CN104991748A - Remote three-dimensional printing system and method thereof - Google Patents

Abstract

The present invention relates to a remote three-dimensional printing system which comprises a three-dimensional printing platform, three-dimensional printing colocation machines and three-dimensional printing devices. The three-dimensional printing platform is remotely abutted with a plurality of three-dimensional printing colocation machines and each three-dimensional printing colocation machine is respectively abutted with a plurality of three-dimensional printing devices; the three-dimensional printing platform comprises an online slicing module and a script file generating module; the online slicing module is used for carrying out online slicing on a three-dimensional model corresponding to an uploaded three-dimensional model file, generating a three-dimensional printing control command and transmitting the three-dimensional printing control command to the script file generating module; the script file generating module is used for generating a printing script file on line according to the three-dimensional printing control command and printing parameters selected by a user; and the three-dimensional printing colocation machine is used for receiving the script file and controlling the three-dimensional printing devices, according to the script file, to complete remote printing of the three-dimensional model. According to the present invention, the colocation machines are remotely controlled by arranging the online script file generating module so as to control the three-dimensional printing devices, thereby effectively promoting experience that the user remotely prints the three-dimensional model.

Description

A kind of long-range 3 D-printing system and method thereof

Technical field

The invention belongs to three dimensional model printing field, especially relate to a kind of long-range 3 D-printing system and method thereof.

Background technology

A Mobile solution that company of Wei Xinshi Tengxun releases, it is easy to use, number of users is huge.The message such as voice, video, picture and word can be sent fast by mobile phone, flat board and webpage between the personal user of micro-letter terminal.Micro-letter public platform is one of developable service platform provided in micro-communication system, and its business information incorporated between personal user and enterprise exchanges.By Internet user even being allowed to control long-range terminal device to the exploitation of micro-letter public platform.

3 D-printing (3D printing) is the novel digital forming technique risen gradually the later stage eighties 20th century, its basic process principle is the data formed according to computer-aided design (CAD) (CAD) model or tomoscan (CT), under the control of special application program, by the mode of " layering printing, successively superposition ", material is carried out accurately piling up also rapid processing and becomes three-dimensional model.

Traditional three dimensional model printing is all manually on 3 D-printing server or trustship machine, process three-dimensional model file, and controls three-dimensional printer and carry out field print.Because 3 D-printing equipment cost is higher, not that everybody can be equipped with oneself 3 D-printing equipment, generally needing the usual way of the user of three dimensional model printing is that self-designed three-dimensional model file is stored in mobile storage, be mailed to three dimensional device provider on behalf of printing, this brings many inconvenience to undoubtedly user or three-dimensional model deviser.

Summary of the invention

The object of the invention is to overcome shortcoming of the prior art with not enough, a kind of long-range 3 D-printing system and method thereof are provided.

The present invention is achieved by the following technical solutions: a kind of long-range 3 D-printing system, comprises 3 D-printing platform, 3 D-printing trustship machine and 3 D-printing equipment; The multiple described 3 D-printing trustship machine of described 3 D-printing platform long range dock, each 3 D-printing trustship machine docks multiple 3 D-printing equipment respectively; Described 3 D-printing platform comprises online slice module block and script file generation module; Three-dimensional model corresponding to the three-dimensional model file that described online section module is uploaded user is cut into slices online, and generates 3 D-printing control command and send described script file generation module to; The print parameters that described script generation module is selected according to described 3 D-printing control command and user generates printing script file online; Described 3 D-printing trustship machine receives described script file and controls described 3 D-printing equipment according to described script file and completes remote printing three-dimensional model.

Relative to prior art, the present invention, by setting up a 3 D-printing platform, incorporates the whole and a large number of users colony of the 3 D-printing equipment of different location.Meanwhile, by arranging line section module and script generation module etc. on 3 D-printing platform, carrying out Long-distance Control 3 D-printing trustship machine and then controlling 3 D-printing equipment.Allow the user of different demand independently customize the parameter of three dimensional model printing and then the process of long-range participation three dimensional model printing, effectively promote the experience that user participates in three-dimensional model remote printing, also bring great advantage to the user.

Further, described 3 D-printing platform also comprises real-time data base, and the three-dimensional model file that user uploads is stored in this real-time data base; Described online section module is exchanged and is cut into slices online with the three-dimensional model corresponding to the three-dimensional model file be stored in real-time data base; The printing script file that described script file generation module generates is stored in real-time data base.

