CN204537112U - The 3D print system of burning in shaping and surgical wound reparation - Google Patents
The 3D print system of burning in shaping and surgical wound reparation Download PDFInfo
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- CN204537112U CN204537112U CN201520241158.8U CN201520241158U CN204537112U CN 204537112 U CN204537112 U CN 204537112U CN 201520241158 U CN201520241158 U CN 201520241158U CN 204537112 U CN204537112 U CN 204537112U
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Abstract
The utility model discloses a kind of 3D print system of burning in shaping and surgical wound reparation, comprise CT equipment, main control module, segmentation module and 3D printer.In the utility model, CT equipment can respond to the location information (this location information is that patient burns or the information of maleformation) of patient, CT equipment generates the body signal corresponding with this location information, send to main control module, main control module is according to body signal generating three-dimensional models signal.Segmentation module receives three-dimensional model signal, and sends print signal to print module, thus print module can print and needs to repair the corresponding site model in position with human body.The utility model preparing department bit model simple to operate, owing to have employed main control module (as: Dicom viewer software), separating modules and 3D printer, the site model made and the true positions are conformed to each other of human body can be made, adopt man-to-man mode to carry out analogue formation, make model and the real positions are conformed to each other of human body.
Description
Technical field
The utility model relates to a kind of 3D print system of burning in shaping and surgical wound reparation.
Background technology
Burn shaping and surgical wound reparation are problems very common in modern clinic, generally speaking, explain conveniently to patient and family members thereof, in order to avoid produce unnecessary misunderstanding, need to make a site model according to the position of needs of patients reparation before carrying out burn shaping or surgical wound reparation.
And in prior art, lack effective patient positions's modelling system, the mode of craft or machining can only be utilized simply to make patient positions's model, and these models made put into factory's medium quantity batch processing then to put into each hospital and use, and can not react the truth of patient.
Utility model content
The utility model object is to provide a kind of simple to operate, the 3D print system of accurate preparing department bit model.To explain patient's produced problem with this model to patient and family members thereof, make patient and family members thereof be easier to understand the state of an illness of patient, relax doctor-patient relationship.
According to an aspect of the present utility model, provide a kind of 3D print system of burning in shaping and surgical wound reparation, comprise CT equipment, main control module, segmentation module and 3D printer, wherein, CT device scan induction human body needs the location information of repairing, and generating corresponding body signal according to the information sensed, body signal is sent to main control module by CT equipment
Three-dimensional model signal according to body signal generating three-dimensional models signal, and is sent to segmentation module by main control module,
Segmentation module, according to the three-dimensional model signal received, generates print signal, and print signal is sent to 3D printer, and 3D printer receives print signal, prints.
In the utility model, CT equipment can respond to the location information (this location information is that patient burns or the information of maleformation) of patient, CT equipment generates the body signal corresponding with this location information, send to main control module, main control module is according to body signal generating three-dimensional models signal, segmentation module receives three-dimensional model signal, and send print signal to print module, thus print module can print and needs to repair the corresponding site model in position with human body.The utility model preparing department bit model simple to operate, owing to have employed main control module (as: Dicom viewer software), separating modules and 3D printer, the site model made and the true positions are conformed to each other of human body can be made, adopt man-to-man mode to carry out analogue formation, make model and the real positions are conformed to each other of human body.
Due to this site model and the real positions are conformed to each other of human body, patient and family members thereof can be made to see the situation of oneself damage location intuitively, the situation of patient can be explained before the surgery intuitively to patient, in case there is unnecessary contradiction.
Simultaneously the utility model can also be used for medical education, shows anatomical structure and the neighbouring relationship of various organization vividly, thus changes anatomic teaching on the spot traditionally, saves dissec resource and turn improves quality of instruction.
In some embodiments, main control module and segmentation module integration are in one, and CT equipment is electrically connected with main control module, and segmentation module is electrically connected with 3D printer.Thus, main control module and segmentation module integration can save practical space in one, meanwhile, adopt the mode of electrical connection that signal between modules, equipment can be made to transmit normally.
In some embodiments, 3D printer is according to print signal, and print position model, site model and human body need the ratio at the position of repairing to be 1:1.Thus, adopt the ratio of 1:1, the position of patient and site model can be made more proper.
