[17] Triangular thread screws are used to convert rotation

[17] Triangular thread screws are used to convert rotation Bcl-2 protein family to linear motion.

The pitch of the thread is 0.7 mm. Miniature slit-type flexible coupling is used between the DC motor shaft and the screw in each leaf.[16] This part is shown in Figure 3. Figure 3 A view of the triangular thread screws, miniature slit type flexible couplings and the DC motors This coupling is used to prevent nonaxial between the motor shaft and the triangular thread screw. This part is shown in Figure 4. Figure 4 A view of the dynamical part of the multileaf collimator system Control Part The MLC control unit consists of 14 PLCs to control the motors and 2 PLCs to control the two carriages. One of the PLCs is the link between PLCs and HMI/PC. Each

four contiguous leaves are controlled by one PLC. The connection through PLCs is done via the RS-485 port. The communication between the operator and the MLC system is done via two ways: HMI and PC. HMI and PC be communicating with one of the PLCs (mentioned above) by RS-485 port and RS-232 to RS-485 converters, respectively.[11] The two power supplies are provided 24 VDC. Changing the direction of leaf motion is done by the power relay.[11,17] This power relay is controlled by one of the PLCs. These elements (PLCs, power supplies, power relay, converter and HMI) are installed into a computer case, which is shown in Figure 5. Figure 5 An inside view of the PC case The feedback that is obtained from the revolution of the motor shaft is sent to the PC by the encoder and RS-232 port. The detection of the leaf position and the operation of

the motor are done by this feedback. The computer-controlled MLC system is done in the environment of labVIEW program. In this program, an executable file is developed under the name of MLC.vi. This program is graphical user interface between the operator and the MLC control unit. Image Processing Part The information acquired from a tomography technique such as a computed tomography (CT) machine is used to move the leaves of an MLC system. As a result, they form a specific shape, Entinostat e.g. a tumor. The image forming is accomplished by utilizing some of the functions available in MATLAB. The functions are used to extract the geometrical data including as acquisition, enhancement, and segmentation of the images, three-dimensional image reconstruction, extracting sagittal and coronal images. The position of leaves, which is called sequence leaves edges, can be saved in a text file. This file must include 52 numbers that are the coordinates of the contour of target volume. RESULTS The leaves are arranged by the following ways: (a) Using HMI it is possible to test the operation of PLCs and manually enter the numerical values of the leaves edges; (b) using labVIEW program an executable file is developed that is graphically user interfaced between the operator and the MLC control system.

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