Further, described 3 D-printing platform also comprises trustship machine to connection module, and the trustship machine of described 3 D-printing trustship machine and described 3 D-printing platform sets up opposite joining relation to connection module.

Further, described 3 D-printing platform also comprises user's opposed inlet, and described user's opposed inlet logs in and enter described 3 D-printing platform for user, and records corresponding registered user name and password simultaneously and be saved in described real-time data base.。

Further, described 3 D-printing platform also comprises model file receiver module, and described model file receiver module receives the three-dimensional model file that user uploads, and the path of three-dimensional model file user submitted to and three-dimensional model file is stored in real-time data base.Described model file receiver module can receive the three-dimensional model file that several mode of below user is submitted to described 3 D-printing platform: select the existing 3 D-printing model file that described 3 D-printing platform provides; Self-designed 3 D-printing model file is uploaded by RFC2046 agreement; The net dish path storing 3 D-printing file is provided; The net dish hyperlink etc. that Quick Response Code form stores.

Further, described 3 D-printing platform also comprises print job scheduler module, and described print job scheduler module receives the dispatch command of user, and reads the script file that stores in described real-time data base and be sent to corresponding described 3 D-printing trustship machine; Described 3 D-printing trustship machine controls the printing action of described 3 D-printing equipment according to script file.

Further, described 3 D-printing platform also comprises print state feedback module, the status information of described 3 D-printing equipment that the real-time query that described print state feedback module receives described 3 D-printing trustship machine feedback arrives, and is presented to user and checks.

Further, described long-range 3 D-printing system, also comprise a client, described client comprises: log-in module, instruction input module and display window; Described log-in module is used for user and logs in, and described instruction input module is used for transmitting print command to described 3 D-printing platform, and described display window is for showing print state feedback information.

Further, described long-range 3 D-printing system, also comprises a micro-letter public platform, and described micro-letter public platform docks with user's opposed inlet of this 3 D-printing platform.

Meanwhile, present invention also offers a kind of long-range 3 D-printing method, it is characterized in that, comprise the following steps:

S10: set up 3 D-printing platform, and 3 D-printing trustship machine is docked with this 3 D-printing platform;

S20: user is docked with 3 D-printing platform;

S30: 3 D-printing platform receives the three-dimensional model file that user uploads;

S40: 3 D-printing platform is cut into slices online to three-dimensional model file, and export 3 D-printing control command;

S50: 3 D-printing platform generates the script file of 3 D-printing control according to 3 D-printing control command;

S60: 3 D-printing platform is to 3 D-printing job scheduling;

S70: 3 D-printing platform is to 3 D-printing feedback of status.

Relative to prior art, the present invention adopts online section and the method for generation script file is carried out Long-distance Control 3 D-printing trustship machine and then controlled 3 D-printing equipment.Allow the user of different demand independently customize the parameter of three dimensional model printing and then the process of long-range participation three dimensional model printing, effectively promote the experience that user participates in three-dimensional model remote printing, also bring great advantage to the user.

In order to the present invention can be understood more clearly, describe the present invention in detail below with reference to accompanying drawing and specific implementation method.

Accompanying drawing explanation

Fig. 1 is the structured flowchart of the long-range 3 D-printing system of the embodiment of the present invention 1.

Fig. 2 is the structured flowchart of 3 D-printing platform in Fig. 1.

Fig. 3 is the structured flowchart of the long-range 3 D-printing system of the embodiment of the present invention 2.

Fig. 4 is the structured flowchart of the long-range 3 D-printing system of the embodiment of the present invention 3.

Embodiment

Freely long-range 3 D-printing can be carried out anywhere in order to realize multi-user, first need to set up 3 D-printing platform, 3 D-printing equipment docks with this 3 D-printing platform, user uploads three-dimensional model file to 3 D-printing platform, and is printed by its 3 D-printing equipment selected of 3 D-printing dispatching platforms.The present invention is described in detail below by way of multiple embodiment scheme.

embodiment 1

It is the structured flowchart of the long-range 3 D-printing system 100 of the embodiment of the present invention 1 please refer to Fig. 1 and Fig. 2, Fig. 1; Fig. 2 is the structured flowchart of 3 D-printing platform in Fig. 1.Multiple 3 D-printing trustship machines 20 that this long-range 3 D-printing system 100 comprises 3 D-printing platform 10 and docks with it, each 3 D-printing trustship machine 20 is connection control multiple stage 3 D-printing equipment 21 respectively.

