
次数获取模块,用于获取所述3D打印许可装置处理所述许可请求类别所对应的许可请求信息的次数;
次数判断模块,用于判断处理所述许可请求类别所对应的许可请求信息的次数是否达到预置次数;
所述第一标准判断模块具体用于:当所述次数判断模块确定处理所述许可请求类别所对应的许可请求信息的次数没有达到预置次数时,判断所述第一许可请求信息是否满足第二安全标准。
本发明实施例的第十一方面提供了一种3D打印许可装置,包括:
第二请求接收模块,用于接收3D打印设计装置发送的第一许可请求信息;
第二标准判断模块,用于判断所述第一许可请求信息是否满足第二安全标准,,所述第二安全标准为所述3D打印许可装置判断接收到的请求信息所对应的打印文件是否安全的标准;
第二许可发送模块,用于当所述第二标准判断模块确定所述第一许可请求信息满足第二安全标准时,向所述3D打印装置发送第二打印许可,所述第二打印许可用于:允许所述3D打印装置打印所述第一许可请求信息对应的目标打印文件。
结合本发明实施例的第十一方面,本发明实施例的第十一方面的第一种实现方式中,所述第二标准判断模块具体用于:根据所述第一许可请求信息对应的目标产品属性、目标产品类别、或发送所述第一许可请求信息的3D打印设计装置的安全级别来判断所述第一许可请求信息是否满足第二安全标准,所述安全级别用于表示所述3D打印设计装置的安全性。
本发明实施例的第十二方面提供了一种3D打印许可装置,包括:
第三请求接收模块,用于接收3D打印装置发送的第二许可请求信息;
第三标准判断模块,用于判断所述第二许可请求信息是否满足第二安全标准,所述第二安全标准为所述3D打印许可装置判断接收到的请求信息所对应的打印文件是否安全的标准;
第三许可发送模块,用于当所述第三标准判断模块确定所述第二许可请求信息满足第二安全标准时,向所述3D打印装置发送第三打印许可,所述第二打印许可用于:允许所述3D打印装置打印所述第二许可请求信息对应的目标打印文件。
结合本发明实施例的第十二方面,本发明实施例的第十二方面的第一种实现方式中,所述第三标准判断模块具体用于:根据所述第二许可请求信息对应的目标产品属性、目标产品类别、或发送所述第二许可请求信息的3D打印装置的安全级别来判断所述第二许可请求信息是否满足第二安全标准,所述安全级别用于表示所述3D打印装置的安全性。
本发明实施例的第十三方面提供了一种3D打印系统,包括:
3D打印装置与本发明实施例的第七方面与第七方面的第一种实现方式中任一项所述的3D打印设计装置。
本发明实施例的第十四方面提供了一种3D打印系统,包括:
3D打印装置,和本发明实施例的第七方面的第二中实现方式至第四种实现方式中任一项所述的3D打印设计装置,和本发明实施例的第十方面至第十方面的第二种实现方式中任一项所述的3D打印许可装置。
本发明实施例的第十五方面提供了一种3D打印系统,包括:
本发明实施例的第七方面的第二中实现方式至第四种实现方式中任一项所述的3D打印设计装置,和本发明实施例第十一方面或第十一方面的第一种实现方式所述的3D打印许可装置,和本发明实施例的第八方面所述的3D打印装置。
本发明实施例的第十六方面提供了一种3D打印系统,包括:
3D打印设计装置,和本发明实施例的第九方面与第九方面的第一种实现方式中任一项所述的3D打印装置。
本发明实施例的第十七方面提供了一种3D打印系统,包括:
3D打印设计装置,和本发明实施例的第十二方面或第十二方面的第一种实现方式所述的3D打印许可装置,和本发明实施例的第九方面的第二种实现方式至第四种实现方式中任一项所述的3D打印装置。
从以上技术方案可以看出,本发明实施例中,3D打印系统设计好目标打印文件后,并不是直接打印该目标打印文件,而是判断该目标打印文件是否满足第一安全标准,若满足则打印该目标打印文件。通过这样的方法,实现了3D打印系统对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
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具体实施方式
本发明实施例提供了一种3D打印设计方法,用于实现对目标产品的管制。本发明实施例还提出了3D打印方法、3D打印许可方法、相关装置以及系统,以下将分别进行说明。
本发明实施例提供的3D打印设计方法的基本流程请参见图1,主要包括:
101、3D打印设计系统确定目标打印文件;
在使用3D打印技术进行生产时,用户首先要通过3D打印设计系统设计目标打印文件,该目标打印文件的设计方法有很多,如通过计算机建模来进行设计等,本发明实施例中不做限定。3D打印设计系统确定该目标打印文件。
其中,该目标打印文件是一种记录了制造目标特点的数据形式,本发明实施例中不限定该目标打印文件的格式。
102、3D打印设计系统判断目标打印文件是否满足第一安全标准;
3D打印设计系统确定该目标打印文件后,判断该目标打印文件是否满足第一安全标准。3D打印设计系统判断该目标打印文件是否满足第一安全标准的方法有很多,将在后面的实施例中详述,本实施例中不做限定。
103、若目标打印文件满足第一安全标准,则3D打印设计系统将目标打印文件发送给3D打印系统。
在现阶段的3D打印技术中,3D打印设计系统在设计好目标打印文件后, 要将设计的目标打印文件发送给3D打印系统进行打印。因此本实施例中,若3D打印设计系统确定该目标打印文件满足第一安全标准,则3D打印设计系统将该目标打印文件发送给3D打印系统,使得3D打印系统按照所述目标打印文件进行打印。
其中,3D打印设计系统可以通过互联网将目标打印文件发送给3D打印系统、也可以通过与3D打印系统之间的独立数据通道将目标打印文件发送给3D打印系统、也可以通过磁盘拷贝数据的形式将目标打印文件发送给3D打印系统、也可以采取其他方法将目标打印文件发送给3D打印系统,本发明实施例中不做限定。
若3D打印设计系统确定该目标打印文件不满足第一安全标准,则3D打印设计系统可以不向3D打印系统发送该目标打印文件,也可以对该目标打印文件进行处理后再发送给3D打印系统,也可以采取其它方法,具体将在后面的实施例中详述,本实施例中不做限定。
本实施例中,3D打印设计系统设计好目标打印文件后,判断该目标打印文件是否满足第一安全标准,若目标打印文件满足第一安全标准,则将目标打印文件发送给3D打印系统,使得3D打印系统按照所述目标打印文件进行打印。通过对目标打印文件是否满足第一安全标准的判断,实现了3D打印设计系统对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
图1所示的实施例给出了本发明实施例提供的3D打印设计方法的基本流程,其中,3D打印设计系统在确定目标打印文件后,判断该文件是否满足第一安全标准,并根据判断结果确定是否将目标打印文件发送给3D打印系统。下面的实施例将在图1所示的实施例的基础上,进一步解释3D打印设计系统如何判断该文件是否满足第一安全标准,请参见图2,本发明提供的3D打印设计方法的又一实施例的基本流程包括:
201、3D打印设计系统确定目标打印文件;
步骤201与步骤101基本相同,此处不做赘述。
202、3D打印设计系统获取目标打印文件对应的目标产品属性;
3D打印设计系统所设计的目标打印文件均对应有目标产品,如:若3D 打印设计系统设计了关于汽车的目标打印文件,则该目标打印文件对应的目标产品就为汽车。同时,目标产品有着自身的属性,该属性可以为:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、目标产品的用途信息,也可以为其它方面的属性,此处不做限定。
本实施例中,3D打印设计系统获取目标打印文件对应的目标产品属性。
203、3D打印设计系统根据该目标产品属性,获取目标打印文件对应的目标产品类别;
3D打印设计系统获取了目标打印文件对应的目标产品属性后,就可以根据该目标产品属性,获取目标打印文件对应的目标产品类别,其中,目标产品类别用于表示所述目标打印文件的分类。
其中,根据该目标产品属性获取目标打印文件对应的目标产品类别的标准有很多,例如:根据目标产品属性中的目标产品的原材料种类来判断目标产品类别,若目标产品的原材料种类为铁,则目标产品类别为金属制品;若目标产品的原材料种类为聚乙烯,则目标产品类别为塑料制品。或,根据目标产品属性中的目标产品的用途来判断目标产品类别,若目标产品的用途为代步,则目标产品类别为交通工具;若目标产品的用途为承装液体,则目标产品类别为容器。3D打印设计系统也可以根据该目标产品的其它属性来获取目标打印文件对应的目标产品类别,也可以根据目标产品的多个方面的属性来获取目标打印文件对应的目标产品类别,此处不做限定。
其中,目标产品的类别也可以简单的分为安全类产品与非安全类产品。例如,若3D打印设计系统从目标产品属性中获知:该目标产品的原材料中包含违禁原料、或该目标产品的空间形状为武器等违禁品的形状、或该目标产品的制造工艺流程涉及到违禁品的制造工艺、或该目标产品用于可能危害公民的生命财产安全的行为活动,则3D打印设计系统确定目标产品类别为非安全类产品。3D打印设计系统也可以根据其他方面的目标产品属性确定目标产品类别为非安全类产品,或确定目标产品类别为安全类产品,此处不做限定。
204、3D打印设计系统根据产品类别与第一安全标准的对应关系,判断目标打印文件是否满足第一安全标准;
3D打印设计系统获取了目标打印文件对应的目标产品类别后,就可以进一步判断目标打印文件是否满足第一安全标准。其中,产品类别与第一安全标准之间有对应关系,如:金属制品对应满足第一安全标准、塑料制品对应不满足第一标准等。
获取产品类别与第一安全标准的对应关系的方法有很多,可以为人为设置,也可以为3D打印设计系统自发的从服务器获取,也可以3D打印设计系统被动的从服务器接受,也可以为其他方式,此处不做限定。3D打印设计系统根据产品类别与第一安全标准的对应关系,判断该目标产品类别对应的目标打印文件是否满足第一安全标准。
特别地,若步骤203中,产品类别只有安全类产品与非安全类产品,则3D打印设计系统根据产品类别与第一安全标准的对应关系,判断所述目标打印文件是否满足第一安全标准包括:若目标产品类别为安全类产品,则3D打印设计系统确定目标打印文件满足第一安全标准,若目标产品类别为非安全类产品,则3D打印设计系统确定所述目标打印文件不满足第一安全标准。
其中,若3D打印设计系统确定目标打印文件满足第一安全标准,则执行步骤205;
若3D打印设计系统确定目标打印文件不满足第一安全标准,则执行步骤206。
205、3D打印设计系统将目标打印文件发送给3D打印系统;
若3D打印设计系统确定目标打印文件满足第一安全标准,则将目标打印文件发送给3D打印系统,使得3D打印系统按照所述目标打印文件进行打印。
206、3D打印设计系统执行其他操作。
若3D打印设计系统确定目标打印文件不满足第一安全标准,则执行其他操作,包括:3D打印设计系统不向3D打印系统发送该目标打印文件、或3D打印设计系统对该目标打印文件进行处理后再发送给3D打印系统,也可以为其它操作,具体将在后面的实施例中详述,本实施例中不做限定。
其中,为了防止目标打印文件等信息被篡改,影响到目标打印文件的安全性的判别,3D打印设计系统与3D打印系统之间的数据传输可以均经过非对称加密。
本实施例在图1所示的实施例的基础上对3D打印设计系统如何判断目标打印文件是否满足第一安全标准做出了细化,其中,3D打印设计系统确定了目标打印文件后,获取目标打印文件对应的目标产品属性,进而获取目标打印文件对应的目标产品类别,然后根据产品类别与第一安全标准的对应关系,判断目标打印文件是否满足第一安全标准,若满足,则将目标打印文件发送给3D打印系统。通过这样的方法,使得3D打印设计系统可以判断目标打印文件是否满足第一安全标准,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
图2所示的实施例提供了一种方法,详细解释了3D打印设计系统如何判断目标打印文件是否满足第一安全标准。其中,3D打印设计系统确定了目标打印文件后,判断目标打印文件是否满足第一安全标准,若满足,则将目标打印文件发送给3D打印系统,若不满足,则执行其他操作。下面的实施例中将详细描述当3D打印设计系统确定目标打印文件不满足第一安全标准时,具体如何执行其他操作,请参见图3。本发明的又一实施例的基本流程包括:
301、3D打印设计系统确定目标打印文件;
302、3D打印设计系统获取目标打印文件对应的目标产品属性;
303、3D打印设计系统根据该目标产品属性,获取目标打印文件对应的目标产品类别;
304、3D打印设计系统根据产品类别与第一安全标准的对应关系,判断目标打印文件是否满足第一安全标准;
步骤301至304与步骤201至204基本相同,此处不做赘述。
其中,若步骤304中3D打印设计系统确定目标打印文件满足第一安全标准,则执行步骤307;若3D打印设计系统确定目标打印文件不满足第一安全标准,则执行步骤305。
305、3D打印设计系统向打印许可中心发送第一许可请求信息;
若3D打印设计系统确定目标打印文件不满足第一安全标准,则3D打印设计系统向打印许可中心发送第一许可请求信息。
其中,打印许可中心用于判断该打印许可中心接收到的请求信息是否符合特定的安全标准,若符合,则颁发该文件对应的打印许可,打印许可表示允许 3D打印系统按照所述目标打印文件进行打印。
其中,一个完善的3D打印系统可能包含不止一个打印许可中心。3D打印设计系统可以根据目标打印文件寻找对应的打印许可中心。
其中,第一许可请求信息用于向打印许可中心请求打印许可,该第一许可请求信息中可以包括:目标打印文件、或目标产品属性、或目标产品类别,也可以为其他信息,此处不做限定。
306、3D打印设计系统判断是否接收到许可中心发送的第一打印许可;
3D打印设计系统向打印许可中心发送第一许可请求信息后,该打印许可中心将判断第一许可请求信息是否满足第二安全标准,若满足,则向3D打印设计系统发送第一打印许可。3D打印设计系统判断是否接收到所述许可中心发送的第一打印许可。其中,第二安全标准为许可中心判断接收到的请求信息所对应的打印文件是否安全的标准。
其中,若3D打印设计系统确定接收到许可中心发送的第一打印许可,则说明打印许可中心确定所述第一许可请求信息满足第二安全标准,执行步骤307;
若3D打印设计系统确定没有接收到许可中心发送的第一打印许可,则说明打印许可中心确定所述第一许可请求信息不满足第二安全标准,执行步骤308;
307、3D打印设计系统将目标打印文件发送给3D打印系统;
若3D打印设计系统确定目标打印文件满足第一安全标准,或确定接收到许可中心发送的第一打印许可,则3D打印设计系统将目标打印文件发送给3D打印系统,使得3D打印系统按照所述目标打印文件进行打印。
308、3D打印设计系统执行其他操作。
若3D打印设计系统确定目标打印文件不满足第一安全标准,且3D打印设计系统确定没有接收到许可中心发送的第一打印许可,则3D打印设计系统执行其他操作,包括:3D打印设计系统不向3D打印系统发送该目标打印文件、或D打印设计系统对该目标打印文件进行处理后再发送给3D打印系统,也可以为其它操作,本实施例中不做限定。
其中,为了防止目标打印文件、许可请求信息或打印许可等信息被篡改, 影响到目标打印文件的安全性的判别,3D打印设计系统、打印许可中心与3D打印系统之间的数据传输可以均经过非对称加密。
本实施例详细解释了当3D打印设计系统确定目标打印文件不满足第一安全标准时,具体如何执行其他操作。其中,若3D打印设计系统确定目标打印文件不满足第一安全标准,则3D打印设计系统向打印许可中心发送第一许可请求信息,然后判断是否接收到所述许可中心发送的第一打印许可。若3D打印设计系统确定接收到许可中心发送的第一打印许可,则说明打印许可中心确定所述第一许可请求信息满足第二安全标准,3D打印设计系统将目标打印文件发送给3D打印系统,使得3D打印系统按照所述目标打印文件进行打印。本实施例所提供的方法实现了3D打印设计系统与打印许可中心对目标打印文件安全性的二次判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
图3所示的实施例提供了一种3D打印设计方法,其中打印许可中心可以对接收到的文件进行安全判别。下面的实施例将在图3所示的实施例的基础上提供一种新的3D打印设计方法,可以减少打印许可中心进行安全判别的任务量。请参见图4,本发明又一实施例的基本流程包括:
401、3D打印设计系统接收许可中心发送的预判断打印许可,并保存该预判断打印许可;
许可中心要接收一个或多个3D打印设计系统发送的许可请求,因此该许可中心接收的数据量非常庞大,处理较多的数据会造成许可中心效率低下、服务器负荷过重等许多问题。因此,许可中心可以将预判断打印许可发送给3D打印设计系统,该预判断打印许可对应有预置种类的目标打印文件,具体可以对应具有某种目标产品属性的目标打印文件,如若该预判断打印许可对应目标产品的原材料种类为塑料的目标打印文件,则所有目标产品的原材料种类为塑料的目标打印文件均与该目标产品;也可以对应类别为目标产品类别的目标打印文件,如对应目标产品类别为安全类产品的目标打印文件。预判断打印许可对应的目标打印文件也可以为其他预置种类,此处不做限定。
3D打印设计系统接收许可中心发送的预判断打印许可,并保存该预判断打印许可。
402、3D打印设计系统确定目标打印文件;
403、3D打印设计系统获取目标打印文件对应的目标产品属性;
404、3D打印设计系统根据该目标产品属性,获取目标打印文件对应的目标产品类别;
405、3D打印设计系统根据产品类别与第一安全标准的对应关系,判断目标打印文件是否满足第一安全标准;
步骤402至405与步骤301至304基本相同,此处不做赘述。
其中,若步骤405中3D打印设计系统确定目标打印文件满足第一安全标准,则执行步骤409;若3D打印设计系统确定目标打印文件不满足第一安全标准,则执行步骤406。
406、3D打印设计系统判断是否保存有与目标打印文件对应的预判断打印许可;
若3D打印设计系统确定目标打印文件不满足第一安全标准,则判断是否保存有与目标打印文件对应的预判断打印许可;
其中,若3D打印设计系统确定保存有与目标打印文件对应的预判断打印许可,则执行步骤409;
若3D打印设计系统确定没有保存与目标打印文件对应的预判断打印许可,则执行步骤407;
407、3D打印设计系统向打印许可中心发送第一许可请求信息;
若3D打印设计系统确定定没有保存与目标打印文件对应的预判断打印许可,则向打印许可中心发送第一许可请求信息。
其中,打印许可中心用于判断该打印许可中心接收到的请求信息是否符合第二安全标准,若符合,则颁发该文件对应的打印许可,打印许可表示允许3D打印系统按照所述目标打印文件进行打印。
其中,第一许可请求信息用于向打印许可中心请求打印许可,该第一许可请求信息中可以包括:目标打印文件、或目标产品属性、或目标产品类别,也可以为其他信息,此处不做限定。
408、3D打印设计系统判断是否接收到许可中心发送的第一打印许可;
3D打印设计系统向打印许可中心发送第一许可请求信息后,该打印许可 中心将判断第一许可请求信息是否满足第二安全标准,并根据判断结果发送打印许可。3D打印设计系统判断是否接收到所述许可中心发送的第一打印许可。
其中,若3D打印设计系统确定接收到许可中心发送的第一打印许可,则说明打印许可中心确定所述第一许可请求信息满足第二安全标准,执行步骤409;
若3D打印设计系统确定没有接收到许可中心发送的第一打印许可,则说明打印许可中心确定所述第一许可请求信息不满足第二安全标准,执行步骤410。
409、3D打印设计系统将所述目标打印文件发送给3D打印系统;
若3D打印设计系统确定目标打印文件满足第一安全标准、或确定保存有与所述目标打印文件对应的预判断打印许可、或确定接收到许可中心发送的第一打印许可,则3D打印设计系统将所述目标打印文件发送给3D打印系统。
410、3D打印设计系统执行其他操作。