In some embodiments, site model comprises scar model, wound model and skeleton model.Thus, the damage on patient positions surface and the size of each scar and thickness can be learnt by scar model, can learn whether subjects bones pathology occurs by skeleton model.
In some embodiments, the three-dimensional model splitting module corresponding to three-dimensional model signal carries out aspect division, and the model conversion after dividing is become Gcode code, and sends to 3D printer.Thus, 3D printer can identify Gcode code, can printer model according to Gcode code.
Accompanying drawing explanation
Fig. 1 is the syndeton schematic diagram of the 3D print system during the burn shaping of a kind of embodiment of the utility model and surgical wound are repaired.
Fig. 2 is the schematic diagram of the 3D print system during burn shaping shown in Fig. 1 and surgical wound are repaired.
Fig. 3 is the process flow diagram of 3D print system during burn shaping shown in Fig. 1 and surgical wound are repaired.
Embodiment
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.
Fig. 1 schematically show the burn shaping of a kind of embodiment of the utility model and surgical wound repair in the structure of 3D print system.
As shown in Figure 1, a kind of 3D print system of burning in shaping and surgical wound reparation, comprises CT equipment (i.e. computed tomographic scanner device) 1, main control module 2, segmentation module 3 and 3D printer 4.
The structure (i.e. annexation) of product of the present utility model is for shown in Fig. 1, and main control module 2 and segmentation module 3 can be integrated in one, such as: be integrated in same software, use using computing machine as carrier.CT equipment 1 is electrically connected with main control module 2, and segmentation module 3 and 3D printer 4 are electrically connected.Normal Signal transmissions relation can be realized.
Meanwhile, in other examples, the utility model can also adopt wireless mode to connect modules and equipment.
Fig. 2 schematically show the burn shaping of a kind of embodiment of the utility model and surgical wound repair in the principle of 3D print system.
Usually, CT equipment 1 comprises X-ray tube, detector and scanning support.
CT equipment 1 scans the location information that induction human body needs to repair, and generates corresponding body signal according to the information sensed.
Above-mentioned scanning answers the concrete principle of process as follows: X-ray tube sends x-ray bundle and scans needing the certain thickness aspect in position of repairing, the x-ray through this aspect is received by detector, after changing visible ray into, electric signal is changed into by photoelectric commutator, transfer digital signal to through analog/digital converter (analog/digitalconverter) again, this digital signal is sent to main control module 2 (as: computer software).
Above-mentioned mentioned digital signal and body signal, body signal is sent to main control module 2 by CT equipment 1.
Three-dimensional model signal according to body signal generating three-dimensional models signal, and is sent to segmentation module 3 by main control module 2.Segmentation module 3, according to the three-dimensional model signal received, generates print signal, and print signal is sent to 3D printer 4.
Detailed process is as follows: segmentation module 3 is software of the prior art, and segmentation module 3 is carried out layering to three-dimensional model, selected aspect is divided into the identical rectangular parallelepiped of several volumes, that is: voxel (voxel) after receiving three-dimensional model signal.Segmentation module 3 scans x-ray attenuation coefficient or the absorption coefficient that gained information obtains each voxel as calculated, rearranges into matrix, i.e. character matrix (digitalmatrix).Character matrix can be stored in disk or CD.Digital/analog converter (digital/anolog converter) through splitting module 3 transfers to each numeral in character matrix by the black blockage to the in vain gray scale such as not, i.e. pixel (pixel), and press matrix arrangement, namely the picture signal of CT equipment 1 is formed, segmentation module 3 generates print signal according to the picture signal of CT equipment 1, and print signal is sent to 3D printer 4.
3D printer 4 receives print signal, prints.
In the present embodiment, in order to better make site model conform to the position of human body reality, when can make 3D printer 4 print position model, site model and human body need the ratio at the position of repairing to be 1:1.In other embodiments, site model and human body need the ratio at the position of repairing also can adjust as required.
Site model comprises scar model, wound model and skeleton model.Scar model and wound model are the model on the surface at the position of patient, the damage on patient positions surface and the size of each scar and thickness can be learnt by scar model and wound model, can learn whether subjects bones pathology occurs by skeleton model.