This 3 D-printing platform 10 comprises trustship machine to connection module 11, user's opposed inlet 12, model file receiver module 13, online section module 14, script file generation module 15, print job scheduler module 16, print state feedback module 17 and real-time data base 18.

Due to this 3 D-printing platform 10 be one by the platform of any number of 3 D-printing equipment 21 United Dispatching, dock so 3 D-printing equipment 21 need be set up with this 3 D-printing platform 10.In the present embodiment, first multiple stage 3 D-printing equipment 21 control its work by a 3 D-printing trustship machine 20 is unified, and this 3 D-printing trustship machine 20 sets up opposite joining relation with the trustship machine of this 3 D-printing platform 10 to connection module 11.Be specially, in the real-time data base 18 of this 3 D-printing platform 10, record preset title and the password of all registered 3 D-printing trustship machines 20; This 3 D-printing trustship machine 20 sends linking request to the trustship machine of this 3 D-printing platform 10 to connection module 11 with preset title and password, this trustship machine inquires about this trustship machine title to connection module 11 in real-time data base 18, and an interim code beamed back by corresponding this 3 D-printing trustship machine backward; This 3 D-printing trustship machine 20 is described preset title and password and described interim code, by MD5 algorithm (Message-Digest Algorithm 5, Message-Digest Algorithm 5) be encrypted to the first authorization code, and this first authorization code is sent to trustship machine to connection module 11; Meanwhile, the trustship machine of this 3 D-printing platform 10 reads in real-time data base 18 described preset title, password and the described interim code that have stored to connection module 11, become the second authorization code by MD5 algorithm for encryption; The trustship machine of 3 D-printing platform 10 is to this first authorization code of connection module 11 comparison and the second authorization code, if equal, this 3 D-printing trustship machine is listed in the list of Printers list that can provide lease service, thus complete this 3 D-printing trustship machine 20 and dock with this 3 D-printing platform 10.Now, in the real-time data base 18 of this 3 D-printing platform, corresponding information is recorded: this trustship secret code, three-dimensional printer title, three-dimensional printer password, location, interim code, the first authorization code etc.Above-mentioned docking operation only need produce when this 3 D-printing trustship prow docks with this 3 D-printing platform.

This user's opposed inlet 12 is entrances that this 3 D-printing platform 10 couples of users open.User logs in and enter this 3 D-printing platform 10 by clickthrough address by this user's opposed inlet 12, and meanwhile, the respective user name of this user's opposed inlet 12 recording user and password are also recorded in this real-time data base 18.

This model file receiver module 13 receives the three-dimensional model file that user submits to, doing pre-service to this three-dimensional model file shows user to check with the three-dimensional model picture generating a simulation, and under the three-dimensional model file of user's submission and the path of three-dimensional model file are stored in the catalogue of user described in real-time data base 18.Usually, user submits three-dimensional model file by following several mode to this 3 D-printing platform 10: the existing 3 D-printing model file that (1) selects 3 D-printing platform to provide; (2) self-designed 3 D-printing model file is uploaded by RFC2046 agreement (Request For Comments No. 2046 agreement); (3) the net dish path storing 3 D-printing file is provided; (4) the net dish hyperlink etc. of Quick Response Code form storage.

This module 14 of cutting into slices online is loaded into three-dimensional model file and is presented as three-dimensional stereo model from real-time data base 18, the horizontal plane equidistant with several in virtual three-dimensional space of this three-dimensional stereo model is orthogonal, thus creates several boundary lines continuously and the equidistant dropping cut slice closed.Each dropping cut slice, according to certain filling algorithm, fills up with the plane geometric shape geometrical line of certain rule by this module 14 of cutting into slices online, and the final path forming filling, generate 3 D-printing control command and send script file generation module 15 to.In the present embodiment, described 3 D-printing control command is G-Code instruction, its printhead that can control three-dimensional printer vertically and horizontally fore-and-aft direction motion, the cooling that heats up, start and print.

The 3 D-printing control command that this script file generation module 15 generates according to online section module 14, and the print parameters that user selects generates printing script file, the parameters such as printed material, color, fineness, trustship machine and three-dimensional printer selected by three-dimensional model picture as user's simulation that generate to by above-mentioned model file receiver module 13, the script file of this script file generation module 14 and then generation correspondence, and be sent to real-time data base 18.