若3D打印设计系统确定目标打印文件不满足第一安全标准、且确定没有保存与所述目标打印文件对应的预判断打印许可、且3D打印设计系统确定没有接收到许可中心发送的第一打印许可,则3D打印设计系统执行其他操作,包括:3D打印设计系统不向3D打印系统发送该目标打印文件、或D打印设计系统对该目标打印文件进行处理后再发送给3D打印系统,也可以为其它操作,本实施例中不做限定。
其中,步骤401也可以位于步骤402至405中任一项之后,只要位于步骤406之前即可,本实施例中不做限定。
其中,为了防止目标打印文件、许可请求信息或打印许可等信息被篡改,影响到目标打印文件的安全性的判别,3D打印设计系统、打印许可中心与3D打印系统之间的数据传输可以均经过非对称加密。
图4所示的实施例提供了一种3D打印设计方法,使得3D打印设计系统可以根据预判断打印许可对目标打印文件进行安全性判别。其中,若3D打印设计系统确定目标打印文件不满足第一安全标准,则3D打印设计系统判断是否保存有与目标打印文件对应的预判断打印许可,若是,则所述3D打印设计系统将所述目标打印文件发送给3D打印系统。通过这种方法,实现了3D打 印设计系统与打印许可中心对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。同时,由于3D打印设计系统在向打印许可中心发送第一许可请求信息前,先判断是否保存有与目标打印文件对应的预判断打印许可,若是则将所述目标打印文件直接发送给3D打印系统,使得部分安全判别操作在3D打印设计系统内就可以完成,减少了打印许可中心接收的许可请求数目与安全判别操作次数,进而减轻了打印许可中心的负荷,提高了对目标打印文件安全性判别的效率。
图4所示的实施例提供了一种方法,该方法可以提高对目标打印文件安全性判别的效率。下面的实施例将提供另一种3D打印设计方法,用于提高对目标打印文件安全性判别的准确度,请参阅图5,本发明提供的又一实施例的基本流程包括:
501、3D打印设计系统接收许可中心发送的预判断打印许可,并保存该预判断打印许可;
502、3D打印设计系统确定目标打印文件;
503、3D打印设计系统获取目标打印文件对应的目标产品属性;
504、3D打印设计系统根据该目标产品属性,获取目标打印文件对应的目标产品类别;
505、3D打印设计系统根据产品类别与第一安全标准的对应关系,判断目标打印文件是否满足第一安全标准;
步骤501至505与步骤401至405基本相同,此处不做赘述。
其中,若步骤505中3D打印设计系统确定目标打印文件满足第一安全标准,则执行步骤509;若3D打印设计系统确定目标打印文件不满足第一安全标准,则执行步骤506。
506、3D打印设计系统判断是否保存有与目标打印文件对应的预判断打印许可;
若3D打印设计系统确定目标打印文件不满足第一安全标准,则判断是否保存有与目标打印文件对应的预判断打印许可;
其中,若3D打印设计系统确定保存有与目标打印文件对应的预判断打印 许可,则执行步骤509;
若3D打印设计系统确定没有保存与目标打印文件对应的预判断打印许可,则执行步骤507;
507、3D打印设计系统向打印许可中心发送第一许可请求信息;
508、3D打印设计系统判断是否接收到许可中心发送的第一打印许可;
步骤507、508与步骤407、408基本相同,此处不做赘述。
其中,若3D打印设计系统确定接收到许可中心发送的第一打印许可,则说明打印许可中心确定所述第一许可请求信息满足第二安全标准,执行步骤509;
若3D打印设计系统确定没有接收到许可中心发送的第一打印许可,则说明打印许可中心确定所述第一许可请求信息不满足第二安全标准,执行步骤510。
509、3D打印设计系统将目标打印文件发送给3D打印系统;
510、3D打印设计系统执行其他操作。
步骤509、510与步骤409、410基本相同,此处不做赘述。
511、3D打印设计系统从打印许可中心获取目标服务器地址;
3D打印设计系统可以获取产品类别与第一安全标准的对应关系,并根据该对应关系判断目标打印文件是否满足第一安全标准。但是,在实际应用中,产品类别与第一安全标准的对应关系可能会由于政府政策、科技发展等原因而发生变化。例如按照原有的产品类别与第一安全标准的对应关系,某类刀具满足该第一安全标准,但是按照更新后的产品类别与第一安全标准的对应关系,某类刀具就满足该第一安全标准。若产品类别与第一安全标准的对应关系发生了变化,但3D打印设计系统没有更新该对应关系,那么3D打印设计系统根据未更新的对应关系所进行的判断的结果是不准确的。因此,3D打印设计系统需要时常更新产品类别与第一安全标准的对应关系。
本实施中,产品类别与第一安全标准的最新对应关系保存在目标服务器上,3D打印设计系统从打印许可中心获取目标服务器地址,所述目标服务器地址为目标服务器的地址。
512、3D打印设计系统访问该目标服务器地址,并从该目标服务器中下载 更新文件;
3D打印设计系统从打印许可中心获取目标服务器地址后,访问该目标服务器地址,并从该目标服务器中下载更新文件,所述更新文件用于更新产品类别与第一安全标准的对应关系。
513、3D打印设计系统根据更新文件更新产品类别与第一安全标准的对应关系。
3D打印设计系统从目标服务器中下载更新文件后,根据该更新文件更新产品类别与第一安全标准的对应关系。
其中,步骤511至513也可以位于步骤501至510中任一项之前,本实施例中不做限定。
其中,步骤511至513也可以每隔预置时常便执行一次,本实施例中不做限定。
其中,为了防止目标打印文件、许可请求信息或打印许可等信息被篡改,影响到目标打印文件的安全性的判别,3D打印设计系统、打印许可中心与3D打印系统之间的数据传输可以均经过非对称加密。
本实施例提供了一种3D打印设计方法,其中,3D打印设计系统根据产品类别与第一安全标准的对应关系对目标打印文件的安全性进行判别,并时常更新产品类别与第一安全标准的对应关系。通过这种方法,实现了3D打印设计系统与打印许可中心对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。同时,由于3D打印设计系统时常更新产品类别与第一安全标准的对应关系,使得3D打印设计系统所获取的产品类别与第一安全标准的对应关系更具有实时性,根据产品类别与第一安全标准的对应关系对目标打印文件所做的安全性判别更加准确可信。
为了便于理解上述实施例,下面将以上述实施例的一个具体应用场景为例进行说明:
3D打印设计系统从许可中心接收到预判断打印许可,并保存该预判断打印许可。该预判断打印许可的内容为:用于警用用途的枪支满足该预判断打印许可,但是用于军用用途的枪支不满足该预判断打印许可。
用户使用该3D打印设计系统设计了一份小型枪支的打印文件。3D打印设计系统确定打印文件设计完成后,获取这份打印文件的目标产品属性,该属性中包括:设计的产品为枪支、枪支口径为5.8毫米、该枪支用于军事用途。由该属性可以获知,该打印文件设计的产品为枪支,由于枪支具有一定的危害性,故3D打印设计系统将该打印文件的目标产品类别划分为非安全类产品,并确定该打印文件不符合第一安全标准。于是3D打印设计系统判断是否保存有与该打印文件对应的预判断打印许可。由于该3D打印设计系统保存的预判断打印许可只许可警用用途,不许可军用用途,所以3D打印设计系统确定未保存有与该打印文件对应的预判断打印许可。因此,3D打印设计系统向打印许可中心发送第一许可请求信息,其中,第一许可请求信息的内容为该打印文件的目标产品属性。
打印许可中心经过安全性判别,认为该小型枪支可以被生产,所以打印许可中心向3D打印设计系统发送第一打印许可。3D打印设计系统接收到第一打印许可后,将该小型枪支的打印文件发送给3D打印系统。
3D打印设计系统每隔预置时长,就会从许可中心获取目标服务器地址,访问该目标服务器地址,并从目标服务器中下载更新文件,根据更新文件更新所述产品类别与第三安全标准的对应关系。
图1至图5所示的实施例提供了多种3D打印设计方法,从3D打印设计系统的角度实现了对目标产品的管制。下面的实施例将提供一种3D打印方法,从3D打印系统的角度实现对目标产品的管制,请参阅图6,本发明实施例提供的3D打印方法的基本流程包括:
601、3D打印系统获取目标打印文件;
在3D打印的整个流程中,3D打印设计系统主要负责目标打印文件的设计,对目标打印文件的打印操作主要由3D打印系统来完成。其中,为了打印所述目标打印文件,3D打印系统首先要获取该目标打印文件。
其中,3D打印系统可以从3D打印设计系统获取所述目标打印文件、也可以从打印许可中心获取所述目标打印文件、也可以通过其他途径获取所述目标打印文件,此处不做限定。
602、3D打印系统判断是否接收到打印许可中心发送的第二打印许可;
在图3至图5所示的实施例中,3D打印设计系统会向打印许可中心发送第一许可请求信息。其中,许可中心在接收到该第一许可请求信息,并确定该第一许可请求信息满足第二安全性标准后,可以不向3D打印设计系统发送第一打印许可,而向3D打印系统发送第二打印许可。本实施例中,3D打印系统判断是否接收到打印许可中心发送的第二打印许可。
603、若3D打印系统确定接收到打印许可中心发送的第二打印许可,则打印目标打印文件。
若3D打印系统确定接收到打印许可中心发送的第二打印许可,则说明打印许可中心确定该第一许可请求信息满足第二安全性标准,即目标打印文件满足第二安全性标准,故3D打印系统打印所述目标打印文件。
其中,为了防止目标打印文件、许可请求信息或打印许可等信息被篡改,影响到目标打印文件的安全性的判别,3D打印设计系统、打印许可中心与3D打印系统之间的数据传输可以均经过非对称加密。
本实施例提供了一种3D打印方法,其中,3D打印系统获取目标打印文件、判断是否接收到打印许可中心发送的第二打印许可,若判断结果为是,则打印目标打印文件。本实施例通过对是否接收到第二打印许可的判别,实现了3D打印系统对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
为了便于理解上述实施例,下面将以上述实施例的一个具体应用场景为例进行说明:
3D打印系统从3D打印设计系统处获得了一份小型枪支的打印文件,并从打印许可中心接收到了关于该打印文件的第二打印许可。于是3D打印系统打印该打印文件,打印出的目标产品为小型枪支。
图6所示的实施例提供了一种3D打印方法,其中,3D打印系统通过从打印许可中心获取第二打印许可来进行安全性判别。下面的实施例将提出另一种3D打印方法,该方法采用另一种方式进行安全性判别。请参见图7,本发明又一实施例的基本流程包括:
701、3D打印系统获取目标打印文件;
在3D打印的整个流程中,3D打印设计系统主要负责目标打印文件的设 计,对目标打印文件的打印操作主要由3D打印系统来完成。其中,为了打印所述目标打印文件,3D打印系统首先要获取该目标打印文件。
其中,3D打印系统可以从3D打印设计系统获取所述目标打印文件、也可以从打印许可中心获取所述目标打印文件、也可以通过其他途径获取所述目标打印文件,此处不做限定。
702、3D打印系统判断目标打印文件是否满足第三安全标准;
3D打印系统确定该目标打印文件后,判断该目标打印文件是否满足第三安全标准。3D打印系统判断该目标打印文件是否满足第三安全标准的方法有很多,将在后面的实施例中详述,本实施例中不做限定。
703、若3D打印系统确定目标打印文件满足第三安全标准,则3D打印系统打印所述目标打印文件。
若3D打印系统确定目标打印文件满足第三安全标准,则3D打印系统打印所述目标打印文件;若3D打印系统确定目标打印文件不满足第三安全标准,则3D打印设计系统可以不打印该目标打印文件,也可以对该目标打印文件进行处理后再打印,也可以采取其它方法,具体将在后面的实施例中详述,本实施例中不做限定。
其中,为了防止目标打印文件、许可请求信息或打印许可等信息被篡改,影响到目标打印文件的安全性的判别,3D打印设计系统、打印许可中心与3D打印系统之间的数据传输可以均经过非对称加密。
本实施例中,3D打印制造系统获取目标打印文件后,判断该目标打印文件是否满足第三安全标准,若目标打印文件满足第三安全标准,则打印该目标打印文件。本实施例通过3D打印系统通过对目标打印文件是否满足第三安全标准的判断,实现了3D打印系统对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
图7所示的实施例给出了本发明实施例提供的3D打印方法的基本流程,其中,3D打印系统在获取目标打印文件后,判断该文件是否满足第三安全标准,并根据判断结果确定是否打印该目标打印文件。下面的实施例将在图7所示的实施例的基础上,进一步解释3D打印系统如何判断该文件是否满足第 三安全标准,请参见图8,本发明提供的3D打印方法的又一实施例的基本流程包括:
801、3D打印系统获取目标打印文件;
步骤801与步骤701基本相同,此处不做赘述。
802、3D打印系统获取目标打印文件对应的目标产品属性;
目标打印文件均对应有目标产品,同时,目标产品有着自身的属性,该属性可以为:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息,也可以为其它方面的属性,此处不做限定。
本实施例中,3D打印系统获取目标打印文件对应的目标产品属性。
803、3D打印系统根据该目标产品属性,获取目标打印文件对应的目标产品类别;
3D打印系统获取了目标打印文件对应的目标产品属性后,就可以根据该目标产品属性,获取目标打印文件对应的目标产品类别,其中,目标产品类别用于表示所述目标打印文件的分类。
其中,根据该目标产品属性获取目标打印文件对应的目标产品类别的标准有很多,包括:根据目标产品属性中的目标产品的原材料种类来判断目标产品类别,例如当目标产品的原材料种类为铁时,目标产品类别为金属制品;若目标产品的原材料种类为聚乙烯,则目标产品类别为塑料制品。或,根据目标产品属性中的目标产品的用途来判断目标产品类别,若目标产品的用途为代步,则目标产品类别为交通工具;若目标产品的用途为承装液体,则目标产品类别为容器。3D打印系统也可以根据该目标产品的其它属性来获取目标打印文件对应的目标产品类别,也可以根据目标产品的多个方面的属性来获取目标打印文件对应的目标产品类别,此处不做限定。
其中,目标产品的类别也可以简单的分为安全类产品与非安全类产品。例如,若3D打印系统从目标产品属性中获知:该目标产品的原材料中包含违禁原料、或该目标产品的空间形状为武器等违禁品的形状、或该目标产品的制造工艺流程涉及到违禁品的制造工艺、或该目标产品用于可能危害公民的生命财产安全的行为活动,则3D打印系统确定目标产品类别为非安全类产品。3D 打印系统也可以根据其他方面的目标产品属性确定目标产品类别为非安全类产品,或确定目标产品类别为安全类产品,此处不做限定。
804、3D打印系统根据产品类别与第三安全标准的对应关系,判断目标打印文件是否满足第三安全标准;
3D打印系统获取了目标打印文件对应的目标产品类别后,就可以进一步判断目标打印文件是否满足第三安全标准。其中,产品类别与第三安全标准之间有对应关系,如:金属制品对应满足第三安全标准、塑料制品对应不满足第三标准等。
获取产品类别与第三安全标准的对应关系的方法有很多,可以为人为设置,也可以为3D打印系统自发的从服务器获取,也可以3D打印系统被动的从服务器接受,也可以为其他方式,此处不做限定。3D打印系统根据产品类别与第三安全标准的对应关系,判断该目标产品类别对应的目标打印文件是否满足第一安全标准。
特别地,若步骤803中,产品类别只有安全类产品与非安全类产品,则3D打印系统根据产品类别与第三安全标准的对应关系,判断所述目标打印文件是否满足第三安全标准包括:若目标产品类别为安全类产品,则3D打印系统确定目标打印文件满足第三安全标准,若目标产品类别为非安全类产品,则3D打印系统确定所述目标打印文件不满足第三安全标准。
其中,若3D打印系统确定目标打印文件满足第三安全标准,则执行步骤805;
若3D打印系统确定目标打印文件不满足第一安全标准,则执行步骤806。
805、3D打印系统打印所述目标打印文件;
若3D打印系统确定目标打印文件满足第三安全标准,则打印所述目标打印文件。
806、3D打印系统执行其他操作。
若3D打印系统确定目标打印文件不满足第三安全标准,则执行其他操作,包括:3D打印系统不打印该目标打印文件、或3D打印设计系统对该目标打印文件进行处理后再打印,也可以为其它操作,具体将在后面的实施例中详述,本实施例中不做限定。
其中,为了防止目标打印文件、许可请求信息或打印许可等信息被篡改,影响到目标打印文件的安全性的判别,3D打印设计系统、打印许可中心与3D打印系统之间的数据传输可以均经过非对称加密。
本实施例在图7所示的实施例的基础上对3D打印系统如何判断目标打印文件是否满足第三安全标准做出了细化,其中,3D打印系统确定了目标打印文件后,获取目标打印文件对应的目标产品属性,进而获取目标打印文件对应的目标产品类别,然后根据产品类别与第一安全标准的对应关系,判断目标打印文件是否满足第三安全标准,若满足,则打印所述目标打印文件。通过这样的方法,使得3D打印系统可以判断目标打印文件是否满足第三安全标准,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
图8所示的实施例提供了一种方法,详细解释了3D打印系统如何判断目标打印文件是否满足第三安全标准。其中,3D打印系统确定了目标打印文件后,判断目标打印文件是否满足第三安全标准,若满足,则打印目标打印文件,若不满足,则执行其他操作。下面的实施例中将详细描述当3D打印系统确定目标打印文件不满足第三安全标准时,具体如何执行其他操作,请参见图9。本发明的又一实施例的基本流程包括:
901、3D打印系统获取目标打印文件;
902、3D打印系统获取目标打印文件对应的目标产品属性;
903、3D打印系统根据该目标产品属性,获取目标打印文件对应的目标产品类别;
904、3D打印系统根据产品类别与第三安全标准的对应关系,判断目标打印文件是否满足第三安全标准;
步骤901至904与步骤801至804基本相同,此处不做赘述。
其中,若步骤904中3D打印系统确定目标打印文件满足第三安全标准,则执行步骤907;
若3D打印系统确定目标打印文件不满足第三安全标准,则执行步骤905。
905、3D打印系统向打印许可中心发送第二许可请求信息;
若3D打印系统确定目标打印文件不满足第三安全标准,则3D打印系统 向打印许可中心发送第二许可请求信息。
其中,打印许可中心用于判断该打印许可中心接收到的请求信息是否符合特定的安全标准,若符合,则颁发该文件对应的打印许可,打印许可表示允许3D打印系统按照所述目标打印文件进行打印。
其中,一个完善的3D打印系统可能包含不止一个打印许可中心。3D打印系统可以根据目标打印文件寻找对应的打印许可中心。
其中,第二许可请求信息用于向打印许可中心请求打印许可,该第二许可请求信息中可以包括:目标打印文件、或目标产品属性、或目标产品类别,也可以为其他信息,此处不做限定。
906、3D打印系统判断是否接收到许可中心发送的第二打印许可;
3D打印系统向打印许可中心发送第二许可请求信息后,该打印许可中心将判断第二许可请求信息是否满足第二安全标准,若满足,则向3D打印系统发送第二打印许可。3D打印系统判断是否接收到所述许可中心发送的第二打印许可。
其中,若3D打印系统确定接收到许可中心发送的第二打印许可,则说明打印许可中心确定所述第二许可请求信息满足第二安全标准,执行步骤907;
若3D打印系统确定没有接收到许可中心发送的第二打印许可,则说明打印许可中心确定所述第二许可请求信息不满足第二安全标准,执行步骤908;
907、3D打印系统打印所述目标打印文件;
若3D打印系统确定目标打印文件满足第三安全标准,或确定接收到许可中心发送的第二打印许可,则3D打印系统打印所述目标打印文件。
908、3D打印系统执行其他操作。
若3D打印系统确定目标打印文件不满足第三安全标准,或3D打印系统确定没有接收到许可中心发送的第二打印许可,则3D打印系统执行其他操作,包括:3D打印系统不向3D打印系统发送该目标打印文件、或D打印制造系统对该目标打印文件进行处理后再发送给3D打印系统,也可以为其它操作,本实施例中不做限定。
