The present disclosure relates to medical devices, and more particularly to a honeycomb rib structure for installing a rotating gantry of a proton therapy device.
Cancer (malignant tumors) has become one of the leading causes of death among people in the world. New technologies for the cancer treatment in various countries are emerging. Radiotherapy in the traditional cancer treatment mainly adopts X-ray, γ-ray and electron beam, and its physical dose distribution and biological effect damage the normal cells near the tumor to varying degrees. And the effective utilization rate of the dose is also low. Although biological effects of the neutron and the negative π particle are good, their physical dose distributions excessively damage the normal tissues. Therefore, the radiotherapy is not the ideal treatment method. The advantage of the proton therapy is that the radiation energy peak is targeted at the tumor lesion so that the radiation dose applied to the tumor lesion is maximized. Normal cells closer to the therapy device than the tumor are usually only subjected to ⅓-½ of the peak dose, and the normal cells away from the therapy device and blocked by the tumor cells are substantially undamaged. The proton therapy is much superior to the conventional radiotherapy thanks to the inherent physical property of the proton. In recent decades, more than 100,000 cancer patients have been treated by the proton therapy. Thus, the superiority of the proton therapy has been widely clinically proven.
Currently, the proton therapy centers that have been successfully operated have the disadvantages of large size, high cost, long construction period and difficulty in popularization, and the proton therapy device used in these proton therapy centers does not have the function of locating the cancer cells, so that additional device is required for determining the location of the cancer cells by diagnosing the patient before treating the patient with the proton therapy device. The mainstream development direction of the proton therapy device in the future is miniaturization and integration, which reduces the overall size of the proton therapy device, shortens the construction period, reduces the cost, and integrates the diagnostic test with the treatment to facilitate the popularization of the proton therapy device.
The honeycomb structure is the basic structure of the honeycomb. It is a structure composed of a plurality of regular hexagonal cells in a back-to-back symmetrical arrangement with all openings of the cells facing downwardly or facing toward a side. This structure has an excellent geometric mechanical structure and a wide range of applications in many subjects. The spacecraft adopted with the honeycomb structure has high strength and light weight. Therefore, the honeycomb structure is very suitable for installing in the rotating gantry of the proton therapy device, and realizes the lightweight of the rotating gantry under the premise of satisfying the structural strength.
In addition, in the ninth issue of the fourth volume of Nuclear Technology, titled “Magnetic Field Measurement on the Electron-Ring Magnets of HERA Proton-Electron Collider”, a device for measuring the magnetic field intensity by means of screw-driven translation coil is disclosed. The problem is that the device has low measurement accuracy with a large space occupied by the system. Therefore, the device is not suitable for measuring the magnetic field of the compact cyclotron.
The objective of the present disclosure is to provide a honeycomb rib structure suitable for installing in a rotating gantry of a proton therapy device, which can meet the requirement on the lightweight of the rotating gantry of the proton therapy device, realize the structural strength of the rotating gantry to meet the design requirements, and greatly reduce the manufacturing cost. At the same time, the density of the rib structure can be adjusted through the special design, and the structural strength of the rib structure can be improved to meet the structural requirements under different conditions.
A honeycomb rib structure suitable for installing in a rotating gantry of a proton therapy device includes a plurality of upper honeycomb ribs and a plurality of lower honeycomb ribs, which are mounted in a cylindrical body through a plurality of connecting structures. The plurality of upper honeycomb ribs and the plurality of lower honeycomb ribs are symmetrically arranged, and are spliced by a plurality of basic structures in a regular hexagonal distribution. Connecting nodes between the adjacent basic structures are of a ring structure. Densities of the plurality of upper honeycomb ribs and the plurality of lower honeycomb ribs are adjusted through a density adjustment structure.
The cylindrical body is the rotating gantry of the proton therapy device, and the plurality of upper honeycomb ribs and the plurality of lower honeycomb ribs are mounted in the cylindrical body.
The ring structure is in a columnar shape. A through hole is provided in the ring structure in a radial direction, and the plurality of upper honeycomb ribs and the plurality of lower honeycomb ribs are connected through bolts.
The plurality of upper honeycomb ribs and the plurality of lower honeycomb ribs are connected to the cylindrical body through the plurality of connecting structures. Each of the plurality of connecting structures has four casing walls that every two casing walls with the same shape are oppositely arranged, respectively. Radians of bottoms of the plurality of connecting structures are fitted to an inner annular wall of the cylindrical body. An upper side of each of the plurality of connecting structures is openly arranged. Six pairs of the plurality of connecting structures are uniformly welded to the inner annular wall of the cylindrical body, and a plurality of clamping grooves are provided in middle portions of two pairs of the connecting structures which are correspondingly arranged.