This print job scheduler module 16 receives the dispatch command of user, the 3 D-printing trustship machine 20 printed as selected and the 3 D-printing equipment 21 of association thereof, then call the script file of storage in real-time data base 18 and the 3 D-printing trustship machine 20 to correspondence sends.Described 3 D-printing trustship machine 20 controls corresponding 3 D-printing equipment according to instruction and carries out intensification preparation, preheating, printhead resets, the actions such as printed material preparation, then after the confirmation signal receiving this 3 D-printing ER equipment ready, described 3 D-printing script file is sent to the storage element of this 3 D-printing equipment by this 3 D-printing trustship machine 20, the CPU of this three-dimensional printer reads the G-Code in described 3 D-printing script file and controls the layering printing action of printhead, as space is moved, the filling of printed material and replacing, color selecting, depart from print member etc.

The print state that this print state feedback module 17 real-time reception 3 D-printing trustship machine 20 feeds back with the 3 D-printing equipment 21 of its correspondence, and feed back to user.Particularly, described 3 D-printing trustship machine 20 sends status poll instruction in real time to 3 D-printing equipment 21, the CPU of 3 D-printing equipment 21 reads the I/O state of each print member, and state parameter is fed back to this 3 D-printing trustship machine 20, then the print state feedback module 17 being forwarded to described 3 D-printing platform 10 by described 3 D-printing trustship machine 20 represents.In the present embodiment, the print state information of described 3 D-printing equipment comprises printing on-the-spot realtime graphic, video and figure progress bar etc.

Relative to prior art, the 3 D-printing equipment of different location, by setting up a 3 D-printing platform 10, is integrated and is connected, for user's choice for use of different demand by the present invention.Simultaneously, by arranging line section module 14 and script generation module 15 etc. on 3 D-printing platform, control the work of 3 D-printing equipment, thus allow the user of different demand independently customize the parameter of three dimensional model printing and then the process of long-range participation three dimensional model printing, effective lifting user participates in the experience of three-dimensional model remote printing, also brings great advantage to the user.

embodiment 2

Refer to Fig. 3, it is the structured flowchart of the long-range 3 D-printing system 200 of the embodiment of the present invention 2.The present embodiment 2 is roughly the same with embodiment 1, and its difference is only: this long-range 3 D-printing system 200 also comprises a micro-letter public platform 30, and described micro-letter public platform 30 docks with user's opposed inlet 12 of this 3 D-printing platform.The chained address that user is arranged by clicking this micro-letter public platform, this 3 D-printing platform 10 is logged in and enter by this user's opposed inlet 12, simultaneously, the data such as the user name of this user's opposed inlet 12 and this micro-letter public platform 30 interactive user and password, and be recorded in this real-time data base 18.

In the present embodiment, 3 D-printing platform 10 is associated with the micro-letter public platform 30 having users colony, the person of being easy to use, under the prerequisite being familiar with original micro-letter APP use, described 3 D-printing platform or micro-letter terminal is selected described 3 D-printing trustship machine nearby carry out 3 D-printing service.

embodiment 3

Refer to Fig. 4, it is the structured flowchart of the long-range 3 D-printing system 300 of the embodiment of the present invention 3.The present embodiment 3 is roughly the same with embodiment 1, and its difference is only: this long-range 3 D-printing system 300 also comprises a client 40, and described client 40 comprises login module 41, instruction input module 42 and display window 43.

This login module 41 is docked with user's opposed inlet 12 of this 3 D-printing platform 10.User, by downloading this client 40 on mobile device or desk-top computer, is just docked with the user's opposed inlet 12 on 3 D-printing platform 10 by the login module 41 of this client 40 after registration and enters this 3 D-printing platform 10.The data such as the user name of login module 41 interactive user of this user's opposed inlet 12 and this client 40 and password, and be recorded in this real-time data base 18.

The instruction input module 42 of this client 40 to be cut into slices module 14, script file generation module 15, print job scheduler module 16 and real-time data base 18 real-time, interactive with the model file receiver module 13 of this 3 D-printing platform 10, online respectively.User is by uploading the model file receiver module 13 of three-dimensional model file to this 3 D-printing platform 10 in the instruction input module 42 of client 40, this model file receiver module 13 does pre-service to generate the three-dimensional model picture of a simulation to this three-dimensional model file, user is showed to check by the display window 43 of client 40, and under the three-dimensional model file of user's submission and the path of three-dimensional model file are stored in the catalogue of respective user in real-time data base 18.Meanwhile, user, by inputting the instructions such as print parameters in the instruction input module 42 of client 40, sends the online section module 14 of 3 D-printing platform 10, script file generation module 15 and print job scheduler module 16 to respectively.From real-time data base 18, be loaded into three-dimensional model file after online section module 14 receives instruction and be presented as three-dimensional stereo model by the display window of client; The 3 D-printing control command that this script file generation module 15 generates according to online section module 14, and the print parameters generation that user selects prints script file, generates corresponding script file, and is sent to real-time data base 18; Print job scheduler module 16 receives the dispatch command of user, calls the script file that stores in real-time data base 18 and 3 D-printing trustship machine 20 to correspondence sends.