其中,为了防止目标打印文件、许可请求信息或打印许可等信息被篡改,影响到目标打印文件的安全性的判别,3D打印设计系统、打印许可中心与3D 打印系统之间的数据传输可以均经过非对称加密。
本实施例详细解释了当3D打印系统确定目标打印文件不满足第三安全标准时,具体如何执行其他操作。其中,若3D打印系统确定目标打印文件不满足第三安全标准,则3D打印系统向打印许可中心发送第二许可请求信息,然后判断是否接收到所述许可中心发送的第二打印许可。若3D打印系统确定接收到许可中心发送的第二打印许可,则说明打印许可中心确定所述第二许可请求信息满足第二安全标准,3D打印系统打印目标打印文件。本实施例所提供的方法实现了3D打印系统与打印许可中心对目标打印文件安全性的二次判别,与3D打印系统单独进行安全性判别或许可中心单独进行安全性判别相比,本实施例通过二次判别提高了整个3D打印流程对目标打印安全性判别的准确度,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
图9所示的实施例提供了一种3D打印方法,其中打印许可中心可以对接收到的文件进行安全判别。下面的实施例将在图9所示的实施例的基础上提供一种新的3D打印方法,可以减少打印许可中心进行安全判别的任务量。请参见图10,本发明又一实施例的基本流程包括:
1001、3D打印系统接收许可中心发送的预判断打印许可,并保存该预判断打印许可;
许可中心要接收一个或多个3D打印系统发送的许可请求,因此该许可中心接收的数据量非常庞大,处理较多的数据会造成许可中心效率低下、服务器负荷过重等许多问题。因此,许可中心可以将预判断打印许可发送给3D打印系统,该预判断打印许可对应有预置种类的目标打印文件,具体可以对应具有某种目标产品属性的目标打印文件,如若该预判断打印许可对应目标产品的原材料种类为塑料的目标打印文件,则所有目标产品的原材料种类为塑料的目标打印文件均与该目标产品;也可以对应类别为目标产品类别的目标打印文件,如对应目标产品类别为安全类产品的目标打印文件。预判断打印许可对应的目标打印文件也可以为其他预置种类,此处不做限定。
3D打印系统接收许可中心发送的预判断打印许可,并保存该预判断打印许可。
1002、3D打印系统获取目标打印文件;
1003、3D打印系统获取目标打印文件对应的目标产品属性;
1004、3D打印系统根据该目标产品属性,获取目标打印文件对应的目标产品类别;
1005、3D打印系统根据产品类别与第三安全标准的对应关系,判断目标打印文件是否满足第三安全标准;
步骤1002至1005与步骤901至904基本相同,此处不做赘述。
其中,若步骤1005中3D打印系统确定目标打印文件满足第三安全标准,则执行步骤1009;
若3D打印系统确定目标打印文件不满足第三安全标准,则执行步骤1006。
1006、3D打印系统判断是否保存有与目标打印文件对应的预判断打印许可;
若3D打印系统确定目标打印文件不满足第三安全标准,则判断是否保存有与目标打印文件对应的预判断打印许可;
其中,若3D打印系统确定保存有与目标打印文件对应的预判断打印许可,则执行步骤1009;
若3D打印系统确定没有保存与目标打印文件对应的预判断打印许可,则执行步骤1007;
1007、3D打印系统向打印许可中心发送第二许可请求信息;
若3D打印系统确定目标打印文件不满足第三安全标准,则3D打印系统向打印许可中心发送第二许可请求信息。
其中,打印许可中心用于判断该打印许可中心接收到的请求信息是否符合特定的安全标准,若符合,则颁发该文件对应的打印许可,打印许可表示允许3D打印系统按照所述目标打印文件进行打印。
其中,第二许可请求信息用于向打印许可中心请求打印许可,该第二许可请求信息中可以包括:目标打印文件、或目标产品属性、或目标产品类别,也可以为其他信息,此处不做限定。
1008、3D打印系统判断是否接收到许可中心发送的第二打印许可;
3D打印系统向打印许可中心发送第二许可请求信息后,该打印许可中心 将判断第二许可请求信息是否满足第二安全标准,若满足,则向3D打印系统发送第二打印许可。3D打印系统判断是否接收到所述许可中心发送的第二打印许可。
其中,若3D打印系统确定接收到许可中心发送的第二打印许可,则说明打印许可中心确定所述第二许可请求信息满足第二安全标准,执行步骤1009;
若3D打印系统确定没有接收到许可中心发送的第二打印许可,则说明打印许可中心确定所述第二许可请求信息不满足第二安全标准,执行步骤1010。
1009、3D打印系统打印所述目标打印文件;
若3D打印系统确定目标打印文件满足第三安全标准、或确定保存有与所述目标打印文件对应的预判断打印许可、或确定接收到许可中心发送的第二打印许可,则3D打印系统打印所述目标打印文件。
1010、3D打印系统执行其他操作。
若3D打印系统确定目标打印文件不满足第三安全标准、且确定没有保存与所述目标打印文件对应的预判断打印许可、且确定没有接收到许可中心发送的第二打印许可,则3D打印系统执行其他操作,包括:3D打印设计系统不向3D打印系统发送该目标打印文件、或D打印设计系统对该目标打印文件进行处理后再发送给3D打印系统,也可以为其它操作,本实施例中不做限定。
其中,步骤1001也可以位于步骤1002至1005中任一项之后,只要位于步骤1006之前即可,本实施例中不做限定。
其中,为了防止目标打印文件、许可请求信息或打印许可等信息被篡改,影响到目标打印文件的安全性的判别,3D打印设计系统、打印许可中心与3D打印系统之间的数据传输可以均经过非对称加密。
图10所示的实施例提供了一种3D打印方法,使得3D打印系统可以根据预判断打印许可对目标打印文件进行安全性判别。其中,若3D打印系统确定目标打印文件不满足第三安全标准,则3D打印系统判断是否保存有与目标打印文件对应的预判断打印许可,若是,则所述3D打印系统打印该目标打印文件。通过这种方法,实现了3D打印系统与打印许可中心对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。同时,由于3D打印系统在向打印许 可中心发送第二许可请求前,先判断是否保存有与目标打印文件对应的预判断打印许可,若是则直接打印目标打印文件,使得部分安全判别操作在3D打印系统内就可以完成,减少了打印许可中心接收的许可请求数目与安全判别操作次数,进而减轻了打印许可中心的负荷,提高了对目标打印文件安全性判别的效率。
图10所示的实施例提供了一种方法,该方法可以提高对目标打印文件安全性判别的效率。下面的实施例将提供另一种3D打印方法,用于提高对目标打印文件安全性判别的准确度,请参阅图11,本发明提供的又一实施例的基本流程包括:
1101、3D打印系统接收许可中心发送的预判断打印许可,并保存该预判断打印许可;
1102、3D打印系统获取目标打印文件;
1103、3D打印系统获取目标打印文件对应的目标产品属性;
1104、3D打印系统根据该目标产品属性,获取目标打印文件对应的目标产品类别;
1105、3D打印系统根据产品类别与第三安全标准的对应关系,判断目标打印文件是否满足第三安全标准;
步骤1101至1105与步骤1001至1005基本相同,此处不做赘述。
其中,若步骤1105中3D打印系统确定目标打印文件满足第三安全标准,则执行步骤1109;
若3D打印系统确定目标打印文件不满足第三安全标准,则执行步骤1106。
1106、3D打印系统判断是否保存有与目标打印文件对应的预判断打印许可;
若3D打印系统确定目标打印文件不满足第三安全标准,则判断是否保存有与目标打印文件对应的预判断打印许可;
其中,若3D打印系统确定保存有与目标打印文件对应的预判断打印许可,则执行步骤1109;
若3D打印系统确定没有保存与目标打印文件对应的预判断打印许可,则执行步骤1107;
1107、3D打印系统向打印许可中心发送第二许可请求信息;
1108、3D打印系统判断是否接收到许可中心发送的第二打印许可;
步骤1107、1108与步骤1007、1008基本相同,此处不做赘述
其中,若3D打印系统确定接收到许可中心发送的第二打印许可,则说明打印许可中心确定所述第二许可请求信息满足第二安全标准,执行步骤1109;
若3D打印系统确定没有接收到许可中心发送的第二打印许可,则说明打印许可中心确定所述第二许可请求信息不满足第二安全标准,执行步骤1110。
1109、3D打印系统打印所述目标打印文件;
1110、3D打印系统执行其他操作。
步骤1109、1110与步骤1009、1010基本相同,此处不做赘述。
1111、3D打印系统从打印许可中心获取目标服务器地址;
3D打印系统可以获取产品类别与第三安全标准的对应关系,并根据该对应关系判断目标打印文件是否满足第三安全标准。但是,在实际应用中,产品类别与第三安全标准的对应关系可能会由于政府政策、科技发展等原因而发生变化。例如按照原有的产品类别与第三安全标准的对应关系,某类刀具满足该第三安全标准,但是按照更新后的产品类别与第三安全标准的对应关系,某类刀具就满足该第三安全标准。若产品类别与第三安全标准的对应关系发生了变化,但3D打印系统没有更新该对应关系,那么3D打印系统根据未更新的对应关系所进行的判断的结果是不准确的。因此,3D打印系统需要时常更新产品类别与第三安全标准的对应关系。
本实施中,产品类别与第三安全标准的最新对应关系保存在目标服务器上,3D打印系统从打印许可中心获取目标服务器地址,所述目标服务器地址为目标服务器的地址。
1112、3D打印系统访问该目标服务器地址,并从该目标服务器中下载更新文件;
3D打印系统从打印许可中心获取目标服务器地址后,访问该目标服务器地址,并从该目标服务器中下载更新文件,所述更新文件用于更新产品类别与第三安全标准的对应关系。
1113、3D打印系统根据更新文件更新产品类别与第三安全标准的对应关 系。
3D打印系统从目标服务器中下载更新文件后,根据该更新文件更新产品类别与第三安全标准的对应关系。
其中,步骤1101也可以位于步骤1102至1105中任一项之后,只要位于步骤1006之前即可,本实施例中不做限定。
其中,步骤1111至1113也可以位于步骤1101至1110中任一项之前,本实施例中不做限定。
其中,步骤1111至1113也可以每隔预置时常便执行一次,本实施例中不做限定。
其中,为了防止目标打印文件、许可请求信息或打印许可等信息被篡改,影响到目标打印文件的安全性的判别,3D打印设计系统、打印许可中心与3D打印系统之间的数据传输可以均经过非对称加密。
本实施例提供了一种3D打印方法,其中,3D打印系统根据产品类别与第一安全标准的对应关系对目标打印文件的安全性进行判别,并时常更新产品类别与第三安全标准的对应关系。通过这种方法,实现了3D打印系统与打印许可中心对目标打印文件安全性的二次判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。同时,由于3D打印系统时常更新产品类别与第三安全标准的对应关系,使得3D打印系统所获取的产品类别与第三安全标准的对应关系更具有实时性,根据产品类别与第三安全标准的对应关系对目标打印文件所做的安全性判别更加准确可信。
为了便于理解上述实施例,下面将以上述实施例的一个具体应用场景为例进行说明:
3D打印系统从许可中心接收到预判断打印许可,并保存该预判断打印许可。该预判断打印许可的内容为:用于警用用途的枪支满足该预判断打印许可,但是用于军用用途的枪支不满足该预判断打印许可。
用户使用3D打印设计系统设计了一份小型枪支的打印文件。3D打印系统从3D打印设计系统获取该打印文件,然后获取这份打印文件的目标产品属性,该属性中包括:设计的产品为枪支、枪支口径为5.8毫米、该枪支用于军 事用途。由该属性可以获知,该打印文件设计的产品为枪支,由于枪支具有一定的危害性,故3D打印系统将该打印文件的目标产品类别划分为非安全类产品,并确定该打印文件不符合第三安全标准。于是3D打印系统判断是否保存有与该打印文件对应的预判断打印许可。由于该3D打印系统保存的预判断打印许可只许可警用用途,不许可军用用途,所以3D打印系统确定未保存有与该打印文件对应的预判断打印许可。因此,3D打印系统向打印许可中心发送第二许可请求信息,其中,第二许可请求信息的内容为该打印文件的目标产品属性。
打印许可中心经过安全性判别,认为该小型枪支可以被生产,所以打印许可中心向3D打印设计系统发送第二打印许可。3D打印系统接收到第二打印许可后,将打印该打印文件,得到的目标产品为小型枪支。
3D打印系统每隔预置时长,就会从许可中心获取目标服务器地址,访问该目标服务器地址,并从目标服务器中下载更新文件,根据更新文件更新所述产品类别与第三安全标准的对应关系。
图7至图11所示的实施例提供了多种3D打印方法,从3D打印系统的角度实现了对目标产品的管制。下面的实施例将提供一种3D打印许可方法,从打印许可中心的角度实现对目标产品的管制,请参阅图12,本发明实施例提供的3D打印许可方法的基本流程包括:
1201、打印许可中心接收3D打印设计系统发送的第一许可请求信息;
在图3至图5中任一幅图所示的实施例中,当3D打印设计系统确定目标打印文件不满足第一安全标准,3D打印设计系统会向打印许可中心发送第一许可请求信息。其中,第一许可请求信息用于向打印许可中心请求打印许可,该第一许可请求信息中可以包括:目标打印文件、或目标产品属性、或目标产品类别,也可以为其他信息。
因此,本实施例中,打印许可中心接收3D打印设计系统发送的第一许可请求信息。
1202、打印许可中心判断第一许可请求信息是否满足第二安全标准;
打印许可中心接收到3D打印设计系统发送的第一许可请求信息后,判断该第一许可请求信息是否满足第二安全标准。
1203、若打印许可中心确定第一许可请求信息满足第二安全标准,则打印许可中心向3D打印设计系统发送第一打印许可。
若打印许可中心确定第一许可请求信息满足第二安全标准,则认为3D打印设计系统所设计的目标打印文件较为安全,可以授权打印该目标打印文件。因此,打印许可中心向3D打印设计系统发送第一打印许可。该第一打印许可用于:允许所述3D打印设计系统将所述第一许可请求信息对应的目标打印文件发送给3D打印系统。
其中,若打印许可中心确定第一许可请求信息不满足第二安全标准,则打印许可中心可以不向3D打印设计系统发送第一打印许可,也可以采取其它操作,本实施例中不做限定。
其中,打印许可中心可以根据第一许可请求信息对应的目标产品属性、目标产品类别、或发送第一许可请求信息的3D打印设计系统的安全级别来判断第一许可请求信息是否满足第二安全标准,也可以采取其他方式来判断第一许可请求信息是否满足第二安全标准,本实施例中不做限定。其中,安全级别用于表示所述3D打印设计系统的安全性,安全级别越高的3D打印设计系统,其发送的请求信息就越容易被打印许可中心认为满足第二安全标准。
其中,为了防止目标打印文件、许可请求信息或打印许可等信息被篡改,影响到目标打印文件的安全性的判别,3D打印设计系统、打印许可中心之间的数据传输可以均经过非对称加密。
本实施例提供了一种3D打印许可方法,从打印许可中心的角度实现了对目标产品的管制。其中,打印许可中心接收3D打印设计系统发送的第一许可请求信息、判断第一许可请求信息是否满足第二安全标准、若满足,则向3D打印设计系统发送第一打印许可。通过这样的方法,实现了打印许可中心对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
图12所示的实施例给出了一种3D打印许可方法的基本流程,该方法通过判断第一许可请求信息是否满足第二安全标准,实现了打印许可中心对打印文件的安全性的判别。下面的实施例将提供一种新的3D打印许可方法,可以进一步加强对打印文件的安全管制,请参见图13,本发明又一实施例的基本 流程包括:
1301、打印许可中心接收3D打印设计系统发送的第一许可请求信息;
步骤1301与步骤1201基本相同,此处不做赘述。
1302、打印许可中心根据第一许可请求信息获取许可请求类别;
打印许可中心接收到3D打印设计系统发送的第一许可请求信息后,根据第一许可请求信息获取许可请求类别。其中,许可请求类别用于表示许可请求信息的分类。许可请求信息的分类方式可以有很多种,如按照用途分类,分为商用类、民用类或军用类;或按照目标产品的原材料分类,分为金属类、非金属类;或按照其它方式分类等。特别的许可请求类别也可以与目标产品类别的分类相同,也可以不同,此处不做限定。
1303、打印许可中心获取处理该许可请求类别所对应的许可请求信息的次数;
一个打印许可中心需要处理一个或多个3D打印设计系统或者3D打印系统发送的各种许可请求信息。打印许可中心接收这些许可请求信息,并判断这些请求信息是否满足第二安全标准。但是,第二安全标准的概念是非常灵活的。例如,针对特定类别的危害性较小的目标产品,如管制刀具等,政府会允许该类别的目标产品以较少的数量在市面上流通,但不允许该类别的目标产品以较大的数量在市面上流通。因此,打印许可中心获取到许可请求类别后,获取处理该许可请求类别所对应的许可请求信息的次数。
打印许可中心获取处理该许可请求类别所对应的许可请求信息的次数的方法有很多,包括:打印许可中心对处理的不同类别的许可请求信息进行计数,每处理一次许可请求信息,就将该许可请求信息所对应的许可请求类别的计数值加1,并将计数结果保存在存储器中,在需要获取处理该许可请求类别所对应的许可请求信息的次数时,从存储器中获取。打印许可中心获取处理该许可请求类别所对应的许可请求信息的次数也可以为其他方法,本实施例中不做限定。
1304、打印许可中心判断处理所述许可请求类别所对应的许可请求信息的次数是否达到预置次数;
为了限制特定类别的目标产品只能以较小的数量在市面上流通,本实施例 中,打印许可中心内设置有预置次数。打印许可中心获取处理该许可请求类别所对应的许可请求信息的次数后,判断获取的次数是否达到预置次数。
其中,打印许可中心处理的许可请求信息有多种类别,相应的,该预置次数也不必是一成不变的。较为危险的类别的许可请求信息,如对应的目标产品为枪支弹药的许可请求信息,其对应的预置次数应该较小;而较为安全的类别的许可请求信息,如对应生活用品的许可请求信息,其对应的预置次数应该较大。具体可以为:所有的类别的许可请求信息都对应相同的预置次数、或若干个类别的许可请求信息对应相同的预置次数、或每种类别的许可请求信息所对应的预置次数都不同,不同类别的许可请求信息与预置次数的关系也可以为其他形式,此处不做赘述。
其中,若打印许可中心确定处理所述许可请求类别所对应的许可请求信息的次数达到预置次数,则执行步骤1305;
若打印许可中心确定处理所述许可请求类别所对应的许可请求信息的次数没有达到预置次数,则执行步骤1306。
1305、打印许可中心不向3D打印设计系统发送第一打印许可;
若打印许可中心确定处理所述许可请求类别所对应的许可请求信息的次数达到预置次数,则说明打印许可中心已经对该类别的许可请求做出了较多的许可授权。为了避免该许可请求类别所对应的目标产品被更多的生产出来,打印许可中心不向3D打印设计系统发送第一打印许可。
1306、打印许可中心判断第一许可请求信息是否满足第二安全标准;
若打印许可中心确定处理所述许可请求类别所对应的许可请求信息的次数没有达到预置次数,则打印许可中心判断第一许可请求信息是否满足第二安全标准。
其中,若打印许可中心确定第一许可请求信息满足第二安全标准,则执行步骤1307;
若打印许可中心确定第一许可请求信息不满足第二安全标准,则执行步骤1308。
1307、打印许可中心向3D打印设计系统发送第一打印许可。
若打印许可中心确定第一许可请求信息满足第二安全标准,则认为3D打 印设计系统所设计的目标打印文件较为安全,可以授权打印该目标打印文件。因此,打印许可中心向3D打印设计系统发送第一打印许可。该第一打印许可用于:允许所述3D打印设计系统将所述第一许可请求信息对应的目标打印文件发送给3D打印系统。
1308、打印许可中心执行其他操作。
若打印许可中心确定第一许可请求信息不满足第二安全标准,则打印许可中心执行其他操作,包括:打印许可中心不向3D打印设计系统发送第一打印许可,也可以为其它操作,本实施例中不做限定。
其中,为了防止目标打印文件、许可请求信息或打印许可等信息被篡改,影响到目标打印文件的安全性的判别,3D打印设计系统、打印许可中心与3D打印系统之间的数据传输可以均经过非对称加密。