The plurality of connecting structures are clamped by ring side openings of the plurality of upper honeycomb ribs and the plurality of lower honeycomb ribs, and a straight plate between the plurality of upper honeycomb ribs and the plurality of lower honeycomb ribs is clamped in the plurality of clamping grooves in the middle portions of the corresponding connecting structures.
The density adjustment structure is connected to the plurality of upper honeycomb ribs and the plurality of lower honeycomb ribs through the ring structure, which is in a U shape. The density adjustment structure includes a connecting plate and two round rods. Both end faces of the connecting plate are perpendicularly connected to the two round rods, respectively. The connecting plate is flush with connecting ends of the two round rods. An outer diameter of each of the two round rods is matched with an inner diameter of the ring structure, and the two round rods are inserted into the through hole of the ring structure.
The present disclosure has the following beneficial effects:
The internal structure of the cylindrical body of the rotating gantry of the proton therapy device can be strengthened. The weight of the rotating gantry can be fully reduced under the premise of satisfying the structural strength of the cylindrical body, thereby reducing the manufacturing cost of the rotating gantry. The structural process of the honeycomb ribs is simple. The density of the honeycomb ribs can be adjusted according to actual needs, which reduces the processing cost. The present disclosure has important significance for promoting the proton therapy technology.
To make those skilled in the art understand better, the present disclosure will be further described below with reference to the accompanying drawings.
The technical solutions of the present disclosure will be clearly and completely described below with reference to the embodiments. It is obvious that the described embodiments are only a part of the embodiments of the present disclosure. All other embodiments obtained by those skilled in the art based on the embodiments of the present disclosure without creative efforts fall in the scope of protection of the present disclosure.
As shown in
As shown in
The plurality of upper and lower honeycomb ribs are connected to the cylindrical body 1 through the plurality of connecting structures 4. The plurality of connecting structures 4 provide welding points between the plurality of upper and lower honeycomb ribs and the cylindrical body 1.
Specifically, as shown in
The density of the plurality of upper honeycomb ribs 2 and the plurality of lower honeycomb ribs 5 can be adjusted through the density adjustment structure 3. The density adjustment structure 3 is connected to the upper and lower honeycomb ribs through the ring structure 6. Adding the density adjustment structure 3 can increase the density of the upper and lower honeycomb ribs to increase the structural strength. Specifically, as shown in
The principles of the present disclosure are as follows:
The plurality of upper honeycomb ribs 2 and the plurality of lower honeycomb ribs 5 are of a honeycomb structure formed by a plurality of ribs arranged symmetrically. Each of the connecting nodes is of a ring structure to increase the connecting points. The density of the honeycomb ribs can be adjusted as needed. The inner surface of the cylindrical body is connected to the outside of the honeycomb ribs through the plurality of connecting structures.
The plurality of upper and lower honeycomb ribs are formed by a plurality of basic structures in a regular hexagonal shape, used to strengthen the internal structure of the rotating gantry which is the cylindrical body. The arrangement of the honeycomb ribs makes the space connecting to the inner surface of the cylindrical body fully satisfied. The connection nodes of the plurality of basic structures in a regular hexagonal shape which form the honeycomb rib structure are of the ring structure to increase the welding points, so that the structural strength is improved. The inner cavity of the ring structure can be configured to install the auxiliary support structure, and adjust the density of the honeycomb ribs. The outer edge of the honeycomb rib structure is connected to the inner surface of the cylindrical body through the designed enhancement structure to provide the welding positions for the honeycomb ribs, ensuring the structural strength.
The present disclosure realizes the lightweight of the rotating gantry under the premise of satisfying the structural strength of the rotating gantry of the proton therapy device, and the density of the honeycomb rib structure can be adjusted to satisfy requirements under the different working conditions due to the special structural design.
Number | Date | Country | Kind |
---|---|---|---|
201611142807.4 | Dec 2016 | CN | national |
This application is a continuation of International Application No. PCT/CN2017/115353, filed on Dec. 9, 2017, which claims priority from Chinese Patent Application No. 201611142807.4, filed on Dec. 13, 2016, both of which are hereby incorporated by reference in their entireties.
Number | Date | Country | |
---|---|---|---|
Parent | PCT/CN2017/115353 | Dec 2017 | US |
Child | 16207204 | US |