This display window 43 and the model file receiver module 13 of this 3 D-printing platform 10, online cut into slices module 14 and print state feedback module 17 real-time, interactive, in client Real-time Feedback three-dimensional model picture, three-dimensional stereo model and real-time print state information.

In the present embodiment, by arranging client, the instruction of 3 D-printing can be set for the true-time operation of convenient user, and can real time inspection 3 D-printing information, effective lifting user participates in the experience of three-dimensional model remote printing, also brings great advantage to the user.

Based on above-mentioned long-range 3 D-printing system, present invention also offers a kind of long-range 3 D-printing method.The method comprises the steps:

S10: set up 3 D-printing platform, and 3 D-printing trustship machine is docked with this 3 D-printing platform.Be specially, preset title and the password of 3 D-printing trustship machine is registered at 3 D-printing platform by three dimensional device provider, and is recorded in the real-time data base of 3 D-printing platform.3 D-printing trustship machine sends linking request with preset title and password to this 3 D-printing platform; This trustship machine title inquired about by 3 D-printing platform in its real-time data base, and an interim code beamed back by corresponding this 3 D-printing trustship machine backward; This 3 D-printing trustship machine, described preset title and password and described interim code, becomes the first authorization code by MD5 algorithm for encryption, and this first authorization code is sent to 3 D-printing platform; This 3 D-printing platform reads described preset title, password and the described interim code that have stored in real-time data base, becomes the second authorization code by MD5 algorithm for encryption; By this first authorization code of 3 D-printing platform comparison and the second authorization code, if equal, this 3 D-printing trustship machine is listed in the list of Printers list that can provide lease service, thus complete this 3 D-printing trustship machine and dock with this 3 D-printing platform.

S20: user is docked with 3 D-printing platform.Be specially, user can enter this 3 D-printing platform by entering chained address after the registration of 3 D-printing platform, or carries out information binding by third party's client and this 3 D-printing platform; Meanwhile, respective user name and the password of user recorded by 3 D-printing platform in its real-time data base.

S30: the three-dimensional model file uploaded by 3 D-printing platform reception user.Be specially, user submits three-dimensional model file by following several mode to this 3 D-printing platform: the existing 3 D-printing model file that (1) selects 3 D-printing platform to provide; (2) self-designed 3 D-printing model file is uploaded by RFC2046 agreement (Request For Comments No. 2046 agreement); (3) the net dish path storing 3 D-printing file is provided; (4) the net dish hyperlink etc. of Quick Response Code form storage.And under this three-dimensional model file of submitting to of user and the path of three-dimensional model file be stored in the catalogue of described user corresponding in the real-time data base of 3 D-printing platform.

S40: three-dimensional model file is cut into slices online by 3 D-printing platform, and export 3 D-printing control command.Be specially, from its real-time data base, be loaded into three-dimensional model file by 3 D-printing platform and be presented as three-dimensional stereo model, on this 3 D-printing platform, this three-dimensional stereo model cut into slices online and generate 3 D-printing control command, i.e. G-Code instruction simultaneously.

S50: 3 D-printing platform generates the script file of 3 D-printing control according to 3 D-printing control command.Be specially, the G-Code instruction generated according to it by 3 D-printing platform, and the print parameters that user selects generates printing script file, and be stored in real-time data base.

S60: by 3 D-printing platform to 3 D-printing job scheduling.Be specially, received the dispatch command of user by 3 D-printing platform, and transfer in its real-time data base the 3 D-printing trustship machine that the corresponding script file stored is sent to correspondence.Described 3 D-printing trustship machine controls 3 D-printing equipment and carries out printing preliminary activities and layering printing action.

S70: 3 D-printing state is fed back at 3 D-printing platform.Be specially, the print state that this 3 D-printing platform real-time reception 3 D-printing trustship machine feeds back with the 3 D-printing equipment of its correspondence, and feed back to user.The print state information of described 3 D-printing equipment comprises printing on-the-spot realtime graphic, video and figure progress bar etc.