其中,打印许可中心可以根据第一许可请求信息对应的目标产品属性、目标产品类别、或发送第一许可请求信息的3D打印设计系统的安全级别来判断第一许可请求信息是否满足第二安全标准,也可以采取其他方式来判断第一许可请求信息是否满足第二安全标准,本实施例中不做限定。其中,安全级别用于表示所述3D打印设计系统的安全性,安全级别越高的3D打印设计系统,其发送的请求信息就越容易被打印许可中心认为满足第二安全标准。
本实施例提供了一种3D打印许可方法,从打印许可中心的角度实现了对目标产品的管制。其中,打印许可中心接收3D打印设计系统发送的第一许可请求信息、判断第一许可请求信息是否满足第二安全标准、若满足,则向3D打印设计系统发送第一打印许可。通过这样的方法,实现了打印许可中心对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。同时,由于打印许可中心会判断处理所述许可请求类别所对应的许可请求信息的次数是否达到预置次数,若是则不向3D打印设计系统发送第一打印许可,使得打印许可中心只对预置次数以内的许可请求信息进行许可授权,实现了对目标产品的生产数量的控制,进一步加强了对打印文件的安全管制。
为了便于理解上述实施例,下面将以上述实施例的一个具体应用场景为例进行说明:
打印许可中心接收3D打印设计系统发送的第一许可请求信息,该第一许可请求信息为一份打印文件的目标产品属性,其中,该打印文件的目标产品为小型枪支,该目标属性包括:目标产品为枪支、枪支口径为5.8毫米、该枪支用于军事用途。
打印许可中心接收到第一许可请求信息之后,根据第一许可请求信息获取许可请求类别,得到许可请求类别为枪械类。此前,打印许可中心处理枪械类的许可请求信息共计345次,未达到预置次数500次,于是打印许可中心判断第一许可请求信息是否满足第二安全标准。其判断标准为:若第一许可请求信息中包括的枪支口径小于6毫米,则认为满足第二安全标准。所以打印许可中心认为第一许可请求信息满足第二安全标准,该打印文件可以被打印。于是打印许可中心向3D打印设计系统发送第一打印许可。
图12与图13所示的实施例提供了不同的3D打印许可方法,其中,若打印许可中心确定第一许可请求信息满足第二安全标准,则向3D打印设计系统发送第一打印许可。下面的实施例将提供另一种3D打印许可方法,其中,若打印许可中心确定第一许可请求信息满足第二安全标准,则向3D打印系统发送第二打印许可。请参见图14,本发明的又一实施例的基本流程包括:
1401、打印许可中心接收3D打印设计系统发送的第一许可请求信息;
在图3至图5中任一幅图所示的实施例中,当3D打印设计系统确定目标打印文件不满足第一安全标准,3D打印设计系统会向打印许可中心发送第一许可请求信息。其中,第一许可请求信息用于向打印许可中心请求打印许可,该第一许可请求信息中可以包括:目标打印文件、或目标产品属性、或目标产品类别,也可以为其他信息。
因此,本实施例中,打印许可中心接收3D打印设计系统发送的第一许可请求信息。
1402、打印许可中心判断第一许可请求信息是否满足第二安全标准;
打印许可中心接收到3D打印设计系统发送的第一许可请求信息后,判断该第一许可请求信息是否满足第二安全标准。
1403、若打印许可中心确定第一许可请求信息满足第二安全标准,则打印许可中心向3D打印系统发送第二打印许可。
若打印许可中心确定第一许可请求信息满足第二安全标准,则认为3D打印设计系统所设计的目标打印文件较为安全,可以授权打印该目标打印文件。因此,打印许可中心向3D打印系统发送第二打印许可。该第二打印许可用于:允许所述3D打印系统打印第一许可请求信息对应的目标打印文件。
其中,若打印许可中心确定第一许可请求信息不满足第二安全标准,则打印许可中心可以不向3D打印设计系统发送第二打印许可,也可以采取其它操作,本实施例中不做限定。
其中,为了防止目标打印文件、许可请求信息或打印许可等信息被篡改,影响到目标打印文件的安全性的判别,3D打印设计系统、打印许可中心与3D打印系统之间的数据传输可以均经过非对称加密。
其中,打印许可中心可以根据第一许可请求信息对应的目标产品属性、目标产品类别、或发送第一许可请求信息的3D打印设计系统的安全级别来判断第一许可请求信息是否满足第二安全标准,也可以采取其他方式来判断第一许可请求信息是否满足第二安全标准,本实施例中不做限定。其中,安全级别用于表示所述3D打印设计系统的安全性,安全级别越高的3D打印设计系统,其发送的请求信息就越容易被打印许可中心认为满足第二安全标准。
本实施例提供了一种3D打印许可方法,从打印许可中心的角度实现了对目标产品的管制。其中,打印许可中心接收3D打印设计系统发送的第一许可请求信息、判断第一许可请求信息是否满足第二安全标准、若满足,则向3D打印系统发送第一打印许可。通过这样的方法,实现了打印许可中心对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
为了便于理解上述实施例,下面将以上述实施例的一个具体应用场景为例进行说明:
打印许可中心接收3D打印设计系统发送的第一许可请求信息,该第一许可请求信息为一份打印文件的目标产品属性,其中,该打印文件的目标产品为小型枪支,该目标属性包括:目标产品为枪支、枪支口径为5.8毫米、该枪支用于军事用途。
打印许可中心接收到第一许可请求信息之后,判断第一许可请求信息是否 满足第二安全标准。其判断标准为:若第一许可请求信息中包括的枪支口径小于6毫米,则认为满足第二安全标准。所以打印许可中心认为第一许可请求信息满足第二安全标准,该打印文件可以被打印。于是打印许可中心向3D打印系统发送第二打印许可。
图12至图14所示的实施例中,许可中心均从3D打印设计系统接收第一许可请求信息。实际上,许可中心也可以从3D打印系统接收第二许可请求信息,请参见图15,本发明又一实施例的基本流程包括:
1501、打印许可中心接收3D打印系统发送的第二许可请求信息;
在图9至图11中任一幅图所示的实施例中,当3D打印系统确定目标打印文件不满足第三安全标准时,3D打印系统会向打印许可中心发送第二许可请求信息。其中,第二许可请求信息用于向打印许可中心请求打印许可,该第二许可请求信息中可以包括:目标打印文件、或目标产品属性、或目标产品类别,也可以为其他信息。
因此,本实施例中,打印许可中心接收3D打印系统发送的第二许可请求信息。
1502、打印许可中心判断第二许可请求信息是否满足第二安全标准;
打印许可中心接收到3D打印系统发送的第二许可请求信息后,判断该第二许可请求信息是否满足第二安全标准。
1503、若打印许可中心确定第二许可请求信息满足第二安全标准,则打印许可中心向3D打印系统发送第三打印许可。
若打印许可中心确定第二许可请求信息满足第二安全标准,则认为3D打印系统所要打印的目标打印文件较为安全,可以授权打印该目标打印文件。因此,打印许可中心向3D打印系统发送第三打印许可。该第三打印许可用于:允许所述3D打印系统打印第二许可请求信息对应的目标打印文件。
其中,若打印许可中心确定第二许可请求信息不满足第二安全标准,则打印许可中心可以不向3D打印系统发送第二打印许可,也可以采取其它操作,本实施例中不做限定。
其中,为了防止目标打印文件、许可请求信息或打印许可等信息被篡改,影响到目标打印文件的安全性的判别,3D打印设计系统、打印许可中心与3D 打印系统之间的数据传输可以均经过非对称加密。
其中,打印许可中心可以根据第二许可请求信息对应的目标产品属性、目标产品类别、或发送第二许可请求信息的3D打印设计系统的安全级别来判断第二许可请求信息是否满足第二安全标准,也可以采取其他方式来判断第二许可请求信息是否满足第二安全标准,本实施例中不做限定。其中,安全级别用于表示所述3D打印系统的安全性,安全级别越高的3D打印系统,其发送的请求信息就越容易被打印许可中心认为满足第二安全标准。
本实施例提供了一种3D打印许可方法,从打印许可中心的角度实现了对目标产品的管制。其中,打印许可中心接收3D打印设计系统发送的第二许可请求信息、判断第二许可请求信息是否满足第二安全标准、若满足,则向3D打印设计系统发送第三打印许可。通过这样的方法,实现了打印许可中心对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
为了便于理解上述实施例,下面将以上述实施例的一个具体应用场景为例进行说明:
打印许可中心接收3D打印系统发送的第二许可请求信息,该第二许可请求信息为一份打印文件的目标产品属性,其中,该打印文件的目标产品为小型枪支,该目标属性包括:目标产品为枪支、枪支口径为5.8毫米、该枪支用于军事用途。
打印许可中心接收到第二许可请求信息之后,判断第二许可请求信息是否满足第二安全标准。其判断标准为:若第二许可请求信息中包括的枪支口径小于6毫米,则认为满足第二安全标准。所以打印许可中心认为第二许可请求信息满足第二安全标准,该打印文件可以被打印。于是打印许可中心向3D打印系统发送第三打印许可。
上面的实施例给出了多种3D打印设计方法、3D打印方法以及3D打印许可方法,下面的实施例将详细介绍用于实现上述方法的装置,此处未详尽介绍的内容可参考上述方法中的介绍。
本发明提供的一种3D打印设计装置1600的基本结构请参阅图16,主要包括:
文件确定模块1601,用于确定目标打印文件;
第一安全判断模块1602,用于判断目标打印文件是否满足第一安全标准;
文件发送模块1603,用于当第一安全判断模块1602确定目标打印文件满足所述第一安全标准时,将所述目标打印文件发送给3D打印装置,使得所述3D打印装置按照所述目标打印文件进行打印。
本实施例中,文件确定模块1601确定目标打印文件后,第一安全判断模块1602判断该目标打印文件是否满足第一安全标准,若目标打印文件满足第一安全标准,则文件发送模块1603将目标打印文件发送给3D打印装置,使得3D打印装置按照所述目标打印文件进行打印。通过对目标打印文件是否满足第一安全标准的判断,实现了3D打印设计装置对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
图16所示的实施例给出了本发明实施例提供的3D打印设计装置的基本结构,其中,文件确定模块1601在确定目标打印文件后,第一安全判断模块1602判断该文件是否满足第一安全标准,并根据判断结果确定是否将目标打印文件发送给3D打印装置。下面的实施例将在图16所示的实施例的基础上,进一步细化第一安全判断模块,请参见图17,本发明提供的3D打印设计装置的又一实施例1700的基本结构包括:
文件确定模块1701,用于确定目标打印文件;
第一安全判断模块1702,用于判断目标打印文件是否满足第一安全标准。其中,第一安全判断模块1702包括:
第一属性获取单元17021,用于获取目标打印文件对应的目标产品属性;
第一类别获取单元17022,用于根据目标产品属性,获取目标打印文件对应的目标产品类别,该目标产品属性包括:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息。目标产品类别用于表示目标打印文件的分类;
第一安全判断单元17023,用于根据产品类别与第一安全标准的对应关系,判断目标打印文件是否满足第一安全标准。
文件发送模块1703,用于当第一安全判断模块1702确定目标打印文件满 足第一安全标准时,将目标打印文件发送给3D打印装置,使得3D打印装置按照目标打印文件进行打印。
本实施例在图16所示的实施例的基础上对第一安全判断模块做出了细化,其中,文件确定模块1701确定了目标打印文件后,第一属性获取单元17021获取目标打印文件对应的目标产品属性,进而第一类别获取单元17022获取目标打印文件对应的目标产品类别,然后第一安全判断单元17023根据产品类别与第一安全标准的对应关系,判断目标打印文件是否满足第一安全标准,若满足,则文件发送模块1703将目标打印文件发送给3D打印装置。通过这样的方法,使得3D打印设计装置可以判断目标打印文件是否满足第一安全标准,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
图17所示的实施例提供了一种装置,详细解释了第一安全判断模块。其中,文件确定模块1701确定了目标打印文件后,第一安全判断单元17023判断目标打印文件是否满足第一安全标准,若满足,则文件发送模块1703将目标打印文件发送给3D打印装置。下面的实施例中将提出另一种装置,用于详细描述当目标打印文件不满足第一安全标准时,如何采取相应操作,请参见图18。本发明的又一实施例1800的基本结构包括:
文件确定模块1801,用于确定目标打印文件;
第一安全判断模块1802,用于判断目标打印文件是否满足第一安全标准。其中,第一安全判断模块1802包括:
第一属性获取单元18021,用于获取目标打印文件对应的目标产品属性;
第一类别获取单元18022,用于根据目标产品属性,获取目标打印文件对应的目标产品类别,该目标产品属性包括:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息。目标产品类别用于表示目标打印文件的分类;
第一安全判断单元18023,用于根据产品类别与第一安全标准的对应关系,判断目标打印文件是否满足第一安全标准。
第一请求发送模块1803,用于当第一安全判断单元18023确定目标打印文件不满足第一安全标准时,向3D打印许可装置发送第一许可请求信息;
第一许可判断模块1804,用于判断是否接收到3D打印许可装置发送的第一打印许可,该第一打印许可由3D打印许可装置确定第一许可请求信息满足第二安全标准时发送;
文件发送模块1805,用于:当第一安全判断模块1802确定目标打印文件满足第一安全标准、或当第一许可判断模块1804确定接收到3D打印许可装置发送的第一打印许可时,将目标打印文件发送给3D打印装置,使得3D打印装置按照目标打印文件进行打印。
本实施例详细解释了当3D打印设计装置确定目标打印文件不满足第一安全标准时,具体如何执行其他操作。其中,若当第一安全判断模块1802确定目标打印文件不满足第一安全标准,则第一请求发送模块1803向3D打印许可装置发送第一许可请求信息,第一许可判断模块1804判断是否接收到3D打印许可装置发送的第一打印许可。若第一许可判断模块1804确定接收到3D打印许可装置发送的第一打印许可,则说明3D打印许可装置确定所述第一许可请求信息满足第二安全标准,文件发送模块1805将目标打印文件发送给3D打印装置,使得3D打印装置按照所述目标打印文件进行打印。本实施例所提供的方法实现了3D打印设计装置与3D打印许可装置对目标打印文件安全性的二次判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
图18所示的实施例提供了一种3D打印设计装置,其中3D打印许可装置可以对接收到的文件进行安全判别。下面的实施例将在图18所示的实施例的基础上提供一种新的3D打印设计装置1900,该装置可以减少3D打印许可装置进行安全判别的任务量。请参见图19,本发明又一实施例1900的基本结构包括:
第一预置保存模块1901,用于接收3D打印许可装置发送的预判断打印许可,并保存该预判断打印许可;
文件确定模块1902,用于确定目标打印文件;
第一安全判断模块1903,用于判断目标打印文件是否满足第一安全标准。其中,第一安全判断模块1903包括:
第一属性获取单元19031,用于获取目标打印文件对应的目标产品属性;
第一类别获取单元19032,用于根据目标产品属性,获取目标打印文件对应的目标产品类别,该目标产品属性包括:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息。目标产品类别用于表示目标打印文件的分类;
第一安全判断单元19033,用于根据产品类别与第一安全标准的对应关系,判断目标打印文件是否满足第一安全标准;
第一预置判断模块1904,用于当第一安全判断单元确定目标打印文件不满足第一安全标准时,判断第一预置保存模块是否保存有与该目标打印文件对应的预判断打印许可;
第一请求发送模块1905,用于当第一安全判断单元18023确定目标打印文件不满足第一安全标准时,或第一预置判断模块确定第一预置保存模块没有保存与目标打印文件对应的预判断打印许可时,向3D打印许可装置发送第一许可请求信息;
第一许可判断模块1906,用于判断是否接收到3D打印许可装置发送的第一打印许可,该第一打印许可由3D打印许可装置确定第一许可请求信息满足第二安全标准时发送;
文件发送模块1907,用于:当第一安全判断模块1903确定目标打印文件满足第一安全标准、或当第一许可判断模块确定接收到3D打印许可装置发送的第一打印许可、或当第一预置判断模块确定第一预置保存模块保存有与目标打印文件对应的预判断打印许可时,将目标打印文件发送给3D打印装置,使得3D打印装置按照目标打印文件进行打印。
图19所示的实施例提供了一种3D打印设计装置,可以根据预判断打印许可对目标打印文件进行安全性判别。其中,若第一安全判断单元19033确定目标打印文件不满足第一安全标准,则第一预置判断模块1904判断是否保存有与目标打印文件对应的预判断打印许可,若是,则文件发送模块1907将目标打印文件发送给3D打印装置。通过这种方法,实现了3D打印设计装置与3D打印许可装置对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。同时,由于在第一请求发送模块1905向3D打印许可装置发送第一许可请求 信息前,第一预置判断模块1904先判断是否保存有与目标打印文件对应的预判断打印许可,若是则文件发送模块1907将目标打印文件直接发送给3D打印装置,使得部分安全判别操作在3D打印设计装置内就可以完成,减少了3D打印许可装置接收的许可请求数目与安全判别操作次数,进而减轻了3D打印许可装置的负荷,提高了对目标打印文件安全性判别的效率。
图19所示的实施例提供了一种装置,可以提高对目标打印文件安全性判别的效率。下面的实施例将提供另一种3D打印设计装置2000,用于提高对目标打印文件安全性判别的准确度,请参阅图20,本发明提供的又一实施例的基本结构包括:
第一预置保存模块2001,用于接收3D打印许可装置发送的预判断打印许可,并保存该预判断打印许可;
文件确定模块2002,用于确定目标打印文件;
第一安全判断模块2003,用于判断目标打印文件是否满足第一安全标准。其中,第一安全判断模块2003包括:
第一属性获取单元20031,用于获取目标打印文件对应的目标产品属性;
第一类别获取单元20032,用于根据目标产品属性,获取目标打印文件对应的目标产品类别,该目标产品属性包括:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息。目标产品类别用于表示目标打印文件的分类;
第一安全判断单元20033,用于根据产品类别与第一安全标准的对应关系,判断目标打印文件是否满足第一安全标准;
第一预置判断模块2004,用于当第一安全判断单元确定目标打印文件不满足第一安全标准时,判断第一预置保存模块是否保存有与该目标打印文件对应的预判断打印许可;
第一请求发送模块2005,用于当第一安全判断单元18023确定目标打印文件不满足第一安全标准时,或第一预置判断模块确定第一预置保存模块没有保存与目标打印文件对应的预判断打印许可时,向3D打印许可装置发送第一许可请求信息;
第一许可判断模块2006,用于判断是否接收到3D打印许可装置发送的第 一打印许可,该第一打印许可由3D打印许可装置确定第一许可请求信息满足第二安全标准时发送;
文件发送模块2007,用于:当第一安全判断模块2003确定目标打印文件满足第一安全标准、或当第一许可判断模块确定接收到3D打印许可装置发送的第一打印许可、或当第一预置判断模块确定第一预置保存模块保存有与目标打印文件对应的预判断打印许可时,将目标打印文件发送给3D打印装置,使得3D打印装置按照目标打印文件进行打印。
第一地址获取模块2008,用于从3D打印许可装置获取目标服务器地址,所述目标服务器地址为目标服务器的地址;