In the present embodiment, the print signal that 3D printer 4 receives can be Gcode code, separates and converts CT equipment 1 picture signal to Gcode code, and send to 3D printer 4.
Fig. 3 schematically show the burn shaping of a kind of embodiment of the utility model and surgical wound repair in the flow process of 3D print system, specific as follows:
S101. first, CT equipment 1 is utilized to scan the location information of induction human body needs reparation;
S102. after, CT equipment 1 generates the body signal of patient according to the information of induction, and body signal (i.e. CT equipment 1 send digital signal) is sent to main control module 2;
S103. main control module 2 is according to body signal, generates the three-dimensional model signal corresponding with body signal; Namely this process is the process that main control module 2 carries out three-dimensional modeling.
S104. control module and three-dimensional model signal is sent to segmentation module 3;
S105. split module 3 according to three-dimensional model signal, generate print signal, printing is sent to 3D printer 4; Specific as follows: segmentation module 3 first carries out layering to three-dimensional model, then generate CT equipment 1 picture signal, picture signal is converted by CT equipment 1 to the Gcode code that 3D printer 4 can identify.
S106. receive print signal by 3D printer 4, print the site model of patient.
Utilize the 3D print system in the utility model and can site model be printed, making patient and family members thereof see the situation of oneself damage location intuitively, the situation of patient can be explained before the surgery intuitively to patient, in case there is unnecessary contradiction.3D print system in the utility model can also print the site model of any needs, for in medical education, anatomical structure and the neighbouring relationship of various organization can be shown to student, thus change anatomic teaching on the spot traditionally, save dissec resource and turn improve quality of instruction.
Above is only embodiments more of the present utility model.For the person of ordinary skill of the art, under the prerequisite not departing from the utility model creation design, can also make some distortion and improvement, these all belong to protection domain of the present utility model.
Claims (5)
1. the 3D print system of burning in shaping and surgical wound reparation, is characterized in that, comprises CT equipment (1), main control module (2), segmentation module (3) and 3D printer (4), wherein,
Described CT equipment (1) scanning induction human body needs the location information of repairing, and generates corresponding body signal according to the information sensed,
Described body signal is sent to main control module (2) by described CT equipment (1),
Three-dimensional model signal according to body signal generating three-dimensional models signal, and is sent to described segmentation module (3) by described main control module (2),
Described segmentation module (3), according to the three-dimensional model signal received, generates print signal, and described print signal is sent to described 3D printer (4),
Described 3D printer (4) receives print signal, prints.
2. the 3D print system of burning in shaping and surgical wound reparation, it is characterized in that, described main control module (2) and described segmentation module (3) are integrated in one, described CT equipment (1) is electrically connected with described main control module (2), and described segmentation module (3) is electrically connected with 3D printer (4).
3. burn shaping according to claim 2 and surgical wound repair in 3D print system, it is characterized in that, described 3D printer (4) is according to print signal, and print position model, described site model and human body need the ratio at the position of repairing to be 1:1.
4. burn shaping according to claim 3 and surgical wound repair in 3D print system, it is characterized in that, described site model comprises scar model, wound model and skeleton model.
5. the burn shaping according to claim 1,2 or 3 and surgical wound repair in 3D print system, it is characterized in that, described segmentation module (3) three-dimensional model corresponding to three-dimensional model signal carries out layering, and convert the three-dimensional model after layering to Gcode code, and send to described 3D printer (4).
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CN104778020A (en) * | 2015-04-20 | 2015-07-15 | 朱家源 | 3D (three-dimensional) printing system and application for burn-plastic surgery and surgical wound repair |
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CN104778020A (en) * | 2015-04-20 | 2015-07-15 | 朱家源 | 3D (three-dimensional) printing system and application for burn-plastic surgery and surgical wound repair |
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Effective date of registration: 20201029 Address after: Floor 3, No.69, Gongye Road, Shiqiao street, Panyu District, Guangzhou City, Guangdong Province Patentee after: Guangzhou Maishitian Medical Technology Co.,Ltd. Address before: 510080 No. two, No. 58, Zhongshan Road, Guangdong, Guangzhou Patentee before: Zhu Jiayuan |
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