CN203507334U - 3D printing system used for manufacturing intensity-modulated radiation therapy compensator - Google Patents

Abstract

The utility model discloses a 3D printing system used for manufacturing an intensity-modulated radiation therapy compensator. The 3D printing system is characterized in that the 3D printing system comprises a compensator data processing module, a data calibration module, a data conversion module, a 3D printing control module and a 3D printing execution feedback module, wherein the compensator data processing module is connected with the data calibration module and the data conversion module, the 3D printing control module is connected with the data conversion module and the 3D printing execution feedback module. The 3D printing system solves the problems in the prior art that the manufacturing process of a compensator is complex, and the manufacturing precision is low; by adopting the 3D printing technology, the manufacturing precision of the compensator is improved, and therapy errors caused by the compensator in the prior art are avoided; in addition, the system is simple in structure, low in cost and suitable for large-scale popularization.

Description

A kind of for making the 3D print system of Intensity Modulation Radiated Therapy (IMRT) compensator

Technical field

This utility model relates to a kind of for making the 3D print system of Intensity Modulation Radiated Therapy (IMRT) compensator.

Background technology

3D prints, to take Computerized three-dimensional to design a model as source, discrete and the numerical control molding system by software hierarchy, utilizing the modes such as laser beam, hot melt nozzle that the special materials such as metal dust, ceramic powders, plastics, cell tissue are successively piled up coheres, final stack molding, produces entity products.By machining modes such as mould, turnning and millings, to raw material, shape, cut with final production finished product different from traditional manufacture, 3D prints 3D solid is become to several two dimensional surfaces, by material processed successively stack are produced, greatly reduce the complexity of manufacture.This digitized manufacturing mode does not need complicated technique, does not need huge lathe, does not need numerous manpowers, directly from computer graphics data, just can generate the part of any shape, makes to manufacture to be able to extend to wider production crowd scope.

Intensity Modulation Radiated Therapy (IMRT) is the sophisticated technology of tumour radiotherapy, its requirement regulates according to dose intensity in the factor radiation field sizes such as size shape position of tumor and periphery normal structure organ, specific implementation comprises automatic multi-diaphragm collimator mode and compensator mode, wherein automatic multi-diaphragm collimator mode more for convenience, but expensive, be mainly large hospital and select; Compensator mode is with low cost, but existing making compensator mode is mainly with three-dimensional carving machine lead is carved to shaping.But because being carves metal, milling cutter can not be too thin, so just make engraving to accomplish meticulous, some complicated shapes especially, thus cause treating the generation of error.

3D printing technique is applied in the making of Intensity Modulation Radiated Therapy (IMRT) compensator and will be significant.

Utility model content

In order to overcome the deficiencies in the prior art, it is a kind of for making the 3D print system of Intensity Modulation Radiated Therapy (IMRT) compensator that this utility model provides, solve compensator complex manufacturing technology in prior art, made the problem that precision is short of, utilize 3D printing technique, make compensator make precision and improve, the treatment error of avoiding compensator of the prior art to bring, system structure is simple, with low cost, be applicable to large-scale promotion.

Technical solutions of the utility model are as described below:

A kind of for making the 3D print system of Intensity Modulation Radiated Therapy (IMRT) compensator, it is characterized in that, comprise compensator data processing module, data calibration module, data conversion module, 3D printing control model and 3D print execution feedback module, described compensator data processing module is connected respectively with described data calibration module, described data conversion module, and described 3D printing control model is connected with described data conversion module, described 3D print execution feedback module connects respectively.

Realize the technical solution of the utility model and further comprise, described compensator data processing module is connected with being connected to of described data calibration module is two-way.

Realize the technical solution of the utility model and further comprise, the two-way connection that be connected to of described 3D printing control model and described 3D print execution feedback module.

According to this utility model of said structure, its beneficial effect is, utilize 3D to print, making compensator make precision improves, traditional compensator adopts milling cutter engraving, it is all vertical tangent plane, can not be tangent with lonizing radiation, and the compensator that adopts 3D to print can finely be realized compensator tangent plane and lonizing radiation are tangent, reduces largely treatment error, system structure is simple, with low cost, be applicable to large-scale promotion, and adopt the lead making material as compensation of low melting point, there is no the appearance of Hydrocerussitum (Ceruse) dirt, effectively avoided lead contamination.

Accompanying drawing explanation

Fig. 1 is system structure schematic diagram of the present utility model.

The specific embodiment

Below in conjunction with accompanying drawing and embodiment, this utility model is conducted further description:

As shown in Figure 1, a kind of for making the 3D print system of Intensity Modulation Radiated Therapy (IMRT) compensator, it is characterized in that, comprise compensator data processing module, data calibration module, data conversion module, 3D printing control model and 3D print execution feedback module, described compensator data processing module is connected respectively with described data calibration module, described data conversion module, and described 3D printing control model is connected with described data conversion module, described 3D print execution feedback module connects respectively.Described compensator data processing module is connected with being connected to of described data calibration module is two-way, the two-way connection that be connected to of described 3D printing control model and described 3D print execution feedback module.

Described compensator data processing module, collection, adjustment and setting compensation device are made data message.

Described data calibration module, sets and comprises that medical accelerator radiates source point and places dull and stereotyped distance, the attenuation quotient of printing lead material and compensator maximum ga(u)ge etc. to compensator, and generate calibration command, sends described compensator data processing module to.

Described data conversion module, receives the compensator making data message that described compensator data processing module sends, and converts thereof into 3D print data information, sends described 3D printing control model to.

Described 3D printing control model, receive after 3D print data information, produce the order of 3D print execution and send described 3D print execution feedback module to, and receive in real time the feedback print data information that described 3D print execution feedback module transmits, adjust the order of 3D print execution.

Described 3D print execution feedback module, carries out the order of monitoring 3D print execution, and Real-time Feedback print data information.

Should be understood that, for those of ordinary skills, can be improved according to the above description or convert, and all these improvement and conversion all should belong to the protection domain of this utility model claims.

By reference to the accompanying drawings this utility model patent has been carried out to exemplary description above; obviously the realization of this utility model patent is not subject to the restrictions described above; as long as adopted the method design of this utility model patent and the various improvement that technical scheme is carried out; or without improving, the design of this utility model patent and technical scheme are directly applied to other occasion, all in protection domain of the present utility model.

Claims (3)

1. one kind for making the 3D print system of Intensity Modulation Radiated Therapy (IMRT) compensator, it is characterized in that, comprise compensator data processing module, data calibration module, data conversion module, 3D printing control model and 3D print execution feedback module, described compensator data processing module is connected respectively with described data calibration module, described data conversion module, and described 3D printing control model is connected with described data conversion module, described 3D print execution feedback module connects respectively.

2. according to claim 1ly for making the 3D print system of Intensity Modulation Radiated Therapy (IMRT) compensator, it is characterized in that, described compensator data processing module is connected with being connected to of described data calibration module is two-way.

3. according to claim 1ly for making the 3D print system of Intensity Modulation Radiated Therapy (IMRT) compensator, it is characterized in that two-way connection that be connected to of described 3D printing control model and described 3D print execution feedback module.

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