第一地址访问模块2009,用于访问目标服务器地址,并从所述目标服务器中下载更新文件;
第一标准更新模块2010,用于根据更新文件更新所述产品类别与第一安全标准的对应关系。
本实施例提供了一种3D打印设计装置,其中,第一安全判断模块2003根据产品类别与第一安全标准的对应关系对目标打印文件的安全性进行判别,第一标准更新模块2010时常更新产品类别与第一安全标准的对应关系。通过这种方法,实现了3D打印设计装置与3D打印许可装置对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。同时,由于第一标准更新模块2010时常更新产品类别与第一安全标准的对应关系,使得第一安全判断模块2003所使用的产品类别与第一安全标准的对应关系更具有实时性,根据产品类别与第一安全标准的对应关系对目标打印文件所做的安全性判别更加准确可信。
为了便于理解上述实施例,下面将以上述实施例的一个具体应用场景为例进行说明:
第一预置保存模块2001从3D打印许可装置接收到预判断打印许可,并保存该预判断打印许可。该预判断打印许可的内容为:用于警用用途的枪支满足该预判断打印许可,但是用于军用用途的枪支不满足该预判断打印许可。
用户使用该3D打印设计装置设计了一份小型枪支的打印文件。文件确定模块2002确定打印文件设计完成后,第一属性获取单元20031获取这份打印 文件的目标产品属性,该属性中包括:设计的产品为枪支、枪支口径为5.8毫米、该枪支用于军事用途。由该属性可以获知,该打印文件设计的产品为枪支,由于枪支具有一定的危害性,故第一类别获取单元20032将该打印文件的目标产品类别划分为非安全类产品,且第一安全判断单元20033确定该打印文件不符合第一安全标准。于是第一预置判断模块2004判断是否保存有与该打印文件对应的预判断打印许可。由于第一预置保存模块2001保存的预判断打印许可只许可警用用途,不许可军用用途,所以第一安全判断单元20033确定未保存有与该打印文件对应的预判断打印许可。因此,第一请求发送模块2005向3D打印许可装置发送第一许可请求信息,其中,第一许可请求信息的内容为该打印文件的目标产品属性。
3D打印许可装置经过安全性判别,认为该小型枪支可以被生产,所以3D打印许可装置向3D打印设计装置发送第一打印许可。第一许可判断模块2006接收到第一打印许可后,文件发送模块2007将该小型枪支的打印文件发送给3D打印装置。
其中,每隔预置时长,第二地址获取模块2008就会从3D打印许可装置获取目标服务器地址,第二地址访问模块2009访问该目标服务器地址,并从目标服务器中下载更新文件。第二标准更新模块2010根据更新文件更新所述产品类别与第三安全标准的对应关系。
本发明实施例还提出一种3D打印设计装置2100,请参见图21:
应该理解的是,图示3D打印设计装置2100仅仅是图16至图20所示的任一项实施例所提供的3D打印设计装置的一个范例,并且3D打印设计装置2100可以具有比图中所示出的更多的或者更少的部件,可以组合两个或更多的部件,或者可以具有不同的部件配置。图中所示出的各种部件可以在包括一个或多个信号处理和/或专用集成电路在内的硬件、软件、或硬件和软件的组合中实现。
现以3D打印设计装置为一个例子进行具体的说明。如图21所示,该3D打印设计装置包括存储器2101、中央处理器(Central Processing Unit,以下简称CPU)2102、外设接口2103、RF电路2104、音频电路2105、扬声器2106、电源管理芯片2107、输入/输出(I/O)子系统2108、其他输入/控制设备2109 以及外部端口2110,这些部件通过一个或多个通信总线或信号线2111来通信。
值得说明的是,本实施例提供的非3D打印设计装置仅仅是本发明实施例提供的3D打印设计装置的一个示例,本发明实施例涉及的3D打印设计装置可以具有比图21所示出的更多或更少的部件,可以组合两个或更多个部件,或者可以具有不同的部件配置或设置,各个部件可以在包括一个或多个信号处理和/或专用集成电路在内的硬件、软件或硬件和软件的组合实现。
下面就本实施例提供的3D打印设计装置进行详细的描述。
存储器2101:所述存储器2101用于存储程序代码与数据,且可以被CPU2102、外设接口2103等访问,所述存储器2101可以包括高速随机存取存储器,还可以包括非易失性存储器,例如一个或多个磁盘存储器件、闪存器件、或其他易失性固态存储器件。
CPU2102:所述CPU2102可以从存储器2101中获取程序代码,并根据获取的程序控制RF电路2104、I/O子系统2108等电路的实际操作。
外设接口2103,所述外设接口可以将设备的输入和输出外设连接到CPU2102和存储器2101。
I/O子系统2108:所述I/O子系统2108可以将设备上的输入输出外设,例如显示屏2112和其他输入/控制设备2109,连接到外设接口2103。I/O子系统2108可以包括显示控制器21081和用于控制其他输入/控制设备2109的一个或多个输入控制器21082。其中,一个或多个输入控制器21082从其他输入/控制设备2109接收电信号或者向其他输入/控制设备2109发送电信号,其他输入/控制设备2109可以包括物理按钮(按压按钮、摇臂按钮等)、拨号盘、滑动开关、操纵杆、点击滚轮。值得说明的是,输入控制器21082可以与以下任一个连接:键盘、红外端口、USB接口以及诸如鼠标的指示设备。
显示屏2112:所述显示屏2112是3D打印设计装置与用户之间的输出接口,将可视输出显示给用户,可视输出可以包括图形、文本、图标、视频等。
I/O子系统2108中的显示控制器21081从显示屏2112接收电信号或者向显示屏2112发送电信号。显示屏2112检测触摸屏上的接触,显示控制器21081将检测到的接触转换为与显示在显示屏2112上的用户界面对象的交互,即实现人机交互,显示在显示屏2112上的用户界面对象可以是运行游戏的图标、 联网到相应网络的图标等。值得说明的是,设备还可以包括光鼠,光鼠是不显示可视输出的触摸敏感表面,或者是由触摸屏形成的触摸敏感表面的延伸。
RF电路2104,主要用于建立3D打印设计装置与无线网络(即网络侧)的通信,实现3D打印设计装置与无线网络的数据接收和发送。例如收发短信息、电子邮件等。具体地,RF电路2104接收并发送RF信号,RF信号也称为电磁信号,RF电路2104将电信号转换为电磁信号或将电磁信号转换为电信号,并且通过该电磁信号与通信网络以及其他设备进行通信。RF电路2104可以包括用于执行这些功能的已知电路,其包括但不限于天线系统、RF收发机、一个或多个放大器、调谐器、一个或多个振荡器、数字信号处理器、CODEC芯片组、用户标识模块(Subscriber Identity Module,SIM)等等。
音频电路2105,主要用于从外设接口2103接收音频数据,将该音频数据转换为电信号,并且将该电信号发送给扬声器2106。
扬声器2106,用于将3D打印设计装置通过RF电路2104从无线网络接收的语音信号,还原为声音并向用户播放该声音。
电源管理芯片2107,用于为CPU2102、I/O子系统及外设接口所连接的硬件进行供电及电源管理。
图22为3D打印设计装置内部部分结构图。本实施例中,CPU2201具体用于:
确定目标打印文件;
获取目标打印文件对应的目标产品属性;
根据目标产品属性,获取目标打印文件对应的目标产品类别;
根据产品类别与第一安全标准的对应关系,判断目标打印文件是否满足第一安全标准;
判断是否保存有与该目标打印文件对应的预判断打印许可;
判断是否接收到3D打印许可装置发送的第一打印许可;
根据更新文件更新所述产品类别与第一安全标准的对应关系。
本实施例中,RF电路2202具体用于:
向3D打印许可装置发送第一许可请求信息;
将目标打印文件发送给3D打印装置;
从3D打印许可装置获取目标服务器地址;
访问目标服务器地址,并从所述目标服务器中下载更新文件。
本实施例中,存储器2203具体用于:接收3D打印许可装置发送的预判断打印许可,并保存该预判断打印许可。
图16至图20所示的实施例提供了多种3D打印设计装置,从3D打印设计的角度实现了对目标产品的管制。下面的实施例将提供一种3D打印装置2300,从3D打印的角度实现对目标产品的管制,请参阅图23,本发明实施例提供的3D打印装置的基本结构包括:
第一文件获取模块2301,用于获取目标打印文件;
第二许可判断模块2302,用于判断是否接收到3D打印许可装置发送的第二打印许可;
第一文件打印模块2303,用于当第二许可判断模块2302确定接收到3D打印许可装置发送的第二打印许可时,打印所述目标打印文件。
本实施例提供了一种3D打印装置,其中,第一文件获取模块2301获取目标打印文件、第二许可判断模块2302判断是否接收到打印许可中心发送的第二打印许可,若判断结果为是,则第一文件打印模块2303打印目标打印文件。本实施例通过对是否接收到第二打印许可的判别,实现了3D打印系统对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
为了便于理解上述实施例,下面将以上述实施例的一个具体应用场景为例进行说明:
第一文件获取模块2301从3D打印设计装置处获得了一份小型枪支的打印文件,第二许可判断模块2302确定从3D打印许可装置处接收到了关于该打印文件的第二打印许可。于是第一文件打印模块2303打印该打印文件,打印出的目标产品为小型枪支。
本发明实施例还提出一种3D打印装置,请仍参见图21:
应该理解的是,图示3D打印装置2100仅仅是图23所示的任一项实施例所提供的3D打印装置的一个范例,并且3D打印装置2100可以具有比图中所示出的更多的或者更少的部件,可以组合两个或更多的部件,或者可以具有不 同的部件配置。图中所示出的各种部件可以在包括一个或多个信号处理和/或专用集成电路在内的硬件、软件、或硬件和软件的组合中实现。
现以3D打印装置为一个例子进行具体的说明。如图21所示,该3D打印装置包括存储器2101、中央处理器(Central Processing Unit,以下简称CPU)2102、外设接口2103、RF电路2104、音频电路2105、扬声器2106、电源管理芯片2107、输入/输出(I/O)子系统2108、其他输入/控制设备2109以及外部端口2110,这些部件通过一个或多个通信总线或信号线2111来通信。
值得说明的是,本实施例提供的非3D打印装置仅仅是本发明实施例提供的3D打印装置的一个示例,本发明实施例涉及的3D打印装置可以具有比图21所示出的更多或更少的部件,可以组合两个或更多个部件,或者可以具有不同的部件配置或设置,各个部件可以在包括一个或多个信号处理和/或专用集成电路在内的硬件、软件或硬件和软件的组合实现。
下面就本实施例提供的3D打印装置进行详细的描述。
存储器2101:所述存储器2101用于存储程序代码与数据,且可以被CPU2102、外设接口2103等访问,所述存储器2101可以包括高速随机存取存储器,还可以包括非易失性存储器,例如一个或多个磁盘存储器件、闪存器件、或其他易失性固态存储器件。
CPU2102:所述CPU2102可以从存储器2101中获取程序代码,并根据获取的程序控制RF电路2104、I/O子系统2108等电路的实际操作。
外设接口2103,所述外设接口可以将设备的输入和输出外设连接到CPU2102和存储器2101。
I/O子系统2108:所述I/O子系统2108可以将设备上的输入输出外设,例如显示屏2112和其他输入/控制设备2109,连接到外设接口2103。I/O子系统2108可以包括显示控制器21081和用于控制其他输入/控制设备2109的一个或多个输入控制器21082。其中,一个或多个输入控制器21082从其他输入/控制设备2109接收电信号或者向其他输入/控制设备2109发送电信号,其他输入/控制设备2109可以包括物理按钮(按压按钮、摇臂按钮等)、拨号盘、滑动开关、操纵杆、点击滚轮。值得说明的是,输入控制器21082可以与以下任一个连接:键盘、红外端口、USB接口以及诸如鼠标的指示设备。
显示屏2112:所述显示屏2112是3D打印装置与用户之间的输出接口,将可视输出显示给用户,可视输出可以包括图形、文本、图标、视频等。
I/O子系统2108中的显示控制器21081从显示屏2112接收电信号或者向显示屏2112发送电信号。显示屏2112检测触摸屏上的接触,显示控制器21081将检测到的接触转换为与显示在显示屏2112上的用户界面对象的交互,即实现人机交互,显示在显示屏2112上的用户界面对象可以是运行游戏的图标、联网到相应网络的图标等。值得说明的是,设备还可以包括光鼠,光鼠是不显示可视输出的触摸敏感表面,或者是由触摸屏形成的触摸敏感表面的延伸。
RF电路2104,主要用于建立3D打印装置与无线网络(即网络侧)的通信,实现3D打印装置与无线网络的数据接收和发送。例如收发短信息、电子邮件等。具体地,RF电路2104接收并发送RF信号,RF信号也称为电磁信号,RF电路2104将电信号转换为电磁信号或将电磁信号转换为电信号,并且通过该电磁信号与通信网络以及其他设备进行通信。RF电路2104可以包括用于执行这些功能的已知电路,其包括但不限于天线系统、RF收发机、一个或多个放大器、调谐器、一个或多个振荡器、数字信号处理器、CODEC芯片组、用户标识模块(Subscriber Identity Module,SIM)等等。
音频电路2105,主要用于从外设接口2103接收音频数据,将该音频数据转换为电信号,并且将该电信号发送给扬声器2106。
扬声器2106,用于将3D打印装置通过RF电路2104从无线网络接收的语音信号,还原为声音并向用户播放该声音。
电源管理芯片2107,用于为CPU2102、I/O子系统及外设接口所连接的硬件进行供电及电源管理。
图24为3D打印装置内部部分结构图。本实施例中,CPU2401具体用于:
判断是否接收到3D打印许可装置发送的第二打印许可;
本实施例中,RF电路2402具体用于:
获取目标打印文件;
本实施例中,I/O子系统2403具体用于:
打印目标打印文件。
图23与24所示的实施例提供了一种3D打印装置,其可以通过从3D打 印许可装置获取第二打印许可来进行安全性判别。下面的实施例将提出另一种3D打印装置2500,该装置采用另一种方式进行安全性判别。请参见图25,本发明又一实施例的基本结构包括:
第二文件获取模块2501,用于获取目标打印文件;
第二安全判断模块2502,用于判断目标打印文件是否满足第三安全标准;
第二文件打印模块2503,用于当第二安全判断模块2502确定目标打印文件满足第三安全标准时,打印目标打印文件。
本实施例中,第二文件获取模块2501获取目标打印文件后,第二安全判断模块2502判断该目标打印文件是否满足第三安全标准,若目标打印文件满足第三安全标准,则第二文件打印模块2503打印该目标打印文件。本实施例通过对目标打印文件是否满足第三安全标准的判断,实现了3D打印系统对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
图25所示的实施例给出了本发明实施例提供的3D打印装置的基本结构,其中,第二文件获取模块2501获取目标打印文件后,第二安全判断模块2502判断该文件是否满足第三安全标准,第二文件打印模块2503根据判断结果确定是否打印该目标打印文件。下面的实施例将在图25所示的实施例的基础上,进一步解释第二安全判断模块2502如何判断该文件是否满足第三安全标准,请参见图26,本发明提供的3D打印装置的又一实施例2600的基本流程包括:
第二文件获取模块2601,用于获取目标打印文件;
第二安全判断模块2602,用于判断目标打印文件是否满足第三安全标准,本实施例中,第二安全判断模块2602具体包括:
第二属性获取单元26021,用于获取目标打印文件对应的目标产品属性;
第二类别获取单元26022,用于根据目标产品属性,获取目标打印文件对应的目标产品类别,目标产品属性包括:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息,目标产品类别用于表示目标打印文件的分类;
第二安全判断单元26023,用于根据产品类别与第三安全标准的对应关系,判断目标打印文件是否满足第三安全标准。
第二文件打印模块2603,用于当第二安全判断模块2602确定目标打印文件满足第三安全标准时,打印目标打印文件。
本实施例对3D打印装置如何判断目标打印文件是否满足第三安全标准做出了细化,其中,第二文件获取模块2601获取了目标打印文件后,第二属性获取单元26021获取目标打印文件对应的目标产品属性,进而第二类别获取单元26022获取目标打印文件对应的目标产品类别,然后第二安全判断单元26023根据产品类别与第一安全标准的对应关系,判断目标打印文件是否满足第三安全标准,若满足,则第二文件打印模块2603打印所述目标打印文件。通过这样的方法,使得3D打印装置可以判断目标打印文件是否满足第三安全标准,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
图26所示的实施例提供了一种较为细化的3D打印装置。该装置中,第二安全判断单元26023判断目标打印文件是否满足第三安全标准,若满足,则第二文件打印模块2603打印所述目标打印文件。下面的实施例中将提出另一种3D打印装置2700,用于详细描述当第二安全判断单元确定目标打印文件不满足第三安全标准时,如何执行相应的操作,请参见图27。本发明的又一实施例的基本结构包括:
第二文件获取模块2701,用于获取目标打印文件;
第二安全判断模块2702,用于判断目标打印文件是否满足第三安全标准,本实施例中,第二安全判断模块2702具体包括:
第二属性获取单元27021,用于获取目标打印文件对应的目标产品属性;
第二类别获取单元27022,用于根据目标产品属性,获取目标打印文件对应的目标产品类别,目标产品属性包括:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息,目标产品类别用于表示目标打印文件的分类;
第二安全判断单元27023,用于根据产品类别与第三安全标准的对应关系,判断目标打印文件是否满足第三安全标准。
第二请求发送模块2703,用于当所述第二安全判断单元确定所述目标打印文件不满足所述第三安全标准时,向3D打印许可装置发送第二许可请求信 息;
第二许可判断模块2704,用于判断是否接收到所述3D打印许可装置发送的第三打印许可,所述第三打印许可由所述3D打印许可装置确定所述第二许可请求信息满足第二安全标准时发送;
第二文件打印模块2705,具体用于:当第二安全判断模块2702确定目标打印文件满足第三安全标准时、或当所述第二许可判断模块确定接收到所述3D打印许可装置发送的第三打印许可时,打印目标打印文件。
本实施例详细解释了当第二安全判断单元确定目标打印文件不满足第三安全标准时,具体如何执行其他操作。其中,若第二安全判断单元确定目标打印文件不满足第三安全标准,则第二请求发送模块2703向3D打印许可装置发送第二许可请求信息,然后第二许可判断模块2704判断是否接收到所述3D打印许可装置发送的第二打印许可。若确定接收到3D打印许可装置发送的第二打印许可,则说明3D打印许可装置确定所述第二许可请求信息满足第二安全标准,第二文件打印模块2705打印目标打印文件。本实施例所提供的方法实现了3D打印装置与3D打印许可装置对目标打印文件安全性的二次判别,与3D打印装置单独进行安全性判别或3D打印许可装置单独进行安全性判别相比,本实施例通过二次判别提高了整个3D打印流程对目标打印安全性判别的准确度,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
图27所示的实施例提供了一种3D打印装置,其中3D打印许可装置可以对接收到的文件进行安全判别。下面的实施例将提供一种新的3D打印装置2800,可以减少打3D打印许可装置进行安全判别的任务量。请参见图28,本发明又一实施例的基本结构包括:
第二预置保存模块2801,用于接收述3D打印许可装置发送的预判断打印许可,并保存所述预判断打印许可;
第二文件获取模块2802,用于获取目标打印文件;
第二安全判断模块2803,用于判断目标打印文件是否满足第三安全标准,本实施例中,第二安全判断模块2702具体包括:
第二属性获取单元28031,用于获取目标打印文件对应的目标产品属性;
第二类别获取单元28032,用于根据目标产品属性,获取目标打印文件对应的目标产品类别,目标产品属性包括:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息,目标产品类别用于表示目标打印文件的分类;
第二安全判断单元28033,用于根据产品类别与第三安全标准的对应关系,判断目标打印文件是否满足第三安全标准;
第二预置判断模块2804,用于在所述第二安全判断单元28033确定目标打印文件不满足第三安全标准时,判断第二预置保存模块是否保存有与目标打印文件对应的预判断打印许可;
第二请求发送模块2805,用于:当第二安全判断单元28033确定目标打印文件不满足第三安全标准时、或当第二置判断模块2804确定第二预置保存模块2801没有保存与目标打印文件对应的预判断打印许可时,向3D打印许可装置发送第二许可请求信息;
第二许可判断模块2806,用于判断是否接收到所述3D打印许可装置发送的第三打印许可,该第三打印许可由3D打印许可装置确定第二许可请求信息满足第二安全标准时发送;
第二文件打印模块2807,具体用于:当第二安全判断模块2803确定目标打印文件满足第三安全标准时、或当第二预置判断模块2804确定第二预置保存模块2801保存有与所述目标打印文件对应的预判断打印许可时、或当所述第二许可判断模块2806确定接收到所述3D打印许可装置发送的第三打印许可时,打印目标打印文件。
图28所示的实施例提供了一种3D打印装置,可以根据预判断打印许可对目标打印文件进行安全性判别。其中,第二安全判断单元28033确定目标打印文件不满足第三安全标准,则第二预置判断模块2804判断是否保存有与目标打印文件对应的预判断打印许可,若是,则第二文件打印模块2807打印该目标打印文件。通过这种方法,实现了3D打印装置与3D打印许可装置对目标打印文件安全性的二次判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。同时,由于第二预置判断模块2804判断是否保存有与目标打印文件对应的预判断打印许可, 若是则第二文件打印模块2807直接打印目标打印文件,使得部分安全判别操作由第二预置判断模块2804就可以完成,减少了3D打印许可装置接收的许可请求数目与安全判别操作次数,进而减轻了3D打印许可装置的负荷,提高了对目标打印文件安全性判别的效率。
图28所示的实施例提供了一种装置,可以提高对目标打印文件安全性判别的效率。下面的实施例将提供另一种3D打印装置2900,用于提高对目标打印文件安全性判别的准确度,请参阅图29,本发明提供的又一实施例的基本结构包括:
第二预置保存模块2901,用于接收述3D打印许可装置发送的预判断打印许可,并保存所述预判断打印许可;
第二文件获取模块2902,用于获取目标打印文件;
第二安全判断模块2903,用于判断目标打印文件是否满足第三安全标准,本实施例中,第二安全判断模块2702具体包括:
第二属性获取单元29031,用于获取目标打印文件对应的目标产品属性;
第二类别获取单元29032,用于根据目标产品属性,获取目标打印文件对应的目标产品类别,目标产品属性包括:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息,目标产品类别用于表示目标打印文件的分类;
第二安全判断单元29033,用于根据产品类别与第三安全标准的对应关系,判断目标打印文件是否满足第三安全标准;
第二预置判断模块2904,用于在所述第二安全判断单元29033确定目标打印文件不满足第三安全标准时,判断第二预置保存模块是否保存有与目标打印文件对应的预判断打印许可;
第二请求发送模块2905,用于:当第二安全判断单元29033确定目标打印文件不满足第三安全标准时、或当第二置判断模块2904确定第二预置保存模块2901没有保存与目标打印文件对应的预判断打印许可时,向3D打印许可装置发送第二许可请求信息;
第二许可判断模块2906,用于判断是否接收到所述3D打印许可装置发送的第三打印许可,该第三打印许可由3D打印许可装置确定第二许可请求信息 满足第二安全标准时发送;
第二文件打印模块2907,具体用于:当第二安全判断模块2903确定目标打印文件满足第三安全标准时、或当第二预置判断模块2904确定第二预置保存模块2901保存有与所述目标打印文件对应的预判断打印许可时、或当所述第二许可判断模块2906确定接收到所述3D打印许可装置发送的第三打印许可时,打印目标打印文件。
第二地址获取模块2908,用于从3D打印许可装置获取目标服务器地址,该目标服务器地址为目标服务器的地址;
第二地址访问模块2909,用于访问目标服务器地址,并从目标服务器中下载更新文件;
第二标准更新模块2910,用于根据更新文件更新所述产品类别与第三安全标准的对应关系。
本实施例提供了一种3D打印装置,其中,第二安全判断单元29033根据产品类别与第一安全标准的对应关系对目标打印文件的安全性进行判别,第二标准更新模块2910时常更新产品类别与第三安全标准的对应关系。通过这种方法,实现了3D打印装置与3D打印许可装置对目标打印文件安全性的二次判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。同时,由于第二标准更新模块2910时常更新产品类别与第三安全标准的对应关系,使得第二安全判断单元29033所获取的产品类别与第三安全标准的对应关系更具有实时性,根据产品类别与第三安全标准的对应关系对目标打印文件所做的安全性判别更加准确可信。
为了便于理解上述实施例,下面将以上述实施例的一个具体应用场景为例进行说明:
第二预置保存模块2901从3D打印许可装置接收到预判断打印许可,并保存该预判断打印许可。该预判断打印许可的内容为:用于警用用途的枪支满足该预判断打印许可,但是用于军用用途的枪支不满足该预判断打印许可。
用户使用3D打印设计装置设计了一份小型枪支的打印文件。第二文件获取模块2902从3D打印设计系统获取该打印文件,然后第二属性获取单元29031获取这份打印文件的目标产品属性,该属性中包括:设计的产品为枪支、 枪支口径为5.8毫米、该枪支用于军事用途。由该属性可以获知,该打印文件设计的产品为枪支,由于枪支具有一定的危害性,故第二类别获取单元29032将该打印文件的目标产品类别划分为非安全类产品,且第二安全判断单元29033确定该打印文件不符合第三安全标准。于是第二预置判断模块2904判断是否保存有与该打印文件对应的预判断打印许可。由于第二预置保存模块2901保存的预判断打印许可只许可警用用途,不许可军用用途,所以第二预置判断模块2904确定未保存有与该打印文件对应的预判断打印许可。因此,第二请求发送模块2905向3D打印许可装置发送第二许可请求信息,其中,第二许可请求信息的内容为该打印文件的目标产品属性。
3D打印许可装置经过安全性判别,认为该小型枪支可以被生产,所以打印许可中心向3D打印设计系统发送第二打印许可。第二许可判断模块2906确定接收到第二打印许可后,第二文件打印模块2907打印该打印文件,得到的目标产品为小型枪支。
该3D打印许可装置中,每隔预置时长,第二地址获取模块2908就会从3D打印许可装置获取目标服务器地址,第二地址访问模块2909访问该目标服务器地址,并从目标服务器中下载更新文件。第二标准更新模块2910根据更新文件更新所述产品类别与第三安全标准的对应关系。
本发明实施例还提出一种3D打印装置,请仍参见图21:
应该理解的是,图示3D打印装置2100仅仅是图25至图29所示的任一项实施例所提供的3D打印装置的一个范例,并且3D打印装置2100可以具有比图中所示出的更多的或者更少的部件,可以组合两个或更多的部件,或者可以具有不同的部件配置。图中所示出的各种部件可以在包括一个或多个信号处理和/或专用集成电路在内的硬件、软件、或硬件和软件的组合中实现。
现以3D打印装置为一个例子进行具体的说明。如图21所示,该3D打印装置包括存储器2101、中央处理器(Central Processing Unit,以下简称CPU)2102、外设接口2103、RF电路2104、音频电路2105、扬声器2106、电源管理芯片2107、输入/输出(I/O)子系统2108、其他输入/控制设备2109以及外部端口2110,这些部件通过一个或多个通信总线或信号线2111来通信。
值得说明的是,本实施例提供的非3D打印装置仅仅是本发明实施例提供 的3D打印装置的一个示例,本发明实施例涉及的3D打印装置可以具有比图21所示出的更多或更少的部件,可以组合两个或更多个部件,或者可以具有不同的部件配置或设置,各个部件可以在包括一个或多个信号处理和/或专用集成电路在内的硬件、软件或硬件和软件的组合实现。
下面就本实施例提供的3D打印装置进行详细的描述。
存储器2101:所述存储器2101用于存储程序代码与数据,且可以被CPU2102、外设接口2103等访问,所述存储器2101可以包括高速随机存取存储器,还可以包括非易失性存储器,例如一个或多个磁盘存储器件、闪存器件、或其他易失性固态存储器件。
CPU2102:所述CPU2102可以从存储器2101中获取程序代码,并根据获取的程序控制RF电路2104、I/O子系统2108等电路的实际操作。
外设接口2103,所述外设接口可以将设备的输入和输出外设连接到CPU2102和存储器2101。
I/O子系统2108:所述I/O子系统2108可以将设备上的输入输出外设,例如显示屏2112和其他输入/控制设备2109,连接到外设接口2103。I/O子系统2108可以包括显示控制器21081和用于控制其他输入/控制设备2109的一个或多个输入控制器21082。其中,一个或多个输入控制器21082从其他输入/控制设备2109接收电信号或者向其他输入/控制设备2109发送电信号,其他输入/控制设备2109可以包括物理按钮(按压按钮、摇臂按钮等)、拨号盘、滑动开关、操纵杆、点击滚轮。值得说明的是,输入控制器21082可以与以下任一个连接:键盘、红外端口、USB接口以及诸如鼠标的指示设备。
显示屏2112:所述显示屏2112是3D打印装置与用户之间的输出接口,将可视输出显示给用户,可视输出可以包括图形、文本、图标、视频等。
I/O子系统2108中的显示控制器21081从显示屏2112接收电信号或者向显示屏2112发送电信号。显示屏2112检测触摸屏上的接触,显示控制器21081将检测到的接触转换为与显示在显示屏2112上的用户界面对象的交互,即实现人机交互,显示在显示屏2112上的用户界面对象可以是运行游戏的图标、联网到相应网络的图标等。值得说明的是,设备还可以包括光鼠,光鼠是不显示可视输出的触摸敏感表面,或者是由触摸屏形成的触摸敏感表面的延伸。
RF电路2104,主要用于建立3D打印装置与无线网络(即网络侧)的通信,实现3D打印装置与无线网络的数据接收和发送。例如收发短信息、电子邮件等。具体地,RF电路2104接收并发送RF信号,RF信号也称为电磁信号,RF电路2104将电信号转换为电磁信号或将电磁信号转换为电信号,并且通过该电磁信号与通信网络以及其他设备进行通信。RF电路2104可以包括用于执行这些功能的已知电路,其包括但不限于天线系统、RF收发机、一个或多个放大器、调谐器、一个或多个振荡器、数字信号处理器、CODEC芯片组、用户标识模块(Subscriber Identity Module,SIM)等等。
音频电路2105,主要用于从外设接口2103接收音频数据,将该音频数据转换为电信号,并且将该电信号发送给扬声器2106。
扬声器2106,用于将3D打印装置通过RF电路2104从无线网络接收的语音信号,还原为声音并向用户播放该声音。
电源管理芯片2107,用于为CPU2102、I/O子系统及外设接口所连接的硬件进行供电及电源管理。
图30为3D打印装置内部部分结构图。本实施例中,CPU3001具体用于:
获取目标打印文件;
获取目标打印文件对应的目标产品属性;
根据目标产品属性,获取目标打印文件对应的目标产品类别;
根据产品类别与第三安全标准的对应关系,判断目标打印文件是否满足第三安全标准;
判断是否保存有与该目标打印文件对应的预判断打印许可;
判断是否接收到3D打印许可装置发送的第三打印许可;
根据更新文件更新所述产品类别与第三安全标准的对应关系。
本实施例中,RF电路3002具体用于:
向3D打印许可装置发送第二许可请求信息;
从3D打印许可装置获取目标服务器地址;
访问目标服务器地址,并从所述目标服务器中下载更新文件。
本实施例中,存储器3003具体用于:
接收3D打印许可装置发送的预判断打印许可,并保存该预判断打印许可。
本实施例中,I/O子系统3004具体用于:打印目标打印文件。
图25至图30所示的实施例提供了多种3D打印装置,从3D打印的角度实现了对目标产品的管制。下面的实施例将提供一种3D打印许可装置,从打印许可的角度实现对目标产品的管制,请参阅图31,本发明实施例提供的3D打印许可装置3100的基本结构包括:
第一请求接收模块3101,用于接收3D打印设计装置发送的第一许可请求信息;
第一标准判断模块3102,用于判断第一许可请求信息是否满足第二安全标准;
第一许可发送模块3103,用于当第一标准判断模块3102确定第一许可请求信息满足第二安全标准时,向3D打印设计装置发送第一打印许可,该第一打印许可用于:允许3D打印设计装置将所述第一许可请求信息对应的目标打印文件发送给3D打印装置。
本实施例提供了一种3D打印许可装置,从打印许可的角度实现了对目标产品的管制。其中,第一请求接收模块3101接收3D打印设计装置发送的第一许可请求信息、第一标准判断模块3102判断第一许可请求信息是否满足第二安全标准、若满足,则第一许可发送模块3103向3D打印设计装置发送第一打印许可。通过这样的方法,实现了对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
图31所示的实施例给出了一种3D打印许可装置,该装置实现了打印许可中心对打印文件的安全性的判别。下面的实施例将提供一种新的3D打印许可装置3200,可以进一步加强对打印文件的安全管制,请参见图32,本发明又一实施例的基本结构包括:
第一请求接收模块3201,用于接收3D打印设计装置发送的第一许可请求信息;
类别获取模块3202,用于根据第一许可请求信息获取许可请求类别;
次数获取模块3203,用于获取处理许可请求类别所对应的许可请求信息的次数;
次数判断模块3204,用于判断处理许可请求类别所对应的许可请求信息的次数是否达到预置次数;
第一标准判断模块3205,用于:当次数判断模块确定处理许可请求类别所对应的许可请求信息的次数没有达到预置次数时,判断第一许可请求信息是否满足第二安全标准;
第一许可发送模块3206,用于:当第一标准判断模块3205确定第一许可请求信息满足第二安全标准时,向3D打印设计装置发送第一打印许可,该第一打印许可用于:允许3D打印设计装置将第一许可请求信息对应的目标打印文件发送给3D打印装置。
本实施例提供了一种3D打印许可装置,从打印许可的角度实现了对目标产品的管制。其中,第一请求接收模块3201接收第一许可请求信息、第一标准判断模块3205判断第一许可请求信息是否满足第二安全标准、若满足,则第一许可发送模块3206向3D打印设计系统发送第一打印许可。通过这样的方法,实现了打印许可中心对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。同时,由于次数判断模块3204会判断处理所述许可请求类别所对应的许可请求信息的次数是否达到预置次数,若是则不向3D打印设计装置发送第一打印许可,使得3D打印许可装置只对预置次数以内的许可请求信息进行许可授权,实现了对目标产品的生产数量的控制,进一步加强了对打印文件的安全管制。
为了便于理解上述实施例,下面将以上述实施例的一个具体应用场景为例进行说明:
在一个3D打印许可装置中,第一请求接收模块3201接收3D打印设计装置发送的第一许可请求信息,该第一许可请求信息为一份打印文件的目标产品属性,其中,该打印文件的目标产品为小型枪支,该目标属性包括:目标产品为枪支、枪支口径为5.8毫米、该枪支用于军事用途。
3D打印许可装置接收到第一许可请求信息之后,类别获取模块3202根据第一许可请求信息获取许可请求类别,得到许可请求类别为枪械类。次数获取模块3203获取此前3D打印许可装置处理枪械类的许可请求信息的次数,共 计345次,次数判断模块3204确定345次未达到预置次数500次,于是第一标准判断模块3205判断第一许可请求信息是否满足第二安全标准。其判断标准为:若第一许可请求信息中包括的枪支口径小于6毫米,则认为满足第二安全标准。所以第一标准判断模块3205认为第一许可请求信息满足第二安全标准,该打印文件可以被打印。于是第一许可发送模块3206向3D打印设计装置发送第一打印许可。
本发明实施例还提出一种3D打印许可装置,请仍参见图21:
应该理解的是,图示3D打印许可装置2100仅仅是图31与图32所示的任一项实施例所提供的3D打印许可装置的一个范例,并且3D打印许可装置2100可以具有比图中所示出的更多的或者更少的部件,可以组合两个或更多的部件,或者可以具有不同的部件配置。图中所示出的各种部件可以在包括一个或多个信号处理和/或专用集成电路在内的硬件、软件、或硬件和软件的组合中实现。
现以3D打印许可装置为一个例子进行具体的说明。如图21所示,该3D打印许可装置包括存储器2101、中央处理器(Central Processing Unit,以下简称CPU)2102、外设接口2103、RF电路2104、音频电路2105、扬声器2106、电源管理芯片2107、输入/输出(I/O)子系统2108、其他输入/控制设备2109以及外部端口2110,这些部件通过一个或多个通信总线或信号线2111来通信。
值得说明的是,本实施例提供的非3D打印许可装置仅仅是本发明实施例提供的3D打印许可装置的一个示例,本发明实施例涉及的3D打印许可装置可以具有比图21所示出的更多或更少的部件,可以组合两个或更多个部件,或者可以具有不同的部件配置或设置,各个部件可以在包括一个或多个信号处理和/或专用集成电路在内的硬件、软件或硬件和软件的组合实现。
下面就本实施例提供的3D打印许可装置进行详细的描述。
存储器2101:所述存储器2101用于存储程序代码与数据,且可以被CPU2102、外设接口2103等访问,所述存储器2101可以包括高速随机存取存储器,还可以包括非易失性存储器,例如一个或多个磁盘存储器件、闪存器件、或其他易失性固态存储器件。
CPU2102:所述CPU2102可以从存储器2101中获取程序代码,并根据获 取的程序控制RF电路2104、I/O子系统2108等电路的实际操作。
外设接口2103,所述外设接口可以将设备的输入和输出外设连接到CPU2102和存储器2101。
I/O子系统2108:所述I/O子系统2108可以将设备上的输入输出外设,例如显示屏2112和其他输入/控制设备2109,连接到外设接口2103。I/O子系统2108可以包括显示控制器21081和用于控制其他输入/控制设备2109的一个或多个输入控制器21082。其中,一个或多个输入控制器21082从其他输入/控制设备2109接收电信号或者向其他输入/控制设备2109发送电信号,其他输入/控制设备2109可以包括物理按钮(按压按钮、摇臂按钮等)、拨号盘、滑动开关、操纵杆、点击滚轮。值得说明的是,输入控制器21082可以与以下任一个连接:键盘、红外端口、USB接口以及诸如鼠标的指示设备。
显示屏2112:所述显示屏2112是3D打印许可装置与用户之间的输出接口,将可视输出显示给用户,可视输出可以包括图形、文本、图标、视频等。