Relative to prior art, long-range 3 D-printing method of the present invention is by setting up 3 D-printing platform, and on 3 D-printing platform, adopt online section and the method for generation script file is carried out Long-distance Control 3 D-printing trustship machine and then controlled 3 D-printing equipment, allow the user of different demand independently customize the parameter of three dimensional model printing and then the process of long-range participation three dimensional model printing; User is allowed to check 3 D-printing state easily; Effective lifting user participates in the experience of three-dimensional model remote printing, also brings great advantage to the user.

The present invention is not limited to above-mentioned embodiment, if do not depart from the spirit and scope of the present invention to various change of the present invention or distortion, if these are changed and distortion belongs within claim of the present invention and equivalent technologies scope, then the present invention is also intended to comprise these changes and distortion.

Claims (10)

1. a long-range 3 D-printing system, comprises 3 D-printing equipment, it is characterized in that: also comprise 3 D-printing platform and 3 D-printing trustship machine; The multiple described 3 D-printing trustship machine of described 3 D-printing platform long range dock, each 3 D-printing trustship machine docks multiple 3 D-printing equipment respectively; Described 3 D-printing platform comprises online slice module block and script file generation module; Three-dimensional model corresponding to the three-dimensional model file that described online section module is uploaded user is cut into slices online, and generates 3 D-printing control command and send described script file generation module to; The print parameters that described script generation module is selected according to described 3 D-printing control command and user generates printing script file online; Described 3 D-printing trustship machine receives described script file and controls described 3 D-printing equipment according to described script file and completes remote printing three-dimensional model.

2. long-range 3 D-printing system according to claim 1, it is characterized in that: this 3 D-printing platform also comprises real-time data base, the three-dimensional model file that user uploads is stored in this real-time data base; Described online section module is exchanged and is cut into slices online with the three-dimensional model corresponding to the three-dimensional model file be stored in real-time data base; The printing script file that described script file generation module generates is stored in real-time data base.

3. long-range 3 D-printing system according to claim 2, it is characterized in that: described 3 D-printing platform also comprises trustship machine to connection module, the trustship machine of described 3 D-printing trustship machine and described 3 D-printing platform sets up opposite joining relation to connection module.

4. long-range 3 D-printing system according to claim 3, it is characterized in that: described 3 D-printing platform also comprises user's opposed inlet, described user's opposed inlet logs in and enter described 3 D-printing platform for user, and records corresponding registered user name and password simultaneously and be saved in described real-time data base.

5. long-range 3 D-printing system according to claim 3, it is characterized in that: described 3 D-printing platform also comprises model file receiver module, described model file receiver module receives the three-dimensional model file that user uploads, and the path of three-dimensional model file user submitted to and three-dimensional model file is stored in real-time data base.

6. according to the long-range 3 D-printing system described in claim 4 or 5, it is characterized in that: described 3 D-printing platform also comprises print job scheduler module, described print job scheduler module receives the dispatch command of user, and reads the script file that stores in described real-time data base and be sent to corresponding described 3 D-printing trustship machine; Described 3 D-printing trustship machine controls the printing action of described 3 D-printing equipment according to script file.

7. long-range 3 D-printing system according to claim 6, it is characterized in that: described 3 D-printing platform also comprises print state feedback module, the status information of described 3 D-printing equipment that the real-time query that described print state feedback module receives described 3 D-printing trustship machine feedback arrives, and be presented to user and check.

8. long-range 3 D-printing system according to claim 7, it is characterized in that: also comprise a client, described client comprises: log-in module, instruction input module and display window; Described log-in module is used for user and logs in, and described instruction input module is used for transmitting print command to described 3 D-printing platform, and described display window is for showing print state feedback information.

9. long-range 3 D-printing system according to claim 7, is characterized in that: also comprise a micro-letter public platform, and described micro-letter public platform docks with user's opposed inlet of this 3 D-printing platform.

10. a long-range 3 D-printing method, is characterized in that, comprise the following steps:

S10: set up 3 D-printing platform, and 3 D-printing trustship machine is docked with this 3 D-printing platform;

S20: user is docked with 3 D-printing platform;

S30: 3 D-printing platform receives the three-dimensional model file that user uploads;

S40: 3 D-printing platform is cut into slices online to three-dimensional model file, and export 3 D-printing control command;

S50: 3 D-printing platform generates the script file of 3 D-printing control according to 3 D-printing control command;

S60: 3 D-printing platform is to 3 D-printing job scheduling;

S70: 3 D-printing platform is to 3 D-printing feedback of status.