I/O子系统2108中的显示控制器21081从显示屏2112接收电信号或者向显示屏2112发送电信号。显示屏2112检测触摸屏上的接触,显示控制器21081将检测到的接触转换为与显示在显示屏2112上的用户界面对象的交互,即实现人机交互,显示在显示屏2112上的用户界面对象可以是运行游戏的图标、联网到相应网络的图标等。值得说明的是,设备还可以包括光鼠,光鼠是不显示可视输出的触摸敏感表面,或者是由触摸屏形成的触摸敏感表面的延伸。
RF电路2104,主要用于建立3D打印许可装置与无线网络(即网络侧)的通信,实现3D打印许可装置与无线网络的数据接收和发送。例如收发短信息、电子邮件等。具体地,RF电路2104接收并发送RF信号,RF信号也称为电磁信号,RF电路2104将电信号转换为电磁信号或将电磁信号转换为电信号,并且通过该电磁信号与通信网络以及其他设备进行通信。RF电路2104可以包括用于执行这些功能的已知电路,其包括但不限于天线系统、RF收发机、一个或多个放大器、调谐器、一个或多个振荡器、数字信号处理器、CODEC芯片组、用户标识模块(Subscriber Identity Module,SIM)等等。
音频电路2105,主要用于从外设接口2103接收音频数据,将该音频数据转换为电信号,并且将该电信号发送给扬声器2106。
扬声器2106,用于将3D打印许可装置通过RF电路2104从无线网络接收的语音信号,还原为声音并向用户播放该声音。
电源管理芯片2107,用于为CPU2102、I/O子系统及外设接口所连接的硬件进行供电及电源管理。
图33为3D打印装置内部部分结构图。本实施例中,CPU3301具体用于:
根据第一许可请求信息获取许可请求类别
获取处理许可请求类别所对应的许可请求信息的次数;
判断处理许可请求类别所对应的许可请求信息的次数是否达到预置次数;
判断第一许可请求信息是否满足第二安全标准;
本实施例中,RF电路3302具体用于:
接收3D打印设计装置发送的第一许可请求信息;
向3D打印设计装置发送第一打印许可
图31至图33所示的实施例提供了不同的3D打印许可装置,该装置向3D打印设计装置发送第一打印许可。下面的实施例将提供另一种3D打印许可装置3400,该装置向3D打印系统发送第二打印许可。请参见图34,本发明的又一实施例的基本结构包括:
第二请求接收模块3401,用于接收3D打印设计装置发送的第一许可请求信息;
第二标准判断模块3402,用于判断第一许可请求信息是否满足第二安全标准;
第二许可发送模块3403,用于当第二标准判断模块3402确定第一许可请求信息满足第二安全标准时,向3D打印装置发送第二打印许可,该第二打印许可用于:允许3D打印装置打印第一许可请求信息对应的目标打印文件。
本实施例提供了一种3D打印许可装置,从打印许可的角度实现了对目标产品的管制。其中,第二请求接收模块3401接收3D打印设计装置发送的第一许可请求信息、第二标准判断模块3402判断第一许可请求信息是否满足第二安全标准、若满足,则第二许可发送模块3403向3D打印装置发送第二打印许可。通过这样的方法,实现了对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定 与公民人身安全。
为了便于理解上述实施例,下面将以上述实施例的一个具体应用场景为例进行说明:
第二请求接收模块3401接收3D打印设计装置发送的第一许可请求信息,该第一许可请求信息为一份打印文件的目标产品属性,其中,该打印文件的目标产品为小型枪支,该目标属性包括:目标产品为枪支、枪支口径为5.8毫米、该枪支用于军事用途。
第二请求接收模块3401接收到第一许可请求信息之后,第二标准判断模块3402判断第一许可请求信息是否满足第二安全标准。其判断标准为:若第一许可请求信息中包括的枪支口径小于6毫米,则认为满足第二安全标准。所以第二标准判断模块3402认为第一许可请求信息满足第二安全标准,该打印文件可以被打印。于是第二许可发送模块3403向3D打印装置发送第二打印许可。
本发明实施例还提出一种3D打印许可装置,请仍参见图21:
应该理解的是,图示3D打印许可装置2100仅仅是图31与图32所示的任一项实施例所提供的3D打印许可装置的一个范例,并且3D打印许可装置2100可以具有比图中所示出的更多的或者更少的部件,可以组合两个或更多的部件,或者可以具有不同的部件配置。图中所示出的各种部件可以在包括一个或多个信号处理和/或专用集成电路在内的硬件、软件、或硬件和软件的组合中实现。
现以3D打印许可装置为一个例子进行具体的说明。如图21所示,该3D打印许可装置包括存储器2101、中央处理器(Central Processing Unit,以下简称CPU)2102、外设接口2103、RF电路2104、音频电路2105、扬声器2106、电源管理芯片2107、输入/输出(I/O)子系统2108、其他输入/控制设备2109以及外部端口2110,这些部件通过一个或多个通信总线或信号线2111来通信。
值得说明的是,本实施例提供的非3D打印许可装置仅仅是本发明实施例提供的3D打印许可装置的一个示例,本发明实施例涉及的3D打印许可装置可以具有比图21所示出的更多或更少的部件,可以组合两个或更多个部件,或者可以具有不同的部件配置或设置,各个部件可以在包括一个或多个信号处 理和/或专用集成电路在内的硬件、软件或硬件和软件的组合实现。
下面就本实施例提供的3D打印许可装置进行详细的描述。
存储器2101:所述存储器2101用于存储程序代码与数据,且可以被CPU2102、外设接口2103等访问,所述存储器2101可以包括高速随机存取存储器,还可以包括非易失性存储器,例如一个或多个磁盘存储器件、闪存器件、或其他易失性固态存储器件。
CPU2102:所述CPU2102可以从存储器2101中获取程序代码,并根据获取的程序控制RF电路2104、I/O子系统2108等电路的实际操作。
外设接口2103,所述外设接口可以将设备的输入和输出外设连接到CPU2102和存储器2101。
I/O子系统2108:所述I/O子系统2108可以将设备上的输入输出外设,例如显示屏2112和其他输入/控制设备2109,连接到外设接口2103。I/O子系统2108可以包括显示控制器21081和用于控制其他输入/控制设备2109的一个或多个输入控制器21082。其中,一个或多个输入控制器21082从其他输入/控制设备2109接收电信号或者向其他输入/控制设备2109发送电信号,其他输入/控制设备2109可以包括物理按钮(按压按钮、摇臂按钮等)、拨号盘、滑动开关、操纵杆、点击滚轮。值得说明的是,输入控制器21082可以与以下任一个连接:键盘、红外端口、USB接口以及诸如鼠标的指示设备。
显示屏2112:所述显示屏2112是3D打印许可装置与用户之间的输出接口,将可视输出显示给用户,可视输出可以包括图形、文本、图标、视频等。
I/O子系统2108中的显示控制器21081从显示屏2112接收电信号或者向显示屏2112发送电信号。显示屏2112检测触摸屏上的接触,显示控制器21081将检测到的接触转换为与显示在显示屏2112上的用户界面对象的交互,即实现人机交互,显示在显示屏2112上的用户界面对象可以是运行游戏的图标、联网到相应网络的图标等。值得说明的是,设备还可以包括光鼠,光鼠是不显示可视输出的触摸敏感表面,或者是由触摸屏形成的触摸敏感表面的延伸。
RF电路2104,主要用于建立3D打印许可装置与无线网络(即网络侧)的通信,实现3D打印许可装置与无线网络的数据接收和发送。例如收发短信息、电子邮件等。具体地,RF电路2104接收并发送RF信号,RF信号也称 为电磁信号,RF电路2104将电信号转换为电磁信号或将电磁信号转换为电信号,并且通过该电磁信号与通信网络以及其他设备进行通信。RF电路2104可以包括用于执行这些功能的已知电路,其包括但不限于天线系统、RF收发机、一个或多个放大器、调谐器、一个或多个振荡器、数字信号处理器、CODEC芯片组、用户标识模块(Subscriber Identity Module,SIM)等等。
音频电路2105,主要用于从外设接口2103接收音频数据,将该音频数据转换为电信号,并且将该电信号发送给扬声器2106。
扬声器2106,用于将3D打印许可装置通过RF电路2104从无线网络接收的语音信号,还原为声音并向用户播放该声音。
电源管理芯片2107,用于为CPU2102、I/O子系统及外设接口所连接的硬件进行供电及电源管理。
图35为3D打印装置内部部分结构图。本实施例中,CPU3501具体用于:
判断第一许可请求信息是否满足第二安全标准。
本实施例中,RF电路3502具体用于:
接收3D打印设计装置发送的第一许可请求信息;
向3D打印装置发送第二打印许可。
图34、35所示的实施例中,3D打印许可装置均从3D打印设计装置处接收第一许可请求信息。实际上,3D打印许可装置也可以从3D打印装置处接收第二许可请求信息,请参见图36,本发明又一实施例3600的基本结构包括:
第三请求接收模块3601,用于接收3D打印装置发送的第二许可请求信息;
第三标准判断模块3602,用于判断第二许可请求信息是否满足第二安全标准;
第三许可发送模块3603,用于当第三标准判断模块确定所述第二许可请求信息满足第二安全标准时,向3D打印装置发送第三打印许可,该第二打印许可用于:允许3D打印装置打印第二许可请求信息对应的目标打印文件。
本实施例提供了一种3D打印许可装置,从打印许可的角度实现了对目标产品的管制。其中,第三请求接收模块3601接收3D打印设计装置发送的第二许可请求信息、第三标准判断模块3602判断第二许可请求信息是否满足第二安全标准、若满足,则第三许可发送模块3603向3D打印装置发送第三打 印许可。通过这样的方法,实现了对目标打印文件安全性的判别,进而实现了对目标产品的管制,解决了高危物品的生产难以管制的问题,保障了社会稳定与公民人身安全。
为了便于理解上述实施例,下面将以上述实施例的一个具体应用场景为例进行说明:
第三请求接收模块3601接收3D打印系统发送的第二许可请求信息,该第二许可请求信息为一份打印文件的目标产品属性,其中,该打印文件的目标产品为小型枪支,该目标属性包括:目标产品为枪支、枪支口径为5.8毫米、该枪支用于军事用途。
第三请求接收模块3601接收到第二许可请求信息之后,第三标准判断模块3602判断第二许可请求信息是否满足第二安全标准。其判断标准为:若第二许可请求信息中包括的枪支口径小于6毫米,则认为满足第二安全标准。所以第三标准判断模块3602认为第二许可请求信息满足第二安全标准,该打印文件可以被打印。于是第三许可发送模块3603向3D打印装置发送第三打印许可。
本发明实施例还提出一种3D打印许可装置,请仍参见图21:
应该理解的是,图示3D打印许可装置2100仅仅是图31与图32所示的任一项实施例所提供的3D打印许可装置的一个范例,并且3D打印许可装置2100可以具有比图中所示出的更多的或者更少的部件,可以组合两个或更多的部件,或者可以具有不同的部件配置。图中所示出的各种部件可以在包括一个或多个信号处理和/或专用集成电路在内的硬件、软件、或硬件和软件的组合中实现。
现以3D打印许可装置为一个例子进行具体的说明。如图21所示,该3D打印许可装置包括存储器2101、中央处理器(Central Processing Unit,以下简称CPU)2102、外设接口2103、RF电路2104、音频电路2105、扬声器2106、电源管理芯片2107、输入/输出(I/O)子系统2108、其他输入/控制设备2109以及外部端口2110,这些部件通过一个或多个通信总线或信号线2111来通信。
值得说明的是,本实施例提供的非3D打印许可装置仅仅是本发明实施例提供的3D打印许可装置的一个示例,本发明实施例涉及的3D打印许可装置 可以具有比图21所示出的更多或更少的部件,可以组合两个或更多个部件,或者可以具有不同的部件配置或设置,各个部件可以在包括一个或多个信号处理和/或专用集成电路在内的硬件、软件或硬件和软件的组合实现。
下面就本实施例提供的3D打印许可装置进行详细的描述。
存储器2101:所述存储器2101用于存储程序代码与数据,且可以被CPU2102、外设接口2103等访问,所述存储器2101可以包括高速随机存取存储器,还可以包括非易失性存储器,例如一个或多个磁盘存储器件、闪存器件、或其他易失性固态存储器件。
CPU2102:所述CPU2102可以从存储器2101中获取程序代码,并根据获取的程序控制RF电路2104、I/O子系统2108等电路的实际操作。
外设接口2103,所述外设接口可以将设备的输入和输出外设连接到CPU2102和存储器2101。
I/O子系统2108:所述I/O子系统2108可以将设备上的输入输出外设,例如显示屏2112和其他输入/控制设备2109,连接到外设接口2103。I/O子系统2108可以包括显示控制器21081和用于控制其他输入/控制设备2109的一个或多个输入控制器21082。其中,一个或多个输入控制器21082从其他输入/控制设备2109接收电信号或者向其他输入/控制设备2109发送电信号,其他输入/控制设备2109可以包括物理按钮(按压按钮、摇臂按钮等)、拨号盘、滑动开关、操纵杆、点击滚轮。值得说明的是,输入控制器21082可以与以下任一个连接:键盘、红外端口、USB接口以及诸如鼠标的指示设备。
显示屏2112:所述显示屏2112是3D打印许可装置与用户之间的输出接口,将可视输出显示给用户,可视输出可以包括图形、文本、图标、视频等。
I/O子系统2108中的显示控制器21081从显示屏2112接收电信号或者向显示屏2112发送电信号。显示屏2112检测触摸屏上的接触,显示控制器21081将检测到的接触转换为与显示在显示屏2112上的用户界面对象的交互,即实现人机交互,显示在显示屏2112上的用户界面对象可以是运行游戏的图标、联网到相应网络的图标等。值得说明的是,设备还可以包括光鼠,光鼠是不显示可视输出的触摸敏感表面,或者是由触摸屏形成的触摸敏感表面的延伸。
RF电路2104,主要用于建立3D打印许可装置与无线网络(即网络侧) 的通信,实现3D打印许可装置与无线网络的数据接收和发送。例如收发短信息、电子邮件等。具体地,RF电路2104接收并发送RF信号,RF信号也称为电磁信号,RF电路2104将电信号转换为电磁信号或将电磁信号转换为电信号,并且通过该电磁信号与通信网络以及其他设备进行通信。RF电路2104可以包括用于执行这些功能的已知电路,其包括但不限于天线系统、RF收发机、一个或多个放大器、调谐器、一个或多个振荡器、数字信号处理器、CODEC芯片组、用户标识模块(Subscriber Identity Module,SIM)等等。
音频电路2105,主要用于从外设接口2103接收音频数据,将该音频数据转换为电信号,并且将该电信号发送给扬声器2106。
扬声器2106,用于将3D打印许可装置通过RF电路2104从无线网络接收的语音信号,还原为声音并向用户播放该声音。
电源管理芯片2107,用于为CPU2102、I/O子系统及外设接口所连接的硬件进行供电及电源管理。
图37为3D打印装置内部部分结构图。本实施例中,CPU3701具体用于:
判断第二许可请求信息是否满足第二安全标准。
本实施例中,RF电路3702具体用于:
接收3D打印装置发送的第二许可请求信息;
向3D打印装置发送第三打印许可。
本发明实施例还提出一种3D打印系统,请参阅图38。该系统3800的主要结构包括:上述图16至图17所示任一实施例提供的3D打印设计装置3801与3D打印装置3802。
本发明实施例还提出一种3D打印系统,请参阅图39。该系统3900的主要结构包括:上述图18至图22所示任一实施例提供的3D打印设计装置3901、图31至图33所示任一实施例提供的3D打印许可装置3902、以及3D打印装置3903。
本发明实施例还提出一种3D打印系统,请参阅图40。该系统4000的主要结构包括:上述图18至图22所示任一实施例提供的3D打印设计装置4001,与图34、35所示任一实施例提供的3D打印许可装置4002,与图23、24所示任一实施例提供的3D打印装置4003。
本发明实施例还提出一种3D打印系统,请参阅图41。该系统4100的主要结构包括:3D打印设计装置4101,与图25、26所示任一实施例提供的3D打印装置4102。
本发明实施例还提出一种3D打印系统,请参阅图42。该系统4200的主要结构包括:3D打印设计装置4201,与图36、37所示任一实施例提供的3D打印许可装置4202,与图27至图30所示任一实施例提供的3D打印装置4203。
所属领域的技术人员可以清楚地了解到,为描述的方便和简洁,上述描述的系统,装置和单元的具体工作过程,可以参考前述方法实施例中的对应过程,在此不再赘述。
在本申请所提供的几个实施例中,应该理解到,所揭露的系统,装置和方法,可以通过其它的方式实现。例如,以上所描述的装置实施例仅仅是示意性的,例如,所述单元的划分,仅仅为一种逻辑功能划分,实际实现时可以有另外的划分方式,例如多个单元或组件可以结合或者可以集成到另一个系统,或一些特征可以忽略,或不执行。另一点,所显示或讨论的相互之间的耦合或直接耦合或通信连接可以是通过一些接口,装置或单元的间接耦合或通信连接,可以是电性,机械或其它的形式。
所述作为分离部件说明的单元可以是或者也可以不是物理上分开的,作为单元显示的部件可以是或者也可以不是物理单元,即可以位于一个地方,或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的部分或者全部单元来实现本实施例方案的目的。
另外,在本发明各个实施例中的各功能单元可以集成在一个处理单元中,也可以是各个单元单独物理存在,也可以两个或两个以上单元集成在一个单元中。上述集成的单元既可以采用硬件的形式实现,也可以采用软件功能单元的形式实现。
所述集成的单元如果以软件功能单元的形式实现并作为独立的产品销售或使用时,可以存储在一个计算机可读取存储介质中。基于这样的理解,本发明的技术方案本质上或者说对现有技术做出贡献的部分或者该技术方案的全部或部分可以以软件产品的形式体现出来,该计算机软件产品存储在一个存储介质中,包括若干指令用以使得一台计算机设备(可以是个人计算机,服务器, 或者网络设备等)执行本发明各个实施例所述方法的全部或部分步骤。而前述的存储介质包括:U盘、移动硬盘、只读存储器(ROM,Read-Only Memory)、随机存取存储器(RAM,Random Access Memory)、磁碟或者光盘等各种可以存储程序代码的介质。
以上所述,以上实施例仅用以说明本发明的技术方案,而非对其限制;尽管参照前述实施例对本发明进行了详细的说明,本领域的普通技术人员应当理解:其依然可以对前述各实施例所记载的技术方案进行修改,或者对其中部分技术特征进行等同替换;而这些修改或者替换,并不使相应技术方案的本质脱离本发明各实施例技术方案的精神和范围。

Claims (43)

  1. 一种3D打印设计方法,其特征在于,包括:
    3D打印设计系统确定目标打印文件;
    所述3D打印设计系统判断所述目标打印文件是否满足第一安全标准;
    若所述目标打印文件满足所述第一安全标准,则所述3D打印设计系统将所述目标打印文件发送给3D打印系统,使得所述3D打印系统按照所述目标打印文件进行打印。
  2. 根据权利要求1所述的3D打印设计方法,其特征在于,所述3D打印设计系统判断所述目标打印文件是否满足第一安全标准包括:
    所述3D打印设计系统获取所述目标打印文件对应的目标产品属性;
    所述3D打印设计系统根据所述目标产品属性,获取所述目标打印文件对应的目标产品类别,所述目标产品属性包括:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息,所述目标产品类别用于表示所述目标打印文件的分类,所述目标产品类别用于表示所述目标打印文件的分类;
    所述3D打印设计系统根据产品类别与第一安全标准的对应关系,判断所述目标打印文件是否满足第一安全标准。
  3. 根据权利要求2所述的3D打印设计方法,其特征在于,所述产品类别包括:安全类产品、非安全类产品;
    所述3D打印设计系统根据产品类别与第一安全标准的对应关系,判断所述目标打印文件是否满足第一安全标准包括:若所述目标产品类别为安全类产品,则所述3D打印设计系统确定所述目标打印文件满足第一安全标准,若所述目标产品类别为非安全类产品,则所述3D打印设计系统确定所述目标打印文件不满足第一安全标准。
  4. 根据权利要求2或3所述的3D打印设计方法,其特征在于,所述方法还包括:
    若所述3D打印设计系统确定所述目标打印文件不满足所述第一安全标准,则所述3D打印设计系统向打印许可中心发送第一许可请求信息;
    所述3D打印设计系统判断是否接收到所述许可中心发送的第一打印许 可,所述第一打印许可由所述许可中心确定所述第一许可请求信息满足第二安全标准时发送,所述第二安全标准为所述许可中心判断接收到的请求信息所对应的打印文件是否安全的标准;
    若所述打印设计系统接收到所述许可中心发送的第一打印许可,则所述3D打印设计系统将所述目标打印文件发送给3D打印系统,使得所述3D打印系统按照所述目标打印文件进行打印。
  5. 根据权利要求2或3所述的3D打印设计方法,其特征在于,所述方法还包括:
    所述3D打印设计系统接收所述许可中心发送的预判断打印许可;
    若所述3D打印设计系统确定所述目标打印文件不满足所述第一安全标准,则所述3D打印设计系统判断是否保存有与所述目标打印文件对应的预判断打印许可,若是,则所述3D打印设计系统将所述目标打印文件发送给3D打印系统,若否,则所述3D打印设计系统向打印许可中心发送第一许可请求信息。
  6. 根据权利要求2或3所述的3D打印设计方法,其特征在于,所述方法还包括:
    所述3D打印设计系统从所述打印许可中心获取目标服务器地址,所述目标服务器地址为目标服务器的地址;
    所述3D打印设计系统访问所述目标服务器地址,并从所述目标服务器中下载更新文件;
    所述3D打印设计系统根据所述更新文件更新所述产品类别与第一安全标准的对应关系。
  7. 一种3D打印方法,其特征在于,包括:
    3D打印系统获取目标打印文件;
    所述3D打印系统判断是否接收到打印许可中心发送的第二打印许可;
    若接收到打印许可中心发送的第二打印许可,则所述3D打印系统打印所述目标打印文件。
  8. 一种3D打印方法,其特征在于,包括:
    3D打印系统获取目标打印文件;
    所述3D打印系统判断所述目标打印文件是否满足第三安全标准;
    若所述目标打印文件满足所述第三安全标准,则所述3D打印系统打印所述目标打印文件。
  9. 根据权利要求8所述的3D打印方法,其特征在于,所述3D打印设计系统判断所述目标打印文件是否满足第三安全标准包括:
    所述3D打印系统获取所述目标打印文件对应的目标产品属性;
    所述3D打印系统根据所述目标产品属性,获取所述目标打印文件对应的目标产品类别,所述目标产品属性包括:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息,所述目标产品类别用于表示所述目标打印文件的分类;
    所述3D打印系统根据产品类别与第三安全标准的对应关系,判断所述目标打印文件是否满足第三安全标准。
  10. 根据权利要求9所述的3D打印方法,其特征在于,所述产品类别包括:安全类产品、非安全类产品;
    所述3D打印系统根据产品类别与第三安全标准的对应关系,判断所述目标打印文件是否满足第三安全标准包括:若所述目标产品类别为安全类产品,则所述3D打印系统确定所述目标打印文件满足第三安全标准,若所述目标产品类别为非安全类产品,则所述3D打印系统确定所述目标打印文件不满足第三安全标准。
  11. 根据权利要求9或10所述的3D打印方法,其特征在于,所述方法还包括:
    若所述3D打印系统确定所述目标打印文件不满足所述第三安全标准,则所述3D打印系统向打印许可中心发送第二许可请求信息;
    所述3D打印系统判断是否接收到所述许可中心发送的第三打印许可,所述第三打印许可由所述许可中心确定所述第二许可请求信息满足第二安全标准时发送;
    若所述3D打印系统接收到所述许可中心发送的第三打印许可,则所述3D打印系统打印所述目标打印文件。
  12. 根据权利要求11所述的3D打印方法,其特征在于,所述方法还包括:
    所述3D打印系统接收所述许可中心发送的预判断打印许可;
    所述3D打印系统向打印许可中心发送第二许可请求信息之前还包括:若所述3D打印系统确定所述目标打印文件不满足所述第三安全标准,则所述3D打印系统判断是否保存有与所述目标打印文件对应的预判断打印许可,若是,则所述3D打印系统打印所述目标打印文件,若否,则触发所述3D打印系统向打印许可中心发送第二许可请求信息的操作。
  13. 根据权利要求9所述的3D打印方法,其特征在于,所述方法还包括:
    所述3D打印系统从所述打印许可中心获取目标服务器地址,所述目标服务器地址为目标服务器的地址;
    所述3D打印系统访问所述目标服务器地址,并从所述目标服务器中下载更新文件;
    所述3D打印系统根据所述更新文件更新所述产品类别与第三安全标准的对应关系。
  14. 一种3D打印许可方法,其特征在于,包括:
    打印许可中心接收3D打印设计系统发送的第一许可请求信息;
    所述打印许可中心判断所述第一许可请求信息是否满足第二安全标准,所述第二安全标准为所述许可中心判断接收到的请求信息所对应的打印文件是否安全的标准;
    若所述第一许可请求信息满足第二安全标准,则所述打印许可中心向所述3D打印设计系统发送第一打印许可,所述第一打印许可用于:允许所述3D打印设计系统将所述第一许可请求信息对应的目标打印文件发送给3D打印系统。
  15. 根据权利要求14所述的3D打印许可方法,其特征在于,所述打印许可中心判断所述第一许可请求信息是否满足第二安全标准包括:
    所述打印许可中心根据所述第一许可请求信息对应的目标产品属性、目标产品类别、或发送所述第一许可请求信息的3D打印设计系统的安全级别来判断所述第一许可请求信息是否满足第二安全标准,所述安全级别用于表示所述 3D打印设计系统的安全性。
  16. 根据权利要求14或15所述的3D打印许可方法,其特征在于,所述打印许可中心判断所述第一许可请求信息是否满足第二安全标准之前还包括:
    打印许可中心根据所述第一许可请求信息获取许可请求类别;
    所述打印许可中心获取所述打印许可中心处理所述许可请求类别所对应的许可请求信息的次数;
    所述打印许可中心判断处理所述许可请求类别所对应的许可请求信息的次数是否达到预置次数;
    若所述打印许可中心确定处理所述许可请求类别所对应的许可请求信息的次数达到预置次数,则所述打印许可中心不向所述3D打印设计系统发送第一打印许可;
    若所述打印许可中心确定处理所述许可请求类别所对应的许可请求信息的次数没有达到预置次数,则触发所述打印许可中心判断所述第一许可请求信息是否满足第二安全标准的操作。
  17. 一种3D打印许可方法,其特征在于,包括:
    打印许可中心接收3D打印设计系统发送的第一许可请求信息;
    所述打印许可中心判断所述第一许可请求信息是否满足第二安全标准,所述第二安全标准为所述许可中心判断接收到的请求信息所对应的打印文件是否安全的标准;
    若所述第一许可请求信息满足第二安全标准,则所述打印许可中心向所述3D打印系统发送第二打印许可,所述第二打印许可用于:允许所述3D打印系统打印所述第一许可请求信息对应的目标打印文件。
  18. 根据权利要求17所述的3D打印许可方法,其特征在于,所述打印许可中心判断所述第一许可请求信息是否满足第二安全标准包括:
    所述打印许可中心根据所述第一许可请求信息对应的目标产品属性、目标产品类别、或发送所述第一许可请求信息的3D打印设计系统的安全级别来判断所述第一许可请求信息是否满足第二安全标准,所述安全级别用于表示所述3D打印设计系统的安全性。
  19. 一种3D打印许可方法,其特征在于,包括:
    打印许可中心接收3D打印系统发送的第二许可请求信息;
    所述打印许可中心判断所述第二许可请求信息是否满足第二安全标准,所述第二安全标准为所述许可中心判断接收到的请求信息所对应的打印文件是否安全的标准;
    若所述第二许可请求信息满足第二安全标准,则所述打印许可中心向所述3D打印系统发送第三打印许可,所述第二打印许可用于:允许所述3D打印系统打印所述第二许可请求信息对应的目标打印文件。
  20. 根据权利要求19所述的3D打印许可方法,其特征在于,所述打印许可中心判断所述第二许可请求信息是否满足第二安全标准包括:
    所述打印许可中心根据所述第二许可请求信息对应的目标产品属性、目标产品类别、或发送所述第二许可请求信息的3D打印系统的安全级别来判断所述第一许可请求信息是否满足第二安全标准,所述安全级别用于表示所述3D打印系统的安全性。
  21. 一种3D打印设计装置,其特征在于,包括:
    文件确定模块,用于确定目标打印文件;
    第一安全判断模块,用于判断所述目标打印文件是否满足第一安全标准;
    文件发送模块,用于当所述第一安全判断模块确定所述目标打印文件满足所述第一安全标准时,将所述目标打印文件发送给3D打印装置,使得所述3D打印装置按照所述目标打印文件进行打印。
  22. 根据权利要求21所述的3D打印设计装置,其特征在于,所述第一安全判断模块包括:
    第一属性获取单元,用于获取所述目标打印文件对应的目标产品属性;
    第一类别获取单元,用于根据所述目标产品属性,获取所述目标打印文件对应的目标产品类别,所述目标产品属性包括:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息,所述目标产品类别用于表示所述目标打印文件的分类;
    第一安全判断单元,用于根据产品类别与第一安全标准的对应关系,判断所述目标打印文件是否满足第一安全标准。
  23. 根据权利要求22所述的3D打印设计装置,其特征在于,所述装置还包括:
    第一请求发送模块,用于当所述第一安全判断单元确定所述目标打印文件不满足所述第一安全标准时,向3D打印许可装置发送第一许可请求信息;
    第一许可判断模块,用于判断是否接收到所述3D打印许可装置发送的第一打印许可,所述第一打印许可由所述3D打印许可装置确定所述第一许可请求信息满足第二安全标准时发送,所述第二安全标准为所述3D打印许可装置判断接收到的请求信息所对应的打印文件是否安全的标准;
    所述文件发送模块还用于:当所述第一许可判断模块确定接收到所述3D打印许可装置发送的第一打印许可时,将所述目标打印文件发送给3D打印装置,使得所述3D打印装置按照所述目标打印文件进行打印。
  24. 根据权利要求23所述的3D打印设计装置,其特征在于,所述装置还包括:
    第一预置保存模块,用于接收所述3D打印许可装置发送的预判断打印许可;
    第一预置判断模块,用于当所述第一安全判断单元确定所述目标打印文件不满足所述第一安全标准时,判断所述第一预置保存模块是否保存有与所述目标打印文件对应的预判断打印许可;
    所述文件发送模块还用于:当所述第一预置判断模块确定所述第一预置保存模块保存有与所述目标打印文件对应的预判断打印许可时,将所述目标打印文件发送给3D打印装置;
    所述第一请求发送模块还用于:当所述第一预置判断模块确定所述第一预置保存模块没有保存与所述目标打印文件对应的预判断打印许可时,向所述3D打印许可装置发送第一许可请求信息。
  25. 根据权利要求23或24所述的3D打印设计装置,其特征在于,所述装置还包括:
    第一地址获取模块,用于从所述3D打印许可装置获取目标服务器地址,所述目标服务器地址为目标服务器的地址;
    第一地址访问模块,用于访问所述目标服务器地址,并从所述目标服务器 中下载更新文件;
    第一标准更新模块,用于根据所述更新文件更新所述产品类别与第一安全标准的对应关系。
  26. 一种3D打印装置,其特征在于,包括:
    第一文件获取模块,用于获取目标打印文件;
    第二许可判断模块,用于判断是否接收到3D打印许可装置发送的第二打印许可;
    第一文件打印模块,用于当所述第二许可判断模块确定接收到3D打印许可装置发送的第二打印许可时,打印所述目标打印文件。
  27. 一种3D打印装置,其特征在于,包括:
    第二文件获取模块,用于获取目标打印文件;
    第二安全判断模块,用于判断所述目标打印文件是否满足第三安全标准;
    第二文件打印模块,用于当所述第二安全判断模块确定所述目标打印文件满足所述第三安全标准时,打印所述目标打印文件。
  28. 根据权利要求27所述的3D打印装置,其特征在于,所述第二安全判断模块包括:
    第二属性获取单元,用于获取所述目标打印文件对应的目标产品属性;
    第二类别获取单元,用于根据所述目标产品属性,获取所述目标打印文件对应的目标产品类别,所述目标产品属性包括:目标产品的原材料种类信息、目标产品的原材料精度信息、目标产品的制造工艺流程信息、目标产品的空间形状信息、或目标产品的用途信息,所述目标产品类别用于表示所述目标打印文件的分类;
    第二安全判断单元,用于根据产品类别与第三安全标准的对应关系,判断所述目标打印文件是否满足第三安全标准。
  29. 根据权利要求28所述的3D打印装置,其特征在于,所述装置还包括:
    第二请求发送模块,用于当所述第二安全判断单元确定所述目标打印文件不满足所述第三安全标准时,向3D打印许可装置发送第二许可请求信息;
    第二许可判断模块,用于判断是否接收到所述3D打印许可装置发送的第 三打印许可,所述第三打印许可由所述3D打印许可装置确定所述第二许可请求信息满足第二安全标准时发送,,所述第二安全标准为所述3D打印许可装置判断接收到的请求信息所对应的打印文件是否安全的标准;
    所述第二文件打印模块还用于:当所述第二许可判断模块确定接收到所述3D打印许可装置发送的第三打印许可时,打印所述目标打印文件。
  30. 根据权利要求29所述的3D打印装置,其特征在于,所述装置还包括:
    第二预置保存模块,用于接收所述3D打印许可装置发送的预判断打印许可;
    第二预置判断模块,用于在所述第二安全判断单元确定所述目标打印文件不满足所述第三安全标准时,判断所述第二预置保存模块是否保存有与所述目标打印文件对应的预判断打印许可;
    所述第二文件打印模块还用于:当所述第二预置判断模块确定所述第二预置保存模块保存有与所述目标打印文件对应的预判断打印许可时,打印所述目标打印文件;
    所述第二请求发送模块还用于:当所述第二置判断模块确定所述第二预置保存模块没有保存与所述目标打印文件对应的预判断打印许可时,向3D打印许可装置发送第二许可请求信息。
  31. 根据权利要求28所述的3D打印装置,其特征在于,所述装置还包括:
    第二地址获取模块,用于从所述3D打印许可装置获取目标服务器地址,所述目标服务器地址为目标服务器的地址;
    第二地址访问模块,用于访问所述目标服务器地址,并从所述目标服务器中下载更新文件;
    第二标准更新模块,用于根据所述更新文件更新所述产品类别与第三安全标准的对应关系。
  32. 一种3D打印许可装置,其特征在于,包括:
    第一请求接收模块,用于接收3D打印设计装置发送的第一许可请求信息;
    第一标准判断模块,用于判断所述第一许可请求信息是否满足第二安全标 准,所述第二安全标准为所述3D打印许可装置判断接收到的请求信息所对应的打印文件是否安全的标准;
    第一许可发送模块,用于当所述第一标准判断模块确定所述第一许可请求信息满足第二安全标准时,向所述3D打印设计装置发送第一打印许可,所述第一打印许可用于:允许所述3D打印设计装置将所述第一许可请求信息对应的目标打印文件发送给3D打印装置。
  33. 根据权利要求32所述的3D打印许可装置,其特征在于,所述第一标准判断模块具体用于:根据所述第一许可请求信息对应的目标产品属性、目标产品类别、或发送所述第一许可请求信息的3D打印设计装置的安全级别来判断所述第一许可请求信息是否满足第二安全标准,所述安全级别用于表示所述3D打印设计装置的安全性。
  34. 根据权利要求32或33所述的3D打印许可装置,其特征在于,所述装置还包括:
    类别获取模块,用于根据所述第一许可请求信息获取许可请求类别;
    次数获取模块,用于获取所述3D打印许可装置处理所述许可请求类别所对应的许可请求信息的次数;
    次数判断模块,用于判断处理所述许可请求类别所对应的许可请求信息的次数是否达到预置次数;
    所述第一标准判断模块具体用于:当所述次数判断模块确定处理所述许可请求类别所对应的许可请求信息的次数没有达到预置次数时,判断所述第一许可请求信息是否满足第二安全标准。
  35. 一种3D打印许可装置,其特征在于,包括:
    第二请求接收模块,用于接收3D打印设计装置发送的第一许可请求信息;
    第二标准判断模块,用于判断所述第一许可请求信息是否满足第二安全标准,,所述第二安全标准为所述3D打印许可装置判断接收到的请求信息所对应的打印文件是否安全的标准;
    第二许可发送模块,用于当所述第二标准判断模块确定所述第一许可请求信息满足第二安全标准时,向所述3D打印装置发送第二打印许可,所述第二打印许可用于:允许所述3D打印装置打印所述第一许可请求信息对应的目标 打印文件。
  36. 根据权利要求35所述的3D打印许可装置,其特征在于,所述第二标准判断模块具体用于:根据所述第一许可请求信息对应的目标产品属性、目标产品类别、或发送所述第一许可请求信息的3D打印设计装置的安全级别来判断所述第一许可请求信息是否满足第二安全标准,所述安全级别用于表示所述3D打印设计装置的安全性。
  37. 一种3D打印许可装置,其特征在于,包括:
    第三请求接收模块,用于接收3D打印装置发送的第二许可请求信息;
    第三标准判断模块,用于判断所述第二许可请求信息是否满足第二安全标准,所述第二安全标准为所述3D打印许可装置判断接收到的请求信息所对应的打印文件是否安全的标准;
    第三许可发送模块,用于当所述第三标准判断模块确定所述第二许可请求信息满足第二安全标准时,向所述3D打印装置发送第三打印许可,所述第二打印许可用于:允许所述3D打印装置打印所述第二许可请求信息对应的目标打印文件。
  38. 根据权利要求37所述的3D打印许可装置,其特征在于,所述第三标准判断模块具体用于:根据所述第二许可请求信息对应的目标产品属性、目标产品类别、或发送所述第二许可请求信息的3D打印装置的安全级别来判断所述第二许可请求信息是否满足第二安全标准,所述安全级别用于表示所述3D打印装置的安全性。
  39. 一种3D打印系统,其特征在于,包括:
    3D打印装置与权利要求21、22中任一项所述的3D打印设计装置。
  40. 一种3D打印系统,其特征在于,包括:
    3D打印装置,和权利要求23至25中任一项所述的3D打印设计装置,和权利要求32至34中任一项所述的3D打印许可装置。
  41. 一种3D打印系统,其特征在于,包括:
    权利要求23至25中任一项所述的3D打印设计装置,和权利要求35或36所述的3D打印许可装置,和权利要求26所述的3D打印装置。
  42. 一种3D打印系统,其特征在于,包括:
    3D打印设计装置,和权利要求27、28中任一项所述的3D打印装置。
  43. 一种3D打印系统,其特征在于,包括:
    3D打印设计装置,和权利要求37或38所述的3D打印许可装置,和权利要求29至31中任一项所述的3D打印装置。
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